Air Quality Impacts Using Src Versus Conventional Coal In Power Plants


3 <
ifc
•o **
.2 •£ ^
iE"SO
I a3
2^1 w
«'o S
o -3 .o
5 o s
o s: o
O » QC
          United States      Industrial Environmental Research  EPA-600/7-78-203
          Environmental Protection  Laboratory         October 1978
          Agency        Research Triangle Park NC 27711       C
Air Quality Impacts
Using SRC Versus
Conventional Coal
in Power Plants

Interagency
Energy/Environment
R&D Program Report

-------
                 RESEARCH REPORTING SERIES


Research reports of the Office of Research and Development, U.S. Environmental
Protection Agency, have been grouped into nine series. These nine broad cate-
gories were established to facilitate further development and application of en-
vironmental technology. Elimination  of traditional  grouping  was consciously
planned to foster technology transfer and a maximum interface in related fields.
The nine series are:

    1. Environmental Health Effects Research

    2. Environmental Protection Technology

    3. Ecological Research

    4. Environmental Monitoring

    5. Socioeconomic Environmental Studies

    6. Scientific and Technical Assessment Reports  (STAR)

    7. Interagency Energy-Environment Research and Development

    8. "Special" Reports

    9. Miscellaneous Reports

This report has been assigned to the  INTERAGENCY ENERGY-ENVIRONMENT
RESEARCH AND  DEVELOPMENT series. Reports in this series result from the
effort funded  under  the 17-agency Federal Energy/Environment Research  and
Development Program. These studies  relate to EPA's mission to protect the public
health and welfare from adverse effects of pollutants associated with energy sys-
tems. The goal of the Program is to  assure the rapid development of domestic
energy supplies in an environmentally-compatible manner by providing the nec-
essary environmental data and control technology. Investigations include analy-
ses of the transport of energy-related pollutants and their health and ecological
effects;  assessments of, and development of, control technologies for energy
systems; and integrated assessments of a wideirange of energy-related environ-
mental issues.
                        EPA REVIEW NOTICE
This report has been reviewed by the participating Federal Agencies, and approved
for publication. Approval does not signify that the contents necessarily reflect
the views and policies of the Government, nor does mention of trade names or
commercial products constitute endorsemerit or  recommendation for use.

This document is available to the public through  the National Technical Informa-
tion Service, Springfield, Virginia 22161.

-------
                                    EPA-600/7-78-203

                                         October 1978
Air Quality Impacts Using SRC
    Versus Conventional  Coal
             in  Power Plants
                         by
               Irving Leichter, R.C. Koch, N.L Nagda,
                  and J.L Swift (Geomet, Inc.)

                   Hittman Associates, Inc.
                   9190 Red Branch Road
                  Columbia, Maryland 21045
                   Contract No. 68-02-2162
                 Program Element No. EHE623A
                EPA Project Officer: William J. Rhodes

              Industrial Environmental Research Laboratory
               Office of Energy, Minerals, and Industry
                 Research Triangle Park, NC 27711
                      Prepared for

              U.S. ENVIRONMENTAL PROTECTION AGENCY
                Office of Research and Development
                    Washington, DC 20460

-------
                               ABSTRACT

          Air quality modeling to assess the impact of using solvent-
refined coal (SRC) as a conventional coal burning substitute in three
selected power plants was performed for each of three plants which exceed
National Ambient Air Quality Standards when burning coal.  The EPA CRSTER
Gaussian plume model with minor modifications was applied to calculate
ambient air pollution concentrations (for S02, NOX and TSP) when (a) con-
ventional coal and (b) solvent-refined coal are burned.
          Emission data from the SRC test that has been conducted at
Georgia Power's Plant Mitchell  were used to determine emission factors for
the three pollutants when burning SRC at each of the plants.  The model
results for both fuels were assessed for varying load operating conditions
at the three plants.
          The most significant impact of switching from coal to SRC is
the reduction in SO- and particulate concentrations at each of the three
power plants.  At the Shawville Plant, all of the highest 20 maximum
24-hour SCL concentrations exceed the NAAQS with coal as the fuel; with
SRC as the fuel there are no violations, and the 24-hour concentrations
are reduced by 60 to 65 percent.  At the Seward Plant, a similar reduc-
tion of S02 24-hour concentrations  (60 to 65 percent) results from the
coal to SRC changeover, although no violations of the NAAQS existed to
start with.  The Kingston Plant shows the greatest reduction of SCL
24-hour ^concentrations as a result of the switch to SRC (72 percent);
        i
with an accompanying reduction in the frequency of exceeding the 24-hour
standard for S0«
                                   -111-

-------
          A switch from conventional coal to SRC reduces the 20 maximum
24-hour particulate concentrations by 46 to 62 percent at the Shawville
Plant.  At the Seward Plant, the 20 maximum 24-hour particulate concen-
trations are reduced by 13 to 19 percent.  At the Kingston Plant, the
reduction is by 79 to 86 percent.  Each of the 20 maximum concentrations
was in violation of the NAAQS at the Kingston Plant for conventional
coal, but all  are below the NAAQS for SRC.   At all  three plants the
annual mean particulate concentrations are  reduced  to essentially back-
ground levels  when SRC is  burned.
                                -IV-

-------
                   TABLE   OF   CONTENTS


                                                                       Page

1.0  INTRODUCTION                                                        1


2.0  DATA PREPARATION                                                    4

     2.1  Sources of Meteorological Data                                 5
     2.2  Meteorological Parameters                                      7
     2.3  Background Information                                         9


3.0  PLANT EMISSION SRC CALCULATIONS                                     H

     3.1  SRC Test Burn Data                                             H
     3.2  Calculation of S02 Coal Emission Rates for Each Power Plant    12
     3.3  Computation of NOX Emission Rates for Each Power Plant         13
     3.4  Calculation of Particulate Emissions Under Normal Coal         16
          Burning Conditions


4.0  ANALYSIS OF AIR QUALITY RESULTS                                     21

     4.1  Identification of Maximum Annual 24-Hour S02 Concentrations,
          Exceedances of the National Ambient Air Quality Standards,
          and Comparison of Coal and SRC Burns at Each Power Plant       21
     4.2  Identification of Maximum Annual Mean S02 Concentration
          Exceedances of NAAQS and Comparison of Coal and SRC Burns
          at Each Power Plant                                            24
     4.3  Identification of Maximum Annual 3-Hour SO? Concentrations,
          Exceedances of NAAQS and Comparison of Coal and SRC Burns
          at Each Power Plant                                            30
     4.4  .Identification of Maximum Annual 24-Hour Particulate
          Concentrations, Exceedances of the NAAQS, and Comparison
          of Coal and SRC Burns  at Each Power Plant                      35
     4.5  Identification of Maximum Annual Mean Particulate Concen-
          trations, Exceedances  of NAAQS, and Comparison of Coal and
          SRC Burns at  Each Power  Plant                                  37
     4.6  Identification of Maximum Annual 3-Hour Particulate Con-
          centrations,  Exceedances of NAAQS, and Comparison of  Coal
          and SRC Burns at Each  Power Plant                              38
     4.7  Examination of NOX Concentrations                              40


5.0  CONCLUSIONS                                                         42
                                    -v-

-------
                               Section 1.0



                              INTRODUCTION





          The substitution of solvent-refined coal  (SRC) for conventional



coal as the fuel for a steam-electric power plant will change the air



quality impact of the plant.  Based on SRC emissions data obtained for a



pilot plant, a comparative modeling analysis was carried out to character-



ize expected changes in air quality impact (for S0~, NO  and TSP) of three
                                                  j_    X


existing power plants.  SRC test burn data were obtained from a study



conducted by others at a 22-1/2 MW unit of the Mitchell Plant of the



Georgia Power Company (Koralek and May 1978).



          The three power plants selected for the analysis are:





          •    Kingston Plant, TVA, 1700 MW, Eastern Tennessee



          •    Shawville Plant, Penn Electric Co.,  640 MW, Western

               Pennsylvania



          t    Seward Plant, Penn Electric Co., 268 MW, Western

               Pennsylvania.





All three plants are located in rural areas of relatively complex terrain.



The Seward Plant lies in an area where another power plant (Conemaugh) is



contributing to the observed pollution level.  The  Kingston and Shawville



plants are the only large emitters of S09, NO  and  TSP in their regions.
                                        £•    A


          A brief discussion of the EPA Single Source CRSTER Model used



for the air quality analysis, its input data requirements, the improvements



made to the program, as well as a comprehensive description of the assump-



tions and limitations of the modeling technique as  applied to the selected



plants, are provided in Appendix A.  For each of the three power plants,
                                    -1-

-------
detailed information about operating plant characteristics, plant emissions



when burning coal  and topography was collected.   Meteorological  data for a



full year were assembled for recording locations in proximity to the plants



in question.  A discussion of the meteorological data used for each plant



site is also presented in Section 2.0.



          The next step in the analysis was to obtain and review SRC test



burn information available from the Georgia Power Company's Mitchell Plant.



These data are described in Section 3.0.   Emission rates were calculated



for S0«, NO  and particulates from the Mitchell  SRC test burn, relating
      C.    X


the rates to fuel  consumption, chemical analysis of fuel and BTU content



per unit weight of fuel.  Emission factors for the use of SRC fuel in the



three selected power plants were computed.  The calculation of emission



rates and emission factors is described in Section 3.0.



          For air quality impact analysis, the dispersion of pollutants



from each of the three power plants was modeled for a full-year period



burning conventional coal or solvent-refined coal under normal and maximum



load conditions.  For each configuration, 24-hour annual, 3-hour annual



and annual average ambient concentrations of S09, NO  and TSP were calcu-
                                               C    A


lated with CRSTER for 180 selected receptor points.  Maximum values,



exceedances, numbers of and distribution of exceedances for each averaging



period are identified in Section 4.0.  Summary printouts of the dispersion



modeling analyses appear in Appendix B.  A tabulated comparison of the



ambient air quality impacts of the results of burning coal and SRC at the



three modeled plants is presented in Section 4.0.  A discussion of the



implications of burning SRC instead of coal in the three locations is
                                     -2-

-------
included in Section 5.0.   The extent of decrease or increase in probable



NAAQS exceedances of SCL, NO  and TSP as a result of the fuel  shift, and
                       £     X


the confidence limits of  the Gaussian plume model  are also discussed.



Substantial reductions in the frequency of exceeding the NAAQS for SCL,



and particulates for annual  mean, 24-hour and 3-hour concentrations occur



at both the Shawville and Kingston Power Plants as a result of the switch



from coal  to solvent-refined coal, and are quantified in Section 5.0.
                                   -3-

-------
                               Section  2.0
                            DATA PREPARATION

          The data required to make air quality analyses may be classified
as source or emission data, including emission rates,  stack height, stack
diameter, and stack gas exit temperature and velocity; and as meteorological
data, including wind speed, wind direction, atmospheric stability, mixing
height and ambient temperature.  These data are obtained from a variety of
sources each of which may have a separate format and units.  A good portion
of the work of this study has been concerned with assembling, checking,
editing, merging and otherwise preparing the data for use in the air quality
model.
          The primary source of emission data was furnished by information
from the Federal Power Commission  Form 67 for each of the three power
plants.  Generally, the available  data were complete and accurate.  Emissions
were summed  over all units ducting into a particular stack.
          Average monthly  values of  exit  temperature  (TS) and exit velocity
(VS) for each  stack were obtained  after comparing the actual  fuel  consump-
tion with the  boiler capacity  factor given  on  the FPC Form  67  for  each
boiler  to determine a  load factor  (LF).   Exit  temperatures  and exit veloci-
ties  for  each  stack  are given  for  50,  75,  and  100 percent  loads.   The
following criteria  were established:
                If  LF  > 87% use TS  =  TIO(J% and  VS =
                If  62%  1 LF 5. 87% use TS  = T?5% and  VS =
                If  LF  < 62% use TS  =  T     and  VS =
                                    -4-

-------
          Total daily SOp emissions in tons SO^/day were available for
each unit of the Kingston Power Plant from the Tennessee Valley Authority
in Muscle Shoals, Alabama.  These data had been computed by TVA assuming
that 90 percent of the sulfur in the coal was converted to S02 when the
coal was burned.  Average capacity factors for each month were used to
determine which values of exit temperature and velocity were to be used in
model calculations.
          The meteorological data presented a more formidable problem than
emission data because of the inherent variability in meteorological condi-
tions in comparison to plant operating conditions (which are reported to
be relatively constant from day to day).   A one-year record of complete
1-hour average meteorological  conditions  was assembled for each plant site
that was analyzed.

2.1   SOURCES OF METEOROLOGICAL DATA

2.1.1  Shawville
          A meteorological tower near the Shawville plant provided wind
speed and direction from the 91 m level as well  as wind speeds at
12m.  Temperatures measured at 91 and 12 m were used for temperature
gradients, and ambient temperatures from 12 m were used in modeling.
Three-hour Williamsport cloud cover and ceiling heights were used for
Shawville, while mixing heights applicable for the Shawville region were
obtained by interpolation between the three surrounding radiosonde
stations - Pittsburgh, Albany, and Philadelphia.
                                   -5-

-------
2.1.2  Seward
          Meteorological  data for the Seward Power Plant operated by
Pennsylvania Electric were obtained from a tower located at the top of Penn
View Mountain which is approximately 10 km northwest of the Seward plant.
Wind speed and direction  data were taken at the 91 m level of the Penn
View tower.   Wind directions for each hour were averaged to the nearest
degree.  Wind speed data  were also obtained for the 12 m level for use in
stability class determination.  Hourly temperature gradients were based on
measurements at the 46 and 12 m tower heights.   Ambient temperature from
the 12 m level was used.   No solar radiation data was available for this
region for 1975.  Cloud cover, ceiling height,  and mixing heights from the
National Weather Service  station at the Greater Pittsburgh Airport were
applied as model inputs for the plant.

2.1.3  Kingston
          The Kingston Power Plant had the most complete meteorological
observation system of those utilized in this, study.  Two meteorological
towers provided much of the hourly data necessary for the modeling of S02
concentrations near the Kingston plant.  The Kingston Valley tower, located
 approximately 0.5  km east of'the plant with its  base about 30 m  above
plant  grade,  provided wind speed data from  the 10 m  level for use in  stabil-
ity class determination, solar radiation data, atmospheric pressure readings,
and ambient temperature data also from the  10 m' level.  The Kingston  Heights
meteorological tower operated  by TVA,  located 2.6 km  to the southwest of
the plant and at an elevation  approximately 122 m higher than plant grade,
provided wind speed and direction data from the 45 m  tower  level, a0  and  a
                                   -6-

-------
also from the 45 m level, and temperature data for 45 m and 10 m.  Cloud
amount and ceiling height data were available every third hour from the
National Weather Service station at Knoxville, Tennessee.  Mixing heights
computed from the radiosonde data taken at Nashville were obtained from the
Air Pollution Control section of the Nashville Metropolitan Health Department.
The preparation steps which were taken with regard to each meteorological
parameter to obtain a complete and accurate set of values are described
below.

2.2  METEOROLOGICAL PARAMETERS

2.2.1  Hind
          Wind direction was considered to be the most critical  parameter.
As a result attempts were made to obtain wind measurements from a location
close to each plant which is representative of the direction of travel of
the stack plumes.   At all plant sites, measurements were available from
nearby towers on ridges which are representative of the plume travel  direc-
tion a large percentage of the time.
          In order to obtain wind estimates for missing hours, alternate
measuring locations are specified as second,  third and fourth choices to
supply missing values.   If the period of missing values is less  than  6 hours,
the missing values are estimated by interpolation; otherwise,  the alternate
sources of data are used.
          Wind speeds reported as less than 1.0 m/sec are set equal  to
1.0 m/sec.   Wind directions  which are reported to an increment greater
than 1  degree azimuth are randomized  to a value within the increment  to
                                    -7-

-------
the nearest degree. This is done by subtracting one-half the increment

from the reported value and adding to the results the product of a random

number between 0 and 1 times the increment. If the wind direction is

reported only as variable, the increment is assumed to be 360°. A small

percentage of the annual observations were reported as variable.

2.2.2 Atmospheric Stability

Atmospheric stability for each hour was determined from one of

two types of data: either vertical temperature gradients measured on towers

or cloud observations observed at airports. The vertical temperature

gradients corresponding to the four Brookhaven stability categories are

shown below:*

AT fornnr^\ Pasquill
Stability Category AZ ( C/IUOmJ Stability Class

Very unstable < - 1.9 A
Unstable - 1.5 to - 1.9 B and C
Neutral - 0.5 to - 1.5 D
Stable > - 0.5 E and F

In cases characterized by missing vertical temperature gradient data,

Pasquill stability categories, determined by windspeed and cloudcover

were converted into Brookhaven categories.

2.2.3 Mixing Height

Mixing height, the height above ground level to which air in the

vicinity of the ground is mixed, is determined from balloon-borne temper-

ature sondes. Such measurements are taken twice daily at certain airports

* Methods of relating the Brookhaven stability categories to the measures of stability recently recommended
by the American Meteorological Society (Hanna et al. 1977) have not yet been developed. The relation-
ships used represent the best currently available techniques of relating the Brookhaven parameters to
meteorological measurements.

-------
and, until 1974, at some metropolitan areas.  From these soundings the
height of the mixing layer is determined by testing how high a parcel of
air released at the surface will rise before further rise is strongly
suppressed by buoyancy forces.  Estimates of the mixing height derived by
local air quality control agencies were interpolated in time over a 24-hour
period to get hourly estimates using the following guidelines:  the morning
estimate is assumed to be applicable for the hours between midnight to
7 AM.  The afternoon estimate is assumed to be applicable for the hours
from 2 PM to midnight.  Values for the hours between 7 AM and 2 PM are
determined by linear interpolation between the morning and afternoon
estimates.  The mixing heights were spatially interpolated to individual
plant sites using two or three point interpolation, depending on which was
most appropriate for each plant.

2.2.4  Temperature
          Ambient air temperatures for each plant site were determined from
the closest available measurement.   An alternate source was used to fill
in missing values.   Since this parameter has the least impact on the model
calculation, if the primary and secondary sources were missing, a value of
283°K was substituted.

2.3  BACKGROUND INFORMATION
          Background concentrations of S0?, NO  and TSP were determined for
                                         £    A
each plant site under study for which monitoring data were suitable.  Back-
ground concentrations of these pollutants are defined to be the contribution
to the ambient SOg* NO  and TSP concentrations not due to the major emissions
                                   -9-

-------
by the plant whose impact  is  being  analyzed.   The background data were
obtained from three primary sources;  monitoring networks in the vicinity  of
the plants, the Pennsylvania  1975 Air Quality Surveillance Survey System
Air Quality Report, and EPA Air  Quality data  quarterly statistics.  Day-to-
day variations in background  levels have not  been included in the model
estimates.  The background concentrations utilized for this study are  shown
in Table 1.
  Table 1. Background Concentrations (yg/m ) for Each of the Three Pollutants at Each of the Three
                        Power Plants Utilized in the Model Runs

Plant
Shawville
Seward
Kingston
Background (yg/m )
Annual Arithmetic Mean
so2
34
45
13
NO
X
52
52
40
Annual
Geometric Mean
P articulate
75
75
65
           Background values are added  to  the  model-derived concentrations to
 provide the resultant pollutant concentration at each receptor in the print-
 outs.   Note that the particulate background  values  for the Shawville and Seward
 plants are at the Federal primary annual  geometric  mean NAAQS of 75 ug/m^.
           Since the objective of this  study  is to assess the relative impact
 on pollutant concentrations as a result of switching from coal to SRC, the
 background concentration values are  not such  an important aspect of deter-
 mining the air quality impact resulting from  the switch to SRC.
                                     -10-

-------
                                Section 3.0
                      PLANT EMISSION SRC CALCULATIONS

3.1  SRC TEST BURN DATA
          A three-phase combustion test at the Georgia Power Company's
Mitchell Plant, located near Albany, Georgia, was performed to determine
whether SRC can be burned in a pulverized coal-fired boiler.  In Phase I
of this program, low sulfur Kentucky coal was burned in the existing,
unmodified 22-1/2 MW coal boiler.  Phase II of the test was conducted
upon replacement of the original burners with dual register burners and
accompanying modifications and utilizing similar low-sulfur Kentucky coal.
Following adjustment of the burners and the pulverizers, SRC was burnt
for the Phase III test.  The SRC was produced at the Fort Lewis pilot plant
from western Kentucky coals having a sulfur content of approximately 4 per-
cent and an ash content of 10 to 12 percent.  Sulfur and ash in the SRC
were nominally 0.6 and 0.1 percent respectively.  In each of the three
phases of the program, the boiler was operated at full (approximately 21 MW),
medium (approximately 14 MW), and low (approximately 7 MW)  load conditions.
Details concerning the sampling procedure may be found in a paper from
Hittman Associates, presenting preliminary results of available analyses
(see Appendix C).  The paper contains the data utilized in plant emis-
                                              |
sion SRC calculations, showing the conditions and combustion test parameters
for each of the SRC runs, and is incorporated as Appendix C of this report.
                                     -11-.

-------
3.2  CALCULATION OF SO,, COAL EMISSION RATES FOR EACH POWER PLANT
          GEOMET maintains an in-house program which compiles coded FPC
Form 67 data to input format of the CRSTER program.   For each plant the
input parameters include the number of boilers, number of stacks, monthly
sulfur content in coal for each boiler, monthly coal consumption at each
boiler, boiler capacity factor, design consumption data, stack parameters
such as height and diameter as well as temperatures and stack exit veloci-
ties for 100, 75 and 50 percent loads.  The program outputs an S02 emission
rate for each stack, monthly variation factors and suggests five ring dis-
tances for the plant receptors.  These distances are manually altered to
accommodate nearby large-scale topographic features upon which the plant
plume may impact.
3.2.1  Calculation of SRC SQ0 Emission Rates Based on Mitchell Test
       Burn Data
          Six SRC test run cases contained the complete information required
to derive an SRC S02 emission factor.  These six cases were averaged to pro-
vide a mean heating value, a mean  S02 emission per unit heat output, and a
mean percentage  sulfur in the SRC  fuel.  The SRC emission factor for S02 was
then computed as follows:
                               Ib  S02                        /^ SO
       Heating  Value ^- SRC x —z	» SRC emission factor I,. -Rr
                      Ib       1Q6 BTU                       Mb SKL
The SRC S02 emission  factor was then  applied to each of the three power
plants.  FPC Form 67  for  the year  1975 was used for each of the power plants
to obtain the necessary annual coal  consumption data for each plant boiler.
                                      -12-

-------
The annual coal consumed was converted into an equivalent SRC SC^ emission


rate for each plant stack as follows:
     1b.SRC = Ik coal x ^S- coal (for plant in question) x B^T SRC
       hr     nr         ID                                 BIU




     Ib SO       -                         Ib'SO
                           x

x SRC emission factor 1h CDp x SRC Percent Sulfur
     —                                    1h
       hr       hr                         ID





These S02 emission rates were converted to grams per second for input into



the Air Quality Model.





3.3  COMPUTATION OF NO  EMISSION RATES FOR EACH POWER PLANT
                      /\


          NO  emission rates for the three power plants for the case of con-
            A


ventional coal burning were derived from FPC yearly coal consumption data



and a nitrogen oxide emission factor suggested by EPA's AP-42 Compilation



of Air Pollutant Emission Factors for the case of a large industrial pul-



verized (general) boiler.  For each plant boiler, the annual coal consumption



was multiplied by the NOV emission factor of 18 Ib/ton  (9 kg) coal to
                        A


give an annual boiler NO  emission rate.
                        A\   '                          '


          The derivation of NO  emission factor for SRC was somewhat more
                              X


complicated than for other pollutants, such as SO^.  This complication stems



from the fact that formation of NO  is highly temperature-dependent.  Emis-
                                  A


sions of NO  permit an amount of fuel increase with size of the boiler
           A .


since large boilers usually have higher operating temperatures.  In order



to include the size-dependencies, the NO  emission factor computed based
                                        A


on Mitchell test burn data (Section 3.3.1) was corrected for each plant with



scaling factors (Section 3.3.2).
                                      -13-

-------
3.3.1  Calculation of SRC NO  Emission Rates Based on Mitchell Test

       Burn Data



          An average NO  SRC emission factor was derived using the same
                       /\


methodology applied to the test burn data which resulted in the S02 emis



sion factor.  The SRC emission factor for NO  was computed as follows:
                                            J\
                              lh                   BTU        lb  N°x
        NOX Emission Factor ^^ - Heating Value ~w SRC x ^
          The  SRC  NO   emission  factor was  then  applied  to  each  of the  three
                    /\


 power  plants.   FPC Form  67  for  the year  1975  was  used for  each  of the  power



 plants  to obtain the necessary  annual coal  consumption  data  for estimation



 of  the  SRC  consumption rate for each plant boiler.   This quantity was  multi-



 plied  by the  EPA NOV emission  factor, the  percentage nitrogen of the SRC,
                    A


 and converted  into units of grams  per second  NOX.





 3.3.2   Computation of  a  Scaling Factor  for NO.,  to be Applied to SRC Cases
        •MMBH^H^MMMBMJ ----  IT. •*••_••.  _ ---- L~  "" ^ — -1-" — •—  I     ^


           Figure 1 (Hangebrauck et al.  1964)  relates oxides  of nitrogen



 emission to furnace heat input  and shows that the rate  of  N0x emission is



 a power function of the  gross  heat input with an  exponent  greater than 1.0,



 implying that  larger units  produce more  N0x on  a  pound-per-BTU basis.   The



 effect is to be expected since  higher temperatures in these units are a



 major  factor in producing increased  NO   emissions.  The respective plant
                                      /\


 generating capacities  were  converted to gross heat input values and the
                                      -14-

-------
following  equation  applied to  provide the  pounds of  N0x emitted per  hour

for each  plant:
                   Log  NO  =1.138 Log  (Heat  Input) -  7.553
                          A
The  scale  factors given in  Table 2 were used to  compute SRC NO   emission
                                                                         A

rates.
                        r iiiiiij—l !  I !llll|  i  i 11 HIM  i  i i unit   i  i i I.IIIIL  A
                                   NO* EMISSION RESULTS REPORTED
                                   3Y OTHER INVESTIGATORS (14) FOR
                                         GAS AND OIL
                                                    -	AVERAGE OF COAL-,OIL- AND  -
                                                       GAS-FIRED SOURCES
                                       // '   LOG NOX =1.138 LOG (HEAT INPUT)-7 553    _
               00001
                             10*       ~I06        I07        I08        I09

                                GROSS HEAT INPUT TO rURNACE-Btu PER HOUR
             Figure 1. Relationship of Oxides of Nitrogen Emissions to Furnace Heat Input.
                                           -15-

-------
        Table  2. Comparison of Plant Capacities, Heat Inputs, Calculated Ib/hr NO  , and
                       Derived Scale Factors for All Plants
Plant

Kingston

Shawville

Seward

Mitchell
Plant
Capacity (MW)

1700

640

268.2

21.5
Heat
Input (BTU/hr)
10
1.66 x 10
9
6.24 x 10
9
2.62 x 10
8
2.10x 10
Ib/hrNO
x

11953

3925. 7

1462. 26

82.73
NO lb/10 BTU
x

0.72

0.629

0.558

0.394
Scale
Factor

1.83

1.60

1.42

1.0
3.4  CALCULATION  OF  PARTICULATE EMISSIONS UNDER NORMAL COAL  BURNING
     CONDITIONS
           The  EPA emission factor for bituminous coal combustion without
control  equipment for the case of a general pulverized industrial  boiler
was  utilized  in  the  calculation of particulate emissions  under  normal  coal
burning  conditions.   The emission factor of 16 Ib/ton (8g/kg) was  multiplied
by the average percent coal  ash for each plant and the quantity of coal
consumed (for  each boiler) to give the uncontrolled particulate emissions
for each stack.   These values were multiplied by the emission for  each stack.
These values were multiplied  by the factor (1  - fractional precipitator  effi-
ciency)  for each  stack to give the controlled particulate emissions, which
were converted to emission rate units of grams/sec.  These emission rates
were combined when several boilers were served by one stack.  As an example:
         Emission  Rate =  16     - (EPA Emission Factor) x % Coal  Ash
                          x  Coal  Consumed x (1  - eff.)
                                       -16-

-------
3.4.1  Calculation of Participate Emission Under Normal SRC Burning Conditions
          The ash content of SRC was substantially lower than that of conven-
tional coal (0.1  percent as compared to 10 to 15 percent for conventional
coal).  Results of the Mitchell test burn were not useful due to insufficient
data.  Sampling flow rates were not available.  Emission samples for the SRC
test burn were collected at the outlet of precipitator #1.  This precipitator
was a 1946 vintage unit with a reported efficiency of 20 percent for the SRC
test burn.  A comparable efficiency for conventional coal for the precipita-
tor #1 was not known.
           For  the SRC particulate emission factor, it was determined that
all  the ash would be emitted since no bottom ash was collected in the SRC
test burn.   (EPA emission factor for coal assumes 20 percent of ash is
not emitted.)  To obtain controlled emissions, a factor which accounts for
differences in collection of coal fly ash and SRC fly ash was used based
on data for precipitator #3.  Precipitator #3 was found to have an efficiency
of 98.5 percent for coal and an efficiency of 95 percent for SRC.
          For each boiler of the Shawville, Seward and Kingston power plants,
the controlled particulate emissions for an assumed SRC burn were computed
as follows:
Controlled Emissions SRC = [1  - (Eff.  for Coal)
                           x (Efficiency Correction Factor for SRC)]
                           v T«nc nf rr,= i v BTU/lb Coal
                           x Tons of Coal x BTU/1b $RC
                           x Ash Content SRC
                                      -17-

-------
The ratio of the Mitchell precipitator #3 efficiency for SRC to that of coal
(i.e., 0.95/0.985) was used as the correction factor for SRC in the calcula-
tions.
3.4.2  Calculation of Parti cul ate Emissions Under Maximum Load Coal Burning
       Conditions and SRC Burning Conditions
          To compute the particulate emission rates for maximum load coal
burning conditions for each boiler, the following relationship was used
since the particulate emissions are proportional to the S02 emissions for
different load conditions:
   „   .     n   *•'  i  *     Normal  Coal  Particulate    Maximum  SOe  Emission
   Maximum  Particulate         Emission  Rate       x     Rate  for  Coal
   Emission  Rate  for   =  - Normal SO,  Emission  Rate  for Coal
         Coal                           2
 Similarly, for  computing the  particulate  emission  rates for maximum load SRC
 burning conditions, the  following  relationship was used:
      .    '    ..  .  .     Normal  SRC Particulate   Maximum SOe Emission
   Maximum  Particulate         Emission  Rate      x     Rate  for SRC
    Emission Rate  for  =  - Normal  SO? Emission Rate for SRC
          SRC                            
-------
Table 3.  Summary of Emission Rules Derived tor Each of die Three PolluUnU Ullder Varied Coal* ami SRC« load Condition and the Stack Exit Velocity and Temperaturei lltlll.ej In the Model Rnni
Parameter
so2
NO
X
Paniculate

so2
NO
X
'articulate

so2
NO
X
'articulate
* Coal contatr
** SRC contali

SUck
1
2
1
2
2

3
4
3
4
3
4

1-4
5-9
1-4
S-9
1-4
S-9

Coal - Normal Emission
Emission
Rate (g/l)
81S
1220
176
275
83
269

280
616
52
115
14
38

2088
3196
410
720
546
593
Exit Tempera-
ture (OK)
391
386
391
386
391
386

449
414
449
414
449
414

416
414
416
414
416
414
Exit Velocity
(ro/i)
21.8
18.8
21.8
18.8
21.8
18.8
Shawville
Coal - Maximum Emission
Emission
Rate (g/i)
1001
1461
216
329
102
322
Exit Tempera-
ture (°K)
403
396
403
396
403
396
Exit Velocity
(Ws)
29.4
22.5
29.4
22.5
29.4
22.5
SRC - Normal Emission
Emission
Hate (g/«)
254
397
168
261
1.12
2.74
Exit Tempera-
ture (OK)
391
386
391
386
391
386
Exit Velocity
(">/«)
21.8
18.8
21.8
18.8
21.8
18.8
SRC - Maximum Emission
Emission
Rate (g/s)
312
476
206
313
1.4
3.3
Seward
31.3
32.7
31.3
32.7
31.3
32.7

10.9
10.5
10.9
10.5
10.9
10.5
428
672
79 •
125
21.4
41. S

2937
4016
S77
905
768
745
449
414
449
414
449
414
31.3
32.7
31.3
32.7
31.3
32.7
75
164
44
97
0.24
0.58
449
414
449
414
449
414
31.3
32.7
31.3
32.7
31.3
32.7
114
179
69
89
0.36
0.63
Exit Tempera-
ture (OK)
403
396
403
396
403
396

449
414
449
414
449
414
Exit Velocity
('«/«)
29.4
22.5
29.4
22.5
29.4
22. S

31.3
32.7
31.3
32.7
31.3
32.7
f
Back-
ground
(Ug/m )
34
52
75

45
52
75
Kiugston
427
422
427
422
427
422
14.3
13.7
14.3
13.7
14.3
13.7
533
936
4O2
70S
3.7
S.4
Ing 0. 70".!, sulfur, 1. 6S« nitrogen and 0. IK ash.
416
414
416
414
416
414

10.9
10.5
10.9
10. S
1O. 9
10.5

750
1177
566
887
5.2
6.8

427
422
427
422
427
422

14.3
13.7
14.3
13.7
14.3
13.7

13
40
65

-------
           Table 4  shows the percent reduction in emission rates  under normal
load conditions realized for  all  three pollutants as  a result  of the switch-
over from coal to  SRC at the  three power  plants.

           It is evident that  significant  reductions occur in the emissions
of S02  and particulates when  SRC  is substituted for regular coal  at each  of
the three power plants.  The  large reductions in particulate emission rates
are related to differences in  the ash content and the BTU content of SRC.


                  Table 4. Percentage Reduction in Emisrion Ratal as a RetuJt of the Switch to SRC Coal
Plant
Soawvill*



Scwatd



Klngnra



PoUutant
Emiaion
so2

NO
X

TSP

S°2

NO
X

TSP



NO
X

TSP

Sack
1
2
1
2
1
2
3
4
3
4
3
4
1-4
5-9
1-4
5-9
1-4
5-9
Coal (g/i)
Normal*
315
1220
176
275
S3
269
230
616
52
US
14
38
2088
3196
410
720
546
593
SRC (g/«)
Normal"
254
397
168
261
1.12
2.74
75
164
44
97
0.24
0.58
533
936
402
70S
3.7
5.4
Percent
Reduction
69
68
5
S
99
99
73
73
IS
16
99
99
74
71
2
2
99
99
  * Sulfur and ash content of present plant fuels are as follows:     Ash (%)       Sulfur (%)
                                       Shawville        13.5           2.2
                                       Seward          15.6           2.5
                                       Kingston         18.4           2. 3
  **  The SRC fuel contains 0. 7% sulfur, 1. 65% nitrogen and 0. 19% ash.
                                       -20-
-------
                               Section 4.0
                     ANALYSIS OF AIR QUALITY RESULTS

          This section describes air quality modeling results for SO^ and
particulates using the modified CRSTER model.  Although the model was run
for cases of NOV, uncertainties in the photochemistry and the scaling tech-
               A
niques employed for this pollutant serve to lower our confidence in both
calculated emissions and ambient concentrations of NOV for both coal and
                                                     X
SRC cases at each of the power plants.  Consequently, little analysis was
attempted for NOV modeling results, but the detailed NOV concentration data
                A                                      A
are included in computer printouts in Appendix B.  The printouts contain
information about identified maximum concentration values, 3-hour, 24-hour
and annual averaging periods for both fuel types and normal and maximum
load conditions for S02» NOX and TSP at each of the power plants.  It must
be remembered that in general, Gaussian models show greater overestimation
near the plant, while being within a factor of two at greater distances.

4.1  IDENTIFICATION OF MAXIMUM ANNUAL 24-HOUR SO? CONCENTRATIONS.
                 °FE NATIONAL AMBIENT AIR QUALITY STANDARDS. AND
                _.
     COMPARISON OF COAL AND SRC BURNS AT EACH POWER PLANT
4.1.1  Shawville - 24-Hour SO,, Concentrations
          The highest annual 24-hour SO,, concentration for the case of
                                       c.
the Shawville plant utilizing regular coal, 681 yg/m3, is found to impact
north of the plant (360°) at a distance of 0.83 km.  Of the 20 maximum
24-hour S02 concentrations generated fay the Gaussian model, 30 percent
are found to lie to the north of the plant, within the first two selected
rings (0.83, 1.66 km).   Sixty-five percent of the 20 maximum S00
                                    -21-
-------
concentrations impacted on the first ring.  Secondary maxima are found
to occur  in the 100°-140° sector, at distances close to the plant.
          Of the 20 maximum 24-hour S02 concentrations, all were found
to violate the National Ambient Air Quality Standard of 365 yg/m , with
                                                       3             3
the generated values ranging from a maximum of 681 yg/m , to 372 yg/m .
          With a switch in fuel  type to SRC,  each of the 20 maximum 24-hour
S02 concentrations are brought into compliance down below the NAAQS,  with
                                                       •5             •J
the generated values ranging from a maximum of 243 ug/m ,  to 143 yg/m .
The change over to SRC results in reductions  in the 20 top 24-hour  S02
concentrations on the order of 60 percent to  65 percent.

4.1.2  Seward - 24-Hour SOp Concentrations
          The highest annual  24-hour S02 concentration for the case of the
Seward plant utilizing regular coal, 350 ug/m  is found to impact northwest
of the plant (300°) at a distance of 2.75 km.   Of the 20 maximum 24-hour
S02 concentrations generated by the Gaussian  model, 30 percent are  found to
lie to the east-northeast of the plant (80°),  falling on the 2.75 and 3.65
km ring distances.  Forty-five percent of the 20 maximum S02 concentrations
impacted on the second ring (2.75 km).   Secondary maxima are found to occur
in the 290° to 360° sector at 1.17 to 5.23 km from the plant.
          Of the 20 maximum 24-hour S02 concentrations, none were found to
                                                             3
violate the National Ambient Air Quality Standard of 365 yg/m , with the
generated values ranging from a maximum of 350 yg/m , to 251 yg/m .
          With a switch in fuel  type to SRC,  each of the 20 maximum 24-hour
S02 concentrations remain below the NAAQS with the generated values ranging
                                 -22-
-------
                            3            3
  from a maximum of 126 yg/m  to 100 yg/m .  The changeover to SRC results
  in reductions in the 20 maximum 24-hour S02 concentrations on the order
  of 61 to 65 percent.
  4.1'.3  Kingston - 24-Hour SOp Concentrations
          The highest annual 24-hour S02 concentration for the case of
the Kingston power plant utilizing regular coal, 1951 yg/m3, is found to
imoact north of the plant (360°) at a distance of 1.33 km (Ring #2).  Of
the 20 maximum 24-hour S02 concentrations generated by the Gaussian model,
50 percent are found to lie to the north of the plant (360°), falling on
the first and second rings (0.71 and 1.33 km).  Secondary maxima are
found to occur to the southeast (160°) at the first ring; 30 percent of
the 20 maximum 24-hour S02 concentrations fall into this category.
          Of the 20 maximum 24-hour S02 concentrations, all  were found
to grossly violate the National  Ambient Air Quality Standard of 365 yg/m3
with the generated values ranging from a maximum of 1951  yg/m3 to 1178 yg/m3.
          With a switch in fuel  type to SRC, and assuming that normal  stack
exit temperatures and exit velocities remain the same, a  72  percent reduc-
tion in S02 concentrations is realized.  Of the 20 maximum 24-hour concentra-
tions, 65 percent of them still  exceed the NAAQS.   If the fuel  switch  to
SRC were to be accompanied by a  stack exit velocity 25 percent greater than
the normal  stack exit velocity for coal, a 77 percent reduction in S02 con-
centrations is realized.   Of the 20 maximum 24-hour concentrations, 25 per-
cent of them exceed the NAAQS.   Minor differences  result  in  the direction
of some of the impact cases  for  the 20 maximum 24-hour concentrations  with the
                                  -23-
-------
increased velocity,  although the impact  distances remain essentially the
same.  Table  5  summarizes the frequencies  of exceeding the  24-hour NAAQS
for SO? for normal  load and maximum  load conditions at each of the three
power plants.
              Table 5. Frequency of Exceeding 24-Hour Standard for SO2 Based on
               1975 Operating Levels for Regular Coal and for SRC Combustion
Plant
Shawville
Seward
Seward
Kingston
Kingston
Kingston
Fuel
Coal (2. 2%S)
SRC (0. 7%S)
Coal (2. 5%S)
SRC (0. 7%S)
Coal (2. 3%S)
SRC*(0. 7%S)
SRC**(0. 7%S)
Estimated Number of Exceedances Per Year
of Federal 24-Hour Standard (i. e. , 365 yg/m3)
Normal Load
20
0
0
0
20
13
5
Maximum Load
18
0
6
0
20
12
6
     * Stack exit velocity assumed to be the same as the coal case.
    ** Stack exit velocity assumed to increase by 25 percent.
 4.2  IDENTIFICATION OF MAXIMUM ANNUAL  MEAN SO? CONCENTRATION  EXCEEDANCES
                AND COMPARISON OF COAL ANrarBuftNS AT EACH  POWER POTT^
 4.2.1  Shawville - Annual Mean S02  Concentrations
            The highest maximum annual  mean S02 concentration for the case
                                                          3
 of the  Shawville Plant utilizing  regular coal, 60 yg/m   is  found to impact
                                     -24-
-------
in a direction east-southeast of the plant (100°) at a distance of 0.8 km.
                    O
The NAAQS of 80 yg/m  for the one year is not violated.

          With a switch in fuel  type to SRC the highest maximum annual

mean S02 concentration appears at the same distance and direction and is

                                                      3
reduced approximately 30 percent to a value of 42 yg/m .  Isopleth charts

for the two cases of S02 concentrations resulting from coal  and SRC burns

at the Shawville plant follow in Figures 2 and 3, respectively.



4.2.2  Seward - Annual Mean SOp Concentrations


          The highest maximum annual mean S02 concentrations for the case
                                                   3
of the Seward Plant utilizing regular coal, 64 yg/m ,  is found to impact

in a direction east-northeast of the plant (80°)  at a  distance of 3.7 km.
                    o
The NAAQS of 80 ug/m  for one year is not violated.

          With a switch in fuel  type to SRC, the  highest maximum mean S02

concentration appears at the same distance and direction and is reduced
                                •3
22 percent to a value of 50 ug/m .  Isopleth charts for the  two cases of

S02 concentrations resulting from coal and SRC burns at the  Seward plant

follow in Figures 4 and 5.


4,2.3  Kingston - Annual Mean SO? Concentrations


          The highest maximum annual mean S02 concentrations for the case

of the Kingston Plant utilizing regular coal, 150 yg/m3 is found to impact

1n a direction north of the plant (360°) at a distance of 0.7 km.  The

primary NAAQS of 80 yg/m3  S02 for one year is violated at this plant.  Four

violations are found out of the total of 180 receptor locations; these vio-

lations occur within 1.3 km of the Kingston plant to the north and northeast.
                                 -25-
-------
            40
40
                                                                                      45
                                                                                                      50
                                                                              Ring distances: 0.83,1.66,
                                                                                      3.32, 6.65km
                        Figure 2.  Predicted Annual Average SO  Concentrations in Vicinity
                                  of the Shawville Plant During Coal Burn (ug/m )
                                                    -26-
-------
36
                                                         Ring distances:  0.83,  1.66,  3.32, 6.65km
           Figure 3.  Predicted Annual Average SO  Concentrations in Vicinity
                    of the Shawville Plant During  SRC Burn (ug/m3)
                                        -27-
-------
                50
50
                                                                          ,50
                                                                                        55
                                                                                          50
                                                                                   Ring distances:  1.17,  2.07
                                                                                   2.75, 3.65,  5.23 km
                  Figure 4.  Predicted Annual Average SO  Concentrations in Vicinity
                             of the Seward Plant During Coal Burn (;ig/m3)
                                             -28-
-------
 46
                                                 46
                                                                     48
                                                                              48
                                                                  46
                                                               Ring distances:  1.17, 2.07,
                                                               2.75,  3.65,  5.23 km
Figure 5.  Predicted Annual Average SO2 Concentrations in Vicinity
          of the Seward Plant During SRC Bum (ug/m3)
                           -29-
-------
          With a switch in fuel  type to SRC,  and assuming that the stack
exit temperatures and exit velocities under normal  load conditions remain
the same, the highest maximum annual mean S02 concentration appears at the
same distance and direction and is reduced by 66 percent to a value of
51 yg/m3, well below the NAAQS.   If the fuel  switch to SRC were to be
accompanied by a stack exit velocity 25 percent greater than normal stack
exit velocity for coal, a 71 percent reduction of the highest maximum
annual mean SCL concentration results, with the receptor impact remaining
at the same distance and direction as  in the regular coal case.  Isopleth
charts for the  cases .of S02 concentrations resulting from the coal and SRC
burn  (under constant exit velocity conditions) at the Kingston Plant are
presented in  Figures 6 and 7.
4.3   IDENTIFICATION  OF MAXIMUM ANNUAL  3-HOUR SO? CONCENTRATIONS,
      EXCEEDANCES  OF  NAAQS AND COMPARISON OF COfll AND SRC BURNS AT
      EACH POWER PLANT
4.3.1  Shawville  -  3-Hour SOo Concentrations
          The highest  yearly maximum 3-hour  S02 concentration for  the  case
of the Shawville Plant utilizing  regular coal,  2,226 ug/m  ,  is found to
 impact in a  direction  north' (360°)  of the  plant at a  distance of  0.8 km.
This violates the secondary NAAQS of 1,300 ug/m3 in a  3-hour time interval
for S02. There were six  violations of the NAAQS at the 180 receptor
 locations, most of them occurring to the north and to the east-southeast
of the  plant, within 1.7  km of the plant.
           With a switch in fuel  type to SRC, the highest yearly maximum
 3-hour  S02  concentration is found to be 741  vg/m3, representing a reduction
                                   -30-
-------
                                                                          Ring distance:  0.7, 1.3
                                                                            2.5, 4.7, and 8. 7 km
                                                     50
Figure 6.  Predicted Annual Average SO2 Concentrations in Vicinity
           of the Kingston Plant During Coal Burn (yg/mS)
                               -31-
-------
                                2P  N
                                                          20
                                                                           Ring distances
                                                                             0.7, 1.3, 2.5,
                                                                             4. 7 and 7 km
                                                        20
Figure 7.  Predicted Annual Average SC>2 Concentrations in Vicinity
         of the Kingston Plant During SRC  Burn (pg/m3)
                            -32-
-------
 of 67 percent.   The  simulation  shows  no  violations  of the  secondary NAAQS
 for 3-hour SCL  to occur.

 4.3.2  Seward - 3-Hour SOg Concentrations
           The highest yearly maximum  3-hour S02 concentration for the case
                                                     •3
 of the Seward Plant  utilizing regular coal, 896 yg/m ,  is  found  to impact
 in a direction  northeast  of the plant (60°) at a distance  of 2.8 km.   This
 does not exceed the  secondary NAAQS of 1,300 pg/m  in a  three hour time
 interval  for S02.
           With  a switch in fuel  type  to  SRC, the highest yearly  maximum
                                                 o
 3-hour S02 concentration  is found  to  be  272 ug/m ,  representing  a reduc-
 tion of 70 percent.

'4.3.3  Kingston - 3-Hour  SOg Concentrations
           The highest yearly maximum  3-hour S02 concentration for the  case
 of the Kingston Plant utilizing  regular  coal,  8,052  ug/m3,  is found to
 impact in  a  direction north of  the  plant (360°)  at a  distance of 0.7  km.
 This concentration is in  gross  violation of the  secondary  NAAQS  of 1,300
 yg/m  in a  3-hour time interval  for S02<  Of the  180  receptor locations,
 only 13 concentrations are .seen  to  be  under the  NAAQS for  3-hour S02;
 these can  be found mainly to the west-northwest  of the plant  at  distances
 greater than 2.5  km.
          With  a  switch in  fuel  type  to  SRC, and  assuming  that the stack
 exit temperatures and  exit  velocities  under  normal load  conditions  remain
 the  same, the highest  yearly maximum 3-hour  S02 concentration  is  found to
 be 2,229 pg/m , representing a reduction of  72  percent.  Whereas  167
                                -33-
-------
receptors  out  of 180 are in  violation for the  coal  burning case,  only

16 receptors  out of 180 are  in  violation for  the SRC burning  case.

           If  the fuel  switch to SRC were to be accompanied by a stack

exit velocity  25 percent greater than normal  stack exit velocity for coal,

the highest yearly maximum 3-hour S02 concentration is reduced by 75

percent  to a  value of 2,007  pg/m .   Only 10 receptors out of  180 are in

violation  of  the NAAQS for this specific case.

           Table 6 summarizes the maximum values of SO^ concentrations

resulting  from both coal and SRC combustion for annual mean,  24-hour

and 3-hour time intervals.


            Table 6. Maximum Values of SO2 Concentrations (yg/m3) Resulting from
                  Normal Load and Maximum Load Conditions for Regular Coal
                          Combustion and SRC Combustion


Plants
Shawville
Shawville
Seward
Seward
Kingston
Kingston*
Kingston**


Fuel Type
Coal (2. 2°/°S)
SRC (0. 7%S)
Coal (2. 5%S)
SRC (0. 7%S)
Coal (2. 3%S)
SRC (0. 7%S)
SRC (0. 7%S)
Normal Load

Annual Mean
60.0
42. 4
63.8
50.0
149.8
50.5
43.9
24 -Hour
Maximum
680.9
242. 6
349.5
126.2
1951.4
546.0
443.8
3 -Hour
M aximum
2225. 8
740. 8
896.5
271.9
8051.7
2228. 9
2006.6
Maximum Load
24 -Hour
Maximum
642.4
230.5
415.9
143.9
1702. 1
474.9
419.7
3 -Hour
Maximum
2094. 9
699. 6
826.2
253.2
8087. 4
2230. 3
1965. 9
   * Stack exit velocity assumed to be the same as the coal case.
  ** Stack exit velocity assemed to increase by 25 percent.
                                      -34-
-------
4.4  IDENTIFICATION OF MAXIMUM ANNUAL 24-HOUR PARTICIPATE CONCENTRATIONS.
     EXCEEDANCES OF THE NAAQS, AND COMPARISON OF COAL AND SRC BURNS AT
     EACH POWER PLANT
4.4.1  Shawville - 24-Hour Particulate Concentrations
          The highest annual 24-hour particulate concentration for the case
of the Shawville plant utilizing regular coal, 200.9 pg/m3, is found to
impact north of the plant (360°) at a distance of 0.83 km.  Of the 20 maxi-
mum 24-hour particulate concentrations generated by the Gaussian model,
35 percent are found to lie to the east-southeast (1000-120°), close to
the plant; 30 percent are found to lie to the north (300°) of the plant
within 1.66 km distance.
          Of the 20 maximum 24-hour particulate concentrations, none are
found to exceed the Federal  primary 24-hour standard of 260 Mg/m , with
                                                         3               ^
the generated values ranging from a maximum of 200.9 wg/m , to 140.8 pg/m .
          With a switch in fuel type to SRC, the 20 maximum 24-hour
                                                            3
particulate concentrations range from a maximum of 76.3 pg/m , resulting
in reduction on the order of from 46 percent to 62 percent.

4.4.2  Seward - 24-Hour Particulate Concentrations
          The highest annual .24-hour particulate concentration for the
case of the Seward Plant utilizing regular coal, 92.5 pg/m , is found to
impact northwest of the plant (300°) at a distance of 2.75 km.  Of the
20 maximum 24-hour particulate concentrations generated by the Gaussian
plume model, 55 percent are  found to lie to the east of the plant (80°-
120°), within 3.05 km distance.  Thirty-five percent of the 20 maximum
                                     -35-
-------
24-hour concentrations lie to the northwest (290°-320°)  at varying dis-
tances from 1.17 to 5.23 km.
          Of the 20 maximum 24-hour particulate concentrations,  none are
found to exceed the Federal primary 24-hour standard of 260 yg/m3, with
the generated  values ranging  from a maximum of 92.5 yg/m3, to 86.8 yg/m3.
          With a switch in fuel  type to SRC, the 20 maximum 24-hour par-
                                                  n
ticulate concentrations are all  reduced to 75 yg/m , amounting to  decreases
of 13 percent  to 19 percent.

4.4.3  Kingston - 24-Hour Particulate Concentrations
          The  highest annual  24-hour particulate concentration for the
case of the Kingston Plant utilizing regular coal, 494.8 yg/m ,  is found
to impact north of the plant (360°), at a distance of 1.33 km.  Of the
20 maximum 24-hour particulate concentrations generated by the Gaussian
plume model, 50 percent are found to lie to the north of the plant (360°)
within 1.33 km distance, 30 percent of the 20 maximum 24-hour concentra-
tions lie to the southeast (160°), mostly about 0.71 km from the plant.
          Of the 20 maximum 24-hour particulate concentrations,  all are
found to exceed the Federal primary 24-hour standard of 260 ug/m , with
                                                         3              3
the generated  values ranging  from a maximum of 494.8 ug/m  to 324.4 ug/m .
          With a switch in fuel  type to SRC, the 20 maximum 24-hour par-
                                                         3             3
ticulate concentrations range from a maximum of 68.4 yg/m  to 67.0 yg/m  ;
resulting in reductions on the order of 79 percent to 86 percent and con-
centrations in compliance with the NAAQS.
                                    -36-
-------
4.5  IDENTIFICATION OF MAXIMUM ANNUAL MEAN PARTICULATE CONCENTRATIONS.
     EXCEEDANCES OF NAAQS. AND COMPARISON OF COAL AND SRC BURNS AT
     EACH POWER PLANT
4.5.1  Shawville - Annual Mean Particulate Concentrations
          The highest maximum annual mean particulate concentration for the
case of the Shawville Plant utilizing regular coal, 80.2 ug/m , is found
to impact in a direction east-southeast of the plant (100°) at a distance
of 0.8 km.  All of the 180 receptor concentrations exceed the NAAQS of
75 yg/m  for one year due to the fact that the area background value util-
ized is 75 yg/m3.
          With a switch in fuel type to SRC, the highest maximum annual
mean particulate concentration is reduced approximately 6 percent to
essentially the background level of 75 yg/m3.

4.5.2  Seward - Annual Mean Particulate Concentrations
          The highest maximum annual mean particulate concentration for the
                                                          o
case of the Seward Plant utilizing regular coal, 76.1 yg/m , is found to
impact in a direction east-northeast of the plant (80°) at a distance of
3.7 km.  All of the 180 receptor concentrations equal or exceed the NAAQS
          3
of 75 yg/m  for one year due.to the fact that the area background value
is 75 yg/m .
          With a switch in fuel type to SRC, the highest maximum annual
mean particulate concentration is reduced approximately 1  percent to
essentially the background level of 75 ug/m .
                                     -37-
-------
4.5.3  Kingston - Annual  Mean Particulate Concentrations
          The highest maximum annual  mean particulate concentration for
the case of the Kingston  Plant utilizing regular coal, 95.5 yg/m ,  is
found to impact in a direction north  of the plant (360°) at a distance of
0.7 km.  Of the 180 receptor concentrations, 28 of them, or 16 percent,
exceed the NAAQS of 75 yg/m  for one  year.
          With a switch in fuel type  to SRC, the highest maximum annual
mean particulate concentration is reduced approximately 32 percent to a
                  3                                                     3
value of 65.2 yg/m , essentially that of the background level of 65 yg/m ,
4.6  IDENTIFICATION OF MAXIMUM ANNUAL 3-HOUR PARTICULATE CONCENTRATIONS,
     17CTEDANCES OF NAAQS, AND COMPARISON OF COAL AND SRC BURNS AT EACH
     POWER PLANT
4.6.1  Shawville
          The highest yearly maximum 3-hour particulate concentration
                                                                       3
for the case of the Shawville plant, utilizing regular coal, 501.3 yg/m ,
is found to impact in a direction north (360°) of the plant at a dis-
tance of 0.8 km.
          With a switch in fuel type to SRC, the highest yearly maximum
                                                         3
3-hour particulate concentration is found to be 79.5 yg/m  , representing
a  reduction of 84 percent.
4."6.2  Seward - 3-Hour Particulate Concentrations
          The highest yearly maximum 3-hour particulate concentration  for
the  case  of the Seward Plant,  utilizing regular coal,  124.3 yg/m   is found
to impact in a  direction  northeast of  the plant  (60°)  at a distance of
2.8  km.
                                   -38-
-------
           With a switch  in  fuel  to SRC, the highest yearly maximum 3-hour
                                                    o
particulate concentration is  found to be 75.8 ug/m  ,  representing a reduc-
tion  of 39 percent.

4.6.3   Kingston - 3-Hour Particulate  Concentrations
           The highest yearly  maximum  3-hour particulate  concentration for
the case of the Kingston Plant  utilizing regular coal, 1,836 yg/m3, is
found  to impact in a direction  north  of the plant (360°)  at a distance of
0.7 km.
           With a switch  in  fuel  type  to SRC, the highest  yearly maximum
3-hour particulate concentration is found to be 78.9  pg/m , representing
a  96  percent reduction.
           Table 7 provides a  capsule  summary of the Frequency of Exceedances
of the  24-hour NAAQS for particulate  for coal  and SRC under normal  and maxi-
mum load  conditions.   Table 8 summarizes the maximum  values of particulate
concentration  under all alternatives  and the time intervals of interest.
           Table 7. Frequency of Exceeding 24-Hour Standard for Particulates Based on
               1975 Operating Levels for Regular Coal and for SRC Combustion
Plant
Shawville
Shawville
Seward
Seward
Kingston
Kingston
Fuel*
Coal
SRC
Coal
SRC
Coal
SRC
Estimated Number of Exceedances Per Year
of Federal 24-hr Standard (i. e. , 260 yg/ms)
Normal Load
0
0
0
0
>20
0
Maximum Load
0
0
0
0
> 20
0
         * Ash content of fuels are 13. 5% for Shawville coal, 15,6% for Seward coal, 16. 4% for Kingston
           coal and 0. 19% for SRC.
                                   -39-
-------
       Table 8.  Maximum Value of Particulate Concentrations (yg/m3) Resulting from

            Normal Load and Maximum Load Conditions for Regular Coal Combus-

                               tion and SRC Combustion
Plants
Shawville
Shawville
Seward
S sward
Kingston
Kingston
Fuel*
Coal
SRC
Coal
SRC
Coal
SRC
Normal Load
Annual Mean
80.2
75.1
76.1
75.0
95.5
65.2
24-Hour
Maximum
200.9
76.3
92.5
75.3
494.8
68.4
3-Hour
Maximum
501.3
79.5
124.3
75.8
1,836.1
78.9
Maximum Load
24-Hour
Maximum
194.5
76.3
96.0
75.3
445.0
66.6
3 -Hour
Maximum
479.9
79.3
119.4
75.7
1,863.3
72.0
 * Ash contents of fuel are 13. 5% for Shawville coal, 15. 6% for Seward coal, 16. 4% for Kingston

   coal and 0. 19% for SRC.
4.7   EXAMINATION OF  NO   CONCENTRATIONS
                       X """" ""-----   -— » i    1111..


           Of the three  pollutants examined, the switch  to SRC from  coal  has



a very  small  impact  on  the predicted  levels of NO   for  each of the  power
                                                    X


plants.   Table 9 summarizes the maximum  values of NO  resulting from  normal
                                                       A

and maximum load conditions for both  coal  and SRC for annual mean,  24-hour


and 3-hour time intervals  of interest.   This, coupled with the aforementioned


uncertainties  associated with NO  photochemistry and scaling techniques,
                                  A


results  in a  limited analysis of the  calculated concentrations of NO   for the
                                                                        /\

three power plants.
                                     -40-
-------
Table 9.  Maximum Values of NO  Concentrations (yg/m ) Resulting from
Normal Load and Maximum Load Conditions for Regular Coal Combustion
                        and SRC Combustion


Plants
Shawville
Shawville
S award
Seward
Kingston
Kingston


Fuel
Coal
SRC
Coal
SRC
Coal
SRC
Normal Load

Annual Mean
57.8
57.5
55.5
55.0
68.9
68.3
24-Hour
Maximum
196.5
189.3
108.7
99.9
450.0
441.7
3-Hour
Maximum
541.6
517.3
210.6
185.9
1744.5
1710.0
Maximum Load
24-Hour
Maximum
187.9
181.3
120.8
106.0
395.3
209.1
3 -Hour
Maximum
512.2
490.0
196.9
164.9
1745.3
802.0
                               -41-
-------
                               Section 5.0
                               CONCLUSIONS

          The most significant impact on air quality of switching  from
coal to SRC at each of the three power plants investigated in this study
is the reduction in S02 and particulate concentrations.  At the  Shawville
Plant, all of the highest 20 maximum 24-hour S02 concentrations  are found  to
violate the NAAQS with coal as the fuel; the switch to  SRC results in each
of these 20 violations being brought below the NAAQS standards.  The net
reduction of SO^ 24-hour concentrations is on the order of 60 to 65 percent
as a result of the fuel switch.  At the Seward Plant, a similar  reduction
of SOo 24-hour concentrations (60 to 65 percent) results from the  coal  to
SRC changeover, although no violations of the NAAQS existed to start with.
The Kingston Plant shows the greatest reduction of SOo  24-hour concentra-
tions as a result of the switch to SRC (72 percent); with an accompanying
reduction in the frequency of exceeding the 24-hour standard for S02-
          At the Shawville Plant, a switch to SRC results in reductions
of particulate concentrations on the order of 46 to 62  percent for the
20 maximum 24-hour particulate concentrations.  At the  Seward Plant,
a switch to SRC results in reductions of particulate concentrations on  the
order of 13 to 19 percent for the 20 maximum 24-hour particulate concen-
trations.  At the Kingston Plant, a switch to SRC results in reductions
of particulate concentrations on the order of 79 to 86  percent for the
20 maximum 24-hour particulate concentrations.  Each of the 20 maximum
concentrations was in violation of the NAAQS for the coal case,  but all
concentrations are below the NAAQS for the SRC case at  the Kingston Plant.
                                  -42-
-------
           At all three plants the highest maximum annual  mean particulate
 concentrations are reduced to essentially the background  level  values
 of participates in the SRC case.
           The magnitude of the air quality levels estimated  in  this  study
 compared to national  air quality  standards is dependent on the  modeling
 assumptions used.   We have employed  assumptions  which  in  our  judgment
 represent the most realistic  estimates.   The  specific  assumptions used
 are described in Appendix  A.   However,  the relative reduction in air
 quality  levels  due  to the  use of  SRC compared  to  conventional coal is
 dependent on  the emission  estimates for the two  types  fuels and is nearly
 independent of  the  model assumptions used.  It is evident from the results
 presented in  this study  that  large reductions in  the ambient level  of SO
 and TSP will  occur  when  SRC is substituted for conventional  coal.
          Air quality is only one consideration which must be evaluated
 in deciding whether it is desirable to use SRC as a fuel.   The costs  of
 obtaining and burning SRC are beyond the scope of this  study  but an  important
 consideration.  Other methods of reducing  S02  and particulate emissions are
also possible.  The use of scrubbers,  bag  house filters and coal cleaning
processes are among the emission reductions which are available  for con-
sideration.
                                -43-
-------
                               APPENDIX A
                            AIR QUALITY MODEL
          The SCL, NO  and TSP air qua!
                £    X
were made using a modified version of
estimating air quality levels.  The
is based on a computer model of the
the EPA Workbook of Atmospheric Di
                                 ity  levels  computed  for  this  study
                                the presently  standard  technique  for
                              technique,  including  the  modifications,
                              Gaussian  plume equation as  described in
                            sper|sion  Estimates  (Turner  1970).
          The Gaussian plume describing the concentration at a single point
from a stack, as used in this study is:
           x =
                   U a  L

                                      exp <-;
                                 N=-45
           X = 0
 where
    X = concentration, g/m
    Q = emission rate, g/sec
    u = wind speed, m/sec
°y'az = dl'sPersl'on coefficients
    y = crosswind distance from
                                   A-l
                                       az>1.6
                                               H-2NL'
                                             (H>L, all a  )
                                       m
                                      plume  center!ine, m
-------
          H = height  of  plume  center-line above ground, m

          L = height  of  mixing layer, m.


The above equations vary slightly from the EPA Workbook, but  they  are in the

form presently  recommended by  EPA as reflected in the UNAMAP* system program

PTMTP and the Single  Source 24-Hour Model (CRSTER) program.   The variations

introduced to this model for this study are contained in the  way the values

of a , a  and H are  determined for use  in the above  equations.   The fol-

lowing guidelines were used to determine these parameters:


        •    To represent the initial expansion  of  the  turbulent
             hot exhaust gases from the  stack, the  initial  volume
             is represented by a virtual point,  i.e., appearing
             to originate from a point  upwind of the stack  such
             that:

                                    oz(XQ) = 3D                           (2)

              where     a_(X ) = vertical dispersion  coefficient
                               for a  plume originating from  a
                               point  a distance X upwind.

                             D = stack diameter.

             This correction has little effect on ground concentrations
             more than 1 or 2 km from the plant.


         •    Under neutral  and  unstable conditions  the height  of  the
              plume above  ground  level  (H)  is  not affected by terrain
              irregularities and  is  a function of distance from the
              stack as proposed  by  Briggs and  reflected in the  UNAMAP
              computer program subroutine BEH072.

         •    Under stable conditions,  the  height of the plume  above
              the terrain  (H)  is  reduced from that predicted  by the
              BEH072  subroutine  to  60 percent of the amount that the
              ground  elevation at the point of interest exceeds ground
* UNAMAP is an acronym for a set of computer programs designed by EPA to compute air quality levels.
  It is available on magnetic tape from the National Technical Information Service,  Springfield, Virginia.
                                     A-2
-------
elevation at the base of the stack.  However, the plume
height is limited to being no less than 40 percent of
uncorrected plume height.  This results in keeping the
plume higher above terrain than the full terrain adjustment
factor which is frequently applied.  It results in reason-
able estimates.

The horizontal  and vertical dispersion coefficients, ay and
o>> are computed using a modified DBTSIG subroutine from the
UNAMAP system of programs with the following modifications:

-  The downwind distance is taken to be the distance
   from a point of interest to the plant plus the virtual
   distance (XQ) defined by equation (2)

-  The power law expressions describing the variation of ay
   and 0Z with  distance from the source are those derived by
   Singer and Smith (1966) to fit atmospheric diffusion
   experiment data gathered over a period of 15 years at the
   Brookhaven National  Laboratory.  This represents a change
   from the Pasqui11-Turner stability selection algorithm and
   the dispersion calculation technique originally used in
   subroutine DBTSIG  of the Single Source Model„  The justi-
   fication for the selection of the Brookhaven ay and az
   curves was based on  several  considerations0   Complex terrain,
   characteristic of  the three plants,  imposes  modifications on
   the dispersion coefficients,  including those associated with
   plume  distortion,  as well  as  enhanced dilution from various
   sources of irregular motions  including wake  effects and
   gravity flows.   The  three power plants in question qualify
   as  elevated  point  sources.   The Pasquill-Gifford az curves
   (Gifford 1961)  are based mostly on ground-level  concentra-
   tion measurements  made up  to  800 m downwind  of a ground-level
   source over  smooth,  flat terrain.   Application of this  set of
   curves is questionable in  the case of the plume from an
   elevated source.   The Brookhaven curves are  based on average
   concentration measurements  from an elevated  passive source,
   surrounded by a rougher surface.   The recent AMS workshop
   on  stability classification  schemes  and sigma curves
   (Hanna et al.  1977)  suggest  that for elevated sources,  the
   Brookhaven curves  are an appropriate choice  when az is  less
   than the effective source  height.  This criterion is found
   to  be  true out  to  a  distance  of 10 kilometers  for the three
   power  plants in question for  all  stabilities.

   For  the estimation of ay, the workbook  recommends  using  the
   standard  deviation of tne  horizontal  wind  angle,  ae» as  a
   function  of  downstream distance from the  source.   Unfortunately,
   little data  is  available for  this  parameter  for the plant sites
   in question,  and as  a  result  the  Brookhaven  stability curves
   for av were  utilized  instead.
                    A-3
-------
IO.OOO rr
                             (HOURLY MEAN VALUE)
                                          I   I  U I l-J
                                            POWER LAW EQUATIONS   _
                                                   FOR 
-------
lO.ooOpr
                            (HOURLY MEAN VALUES)
 1,000
 VZ
(m)
    100
                                      VERY UNSTABLE  0.40
                                            UNSTABLE  0.33
                                            NEUTRAL  0.22
                                              STABLE  O.06 v.'7* ...
                                       I  I  I  I I  II

                                                                    100,000
         Figure 2.  Vertical Standard Deviations of a Plume.  The vertical
                  standard deviations are corresponding to those in Figure 1
                  are shown.  The stable plot approaches a constant beyond
                  10, 000 m because it is believed that vertical dispersion
                  almost ceases in such conditions.
                                   A-5
-------
                The Brookhaven stability assignments (very unstable, unstable,
                neutral or stable) for a given hour were chosen as a result
                of a subjective estimate by Smith and Singer of the lateral
                turbulence intensity determined from analogue wind direction
                recordings.  The power law parameters and the dispersion
                curves described by these parameters are shown in Figure 1
                and 2 (from ASME 1968).
                An important difference  between the Brookhaven parameters
                and the Pasquill-Gifford parameters is  the comparatively
                smaller values of az associated with the Brookhaven parameters
                in very unstable conditions at distances greater than  1  km.
                However the difference in maximum 3-hour and 24-hour ground
                level concentration estimates resulting from the use of  the
                two different parameters is less than 10 percent.

          Concentrations are calculated  for 1-hour averaging periods using
meteorological and emission data averaged for the 1-hour period of interest.
Calculations are evaluated at 180 locations in the vicinity of each plant
site for each hour for a 12-month period.  At each location the annual mean,
maximum 3-hour and maximum 24-hour concentration are determined.  The  highest
concentration calculated for any of the  180 locations is used in determining
the worst air quality level at each site.  The worst air quality level is the
highest calculated concentration which is determined to be applicable  at
each site.
          The 180 locations consist of a polar gridwork of points surrounding
the plant.  There is a point at 5 distances in each of 36 directions  from  the
plant.  The five rings of distances are selected by considering the distance
to the expected maximum ground concentration associated with neutral  condi-
tions and the stability which produced the maximum value over flat terrain
as follows:
          X] = X2 - A
          X2 -m1n (XM, XD)

                                   A-6
-------
           3      2
          X4 = max (XM, XD)
          XM = distance to maximum ground concentration over flat terrain
               excluding neutral stability (PTMAX program from UNAMAP)
          XD = distance to maximum ground concentration over flat terrain
               under neutral conditions (PTMAX)
           A =
                XD " XM
The tentatively selected ring distances are laid out on a topographic map.
The ring distances are then adjusted slightly to overlay prominent terrain
elevations in the vicinity.  The elevation of the plant site and the 180
locations are coded from the topographical maps to be used in evaluating
the height of the plume above ground level.
          Other data which must be input to the model include the following
          •    S02> NO ., TSP emission rates, g/sec
          •    Wind speed, m/sec
          •    Wind direction,  azimuth  degrees
          t    Atmospheric stability (Brookhaven Class  1  to 4)
          •    Mixing height, m
          t    Ambient temperature,  °K
          •    Stack  height, m
          •    Stack  diameter,  m
          •    Stack  exit  gas temperature,  °K
          •    Stack  exit  gas velocity,  m/sec.
                                  A-7
-------
The wind speed is input for each hour  at  a measured  anemometer height.  This

is adjusted to an estimated wind speed at the  plume  height using a power law

relationship selected for the atmospheric stability.   The following relation-

ship is used:
  where
             u

             H
             P =
wind speed at plume height, m/sec

height of plume above plant site, m

anemometer height, m

measured wind speed, m/sec

exponent given by atmospheric  stability  (see  Table T).
                 Table 1. Wind Speed Exponents Related to Atmospheric Stability.
               Wind Speed Exponent
                      0.11
                      0.11
                      0.16
                      0.41
                             Atmospheric Stability
                             (Brookhaven Class)
                                 Very unstable
                                 Unstable
                                 Neutral
                                 Stable
          The wind  speed  exponents were derived from data utilized in

a  study  by Touma  (1977)  in  which the dependence of the wind profile

power  law on stability for  various locations was investigated (Table 2)
                                   A-8
-------
      Table 2. Power Law Exponents for Various Sites Computed from Annual Average Wind Speeds at Two Levels.
Stability
class
A
r.
c
n
E
F
c;
Terrain
Missouri*
1973-74
0.105
0.079
0.082
0.115
0.271
0.423
0.504
Rolling
Missouri-1
1974-75
0.090
0.092
0.080
0.144=
0.273
0.385
0.417
Rolling
Kansas9
1973-74
0.124
0.145
0.152
0.199
0.341
0.4 SO
0.506
Rolling
Kansas9
J974-75
0.091
0.1 OS
0.122
0.172
0.282
0.412
0.452
Rolling
Iowaa
1973-74
0.104
0.101
0.114
0.188
0.313
0.456
0.444
Rolling
Texas3
197S-74
0.120
0.123
0.128
0.174
0.330
0.562
0.624
Rotting
Michigan3
1975-7G
.0.109
0.085
0.078
0.116
0.261
0.425
0.516
Hilly
Missouri''
1973-74
0.111
0.119
0.104
0.136
0.272
0.424
0.447
Rolling
aStability class based on a AT <>f 10 to 60 rn.
^Stability class bawl on a AT of 10 to 90 m.
cFor 1/7 power law p * 0.143.
               The Pasquill-Glfford  stability classes were  regrouped into the
    four  Brookhaven categories.   For  each stability, the mean  power law
    exponent was calculated, based  on the power law exponents  given for each
    location, so that the resulting exponents were reflective  of typical con-
    ditions  in rolling terrain.
               The  modifications to the air  quality  model  which have been  introduced
     for this  study were  selected by defining  the  following three parameters  which
     were empirically  adjusted to get a reasonable fit between the  model  calculations
    and measured values  in  a  recent study to analyze  S02  concentrations in the
    vicinity of non-urban point sources in  Pennsylvania  (Koch  1977):
                      (XQ)  -
                                            (4)
                  ay'(X+X0)
                  H = h+AH  - F  min
{(h+AH),
                                            (5)
(6)
                                        A-9
-------
 where
     F-j.Fp.Fj  = empirical  parameters
      a  (X  )  = source  volume  parameter  (see  equation  2)
            D  = stack diameter
            h  = stack height
          AH  = plume rise due to  buoyancy and  momentum
            z  = elevation of  receptor
           zp  = elevation of  plant
    min  permits the influence of
major terrain features on the height of the plume above ground level to
be adjusted for local conditions.  If FI = FS = 0 and F2 = 1, there is no
change from the standard equations.  A value of 3 for F, was selected as
                                   A-10
-------
  a  reasonable  estimate  to  compensate  for  the  general  observation  from field
  tests  that plume dimensions near  the source  greatly  exceed estimates  based
  on standard Gaussian plume parameters.   F£ was  left  at a  value of  1.  A
  value  of 0.6 was assigned to FS based on the recommendations of  a  recent
  study  by Slowik and Pica  (1976).
           The two most significant features of the modeling approach  are
 the treatment of terrain and the use of the Brookhaven dispersion parameters
 with stability characterized by vertical  temperature gradient.   The effect
 of the method of stability classification is very small since both the
 vertical temperature and the Pasquill stability class based on  cloud cover
 and wind speed considerations  produce about the same frequency  distribution
 of stability  classes.   The use  of the Brookhaven parameters  instead of the
 Pasquill-Gifford  parameters  has been  found  by subsequent  calculations to
 change  the maximum  3-hour  and 24-hour ground  concentration estimates  by
 less  than 10 percent.   The terrain  height adjustment  factor has the largest
 effect  where terrain at or above  the  plume  height  is  encountered.   In  the
 vicinity of the Seward  Plant, the maximum 3-hour and  24-hour concentration
 estimates on the ridges  to the  east of this plant  are greatly reduced  by
 the use of 60 percent rather than a 100 percent terrain adjustment  factor.
 Although the use of the 60 percent factor has been well validated at this
 site (Slowik 1977), the modeling approach used in  this report provides
much lower estimates than would be provided by other widely used approaches
such as a 100  percent adjustment factor.
                                   A-ll
-------
                                 Appendix B




          The computer printouts are arranged in a specific sequence, in

three subsections, according to pollutant.  The first section is SC^, the

second is NOX and the third is TSP.  The following is the sequence of infor-

mation presented for a given pollutant at a given power plant:
Normal
Conditions
                 Power Plant Name
                 180 Plant Receptor Elevations
Maximum
Conditions
Coal
- Pollutant
                 Plant Parameters, Ring Distances
                 Annual  Mean Concentration of Pollutant at Each Receptor
                 Highest 24-Hour Concentration at Each Receptor
                 Highest 3-Hour Concentration at Each Receptor
                 20 Maximum Daily Concentrations (24-Hour)
Plant Parameters - Maximum Conditions
Meteorological Parameters for Each of 20 Maximum Days
Annual Mean Concentration of Pollutant at Each Receptor
Highest 24-Hour Concentration at Each Receptor
Highest 3-Hour Concentration at Each Receptor
20 Maximum Daily Concentrations (24-Hour)
                 Next Printout
                            "with the same sequence of information
                             (i.e.,  normal and maximum conditions)
                             for the same plant.
                 Next Power Plant Printout
                                   B-l
-------
          Unless specified otherwise on the printout the following units
are used for the reported numbers:
                    Parameter
                 Concentration
                 Speed
                 Temperature
                 Height
Units
g/rn^
m/sec
°K
m
          The following abbreviations are used on the listings of meteor-
ological parameters:
                   Abbreviation
                   JYR
                   I MO
                   JDAY
                   I STAB
                   AWS
                   TEMP
                   AFV and AFVR

                   HLHI
Parameter
Year
Month
Day of Year
Pasquill Stability Class (1 to 6)
Wind Speed
Ambient Temperature
Wind Path (direction wind is
  moving to)
Mixing Height
                                  B-2
-------
e-a
                                                   -:    m o  :z •-
                                                                               en
                                                                               I
                                                         O -i  i.  «  II
                                                         Ol»X«i-*
                                                         Z I  .">  —
                                                         •c II  —  C~
                                                         II      II  C «
                                                         JO -i  Jl i  II
                                                         3 II -3
                                                         =.     II     3
                                                                                     •o
                                                                                     t>
-------
                                                                                                                     'Sl'»  I n  (:?sVH
                           00* I
IB *<•(>£

ll'Bt-J

      **K)
00*9Hl

CO'I6E
  iO' I



HJ*H I

t«' l£
                                           OB "0
                                  Hb'O
tft

Ib't
80*1    tB'O




VO'bb

BB'tUI
Z6'0    Ol'l    tH'O

        tz't I   sy'y

 OO'O

 OO'O
                                                 )
                                                          t j
                    dWjU    A.11JU']MA J.1X.4
                                                           JH'JIJH
                                                                       J1VH
                                                    Bb*0    bO' I
                                                      « JSV3 A«
                                                    «t *t    99*1
I V * S 1 «
                                                                                                                              'IVNOSV3S
                                                                                                                    (U'O
                                                                                       .1 a \r <]
                                                                                               :UVH
                                                                                                                      AlXUVHJ.S
 t

 I


xovas


o'  i I
0'OZ9l
O'OM 1
O'OOU
O'OOIZ
O'OOb I
O'UUb 1
0*00tl
O'*»il
0" 899 1
0' *9Sl
0'bH.I
0' Iflt I
O'OUSl
0'09Sl
O'OUBl
0'006l
o'oooc
O'UUU
0'09II


0 ' 0 0 b 1
o * o y 6 1
0* Bl If.
0* IfHl
o'onot
0*00 1C
o'otoZ
u'oUC
0*09i I
0 " 0 8 b 1
0'099 »
O'SOSl
0' ISSl
o'ozu
0"OI»P I
0'0»9l
O'SZSl
o'ootl
o'oet i
O'OObl
O'OObl
o'ootl
o't »ti
o'oztl
0'9t Bl
I) * 99 1 I
O'bt9l
o " t z y i
O'OO&I
0 * 0 9 !> I
O't96l
0'009l
o'ooy 1
0*09t 1
1' • » 1 1 1
O'OPP I
t ONU t
1
O'OBil
0 ' 0 V V 1
0" 9fr t 1
O'l'Ofrl
o'oyvl
o'oysi
O'Ubil
0'09Sl
o'otsi
0'09SI
O'OZSl
o'otsi
O'OVSil
O'OI-Sl
o'ttsi
0" OB> I
O'OUfr 1
O'OZll
0*09Z I
0*OP5I
O'OBSI
0 " S 0 9 I
O'OZH
o'ootl
O'OH 1
O'OHSI
0" frBSl
O'OHI
O'UVSl
0 "09J 1
0 ' 0 «, t I
O'Odiil
O'OHil
0*06& I
0*0091
o'ootl
xjttj.y a
»j»js a
o*tyn
O'OOZ 1
O'OOt' I
O'OZSl
O'okSl
o'ootl
o'otv I
O'Ofrfrl
O'OOM
O'OVt I
0'ot>M
O'OOfr I
O'OOSl
0*09fr 1
O'OOt 1
O'OBOl
U'ool 1
O'OOZ I
O'OVll
O'OOl I
0'0b!>l
0'OZ!,l
O'OtU
O'oill
o'oyoi
o*ott i
O'OZl I
O'OOt 1
O'OOt 1
O'Ott t
O'OH I
0'09f I
O'OOfr I
0"09tt I
O'OOCl
o'ooil
'IHI AMVHS--Z
•I'll A^VHS--l
0 ' 0 V fr 1
0 • 1 1 <» fr I
0'OHfrl
O'OOSl
0*0051
(j * 0 II f I
o'ovn
0 " 0 « fr I
O'Ofrt I
0 ' 0 H t I
0 ' U 9 Z I
O'dOZ 1
O'OOZl
o'osol
0 " 0 9 0 I
O'OO?. 1
0'00»l
O'OZH
O'OlFfrl
O'Otfr 1
0 * 0 fr IF 1
G'OZlF I
o'ootl
o'oet i
0*091 I
O'OiOl
0 ' o L 0 I
0*0011
O'OHI I
0 " OZZ I
0'0«.t I
O'OOZl
O'OZll
OV09II
O'OOZl
O'OSt. I
• M
1 X
91
51
> t
It
zt
It
ot
67
til
LI
9Z
-------
                                                                       S-8
Ji  3 O  —  au Ji  Jl




—  XJl'OJJOiJlOJiX — AB.

 I   I   I    I   I   I  I   I   I  I   I   I  I
D333C'O3CC-OS3C
                             X  Jl •*  —  ^ -&  ~  ^ —  -*»  ~- O  — O
                                                                                                                                                                          m

                                                                                                                                                                          ri
                                                                                                                                                                          I
                                                                                                                                                                          »•
                                                                                                                                                                          i
I   I   I   I   I   I   I
OOOQ33S
•Jl  Jl  Jl  Jl  Jl J\  Jt
                                            -
                                 I   I   I   I   I   I   I   I    I   I   I   I   I
                                 CSO-O33333OOCI
                                 Jl  -J» Jl  'JT  Jl fjl  Jl Jl  'Jl  Jl Jl  Jl i/1
                                                                                           I   I  I   I   I   I   I    I   I   I   I
                                                                                                                                      ^i ri
                                                                                                                                         3
                                                                    1
                                                                    I

                                                                    Jl
>U», NJ£  jO O  —  Jl ^>  ~*

VJ3OJ1S300O—  O
                                        3  JO
                                                   ji  ji ji  y*  j* -j
                                                                                                             — -*  (>J Jl
        l
                   I   I
                                                                             I   I   I   I   I   I   I   I   I   I
ji ji ji  ji  ji ji  ji  'ji
                                 i   i   i  i   i   i   i   i    i   i

                                 jijijijijijijijijijijijijijijijijijitnjiuijiJi
                                                                                                                                                        -«     Jl
                                                                                                                                                        3C     C
    M  3  .o  ji  —  o
                                                                                                                                         -i
                                                                                                                                       - a
                                                                                                                                         a
T  «5  •>!  •«]-•*!   1  .'J
 I   I   I   I   I   I   I
t;  .1]  .1;  -T; -t)
I   I   I   I   I
•«]  TI
I   I
                                                                                                  .-q  i]   n
                                                                                                  I   I   <
                                                                                                                -15  -r .  * ^
                                                                                                                 <  I   I   I
                                                                                                                                                        n
                                                                                                                                                        -i
                                                                                                                                                        3

                                                                                                                                                        X
-J T
*J —
^f J:
-T y
^ C
ej TI
t 1
^ ^
Jl 'J\

^J 4*
••J 2
C £
T "*1
1 1
O i-
fi J\
•*}
—
^
^
ti
1
„>
^
o
—
c
\J
•w
1
o
'J»
•«•-
Jh 3
» >J
fc ^^
tl ^~
1 1
3 3
Jl Jl
i, JD GOD
Jl ID 3 -J *»
5 -0 0 f S
7» N3 ** Ji 3
T) t) •»} "r] .^
1 1 1 1 1
33330
JI Jl Jl 'Jl J<

N) \J --J
-, JJ =
7* C7* T>
•C] -F ^
1 1 1
333
Jl Jl Jl

35
y,
•&
T]
1
3
Jl
Jl Jl Jl
** *u a
X — 3
** O •**
ft rx^ TI
1 1 1
333
Jl Ul Jl
ji r
J> -C
3 °
O J1
sj -n
t 1
3 3
Jl Jl

j-jDJi;r\uj^Jw*Ji>-r>-4-) —
jio* 3«.>I;0~*I>JJ>;>!
33JC**JDJI*7«JX4^MkJl^^
^J Tl 71 T3 ^T) 1] TJ T^ T] T; -^ T] 1^ 13
1 1 1 1 1 1 < 1 1 1 1 1 1 1
3333333C33333O
Jl Jl 'Jl Jl O! 'Jl Jl Jl J! 1 Ji -T Ji Jl
•i
•

J^
^



-------
MAXIMUM  74-HiHJ«
                      6 . ROR5F-04  01 RFCT I(1N = Jf 0 .   OI«T«MrF=  O.R KM
    Hir.HERT 74-HO'IR C1"CFNTUAT ION  AT  CRCH  PFCFTOP
n.R  K«<                    1.7  KM                   3.3 IM
                                                                                       6.7 KM
                                                                                                                 13.3  KM
DIP
1
2
3
4
5
6
7
R
9
10
It
12
13
1 4
CO ,5
cn 16
17
1 9
1 7
20
21
22
23
24
25
26
( 27
2R
29
' 51
32
(. 33
34
35
1 36
7.6664F-04
1.7H m>04
4.0572K-04
3.773VF.-04
3. »080K-0.1
2.9674F-01
1. 1979E-04
2.909HE-04
. 35HOF>04
.851BK-04
.416?F>04
.OH3F.-04
.70R4F-04
. 1 1 1RF-04

7.8613F-04
1. J040F-04
3.0388E-04
3.5515F-01
7.7921F.-04
2.H404F-04
7.259RF-01
7.4043K-04
2.0236F-04
2.27716-04
t .R277F-04
7.19B7F-O4
1.4I05F-04
1.5074K-04
4. 1140K-04
}. 4 I 4 »F-04
7.51 73F-04
2. 1 I02F-0*
2.7R97F-04
6.80R5F.-04
( 150 >
( 140 )
( 737 )
( 151 1
(Oil
( 221 )
( 721 )
( 7S6 )
( 230 )
f 2*0 I
( 7*0 1
( 739 )
( 122 1
( 177 )
( 177)
( 719 1
( 719 )
( 177 )
( 127 )
( 177 1
( 127 )
( l«0 )
f 1 RO )
( 176 )
( 176 1
( 145 )
( 1 45 )
( 170 l
{ 120 )
( 170 )
( 137 )
f 1 17 )
( 7SR )
( 75H )
( 169 1
(1501
2.
2.
3.
2.
7.
2.
2.
2.
3.
7.
2!
2.
7.
7.
2.
7.
2.
2.
7.
1.
2.
7.
•).
t.
7.
1.
7041F-04
7016F-04
OJ75F-04
P104F.-04
4915F-04
5735F-04
6717F-04
71 76F-04
7671F-04
9407F-04
3740004
5977F-04
3507F.-04
325RF-04
5B17F.-04
fl 1 93F-04
7I60F-04
4753F-04
7071F.-04
««?4F-04
763IF-04
5176^-04
Q301F-04
I ft9ftF—04
Ol <\ 3F -04
R I91F-II4
r
r
r
r
c
c
r
f
c
r
r
(
!
f
r
r
r
173 )
MO )
717 )
151 »
131 )
771 )
721 )
00 )
756 \
730 )
730 )
67 1
136 )
t 36 1
770 )
719 )
719 )
177 )
177 )
177 )
IPO )
|RO )
176 )
145 )
17B )
70 )
70 1
37 )
37 )
750 )
751 )
1R7 1
1 .P7B1F-04
t .75R7F-04
?. 1R60F-04
7.5304F-04
7. 1K5QF-04
2.R600F-04
3.7571E-04
3,6n2C-04
4.RR77F-04
3.0799F.-04
1 .9705F1-04
7.3535F.-04
K391RF-04
1 .6074F-04
1 .5904F-04
1 .44B5F-04
1 ,6709f:-04
1 .7356F-04
7. JR51F-04
3. 0699 F: -04
1 ,5»99F-04
1 .700BF-04
1 .407BF-04
7. 1741F-04
7.73H5F-04
t-,ift'"SP"0^
1 .7157^-04
1 . 1 196F-04
1 . 3070 F -04
7.R365E-04
f
f
f
f
r
(
f
r
c
f
r
r
t
r
r
t

r
f
r
171 1
7«iQ )
306 )
56 )
1 t )
19 )
1 4 )
44 )
30 )
94 )
79 1
67 )
7 )
177 1
R6 )
719 )
219 )
177 1
177 )
21B )
71P )
716 )
791 J
791 I
73 )
145 1
I7R )
744 )
741 )
170 )
173 )
7 'I O 1
t f I
75P )
71 1 )
1 1 1
195 )
I . T67RF-04
1. 7145 F' -04
3.H760F -04
7.601IF-04
1 .9R63F-0*
3.4710F-04
1.6117F-04
3.7709F-04
1.741 4F-04
7.491 5F-04
t .BOR5F-04
1.51 71F-04
7.771BF-04
1 .3151F-01
1 .7714F-04
1. 16<»3 F. -04
9.554BF-05
1.651B4F-04
7.O071 R-04
1 .96I7F-04
1 .BI67F-04
1 .9073F-04
•>.3I9BF-04
7_BQ7PF-04
7. 1 701F-04
^ ft^7^'*"f^^
c^<^r>ifr«C)4

.0911F-04
. |0q7c_04
.7741F-04
.6B1RF-04
( 765
( 5*
f 330
( 1 9
( 14
r 44
( 10
r 94
f 79
( 67
( 2
( 107
( R6
( 34
( 33
( 7"
( 70
( 71R
( 71R
( 79!
( 33
( 73
( ?R
( 171
( 171
( 7*3
( 17 »
( 6

( 71
( 53
( 1 t
r t'»5
i
i
i
i
i
i
i
j
i
i
i

t
i
i
1.1P65F-04 (
1.1451 F-04 {
7.7337F-04 (
1.R791F-04 (
1 .5031F-04 (
1.6566E-04 (
7.4467F-04 (
7.1733F-04 (
2.5227F-01 (
7.807BF-04 (
1.91S7F-04 f
1.4159F-04 (
1.5233F-04 (
1.16t>«F-04 (
1 .4752lr-04 (
1.0942F-04 (
1.0750F-04 (
1.1I4RB--04 (
1.5011F-04 {
7.3534«>05 f
1.1266K-P4 {
1.R521F-04 (
1.R103F.-04 (
2.5087T-04 (
7.1365f;-04 (
2.0573F-04 (
7.01R7F-04 (
7.1707F-04 (
2.0111F-04 (
1 .7441 F-O4 (

1.036OF-04 (
1.1005F-04 (
B.13R7F-05 {
1.1R19K-04 (
7 )
106 )
73 )
747 )
19 )
* )
45 )
30 )
11 R )
79 1
06 )
103 )
30? )
R6 )
34 )
11 )
70 )
710 )
21 R )
t RO )
21B )
79| 1
11 )
73
2«
171
171
241
167
173
6 )

7 1 )
51 )
146 )
150 )
-------
          J.  RLfTTHir-  C".
YEARLY
                    3-HIMIR  fnnr=   7.77-5RP-03   OIRF.cnnw =   0.   OT«5Tft«-»: =   O.fl  KM
                    HIGHEST  J-Hr)ilp rn,-4rRMTHATIHN  AT
                0.9  K 1                      1 .7  KM
                                                                          3.1  KM
                                                                                                       ft . 7  K M
OIH
1 1.211 7F-03 (
2 1.7949F-03 (
3
4
5
6
7
8
9
10
11
12
1 3
CO
1 15
**J 16
17
IS
19
20
21
22
.7614F-01 (
.28286-03 (
.0403E-03 (
.2065F.-03 (
.OH9HF.-03 (
.1S62K-03 (
.2234C-03
.33 <9F-<>3
. 3294F-0 i
.7915F-03
.0947F-03
.21 7HF-03
. 17 16F-03
.0974F-03 (
.1972F.-03 (
.1754F-03 (
.9679F-04 (
.253HF.-03 (
.04T9F.-03 (
.0627F-03 (
23 R.543HF-04 f
24 9.7R35F.-04 f
25 9.4494K-04 (
26 I.1171F-U3 (
27 1 .OR28E-03 f
2ft R.S51SI.-04 (
29 9.<»43ftF-04 {
30 U3554F-03 (
31 1 .3600F-03 (
32 1.1143K-03 (
33 1.1515K-03 (
34 I.1964E-03 f
35 1.0869K-03 (
36 7.2258E-03 (

1 4ft )
23» )
7371
131 )
1)1)
23ft )
736 )
745 )
774 )
230 )
73Q 1
739 )
1 36 )
1 36 )
12? )
719 )
719 )
719 1
127 1
177 )
127 )
1 RII )
1 76 )
176 )
735 )
1 45 )
145 )
161 )
21 )
21 )
1 37 )
137 )
25f> )
135 )
135 )
1*0 )

R.97')1F-04
1.07 35F-01
1 .0142F-03
1 . 1412F-ni
R.9<.93F.-04
8.5836F-04
H . B 1 9 1 F. - 0 4
1. 3?9hF-'>«
4.?q»4F-04
P.7990F-04
9.6249E-04
7.9646F-04
R.5799F-04
9.7379f>04
R.R7q9F-04
R.0300F-04
9.0 305F-04
<*.05fl3F.-04
7.4747F-04
8.54*9F.-04
7.77'/>«F-04
7.90?3f>04
ft.R739F-'<4
<». 1 7SOF-04
1 .0712F.-03
9.1470F-04
». on; IF,- 04
ft. 3719F-04
7.9977F-04
M . 9 9 6 4 F, - 0 4
<4. 1774F-04
P.R765F-04
9.54S|F-04
R.769f>P-04
7.0675IT-04
1 .*31 7F-03

f
(
(
f
f
(
f
r
(
(
(
(
r
f
(
(
r
(
(
r
r
(
f
(
(
(
r
(
c
(
r
r
(
r
r
(

1 4*. )
1 41) )
23T )
23 1
301 )
721 1
1 1 )
30 )
30 )
1 49 )
32ft )
?29 )
1 }6 )
770 )
71P )
270 )
719 |
127 )
1 77 )
127 )
21 R )
1 90 )
291 )
735
735
141
IHt
179
?44
71
3)3
434
7SO
1«>f> )
51 )
ISO )

ft .ft?31 F-04
".0717F-D4
R.?7fl"F-04
7.31 74F-04
R .500SF-04
8.5179F-04
R.1157F.-04
H.3341F-04
R .S*t5F-04
R.7304F-04
6.97S7F.-04
6.7543F.-04
7. l?t OE-04
S.8307E-01
7.3947F-04
6.4423F.-04
*.6720F.-04
* . 2597F-04
5.7171 F-01
7.0464F-04
<;. -)qftije:-04
*.<»ft7tF-04
S.97«,OF-04
7.S3S4F-04
6. "51 74£-0«
6.777ftF.-04
5. 3H67F-04
•S.PS94F-04
7.4S33f>nn
6. 7 76ft F- 04
7.4770F-04
5.6755fi-04
5.1079F-04
5.131 4F.04
6. 15S4F-04
°.32ft3F-0/(

(
(
f
(
f
f
f
f
(
(
(
(
f











f
(
(
r
f
c
r
r
f
r
r
(

??N 1
25<» )
2* )
725 )
1 R )
18 )
Ift 1
9 )
9 )
? )
337 )
ft7 )
7 )
340 )
34 )
176 )
18S )
714 )
20 )
70 1
71P )
218 1
291 )
3? )
23* 1

35 1
^34 )
7ft )
331 )
123 )
ft )
149 )
1 1 )
1 1 1
14? 1

S
S
q
q
H
fl
R
')
R
q
f.
7
R
f,
»
7
S
p
•5
S
4
s
^
f.
1
7
7
7
q
p
1
s
4
f,
S
«;

1 7 q ^ P _ n 4
. 4343004
,47Bt,F-04
. 133SF-04

,S?1 JF-04
.7S41F-04
.RSS7F-04
.7701F-04

]qpq-3f-04
.04RQ.F-04
.09S4F-04

. 1B1 ftp- 04
.&4I9F-04
.7340F-04
.4K14F-n4
.70S4F-04
.S744F-04
. 6436 F -04
.S144F-04
|s77SF-04
)«;os9F-n4
)4r,SlF-04
. 77rtqF-04
.flOOftF-04
. ?3*4 r -04
[77^,3^-04
. 4276 F- ()4
. 0713F-03
.7S.13IT-04
. 1 1 M 1 1 - 0 4
.91 ilftF-04
.51 aciF-04
.^UOOf-fnj

f
r
(
f
(
f

f
f
f
(
(
(
(
c

(
r
f
c

(
(
(
(
(
(
i
r
r
f
r
r
(
(
(

i ft* >
17 1
30* )
15 )
747 1
1 )
14 1
4 )
30 )
176 1
T) )
7*7 1
2 1
340 1
19 )
1 ?ft )
70 )
70 1
70 )
71 » )
77 )

291 )
217 )
3? 1
49 1
277 )
1 71 )
213 >
a )
11 )

1 4q i
S3 1
1 1 >
737 )

5 ?3^qp-04
5,«R 37F-04
6.601ftF-04
8.2154F-01
7. 3757F-04
5.6860F-04
7 .4R7PE-04
ft . R 3?RF-^4
ft . R605F-04
7.1 3qqc_()4
5.834SF.-04

4 *KRR*F-ri4
4.61 03F-04
ft. 1 216F.-04
4. 313RF-04
3.94S5F-04
5.5963F-04
SiftROOK-04
4. 0096 F. -04
3.4946F-H4
4.7365F-04
ft.5179F,-04
6.6257F-04

8.681HF.-04
6.641 SF.-04
ft. I2RF-04
7. 73QF-04
5.7092F-04
7. 471F-04
5. 454F-04
4. q9oi-:-n4
f,[ )79)F-04
3.5623F-04
3.-17P 3F-<>?

( 2 8 3 )
f 7 )
( 3<>6 )
f 73 )
( 747 )
f 37 )
( 30R )

( 30 )

f 22 )
( ) 1 « )
( 13)
f 11)
f 19)
(126)

( 70 )
( ?1R )
f .MR)

( 241 )
( 791 )
f 7H )
43 )
7R )
727 )
171
243
( 97
( 1 0
( ft
( 71)
f S3 )
f 259 )
{ 237 )
-------
                                                            Mnxinii'1
CO
oo
                                                                       14               if.            n.fli
                                              1QS            4.0S10F-04               '1            l.lh
                                              |71            4.1M7F.-IM               1«            t.fifi
                                               Q 4            4.P677F-O4               1 O            1.17
                                              •) JO            4.PSIBF-04               10            O.B1
                                              197            4.3677.«'_n4               ">            '-^^

                                              1^1            4.314«r-04               11            O.ni
                                              jjq            4.7074F-04               H            0.«1

                                              122            4.1J3«E-04               14            O.fll
                                              7^7            4.0577T.-04                1            O.»l
                                              747            4.044PIT-r>4               II            O.R1
                                               73            1.R4fl'»E-n4               7S            6.^-5
                                              111            1.R147F-04               17            O.fll
                                              101            1.79BIP-04               17            O.fl3
                                              \f,f,            3.7765C-04               11            O.H3
                                              111            3.73S4F.-04               14            O.»1
                                              140            1.77.K7F-04               ">            O.fl3
                                                                       )4                4            0.«1
-------
PENM.
         ezT'Mr  co.
         BKFFNFO £i»AI,  .STUDY

SHAHVII.LF STACK 1 ( * A X .  rri
                                  Pf'T.IECT  7111
STACK  I   l--SHA!Ji/tM.s:  STATC  1  ('
STACK  II   2--RHA"JVII.LIi  RT»r<  1
          STPATKi'K
            TV PR

            MOM

            MOM
         H.  264.  255.  254. 261.  264.  259. 761.  257.  757. 257.  251.  750.  757. 750.
               HOI.  B01.  B01.   HOI.   801.  770.   739.   708.   677.  646.  615.
                                                                                  553.
                                                                                                                          3     3     }     3
                                                                                                                        4.0   3.1  3.1   7.7
                                                                                                                        270.  770. 770.  26Q.
                                                                                                                        243.  267. 24ft.  773.
                                                                                                                        243.  ?62. 746.  773.
HLH1=   HOI
CO
1
T C T ft Q —
I O I ft M —
AWS= 1
TEMP =
AFV =
AFVRr
HLH1 =

JVP-75
ISfARs
AWS =
TEMP =
AFV =
AFVH =
HLH1 =

JVR-75
1STAR=
TEMP =
AFV =
AFVP.=
HLH1 =

110= 4 Jf)Ay =
J1 1
4.1
26H .
101 .
101 .
6 1)0
12 HO
MD

5.4
27 ).
12 J.
127.
H2?
2J44

1
e Q
^ • "
275.
"4.

vi on
701 ^
7 5
13.4 16.1
767. 767
106. 10«
106. |0t
600.
. 1190. 1
= 4 1 n A Y =

5.4 5.8
769. 7 ft 9
110. 113
110. Ill
. 172.
. 2561. J

4 1
276. 775
80. '* K
00. 9M
. 200'). 7
. 7071. 7
94
15.6
. 267
. 100
. 1 09
SCO.
500.
103

6.3
. 269
. Ill
. Ill
87.7.

1 1 I

. ?7'»
116
. 1 1^
ono .
0 'I \ .
T3 3 .
12.. 5
. 266.
. 109.
. 109.
600.
1500.


. 267,
. 114.
. 114.
37?.
75ft1 .

»
. 274.
. 17".
. 175.
7000.
•>•! 71 .
-i-i J.
17.5 1
766.
97.
97.
600.
1500.


5.1
767.
10*.
100.
R27.
7561 .

-1
777.
HI.
111.
•> o n o .
7 f. 7 t .
DT> J.
i-> i .
11.6 12.1 1 4.fi
766 .
93.
03.
600.
1500.


4.5
767.
109.
109.
H72.
7661.

1
771.
1 on.
lno .
7 OO o.
7»; i .
766. 267
100. 106
100. 10*-
600.
1500. 1

) 7
770. 273
106. 11?
106. 11?
1010. 1
7561. 7

l 1
7-"> U 1
• ' " • '
774. 775
I'll . 117
l'i 1 . 117
7Oi|?. 7
7091 . 7
3:51. 3^3.
16.1 15.6
. 267. 767.
. 106. 104.
. 10ft. 104.
7?0. 840.
500. 1500.

1 1
. 274. 775.
. t?«. 120.
. 12H. 179.
757. 1474.
561. 2561.

1 1
Bl U 1
.1 H . 1
. 77-1. 776.
. 17^. 170.
. 1 7 ^ . 17".
f>05. 7 On P.
'171 . 7071.
ar- 3 .
•^
17.4 1
2*R.
1 01.
101.
960.
1500.

1
775.
137.
in.
169?.
25M .

1
f J
777.
1 79.
17".
70 1 n .
7 1 1 .
7 " 7 1 .
TIT
•^
5.6 1
26Q.
105.
105.
1 1 70
1500

1
275.
171.
171.
2177
?5ft|

(
7 •)
'/ « (i .
' to.
1 11.
?'l t ft
> '> 7 1
1
11111
5.6 15.? 15.2 14. B 1?.5 10.1
769.
1"5.
105.
.
•

1
776.
1^7.
177.
.
•

1
"7 7
701 .
1 1 ) .
117.
.
.
76P. 768. 267. 767. 266.
104. 110. 104. 106. 106.
104. 110. 104. 106. 106.



1 1 11 4
777. 77H. 779. 776. 274.
115. 17". 17P. 136. 143.
115. 170. 179. 116. 141.



1113'
P1 7.7 ft7 ftl 61
'"» 1 . ?U7. ) -11. 7 HO. 777.
I?'/. 111. 11^. 17». 17H.
170. 111. 11.
116.



5 . •'
97ft.
167.
157.


3 3
9.P 10.7
766. 766.
108. 10«.
1 0 H . 108.



4 4
777. 771.
156. 151.
156. 161.



4 4
6.1 7.7
775. 774.
1 5 <» . ) ft H .
164. Iftri.


1
9.H
266
101
101



4
3.6
?7d
1 »-h
1F6



4
1.1
774
151
1 53


-------
c
f
c
JYR = 7S 1 10= 5 ,JI> A Y= 127
ISTAP= 3 1 14 * *
AWS = I. 3 1.3 0.1 I.I I.I 4.5
TEMP* 210. ?«0. 210. 2«o. 7BO. 711.
AFV= 7S2. 171. *. 51. 61. 171.
»FVR= 752. 171. 6. SI. 63. 171.
HOH1= 59H. 598. 5«». 599. S9R.
1477. 1597. 1597. 1597. 1597.
JYR = 75 1 "1= 5 )OAY=t 1*
ISTAflr 1-4 * * 4 *
AWS= l.H 7.7 1.14.0 7. 1 7.7
TCMP= 745. 7P6. 715. ?R5. 2HS. 715.
AFV= 12. R5. 95. 16. "1. I0<>.
AFVRc 12. PS. 95. 86. 9|. 109.
HLH1 = 1111. till. I11H. 1I8B. 11B«.
1037. 1016. 1016. 1016. 1016.
JYR=75 IMT= 5 JDAY=137
ISIARr 444444
AHS= 1.6 4.0 7.7 3.1 1.S 5.4
TCMP= 213. 2R2. 7B1. 2BO. 779. 279.
AFV= 245. ?4fl. 757. 24B. 2S7. 249.
AF¥f»= 245. 74B. 757. 74B. 757. 749.
DO HLHI= 312. 312. 11?. *". *1'«
L 1700. 1127. 1127. 1127. 1377.
O
JYR=75 1*0= 5 JP»Y=14B
ISrUBs 444444
»WS= 1.1 1.1 7.2 2.7 2.7 2.7
TEMP = 284. 213. 2«7. 711. 790. 210.
AFV= 117. 70. 65. 7O. SB. 103.
«FVR = 137. 70. 65. 70. 51. 101.
HLH1= 4?3. 471. 173. 473. 473.
1590. 1750. 1750. 1750. 1750.
ISTftfls 4 3 4 * * 4
AM5= 5.1 7.6 6.7 6.7 7.3 6.1
TEMPs 283. 7B3. 7R1. 711. ?»3. 2B1.
AFV= 30. 16. 11. 16. 11. 9.
AFVR = 10. 16. 13. 16. 11. 9.
HLHJ= 912. 917. °B2. 917. 917.
1731. 1775. 1775. 1775. 1775.
JYR = 75 1'1T= 5 |DAY=1S1
ISTAHa 4 4 1 -1 4 4
AHS= 3.6 7.7 1.1 4.° 1.° "? . *
TEMP* 2^1. ?01. 791. 790. 710. ?on.
AFV= 71. 27. 7 S . 71.



787.
175.
125.
r>9fl.

4
1.6
1 12.
112.
1 IB1.
1 0 | 6 .

• 4
6.7
781 .
747.
247.
317.
1327.


4
3.1
212.
120.
120.
471.
1750.
4
281.
4 .
4.
1P7,
1 775

S.H
7-10.
7M.
li f 1

1771
7B4. 7«S. 7B5. ?87.
146. ISO. IIS. IS4.
146. 150. 135. 154.
771. B41. 971.
1597. 1597. 1597.

4711
4.0 1.0 4.9 4.5
716. 711. ?B9. 791 .
130. |16. I36. 115.
111). I46. 116. 115.
1161,. 1145. 1173.
1016. 1016. 1016.
t • ' |
211'
5.B 5.4 4.5 5.4
715. 2R1. 291. 294.
749. 260. 276. 317.
749, 760. 276. 317.
419. 566. 693.
1377. 1177. 1377.


4111
3.1 l.d 3.1 «.»
716. 219. 791 . 792.
141. 69. 53. 117.
141. 69. 51. 112.
611. 797. 957.
175(1. 1750. 1750.
4|ll
211. 793. 294. 794.
157. 9. 10. 6.
157. 9. 10. «-.
. 10|1. 1055. 1097.
. 1775. 1775. 1775.
-» 'i *i <
1 / 7 1
S.s 7.7 6.7 B.I
701. 795. 795. 707,
11. 11. SI. 40
11. 41. S 1 . ' 41 .
nit n £. II In MO

1 1
71R. 7HO.
151. 147.
Ml. 147.
109B. 1771.
1507. 15°7.

1 1
5.4 4.9
797. 7"4.
14«. 150.
|4f. ISO.
1107. 10BO.
1016. 1016.
(f
I
5.B 5.4
295. 297.
314. 111.
314. 311.
820. 947.
1377. 1177.

«i
1
5.4 4.5
291. 795.
99. 100.
99. 100.
lilt. 1771.
1750. 175".
1 t
, ?9S. 797.
, n. 1.
, n. *.
101. 116S,
1775. 1775,
( |
1 1
n. ' B.5
. 797. 79R.
IS. 17.
. IS. 47.
\ fie I 1 I MS

1 t
7T>. 7<»l .
1 !•>. MO .
119. 1 •««.
1 147.
1507.

t 1
4.9 4.9
711. 715.
Ml. 115.
Ml. MS.
1059.

l i
i i
5.1 6.1
796. 796.
119. 117.
319. 117.
1074.
1377.

< 4
1 1
4.5 4.0
296. 707.
9| . 111.
91. 111.
M31.
1750.
1 t
im. 799 .
s. ".
<.. «.
. 1701.
. 1775.
1 |
0.9 0.1
?U'I. TIO.
11 . "7.
1 1 . •• 7 .
. 1 1 SI .

1
791 .
157.
157.

4.9
795.
145.
145.


j
5.4
795.
170.
170.


|
4.0
79R.
105.
105.
t
290.
isi .
151 .

1
S.P
997.
12.
47.


t
7"1.
119.
1 19.

795.
ISO.
150.


|
5.4
795.
319.
119.


(
4.0 •
79R.
101 .
101.
1
799.
314.
144.

7
4.9
7"7.
11 .
11 .


1
141.
Ml.
1
I."
166.
166.


7
5.B
?94.
117.
117.


I
3.6
291.
115.
1 15.
1
7->7.
117.
137.

1
1.6
7-17.
*».
t".


3
144.
M4.

5.4
797.
193.
191.


3
1.5
797.
339.
3.18.


7
1.0
796.
117.
147.
4 .O
796.
14R.
148.

4
4.0
796.
7".
71.



141.
4
5.B
790.
IBB.


1
6.1
291 .
358.
358.


4
5.B
293.
154.
154.
3. 1
7"*.
151.
15 1 .

4
J.6
795.
157.
157.




4
4."
7B1.
70S.


3
7.2
219.
B.
B.


4
6.7
290.
166.
166.
3.1
794.
9.
9.

1
5.4
704.
116.
116.



149.
1 4M.
4
4.S
2«6.
719.
719.


4
4.0
71S.
151 .
351 .


4
' .5
?<"».
176.
176.
4.9
793.
1*.
11.

1
4.S
7"7.
ISO.
ISO.



147. 73.
147. 71.
4 4
4.5 4.9
?M5. 794.
770. 716.
770. 716.


4 «
3.1 3.6
2R7. 7R7.
115. 17Q.
335. 379.


4 4
2.2 2.7
7R7. 2"5.
701. 77S.
201. 27S.
4.5 3.6
291. 79?.
13. 2".
11. 70.

4 4
4.5 5.1
7»7. 7°l.
15 1. 10.
1 si . lo.

-------
J¥R=75
I, a 1 4 M - 4 1 1 4 «

TEMPr 79H. 2H7. 7«7. 2«7. 7«5.
AFVr .357. 3»Q. 79«. 317. 211.
AFVRs 352. 31". ?9<3. 317. 711.
HLH1= 356. 356. 3^6. 356.
1466. 1675. 1675. 1675.
ArtS= ".4 ?,2 ;.2 2.2 1.3
TF1^P= i R •< . 7 R 7 . 2 •< 7 . 2 H 6 . 7 fl 6 .
AFV= 211. 319. 5. 12. s.
AFVRr 211. 314. 5. 17. H.
HLHls 340. 340. 340. 340.
2 9. H . 17 'O. 1 2 a H .
JYR=75 MM* 7 in,U = l>.9


AFVRr 3-1?. 30". 7 H 4 . 756 2*9
HLH1= 604. t> '»•*.. 609. 609.
1593. 1731. 1J34. 1734.


TPMP= 7H-I. 2^7. 7«h. 2R5. 2«5.
AFVr 14. 67. 11". 30. «P.
AFVR= 19. 67. 11 R. QO. KH.
H L H 1 = 517. S1V. 512. 542.
1767. 1 ^ 3 i"i . 1 ^ i 6 . (936
I Y H "" 7 S I '1 i'l ~ "7 1 r. 1 v — t o r
isrfte= 3 3 ', 4 4
AWS= 7.2 7.7 7.7 7.7 l.ft

AFVr 37). 7.^'! 7^4.' )03J )7-i!
AFVR= J i i ) . >. 9 >< . ? H 4 . 303. 374.
HLH1= S60. 6(,0. (,-.|. 66.1.
1714. 13^7. 1377. 1377.
ISTAHs 1 .. I 4 4
A W 5 ~ ).l 4 i i 7 ^ od ' i • i
TEMP — / '1 1 "•' o 1 ^'^1 ^'-J| 791
AFV= <* 5 9 . > 7 •* . i> M * . )00. 3<*s.
H[jH1= 6(i>. K to. « ii/. ft -1 0 .
1 'i •" •> . 7 1 7 / . '177. 7 1 ' 7 .
1
7.7
7R6.
770.
7 »0.
JH6.
1675.
0.0
296.
1«0.
340.
1 2MB.



JUR
609.
1734.

1 . 3
794.
32.
37.
''O.
1936.

4

700.
3 31 .
331 .
6MI .
1 )'7.
-I
O 0
? 9 1 .
'» 0 )
a
'1 " .
4
3. 1
2PR.
26H.
76R.
35h
1675

7ftfl.
1 BO.
340
1?M

4
7HR.

609
1734


2P7.
71.
71.
542
1936

4

2<»o.
337.
^37.
660
1 377
1
0. '1

77 ".

3177
3
1 ."
790.
777.
777.
515
. 1675
1
0.9
797.
S9.
450
. 17C1B

3
2 1

750
. 1734

1
290.
1 OH.
lOfl.
. 711
. 1916

1


791 .
731 .
. 7'3
. 13 ?7
)
•1 . 4

313

. "MM
1 1

294. 997.
743. 793.
743. 793.
, 673.
. 1625. 1
1 1
295. 297.
39. 10.
19. to.
. 577.
. 12«P. 1

1 1
2°1 . 291.
37 77
3 c t 1 1 .
H90 . 1
. 1734. 1

1 1
'93. 796.
14. 334.
14. 334.
. «90. !
. 1'M6. 1

1 ]

797. 7"3.
1. 5.
5. *.
"77.
• "'7- '
1 1
1 . j ?.;

1 " . 7 .

. '177. ''
1

300.
376.
376.
017.
675.
1
799.
7.
7.
695.
7PR.

1
79«.
•i i
' i •
3 1
031 .
734.

1
797.
1 .
1 .

936.

]


1 1 .
11.
410.
3?7.
t
7.7

*-
1 "
I 7 7 .
1

311 .
31 1 .
311.
090.

1
301.
5.
RI4.
12BB.

1
3 o r .
1 0
i <• •
1171 .
1734.

1
7"7.
9.
9.
1739.
19)6.




/, *
1 _
1" 4 .
1 3)7^
1
•J ^

1 rt .
"

111 1 1 1734434

*•>!. 307. »01. 301. }'"1. 300. 790. 2MB. 796. 796. 704. 790.
313. 317. »1i. v>0. 313. M9. 375. * 3 1 . 354. 149. *o. 44.
3t3. 317. 31-,. »20. 313. 31". 375. 331. 364. 349. 50. 44.
1 140. i ,nq.
1675. 1675.
111111144444
307. 307. 307. 304. 303. 30O. ?O9. 796. 795. 7 -t 4 . 2«4. 797.
°. 9. 11. 126. 10. 341. 336. 17. 14. 19. 73. 31.
q. °. 11. 176. 10. 3«1. 336. 17. 14. 1O. ?J. }i.
937. 1051.
1 7flP. 1 ?BB.


307. 303. 30). 300. 301. 7• in
q« ' • ^*'. 14 n. i. /. 17. 1H. 37. )'. 3*>. 7O.
1317. H5^.
1734. 1734.

11111773344/1
2 o « > 7ao. 3'">1. 301. 7H3. 7P3. 7«3. 793. 7H3. 79'. 7K7. 7P7.
1". IS. 11. 0. q. ^s. 36. 319. 71. id . 771. T(,.
1°. IS. 11. °. 4. 3S. 3 6 . 31". 73. 30.774. 3s.
Ml ). 15BC.
1 936. 1 « 36.



299. 719. 7^5. 707. 707. 704. 7Q7. 797. 707. < *• . 1 > . ' ' . '/ " . 17. '> . 1 S t- . 75. 117. •>"•!. 7 •=, H . 139.
• • ' • ' ' • ' T • Ii1. /''. 7-^l(. tjr>.
] (• ?!<«. (71*^
'.' 1 7 7 . M 7 7 .
-------
*  .£. or  if) if
     t cc  «• «
    »«r CM  »• —
                                         •w  C  r*> *-  —
                                              i  a  rv  r>
                                                                                     • C  IT  IT
                                                                                   <••  rv .-  —
                                                                             If  If —  —
                                                                               .  or t^  ~
                                                                             V  CM •«  —
                                            a  «• o-  o-
                                              •  c • "-  f
                                            •W  (N
                                                                                  er r-  CM Cv
                                                                                   • a  « »»
                                                                                  «r cv  —« ~«
                                                                             f  >c CM rv
                                                                               •  or. r*t f*
                                                                             f  cv •» «-
     r»  S cr  T
       •  ff «  «
     •i  cv —  «-
                                           if if  o-
                                            • &  r*
                                           «  rv
                                          o  o  a~
                                        • or CN CN
                                          CM v «
                                                                                   O  CC — —
                                                                                     • cr CM (v
     tc  — if  tr
       • ff «  «a
     r-  ts —  •-
                                                                                  rr, —  ir ir
                                                                                   • O-  CM CV
                                                                                  1C CV  — —
  v r- (N.  e  f
       • a-  cv  cv
     r
                                              c*  * «•
                                              IN
                                       (V f* *- *-

                                        • C* «N CM
                                                                                         •   •   •
                                                                                  i  r»   —  ...
                                                                                  if  cv «  —
                                                                              ir. »  e c
                                                                               . d-  »- —
                                                                              CC (V  — —
                                                                                                                           r« if.  o e
                                                                                                                            . cr  — —
                                         —  in cv  IT v
                                              t C  » »
                                                                                                                             IT o-  e^
                                                                                                                           . a •-  —
                                                                                    rr c  oc ec
                                                                                     . a  — —
                                                                                    vr IN  — — •
                                                           i-  V.
                                                      •   t r.  ff
                                                                                                                      —. —.  if r-  r-

                                                                                                                         ec  (v —.  _   i  *
                                                                                                                                       IT  or
                                                                                                                               •   •    • If  Cv
           «  •   • <£ fT
  —  a  >c  ^ vc  c —
       • c  c e  «• a
      in C fN  fS   •  •
                                         •   e  c  c  c  •-
        • c  c c  o  oc
                                                           V  If.
                                                           i~  a
                                                           if  r-
                                                            or  if
                                                   •   •  i  •»  9
                                             c  v  r- r-  if  t-
                                          v if  cr  ~- —  c ff
                                                                                    • e-  c o   t   .
                                                                                      «s  — . •.  a  c
                                                                                                 v  er
                                                                                        •   t   •  *•  IN
                                                                                      c  r* r-     —
                                                                                    • O1  if. If.
                                                                                      m          •   •
                                                                                                 •  e
                                                                                        •   •   *  *•  or
                                                                                    - er  r* P*  if f^
                                                                                    • or  * «     —
                                                                                        .  .   . a c
                                                                                      r» m m •« tr
                                                                                    • cc IP in » c  r- r*
        • c/>  c c    — «•  o a
                                            C" CN r» r* ^  tf
                                             • e>  cv cv e  o
                                            w r>         ir  r»
                                           r-  ac or  ef. c
                                         • or  v »  •* or
                                           r>         « (\
       ir  e-  r- r-   .   .
        • or  ^- p-  p- m
                                            o •  f •  e c    •   •
                                             • e  i* *~  •-  if
                                            »  cv         c  ^
                                                          ir  r>
                                        r- oc  if  ir   •   •
                                         • CC  E  OC  O> C
                                        CV CV         IW OP
                                                      <• CV
                                                                                                                               or  **i *^  if- or
                                                                                                                               CV         **t CM
     -  c  a  •- —
          «  e>  J>  e"  x
          9  «  *     —
f  II
r-  e:      »      11  11
ii  e  « a  ii E  —
a  >-  ic T  > >  E
»  «0  * W  U, U,  -=
"5  —  « ^-  « «  I
                                     >-
                                     «r
                                     e
                                     a

                                      u

                                     y
                                               • &  i*> CN   •   •
                                             W (N         — If
                                                            C  O
                                                   .   .   «  If  "•
                                             if «  e* e
                                               • f  «  «
                                             v rsi          •   •
                                            a.  •»•••« ir
                                              •  » if  «r
                                                   •  •   • ^  -n
                                              »f  ifi r* r- C  m
                                         iff  C e:   •   •
                                        <^  CM  — —  ef  e
                                                      f"  OC
                                             •   •   •  «»  CV
                                        if  er   or
                                        *  C  lf> If '  V  Cv
                                         • ff  «- —     —
                                                                              II
                                                                              n
                                     if  n
                                     r-  a
                                                H     n  H
                                                c.  n  cr  —
                                     or
                                       .  en
                                     rj  •->
>. M  I  U3 b.  U. —
                                     C      II      II  II
                                     «  n a  ii  at  —
                                     ^    »  x
                                     o>  i t'  u.  t.  j
                                     r*  f *•  X  a  X
                                                                                                                                 if  if     —
                                                                                                                                 I  •   • I**  CS

                                                                                                                        ^-  T ^  IT  If     ^B
                                                                              II                     •


                                                                              »-*      •  or  v  «     <

                                                                              If  M
                                                                              r-  r      n      H  II
                                                                              n  a.   n  Q.   II  a •-
                                                                              a.  (-  «  a-  »  » x
                                                                              >•  
-------
                                                                            ei-a
                                                                                                                                              •c
                                                                                                                                              :t>
                                                                                                                                              «^
                                                                                                                                              .1
M  -J1  J»  .Jl
                                                                          ft. J)
                                                                                                                       J--  7-  -J
-^'•*J'IiA'—  NjJ^NJ-7l'*J'—-*CC'O**""C>.J'%JOU*^i\JXjiifO'*i-*^*-"*'O-*f1iJ

X)  O  X  Uk>  i^  •£)£.*)  Jt   3    £  "O  "C  **  NJ  ^  X>  O  ^ 'Jl 3DS3J*"*-*i)J*Jli  ^) ^  i£>  ^  O *J  •* ••*  O  3 **/ ^*  Jl


i  i_  <'  •   '   «'  i   '   *    '   '   i   '   *   >   •'   '   '   '   i   «  i   i   V V   i   '•   '•   i   i  V  '/   i  Y V   i

f*J*'J*JlJIJ^J*.  Jl  Jl  '^  Jl  Jl  Jl Jl Jl  Ji  Jl  Jl  Jl Jl 'J?  Jl  Jl  ^^>^^'Jt  ^'JlJi  Jl  Jl Jl Jl  Jl
                                                                                                                                                                3

                                                                                                                                                                 £
                                                                                                                                                                 I;
                                                                                                                                                                J>
                                                                                                                                                                n
                                                                                                                                                                II
O^J3bJl^JO^J'£O3^M JB'***'J1>W<^J1^?3



 I   I   I   I   I   I   I    I   I   I   I   I   I    I   I

33333333333O33O
*J1J1J>  J1J1J1-JIJIJI:J1-JIJ1  JI'Jl
                          C«)  .«! 7*1  ,"<1
                           I   1   I   I
                                                                               l  Jl Ul 'Jl Jl
                                                                                                               •*]  TJ  «!
                                                                                                                I   I   I
                                                                                                                                  f»3  -^
                                                                                                                                   I    I
                                                                                                      l  Ul  Jl Jl Ul  'Jl  'Jl Jl UI  &
                                                                                                                                                 o
                                                                                                                                                 ^
                                                                                                                                                 O
                                                                                                    *  *   * w    *
O^JAJIJl  J13J>J1^3*JJiAAA*.JI(JlJl^l^-*,to**J^
££3JU-**».Mjl.*4?i«J3:?-^O3^-»Jl-*£-.X>.^3'X<~
U3-*3^J3sJJi^>7iww3>D-O3-k-7i^JUJ^J3'-*^^^SJ


3^^Jte-*«*J^JJ1^33Jk-^«Jk*/£b7^^4^37^X'JIJI£NJ

T  "  *!  TJ .1  T  1  1  1  ^  T   •») TJ  ?1  1  -T  7)  ."J .T!  1  .1  •«] r«l  >•»!  ••"!  T
I   I   I   I   I   I   I   I   I   t   I   I   I    t   I   I   I   I   I  I   I   I   I   I    I   I
~333333333333O3333333333OO
                                                                                                    ^  XI  -O
                                                                                                    3  —  —
                                                                                                    A  Jl  ^
                                                                                                     1   1   1
                                                                                                    ooo
                                                     Jl  ^  «»
                                                     NJ  -J  O
                                                     Jl  .—  ~J

                                                     3V  s)  *J
                                                     •^  i  :«!
                                                      i  i   i
                                                     333
                                                                                                                          — Jl  X  Jl
                                                                                                                          «J —  -J  ^
                                                                                                                           7* ft  JD  -^


                                                                                                                          •*i ^i  £  r
                                                                                                                           tl ^J  T-  Tl

                                                                                                                           I   I  I   I
                                                                                                                          3333
                                                                                                                          ji ji  ji  yi
                                                                                                                                                                H,
                                                                                                                                                                II
                                                                                                                                                                Jl
                                                                                                                                                                H
            •O2)fJ^JIA?i-*^3»J^te»

                       Jl  Jl  w  Jl  *J
    I   I   I   I   I
    35333
    Ji  Ji  Jl J<  Jl
                        *)  -Tl  •«]  .•»!
                        I   I   I   I
                       o  o  o  o
                       Ul  Jl  Jl  Jl
                                                                         fO  ^J  *i  4k
                                                                                          >  Jl
                                          •J ~  •&  If


                                           till
 I   I   I   I   I    I   t   I   I   I   I   I   I   I
3O3333333C3O33
JltT  JIJIJIJIJI'JIJIJIJI  J1J1J1
                                                                                                                       I   I   I    I   'l
                                                                                                                       33333
                                                                                                                      Jl  Jl vjl  Jl  Jl
'Jl
1
3
n

ID Jl 23
2 *. At
» Jl Jl
.ji ji ri

•JSt'iiSt "
j t> ti c (i y "
dittos.*
'ji ji ji

Jt«t Si*
.ibbtiH '
•3Htu IS'
333
Jl Jl Jl

3 NJ JO
•o c —
333
Jl Jl J!

Jl 3 3 Jl
"n ;*? T r^
3333
•Jl Jl Jl 'Jl

jllfi]
233333
J! Jl Jl JI Jl Jl

-» -* O
.i -^ .n
333

-•=1 T)
3 3

a b 4 1) <. i "
• .1 k. 1 1 S V '
•Idl frtVS*
•jSfcdst "
3333

O •*
.•^ 1
C 3
Jl Jl

d» **
^ C
~ -J
3 3
Jl Jl
-------
t  us-
(  ob
l  ob
t  it
t  bt-
(  it
(  ik
k  be
(  yy

(  t i
(  ti
t  tt
(  yb
(  yy
t  yt
(  yt
(  yt
l  yk
l  yl
(  9k
(  ut
(  tt
(  yt
(  ti
          1 * 1
          i.' t
   t-'tl lto'9
          b'b
          f'V
                                     ' t
J  tU-JVLVt' I
)  ru-amo'C
}  fO-^ou£l*l
)  SO-jVHIi'f
)  SU-JIlUt ' t
           •f
I  bl
)  bl'-.ldt>(li't
)  bO-JJ
)  bl
)  bO-Jfaf/l'b
  tb
  Vc
  I I I
  (.bl
  UP 1
  btt
  ttt
  itt
  it< I
  til
  frO-JOIbO'I
           'b
          • " f
)  bO-




)  sO-JtVbb'b
)  bO-JbOiu'i
)  cti-Jt f lo " I
)  bO-.dt Hlb" i
)  VO-JOtlO'l


        K >.  k • t I
                     Ubi  I
                     Obi  )
                     yy l  J
                          J  bu-JOyo<. 'y
  it I
  it i

  it I
  ti
  ii
  ti
                      yy
                      yt
                      yk
                      yt
                      yt

                      •ni
                              - Jt 10 I
       )  frO - .3 0 b O 0 • I


       )  bO-JO I ll-'l
       J  SO-JbfOl>'t
       J  bl
       )  bl
       J  bl
       I  VO-dbbI>"I
(  11
i  ice  )
i  fb   )
(  Vb   )
(  III)
I  bb I  )
I  OU I  i
l  yii  )
(  itt  )
lite)
I  tbl  )
(til  J
bO-lHbOO'

b 0 - J » I I I '
                            >0-Jb«it>* 1
b u - n y 111'

Ki-;i lotc1
\> o - :H u
)  bO
)  bO
)  V 0
)  90
i  bO
)  bo


)  io
)  bo
)  SO
)  bO
)  bU
)  bt
i  »0
)  VO
j  to
)  »0
)  VO



J  bO-
)  b(l-
)  So-


)  vo-
)  t (>•
)  vo-
)  vo-
          .alilVt



         •JtbyI'I


               •y
         -JlOii't
         -dtbii'b
         -aibtn't

         - JiOttr't
         -jet it*v

         -3lbbi"9
                             •J9bty ' t
                             •J9H6I '
                             •JttCf
                                                        - ji i a t H *
         •aeuo-1
         • jtibt'9
                                                               ' 1
                                                         3lvof 1
                                                         LUOO • ' t
                                                    (  bbl  )  l'0-jlfbb'b
                                                    t  Obi  >  VO-.ldbeb'l
                                                    (  obi  )  »o-jy/bs'i
                                                                              I  b 0 - y b C i II " b
                                                                                bO-JbOO>'£
(  yy  )
(  it  )
1  it
(  yy  ) »o-Jtb(>l
(  ti  ) bu-idlbti
t  it
(  it
l  ti
(  it
(  it
l  yt
(  yt
(  y(
(  91

(  yt
(  9t
(  tt
(
(  to
(  lol )
i  otc ) vo-aiiib'

i  ott )
(  bV I )
                                                                              )
( tbl  )  Hl-JkUb'l
t ibl  )  vo-:ibi9i'e
i ite  )  vo-abbto't
l ite  >  vo-jiiiibfe
( itl  J  Ml-lUSbb'e
                                                       „)»  ft
                                                                               K A t ' 1
I
(
(
t
(
1
I
(
(
t
(
(
1
(
(
t
t
I
(
(
(
I
(
(
I
I
(
t
(
I
(
I
(
(
I
(


Obi )
obi )
ubi )
yy 1 )
yy l )
yy» J
y y 1
9y
it
n
it
ik
it.
it
9t
9t
9k
yt
9t
yt
t(
ti
it
to
1 1
1 1





)
)
ni-Hyt i, v
V'-i-'Ibt ib
( 0-
VO-
fcu-
to-
1-0-
vo-
bO-
bO-
bo-
bo-
bO-
jbbiy
'HOt l 1
•lobhb
JtOk tV
AlH\(.
:j i 9 / y
lit SIH
jycbf.
.Hbbti
A 0 1 b b
Mybbi
•y
• l
• l
' t
• t
•v
•I
• I
•*•
•r>
•b
'b
' t
bo-.iOlt v'l
> b «-:•) HI ot'
)
)
j
)
}
)
>
)
)
)
j
otd )
Old )
Ok? )
Bt I )
Ibl )
Ibl )
Ibl >
Hi >
ik t )
Ubi )

UM
bo-
b>>-
bO-
bO-
M-
Ki-
VO-
Hi-
vo-
vo-
t>0-
I'O-
frO-
t>0-
jjt>ht P
JH It
jbbiy
•Jbtfct
j 0 C. 0 I
a b 1 1 1
;H « o b 9
Mb l? I
:* i ti o b
:i t k n
•ityot
a t b V H
'1 1 ( 9 t
itSHb
bo-MUi l
vo-
M>-
1-0-
t-o-
(M)-
3lflC
.4 b 0 i i
:j 1 1 1 y
i; b 1 1 t«
ti«,Ht I
i- o - :•) i ». M-

n't

't
*l
•v
•b
'9
• I
' t
' t
't-
* t
' t
• v
• (,
• t
• I
•i
• I
' (.
•t
•k
•t
•z

9t
bt
Vt
te
ti
1C
oe
cZ
b£
Lt
yc
sz
te
te
te
iz
oe
bl
u
i
9
b
t
t
t
1
0
b
H
i
9
b
V
I
I
I
HlU
dlLl|uV«
                                                                                                                            CQ
                                                                           mil ,
                                             b'U
-------
         K)-JlOUS"d


         VU-Jtob I * (.
         to-jIbSbfJ
         UU-JbfSO' I
I  St>l
(  US
(  OS
I  ik
(  So
(  it
(  Li
t  S e   )  trO-laOlbfJ
(  yy|  )  su-JHivt's
(  yyi  j  vo-jvJZO'£
l  tt   )  ?o-ntyi>u"t
(  (t   >  i/o-jtati'y
l  k i   )  fro-JlbOE's
l  yy

(  yt
(  yt
(  yk
l  yt

(  av
(.  (.<.
l  yt
(  (l
  I'd
  Vb
  t V I
  hHl
  tit  I
  bk C


  if  (.
  (!) H I
  11.1
         su-ayy It' I
         sn-jys'op't
         su-j«ssd * V
                  '«
                 >'d
•d
                 .'4
                tl'l
         Mi-ast>t> i 'l
         H > - i b P IS't
                 -•£
                 .'£
                 f't
                 :'i
                 )'t
               • uk "6
                :i'e
         iro-nvfc »l>" K
         !",>-jlsts*J
k tl
(k l
(is I

yy l
tt i
tt I
yy l
yy I
ti
tt
tt
tt
yy

yt
yt
yt
yt
yt
yt
bf

yt i
111
?b
Vb
I I I
bb I
f. B I
t( I
           tcl
           k i t
J  »0-jb»ln"t
)  fr u - J U 11 ' c.
)  ?U-d»l«U*t



)  to-jltbl'l
)  fr()-dCSkl"l
)  SU-Jt"o(M/*B
                            t

                        IM'S
                j  t/u-aoo it" I
                           ' t
                  frO-JSbfab' I
                          ,' I
                  vo-jesbi* *
                  vii- Joytt * s
                                     til
                                     tb
                                     OS
tt
it
yy i

it t
ti
ti
tt
9y t
yy l
y£ l

yf (
yt l
                                            HJ - J» 6 I t I- •
                                                   is
                                            »0-JO lb£
                                            if o- a uBt i
                                      1 1 1
                      ti,

                      111
                      ns I
                      od t

                      tti
                      i£d
                                                        k il )
                                               -y lt>yy '
St> I
Sb I
USl
USI
yy i
tt t
it I
yy l
y y l
tt»
tt l
tt l
it I
it l
yt I
yt I
yt i
ye i
yti
9t l
yt i
yt i
yt l
yt l
btd
ice
Mt I
Hfr I
bvl
bt I
ISI
iSl
tk (.
it C
I 1C
Ib)
                                 vo-aszvf
                                 fo-at vty
                                                                       fO-JO I
                                                                       so-aott y "
                                                                       tO-^ltthk
                                           ' L
                                           '»
                                 fO-iiSbt S'a
                                 Vo-HSibB't
  (is I
  OSI
  OS I
  OSI
  ttl
  tt I
  tt I


  tk I
  t k I
  tt I
  it I
  tt I
  tk I
i  yt i
l  vt i
c  yt i
(  yk i
(  yt i

(  ci i
(  tc\
(  k ui
(  bt<:


(  be i
(  »t l
t  Ht< I
(  isi
l  !M
(  isi
l  ik C
(  n (.
(  nsi
k'O-Jbt 60* t
Hi-a£b li*8
ui - 'A 0 y «t>" b
Hl-.^SHt I'i
t 0- iSbfcd"t
k o-at«»t* t
tU-Jt lSb'6
                                                                                                 frl>- HO H "3*1
                                                                                                 >0- -)£tbS'tf
                                                                                          >' t
                                                                                  SII-LHyvU'f

                                                                                  t>C-iiti9u' I
                                                                                  t o - ^ p s l i' t
                                                                                  tD-j)9i04' I
                                                                                         , t ' I
                                                                                          : * t
kO-JtOt£f ' t
» O-.itU* I ' I
Vv-H'.'f ('^ " i
K)-'Hh? SW V
tO-JHiS'h'k
                                                                                      M'-;.IU u- i
                                                                                      to- i f I v <.' l
                                                                                      M» - .-I I k f. * ' b
 't l
                     i. J( i • V
                                                               nji  I " f
                                                                 dCJ.ldjJ.niJ  H Jills J.V
                                                                      rt >i i - I
                                                                                                 S) " U
                                                                                                          ••! i) N
 »£
 ft

 It
 UE
                                                                                                              te
 u
 0£
 61
 HI
 t I
 yl
 si
 t-l
 £1
 21
 U
 UI
 b
 b
 i
 y
 S

 £
 «
 I
 MIQ
WM
                                                                   •'Ul.l
                                                                                      i-t  l'..jiHtll!
                                                                   Ul
                                                                                                       X * ••
                                                                                           ij „ i a.l.
-------
q«
71
71"
"7
1 1
RQ
101
74?
117
177.
71
717
151
116
1 40
4
4
4
4
4
4
4
4
3
1
1
' 1
. "5 u 4 1 F - 0 4
.H4H7F-01
]7P11F~04
. 71 07F-04
.f.7 If, F.-<\*
. 4n^9F-04
,2107'C-0«
.171 PF-04
.(lf,50F-04
.091PF-04
.691 1E-04
.S7B1R-04
.4953E-04
ifi
10
1?
1*)
f»
1 1
ll
1 4
?•>
1
4
14
10
n
0
1
n
0
0
ft
ft
0
0
0
0
.HI
!M
.s*
"fl3
.fll
.«M
. "3
.65
.P3
. "3
. W
.«?
03
 I
CT>
-------
zi-a
z z M    j* n
in -o o    co z
II  II  H » II —    <
      II  -J »       >-i
                                                                                         o>  TJ
                                                                                         o i*J
                                                                                         r>  z
                                                                                         < z
                                                                                         .1 •
                                                                                         Z
                                                                                         i  m
< II -i C"
ii     it c -i
   —1-1
      O 'J> f
      — II 13
o    •      >
•   — O O ft
w z       T;
OT30=
» C Z    Z
X H il O II
9 II H
O    M    O
                                                                                          3
                                                                                            n
                                                                                         r> O
                                                                                          en »
                                                                                          -i  Z
                                                                                          C <
                                                                                          m
                                                                                          !~i
                                                                                          -i
                                                               II

                                                               o
                                                               05
                                                               •»
                                                               n
                                                               3)

                                                               H
-------
  Pt.ANT ELEVATION (TEET ABOVE SEA  LEVEL)--     1080.0

      RECEPTOR ELEVATIONS ffEET ABOVE SEA LEVEL)

  DIRECTION   RINGIt   RINGI2   RINGU   RINGM
                                                  RINGIS
1
2
3
4
V 5
6
7
A
9
10
11
1 2
1 3
1 4
15
16
17
1 8
19
20 -
CO l\
1 22
OO "
24
25
26
27
28
29
30
31
32
33
34
35
36
STACK »
STACK 1
STACK
t
2
1350.0 1300.0 1400.0 1880.0 2160.0
1200.0 1200.0 1600.0 2174.0 2100.0
1160.0 1460.0 1590.0 1760.0 2000.0
1120.0 1400.0 1540.0 1600.0 1900.0
1200.0 1360.0 1520.0 1600.0 1800.0
1250.0 1340.0 1350.0 1567.0 1560 0
1220.0 1320.0 1260.0 1560.0 ISOO.'o
1180.0 1300.0 1540.0 1500.0 1481 0
1100.0 1300.0 1340.0 1627.0 1549 0
1070.0 1320.0 1584.0 1639.0 1564 0
1050.0 1320.0 15SO.O 1766.0 1668.0
1160.0 1060.0 1340.0 1836.0 1744.0
1320.0 1150.0 1300.0 1720.0 1700.0
1400.0 1420.0 1420.0 1743.0 1800.0
1420.0 1520.0 1605.0 HOO.O 1900.0
1440.0 1590.0 1580.0 1900.0 2100.0
1440.0 1300.0 15(10.0 1900.0 2100 0
1440.0 1260.0 1260.0 17UO.O 1840 0
1420.0 1200.0 1320.0 1700.0 1620.0
1400.0 1100.0 1400.0 1625.0 1540 0
1200.0 1080.0 1480.0 1540.0 1520 0
1060.0 1300.0 1572.0 1440.0 1620 0
1050.0 1460.0 1540.0 1120.0 1537 o
1*00.0 1500.0 1540.0 1551.0 1796*0
1200.0 1400.0 1540.0 1505.0 1773 o
1260.0 1440.0 1520.Q 1660.0 2120.*0
1380.0 1460.0 1560.0 1880.0 2320.0
1440.0 1400.0 1540.0 1760.0 2251.0
1460.0 1440.0 1560.0 2140.0 2224 0
1460.0 1480.0 1580.0 2040.0 2253.0
1480.0 1500.0 1560.0 2100.0 2293 0
1500.0 1540.0 1460.0 2000.0 2220 0
1500.0 1520.0 1400.0 1841.0 224o!o
1480.0 1400.0 1746.0 2218.0 2056 0
1460.0 1200.0 1640.0 1960.0 2220 0
1440.0 1463.0 1380.0 1900.0 2405*0
1--SHAWVILLE STACKS U2 8RC-S02
2--SHAWVILLE STACK 3 AND 4 8RC-S02 NORMAL LOAD
STRATEGY 802 EMISSION RATE PART EMISSION RATE HEIGHT
TVPE (GMS/SEC) (GMS/SEC) (METERS)
NOM «<.00 0.00 ,82.88
NOM "7-00 o.OO ,,.06





































DIAMETER EXIT VELOCITY TEMP
{METERS) (M/SEC) (DEG.K)
3'8' 21.82 391.00
J'73 18.84 306.00
RANGE(KM)= 0.83 1.66 3.32 6.65 13 29
SEASONAL VARIATIONS BY CASE "

1 1.26 1.09 0.98 0.87 1.10 0.92 0.87 1.08
0.98 O.BO' 1 ill i AA
                                                                                                              VOLUMETRIC FLOW
                                                                                                                (M»*3/SEC)

                                                                                                                   348.77

                                                                                                                   205.87
YEAH H«S(TO ON 365. DAYS
-------
         PF.NN.  ELECTRIC CO.  SHAHVILLF.
07
10
OIR
  1
  2
  3
  4
  5
  6
  7
  R
  9
 10
 11
 12
 13
 14
 15
 1*
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
                                        NOM--S02

            MAXIMUM  MEAN  CONC=  4.2402O05  niRECTTONs 10  DISTANCES  0.8 KM
                        ANNUAL MEAN C1NCENTRATTON AT EACH RECEPTOR
         RANGE     0.8  KM          1.7 KM         3.3 KM         6.7 KM
                                                                               13.3  KM
3.93887E-05
4.03398E-05
4.07570E-OS
4.02391E-05
3.92570E-05
3.90473E-05
3.97372E-05
4.0B790E-05
4.19218E-05
4.24020F.-05
4.17605E-05
4.01323E-05
3.H4141E-05
3.71 345E-OS
3.628S9E-05
3.5S576E-05
3.5269QE-05
3.49817E-05
3.47637E-05
3.46879E-05
3.46446E-05
3.46419E-0-5
3.47968E-05
3.50862E-05
a.sazssE-os
3.54193E-05
3.54741E-05
3.S8851E-05
3.68746E-05
3.7S162E-05
3.7R422E-05
3.71341E-05
3.63474E-05
3.59709E-05
3.59881E-05
4.10829E-05
4.0259RE-05
4.117H2E-05
4.15596E-05
4.09512E-05
3.98400E-05
3.9SOI2E-05
4.02457E-05
4.14964E-05
4.21643E-05
4.18738E-05
4.05518E-05
3.91372E-05
3.79242E-05
3.701<54E-05
3.63566E-05
3.56788E-05
3.53152E-05
3.50493E-05
3.48085E-05
3.4721BE-05
3.46901E-05 :
3.47490E-05 :
3.506fl9E-05 i
3.56065E-05
3.60194E-05 :
3.6015JE-05 3
3.58616E-05 3
3.62278E-05 .1
3.71572E-05 3
3.78156E-05 3
3.76542F.-05 3
3.69941E-05 3
3.63650E-05 3
3.607S7E-05 3
3.606'»2E-05 3
4.17672E-05 3
.S1240P-05
.R7094F-05
.99R79E-05
.98152E-05
.9M10E-05
.94768E-05
.06643E-05
.15054E-05
.13548E-05
.04362E-05
.RB013F-05
.79177E-OS
.69J02E-05
.62327E-05
.S7771E-05
I.51574E-05
1.50109E-05
).47998F>05
1.47453E-05
I.45201E-05
I.4492BE-05
I.46110E-05
I.4B788F-05
I.54616IT-05
.62011E-05
.5R467F-05
.56166E-05
.fi007«E-05
.70126F-05
.71275E-05
.67987E-05
.60844F-05
.57035IT-05
.55182E-05
.54547E-05
.85579E-05
3.fi3020E-05
.67002E-05
.B629RF-05
.B6907F.-05
.84724E-05
.87401F-05
.997S8F.-OS
.03717E-05
.99230F-05
.B953'iE-n5
3.75171E-05
3.69809E-05
3.62603E-05
3.56771E-05
3.54569E-05
3.4B11 4F.-05
3.48954E-05
3.46559E-05
3.46779F.-05
3.43799E-05
3.43770E-05
3.45346R-05
3.484B5F-05
3.560R9F-05
3.6613SF-05
3.586R1E-05
3.57717E-05
3.60015F.-05
3.7106SE-05
3.6677JE-05
3.60643F-05
3.546SSF-OS
3.5189RR-05
3.51S90E-05
3.49771E-05
3.62423E-05
3.S3394F.-05
3.572fi9E-05
3.71370F.-05
3.70745E-05
3.68B30E-05
3.69997E-05
3.76515E-05
3.79231E-05
3.76448F-05
3.71103E-05
3.61021E-OS
3.5RM5E-05
3.55253E-05
3.50B9RE-05
3.49594E-05
3.45200F-05
3.46031E-05
3.44469F-05
3.44708E-05
3.427R3E-05
3.42401E-05
3.44106E-05
3.47312E-05
3.53B49E-05
1.6183RF-05
3.S6249E-05
3.55455E-05
3.54475E-05
3.62557F-05
3.S7401E-05
3.53231F-OS
3.S005fiF-05
3.47727E-05
3.4B931E-05
3.4fi928E-05
3.S2062E-05
-------
     PFNN. ELECTRIC CO.  SHAHVTLLE







                                       MOM--R07




YEARLY  MAXIMUM  24-Hn(IR  CONC=   7.4259E-04   niRECTION=360.   DISTANCES  O.R  KM  OAY=tSO.
HIRHEST 24-HOUR CTNCFNTRATIflN »T C»CH RECEPTOR
RANGE 0.8 KM |.7 KM 1.3 KM 6.7 *"4 13 3 KM
OIR
1
2
3
4
5
6
7
B
9
0
1
t
3
4
5
16
17
18
19
20
21
22
.0905E-04 ( 150
.2B90E-04 { 140
.5389F-04 { 237
.4313K-04 ( 151
.47SBE-04 ( 13J
.1B10E-04 ( 221
.3241F-04 ( 271
.I71IE-04 ( 256
.312*E-04 f 210
.794JE-04 ( 230
.6540E-04 ( 230
.5249E-04 ( 239
.793SO04 ( 122
.5561E-04 ( 122
.4177F-04 ( 122
.1540E-04 { 219
.7962E-04 ( 219
.2110K-04 ( 127
.36I2E-04 ( 127
.3754E-04 ( 127
.1305E-04 t 127
.I4ME-04 ( 180
23 9.5915E-05 ( 180
24 1.0064E-04 ( 176
25 8.8356E-05 ( 176
26 9.4909E-05 ( 145
27 B.1R29E-05 ( 145
28 9.3121E-05 { 120
29 .3331E-04 { 120
30 .3601E-04 ( 120
31 .6215E-04 ( 137
32 .3311E-04 ( 137




















.1003F-04 { 173
.0<*R9F>04 ( 140
.2067F.-04
.1 342E-04
.0310F-04
.0416F-04
.OB91F-04
.05R7F-04
.1035F-04
.2902E-04.
. 1752f>04
.0321E-04
.9350E-05
.0631E-04
.8931E-05
.7806F-05
.0613E-04
.1372E-04
.1015E-04
.0094E-04
8.9908E-05
9.3801E-05
8.3863F.-05
1.1I95E-04
9.9961F.-05
1.022BE-04
9.77I2F.-05
8.5404E-05
1 .0382E-04
1.0941E-04
1.1717E-04
737
151
131
271
221
<»0
756
230
230
67
136
136
220
219
219
177
177
127
1BO
180
291
176
176
145
178
I7B
170
120
137
9.2734E-05 f 137
33 .0421F-04 ( 258 ) 8.7903F-05 ( 250
34 .1071E-04 ( 258 ) B.3421E-05 { 258
35 9.68J9E-05 ( 168 ) B.75I9E-05 ( 187
36 2.4259E-04 f 150 ) 1.8722E-04 ( 195
8.1717E-05 ( 173 1 6.3659E-05 { 165 ) 6.1209E-05 ( 283 )
7.9416E-05 ( 259 ) 6.7644E-05 { 265 ) 5.9B99E-05 ( 7
9.3B91E-05 ( 306 ) .7260E-04 ( 3O6 J 9.5207E-05 ( 306
1.0490C-04 ( 56 ) .07O2F.-04 ( 5fi ) 8.3387E-05 f 23
9.3061F-05 < 11 ) .69B4F.-05 ( 330 ) 7.1732F.-05 ( 242
.1559E-04 { 19 ) .1571F.-04 { 19 ) 7.6228E-05 ( 19
.2811E-04 ( 14 ) .3«38E-04 ( 14 ) 1.0153E-04 ( 4
.4035E-04 ( 44 ) .3117F.-04 t 44 ) 9.2967E-05 ( 45
.7392E-04 ( 30 ) .4003E-04 f 10 ) 1.0405E-04 { 30
.8091E-04 ( 94 ) .4431E-04 ( 94 1 1.1315E-04 { 318
.2100E-04 ( 79 ) .2737E-04 ( 79 ) B.5196E-05 ( 79
.I932E-04 f 67 ) .02B6F-04 ( 67 ) 6.8505E-05 ( 96
8.6590F-05 ( 2 ) B.1731E-05 ( 2 ) 7.1992E-05 ( 303
8.3153r-05 ( 122 ) 7.1923E-05 ( 302 ) 6.7016E-05 ( 302
9.8B61E-05 ( 86 } 9.4674F-05 ( 86 ) 7.0411E-05 ( 86
6.60IOE-05 ( 719 ) 6.7645E-05 ( 34 ) 5.8205E-05 ( 34
6. 7755O05 { 719 ) 5.9366E-05 ( 33 ) 5.7563E-05 ( 31
7.4616E-05 ( 127 ) 8.4615E-05 ( 20 ) 6.5274E-05 ( 20
7.4171E-05 ( 127 ) 8.0022E-05 ( 20 ) 7.1208E-05 ( 218
7.2696E-05 { 218 ) 6. 7063E-05 ( 218 ) 5.4732E-05 ( 218
6.95I5E-OS ( 218 ) 5.3766E-05 ( IBO ) 4.6671E-05 ( 1BO
7.6876E-05 ( 218 ) 7.735IE-05 ( 218 ) 5.9229E-05 C 218
7.9064E-05 ( 291 ) B.763BE-05 { 291 ) 8.271BE-05 { 291
9.3788E-05 ( 291 ) 8.6752E-05 ( 33 ) 8.1203E-05 ( 33
1.2243E-04 ( 73 ) 1.4695E-04 ( 73 ) 1.0353E-04 ( 73
7.184SE-05 ( 145 ) 8.1578E-05 { 28 ) 9.I584E-05 ( 28
7.76B6E-05 ( 178 ) 8.1347E-05 ( 121 B.8998E-05 f 121
6.B449C-05 f 244 ) 9.7820E-05 ( 121 B.7B77E-05 ( 121
9.9804E-05 ( 243 ) I.I600E-04 { 243 0.290BE-05 ( 243
8.4281E-05 { 120 ) 9.1333P-05 ( 8 7.0767E-05 ( 162
I.1I60E-04 ( 123 ) 1.7498E-04 ( 123 B.7679E-05 ( 123
6.6984E-05 ( 272 ) 7.376BE-05 ( f 6.29B2E-05 ( 6
6.3B24E-05 ( 258 ) 5.833«>E-05 ( 71 5.6477E-05 ( 71
5.9631E-05 ( 211 ) 6.177IE-05 { 53 6.4B55E-05 ( 53
6.8206E-05 f 11 ) 6.4046F-05 ( 11 ) 4.9392E-05 ( 146
1.1407E-04 { 195 } 7.6970E-05 ( 195 ) 6.1008E-05 { 150 )
-------
     PF.NN. PLKrTRIC  CO.  SHAWVTI.I.F
YEARL* MAXIMUM 3-HOU«  CONC=   7.4079F.-04  OTRFCTTONr   0.  DTSTSMfFs   O.B  KM
                                                                                                  HWIR=1500.
f HIGHEST 3-HQDR CONCENTRATION AT f.lTH RECEPTOR
RAfir.F 0.8 KM 1 .7 KM 3.3 KM
OIR
( 1
2
3
< 4
5
F 6
( 7

9
' 10
J 1
12
( 1 3
14
CD 15
< ' 16
_. 17
18
' 19
20
21
:< 22
23
24
' 25
2ft
27

29
30
!' 31
32
3 J
34
35
36

4.1350E-04 (
4.4001E-04 f
4.2977E-04 {
4.3M1E-G4 f
3.5877F-04 (
4.1162F-04 (
.7406F-04 (

.1777E-04 (
.•>288F.-04 {
.5134E-04 (

1.7594K-04 (
4.I401E-04 (
4.010JF.-04 (
3.7trtPE-04 (
4.0H89F.-04 {
4.0171I1>04 f
3.4457E-04 (
4.2727K-04 C
3.6133F-04 (
5.6557E-04 (
7.9361F.-04 (
3.396RE-04 (
3.27ft4E-04 (
4.0894E-04 (
3.7208E-n4
3.0*91F-04
3.4366K-04
4.6007K-04
4.6130F.-04
3.H7.09E-04
3.9438E-04
4.0S67E-04
3.7331E-04
7.4079F-04 (

146 )
238 )
237 )
131 )
131 )
236 )
236 )
245 )
224 )
230 )
239 )
239 )
136 )
136 )
122 )
219 )
219 )
219 )
127 )
127 )
127 )
180 )
176 1
17ft )
235 )
145 )
145 )
161 )
21 )
21 )
137 )
137 )
250 )
135 )
135 )
150 )

3
3
3
3
3
2
3
3
3
3
3
2
2
3
3
2
3
3
2
2
2
2
2
3
3
2
3
2
2
3
3
3
2
3
t
5

.1138F.-04
.5235F-04
.4917E-04
.9064E-04
.1094F-04
.9866E-04
.0712F-04
.2369F.-04
.2262fc-04
.0560E-04,
.3169E-04
.7930F-04
.9897E-04
.1973F-04
.0716E-04
.8121E-04
.0701E-04
.1 141E-04
.6307F-04
.9741F-04
.5703F-04
,7356F,-04
.4425F-04
.1734F.-04
.6655E-04
.9056E-04
.1161F-04
.281 7F-04
.80B1F-04
.4374E-04
.1592E-04
.0775E-04
.9745E-04
.0520E-04
.5060F-04
.1477E-04

(
(
f
(
C
f
(
(
f

(
(
(
(

(
(
(
(
(
f
(
C
(
(
(
(
(
(
(
C
f
t
(
(
(

146 )
140 )
237 1
23 )
301 )
221 )
14 )
30 )
30 1
1 4*> )
326 )
729 )
136 )
770 )
219 )
220 )
719 )
127 )
127 )
177 )
218 )
1HO )
291 )
735 )
735 )
145 )
1R1 )
178 )
244 1
21 )
333 )
334 )
250 )
150 )
59 \
150 )

2.3517F.-04
2.8I65F-04
2.B907E-04
2.57«2F.-04
2.9795E-04
2.9837E-04
2.8564E-04
2.9273E-04
2.9991E-04
2.8947E-04
2.4876E-04
2.2546F-04
2.5363E-04
2.1212E-04
2.6049E-04
2.3168F-04
2.0354E-04
1 .9224E-04
1 .9063E-04
2.4938E-04
1 .9599E-04
2.1510E-04
2.1459E-04
2.6501F-04
2.3177F-04
2.3905E-04
1 .9618E-04
2.1345E-04
2.6271E-04
2.3B53E-04
2.6503E-04
2.0410E-04
1 .8B17F-04
1.9564E-04
2.7214E-04
2.9001E-04

228 )
259 t
24 >
225 )
18 )
18 )
( 16 )
( 9 )
( 9 )
( 2 )
( 337 )
( 67 1
( 2 )
( 340 )
( 34 )
( 126 )
f 185 )
f 214
f 20
( 70
( 218
( 218
( 291
f 32
( 235
r 69
( 35 )
( 334 )
( 76 )
f 333 )
( 123 1
{ 6 1
( 149 )
( 11 )
r 11 )
( 142 )
6.7 KM

1 .R974F-04
7.1421F-04
3.298BF-04
2.84B2F-04
3.044RF-04
2.9732F-04
2.8884F-04
3.3974F-04
2.8B95F-04
3.2710E-04
2.4816F-04
2.5019F-04
2.B35HE-04
2.4364F-04
2.9313E-04
2.6901E-04
2.0776E-04
2.9561F-04
2.0fi78F-04
2.0245F-04
1 .7756F-04
2.0077F-04
2.0290E-04
2.3617F-04
2.6351F-04
2.7378F.-04
2.7447F-04
2.5133E-04
3.1944F-04
3.1055E-04
3.7767E-04
7.0832F-04
1 .7R06F.-04
2.4784F-04
2.0060E-04
1 .9431F-04


(
(










(
(
(
(
f
(
(
(
(
(
f
(
(
(
C
(
(
(
(
f
(
{
(
f


165 1
17 1
306 )
15 )
242
1
14
4
42
376
79
252
2
340 1
19 )
126 )
20 )
20 1
20 )
718 )
72 1
218 )
791 )
242 )
32 1
48 )
227 )
121 )
243 )
8 )
10 )
f. 1
149 )
53 )
111
232 )
13.3 KM

1.9119E-04 ( 283 )
2.1226E-04 ( 7 )
2.3227F.-04 ( 306 )
2.8788F.-04
2.6305F-04
2.0566F.-04
5.6327F-04
2.4280E-04
2.4344F.-04
2.5177F-04
2.1124K-04
1 .9950F-04
1.7374F-04
1 .7114F-04
2. 1957F.-04
1.6149E-04
1 .4971F.-04
2.0269F-04
2.0508E-04
1 .5159E-04
1.3527E-04
1 .7513E-04
2.3274E-04
2.3547E-04
2.4012E-04
3.0139K-04
2.3611E-04
2.1932E-04
2.5128F-04
2.0640F-04
2.5561F.-04
1 .8B06E-04
1 .5877E-04
2.2633F.-04
1.3732C-04
21 >
242 )
37 )
308 )
45 )
30 )
326 )
22 )
318 )
13 )
13 1
19 )
126 )
19 }
20 )
218 )
218 )
87 )
291 )
291 )
28 )
43 )
28 )
227 )
121 )
243 )
87 )
10 )
6 )
71 )
53 )
259 )
1.2092F-04 2J2 )
-------
                                                            MAXIMUM DAIOY CONCENTRATIONS


 f                                              HAY    24-HOUR CONCENTRATION    DIRECTION

                                                150          2.4759E-04            16          0  R3
 r                                              J"          I.B277E-04            16          |.66
                                                1?3          1.R105E-04            16          |  66
                                                 q«          1.809KT-04            10          3."j2
 f                                              "".          1.7142E-04            10          O.fll
                                                197          1.6327E-04            Ifi          1  66
                                                191           I.630BE-04            16          1.66
 f                                              137           I.62I5E-04            31          O.U3
                                                23**          I.5B46E»04            tl          0  qj
                                                             I.5573E-04             16          |  66
if                                              1?3           I.5561E-04,            14          o!fl3
                                                237           1.53R9P-04              »          O.B3
                                                             1.5346E-04             II           o.H3
If                                               7)           I.4693E-04             75           6.65
                                                111           I.4663E-04             1?           o.83
                                                103           1.4545E-04             17           0.83
If                                               '**           I.4470E-04             11           o.83
                                                136           I.4348E-04             |4           0.83
i                                                Hfl           1.4322E-04             10           O.B3
\(                                               1<51           1.4313E-04              4           0.83


     CD
     r\j
-------
\<
\

f
        PENN.  F.CECTPIC CO. SHAWVILtE
        SOLVFWT REFINED COAL STUDY    PROJEfT 7101

        SRC MAX. CONI).

        STACK  «  1--SHANVILLE STACK 1 (MAX. COHn.)  SPC
        STAC*  »  2--SHAWVILLK STACK 3b4 SHC-S02 MAXIMUM
STACK   STRATEGY   so? EMISSION  RATF   PART EMISSION  RATE
          TYPE         (CMS/SEC)            (CMS/SEC)
                                                                       HFTGHT
          NO"

          MOM
                           312.00

                           476.00
             0.00

             0.00
 RANGE(KM)=   O.R3   1.66   3.32   6.65   13.29
 SEASONAL VARIATIONS RY CASE •
          t   1.00   1.00   1.00   1.00   1.00    1.00    1.00
IR7.88

 99.06



  1.00
                                                                                 OTAMETFP  FXTT VELOCITY   TEMP
                                                                                 (METERS)     (M/SEC)     (DEK.K)
                             3.81

                             3.73
                                                                                1.00
                                                                                1 .00
 29.38

 22.52



1.00
403.00

396.00
VOLUMETRIC FLOW
  (M**3/SFC1

     334.96

     246.08
                                                                                             1.00
        JYR=75  IMO= 3  JOAY= 73
•(





(



(

(


(

AWS= 7.2 7.2 9.8 8.9
TEMPr 271. 271. 270. 270
AFV= 243. 253. 256. 251
AFVR= 243. 253. 256. 251
HLHI= 801. 801. 801.
S84. 553. 553.

00
1
ro
JYR=75 IMO= 4 JDAYs 94
ISIAB= 1333
AWS= 14.8 13.4 16.115.6
TEMPs 269. 267. 267. 267
AFV= 101. 106. 108. 109
AFVR= 101. 106. 109. 109
HLHJr 600. 600. 600.
1780. 1390. 1500.
8.9
. 270.
. 257.
. 257.
801.
553.





12.5
. 266.
. 109.
. 109.
600.
1500.
8.5
269.
278.
278.
801 .
553.





12.5 !
266.
97.
97.
600.
1500.
8.5,
268.
264.
264.
801
553





11.6
266.
93.
93.
600
1500
8.1 8.9 8.9
768. 268. 269
255. 254. 263
255. 254. 263
. 770. 739.
553. 553.





17.1 14.8 16.1
2S6. 267. 267
100. 106. 106
100. 106. 106
. 600. 720.
. 1500. 1500.
9.8
. 769.
. 264.
. 264.
708.
553.





15.6
. 267.
. 104.
. 104.
840.
1500.
10.3
269.
259.
259.
677.
553.





17.4
268.
103.
103.
950.
1500.
8.1 7.6 6.3
270. 270. 270.
261. 257. 257.
261. 257. 257.
646. 615.
553. 553.





16.1 15.6 15.6
269. 269. 268.
104. 105. 105.
104. 105. 105.
1060. 1170.
1500. 1500.
3
5.8
770.
757.
757.







15.7
768.
104.
104.


5.8
270.
253.
253.







15.2
268.
110.
110.


5.8
269.
250.
250.







14.8
267.
104.
104.


4.5
269.
257.
257.







12.5
267.
106.
106.


4.5
270.
250.
250.







10.3
766.
106.
106.


4.0
270.
243.
243.







9.4
266.
101.
101.


3.1
270.
262.
762.






•»
9.8
266.
108.
108.


3
3.1
270.
246.
246.







10.7
266.
108.
108.


3
2.2
269
223
223






•j
9.8
266
101
101


       JYR = 75  110=  4  >ir>AV=!03
       18TAB=   44444443211111
       AWS=  5.4  5.4  5.8   6.3  5.8  5.4  4.5  4.0  5.4  6.7  6.3  6.3   7.2   7.2
       TEMPs 2/0. 269.  2h9.  269.  267. 267. 267. 270. 273. 274. 775. 275.  275.  775.
                                                                              1    1
                                                                            7.7  6.7
                                                                            276. 777,
       AFV=   127.  MO.  113.  Ml.  114. 108. 109. 106. 112. 178. 129. 137.  130.  171.  122.  115.
       AFVR=  122.  110.  113.  Ml.  114. 108. 109. 106. 112. 128. 129. 137.  130.  171.  127.  115.
       HLH1=   8??.   H22.   827.   822.   872.  822. IO39. 1257. 1474. 1697.  1O09.  7177.
              2314.  2561.  2561.  7561.  7561. 2561. 7561. 2561. 7561. 2561.  7561.  7561.
                                                                                          1134
                                                                                        5.8   5.4   5.4  5.8
                                                                                        278.  279.  276. 274.
                                                                                        120.  128.  136. 143.
                                                                                        120.  178.  136. 143.
                                                                         4444
                                                                       5.8   5.4   4.5   3.6
                                                                       273.  272.  271.  270.
                                                                       146.  156.  153.  166.
                                                                       146.  156.  153.  166.
            4 ,JD»Y=1 1 1
ISTABr  J     J    3     3
AWS=  5.S  5.8  ft. 5   6.7
TGHPs 275. 275. 2/5.  274.
AFV=   84.  80.  98.  116.
AFVRs  84.  80.  98.  M ft .
                           3
                         6.3
                         274.
                         125.
                                         4
                                       4.5
                                       277.
                                       113.
  3    3
4.9  7.2
273. 774.
100. 101.
                                  125.  113. 100. 101,
  111111111134
8.1   8.1  8.1  7.?  7.6   7.7   7.2   8.1   7.7  6.7  6.3  6.3
775. 77S. 776. 277. 279.  780.  7H1.  281.  282. 281. 780. 277.
117. 176. 128. 17Q. 124.  110.  112.  120.  Ml. 118. 128. 128.
117. 176. 128. 179. 174.  110.  117.  170.  Ml. MB. 128. 128.
       HLH1= 2000.  2000.  2000.  7000.  2000. 2000. 7002. 2005. 200H. 7O1O. ?013.  ?O16.
             2013.  2021.  2021.  2021.  2021. 7021. 7021. ?0?1. 7071. 7071. 7071.  7O71.
                                               4444
                                             5.4  6.3  2.7  3.1
                                             276.  275. 274. 274.
                                             152.  159. 168. 153.
                                             152.  159. 168. 153.
-------
JYP*75 I'<
ISTARs  )
AHS =  I.B
                  = S JOAY=I22
                           4
                        0.4
  4
3.,
        AFV =

              25?. 171.
                           598.
  "4322
4.5  4.9  6.3  6.7  6.7
7«1. 2H7. 284. 285. 285.
123. ,75. ,46. 150. 135.
.73. ,25. ,46. ,50. ,35.
  t
7.2
787.
154.
154.
                                     .      .      .
              .472. 1,97. 1597.  ,5,7.  1597.  ,5,7.  ,5,7.  .597.  i'.
  I    I
7.7  7.7
?««. 789.
153. ,42.
  1
6.1
790.
139.
I 31.
                                                                         .     .
  t
6.3
  1
6.7
  1
8.,
  1
7.6
?•», .
.44.
M4.
  3
..8
                                                                                                         3
                                                                                                       6.7
  4
3.1
  4
2.2
                                                                                                                                      4
                                                                                                                                    2.2
                                                                                                                                     73.
f


f


f


f


r
  ro
JYR = 7(
ISfAR:
AHSr
AFV =
AFVRs

JYR*7S
ISTAR:
AHSs
Irv= =
AFVR =
HLH 1 *

JYR*75
ISTARs
AWS =
TEMP =
5 1 MO:
= 4
1.8
3?.'
J2.
1 188,
1037.

3.6
2R3.
245.
245.
312.
1200.
IMO*
4
3.1
284.
137.
137.
= 5 Jr>AY=13fi
* 4 4
2.2 3., 4.0
286. 285. 285
85. 95. 86
85. 95. 86
. 1016. 1016.
» 5 JOAY=,37
4.0 2.7 3.1
282. 281. 280.
248. 257. 248
248. 257. 248.
312. 312.
1327. 1327. ,
5 JDAYSJ48
1.3 ?.2 2.7
283. 282. 281.
70. 65. 70.
70. 65. 70.

4
2.7
. 795
. 91
.016!

4.5
. 279.
, 257.
, 257
312.
327!

2.7
280.
58.
58.

4
2.2
. 285.
. 109.
10,6!

5.4
. 279.
, 749.
249

1327!

2.7
280.
103.
103.

4
3.6
285.
137.
10,6


72iV
247

I337i

3.1
287.
120.
120.

* 2 . 1 1
4.0 4.0 4.9 4.5 5.4
286. 288. 289. 79,4 297.
.30. ,46. ,36. 135. ,46,
. 1016. ,016. 10,6! 10, 6!
/

!ii' iii* liM?!* r"*

• 439. 566 I* Q 1 Ron
i ^ *J r • *J U U « V 7 I * ~ / U »
. 1327. 1327. 1377. »3?7.

3.. I.P 3.1 4.9 5.4
786. 289. 291. 792. 293.
143. 69. 53. 112. 99.
143. 69. 53. 112. 99.


1
4.9
294.
150.
(016

1
5.4
297.
Ill
J 1 1 •
111
J 1 1 •
I'"!

1
4.5
295.
100.
ino.


1.11124
4.9 4.9 4.9 4.5 4.9 5.4 5.8
294. 795. 295. 295. 295. 793 290
141. ,35. 145. ISO. 166. 193. 18e!
. 1059. 	
. 1016.

• 1 1 1 2 3 3
5.8 6.3 5.4 5.4 5.8 4.5 6.7
296. 296. 295. 295. 294. 292. 291.
3.9. 317. 320. 319. 317. 338. 358.
Jii. Jii. 320. 319. 3.7. 338. 358.
: !»,:

1 i 1 1 1 2 4
4.5 4.0 4.0 4.0 3.6 4.0 5.8
296. 297. 298. 298. ,298. 296. 293.
91. 111. 105. ,01. 115. 142. 154.
Q1. Ill IAR 1 nt t t f «4t •«.


4444
28ft. 286. 285. 284
205. 219. 220. 236

3444
7.2 4.0 3.1 3.6
P * 111 ll^l 1 T o
*•• .».*•.• jjj* J^T«
8. 351. 335. 329.


4444
6.7 4.5 2.2 2.2
290. 289. 287. 285.
166. 176. 201. 225.
       HOH1*  473.  473.  473.   473.
             .590. 1750. 1750.  ,750.
                               473.   473.   633.   793.
                                  .  1750.  ,750.
                                                                                             .5.  142.  154.  166. 176. 201. 225.
       JYR*75 IMOa 5 JDAYM50
I3TAB= 434444
A*S= 5.8 7.6 6.7 6.7 7.2 6.3
TEHPa 283. 283. 283. 283. 283. 283.
AFV* 30. ,6. ,3. ,6. 13. 9.
AF»R» 30. 16. ,3. ,6. 13. 9.
Ht,Hla 982. 982. 982. 982. 982.
1238. 1275. 1275. 1275. 1275.
JYR=75 IMO= 5 JDAYzlSl
I3TAR= 444444
AHSa 3.6 2.2 3.1 4.0 4.0 5.4
TEHPs 29,. 291. 291. 290. 290. 790.
AFVs 23. 72. 29. 28. 25. 24.
AFVRr 73. 22. 29. 28. 25. 24.
HI,H,= 863. 863. 863. 863. 863.
1702. 1750. ,750. ,750. ,250.
4
7.6
283.
4.
4.
982
1275

4
5.8
290.
28.
28.
863
4
6.3
283.
352.
352.
. .0.8
. .275

}
5.8
Z93.
4,.
41.
. 911
1 1 1
3.1 4.0 4.9
293. 794. 294.
9. 10. 6.
9. ,0. 6.
. 1055. 109?.
. 1275. 1275.

2 7 1
7.7 6.7 8.,
295. 795. 797.
43. 54. 48.
43. 54. 48.
960. ,00«.
4.0
295.
13.
1 17l!
1275.


8.1
797.
45.
1057.
1
4.0
297.
4.
4.
1 165
1275


8.5
298.
42.
42.
I
4.5
300.
«.
. .775


i
41.
<1 .
1
4.9
299.
9.
9.
'•


t
299.
47.
47.
1
4.5
299.
351.
35,.



3
297.
47.
43.
1
5.4
299.
344.
344.



2
297.
31.
31.
1
3.1
797.
332.
332.




797.
38.
3».
J
4.0
J96.
348.
348.



4
296.
28.
28.
3
3.1
294.
353.
353.



4
795.
352.
352.
3
3.1
294.
9.
9.



3
294.
336.
336.
4
4.9
293.
14.
14.



4
292.
350.
350.
4
4.5
293.
33.
33.



4
292.
351.
351.
4
3.6
292
29
29



4
291.
10.
10.
-------
ro
in
JYR=75 MT= 6 JDAY=166
TE«P= ?8"J. 2H7. 287. 7H7. 286. 786.
AFV = 357. 319. 798. 317. 211. 270.
AFVRr 352. 319. 298. 317. 21t. 270.
HLHI = 356. 356. 356. 356. 356.
1466. 1625. 1625. 1675. 1625.
JYR=75 IMO= 6 JDAYal73
AWS= 0.4 2.2 2.2 2.2 1.3 0.0
TEMl>= 288. 287. 287. 286. 286. 286.
AFV= 21 1. 319. 5. 12. 8. 180.
AFWRs 211. 319. 5. 12. 8. 180.
HLH1= 340. 340. 340. 340. 340.
1169. 12«8. 1288. 1288. 1288.
JYR=75 I«0= 7 JOAY3189
AWS = 1.3 1.3 1.3 1.8 1.8 l.e
TEMPs 2B9. 289. 288. 288. 288. 288.
AFV= 342. 300. 284. 256. 259. 288.
AFVRa 342. 300. 284. 256. 259. 788.
HLHlz t>09. 609. 609. 609. 609.
1593. 1734. 1734. 1734. 1734.
JYR=75 IMO= 7 JOAY=191

TEMPa 289. 287. 286. 285. 285. 284.
AFV= 19. 67. 118. 90. 88. 32.
AFVRi 19. 67. 118. 90. 88. 32.
HLH1= 542. 542. 542. 542. 542.
1762. 1916. 1936. 1936. 1936.

2BP.
268.
268.
356
1625

0.0
288.
180.
180.
340
12BH

288.
310.
310.
609
1734


287.
71.
71.
542
1936

290. 294. 297. 300.
277. 243. 293. 326.
777. 243. 293. 326.
. 515. 673. 832.
. 1625. 1675. 1675.

0.9 1.3 7.7 2.7
292. 295. 297. 299.
59. 39. 10. 7.
59. 39. 10. 7.
. 458. 577. 695.
. 1788. 1788. 1788.

290. 291. 294. 298.
21. 32. 77. 31.
21. 32. 77. 31.
. 750. 890. 1031.
. 1734. 1734. 1734.


290. 293. 296. 297.
108. 14. 334. 1.
108. 14. 334. 1.
. 716. 890. 1065.
. 1936. 1936. 1936.
1
301.
311.
311.
990.
1625.

2.7
301 .
5.
5.
814.
128R.
1
300.
12.
17.
1171 .
1734.


797.
9.
9.
1239.
1936.
1
301.
313.
313.
1 149
1675

3.1
302.
9.
9.
932
1288
1
2.7
302.
4.
4.
1312
1734


798.
10.
10.
1413
1936
1 1
307. 301.
317. 315.
317. 315.
. 1308.
. 1625.

7.7 2.2
302. 302.
9. 11.
9. 11.
. 1051.
. 1788.
1 t
303. 301.
2. 312.
2. 312.
. 1453.
. 1734.


799. 301.
IS. 11.
15. 11.
. 1588.
. 1936.
1
301.
370.
370.



1.3
304.
126.
126.


1
300.
340.
340.




301.
9.
9.


1
301.
313.
313.



3.1
303.
10.
10.


1
301.
1.
1.




283.
9.
9.


1
300.
319.
319.



3.6
300.
341.
341.


1
299.
2.
2.



4.5
283.
35.
35.


2
799.
325.
325.



2.2
299.
336.
336.



297.
12.
12.



5.4
283.
36.
36.


3
298.
331 .
331.



3.1
296.
12.
12.



296.
18.
18.



1.0
283.
319.
319.


4
296.
354.
354.



3.6
295.
14.
14.



295.
32.
32.



1.0
2P3.
23.
23.


4
296.
349.
349.



3.1
294.
19.
19.



2.7
294.
33.
33.



1.0
283.
30.
30.


3
294.
50.
50.



3.1
294.
23.
23.



2.2
294.
36.
36.



1.3
287.
274.
274.


4
290,
44
44



2.7
292
31
31



3.1
293
29
29



2.7
287
36
36


JYR=75
ISTABs
AWS =
TEMPs
AFV=
AFVR*
HtHl =

IMOa 7 JDAY=195
3
2.7
291.
323.
323.
660.
1244.
3
2.2
290.
298.
298.
660
1327
4 4
2.7 2.7
290. 290
2H4. 303
284. 303
. 660.
. 1327.
4
1.8
. 290.
. 324.
. 324.
660.
1327.
4
1.3
290.
331.
331.
660.
1327.
4
1.3
290.
337.
337.
660
1327
3
1.3
291.
291 .
291.
. 743
. 1 327
1
1.3
292
5
5
m
. 1
1
2.7
. 293
5
5
827.
327.
1
3.6
. 296.
. 11 .
. 11.
910.
1327.
1
3.6
297
4
4
904
1377
                                                                         113113444444
                                                                       3.6  3.1  3.6  4.0  3.6   3.6   3.1   2.7   1.8   0.4  0.9  2.2
                                                                       299. 299. 295. 297. 297.  294.  297.  292.  292.  291. 291. 291.
                                                                         5.   1.  16. 353. 350.    5.   22.  347.  302.  337.  44.  52.
                                                                         5.   1.  16. 353. 350.    5.   22.  347.  302.  337.  44.  52.
                                                                       1077. 1160.
                                                                       1327. 1377.
              1=  7  JDAY=197
    ISTAB=   444444
    AWS=  3.1  4.0   7.2   0.4   O.O   0.0
    TEHPs 291. 291.  791.  791.  791.  291.
    ftFVs  259. 279.  286.  300.  305.  787.
    AFVRs 259. 279.  2B6.  300.  105.  282.
    HLHlr  640.  640.  640.   640,   640.
          1995.  2177.  2177.  7177.  2177.
  4
0.4
291.
279.
279.
 640.
  3
0.4
297.
313.
31 3.
  1
1 .3
294.
 18.
 18.
  1
2.7
296.
  7.
  1
7.7
299.
  3.
  3.
  I
3.6
290.
  837. 1074. 171K. 1408,
  1     1
7.7   7.7
798.
 56.
 56.
301.
 10.
 10.
  1
7.7
301.
 12.
 17.
2177.  2177. 7177. 2177. 2177.
                     1600.  1793.
                     2177.  7177.
  111344444
2.2  3.1  3.1  3.1   3.1  0.9   2.2   1.8   0.9
301. 300. 299. 297.  295. 295.  294.  293.  292.
 78.  12.   2. 356.  25. 112.  284.  268.  189.
 28.  12.   2. 356.  25. 112.  284.  268.  189.
-------
B JOAY=230
444

4

4

4

3 1

1 1

1

1

1

1

1






3.6
       JYR=75
       ISTAHs   4
       AHS=  4.0
       TEMP= 290.  290.  289.  299.  289.  290.  291.  292.  29>.  294.  2<»5.  296.  296.  297. 297. 297. 798. 297. 295. 292. 291. 290. 289.  288.
       AFV=    40.   49.   47.   61.   77.  106.  107.  110.  10B.   94.  107.  101.  106.  111. 114. 118. 106. 109. 116. 129. 145. 148. 130.  145.
       AFVR=   40.   49.   47.   61.   77.  106.  107.  110.  IOR.   94.  107.  101.  106.  lit. 114. 118. 106. 109. 116. 129. 145. 148. 130.  145.
       Ht,Hl =   967.   967.   967.  967.   967.   967.  1071.  1179.  1204.  1390.  1496.  1601.
             1707.  1B13.  1813.  1813.  1813.  1813.  1813.  1813.  1813.  1811.  1813.  191 1.
r

f

f
       JYR=75  IMO*  8 JOAY»237
ISTAR= 4
TEMP» 295.
AfV = 47.
AFVR = 47.
HLH1 = 501.
758.
JYR*75 IMOs
f c T ft a •« A
1 o 1 H n » *|
TEMPe 290.
ATVa H4.
AFVR* 114.
HLHls 439.
1175.
4444
294. Z94. 293. 293.
51. 49. 27. 30.
51. 49. 27. 30.
501. 501. 501.
795. 795. 795.
8 JOAirs23<»

290. 789. 288. 288.
115. 109. 104. 85.
115. 109. 104. 85.
439. 439. 439.
1280. 1280. 1280.
4
292.
27.
27.
•501.
795.


287.
48.
48.
439.
1280.
4
293.
31.
31.
501
795


2fl7.
53.
51.
439
1280
31 1 1
294. 296. 297. 299.
37. 34. 33. 32.
17. 34. 33. 32.
. 518. 574. 611.
. 795. 795. 795.


280. 290. 294. 296.
47. 57. 106. 122.
47. 57. 106. 122*
. 544. 649. 754.
. 1280. 1280. |2«0.
1
300.
39.
19.
64P.
795.


297.
124.
124.
859.
12«0.

101.
75.
25.
684
795


298.
125.
125.
965
1280
t 1
307. 30i.
26. 37.
26. 37.
. 721.
. 795.
11
1
298. 299.
124. lift.
124. 118.
. 1070.
. 1280.
1
302.
45.
45.




299.
113.
113.


2
301.
47.
47.




299.
112.
112.


2
301.
48.
48.



1
299.
117.
lit.



299.
40.
40.




296.
109.
109.



298.
45.
45.




J9J.
121.
121.



296.
47.
47.



4
291.
125.
125.



295.
39.
39.



4
289.
129.
129.



294.
39.
39.



4
287.
142.
147.



293
21
21



4
286
151
151


   t\J
   cn
JYR=75 1MO
ISTRRr 4
TCHP= 286.
AFVs 47.
AFVR» 47.
HLHls 35
a 9 JDAY=247
444
0.4 1.3 2.7
286. 786. 286.
45. 25. 36.
45. 25. 36.
35. 35.
4
3.1
286.
37.
37.
35.
4
4.5
287.
31.
35.
4
2
                                              1    1    I    1     I     1     1     1
                                            6.7  6.7  «.7  6.7  7*2  8.1  7.2  7.2
                             287. 288. 290. 291. 293. 294. 295. 296. 295. 295
                              32.  77. 115. lit. 109. 1)1. 118. 122. 117. 112
                              32.  77. 115. HI. 108. 113. lie. 122. 117. 112
                               35.  172.  308.  445.  581.  718.   855.
991. 1128. 1128. 1128. 1128. 1128. 1178. 1128. 1128. 1128. 1128. 1128.
                                                                                                     24444
                                                                                                   8.5  6.3  S.4  4.0  4.9
                                                                                              295. .294.  291. 290. 288. 288.
                                                                                              110.  110.  116. 114. 116. 121.
                                                                                              110.  110.  116. 114. 116. 121.
  4   . 4
6.3  4.5
286. 285.
132. 131.
132. 131.
       YEAR BASED ON  20. DAYS
-------
            PENN. ELECTRIC CO. SHAWVILLF
 r
 f

'c
'f
                                   NOM—S02

       MAXIMUM MEAN CONC=  7.9099^-05  DIRECTIONS 36  DISTANCES  1.7 KM
OIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 IB
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
     RANGE
     ANNUAL MEAN CONCENTRATION AT EACH RECEPTOR
O.H KM         1.7 KM         3.3 KM         6.7 KM
                                                                          13.3  KM
5.25236E-05
4.87.694E-05
4.66B28E-05
4.53577E-05
4.060666-05
3.63864E-05
3.56715E-05
3.90687E-05
4.79590E-05
6.16071E-05
7.14022E-05
6.91414E-05
6.00994E-05
5.15337F-05
4.53710E-05
3.98996E-05
3.61403E-05
3.46472E-0-)
3.43827E-05
3.41490E-05
3.40144E-05
3.40006E-05
3.40050E-05
3.40579E-05
3.4359IE-05
3.49015E-OS
3.51634E-05
3.56874E-05
3.80929E-05
4. 34436F-On
4.79304E-05
4.64249E-05
4.20193E-05
4.03057E-05
4.21214E-05
7.38701E-05
5.59424E-05
4.83969E-05
4.52495E-05
4.33629E-05
3.91976E-05
3.57396E-05
3.50330E-05
3.687R2E-05
4.26R66E-05 .
5.4«053E-05
5.77687E-05
5.4B574E-05
4.96097E-05
4.461R3E-05
4.0B912E-05
3.73956E-05
3.51280F.-05
3.45045E-05
3.46B90E-05
3.42603E-05
3.40156E-05
3.40003E-05
3.40032E-05
3.40732E-05
3.47900E-05
3.52i'121E-05
3.50325E-05
3.50910E-05
3.6291QE-05
3.94630E-05
4.273S4E-05
4.22509E-05
4.01302E-05
3.99746E-05
4.21018E-05
7.90094E-05
4.731B1E-05
4.1<»561E-05
4.08063E-OS
3.97108E-05
3.72388r-05
3.50654E-OS
3.47239E-05
3.56609E-05
3.B553BE-05
5.07B67E-05
4.S2H17C-05
4.36055E-05
4.06223E-05
3.96097E-05
3.7151BE-05
3.52527E-05
3.43764E-05
3.44973EtOS
3.44751E-05
3.41499E-05
3.40050E-05
3.40024F-05
3.40745P>0'5
3.48774E-05
3.B2200E-05
3.61766E-OS
3.4H574E-05
3.44474E-05
3.4B235E-05
3.60267E-OS
3.7S602E-05
3.75853E-05
3.77977F-05
3.72139E-05
3.B4R71E-05
•5.B3402E-OS
4.12277F-05
3.82319K-05
3.80642K-05
3.71673F-05
3.57322E-05
3.45074E-05
3.44050E-05
3.53970E-05
3.6276BE-05
4.51633E-05
3.98448E-05
3.89096E-05
3.64779E-05
3.78102F-05
3.56499E-05
3.44717E-05
3.41360E-05
3.4570*F-05
3.419*3E-05
3.40483E-05
3.40008F.-05
3.4001BE-05
3.41 H4E-05
3.60137E-05
4.02026E-05
3.631 30E-05
3.47066E-05
3.4197BE-05
3.44420E-05
3.47194E-05
3.53267E-05
3.55291E-05
3.67355E-05
1.53240E-05
3.63746F-05
4.52158K-05
3.810B1E-05
3.67267E-05
3.64025C-05
3.55875E-05
3.51498F-05
3.44741E-05
3.42029E-05
3.4B335E-05
3.50703E-05
3.96313E-05
3.72068E-05
3.64432E-05
3.50618E-05
3.61537E-05
3.48537E-05
3.42218E-05
3.40602E-05
3.43441E-05
3.40922E-05
3.40171E-05
3.40001E-05
3.40003E-05
3.40520E-05
3.58935E-05
3.B2171F-05
3.56687E-OS
3.46813F-05
3.409SBF-05
3.48172E-05
3.43373E-05
3.46505F-05
3.51 428E-05
3.5'5839E-05
3.46071E-05
3.53474E-05
1.990B1E-05
-------
    PENN. ELETTPIC CO. SHAHVILLi:






                                    NOM--B02




YEARLY MAXIMUM 24-HOUR CONC«   2.1048E-04  DlRECTIONalf0.  OI8T»NCEe   O.fl  KM
OAYslSO.
( HIOHKST 24-HOUR CONCENTRATION AT EACH RECEPTOR
RANG* 0.8 KM t.7 KM 3.1 KM 6.7 KM 13.3 KM
OIR
t' I 1 .0174E-04 1
2 t .2427E-04
3 1.5193E-04
f 4 1.4219E-04
5 1.1271E-04
6 6.2500E-05
f 7 4.6116E-05 I
8 7.4714E-05 i
9 1.3I52E-04 i
( 10 1.7949E-04 I
11 1.74B9E-04 i
12 1.7736E-04 i
' 11 1.49I7E-04 (
14 1.5601E-04 (
IS 1.4180E-04
( 16 9.I877E-05
17 5. 86066-05
1 18 4.3584E-05
C f"0 19 4.137SE-0«5
00 20 1.6961E-05
21 3.4287E-05
*" 22 1.4006E-05
23 1.4100R-05
24 3.5150E-03
(• 25 4.1065E-05
26 5.I219E-05
27 5.2946E-05
( 28 5.1641E-05
29 7.7I26E-05
30 1.2681E-0'
C 31 1.6792E-04
32 1.5207E-04
33 9.1215E-05
C 34 7.7150E-05
35 8.6113E-05
36 2.3048E-04
150 ) 1.1602E-04 { 197 9.0S12E-05
237 ) 9.7205E-05 ( 237
237
151
151
151
148
230
230
230
111
111
103
122
122
122
136
136
136
136
136
136
1 J7
137
137
137
( 117
( 137
[ 166
166
166
166
166
150
1.2071E-04 { 237
1.1195E-04 { 151
8.6503E-05 ( 151
4.9361C-03 ( 151
4.0U91E-05 { 148
5.9313E-05 t KB
9.1557E-05 ( 230
1.2H65E-P4 ( 230
I.I883E-04 ( 230
t.m5E-04 ( 111
1.0469E-04 ( 101
1.0577E-04 ( 116
9.7528E-05 ( 122
6.9543E-05 ( 136.
4.8747E-05 ( 136
4.29ME-05 ( n«
4.7691E-05 ( 136
3.9204E-05 ( lift
3.4112E-05 ( 136
3.4001E-05 { 136
3.404IE-05 ( 137
3.490IE-05 117
4»2055E-05 73
5.4726005 117
5.05-41E-05 137
4.4727E-05 117
5.8692E-05 166
8.5645E-05 117
1.1713E-04 137
1.02I8E-04 166
6.5510E-OS 166
7.4505E-05 150
150 1 7.2150E-05 < 150
150 ) 2.0322E-04 C 195
6.4961E-05
8.2544E-05
8.0129E-05
5.66I7E-05
4.0097E-05
4.2884E-05
4.3191E-05
5.6169G-05
2.0962C-0*
8.I«85E-05
7.7802E-05
6.4155C-05
7.8557E-05
6.1555E-05
4.7592E-05
3.911 1E-01
4.369IE-05
4.3487E-05
3.6998E-05
3.4099E-05
3.4047E-05
3.54I8E-05
4.I715E-05
1.1787E-04
6.4296E-05
4.2547E-05
3.84I2E-05
4.3446E-05
5.3516E-05
6.9132E-05
6.0597E-05
5.30I2E-OH
5.6605E-05
5.09I6E-05
I.3284C-04
173 ) 6.9076F-05
197 ) 5.2459E-05
237 ) 6.6916E-05
237 1 6.I614E-05
151 ) 4.3401E-05
IP9 ) 3.B266C-05
189 ) 4.0645E-05
111 ) 5.2427E-05
230 ) 4.S82HE-05
94
247
111
103
122
122
136
136
136
136
136
136
166
166
73
73
73
137
166
166
137
137
If6
166
150
197
195
1 .7816E-04
7.I285E-05
6.32B4P-05
4.6870E-05
6.8741E-05
4.537BE-05
3.986IE-05
171 » 5.5556E-05 ( 173 )
197 ) 4.7183E-05 ( 197 )
237 ) 5.5618E-05 ( 237 )
237 ) 4.8335E-05 ( 237 )
166 ) 4.1195E-05 ( 239 )
189 ) 3.9953E-05 ( 148 )
1B9 1 3.7563E-05 ( 189 )
ill ) 4.6370E-05 ( 111 )
94 ) 4.1376E-05 ( 94 )
94 ) I.03I7E-04 ( 94 )
247 ) 5.808IE-05 ( 247 )
111 ) 4.9769E-05 { 111 )
116 1 4.012IE-OS ( 136 )
122 ) 5.3072R-05 ( 122 )
14R 1 4.0722R-05 ( 148 )
136 ) 3.6906E-05 ( 116 )
3.6123E-05 ( 136 1 3.4976E-05
4.5353E-05 { 136 ) 4.0865E-05
1.7885E-05 ( 116 ) 3.5844E-05
3.4966E-05 ( 136 ) 3.4143E-05
3.4015E-05 ( 136 1 3.4002E-05
3.4036E-05 ( .166 ) 3.4007E-05
3.6762E-05 ( 166 ) 3.5038E-05
5.5456E-05 ( 73 > 5.93lOf-05
1.54I1F-04 ( 73 ) 1.1652E-04
7.349IF.-05 ( 73 ) 6.3766E-05
4.2704F.-05 ( 73 ) 4.0849E-05
3.5C»6BE-05 ( 137 ) 3.4956E-05
3.7867E-05 ( 166 ) 4.7502E-05
4.1188E-05 ( 137 ) 3.7341E-05
4.B012F-05 ( 117 ) 4.084BE-05
4.3279E-05 ( 166 ) 4.3B73E-05
4.7544E-05 ( »66 1 4.2454O05
4.32B9F.-05 ( 150 ) 3.8247E-05
4.6242E-05 ( 150 ) 4.4645E-05
136 )
136 )
116 )
136 )
136 )
166 )
166 )
73 )
73 )
73 )
166 )
166 )
195 )
137 )
137 )
195 )
137 )
150 )
ISO )
8.5799E-05 ( 195 1 6.0951E-05 ISO 1
-------
    PENN. ELECTRIC  CO.  SHAHVILLE







                                    NOM —802




IfEARLV MAXIMUM 3-HOUR CONC*  6.9960E-04  DIRECTION*  0.   DISTAL-  O.R KM
                                                                                         HOUH = 1500.
f
f
f
r
r
t OT
no
RANGE 0.8
DIR
1 3.13R8E-04
2 4.2151E-04
3 4.1446E-04
4 4.3968E-04
5 3.2884E-04
6 1.4719E-04
7 1.1S14R-04
8 2.6707E-04
9 3.9136E-04
10 4.5446E-04
11 4.6072E-04
12 4.5006E-04
13 3.9522E-04
14 4.1093E-04
15 4.0S74E-04
16 2.9807E-04
17 1.7454E-04
18 1.0139E-04
19 9.1651005
20 S.7646E-05
21 3.6298005
22 3.4048E-05
23 3.4801E-05
24 4.3203E-05
25 9.0519E-05
26 1.7167E-04
27 1.8127004
28 1.4038E-04
29 1.9487E-04
30 3.408RE-04
31 4.5624O04
32 3.7780E-04
33 2.5526E-04
34 3.2939E-04
35 3.0450E-04
36 S.9960O04
HIGHEST
KM
( 150
( 237
( 237
( 151
( 151
( 151
( 148
( 148
t 148
( 230
( 239
( 239
( 103
( 122
( 122
( 136
( 136
( 136
( 136
( 136
( 136
( 136
( 137 )
( 137 )
( 137 )
( 137
( 137
( 137
( 166
t 137
( 137
( 137
( 150
( 150
( 150
( 150
3-HOUR CONCEMTRAT
1.7 KM
) 3.2679E-04
J 2.5483E-04
1 3.3328E-04
) 3.2013F-04
2.3712E-04
1 .0866E-04
7.9462E-05
1.7973E-04
2.7643E-04
2.9770E-04.
2.8325E-04
2.6408E-04
2.8242E-04
2.7404E-04
2.5096E-04
2.0R69E-04
1.2132E-04
9.9880E-05
1.4321E-04
7.5618E-05
3.6497005
3.4023E-05
3.4330E-05
4.1207005
9.5535E-05
1 .9976E-04
1.6586E-04
1.0632E-04
1.5464E-04
2.0994E-04 (
2.8769E-04 (
2.3790E-04 (
2.2703F-04 (
2.7784004 (
2.3143E-04 (
5.4183E-04 (
ION AT EACH
191 )
197 )
237 )
237 )
151 )
148 )
14A )
148 )
148 )
247 )
239 )
136 )
136 )
136 )
136 )
136 )
136 )
136 )
136 )
136 )
136 )
137 )
137 )
137 )
137 )
137 )
166 )
166 )
137 )
137 t
166 )
150 )
150 )
195 )
195 )
RECEPTOR
3.3 KM
2.0I62E-04
1.7229E-04
2.4064E-04
2.1725E-04
t .3457E-04
8.2777E-05
1 .0507O04
1.0482E-04
1 .6966E-04
2.3878E-04
1.66HE-04
1.6040E-04
1 .7200E-04
1.6462E-04
1.2401E-04
1.0345E-04
6.6630E-05
1 .0948E-04
1.0978E-04
5.7982E-05
3.4790005
3.4374E-05
4.5341R-05
8.2975E-05
2.20R1E-04
1.5877E-04
1.0215E-04
6.6574E-05
8.8147E-05
9.9071E-05
1 .5970E-04
t .2665O04
1.3323E-04
1 .8560E-04
1.3440E-04
3.3252E-04
f 173 )
( 197 )
( 237 )
( 237 )
f 151 )
( 189 )
r 189 )
( 111 )
t 94 )
( 94 )
f 247 1
( lit )
( 136 )
r 122 )
( 122 )
( 136 )
( 136 )
( 136 )
( 136 )
( 136 }
r 136 )
( 166 )
f 166 )
f 73 )
( 73 )
{ 73 )
( 137 )
f 166 )
( 166 )
( 137 )
( 137 )
f 166 )
( ISO )
( 150 )
( 197 )
( 173 )
6.7 KM
1.4419F-04
8.9925E-05
1.91 12O04
1.6312F-04
1.0921004
6.8126E-OS
8.7163F-05
1.8092E-04
1.51-77004'
2.9948O04
1.6772E-04
1.3989E-04
9.3934F-05
1.7669E-04
1.2501004
6.5071F-05
4.7717E-05
1. 2426004
6.5055O05
4.1727E-05
3.4122F-05
3.42R6F-05
5.2094E-05
1.3954004
2.4915F-04
1.7023E-04
1.0344E-04
4.9053F-05
5.9473E-05
6.1135O05
8. 1525E-05
6.6097E-05
1.2231E-04
9.7921E-05
1.1375004
1.8434E-04
f 173 )
( 197 )
( 237 )
f 237 )
( 173 )
( 189 )
f 189 )
( 111 )
( 94 )
( 94 )
( 247 )
( 111 )
( 136 )
( 122 )
( 148 )
( 136 )
( 136 )
( 136 )
( 136 )
( 136 )
( t 36 )
( 166 )
( 166 )
f 73 )
( 73 )
( 73 )
( 73 )
( 166 )
( 166 )
( 137 )
( 137 )
( 166 1
( 166 )
( 150 )
( 137 )
( 173 )
13.3 KM
1 .I856O04
1.0430E-04
1.5297E-04
1 .0402O04
9.7158E-05
8.1515E-05
6.2501E-05
1.3285E-04
9.2975E-05
1.3526004
1.3576E-04
9.1936005
6.2711E-05
1.1257E-04
8.7771005
4.9856E-05
4..0568E-05
8.8752E-05
4.8746E-05
3.6742E-05
3.4018E-05
3.4054E-05
4.2300E-05
1.9335E-04
2.2455E-04
1.2079E-04
8.8787E-05
4.1501E-05
1 .1267O04
4.7536E-05
5.6900E-05
1.1283E-04
9.3766E-05
6.3052E-05
1 .0347E-04
1 .1715E-04
( 173 )
189 )
237 )
237 )
239 )
148 )
189 )
( 111 )
( 94 )
( 94 )
( 247 )
( 111 )
( 136 )
( 122 )
( 148 )
f 136 )
( 136 )
( 136 )
( 136 )
( 136 )
( 136 )
( 166 )
( 166 )
( 73 )
( 73 )
( 73 )
( 166 )
( 166 )
( 195 )
f 137 )
( 137 )
( 195 )
( 137 )
( 150 )
( 150 )
{ 195 )
-------
                                                          MAXIMUM DULY CONCENTRATIONS
r

r

r

if

c
DAY    24-HOUR CONCENTRATION    DIRFCTION    DISTANCE

150          2.304fl«>04            36          O.B3
 94          2.0967F-04            10          3.12
J95          2.0322004            IK          1.66
|7J           .B66BE-04            36          1.66
230           .7949E-04            10          0.83
j<>7           .78BOE-04            36          I-61
|91           .7B5IC-04            36          t.66
til           .773fiP-04            12          O.B3
|H9           .7498C-04            36          t.66
103           .7396E-04            I?          O.flS
166           .6792E-04            31          0.83
247           .6783C-04            II          O.B3
239           .6003C-04            II          0.8.1
137           .5B94C-04            31          O.B3
122           .5601C-04            14          0.83
 73           .541IE-04            25          6.65
237           .5193E-04              3          0.93
131           .4219E-04              <          O.B3
116           .3B57E-04            14          0.83
I4R           43592E-04            10          0.83
   O
-------
                                II
                                a
                                tr
                                u.
                                t.
                               c
                               VC
                                II
                               U.
                               II
                               >
                               II
                               b.
                  tv    H    O
                        t-  II C
                  u  e « f- or
  c
  u
; UJ
; iz
                  C.  II  —
                  «  tr  •
                     - tr  s  *
                  -.  . I  «  C
                  ii  x a  H  c.
                  O'  «    T!  ii.
                  T  1-
                      * fS
                     •X     0 —
                 v  (~  u
              —  II  «r  «-  u  n
              t ^  O  U  J «r
              « *•  M  x  a tii
              z in     o  a,  M
              «* ^     M  2  z
                                                                                      B-31
-------
          iMCI'l  fKOt  MitlVE  SI-1* I.KVKF.)--     1IZO.O

          IH f-'l.KV A I'l'lNS fFf^'T  AHnVK ?U A |,K»M.)

                                           i: F M1« 4    P I M C » 5
1 IOHS.O
2 10'«U.O
3 1 00.0
4
5
6
7
A
i)
10
1
7
3
4
•s
,;
7
a
no q
V>J
1 20
CO 2|
^ 72
73
74
7S
26
77
7"
74
15.0
20.. 1
30.0
UI.O
1 35.0
150.0
145.0
1 35.0
170.0
20.0
70.0
20.0
no. n
00.0
100.0
i) 1 0 . 0
ORO.O
240.0
210.0
770.0
470.0
* H ^ . o
500.0
« > 0 . 0
310.0
440.0
M* i 550 . o
31 1-550.0
3? 1560.0
n 1530.0
)4 1400.0
35 1750.0
36 1110.0
STACK • 1--S'r.riAPO
STACK « 2 — SKWAK'J
1 3 <0.0
1 1SO.O
1200.0
1 170.0
1 100.0
12-10.0
1 300.0
17HO.O
1740.0
1240.0
1250.0
1210.0
1760.0
1770.0
1 270.0
1 7. H 0 . 0
1710.0
1140.0
1 100.0
1040.0
10HO.O
1090.0
1730.0
1 750.0
1 350.0
1170.0
1560.0
1540.0
1400.0
1320 .0
1 300.0
1330.0
1550.0
1 100.0
1 330.0
1200.0
STACK 1 -
STACK 7 -
700.H
370.0
25O. 0
40O.O
250.0
140.0
100.0
400.0
350.0
450.0
1*00.0
1550.0
1500.0
1500.0
1 100.0
1 350.0
1450.0
1 350.0
1700.0
1100.0
1030.0
10RO.O
1 150.0
1200.0
1240.0
1 300.0
1470.0
154(1.0
1 400.0
1 100.0
1540.0
1 400.0
1550.0
1680.0
1 300.0
1 350.0
1975
1975
1 350.0
1500.0
1400.0
1440.0
1470.0
1440.0
1 300.0
1150.0
1400.0
1 SOO.O
1950.0
2100.0
7100.0
7000.0
1 RSO.O
171)0.0
If. 4 0 . 0
1 670.0
1600.0
1540.0
1 300.0
1090.0
I o a o . o
1200.0
1 )00.0
1400.0
1 460.0
1 400.0
1550.0
1600.0
1620.0
1700.0
1 HOO.O
1550.0
1500.0
I3SO.O


1600.0
1500.0
1500.0
1450.0
1550.0
1500.0
1770.0
1770.0
1050.0
7100.0
1HOO.O
2460.0
7560.0
7500.0
2530.0
7450.0
2200.0
1900.0
400.0
300.0
710.0
710.0
400.0
060.0
400.0
350.0
1*70.0
1660.0
1660.0
1710.0
1770.0
1750.0
1700.0
If 00.0
1670.0
1670.0


STATK
                     S07 FMFSSFOM  »ATK
                         (OMS/SFCl
                                             PAHT  FllSSin:* RATS
          MOM

          MOM

          )=    1.17    7.07
SEASONAL VAHJAT10MS «\f  CASK
          I    1.03    0.93
7 fl 0 . 4 0
616.40
7.75
ASK 1
I 0.99
0.00
0.00
3.J.5 5.7)
1.10 1.03 0.9
                                                                 1.13
68.60

6B.60



 t .09
          'oFAMRTKR  FXIT VELOCITY    TFMP
                          (M/SECI
                                                                                                   31.30         449.00

                                                                                                   32.70         414.00
7.40

3.00
VOMIMFTMIC  KI.CH
  (M»*1/SFC)

      141 .60

      731.14
                                                                                 1.10    0.9?   0.87    O.fll
-------
                                              if > if  i/> if  if ifj ifi  if. IP if  in  tr in  if?  m if  in  in  if if.  if  if/  if  if  if  if if. ift
                                              cccecccccccccecccccccccccccc
                                              '<   i   i   i   i   i   i   •   i   i   i   i   i   i   i   i   i    i   i   i   i   i   t   i   i   i   i
                                              E«  U.  It  U   Et Et  Ci  U" El  It1  !»."  U. It  It'  It Et'  It  U."  it' U  Et  U.'  'A  W  U  lt: Et UL
                                                                                                                     Ifi If
                                                                                                                     C C
                                                                                                                     I   I
                                                                                                                     t  b
                                                                                                                 Ifi If  If
                                                                                                                 c c  c
                                                                                                                 I   I   I
                                                                                                                 u: u-  tt-

                                                                           If  IT.  If:
                                                                           c  c  c
                                                                            i   i   i
                                                                           Ea.'  it  Lt
                                                                           a  r*  c
                                                     c  •»• c^ifirifif.  IP*T
                                                                                                                     c
                                                                                                                     c
                                                                                                                     .  rr  a

                                                                                                                    if
            ir  ir  in ir>  in  in v  trir.  mmir>irmmininininmiriniririirmmv  ir ir> ir.  ir< m m
            cceeooocececoceccececccoceec'c
             '    '   ,', '   '   i   •   i   i   i   •   i   i   i   i   i    i   i   i    i   i   i   i   i   i   i   i   i   i   i   i
                i.  u. u.  u.  u- u. u  u.'  i; u;  u;  u  u; u'  i:  u:  u; M  it  i t;  ii.   Ci> u:  u.  u:  i»j u' t u;
                                                                                                                                                               .cccee
                                                 r»  a  •• —
                   t.
                   2-
                   a;
                   h*
                   C
                    u

                   c-

                   t-
            r   .   c.
            V,      *—
            i      c
            t
            s:
            C      if
            z      c
                   VC



                   II
 a   •
 o r
                                  <_
                                  «  r:
                                  z
                                  C
                                  u;
                                  t.; T
                                  c
                                  C.  -
                                                                                                               .
                                                            fNm»a>cacor  ai^rv  — x"-  — o —
if  in
c  c
 i   i

••  if
—  if

or  C
^.  OC
                   ccecoecccccccococcocc-ccccccceccccc
                    i   <   i   i   i   i   i   i   i   i   •   i   i  i   i   i   i   i   i   i   i   i   i   i    i   i   i   i  i   i   i   i    ,,-
                   If  It  U   El  Er1  U  d: Eb b.'  it Uj  Ex3  ^  It  E». Et  It  Et U1  Et  Ls" tt It'  &-'  U:  Ei^ CiJ  U"  U"  Ib Et  [t  it" U
                           r*  *c -* —  r*. ir  a:  —c
                                                                                                                        w  >C  rr oc  c  r» ^
                                                                                                                        if.  c'  —• a  c  if *J
                                                                                                                        •*  O  CT  if  U"  r- **•.
                                                                                                                        C  ^  v o-  r*  «£ at
                                                                                                                                                         m  in  IT »
    ococec
     i   i   i   i    i   i
    Cc. u.' CL  {»:  U U
                                      ocoecc
                                       i   i   i   i   i   i
if;  m if. if- m  m if* if  IP  ifs if.  ^i  in  ir i/> ip  IP  1^.  if.  ^  if  y^ IT.
ccccoccococeoeccooc-c-coc
 '   '  i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i    i   i
U  Eu Lk Ix CL  (JL U." CL  It*  LL ixl  txJ  tu  EC U i<2  [&.*  ^T  CL~  U  (x^  Ci. d."
cairirfNaifcccrso^o-ecf^c^a-^cvcssr*
*C  ff ^ «^ ff  if. {V fN  t^-  ^ ^  CC  *T   CT  C^ ^  ^  C  ^  \C  S   tf »••
^*  ^£ GC ^ ^^  ^ ^* C  ^*  f^ ff  ^  ^  C  OC vC1  C  ^C  r^  ^  *»  CN £K
OC^C**"  fN'w-»-»«C   Ow%Clf)O''v'1£lflfrlE^w^rk'V
tt|P**C%C'C^C^sClf.  rf>^,tf)  ^ ^ ^
                                                               ccccccccocccoc  ccc^c
                                                                *  *   *   i   t   t   i   t   i   i   i   i   i  i   i   i   i    i   i
                                                               Ct  tcl U.1 ti»  IjC  Lx." [»T  !jj  Eb  U b.*  Cx1  (L  CL  CzT jt?  U^  C*.1 Cx^



                                                               cjir*x^^ix
-------
VF.AHI.Y MM t MUM  24-nmiR
             1 .7
                        74-
     WIM--Rn7



3.4954F.-04  niPF-Tinw = ioo.   nisTAMrTs  7."






               I\T «ACH
                                   7.1
                                                                                n A v s \yn.
                                                                                 1.7 KM
]

m
5
4
S
f,
7

(,
10
1?
1 3
1 4
1 5
T J5
co ' '
-t> 1 fl
19
70
27
23
1 A
£ *
25
26
27
2H
29
3n
M
32
33
34
36
. 1147 F. -04
.7765^-04
£e i ic*«nA
. f> T 3 J-. '!**
. 102 IF.-04
. o I 7 2 F. - 0 4
.fl 771R-04
. » ~> \ 1 S-o4
2 . 07 1)6 F.- (14
7 . 1 5 I 6 K - 0 4
3.5058R-04
7. 6004 F. -04
2.65JOF-04
*776tF-04
.5400F.-04
.5216F.-04
.5699F.-04
.5172F.-04
.1 3 6 4 K - 0 4
.1 072004
9.5914F-OS
7.9H6K-05
t. 003.3 F.-04
t .0097K-01
t .73'MF-04
2.2074T-04
7. 7746 K -04
2.95?
( 170 )

( 117 )
( 112 )
( 700 |
( 700 )
1 .1165^-04 ( 199
1 O369''-04 ( 164
l*4773F-O4 349
,;0616F.-04 t56
1.9747K-04 39
2.1340F.-04 76
3.7OB6F.-04 57
1 .R274F-04 9
7.4407F.-04 ( 67
2.10B7F-04 ( 79
t.9341(-:-04 ( 67
1.1929F.-04 ( 1<35
1.7418F-04 ( 719
1.35R7F.-04 ( 1B6
1.4477F-04 ( IB*
1.4962F.-04 1BO
1 . 3043E-04
1.15B7F.-04
1 .1471F.-04
1.1 119K-04
7. 1664E-04
1.157BF>04
1 .4517F.-04
7.0215F.-04
3.1915K-04

t **tq96F,-04
1 .1 190F.-04
1 .7574F-04
2. 1514F.-04
IBO
IB!
1BI
IB1
267
767
179
71
1B7
IB7
120
761
77
6
117
7')0
700
, I.5S69F.-04 (
) l.OBCI. 3^-04 (
) J.574BF-04 (
) '-"n^i"' r
) 2.1 01H«;-04 (
) 2.46SSF.-04 t
) 3.7736F-04 (
) 7. 0404 F. 04 (
) 7.9750F-04 (
) 2.201BF-04 (
) 2.1615F.-0* (
)
1
)
)
1
)
)
1
)
f
)
1
)
)
.3377F.-04 (
.1141F-04 (
.1773R-04 (
.7407F.-04 (
.7319F.-94 (
.0214F.-04 (
. 1 1 fl n F. - 0 4 (
.1104F.-04 (
. IB7IF.-04
.51 13F-04
.2B"7F.-04
t . 4 1 5 0 F. . 0 4
3.4054F-04
) 3.1979^-04
> 2.7271F.-04
) 1.791IF.-04
) 1.0474F.-04
) 1.101 9>v-04
) 7.5I37F-04 f
754 ) 1
16« ) 1
341 ) 1
.B5A4F-04 (
.0471F-04 (
^AOtlF-ni (
156 ) 7.17I6F-04 (
S« 1 7.'l(l«,7F>04 (
33? ) 7.766MXI4 {
76 ) 7.4545F.-04 (
57 ) 7.S50AF-04
9 ) 1
,«»«Sfl''-04
67 ) 7.0449F-04
04 •) 7.HOB2F-04
275 ) 7.7550F-04
67 1 7.061HF-04
303 ) 1
720 ) 1
t HO )
IBO )
179 )
71B )
m i
767 )
267 )
767 )
767
73
73
177
170
.3477F-01
. 1 404F-04
.0097^-04 (
.OOOHF-04 f
.111 9F-04 (
.40R6F-05 (
.101BF-01 (
.7P06F.-04 (
.1570F-P4 (
.17H4F-04 (
.5170E-04 (
.lfiOIF-04 {
.1511F-04 (
l.lt°4F-04 (
1.7IR1F-04 (
261 3.7054F-04 (
77 7.7043F-04 (
6
375 )
700 1
700 1
I.7104F-04 (
I.0467F-04 (
>•*«***-"< (
7H4 1
164 1
761 )
106 )
56 )
137 )
10B )
57 >
9 )
67 )
775 )
67 )
101 )
96 )
70 )
1 BO )
71B 3
179 )
7.19 )
1^9 )
267 )
767 1
267 )
767 )
71 )
73 1
177 )
120 1
761 1
117 )
6 3
111 3
7OO )
1 . 071 OF.-O4
9 . B5 6 IF-os
1 .474SF.-04
7.17HF.-04
7. 3674F-04
7. 1 160f>04
2.3707F-04
7.5H74F.-04
1 .9160F-04
2.4RB1F.-04
2.5171F-04
1 .0705F-04
1 .6913F-04
1.71 39tC-04
1 ,25fl4«--04
1 .061 7F-04
9.170IF-05
1 . 1 507F-04
n.I»6B9R-05
1 . 1 657F-04
1 . 14B3F-04
1.0407F.-04
1 , 1 4 B 4 F. - n 1
2.1 107F-04
1 .0196F-04
1.104 1R-04
1 .04B6F-04
1.7">45F-04
2.55B1F.-04
2.4164F-04
1.4341F-O4
O. 9504 e; -05
1 .1 154F.-04
1 .94B7*>04
( 754 )
( 1 f-7 )
r 711 )
( 106 )
( 56 )
( 312 )
( 7 )
( 1 74 )
( 62 )
( 96 )
( 275 )
( 67 )
(103)
( B6 )
( 1 Q )
( 21 B 1
( 710 )
( 219
( 160
( 159
( 7*7
( 767
( 767 )
( 767 )
( 71 1
( 119 )
177 )
170 )
1 17 )
6 )
311 )
201 )
700 )
-------
                                  MOM—S02




M&XTMIIM  4-HOUR COMC=   fl.9649F.-04  niRFCrTONs  60.
                                                                      r=   2.B  KM   n»Y=  39.   HOURs  300.
(
HIGHEST 3-HOUP m^F.NTHA
r HAWGE 1.2 101
* OIR
1
r l
* 3
4
r 5
1 6
7

„
9
t)
1
2
3
4
*
6
CO T
1 7
co «
CJl 4 Li

20
21
22
23
74
25
26
27
28
' 29
JO
31
32
3 3
34
35
36
5.206RF.-04
5.3245K-04
6.8223E-04
6.3652E-04
8. 1 154E-04
7.65ME-04
7.1736E-04
6. J964E-04
6. 3903E-04
6.5379F-04
7 . 3541F.-04
6.3749F-04
6.4*1 9E-04
4.9454E-04
6.01 30E-04
5.4427F.-04
5 . 432HE-04
4.91 32E-04
4.9515R-04
4.6721E-04
5.5875R-04
3.1300F.-04 (
2.1S33E-04 (
7.6839F-04 (
3.3313F>04 (
3.H617F.-04 (
5.1382K-04 {
7.0334E-04 (
6.429BF.-04 (
6.5112F-04 (
6.B430E-04 (
7.2251F.-04 (
S.2H1 3E-04 (
4.2557F.-04 (
5.4998F.-04 (
8.4913E-04 (
( 195 )
( 23» )
( 23H )
( 205 1
( 237 )
( 110 )
( 154 )
( 58 )
( 183 )
( 91 )
( 97 )
( 95 >
( 303 )
t 117 )
[ 219 )
[ 220 )
t 180 )
[ 180 )
[110)
[ 218 )
218 )
216 )
196 )
130 )
130 )
130 )
187 )
187 )
187 )
120 )
25H )
258 )
11? )
117 )
200 )
201 )
TrrtN *T F»CH PFCEPVOR
2.1 KM
4.7305F.-04
3.6S71E-04
4.9273F-04
5.4912E-04
5.9269E-04
8.I247F-04
5.6445F.-04
6.1252E-04
5.402BE-0$
6. 1096E-04
6.0334F.-04
5.4586F.-04
4 . 8860E-04
5.0543E-04
4.71 15F.-04
4.7399E-04
4.4693F.-04
4.0027F.-04
3.8016E-04
3.9689E-04
4.9990E-04
2.8395F-04
3.4312E-04
3.444BF.-04
5.1577F.-04
3.«95<>F-04
5.1 406F.-04
5.5131F-04
4.3470E-04
5.7496E-0*
6. 5825 F -04
6.181 3F-04
5.31B1E-04
4.6540F.-04
4. 1672F-04
5.5184F.-04
( 201
( 113
( 191
( 156
( 3
( 39
( 26
C 93
( 9
( 93
( 93
( 79 )
C 67 1
( 185 1
( 210 )
( 186 )
( 186 )
C 1B6 )
( 1 80 )
( 181 )
f 718 )
( t 81 )
r iRi )
{ 267 )
C 267 )
f 179 )
f 73 )
{ 73
( 188
( 120
( 24*
f 744
( 6
( 375 )
( 700 )
( 200 )
?.B KM
4.4779F.-04 C
3.5461K-04 (
5.5922C-04 (
6.1161F.-04 (
B.0109E-04 (
8.9649F-04 (
6.4B77C-04 (
5.0149E-04 (
5.9822E-04 (
6.04S4F.-04 {
6.92535-04 (
6.0528F-04 (
5.5154E-04 (
4.3851F.-04 t
4.49B5£-Ot (
3.6409F.-04 (
3.5174E-04 f
3.6694F.-04 (
2."»9J6E-04 (
3.I582F-04 (
4.3I44E-04 (
3.1040K-04 (
3.8543E-04 (
4.7676F-04 f
6.2874E-01 (
4.281 5F.-04 f
5.5513K-04 (
5.4070E-04 (
4.6052E-04 {
6.4678F-04 (
8.1994E-01 (
6.6043F.-04 (
5.8573G-04 (
5.7839(i;-04 (
3.0579E-04 f
6.7339E-04 (

754 )
113 )
317 )
156 )
3 )
39 )
234 )
19 )
9 )
94 )
81 )
176 )
67 1
185 )
210 )
186 )
186 )
210 )
1P2 1
1P1 1
218 )
128 )
267 1
267 )
767 )
267 )
73 )
73 )
177 )
120
243
261
6
375
70ft
700
1.7 KM
5.9071F-04
l.R3f 8F-04
6. 1 489F-04
5.8412F-04
8.6B33F-04
8.2S99F-04
7.0777F.-04
6. 1170E-04
6.7995E-04
6.1217E-04
7.4269F-04
5.68S1C-04
5.2415F-04
4.9060F-04
3.7433F-04
4.7377C-04
3.7R67F-04
3.41 37F-04
3.6531E-04
7.796PF>04
3.561 OF-04
7.9B73F-04
4.2180E-04
4.7774E-04
6.2040F.-04
4.1449E-04
5.7759F-04
4.6177F-04
5.4797F.-04
6. 1 466F-04
".5051F-04
6.7277F-04
5.311 HF-04
".7740F-04
3.1907F-04
'i.«;';3or-04

( 754 1
f 83 )
{ 317 )
( 156 1
( 3 1
( 391
{ 309 )
( 734 )
( 745 )
f 256 )
( 81 )
f 126 )
284 )
302 )
710 )
70 )
218 )
( 210 )
( 718 )
( 179 1
f 718 >
f 178 )
( 267 )
( 767 )
( 267 )
( 767 1
( 73 1
( 73 )
( 177 )
(170)
( 243 )
{ 761 )
( 61
(311 )
r 200 >
( 700 1
5.2 KM
5.8785F.-04 (
3.97<>7F-04 (
5.9885F.-O4 (
5.9805F-04 (
7.6979F-Q4 (
6.6190R-04 (
7.206SF-04 (
5.7584F.-04 (
6.4170(5-04 (
5.7264F-04 (
6.6622F-04 f
5.2545F-04 (
5.54R4F.-04 f
4.6520F.-04 (
4. 1754F.-04 (
4.7661K-04 {
3.9068K-04 (
2.9265F-04 f
3.8795F-04 (
3.2731F-04 f
3.7800F.-04 (
3.6233F-04 (
3.8323F-04 (
3.784RF-04 (
5.2517F.-04 (
3.4775F-04 (
4.5277F-04 (
3.7233F-04 (
5.6751F-0/1 (
5.32SOK-04 (
7.4740F-04 f
5.3658F-04 (
4. 1602E-04 f
4.8103F-04 f
3.4159F.-04 (
5.425»F-04 (

754
205
741
114
1
39
42
J34
42
229
81
98

302
70
70
218
9?
21B
219
73
71 7
21 B
266
767

87
t 19
177
1 37
?-»3
758

31 1
201
700

)
)
)
)
)
)
)

1
1
)
)

)
)
)
)
)
)
)
)
)
)
)
1

)

)
)
1
)
)
)
)
)
-------
         s     IT  IT. r»iririrr-irvrir>*-iririririrr-r-trir
         T
         C

         f-
         t
         u
         a
x

tj'
C

X

i
u.
t :
         tj

         a.

         C
      eseeceececececceceee
       i   i   i   i   i   i  i   i  i  i  i  i  t  i  i  i   >   i   i   i
      I*  it  [>•!•: u' h; u u:- u: !>:•  k:  u i»  i»  u u:  lu u u u^
          C     — tv —
                                  r-*c^.trri-^*^-^*cf*'ttr*e
                                 • r» ? »^ f^  tt  o-  —•     f*"r«carsoo
                                                                               B-36
-------
CD
 I
CO
-vl
         ,RFFTNFO COAL STUDY

1975  OATA  MAXIMUM  LUA')

Sr«?K  4   ,__SFWARO  STACK t -    MAXIMUM
STACK  «   2--SF.NARI)  STACK 2 -    MAXIMUM

 STACK    5THATFUY    S07 FMJf-STOW  RATF
                          (GMS/SFC)
                  TYPR
                                                 PART
                                                                R4TF
                                                                         HEIGHT
                                                                        (
                                                                                          FXTT  VFI.OCTTY    TEMP
                                                                                              fM/S«T)      (OFR.K1
1
2
'tANfJtCCKVT
SKASOMAI,
I S T A H = 4
Tfi 1P =
A F V H =
HI.H1 =

JYR= 75
JST4H=
AUS =
TCMPz
AFV =
A F '/ H =
7.6
273.
59.
59.
1800.
1800.
HO*
3
7.6
260.
101.
10,.
959.
t t 2 £
MOM 477.70
MOM 671.50
)= 1.17 2.07 2.75
VARIATIONS BY CASE «
1 1 .00 1 .00 J .00
= 1 JOAY= 7
333
7.6 9.4 8.5
273. 773. 273.
71. 80. 83.
71. 80. 83.
1800. 1800. 1
1800. 1800. 1
1 JDAY= 14
.
9.4
273.
87.

800.

3 33 3
".9 9.1 7.6 7.6
260. 259. 254. 259.
90. 88. 79. 84.
90. 89. 79. 8«.
959. 959. 959.

8.5
273.
84.

1800.

3
8.1
250.
81.
81.
959.
0
(I
3.65 5.73
1.00 ,.00
•J
».
8.5
273.
85.

1800

3
8.9
75R.
75.
75.
959

3
8.1
273.
°3.
1800
. 1POO

3
10.3
758.
75.
76.
. 1013

3
9.4
273.
77.
1 8\
.00
.00
1 .00

8.9
274.
87.
rtn i
. 1800. 1

3
8.9
258.
71.
71.
. 10*

3
6.7
259.
77.
77.
•7. 1
68
1.00 1

3
274.
83.
800
800.

3
6.7
759.
80.
90.
171 .

3
9.4
775.
89.
>IQ'
1800.

3
8.5
250.
81.
81 .
.60
.00

3
7.2
776.
86.
86.
1800

3
8.5
259.
97.
87.
7.
1 .00

3
4.0
977.
87.
87.
. 1800

3
8.5
260.
84.
.40
1.

3
4.0
777.
82.
82.
•

1
•56O.
91.
91.
00

3
4.5
277.
•»! .
71 .


2
8.1
260.
85.
85.
31.30 449.00
37.70 414.00
1.00 1.00

3
3.6
277.
39.



7.6
260.
81.
81.

4
5.4
776.
5.
5.



8.1
260.
95.
85.

4
6.3
276.
?.
7.



9.4
260.
P4.
84.

4
8.1
277.
18.
18.



9.4
259.
80.
80.

4
8.1
777.
73.
23.



8.5
760.
75.
75.
141.60
231.14

4
6.3
277.
26.
26.



8.1
760.
73.
73.

4
6.3
277.
6.
6.


3
9.9
760.
72.
72.

4
6.3
777.
357.
357.


3
9.4
760.
70.
70.
     ISTABs
                           26
                                                ^


HbHls
                              87.
            75.   72.  71.   65.
            566.   566.  566.
            7«9.   H20.  HiO,   H20.
                                  566.
                                  870.
                                             S20.  «20.   H20.   820.   «•>(!.
                                                                                    87O.





,JYH = 7S  IMT= 2
ISTAH=   3     /I
A,KS=  H.I   8.S
T<^P= 272.  272.
                        =  37
                        4
                           9.8
                               .  774.
    HLMI= noo.  ,,oo.  n'oo.  11 no." 11001  ,100.
           10 bft .  i (iso .  l oso .  i ii so
                                            ,oso.
:
                                                                            ,os,..  ns.,
                                                                                                      *:

-------
Odl

H9d
E '9
I


Ul
Id 1
S9d

I


E IE
I U
-til
V£
t





EOl
'Hll 'III
•bl 1 'til
" Lit " by d
9't b'b
1 E


'III '911
•ill '911
'b9d '99d

E E


'Bit 'OCE
'b IE 'Odt
'bid 'bid
1 O'El 0'€
£ E





'901 'bll
•bll 'ddl 'It! 'rll '^11 'ill ''»ll 'Hi
*BII 'del *UI *bll "911 'ill '^ll 'HI
'byd "byd *0td "lit "lie 'tit. "clt "tit
B'b b'b b'ti t'ul 9"ll i'll V»l C'll
t E 1 t < 1 * l
•ob*l '
' b E 9 I '
' £ 1 1 *Hdl *EEl ' 9 1 1 'cdl 'bll "but 'ull
"Edl *bdl 'EEI 'ytl 'ddl 'bit "bOl "Oil
*99t "99d *99d "b9t 'byd "otd "Oid 'uyt


'OUEI *
*oool '
'OdE * S d £ ' > £ t 'bdE "tdE " !» £ t " V d E "ttlt
*odE 'idt 'Vdt 'btE 'tdE "bdl 'fdl 'UIE
'9id '9te 'ltd 'bit 'obd 'lad 'obd 'Obt
1 b'll E'8l O'tl E'»l B'H d'll VEl O'El
E E E E E d 1 I



•otod '
•Ebtl •
'801 "ill 'Otl 'Vll 'faOl m l\\ 'Sll '101
"bit
•-,11
• lid
b ' 0
1

It b 1
'Oil
•01 I
•b9t
9' 11

ouEl
Obb
* K£
'lit
"f>Ll
I'dl
1



ocot
6991
'901
'bll
'oil
'lid
Vb
1
'Cbbl
"SO I
'III
'III
'99d
fOI

•OOE i
'OOi
•die
*MlE
'bid
O'El
1



'OfrOd.
•btb!
'toi
•bll •
•Sll '
•oid •
b'o
1
*Ubb 1
'bill
•hOl '
'b()l '
" 99d
O'El

'001 I
'Ob*
*£dt '
'Edf '
•tte •
9'Sl
1



•0»0t
• un
•901 *
til •
til '
b9d '
Vc
1
• o b 11
•E u
i>oi •
KM '
69d
d-ll

'OOE
'oo»
KC *
frdE '
9td '
VE 1
d




til 'ill
d 1 I 'ill
>)y t " t >t
b'b V "t,
t i
1 ' II b 0 I
1 '4V 1 I
1-01 '101
toi * lot
b9£ t>9d
y'Sl u't

I "OOEI
•Obd
8dE '9d£
tfdl *9il
SIZ 'bit
b'tl E'l
E E



, -ot,0<.
'bbdl 'till
01 1 '
i (1 1 ' 1 0 I
•oil
•bl 1
'Lit
b'b
l
•(IbH I
"OtiO 1
•lul
•toi
S9d
I 9'9I
E
•OOE i
•ooi
'9dE
"ydt
"bid
l d'Sl
t



•otod
'ObOl
'bOl
'til I
•oil
' t9{
I'll
t
"Ubbl
'ouol
•dll
'dl I
b9 i
O'il
E
•OOEI
•ooi
'SitE
•sec
'bti
b'd 1
E



* 01* Od
* ObO I
'901
'III
'III
* y 9t
1 'b
E
'Obb

•toi
'loi
b9t
o'll
t
•OOE
•ooi
•BtE
'»d£
'iitt
b'tl
E





'bOl
'bll 'l I
'bit *i 1
"9yd " t 9
t • /. 1 '
i E
9b =A
I "Obbl
I '0001
'bOl '01
'bOI '01
' b9d " S9
b'il 0'
I E
»D =A
1 ' 0 0 E 1
'001
'HE 'bV
•IEE 'S»
*9tl '9t
d'll 6*
E E
tt =A


t 'otot
I 'ObOl
•soi *dz
1 'bill
I 't.OI
d " t ') I
H 1 '8
,uA
'Obbl
•oooi
I -i.il
1 'bl I
i " 99t
il b'ri
vui' v
•OOE i
•ooi
l 'OlE
d 'OIE
Z ' ttd
« E'O
E
»Uf E


•Ot-Od
'OS.OI
1 *bl 1
'Odl =BAJV
•Odl =AJ«
" 9 1 1 - 1\ I. J X
E ' 9 - S M «
.Ji :;:;*;
•i^vti
"OOUl =IH'IH
•bll =HAJV
'VII =AJV
"99T - d l< J 1
1 9 * S 1 = b c, V
E =H\I J i, ]
'OSl I
*oui = Hi 'in
'd IE =HA JV
• I I E = A J »
'LLl =dl.Ji
I Vb =b*\f
I =b«lSl
=en bi = b^r
CO
CO
•9lbl 00
•ObOl =IH'lll
•bll =«Aj(V
•EOl '901  'Sll  'HOI  '!.ll  'OCl  '»ll 'bOl  -Cll 'ill  *IOl  *90l  'iOl "901  'Oil 'tOl  "101  'bOl *90l  'BOl  'SUl  'til  'Oil  'bll   =A.JW
'Evt 'E9Z  'E9S  -^92  "fit  't*t  *»9t *S9C  '1/'b  »'b   E'OI M*6   b'b   b'H   «,' H   t1' b   b't   =b»W
E

tb
tb
Lit
y' l
(



IH
Ib
Eid
d'b
t


'ib *ib
'tb 'ib
V.it 'Etd
I I'tl Vt
E i



•l" *yt
•Ib '9t
•ti?. 'ttt
l I 'Ot b't
I E


'ib
•tu
'» id
I V E I
t



'dl
'ti
' lit
I I * '» I
E


"Vd "Lit *bH
">b "tB "bb
'Eid *»tt *Vid
S.*dl O'El b'El
III



"y9 *ob 'bb
'99 "fab *bb
'lit ' ttt ' 1 tt
t'bl E'bl b'9l
E E l


' 1 b ' 9a
' tb "98
"Hd 'bit
E ' M 9 ' b 1
t E



"bb 'fb
• II b ' » b
' I < d "ltd
b ' -i l l ' y 1
l E

•
'9b
"Mb
•bid
t
of 1 1
bub I
'bb
*b8
•vit
b'y i o' t
t

m
•
' t b
'Ib
'ltd
b'y
i
t

o t b
tSl I
'Ob
"ub
' ltd
1 Vt
t
E
•ovtt
' d t b I
•Eb
•Eb
•>td
I 9'i.l
d

"Uifa
•kfrdl
'dl.
•dS
'lit
I O'El
E
E
' 0 I b t
•ii
•it
'lit
1 '91
d

•ot
' bl t t
'bb
'bb
'Oid
t ' b I
t
1
'0*t I
'tllbl
•si '
'Si '
'did '
b'9l
t

'Oib
' y d » 1
'by
•«.y '
•ult '
d'bi
t
d
"on
E E
I 'Ofll
*S£bl *U9bl
bt '
bl
ltd '
I '91
t

"Ott
'bib
ii
ts •
Otd '
V£ l
t
d 1 ' b 9
dl 'by
0 1 Z ' 0 i t
t •» t t 'I
E I

"(lib
I 'bO'Jl
9b "IS
9b ' Ib
Old 'Ott


t
'oood
' It
' it
'Old
1 o'El
t

'Oib
'ootl
' bb
'bs
'Hid


t
'ooot
•it
•It
•lit
d'Sl
I

*0tb
'HOI I
' 19
' 19
'Hit


t
t
1 "on
= A tf
1 *
'Oood *oood •
•it
•it
•it?
£*b I
E

*0tb
"not
'(•b
'l-b
•(lit


•on •
'Ub '
'ltd '
1 9 1
(
tb
'l/tb
I 'Oft
•is. •
'is
"Old '

9S
tb
db
lid
b" t
1
= AV
.
I '
S9
<•<<
II it
1^

t
or t
OHl
OOOd
•brt
'Sb
• iiz
1 VI
F
nr t
016
tiOt 1
'IB
M V
• ltd
£

I =»
'till
•ouod -
T. B =
' dB
•did =
1 ('.'hi
\ =>i
= llkl bi
' 1 9 (1 1
'OOll =
'1 6 =
•tb
'ltd =
t* ii l
0 1
E -»i
= 111- 1 bl
V J b l
IH'IH
bii J tt
-h J«
dl- 3 A
= bf V
KJSl
-HAf

IH'IH
bAJ«
= AJ»
dt.iJ
- b h V
^ J SI

-------















C"
II
II
£
r^ CN <- ~»
• r- ir ir
(*•,(%_ —
• r- f *»
« c »r cr cr
• p» CN CN
• r* r* f
— r- r- e» c
• r*- c*» fN
>£ fS — — •
« r* CN CN
c c
• * * a or
• t • a o
•C f\ *- _ fN CN
— •» w: * ^ a c
ir rs — — r* *»
*- in ir — — • •
• r- fN IN cr C
IT P*
» P* CN fN • •
ir> CN — — cr c
p* a
• f c- e
o» CN w — • •
cr o
• • • '"v cc
• p- p- r-- — fN
~- CN
*• x •- r- p* p- x
•- fN CN
•e cr e «-• •- x C
• r» cr cr r* x
«» CN cr — — • •
• p* cr o cr c
r- r*

r* f* ,. _ -v
X II II II
<•* n a n a: —
&- sr T ;» > 3*
CO 3 Ci' U, t». J?
— *• «- «r « x
• x
CN CN
r*- «<- CN.
• X
<*• CN CN
• X
— PN
CT CN
t* ^ CN
cr CN
C CN
« X
C fN
• X
~* fN
— CN
• X
• or

• x
* a:
C CN
* or
~ PN
• a
— 0*
r* P* ~
O CN
c cr c
• or
• cr
<•• 00 —
• Of
c cr r«
>• • cr
m cr c
^ • x
er cs
n
»* • cr
a CN
\r H
r* cr n
11 «x M a.
,T «- cn y
>• co :x t>*
•-> — a P-
c o
IT £ C

C C IT C
C C O O
cr IT
o o • •
t • r- ir
c c
e e
• • e c
c c —
* -c c c
m «• •«
^ rr c e
cr c c e
t/> |T • •
e c o e
1C IT.
OC V
c c • •
• • i in
c c
• •CO
•» — X CS
H M
II X —
5» > .T
«i « X

r.





CS
„


rr.

*
n
n ^~
IT
II
O
h-
r- a:
n <
• X fN CN
a- CN f. *•*
CC \C P* P»
• or fN fN
cr CN' f*i ^
• X CN fN
• X CN f>i
X PM ^ m
*- r- cc ac
• x ^ —
• • *
• OC CS CN
• • •
o- c «» «e
• re cs cs
oc cs rr c
*• f
• a cs cs
• cr fs es
a cs f\ <^
• sr cs cs
f O
• • « e r-
• O- CS CN ^
• • • a c

• CT «- — f* f^
r^ c O O » •
• a c o — c
in «-
cr oh m m
• er c o • •
s£ CS rt I"H S O
• OC O O
ir CN f* (*i • •
• • • T P*
• X C O —
r^ tn cc cc o r*-
*G CN CN CN **
CC ^ ^) ^ O C
• er  i
!E It U. U -3
«• f- « '«r X
• er o-
« cs cs
f^ CS ff1 C71
• cr er
r- cs cs
m \c o •£
• cc cr
r~ es cs
• er CT
r^ cs cv
• •
1-1 r- c —
\f CN CS
• cr x
if. cs cs
• »
• a a
» es fN
f cr  r- o in
>£ CS CN
• CT Cf
in es cs
/•> et o <*i
• er CT-
IT CM CS

• o- a
sO CS CV
« « C CM
IT CN CM
rr « •- c
• er er
•  cr
r-
II m vn — *r
>• • cr CT
rf V CS CM
f*i cy^ •• CT
vf, . cj. a
«• rv ex
n
o • •
i— • cr er.
^ rs cs
IT II
r- CC II
II a ll a II
a i- tr. s: ^
fc- cr, jr w ii.
•"> M > • cr-
«r »*• rs
O
« sf rs
r- • er
f" CM
u
c •
l-i • CT-
m es
IT II
r- cr u
u a. n cv
OC f- 0? 7
•5 « < e-
c c
cr f
cr er
rv e*
ac ac
cr- cr
CS CV
cr cr-
cv es
cr a
es es
e o-
CM CS
c c
c c
cr a
c c.
CT CT
cv ev • •
• •  ^« X
la. li. ^
«t C
o rs
• (T
• er
cv rv
• CT
,'cv
* X C
IT1 P^
* C &
• X
* Pv C
• cr
T C-N CN.
or
H « C *-
>* • cr
< r* CN
n -£ —
M
IT M
r- (X u
n «r u a
er f- tr T.
c c
a 7
CN CN
cr x
t t
C 3-
fN fN
vL vC
c> cr
CN CN
• •
cr cr
* •
o c
or x
f*. rv
-•N fN
C C
C C

cr cr
c- c
• • a  i X
li. U, J
B-39
-------
                                          sxvu  *oz   NO  oasvu
*oim *oo9i *oo9i 'oo9i '0091 'oo9i  *oo9i  '0091  '0091  *
'OOU 'SCtl 'OStl '!»ltl *OOBl "GOBI  *OOB1  '0081  'llOHl  '00bl  = lll1H
18
Ib
b * »





Zie
ZIZ
£62
E'Ol



OEE
OEE
tBZ
f b
V


U
0
96Z
V
•&d 'Zb 'bB 'SB
'SB *C6 *BB *SB
•£BC *EBZ 'EUZ 'IOC
fr fr fr I





'99t '99C 'E9C 'BSZ
t'OI fill ZMI B'6
£ £ f £



MCt MZ£ *£Z£ 'OZE
MCt "frCt '£ZE 'OZE

I * 0 I 9 M 1 Z M I I'll


•0 *0 '0 'OH
*0 '0 '0 '0»£
*96C 'S6C *lbt 'tbZ
* » E t
*Zb 'tB
•ze 'tB
*£BZ fU9C
£ I





•e«z 'CBC
t*0l B'b
£ £



*tl£ 'bl£
•tit 'fall
•t8t 'Lai
I «* I I fi'C
E E


'on "o
•on *o
t t
'6B 'Ob
*bB '06
t £





'OSZ 'Ltt
•OSZ 't>C
•Z8Z 'CBC
t'OI t * 0 I
£ £



•ott '»!£
'OCE 'ME
I.HC L ti C
l £


"Oil "OSt
'O5.E 'Oil
*6bC "bbi
I C
MB *C8 *E6
MB 'CB '£6
zee



'OVl *09l
'01* *S.C9
'IVfc 'tH 'OSfi
'Ltl 'IfrZ 'OSZ
•CbC 'E8Z 'ZBZ
»'i> fi'B 6'b
£ £ E

•Otl 'Oil

'£ It '» U 'ElE
•£l£ '»lt 'EIE

kit

' tCV 1 *b<»t I
'0 '0 '0
•l) 'U ''I)
C I I
*»ta
'69C




•091
'081
•ssc
*CBZ
£

*0t£
*SB»
•kit
•ilt

£
•015,1
* !» 11 I
•\l
•o
•tbZ
1
MB
Z



'091
'S£6
•osc
•CBZ
fOI
E

'Ol£
'MS
•on
•OIE

E
•OIS
* 19C
•o
•o
•9bZ
l-'tf
1
*96 *E8
'98 '£8
'B9Z 'byt
E E



*09I
*0b0l '
•osz *osz
•ZBZ "cez
£*OI E'O
E £

rott •
• E » S *
Mil 'Sit
Mil 'SIE
*SBC "9BZ
t £
1 'OISI . '
1 '80CI •
•o *o
•o 'o
¥ * o t * t
Z £
•08
'OB
£



091 '
S>Z 1 '
*9VC
'tut
I t'OI
t

0 .
us •
Mil
' I IE

l>
OESl '
H> I 1 *
•o
•o
• f t) C
i f b
t
•69Z
I* Zl
E



091
OOH
•SEZ
•S£Z
M8Z
o'8
t

oil
009
•OZE
•OCE

t

001 1
•o
•o
•£6C
E'Ol
E
'98
•otc
£ •



*09l
'00»l
'BtC
•BtZ
'ZBZ
re
E

•ott
'OO9
•su
Z* 1 1
V
•oisi
•ool l
•o
•o
'C6C
fui
t
•bb
'6B
•us
Z'Sl
Z



'091
•ool
•£9Z
*£9Z
Mez
B'6
I

'Oil
"009
'III
'Ell
t'OI
E
•OEi,
'001
'0
*U
•Z6Z
B'b
»
Mb *frB *bB "IB =HAJV
*lfa *>8 *68 *18 =AJW
•Ztt *>tl *9tZ '61Z sdh^X
S'ZI ?*CI B'H E'Vl =SWV
E E E E =U*JVI
«.E£=AVur ei=uhi si=«Af
o
1
*09l '091 'Sl£ 03
1 '00»l 'OOH 'OOU alM'lH
'flSZ 'BIZ 'ZfrZ 'Bt-Z =bAJtf
'Z8Z *CBZ *Z«Z *ZBZ =dh31
ti'El 9*11 t'OI »'6 =S>«\l
t £ E E =U»1S1
l,C = A»Or b =OM S/.=HAf
•OIE 'Ol£ "bbt
*009 '009 '009 =IH1H
'HE *9ll 'Zlt 'Sit =MAJ«
•VIE *9U 'ZIE 'Sit =AJV
'9bZ *IBZ '9BZ *18Z =dh31
B'b 1*01 B'b S'b =S>H\t
t> v ft t -tiv.iai
l 'Oti.1 *0£SI *VIM
1 *00ll 'OOll '0011 =IHTH
•0 *0 '0 'OSt =«AJ\(
•0 '0 "0 'OSE =AJ»
•ZbZ "tbe 'Ibl "Ikl =dH31
b*B 6*b 6'fa t'V =S«V
t fr (r V =U«.lb'l
-------
                                              iTirir.  if  u* IT  if  ^  IT  \f*  \r>  IT- IT- if* \r  \n  *r  v  ir. IT  vr  ir  if;  i/
                                              ccccc. ccr'ccc   CCCTCC-  cecccc-c
                                               i   i   l   t   i   i   i   i   i   i   (    i   i   i   i   i    i    i   i   i   i   i    i    i   i
                                              U.'  U.  t*.'  U.  LJ JL  ti*  U."  la."  t*"  U.   U' —  u-  0-  [t"  U.  u-  j.' U'  ti.  Ca..  b   is.   U.


                                              \t.  \f  &   *—  OC**'r'*^'*'C   3C  IT  *••' IT-  f^"  C  CC C  C  U"  fv  ^*  C

                                              *r;»i    i   t   i
                                                                                                              .  ir. ifinmifififififirifif-ir-trif.  ifr.rifir
                                                                                                                ccoe
                                                                                                                    i   i   i
c  c  c
 i    i   i
                                                                                                                                                  O  C  C  C
                                                                                                                **• C*!  Ii"  Ei."  U  LI.   [i'  I&,
                                                                                                                                                                      cccc

                                                              —  cc  =  c
                                                                                                                                                  rs ^ —  r^
                                                                                                                                                                          —  i"   ir c
                                   C r»
                                   ^
                                   a
                                                                                                                       C  C  C  C-  — «•  (T
                                                                                                                               ir  a-   crr-ar-*-***-*
                                                                                                                                                              w*  r>  (j   a   —  r- ir
                                                                                                                                                                          ir  T  r^ tr
                    u
                   y
                   c
                                   x         occoocccccccococococccc
                                   c.;          i   i    i   i   t   i   i   i   i    i   i   i   i   i   i   i    i   t   t   i   i    i   i
If
c
1
Li
If
C
1
c
1
c
1
•
1
c
1
-
1
c
1
c
1
c
1
_
1
c c
1 1
                                                                                                    ir  IT  ir  ir> ir
            C     C
            v.     i-
            I      C

            s
            c      »
            £      C
                    I
                   c«
                   c
                   c
C
3:
u;
v
                   o

                   2
a
f-
h.
tJ
if
c
1
li*
p*
o
^
c\
p-
*
f
C1
1
£L
CC
£
00
c~
T
in
c
i
[L
^
IT
p-
f*i
f
*
IT
C
1
C*.'
p*
rv
X

*
•»
If
C
1
u
cc
r*
if
e
in
•*
if
•^
l
X
CN
^
_
>f>
•»
in
c
i
u;
P-
tr
p*
fN
If.
"
If
c
1
J.
^
f;
(X
•f
9
IT.
C
1
u^
r*
^
f.
*•
—
•C
IT
C
1
U.^
or
or
fs

~
ir
in
C
1
u;
rr
at
cv
•*
r**
\r
j*
c
l
&
*-
J
X
or
T
if
O
1
Cx]
CN
£
cr
a.
c
or
IT
C
1
LL
CM
tf
ts
O.
if
^
c
t
ti
X
fN.
C*
t*
CM
""
If
C
t
U2
c^
UT
«>
T
P-
in
c
i
u:
e>
cc
p-
a
^
*
if
.3
i
a?
*H
or-

C
If
if in
c c
i i
Ck! ti.
^ r*.
* ir
oc r-
vf p-
T •*
p* or
IT if
O =.
1 1
UL i
r*' y
«• 5
a >c
«r rr
r r-
in
o
i
d;
ir
if
^
(S
in
X
ir
^
l
'•j?
*£>
If
C
CN
P-
X
in
c
i
[a;
c
in
«••
x
—
vf.
if-
«
1
CL
^»
*

«
if
c
l

t«
X
a-

«
m

i
u:
p-

fr
^
CT
"
If

1
U.

X
a

if
if
c

^;
o-

/v
•3
X
If
IT

1

U
p-
^
*f
X
u- in
c e
i i

Pv P"
'f If

r* —

p* P*
in in

i i

O' V

— »•
C X
" a
if
c
i

„
m
i^
if

a:
in

i

x
•£
C

3.
m
c
i

^
r%
X
7

T
If
c
1

Of

,•
3-.
X
tr
c
l
b.

et

M.
>—
^
X

y
bl.

a
__,
—
X
If

1

.^
.•
If

p-
<•
If

"J
r^
d

^
cr
9
if. if
c c
i i
IL. ii

— —
P- O
r- c

«t if

— A
~J ^
U^ U."
«T If

c r-
cs u-
if if
                                      s-
                                      «£
                                      or
                                                                                 ~. —•  rv  .-*»
                                                                                                      B-41
-------
PF.NN. EI. EC.  SK
    MAXIMUM  ?4-'inilR COMC=   4.1S94t>04   niRf:CTH)N =  RO.
                                                                           *:*   ?.»
                                                                                             r  57.
              HICHEST 74-HOUR C O'lCEVTR AT IIIM AT  FI\CH
          1 . 2  K M                    2 . 1  K M
2.R  KM
                           1.7  XK
                                                      5.7 KM
DIR
1

4
t^
fj
7
rt
q
1 0
1 i
• i
1 2

1 4
j <^
Ih
1 7

1 9
20
2 1
72
21
74
•7 c
/ t
7ft
77
21
29
30
) f
37
31
35
If.
1 . 12H5F-04
"H7«j4F_pS
4 . 9f»0'IF.-05
1 . 579 2 F, -04
7.SOHE-OS
1 . 6195F.-01
7. 7790 F: -04
1 .520SF.-0'*

2 .B76 1 F.I-04
7.9464R-14
7.2941K-04
1.1H27F>04
•i. 1 7 1 IP-OS
1.717'XT-OS
4.5lf>1F-0'i
4 .5006F>05
4 . 5000E-05
4.5000F-05
4 . 5000F.-05
4.S144F-OS
5.5196F>05
6.111 1K-05

7 . 2 1 0 J K - 0 S

2. 1167 F; -04
3.0221E-04

7.01 75E-0*
2.7246R-01
1 . 1656F>04
fl.6121F.-05
1 . 92 44 f -04
7.59?6F>04
200 I
700 )
2(>0 )
56 )
56 )
5ft )
57 )
315 )
315 )
9ft )

101 )
101 )
101 )
: 101 )
' 101 )
{ 101 )
( 7 )
( 7 1
( 267 )
( 767 )
( 767 )
( 767 1
( 1R7 )
( 1 H7 1
( 1R7 1
( 1R7

( 1 2 0
( 77
( 77
( 700
f 700
( 700
R 99R4F-05 ( 700 7.7R6RF-OS ( 700 ) 6.1SMF-05 ( 70O ) % S.1379T-OS ( 200 )
•> 7S05F-05 ( 200 4 . 9 1 QOF.-05 ( ?OO ) «.72°7f:-O5 f 7OO ) 4 . SCHOlv-oS ( 70O )
4*5-»7jF-05 ( 700 4.65B4E-05 f 7 1 5.OR7HF-05 ( 7 ) S.R56«F-05 ( 7 >
4"qS70F-05 ( 56 1.7R17F.-0-5 { 56 ) 1.5369F-05 { 56 ) 4.540BF-05 ( 56 )
j"79S4F-04 ( 56 4.0547E-04 ( 56 1 T.7R07F-04 ( 56 ) 2.9950F-04 ( sc, )
1*14?PF-04 ( 56 1 1.4467F-04 f 56 ) 1.1°67F>04 ( 56 ) |.199«F-04 ( 56 1
?*7477F-04 ( 76 ) 7.HB75F.-U4 ( 26 1 7.6157E-04 ( 14 ) 2.41^1^-04 C 14 )
4",S904 f 37 1 3.0479K>04 ( n )
l'o066F--04 ( 62 ) 1.S019F-04 ( ft? ) 1.SQOOF-04 ( 67 ) ?.997304 ( 96 ) 7.771RF-04 ( 9ft )
l'qS04F-04 ( 103 ) 1.7RP1F-01 ( 94 ) 1 . 7 7 * 3 F, - 0 4 { 94 1 1.48'OF-04 ( 9ft )
l!l917F-0« f 101 ) 1.0SOOF-Oa ( 103 1 fl.7.fl?OF>05 f 101 6.5091F-05 ( 94 J
7*7774F.-05 ( 101 ) 6.4R67F--05 ( 1O1 ) S.ftfi^lFl-OS < 101 5.0715F-05 ( 1^1 )
5 ,4q<,F-05 ( 10) ) 4.R671F-05 ( 103 ) 4.7O07F-05 ( 103 4.59O1F-05 ( 103 )
4*5706E-05 { 101 1 4.51ft3P:-05 ( 1'OJ ) 4.51ROF-05 ( 103 4.5071F-05 f 101 )
4*50«1F-05 ( 101 1 4.5019F-0'; f 101 1 4.500RF-OS ( 103 4.5003F.-OS ( 101 1
4*SnolF-OS ( 101 1 4.5000F-05 { 103 > 4.500PF-05 ( 103 4.5000F-O5 ( 101 )
4"sOOOF-05 ( 7 ) 4.5000F.-05 f 7 1 4.5OOOE-05 ( 7 4.5000F-05 ( 7 1
4*5000F-"5 ( 7 > 4.5000R-OS ( 7 ) 4.5000F-05 ( ^ 4.5000F-05 ( 7 )
4*SOOOF-05 ( 767 1 4.SOOOF-OS ( 7 ) a.50OOF-05 ( • 7 4.5000F-05 ( 7 1
4"S()04F-05 { 767 ) 4.5601F-05 ( 767 ) 4.517RF-OS f 767 4.5106F-05 f 767 1
l"o470F-04 ( 767 ) 1.277BK-0* ( 267 ) 1.751QF-04 ( 767 1.1144F-O4 ( 267 )
K3295F-04 ( 767 ) I.5142E-01 ( 267 ) J.4970F-O4 { ?67 ,.?(;ftpc-o4 f 767 1
?"(iSfi<;r_n4 f 767 1 3.00RRF-04 ( 767 ) 7.9176F-04 ( 757 7.4413F-04 ( 261 )
1 7449F-04 ( 767 1 1.4044F-04 ( 767 1 I.1HQF-04 ( 767 t.1«B7F>04 ( 2*7 1
9*0765F-0-; ( 107 ) 7.3715E-OS ( 1 17 3 6.7797F-05 ( ?67 6.77"5F-05 { 767 )
|'s41f,r-n4 ( 1R7 ) 1.17IOE-04 ( 1R7 ) 9.0777F-05 ( 177 9.5151H-05 ( 177 )
/|7,SF_04 ( 1R> 1 7.9075F-04 ( 177 ) 1.H497F-04 ( 177 . 4.07ROF-04 f I7/ )
liflOIOF-04 ( 170 ) 1.9013F.-04 ( |70 1 3.5706F-0* ( 170 7.R151F-04 (170 )
3*67?4F-04 ( 761 ) 3.Rfl|5f-04 ( ?6| ) 1.55ORF-01 ( 261 7. 76S1F-04 ( ?61 1
3[«614F_04 { 77 ) 3.3071F-01 ( 77 1.7R51F-04 f 117 7.0117^-04 ( 117 )
7|S9|QE-05 ( 77 ) 6.3547F-05 ( 77 5.5R11F-05 ( 77 S.06O1E-05 ( 77 )
q a»i»>7f-05 ( 700 ) 1.04S3C-04 ( 700 t.O616F-04 f 700 9.7007F-OS ( 7oo )
l'^)61F-(ia ( 70') ) 1.1644F-04 ( 700 1.OOSOF-O4 ( 71" B.2591F-05 ( 7
-------
PENN.  (TLF.C.   SEW»PD







                                             NOM--R07




    MAXIMUM  l-HOIIP  rONC=    • . 26 1 6F.-04    DIRECTIONS   0.    OtSTANCFc   1.7  KM   OHY=?00.

f


r


r


f






DO
1

; co





'


;


.1.


f
i..



H10HFST 3-HOIJP CONTENTR AT10N AT FAC
RANGE 1.2 KM 2.1 KM
DIR
1
2
3
4
s
6
7
R
9
10
11
1 2
13
1 4
15
16
17
1 8
19
70
21
22

24
25
26
27
2H
29
30
31
32
33
34
35
36

4.3319E-04 (
l.«526F-04 (
7.0S8flt-05 (
5.6219E-OS (
3.5»13k>04 (
1.6751E-04 (
4.5877E-04 (
6.5147K-04 (
5.1347F.-04 f
5.6306E-04 (
7.0530E-04 (
6.8S49F-04 (
5.454BK-04 (
3.0167K-04 (
1.1943E-04 (
5.6934E-05 (
4.602HC-05 (
4.5015E-05 (
4.5000E-05 (
4.5t>OOF.-05 (
4.5000F-05 (
4.6791E-05 (
9.7134F-05 (
1.0706E-04 (
1.4917F-04 (
2.3I11&-04 (
5.6035K-04 (
7.686SE-04 (
7.0392E-04 (
7.2S15E-04 (
7.4721F.-04 {
5.2568E-04 (
7.7983E-04 (
1.9299(1-04 (
5.9891G-04 (
».261*>K-fl4 (

200 )
200 )
200 )
56 )
56 )
56 )
57 1
335 )
335 )
62 )
96 )
103 )
103 )
103 )
103 )
103 )
103 >
103 )
335 )
335 )
267 )
?67 )
267 \
267 )
267 )
187 )
187
187
1P7
120
137
77
77 )
200 1
200 1
200 )

2.2418F.-04
9.563RF-05
5.7718F-05
•5.3994E-05
6.W436R-04
2.6779F-04
6.B3HSE-04
6.9603E-04
4.634IF.-04
ft.6409F.-04
6.775HR-04
4.1759F-04
2.9536E-04
t .5874R-04
7.4910E-05
4.9069F-05
4.5276F.-05
4.5009E-05
4.5000E-05
4.5000E-05
4.5000F-05
4 .R680E-05
3. t 330E-04
3.906SC-04
5.8659F-04
4.e«64E-U4
3.0956F-04
4.3041F.-04
4.7754F-04
ft.5 J50F.-04
7.24H2E-04
7.0395E-04
1.4776E-04
3.1606F-04
4.551 1R-04
6.121 3F.-04

r 200 )
( 200 )
( 200 )
( 56 )
( 56 )
( 56 )
( 57 )
( 57 )
( 26 1
( 94 )
( 94 )
( 103 )
( 103 )
( 103 )
( 10J )
C 103 )
t 103 )
( 103 )
( 335 )
( 335 )
{ 267 )
( 267 )
( 767 )
( 267 )
f 767 )
( 767 )
( 187 )

( 188 )
( 120 1
( 261 )
( 77 )
( 77 )
( 200 )
( 700 )
( '»00 1
M HECKCTOR
?.« KM

1 .5579t>04
7.3953F-OS
5.7671K-05
5.0009K-05
6.9595F.-04
2.6641F-04
6.92B4E-04
7.0866F.-04
5.53«5F.-04
6.7706F.-04
6.6971 F-04
4.733SE-04
2.564HF-0*
1 . 1 474F-04
6.2367E-05
.7155E-05
.51 78E-05
.5003E-05
.5000F-05
.5000E-05
.5000F-05
.8047E-05
4.3573F.-04
4.1002004
7.091BE-04
5.7S30E-04
2.2934F-04
2.9670F.-04
5. 7769 E -nt
7.2702E-04
7. 37f 9E-04
7.4225R-04
1 . 0 4 0 1 F - 0 1
4.4608F-0'?
4. 3030F-04
7.4018K-01


( 700 )
( 700 1
f 7
( 56
( 56
( 26
( 57
( 335
( 56
( 94
( 94
( 94 )
f 94 )
r 103 )
( 103 )
( 103 1
f 103 )
f 103 1
( 335 )
f 335 )
( 335 1
f 767 )
( 267 )
( 267 )
( 267 )
( 267 )
( 267 1
( 1B7 )
( 177 )
( 1 70 1
( 761 )
f 761 )
( 77 1
C 200 1
( 200 )
{ 700 )


1
6
9
4
6
7
6
6
6
6
6
4
7
8
5
4
4
4
4
4
4
4
4
4
6
5
3
3
6
6
6
7
7
4
3
7
3.7 KM

.1 119F-04
.1?"7E-05
. 1671F-05
.7573F-05
.5806E-04
.5293F-04
.5785F-04
.7165F-04
,2a07F-04
.4551F-04
.555HF-04
.747BF-04
.4920F-04
. 6640F-05
.4783F-OS
.6107F-05
.5057F-05
.5001F-05
.5000E-05
.5000F.-05
.5000F-05
.6757F.-05
.7784F.-04
.7767E-04
.95R6E-04
.5735E-04
.71 R7F-H4
. 6 5 4 5 F. - 0 4
.B1 61F-04
.9-l«3F-01
.QOflRR-n')
.1 2S6F-04
.'1793F-05
."773F-04
.7R70F-04
. 7 6 7 1 F - (1 4


( 700 )
( 200 1
( 7 J
( 56 »
( 56 )
f 56 >
( 76 )
( 7 )
f 56 )
( 67 )
( 94 )
( 96 )
( 94 )
(1033
103 )
103 )
103 )
103 )
335 )
335 )
( 335 )
( 267 1
( 267 )
( 267 1
( 267 )
( 267 )
( 767 1
(177)
( 177 1
f 120 )
( 1 20 )
f 1 37 )
f 77 )
( 200 )
( 700 )
( 200 )
5.2 KM

7.946IF-05
5.2926F-O5
1 .5351F-04
4.5770F-05
5.3030F.-04
2.2880F-04
5.6538F-04
6.0R14E-04
5.9495F-04
5.5832E-04
6.1 407F-04
4.0164E-04
2.0499T-04
6.61 13E-05
4.9585F.-05
4.5453F-05
4.5019F-05
4.5000^-05
4.5000E-05
4.5000E-05
4.5000F-05
4.5533E-05
4.1507F.-04
3.9186F-04
5.8543E-04
4.5788F-04
1 .8687F-04
4.7430F-04
7 .0055R-04
6..3472R-04
5.6H55E-04
6.2R37F-04
6. 317SI-:-05
4.4f)20(T-04
2.9004E-04
5.8875E-04


f 200 )
( 700 )
( 7 1
( 56 )
( 56 )
( 56 )
( 14 )
( 335 )
f 37 )
( 62 )
( 96 )
( 96 )
( 94 )
f 103 )
( 103 )
( 103 )
f 103 )
( 103 1
( 335 )
( 335 )
( 335 }
C 767 1
( 267 )
( 267 )
( 267 )
( 267 )
( 767 )
f 177 )
t 177 )
( 137 )
( 120 )
( 137 )
( 7f )
( 700 )
( 200 )
( 200 )
-------
            MAXIMUM f)M!,Y
DAY
       74-HOUR CONCP
 56
335
177
170
7«l
 62
 77
 37
137
 14
  7
 76
 96
 94
197
267
103
l«e
200
              .I5<»4F-04
 .0780f>0*
 .9013K-04
 ,5n4
3.227BK-04
3.l9fl7E-Oi
3.l40tC-OJ
3.I27SC-04
3.0707E-0*
3.077.IE-04
3.001Be-n4
2.9464?>04
2.BI02F-04
2*7»7BE-04
                                     •>
                                     R
                                    7°
                                    in
                                    ?1
                                    10
                                    1?
                                     n
                                    37
                                     n
                                     o
                                     f)
                                    11
                                    ||
                                    17
                                    29
2.07
2.75
7.75
5.73
2.75
2.75

2.07
3.65
3.65
3.65
3.65
2.75
3.65
2.75
1.17
2.75
1.17
t.17
2.75
-------
        PENN. ELEC.
        SOLVENT  REFINED  COM, STUDY

        SEHARO Pb»MT  1975
if

jf-

JC

f

r
tMAMt
KSTLe4   lURsl   ITHP.IPUNs 2 0
  IDftTft.IMUX.ILOTSa 000
IOHGT= 2    WHGT=  ^1.0  NSTs 1
NPO(,= 2    IT»B=  1   INPI)T= 2
NSEAs 1    ECONVs    0.3048006
DAlf--
SlfTFa 1.0   FIVs  3.0    TAF= 0.60   BACKGPs

        1                           t     t
        1                                 1
        1                                 1
        I                                 1
        i                                 1
        1                                 t
        t                                 1
        I                                 1
        i                                 t
45.0
    CO
<   I
    en
-------
PLANT ELEVATION (FEET ABOVE SEA LEVEL)--    1120.0
    RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)

DIHECTION   RINGI1   RINGI2   RINGI3   RINGM   RINGI5
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
CO 22
*> 21
0> 24
25
26
27
28
29
30
31
32
33
34
35
36
STACK 1
STACK 1
STACK

1
2
1085.0

















090.0
100.0
115.0
120.0
130.0
130.0
135.0
150.0
145.0
135.0
120.0
120.0
120.0
120.0
100.0
100.0
100.0
1070.0
1080.0
1240.0
1210.0
1270.0
1420.0
1485.0
1500.0
1420.0
1310.0
1440.0
1550.0
1550.0
1560.0
1530.0
1400.0
1250.0
1180.0
1--SEWARD
2--SEWARD
STRATEGY
TYPE
NOM
NOM
1 330.0
1150.0
1200.0
1120.0
1100.0
1240.0
1300.0
1280.0
1240.0
1240.0
1250.0
1210.0
1260.0
1220.0
1220.0
1280.0
1210.0
1140.0
1100.0
1080.0
1080.0
1090.0
1230.0
1250.0
1350.0
1470.0
1560.0
1540.0
1400.0
1320.0
1300.0
1330.0
1550.0
1400.0
1330.0
1200.0
STACK 1 SRC
STACK 2 SRC
1200.0
1370.0
1250.0
1400.0
1250.0
1140.0
1 100.0
1400.0
1350.0
1450.0
1500.0
1550.0
1500.0
1500.0
1400.0
1350.0
1450.0
1350.0
1200.0
1100.0
1080.0
1080.0
1150.0
1200.0
1240.0
1300.0
1470.0
1540.0
1400.0
1400.0
Ib40.0
1400.0
1550.0
1680.0
1300.0
1350.0
802
NORMAL
802 EMISSION RATE
(GMS/SEC)
75.
164.
00
00
1350.0
1500.0
1400.0
1440.0
1420.0
1440.0
1300.0
1150.0
1400.0
1800.0
1950.0
2100.0
2100.0
2000.0
1850.0
1700.0
1640.0
1620.0
1600.0
1540.0
1300.0
1080.0
1080.0
1200.0
1300.0
1400.0
1460.0
1400.0
1550.0
1600.0
1620.0
1700.0
1800.0
1550.0
1580.0
1350.0


1600.0
1500.0
1500.0
1450.0
1550.0
1500.0
1720.0
1720.0
1950.0
2100.0
1800.0
2460.0
2560.0
2500.0
2530.0
2450.0
2200.0
(900.0
1400.0
1300.0
1210.0
1210.0
1400.0
1060.0
1400.0
1350.0
1570.0
1660.0
1660.0
1710.0
1770.0
1750.0
1700.0
1600.0
1620.0
1620.0


PART EMISSION RATE
(GMS/6EC)


0.00
0.00






































HEIGHT
(METERS)
68.60
60.60
  RANRE(KM)3   1.17   2.07   2.75   3.65
  SEASONAL VARIATIONS BY CASE I
           1   1.03   0.93   0.99   1.10

YEAR BASED ON 365. DAYS
                                          5.23

                                          1.03
                                                                        DIAMETER  EXIT VELOCITY   TEMP
                                                                        (METERS)     (M/SEC)     (DEG.K)
                                                                          2.40

                                                                          3.00
31.30

32.70
449.00

414.00
                                                                                                           VOLUMETRIC FLOW
                                                                                                             (M»*3/6EC)

                                                                                                                141.60

                                                                                                                231.14
                                                 0.99
                                                        l.U    1.09    1.10    0.92    0.87    0.81
-------
         PENN.  ELEC.  SEHARD
 (

 r


if

if
00
I
OIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 1 1
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
                                       NOM--802

            MAXIMUM  MEAN CONC*   5.eoi7e-os  DIRECTIONS  e  DISTANCE*  3.7 KM
                        ANNUAL  MEAN CONCENTRATION AT EACH RECEPTOR
         RANGE     1.2 KM         2.1 KM         2.9 KM         3.7 KM
                                                                              •5.2 KM
4.55883E-05
4.56967E-05
.61182E-05
.67355E-05
.74604E-05
.74794E-05
.73957E-05
.72906E-05
.70132E-05
.75503E-05
.80119E-05
.75438E-05
.65105E-05
.58036E-05
.55166E-05
.541S3E-OS
.53443E-05
.52840E-05
.52412E-05
.52052E-05
.51705E-05
.51297E-05
.51278E-05
.51694E-05
.52490E-05
.52948E-05
.54472E-05
.57111E-05
.60479^-05
.64048E-05
.66571E-05
.638H8E-05
.57528E-05
.54472E-05
.54454E-05
.•58422E-05
4.57008E-05
4.57824E-05
4.63933E-05
4.72915E-05
4.85773E-05
4.79731E-05
4.84797E-05
4.87779E-05
4.77844E-05
4.82252F-05
4.85356E-05
4.75992E-05
4.64657E-05
4.S8200E-05
4.55515E-05
4.54498E-05
4.53575E-05
4.53247E-05
4.53187E-05
4.530J9E-05
4.52938E-05
4.52606E-05
4.52765E-05
4.53185E-OS
4.54450E-05
4.54050E-05
4.55089E-05
4.56350E-05
4.59765E-05
4.64674E-05
4.72822E-05
4.73549E-05
4.61321E-05
4.56180E-05
4.54598E-05
4.59122E-05
.57548E-05
.58173E-05
.6491BE-05
.75221E-05
.90171E-05
.82275E-05
.90874E-05
.96103E-05
.B4522E-05
.87127E-05
.88787E-05
.76691E-05
.6S117E-05
.58422E-05
.554B2E-05
.54350E-05
.51497E-05
.531456-05
.53133E-05
.53I88E-05
.53294F-05
.53101E-05
.53109E-05
.53516E-05
.54774F-05
.53999E-05
.54772E-05
.55747E-05
.60007E-05
.64S40E-05
.74009E-05
.76441E-05
.62232E-05
.56932E-05
.54683C-05
.58911E-05
.57686r-05
.58278F-05
.65021E-05
.75730E-05
.90758E-05
.B2910E-05
.93777E-05
.OOU7E-05
.89177E-05
.89550E-05
.89465E-05
.76545E-05
.65250E-05
.58579E-05
.55697E-05
.54359E-05
.53598E-05
.53035E-05
.52837E-05
.53139E-05
.53346E-05
.53431E-05
.53063E-05
.53580E-05
.54657E-05
.53750E-05
.54340E-05
.55528E-05
.606I6E-05
.63753E-05
.73122E-05
.76494E-05
.57140E-05
.S7842E-05
.63722K-n5
.73433E-05
.85966E-05
.79974E-05
.91334E-05
.97718E-05
.88973E-05
.87207E-05
.85632R-05
.74275E-05
.64396E-05
.58201E-05
.558R4E-05
.54386E-05
.53683E-05
.52B23E-05
.52272R-05
.52896E-05
,53059(T-05
.53559E-05
.52672E-05
.5343flE-05
.54216E-05
.53362E-05
.53814E-05
.55626E-05
.60919E-05
.61894E-05
.69882E-05
.73390E-05
.62001C-05 4.60570E-05
.57342E-05 4.57122E-05
.54690E-05 4.54354E-05
.58188E>05 4.56728E-05
-------
           PENN. fct.eC. SEWARD


                                          NOM--S07

f      YEARLY NAXIHUN 24-HOUR CONC«  I.26I8E-04  DIRECTI0N=300.  orSTHNCE*  2.B KH  DAY*120.
   oo
RANGE 1.2 KH
Olft
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36

6.8847E-OS
6.7029E-05
7.7074E-05
8.9047E-05
R.4115E-05
8.3056O05
8.3422E-05
B.6870O05
9.0357E-05
9.9796E-05
1.0237E-04
1 .0383004
9.8SI3E-05
7.9019E-05
7.4059E-05
7.3753O05
7.4830E-05
7.9445E-05
7.3453005
6.3302E-05
200 )
113 )
208 )
209 )
208 )
189 )
189 )
58 )
183 )
lit )
96 )
103 )
103 )
117 )
21" )
219 )
180 )
180 )
180 )
180 )
6.2529E-05 C |8i )
5.8562E-05 { 181 )
5.3922E-05 ( 181 )
5.5341E-05
5.9759005
5.9928O05
6.7373E-05
9.1847005
1.0707E-04
1.1172004
9.5802E-05
9.2816O05
7.1646E-05
6.9150E-05
7.8407E-05
9.6862E-05
179 )
179 )
179 )
187 )
187 )
187 )
120 )
194 )
77 )
112 )
112 )
200 )
200 )
                      HIGHEST 24-HOUR CONCENTRATION AT EACH RECEPTOR
                                         2.1 KM                2.8 Kf
6.
6,
7,
8.
                                      OIOOE
                                      0649E
                                      2254E
                                      8020E
                                    1.0955E
                                    8.4294C
                                    9.5229E
                                      1854E
                                      1723E
                                      B082E
                                      0046E
 1
 8
 9
 1
 8
 8.4571E
 7.0I34E
 6.6159E
 6.92IOF)
 7.I46IE
 7.2619E
 .7772E
 .3880E
 .87B7E
 .6848E
 . 3I81E
 .460IE
 .0812E
 6.3B69E'
 7.0279E-
 7.1699E-
 8.6819E-
 .2342E-
 .1914E-
 .0879E-
 .3384E-
 .2813C-
6.6521E-
9.8156E-
                                    6.
                                    6,
                                    6.
                                    6,
                                    6,
                                    6.
                                    9.
-05 (

 •05 (
 05 (
 •04 (
 05 (
-05 C
-04 (
-05 {
-05 (
-04 {
-05 {
-05 {
-05 (
-05 (
-05 (
-05 (
-05 (
-05 (
-05 (
•05 (
•05 (
•05 {
•05 {
•05 (
•05 (
•05 (
•05 (
•05 (
•04 (
•04 {
•04 (
05 (
05 f
05  (
05  t
 199
 164
 349
 156
  56
  39
  26
  57
   9
  62
  94
  79
  67
 185
 219
 186
 106
 180
 180
 181
 Ifll
 181
 181
 267
 267
 179
 73
 1H7
 187
 120
 261
 77
  6
 II?
200
200
 7.4512E-05
 6.2044E-05
 7.3650E-05
 9.5056E-05
 1.166IO04
 8.9094E-05
 9.8754005
 I.IR93E-04
 8.739BE-05
 I.1098E-04
 1.0657E-04
 9.I704C-05
 9.0624O05
 6.86546-05
 6.2702E-05
 6.43B5C-05
 6.6075E-05
 6.5841E-05
 6.178BE-05
 6.0233E-05
 6.8159O05
 6.50I8C-05
 6.3HOE-05
 6.8988E-05
 1.0I15O04
 6.4560E-05
 7.3344E-05
 6.7354E-05
 9.7402E-0-5
 1.2618E-04
 I .2585E-04
 1.0-570E-04
8.0592E-05
6.0927E-05
6.2373E-05
I .OOOiE-04
 ( 354 )
 ( 164 )
 ( 349 )
 ( 156 )
 (  56 )
 ( 332 )
 (  26 )
    57 )
     9 )
    62 )
    94 )
 ( 275 )
 t   67 )
 (  903 )
 (  220 )
 (  186 )
 (  186 )
 (  180 )
 (  180 )
 (  179 )
 (  218  )
 (  181  )
 (  267  )
 (  267  }
 C  267  )
 (  267  )
 f  73  )
 (  73  )
 (  177  )
 (  120  )
 ( 261  )
 f  77  )
 (   6  )
 ( 325  )
( 200  )
( 200  )
  3.7 KM

 8.249J005
 6.0790E-05
 7.2758E-05
 9.4B93005
 I.II55E-04
 9.3430005
 9.M2BE-05
 1.0R99E-04
 8.4871E-05
 1.I15IE-04
 1 .07B6E-04
 9.3117E-05
 8.7994E-05
 6.8931E-05
 6.3411E-05
 6.41IPE-OS
 5.9<»1BC-05
 5.9681E-05
 6.2648E-05
 5.8324E-05
 6.7705E-05
 6.7144005
 6.3870E-05
 6.8478E-05
 1.0002E-04
 6.3970E-05
 7.11S7E-05
 6.36B7E-05
 1.16I7E-04
 1.I879E-04
 1.I844E-04
 1.0749E-04
7.8836E-05
6.0904E-05
6.3967E-05
9,6060E-05
( 254 )
( 164 )
( 263
( 306
(  56
t 332
( 308
   57
    9
   62 )
   96 )
(  275 )
(   67 )
                                                           (   86  )
                                                           (   20  )
                                                           (  186  )
                                                           (  180  )
                                                           (  218  )
                                                           (  179  )
                                                           (  218
                                                           {  159
                                                           (  267
                                                           (  267
                                                           (  267
                                                           (  267
                                                           (  73
                                                           (  73
                                                           f  177
                                                           (  120
                                                           (  261
                                                           (  137
                                                           (   6
                                                           (  311
                                                           ( 201 )
                                                           ( 200 )
                                                                                                           5.2 KH
 8.4207E-05
 5.9277E-05
 7.0975E-05
 9.0875f>05
 9.6104E-05
 8.9408E-05
 9.4858E-05
 1.0IB4E-04
 8.4609E-05
 9.9324E-05
 9.9963E-05
 8.5528E-05
 7.8084E-05
 6.5361E-05
 6.6555E-05
 7.0057E-05
 6.1294E-05
 5.7849E-05
 6.3677E-05
 5.69I2E-05
 6.4063E-05
 6.B945E-05
 6.0745E-05
 6.3627E-05
 8.9310E-05
 6.02I8E-05
 6.4839E-05
 6.0955E-05
 1.2082E-04
 1.0119E-04
 I.0006C-04
9.7412E-05
7.I23IE-05
5.9526E-05
6.2734E-05
8.4933E-05
 ( 254
 ( 167
 ( 263
 t 306
 (  56
 ( 332
 ( 308
 (   7
 ( 124
 (  62
 (  96
 (  275
 (   67
 (  303
 (   86
 (   19
 (  218
 (  210
 (  218
 (  160
 (  218
 (  159
 (  267
 (  267  )
 (  267  )
 (  267  )
 (  73  )
 (  119  )
 (  177  )
 (  120  )
 ( 261  )
 (  137
 (   6
 ( 311
( 201
( 200
-------
    PEMN. ELKC. SEWARD
                                   NOM--S02

YEARLY MAXIMUM 3-HOUK CONC=  2.7193E-04  DIRECTION* 60.   DISTANCES  2.8 KM
               HIGHEST 3-HOUR CONCENTRATION AT EACH RECEPTOR
            *'2 KM                2.1 KM                 2.8 KM
                                                                             nA¥= 39.  HOIIRr 300.
                                                                               3.7 KM
                                                                                                     5.2  KN
f 1 t .7181E-04 ( 195
2 1.7494E-04 ( 238
3 2.1487E-04 ( 238
- 4 2.02S6E-04 < 205
5 2.49J3E-04 ( 237
6 2.3710E-04 ( 110
- 7 2.2424E-04 ( 154
8 2.0350F-04 ( 58
9 2.0334E-04 ( 183
, 10 2.0728E-04 ( 91
' 11 2.2906E-04 ( 97
12 2.0293E-04 ( 95 )
13 7.0579E-04 ( 303 )
14
15
16
' CO 17
•P» 18
to 19
( „„
»• 20
21
•( 11
23
24
25
< 26
27
.ftlUIK-04 ( 117 )
.9329E-04 ( 219 )
.78HE-04 ( 220 )
.7943E-04 ( 180 )
.639BE-04 180 )
.6501E-04 180 )
.5755E-04 218 )
.8196E-04 218 )
.1645E-04 218 )
.D417E-05 196 )
.0456E-04 ( 1JO J
.21B2E-04 ( 130 )
.3596E-04 { 130 )
.6997C-04 ( 187 )
; 28 2.4U4yt-04 ( 187 )
' 29 2.0440E-04 ( 187 )
30 2.0655E-04 ( 120 )
31 2.1542E-04 ( 258 )
1 32 2.2560E-04 ( 258 )
33 1.73B2E-04 ( 112 )
; 34 1.4646E-04 ( 112 }
' 35 1.7960P-04 ( 200 )
36 2.5914E-04 ( 201 )
.4577E-04 ( 204 ) 1.5241E-04 ( 254 ) 1.8769E-04 ( 254 ) 1.8970E-04 { 254 )
.3U6E-04 ( 113 ) 1.2754E-04 ( 113 ) I.3529E-04 ( 83 ) 1.3910E-04 205
.6421E-04 < 191 ) 1.820BE-04 I 312 ) 1.9690E-04 ( 312 ) 1.9264E-04 241
.7940E-04 ( 156 ) 1.9604E-04 ( 156 ) 1.B870E-04 ( 156 ) 1.9242C-04 114
.9100E-04 { 3 ) 2.4652E-04 ( 3 ) 2.6443E-04 ( 3 ) 2.3816E-04 3
.4955E-04 ( 39 ) 2.7193E-04 ( 39 ) 2.5394E-04 ( 39 ) 2.0941E-04 39
.834BE-04 ( 26 ) 2.0596E-04 ( 234 2.2030E-04 ( 309 ) 2.2508E-04 42
.9628E-04 t 93 )
.7705E-04 ( 9 )
.9587E-04 ( 93 )
.9384E-04 ( 93 )
.7852E-04 ( 79 )
.6327E-04 ( 67 )
.6774E-04 ( 185 )
.5B62E-04 ( 210 )
.4603E-04 ( 186 )
.5214E-04 ( 186 )
.3970E-04 ( 186 )
.3413E-04 ( 180 )
.3BBOE-04 ( 181 )
.6624E-04 ( 218 )
.0870E-04 ( 181 )
.2448E-04 ( 181 )
.2486E-04 ( 267 )
.7039E-04 ( 267 )
.36B6E-04 ( 179 )
.7005E-04 ( 73 )
.8050E-04 ( 73 )
.48B7E-04 ( 188 )
.90676-04 ( 19 I.9607E-04 ( 234 ) 1.8650E-04 234
.9247E-04 ( 9 2.0093E-04 ( 245 ) 2.0404E-04 42
.9415E-04 ( 94 1.96«9E-04 ( 256 ) 1.8565E-04 229
2.1760E-04 ( 81 2.3095E-04 ( 81 1 2.1056E-04 fit
.9436E-04 ( 126 )
.B003E-04 I 67 }
.4989E-04 { 185 )
.5292E-04 ( 210 )
.3005E-04 ( 186 )
.2742E-04 ( 186 )
.3083E-04 ( 210 )
.1275E-04 ( 182 )
.1718E-04
.4799E-04
. 1576K-04
.3577E-04
.4677E-04
.0062E-04
.474851-04
.8098E-04
.7699E-04
.5580E-04
.8629E-04 ( 120 ) 2.0542E-04
.0848E-04 243 ) 2.5155E-04
.9775E-04 244 ) 2.0906E-04
.7479E-04 6 ) 1.8901E-04
.5708E-04 325 ) 1.7386E-04
.4409.E-04 200 ) 1.3837E-04
.B014E-04 200 ) 2.1252E-04 (
181 )
218 )
128 )
267 )
267 )
267 )
267 )
73 )
73 )
177 )
120 )
243 )
261 )
6 )
325 )
200 )
200 ) 1
1.B454E-04 ( 126 )
.7273E-04 ( 284 )
.6380E-04 ( 302 )
.3278E-04 ( 210 )
.4599E-04 ( 20 )
.3196E-04 ( 218 )
.2400E-04 ( 210 )
.3040E-04 ( 218 )
.0756E-04 ( 179 )
.2791004 ( 218 )
,12'iOE-04 ( 128 )
.4545E-04 ( 267 )
.4702E-04 ( 267 )
.983BE-04 ( 267 )
.43B1E-04 ( 267 )
.7230E-04 ( 73 )
.5595E-04 ( 73 )
.7909E-04 ( 177 )
.9B18E-04 ( 120 1
.5968E-04 ( 243 )
.9900E-04 ( 261 }
.7672E-04 { 6 )
.7223E-04 (311 )
.2605E-04 ( 200 )
.1034E-04 ( 200 )
.730BE-04 98
.8092E-04 ( 206
.5701E-04 ( 302
.4433E-04 ( 20
.6006E-04 ( 20
.3714E-04 (218
.1104E-04 ( 92
.3642E-04 ( 218
.2027E-04 ( 219
.2045E-04 ( 73
.2960E-04 ( 217
.3515E-04 ( 218
.3389E-04 ( 266
.7325E-04 ( 267
.2464E-04 ( 267
.5358E-04 ( 87
.3226E-04 ( 119
.8428E-04 ( 177
.7503E-04 ( 137
.3086E-04 ( 243
.7603E-04 ( 258
.4389E-04 ( 6
.6120E-04 ( 311
.2404E-04 ( 201
.7762E-04 ( 200
-------
                                                           MAXIMUM DRILY CONCENTRATIONS
| if
k
if
c
DAY    24-HOUR CONCENTRATION    DIRECTION

120          1.261BE-04            30
261          1.75H5E-04            j|
177          1.2082E-04            29
 57          1.I893E-04             R
 56          1.166IC-04             5
 «2          t.HSie-04            10
 77          1.0079E-04            37
 96          1.07H6E-04            n
137          I.0749E-04            32
335          1.0727E-04             R
197          1.0707E-04            29
 94          1.0657E-04            ft
 14          |.05m-04             fl
  7          1.0514E-04             8
 37          1.0474E-04             fl
 26          I.0435R-04             n
103          1.0383E-04            12
IBS          i.0109004            29
267          I.0115E-04            25
200          l.OOOIE-04            16
OI6TANCK

  2.75
  2.75
  5.23
  2.75
  2.75
  3.65
  2.07
  3.65
  3.65
  2.75
  1.17
  2.75
  3.65
  3.65
  3.65
  2.75
  1.17
  1.17
  2.75
                                                                                              2.75
    CO
     I
    tn
    CD
-------
    PENN. ELEC. SEWARI)
    SOLVENT REFINED COAL STUDY
         OAT* MAXIMUM  LOAD
                                   SEHARD
03
STACK » I--SEWARO STACK 1 - MAXIMUM LOAD SRC-SO2
STACK « 2--SFWARD STACK 2 - MAXIMUM LOAD SRC-S02
STACK STRATEGY SO2 EMISSION RATE PART EMISSION RATE HEIGHT
TYPE (GMS/SFC) (GMS/SEC) (wf.TF.RS)
1 MOM 114.00 0.00 68.60
2 NOM 179.00 0.00 68.60
RANGE(KVD = 1.17 2.07 2.75 3.65 5.23
SEASONAL VARIATIONS BY CASE »
1 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00
J«R«75
ISTAH=
A4S =
TEMPs
AFV =
AFVH =
HLHt =

JYR=75
IS 1' A 8 ~
AHR =
TEMPs
AFV =
AFVR =
IMO =
7.6
273.
59.
59.
1800.
1800.
IMO =
7.6
260.
101.
101.
1 JDAY= 7
7.6 9.4 8.5 9.4 8.5 8.5
273. 273. 273. 273. 273. 273,.
71. 80. 83. 82. 84. 85.
71. 80. 83. 82. 84. 85.
1800. 1800. 1800. 1«00. 1800
1800. 1800. 1800. 1ROO. 1800
1 JDAY= 14
8.9 8.1 7.6 7.6 8.1 8.9
260. 259. 259. 259. 259. 258.
90. 88. 79. 84. 81. 75.
90. 88. 79. 84. 81. 75.

8.1
273.
83.
83.
. 1800
. 1800

10.3
258.
76.
76.

9.4 8

.9 8.9
273. 274. 274.
77.
77.
. 1800
. 1800

8.9 6
82. 83.
82. 83.
. 1800.
. 1800.

.7 6.7
258. 259. 259.
71.
71.
77. 80.
77. 80.

9.4
275.
89.
89.
1800.
1800.

8.5
259.
81.
81.

7.2
276.
86.
86.
1800.
1800.

8.5
259.
87.
87.
DIAMETER FXIT VELOCITY TEMP
(METERS) (M/SEC) (DEG.K)
2.40 31.30 449.00
3.00 32.70 414.00
1.00 1.00 1.00 1.00
•» *
4.0 4.0
277. 277.
82. 82.
82. 82.
1800.
1800.

8.5 8.1
260. 260.
84. 81.
84. 81 .

4.5
277.
71.
71.


3
8.1
260.
85.
85.
3
3.6
277.
38.
38.


3
7.6
260.
81 .
81.

5.4
276.
5.
5.


3
8.1
260.
85.
85.

6.3
276.
2.
2.


3
9.4
260.
84.
84.

8.1
277.
18.
18.


3
9.4
259.
80.
80.
VOLUMETRIC FLOW
CH**3/SEC)
141.60
231.14

8.1
277.
23.
23.


3
8.5
260.
75.
75.

6.3
277.
26.
26.


3
8.1
260.
73.
73.

6.3
277.
6.
6.


3
8.9
260.
72.
72.

6.3
277.
357.
357.


3
9.4
260.
70.
70.
    HLH1=  959.  959.   959.   959.   959.   959.  1013.  1067. 1121. 1175. 1228.  1282.
           1336.  1390.  1310.  1390.  1390.  1390.  1390.  1390. 1390. 1390. 1390.  1390.
    JYR=75  110=  1 JDAY=  26
ISTA8= 3333
HIS- 11.2 11.6 12.1 13.0
TEMP= 271. 271. 271. 271
AFV= 75. 72. 71. 65
AFVH= 75. 72. 71. 65
HLH1 = 566. S6h. 566.
788. H20. 820.
JYR=75 IMJ= 2 JOAY= 37
ISfAB= 3441
ANSs ft.l R.5 8.5 9.R
TEMP= 277. 272. 273. 274
AFV= 68. 67. 67. 73
AFVR= 68. 67. 67. 73
3
13.9
. 270.
. P2.
. 82.
566.
820.

l
11.2
. 274.
. 76.
. 76.
3
13.9
270.
77.
77.
566.
820.

3
1 1.2
274.
80.
80.
14.8
270.
76.
76.
566
820

3
10.3
273.
85.
85.
16.1 14.8 15.2
269. 269. 269
78. 73. 75
78. 73. 75
59H. 629.
. 820. 820.

333
9.4 10.3 10.7
273. 272. 271
92. H8. 88
92. 88. 88
15.6
. ?69.
. 80.
. BO.
661.
820.

3
10.7
. 271.
. 83.
. 83.
15.6
269.
78.
78.
6<»3.
820.

3
10.3
271.
8?.
82.
15.2
269.
86.
86.
725
820

3
10.3
271.
86.
86.
14.8 1
269.
85.
85.
. 756
. 820

3
8.5
271.
«7.
«7.
S.2
268.
88.
88.
•
•

3
8.1
271.
85.
85.
16.5 1
267.
88.
88.



3
7.6
271.
flfi.
88.
4.3
267.
91.
91.



3
6.7
271.
92.
92.
16.1
267
9?
92



3
7.2
271
91
91
4
13.9
. 267.
. 88.
. 88.



3
6.7
. 271.
. 93.
. 93.
4
13.0 1
267.
88.
88.



3
6.3
271.
92.
92.
3
3.9 1
267.
86.
86.



3
6.7
270.
86.
86.
i
3.0
266.
88.
88.



3
6.7
270.
85.
85.
J
12.5 1
266.
87.
87.



3
7.6
270.
91.
91.
3
1.6
266.
87.
87.



3
7.2
270.
97.
97.
    HLHls  1100.  1100.  1100.  1100. 1100. 1100. 1094. 1088. 1081. 1075.  1H69.  10*3.
           1056.  1050.  1050.  1050. 1050. 1050. 1050. 1050. 1050. 1050.  1050.  1050.
-------
     JYH=VH  110=  'I  JOAlfs  56
ISTABs 1 1
AHSs 1Q.7 8.5
TEMPs 271. 271.
AFVs 93.
AFVRs 93.
HLH1= 1700.
1061.
JYR = 75 IV|0=
ISTABs 3
81.
83.
1700
970
3 1
7.7 7.7
270. 270
65. 51
65. 51
. 1700.
. 970.
8.9
. 270.
. 54.
. 54.
1700.
970.
10.7 10.7 9.8 12
270.
61.
61.
1700.
970.-
.5 13.4 15.7
770. 770. 770. 770. 770.
58.
5B.
1700.
970.
51.
51.
1609.
970.
56. S3. 69.
56. 53. 69.
1518. 1476.
970. 970.
15.7 13.0 11.4 16.3 16.1 16.5 16.5 18.3 18.3 16.1 17.9 70.1 19.7
770.
55.
53*
1335.
970.
271. 271. 771. 771. 771. 271. 272. 271.
52.
52.
1244.
970.
2 JDAYs 57
50. 57. 54. 58. 59. 59. 66.
50. 57. 54. 58. 59. 39. 66.
1153.
970.

271. 772. 272. 273
72. 76. 81. 83
77. 76. 81. 83



     »HS=  19.2  17.4  17.9  16.1  15.2  15.7  13.9  13.9  14.3  16.1  16.5  16.1  15.6  17.0  16.5  15.6  14.3  13.9  13.0  12.5  13.4 13.4 12.1  11.6
     TEMP =  272.  271.  271.  271.  271.  271.  270.  270.  270. 271. 272.  273.  274.  274.  275.  275.  274.  274.  274.  273.  273.  273.  272.  272.
     AFV =    82.   85.   82.   80.   77.   77.   71.   68.   72.  75.  75i   77.   83.   88.   86.   86.   91.   89.   B7.   84.   87.   87.   87.   87.
     AFVRr   82.   85.   82.   80.   77.   77.   71.   6«.   72.  75.  75.   77.   83.   88.   86.   86.   91.   89.   87.   «4.   87.   87.   87.   87.
     HLH1 =  2000.  2000.  2000.  2000.  2000.  2000.  1968.  1935. 1901.  1870.  1838.  1805.
           1773.  1740.  1740.  1740.  1740.  1740.  1740.  1740. 1740.  1740.  1740.  1740.
     JYR=75  IIOs  3  JDATs  62
     ISTAB=   3333
     AHS =  9.8  9.4   9.5   8.9
                            333
                          8.9  9.8 10.3
                                           33213333333333333
                                         9.4  9.4   9.8  10.3  10.7  11.6 11.6 12.1 10.3 10.3 11.2 12.1 10.7 12.5 12.1 10.3  9.8
TEMPs 263.  263.  762.  262. 263. 262. 262. 762.  262.  263.  264.  264.  265.  265. 264. 264.  265.  264. 264. 264. 264. 263. 263. 7.63.
AFVs  118.  118.  122.  105. 108. 106. 109. 101.  107.  110.  106.  107.  106.  101. 115. il2.  109.  114. 120. 115. 108. 115. 106. 103.
AFVRs 118.  118.  122.  105. 108. 106. 109. 101.  107.  110.  106.  107*  106.  101. 115. 112.  109.  114. 120. 115. 108. 115. 106. 103.
HLHls 1050.  1050.  1050. 1050. 1050. 1050.  1174.  1798.  1421.  1545.  1669.  1793.
      1916.  7040.  2040. 2040. 2040. 2040.  2040.  2040.  2040.  20404  2040.  2040.
CD
I
tn
ro
JYR=75 IMOs 1 JDAYs 77
IST*B=  433333333211111233333333
AWS =  9.4 10.3  8.9 11.2 13.9 12.5 15.2 14.3 12.5 13.4  15.6  13.0 l2»i  13.0 13.4 11.2 14.8 14.3 !7»0 18.3 13.9 13.0 13.0 13.4
TEMP* 777. 277. 776. 276. 273. 275. 275. 275.  275.  276.  ?774  279.  279.  280. 280. 281.  280.  278.  277. 276. 276. 275. 275. 276.
AF» =  312. 310. 245. 331. 378. 325. 376. 326.  328.  324.  323.  Jlfl.  321.  318. 324. 323.  327.  ,328.  324. 323. 320. 370. 318. 313.
AFVR = 312. 310. 245. 331. 328. 325. 376. 376.  328.  324k  323.  318.  321.  318. 324. 323.  327.  328.  324. 375. 370. 320. 318. 313.
HLH1=  100.  100.  100.  100.  100.  100.   750.   400.   550.   700.   850.  1000.
      1150. 1300. 1300. 1300. 1300. 1300.  1300.  1300.  1300.  1300.  1300.  1300.
     JYR=75  IHO=  4 JOAYs 94
     ISTABs   333333333333313333333333
     A«S =  15.6  18.8  17.0 17.9  17.9  17.0  15.6  14.8  15.6 11.7 13.0 10.3 it.6  11.7  13.0  17.1  12.1 11.6  11.2  11.2  10.7  10.7  11.2  11.2
     TE«P = 266. 266.  765.  265.  765.  265.  265.  264. 765. 265. 266. 766. 268. 269.  270. 770. 769. 268. 766. 266.  266.  266.  265.  265.
     AfV=  115. 115.  110.  108.  107.  112.  107.  101. 104. 104. 109. 111. 110. 110.  10B. 1|9. 122. 126. 133. 128.  123.  116.  113.  121.
     AFVRs 115. 115.  110.  108.  107.  112.  107.  101. 104. 104. 109. 111. 110. 110.  108. 119. 127. 126. 133. 128.  123.  116.  113.  121.
     HLHls 1000.  1000.  1000. 1000.  1000.  1000.  1106. 1213. 1319. 1475. 1531. 1638.
          1744.  1850.  1850. 1850.  1850.  1850.  1850. 1850. 1850. 1850. 1850. 1850.
    JYR
           I MO* 4 JOAY= 96
ISTABs 3
AMS= 6.1
TEMPs 266.
AFVs 120.
AFVPs 120.
3
R.I
267.
109.
109.
3
8.1
267.
113.
111.
3
7.2
266.
115.
115.
3
8.1
266.
111.
III.
3
8.1
267.
110.
110.
3
8.3
267.
11R.
118.
3
9.4
267.
117.
117.
2
•».8
268.
117.
112.
1
9.4
269t
117.
117.
1
9.B
270.
115.
1 15.
1 I
9.4 9.8
271. 771
118. 115
118. 115
                                                                             1     it    7    7    3    3
                                                                           11.2 10.3 11.7 t1.6 10.7  8.9  9.8
                                                                           772. 277. 272. 271. 271. 270. 769.
                                                                                                            3333
                                                                                                          9.8  8.9  7.6  6.3
                                                                                                          768.  268.  767.  266.
                                                                                     117. 116. 118. 171. 172. 118. 113.  118. 120.
           336.  336.  336.  336.   136.  336.  444.  5-52.  660.  7fifl,  876.  984.
          1092. 1700.  1200.  1200.  1200.  1700. 120(1. 1700. 1700. 1700. 1700. 1200.
-------
s 4 JU«I=1UJ
   444
 J.I  3.1  2.7
                            44
                          2.2  1.8
                                              4
                                            1.0
  32
1.3  2.7
  1111
3.6  4.5  5.4  6.3
J»M=;-> i,»
ISfA6=  4
AWS=  3.6
TF.MP= 270. 270. 270. 270. 270. 270. 271
AFV=  190. 126. 122. 106.  91.  91.  77
AFVR= 190. 126. 122. J06.  91.  91.  77.  77. 101. 128. 121. 126^ 174. 124^  127
HLH1=  778.  778.  778.  778.  77».  77H. 1029. 1279. 1529. 1779. 2029. 2280.
      2530. 2780. 27BO. 2780. 2780. 2780. 2780. 2780. 2780. 2780. 2780. 2780.
                                         771. 272. 273. 275. 276. 277.
                                          77. 101. 128. 121. 126. 124.
  1
6.3
277.
124.
  11
6.3  6.7
                                                                                    277.
                                                                                    127.
       I
     6.7
277. 277.
124. 129.
124. 129.
  13    4    4    4     4     4
5.4  4.9  4.0  4.0  3.6   3.6   3.6
276. J75. 274. 274. 272.  272.  272.
132. 128. 129. 132. 140.  153.  167.
132. 128. 129. 132. 140.  153.  167.
   CO
   I
   CJ1
("  00
JYR=75 IMOs 4 JDAY=120
ISTAR=  3333333221111111123
AWS =  9.4  9.8 10.3  9.« 10.7  9.8 10.3 11.2 11.2 10.7 10.3 11.2 11.2  9.4  11.6  11.6  11.2  10.7  10.3
           280. 281. 781. 280. 280. 281.  281. 282. 284. 284. 2BS. 284. 285. 2«4.  284.  284.  283.  282.
           311. 311. 308. 305. 304. 306.  307. 302. 303. 103. 305. 305. 309. 295.  309.  310.  307.  308.
        T£MP =  280
        AFV =   310
                                                                                             .          .     .
        AFVRs  310.  311.  311.  308.  305.  304.  306.  307.  302. 303. 303. 305. 305. 309. 295. 309.  310.  307.  308.
        HLH1=   600.   600.   600.   600.   600.   600.   600.   720.  840.  950. 1060. 1170.
              1280.  1390.  1500.  1500.  1500.  1500.  1500.  1500. 1500. 1500. 1500. 1500.
               IMO=  5 jnAY=137
                                                                                              33333
                                                                                            9.4   9.8  11.2 12.1  12.5
                                                                                            282.  282.  282.  282.  282,
                                                                                            303.  308.  309.  305.  308.
                                                                                            303.  308.  309.  305.  308.

A*S = 6.3 6.7 10.3 8.5 6.3
TEMP= 285. 285. 284. 284. 285.
AF»= 275. 278. 274. 281. 290.
AFVR= 275. 278. 274. 281. 290.
HLH1 = 100. 100. 100. 100.
1036. 1170. 1170. 1170.
JYR=7S 1MO= 6 JDAY=177
AHS= 5.8 4.9 4.5 4.0 4.9
TEMP= 291. 291. 291. 291. 291.
KFVs 290. 299. 294. 291. 286.
AF¥H= 290. 299. 294. 291. 286.
HLH1 = 100. 100. 100. 100.
721. 810. 810. 810.
JYf» = 75 IMOa 7 JOAYsl87
AWS= 3.6 3.6 3.1 3.1 3.1
TEMP= 293. 292. 292. 291. 291.
AFV= 300. 328. 322. 309. 291.
AFVR= 300. 328. 322. 309. 291.
HLH1 = 389. 389. 389. 389.
1667. 1850. 1850. 1850.
JYR=75 IMO= 7 JDAY=188
A«S= 4.5 3.6 4.0 2.2 2.2
TEMP = 292. 291. 291. 290. 290.
AFV= 310. 302. 291. 306. 302.
AFVRr 310. 302. 291. 306. 302.
HUH1= 450. 450. 450. 450.

5.8
284.
293.
293.
100.
1170.

5.4
291.
290.
290.
100.
810.

3.1
291.
299.
299.
389.
1850.

4.0
289.
319.
M9.
450.
- _ _
6.7 7.2 5.8 6.3 6.7
285. 286. 287. 289. 290.
298. 306. 304. 305. 300.
298. 306. 304. 305. 300.
100. 234. 368. 501.
1170. 11704 1170. 1170.

5.4 6.7 5.8 5.4 4.9
290. 290. 290. 291. 290.
292. 296. 299. 296. 293.
292. 296. 299. 296. 293.
100. 189. 278. 366.
810. 810. 810. 810.

29J. 292. 294. 295. 296.
331. 319. 319. 796. 284.
331. 319. 319. 296. 284.
389. 571. 754. 937.
1850. 1850. 1850. 1850.

5.8 4.0 3.6 2.7 2.7
290. 291 . 292. 294. 296,
328. 328. 293. 302. 316.
328. 328. 293. 302. 316.
450. 556. 663. 769.

7.6
291.
318.
318.
635.
1170.

5.8
290.
292.
292.
455.
810.
1
297.
287.
287.
1119.
1850.

4.5
296.
300.
300.
875.

8.1
291.
319.
319.
769
1170

6.7
290.
295.
295.
544
810
1
298.
284.
284.
1302
1850

5.8
296.
300.
300.
981,

7.6 8.1
291. 291.
326. 324.
326. 324.
. 903.
. 1170.

5.4 5.4
290. 291.
298. 294.
298. 294.
. 633.
. 810.
1 1
298. 299.
290. 291.
290. 791.
. 1485.
. 1S50.
It
1
4.9 4.9
29fi. 296.
291. 297.
291. 297.
. 1088.

8.1
290.
324.
324.



5.8
292.
293.
293.


1
299.
308.
308.



1
5.B
295.
310.
310.


9.8
289.
323.
323.



5.8
291.
292.
292.


1
299.
310.
310.



1
4.9
294.
302.
302.


8.9
289.
324.
324.



4.9
290.
289.
289.


1
297.
301.
301.



1
4.9
294.
289.
209.


8.5
288.
324.
324.



5.8
289.
286.
286.


1
2961.
290.
290.



1
4.5
294.
290.
790.


8.1
287.
318.
318.



6.7
290.
291 .
291.



295.
294.
294.



4.0
293.
296.
296.


8.5
287.
321.
321.



7.2
289.
293.
293.



294.
293.
293.



3.1
292.
298.
298.


9.4
286.
324.
324.



7.6
289.
296.
296.



294.
298.
298.



4.0
291 .
288.
288.


3
9.8
286.
327.
327.



7.2
289.
299.
299.



293.
299.
299.



4.9
291 .
293.
293.


3
9.4
286.
327.
327.



4.9
289.
297.
297.



292.
300.
300.



4 . 0
289.
300.
300.

                                                                                    .
             1194. 1300. 1300. 1300. 13OO. 1300. 1300.  1300.  J300.  1300.  1300.  1300.
-------
w-a
m
a
33
09
m
o
O

K)
O
*
O
9
«
Cn






















































Si > V -3 » •- c.
C" T "«! ?3 * W ^
X < < 3 W -i »
•— 3 II -^ II > II
U II II o> -J
— II Jl
••» •» Kl Jk
CK a a a <*j • H-
Ul G • • • O
Kl * —

O O • • • C.
03 — o
• • Kl Kl «i
x a -J • •<
CK a • • • ui
o a ••* ^
o o to K) m
• • 43 *) W •
k» •— KJ Ul Ul
CK a —
O O Kl Ul
a a a jo *4 •
• • V0 4J » Kl K>
c*. a K) 4k
o o CD a -w.
o o CK CK o a ui
— •» Kl K)
CK a co a CK •
o o ui ui \a •— ui
o o • • •

10 K)
_ .» OD a CK •
CK ^ O 3 -0 Ul u*
O ^4 • • •
O Ul —
• » to u*
CD a CK •

O Ul —
O O Kl Ul
• • a a CK •
CK CK O> >O Ul
BK -U —
O Kl Kl 01
o ui CD a CK •
• •- — — a 10 10
•• » •
o o a a CK .
O O 4k 4k t0 *O Kl
-— K»Z
CK CK to to a* •
O ~J (^ b^ VO CK Kl
O Ul • • •
• • M*
Kl Ul
•• «-. co a CK •
CK C* IO Kl '43 4fc Kl
0 U> . . .
O O —
• • Kl O
09 QD **J *
— — 3 -J 10
» • •
Kl 4}
2SS-«
Kl VO
CD a CK •
• • •
Kl -4
CD a CK •
• . .
Kl -4
a co a •
CD a a •
w m ui CK ui
• • •
Kl CD
Qo a a •
a a u* vo 4k
Kl CK
Kl Kl Ul -4 *
• • •
KI m
CD a a •
ui ui ui at »
• • •
Kl 4k
09 op CD •
•» »» ui •a *
x > > -j » t-i <_
C- •*! •»! 7! X 3> «
= < < X W -i X
— 33 II -O II » II
II II II S ^1
II Jl
» Kl IO K) vd
ui »v « A a • —
ui o • • • a
Kl Kl Kl 3

— A IO Kl Kl -1 Ul
CK O • • • CM
3 O — O
• • Kl Kl Kl » X>
ui ui a • <<
"••••• Kl
CK O » CK
O 3 Kl IO Kl Ul *-J
• • ji ui a •
a a KI * ui
— 4k
CK O M Kl IO JJ
o o CK CK a •
• • ui ui •» a MI
» A Kl Kl Kl a
OK o ui ui a *
O 3 S 3> W >- w
» K> Kl Kl a
— * ui ui a •
CK 3 m Ul *-> \o Ul
o o • • •
• • M*
Kl Kl Kl 3

"» *O 3K CK Kl W U>

O Ul —
• • KI KI 10 a
ui ut a •
•^ o a KI ui ui
•* o • • •
O O Kl Kl Kl O
• • Ji ui a •
O O Kl Ul Ul
— -a —
91 Ul Kl IO Kl 3
o Ji ui ui a •
• • a a KI -w ui
"•> -J KI Kl Kl M3
OK a wi ui a •
3 o m m KI * ui
10 10 to a
» CK ui m a •
CK KI a a KI  Kl 3
A 4k TO •
-J W (0 -4 Ul
•O Kl Kl a
ui ui a •
3 o to w ui
K> M Kl «
ui ui a •
ui ui KI a ui
• t «
(0 Kl Kl O
ui ui a •
IO Kl Nl VO
ui ui a •
a a ui a ui
• a •
Kl IO IO •—
CK CK a •
»••
•o M KI a
CK CK a •
CK CK Ul Ul Ul
IO K> Kl 3
JK CK a •

KJ IO Kl O
-j *a a »
M IO Ul Ul W
XWJ.-iJ.wt,
e* ~^ "t fi x (ji K
X « •« X Ul -4 39
•- 33 II T> II » II
II II II 9 *J
II Ul
ui ui  >- » CC • — '
to o • • • 3
• • II
W Ul Kl 10

Ul CK Kl Kl CK a Jfc
w a • • • c,
o a — o
• • Ul Ul Kl O J»
-» -• a • •<
w^TTr1"1 * £
•03 o»

• • *• *«• a •
* * SK a .»,
Ml CK —
•w 3 w w KI a
3 o -» •- a •
• • Ul Ul 9 ^ Ul
Ul CK Ul Ul Kl -•
-J O — -• J5 •
a 3 ui m CK 10 A
W W Kl Kl
Ul CK Kl IO » •
-i a 3 a o ui A
o a • • •

Ul Ul IO Kl
M» M* a •
Ul Ul — •» CK Ul 4b
W «J • t •
a — —
• « U* W OJ NJ
-» — 00 •
*W U1 C?V »» W
^ Ul • • *
**!-&. M.
O U4 W U* IO *•

— — W ON w
W Ul —
•*J — -a u* NJ Jk
O -a, — — 33 .
• • O O Oh w ui
U Jfc W W tO A
•W JD »* — 3J t
•3 ill (Jl UI 3^ w U*
U* W IO Ul
w A *- — a> .
**J tfl W U» 0^ Kl W
O €^ • • •
W W M W
•*J It) • * t
3 09 ••
• « W M< KJ W
— — 30 •
brf W 0^ iO --»*
* • •
U« Urf Nl W
—.•*.«),
* * W  hJ O> •
U* W -^ IO W
W W IO ••»
M N) JO •
* * w o* <*
W U* IO O
NJ N) 33 •
•- — ^J *j U*
Ul W IO «
W W QD •
O O ^J A. A
X 3- > -^ 3» — C.
r* T ""n c1. x yi ^
X < « X Cn -* X
»* 3D M TMI » H
II II II J —
II U"
•* ** W U* N> C^
* — Jl LH %O • •—
O*1 C • • • ^
• • II
N) CD

(Jt — O O NJ vfi *.»>
w o • « • c_
O 0 C
• • KJ OD >
S0 * •<.
*• -» O O KJ ^O * H
4J1 M> • . . fsj
WO C
O O K9 -D C

o o x; * A.
m -»
Ul O »O 4
O 3 -O •
• - O O tO 03 -fe
1* — (0 O
MI O «0 *
3 O O O IO Ml U»
•"• •— IO O
(->*••* \o •
Ul O O O W >-u Ul
O O t . .

JO \O

'-« -* O O A- A M»

O Jfc
• » NJ «O
« •
— — O O * A w
Ul N> * * •
Ul O
OX NJ -O

O O * A #0
«• •• . * •
'J» NJ
ui a* FO x
• • o o c* — —
U» Ul IO 33
0 J» 0 0 W 0 -»
•* t— Kl X
Ul Ul \O .
u* > o o w *- —
O ^ • i •
to x
ijl -A O 3 >O 49 (0
W *sJ • » •
O Ul
• • NJ «O
^o •
O 0 -0 A SJ

Ul M! (O X
•Jl LH O •
O O vO MO *J
U* M IO OD
tn ui -o •
O O sO vO -•
to -J
« *
O O X ^ ui
...

A * 0 u>
a 3 -j w ui
• « •
10 CK
^ •
a o *o *4 ui
KI a
S0 •
o o ui — A
KI a
3 0 » « *
Kl «
0 0 CK 
-------
PKNN. F.LEC. SEWARD


                                NOM--S02

   MAXIMUM MEAN CONC=   6.9523E-05  DIRECTIONS   8   OISTANCEr  2.B KM
f

f


f


f


if


1


( DO
1
tn
en
(


f


^


i









OIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
                ANMIJAl, MEAN CONCENTRATION AT EACH  RECEPTOR
 HANGE    1.2 KM          2.1 KM         2.8 KM          3.7 KM
                                                                         5.2  KM
.63042E-05
,52tn3E-05
.50435E-ns
.50576E-05
.65270E-05
.60287"!:-05
4.96005E-05
5.41B38E-05 (
4.8fl*>16E-05
5.03154F-05
5.26456E-OS '
5.09190E-05 '
4.80596E-05
4.60647E-05
4.52306E-05
4.50294E-05
4.50021E-05
4.50001E-05
4.50000E-05
4.500006-05
4.50000E-05
4.50D46E-05
4.51 362E-05
4.52489E-05
4.56710F-05
4.57752E-05
4.7I054E-05
5.0245JF.-05 ^
5.43b6BF>0'5 •
5.h04H5E-05 5
5.4fil64E-05 !
5.14146t-05 «
4.66095E-05 <
4.5BJ43E-05 t
4.6B695E-05 <
4.785B7E-05 i
4.55996F.-05
I.51001E-05
(.50154E-05
t.5061?E-05
I.93R08E-05
I.72466E-05
J.456BJE-05
5.60380E-05
I.97924E-05
5.291 24E-05
5.48026E-05
5.03966E-05
.67633E-05
.54661E-05
.508B4E-05
.50095E-05
.50005E-05
.50000E-05
.50000E-05
.50000E-05
.50000E-05
.50107E-05
.57891E-05
.61743E-05
.78392E-05
.62947E-05
.62349E-05
1.80491E-05
(.25209E-05
>.41151E-05
•.50073E-05
..45914E-05
.57433F-05
.57600E-05
.61917E-05
.79561E-05
4.51714E-05
4.50560E-05
4.50278E-05
4.50381E-05
4.9H131E-05
4.74669E-05
5.56393E-05
6.95233E-05
5.02467E-05
5. 35647F.-05
5.54626E-05
5.02828F.-05
4.62898E-05
4.52806E-05
4.50498E-05
4.50049E-05
4.50002F-05
4.50000E-05
4.50000E-05
4.50000E-05
4.50000E-05
4.50080E-05
4.60366E-05
4.64194E-05
4.B4272E-05
4.64101E-05
4.59122E-05
4.72679F-05
5.26900F.-05
5.31994F-05
5.43342E-05
5.51073F.-05
4.54523E-05
4.5B475F-05
4.59575F-05
4.80361E-05
.52207E-05
.50309E-05
.5081 tE-05
.50188E-05
.94433E-05
.73152E-05
5.51261E-05
6.91 183F-05
5.01294E-05
5.30045E-05
5.48195E-05
4.98569E-05
4.59165E-05
4.51635E-05
4.50271F.-05
4.50024E-05
4.50001E-05
4.50000F-05
4.50000E-05
4.50000E-05
4.50000E-05
4.50044E-05
4.606B8E-05
4.63758E-0>>
4.8330BE-05
4.63073F-05
4.56564E-05
4.67574E-05
5.28B24E-05
5.19805E-05
5.29175E-05
5.43109E-05
4.526I7E-05
4.58476F.-05
4.57424F-05
4.78044E-05
4.511 10E-05
4.50147E-05
4.51B22E-05
4.S0058F-05
4.8393'iK-n5
4.6H107E-05
5.30564C-05
6.46850E-05
4.92307E-05
5. 12356E-05
5.27728E-05
4.89340E-05
4.55692E-05
4.50802E-05
4.50122F-05
4.50010E-05
4.50000E-05
4.50000E-05
4.50000E-05
4.50000F-05
4.50000E-05
4.50014F.-05
4.5BB56E-05
4.60B87E-05
4.766B3E-05
4.60222E-05
4.54247E-05
4.63002E-05
5.225B7E-05
5.02000i::-05
5.0B105F-05
5.22604E-05
4.5131 4E-05
4.57080E-05
4.55072E-05
4.71827E-05
-------
    PENH. EtjEC. SEWARf)







                                    NOM--S02




IEARLY MAXIMUM 24-HOUR CONC*   1.43BBE-04  DIRECTIONS 80.  DISTANCE*   2.1  KM  DAY = 57.
v HIGHEST 24-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE 1.2 KM 2.1 KM 2.8 KM 3.7 KM 5.2 KM
OIR
1 7.1082E-05 ( 200
2 5.0fi6-5e-05 ( 200
3 4.5870E-05 ( 200
4 4.6068E-05 ( 56
5 7.5098E-05 ( 56
6 5.4045E-05 ( 56
7 7.6679E-05
8 1.070BE-04
9 7.3536E-05
10 9.1926E-05
tl 1.0967E-04
12 1.1154E-04
13 9.415SE-05
14 6.4S30E-05
15 4.9455E-05
16 4.5581E-05
17 4.5043E-05
18 4.5001E-05
{ f 19 4.5000E-05
in 20 4.SOOOE-05
°* 2t 4.5000E-05
22 4.5092E-05
23 4.7718E-05
24 4.9828E-05
i 25 5.6672E-05
26 5.2411E-05
27 6.9601E-05
1 2B 9.6625E-05
29 I.I356E-04
30 1.2066E-04
* 31 8.6783E-05
32 1.0S63E-04
33 6.4074E-05
1 34 S.5961E-05
35 8.1635E-05
36 1.0211E-04
57
335
335
96
96
103
103
103
103
103
103
103
7
7
267
267
267
267
267
187
187
187
187
120
120
77
77
200
200
200
3.6991E-05 ( 200
.7001E-05 ( 200
.5259E-05 ( 200
.6205E-05 ( 56
.3231E-04
6.8799E-05
.0623E-04
.4389E-04
6.9573E-05
.1315E-04
.OB48E-04
8.2129E-05
7.0167E-05
5.3736E-05
4.6732E-05
4.5tflBE-05
4.5011E-05
4.5000E-05
4.5000E-05
4.5000E-05
4.5000E-05
4.5214E-05
6.0780E-05
6.8443E-05
I.0115E-04
6.61B7E-OS
5.7199E-05
7.4151E-05
9.0941E-05
1.3438E-04
1.2956E-04
1.2532E-04
5.3242E-05
3.9J39E-05
6.B621E-05
1.04HE-04
56
56
26
57
335
62
94
103
103
103
103
103
103
103
7
7
7
267
267
267
267
267
187
187
1B7
120
261
77
77
200
200
200
5.2428E-05 ( 200 ) 4.94I5E-05 ( 200
4.6117E-05 ( 200 ) 4.56I2E-05 ( 200
4.5422E-05 { 7 ) 4.6553E-05 ( 7
4.5751E-05
1.4107C-04
7.1554C-05
1.0997E-04
1.4375E-04
7»922flE-05
1 .2875E-04
1.1523C-04
8.045SC-05
6.1233E-05
5.0294E-05
4.5979E-05
4.5097E-05
4.5005E-05
4.5000E-05
4.5000E*05
4.5000E-05
4.5000C-05
4.5I61E-OS
6.5732C-05
7.3U7C-05
1.1J20E-04
7.0439E-'05
5.2654E*05
6.4242C-05
1.1264E-04
i.3700E*04
1.3647C-04
I.2103E-04
4.9944E-05
6.08691^05
6.4044E-05
1.0572E-04
56 ) 4.5365E-05 ( 56
56 ) 1.3377E-04 ( 56
56 ) 7.0236E-05 ( 56
36 ) I.0353E-04 ( 14
57 ) 1.3334E-04 ( 335
37 ) B.B339E-05 { 37
62 ) 1.2B70E-04 ( 62
96 ) 1.1637E-04 ( 96
94 ) 7.0967E-05 ( 94
103 ) 5.50R1E-05 ( 103
103 ) 4.8I04E-05 ( 103
103 ) 4.5535E-05 ( 103
103 ) 4.504PE-05 ( 103
103 ) 4.5002E-05 ( 103
4.7220E-05 ( 200 )
4.52B8E-05 ( 200
4.B6I6E-05
4.5109E-05
I.12B4E-04
6.4986E-05
9.73B2E-05
1*I410E-04
8.7459F.-05
I.1290E-04
1.06B9E-04
7.2535E-05
5.0356E-05
4.6529E-05
4.5241E-05
4.5019E-05
4.5001E-05
103 ) 4.5000E-05 ( 103 ) 4.5000E-05
7 ) 4.5000E-05 ( 7 ) 4.5000E-05
7 ) 4.5000E-05 ( 7 ) 4.5000E-05
7 ) 4.5000E-05 ( 7 } 4.5000E-05
267 ) 4.5088E-05 ( 267 ) 4.5028E-05
267 ) 6.6375E-05 ( 267
267 ) 7.2508E-05 ( 267
267 1 1.1144E-04 ( 267
267 ) 6.9VME-05 { 267
187 ) 5.0943E-05 ( 267
187 ) 5.7201E-05 ( 177
117 J .3561E-04 { 177
120 ) .2B18E-04 ( 120
261 ) .2765E-04 ( 261
77 ) .2057E-04 ( 137
77 ) .7888E-05 ( 77
200 ) 6.1356C>05 ( 200
200 ) 5.9794E-05 ( 200
200 ) 1.0I09E-04 ( 200
6.2711E-05
6.6771E-05
9.8291E-05
6.4677E-05
4.9743E-05
5.8421E-05
.4037E-04
.OB05E-04
.0671E-04
.0795E-04
.6517C-05
3. 8861005
5.5020E-05
7
56
56
56
14
37
37
62
96
96
94
103
103
103
103
103
7
7
7
267
267
267 )
267 )
267 )
267 )
177
177
120
261
137
77
200
200
8.R652E-05 ( 200
-------
    PENN. ELPC. SEWARD

                                   NOM--S02
YEARLY MAXIMUM 3-HOUR CONC»  2.S322E-04  DIRECTIONS  0.   DISTANCE*  1.2 KM  DA»s200.  HO»R=1500.
HIGHEST 3-HOUR
' RANGE 1.2 KM
OIR
CONCENTRATION AT EACH RECEPTOR
2.1 KM

1 1.4853E-04 ( 200 ) 9.2763E-05
' 2 8.238BE-05 ( 200 ) 5.8498E-05
3 5.1847E-05
4 4.7990E-05
' 5 1.2847E-04
6 7.7656E-05
7 1.5529K-04
' 8 2.0746E-04
9 1.69B6E-04
10 1.8309004
' 11 2.2101E-04
12 2.1599FI-04
13 1.7841E-04
14 1.1342E-04
15 6.4839E-05
16 4.81816-05
< 17 .5274E-05
CO 18 .S012E-05
' 19 .5000E-05
< ^ 20 .5000E-05
21 .5000E-05
22 .S477E-05
1 23 5.8897E-05
24 6.1543E-05
25 7.2767E-05
( 26 9.4609E-05
27 1.8237F>04
28 2.3790E-04
' 29 2.2064E-04
30 2.2&57E-04
31 2.321BE-04
32 I.7313C-04
33 1. 07596-04
34 8.4447E-05
35 1.9265E-04
200 ) 4.7057C-05
56 ) 4.7J97C-05
56 ) 2.1809E-04
56 ) 1
.0439E-04
57 ) 2.1530E-04
335 ) 2.1854E-04
335 ) 1.5S53E-04
62 ) 2.1002E-04
96 ) 2.1362E-04
103 )
103 ) 1
.4432E-04
.1173E-04
103 ) 7.531BE-05
103 ) 5.2978E-05
103 ) 4.6085E-05
103 )
103 )
335 )
335 )
267 1
267 )
267 )
267 )
267 )
187 )
187 )
187 )
187 )
.50736-05
.5002E-05
.5000E-05
.5000E-05
.5000E-05
.5981E-05
.1652E-04
.3714E-04
.8936E-04
.6325E-04
.1557E-04
.4773E-04
.5896E-04
120 ) 2.0667F-04
137 ) 2.2621E-04
77 ) 2.2065E-04
77 ) 7.1059E-05
200 ) 1
200 ) 1
36 2.5322c>04 ( 200 ) I
.1725E-04
.5432E-04
.9617E-04
2.8 KM 3.7 KM 5.2 KM

200 ) 7.4533E-05 ( 200 ) 6.2644E-05 ( 200
200 ) 5.2718E-05
200 ) 4.8377E-05
56 ) 4.6359E-05
56 ) 2.1852E-04
56 )
L.0402E-04
57 ) 2.1769E-04
57 ) 2.2190E-04
26
L.8066E-04
94 2.1348E-04
94 2.1139E-04
103
103
103
103
103
103
103 )
335 )
335 )
335 )
267 >
267 )
267 )
.5918E-04
.0137E-04
.358BE-05
.96296-05
200 ) 4.9341E-05 ( 200
7
56
56
26
57
335
56
94
94
94
94
103
103
.5574E-05 ( 103
.5034E-05 ( 103
.5001E-05 ( 103
.5000E-05 ( 335
5.7427E-05 ( 7
4.5673E-05 ( 56
2.0842F-04 ( 56
1.0042E-04 ( 56
2.0836E-04 ( 26
2.1204E-04 ( 7
7.0069E-04 ( 56
2.0507E-04 ( 62
2.0775E-04 ( 94
1.5956E-04 ( 96
9.9431E-05 ( 94
5.6099E-05 { 103
.7608E-05 ( 103
.5294E-05 { 103
.5015E-05 { 103
5.3919E-05
4.7113E-05
7.3925E-05
4.320BE-05
1.7436E-04
9.3994E-05











.5000E-05 ( 103 )
.5000E-05 '( 335 )
.5000E-05 ( 335 ) .5000F-05 ( 335 )
.5000E-05 ( 335 ) .5000E-05 ( 335 )
.5812E-05 ( 267 ) .5468F-05 ( 267 )
.4915E-04 ( 267 ) .5904E-04 ( 267
.6096E-04 ( 267 ) 1.6032E-04 ( 267
267 ) 2.2204E-04 { 267 ) 2.1H49E-04 ( 267
267 )
1.8661E-04 { 267 ) 1.HJ56E-04 ( 267
197 ) 9.4134E-05 ( 267 ) 9.2130E-05 ( 267
187 )
181 )
I.1209E-04 ( 187 ) 1.3042E-04 ( 177
1.8699E-04 ( 177 ) 2.1470K-04 ( 177
120 ) 2.26BOE-04 ( 120 ) 2.1822E-04 ( 120
261 ) 2.2964E-04 ( 261 ) 2.1716E-04 ( 120
77 ) 2.3086E-04 ( 261 ) 2.2294E-04 ( 137
77 ) 6.0731F-05 { 77 ) 5.4274E-05 ( 77
200 )
200 )
1.5191E-04 ( 200 ) 1.6435E-04 ( 200




.8371E-04
.9511E-04
.9159E-04
.81B3E-04
.966BE-04
.4006E-04
.7648E-05
.052RE-05
.6222E-05
.5121E-05
200 )
200 )
7 )
56 )
56 )
56 )
14 )
335 )
37 )
62 )
96 )
96 )
94 )
103 )
103 )
103 )
.5005E-05 ( 103 )
.5000E-05 ( 103 )
.5000E-05 ( 335 )
.5000E-05 ( 335 )
.5000E-05 ( 335 )
.5158E-05 { 267 )
.4364E-04
.3746E-04
.8905E-04
.5505E-04
8.2814E-05
1.4611E-04
2.1974E-04
2.0219E-04
1 .8456E-04
2.0050E-04
4.9846E-05
1.S034E-04
I.4770E-04 ( 200 ) 1.3382E-04 ( 200 ) 1.1032E-04
267 )
267 )
267
267
267
177
177
137
120
137
77
200 )
200 )
200 ) 2.3030E-0* ( 200 ) 2.2672E-04 ( 200 ) 1.8994C-04 ( 200 )
-------
                                                          MAXIMUM  DAILY  CONCENTRATIONS


                                               DAY     24-HOUR CONCENTRATION     DIRECTION     DISTANCE
f
                                                •57           1.438RE-04              8           2.07
                                                56           1.4107E-04              5           2.75
r                                               335           I.4095E-04              q         S 2.75
                                               177           I.4037E-04             29           5.23
                                               120           1.3700E-04             30           2.75
f                                               2M           1 .3647E-04             31           2.75
                                                62           1.2H75E-04             10           2.75
                                                77           1.2532E-04             32           2.07
V                                                37           I.2527E-04              R           3.65
                                               117           1.2057E-04             3t           3.65
                                                14           1.1904E-04              R           3.65
r                                                7           I.IR25E-04              q           3.65
                                                26           I.1671E-04              8           2.75
                                                96           1.1637E-04             11           J.65
r                                                94           1.1484E-04             11           2.75
                                               187           1.1356C-04             29           1.17
                                               267           1.1320E-04             25           2.75
                                               103           1.I154E-04             12           |.17
                                               188           I.0791E-04             29           1.17
                                               200           1.0S72E-04"'           36           2.75
   DO
   I
   en
   oo
-------
S. M A >11
KSTl>=<»

IHHGT=

MSCA=  I

DAK--
               F  VM.I.^V  MITHflMTY  -  KINGS I OH  FCW!" PI,A'IT
               H^f'T^M)  ?ijMj Sril'lY

              M  pljAM'  1Q7S
                  AK. u.riTs=  o
                   rtHCTs  91.0
                  JTAR=  1     I
                                                   s  1.0
1 1
1 1
1 t
1
1
1
1
t
f


















1
1





1
I









CO
tn
                                                                                                                   1   1









1








1
1
1
1
1
t
1
\
1 1
1
1
1
1
1
1
1
1
t
1
1





1
»









t
1
1
1
1
1
1
1
1
-------
     PGANT  FrjEVATIOM  (ff.ft  AHOtfF KFA  IjFVel.)—       775.0





          RECFPTOR  F.LKVATIONS  (FFET  A^OVf  SPA  I.F.VKIj)




     OIRECTTOM    RlfHJil    R|Nr,»7    RTMGIJ    R|Nr,«4    RINnt<>
CO





O
1
7
1
4
5
6
7
q
q
O
1
2
3
1
|5
16
17
1R
19
70
71
22
23
24
25
76
77
28
?9
30
51
1?
33
34
35
36
STACK •
STACK »
STACK

1
7
RANGEC
760.0
760.0
755.0
750.0
750.0
740.0
780.0
R7.0.0
BhO.O
flld.O
920.0
950.0
780.0
750.0
740.0
710.0
730.0
740.0
740.0
740.0
710.0
760.0
760.0
760.0
76(). 0
760.0
760.0
760.0
7RO.O
790.0
790.0
NOS.O
715.0
905.0
770.0
755.0
I--KIMGSTOM
7--KINr,STON
STHAIECir
TlfPK
MO '4
MOM
KM)= 0.71
750,0 750.0
750.0 1170.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1020.0
790.0 970.0
Q70.0 890.0
830.0 720.0
740.0 770.0
720.0 760.0
740.0 720.0
720.0 960.0
740.0 1150.0
900.0 1020.0
900.0 1060.0
900.0 1070.0
960.0 1020.0
870.0 770.0
760.0 170.0
770.0 980.0
790.0 970.0
960.0 HOOiO
940.0 1 1 00.0
760.0 820.0
780.0 R40.0
900.0 1090.0
900.0 1040.0
1060.0 890.0
1160.0 1060.0
1090.0 1100.0
1120.0 1040.0
1MO.O 1020.0
1010.0 1070.0
1020.0 930.0
760.0 ROO.O
STACK5M-4, NORM
ST&CKSI5-9, NORM
SU2 EMISSION RATE
(CMS/SEC)
7088.00
1196.00
1.11 7.49 4
970.0 1 100.0
875.0 960.0
ROO.O (OOO.O
1100.0 1100.0
900.0 IOf.0.0
1160.0 1000.0
1000.0 1100.0
1060.0 800.0
1000.0 96O.O
«00.0 970.0
060.0 1070.0
1070.0 1000.0
1060.0 1000.0
1020.0 1080.0
BOO.O 1070.0
790.0 940.0
1010.0 720.0
1020.0 900.0
800.0 780.0
770.0 1040.0
720.0 750.0
800.0 980.0
1040.0 1020.0
950.0 760.0
I 100.0 900.0
1140.0 740.0
1140.0 800.0
1100.0 1700.0
900.0 100.0
1060.0 400.0
1100.0 100.0
1040.0 100.0
J070.0 100.0
1000.0 400.0
1000.0 1500.0
1040.0 1600.0
At. POWER l>OAI)-eO*li
At POWER r.OAD-COAf,
PART r«TS5iMN PATF «
-------
         TKNNSSSKE
                            AUTHORITY  -  KIMG5T1N  PO*IFR PIANT
            MAXIMUM
                                  i.49H4c-o4  DTPFTTIT<»=  3f>
                                                                       -sr  0.7
                0.7 KN
cn
OIB
  1
  2

  4
  5
  6
  7
  B
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 2S
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
                                    M  COMCf MTKAT ItlM »T E»rM  BI-CKPI'dP
                                    1.3  KM          i> . 5 K M           4. /KM
                                                                                       9 . »  K..'
9
9
1
1
9
f,
4
3
3
3
3
3
3
5
fa
8
7
5
3
•i
3
3
3
3
2
2
2
2
2
1
1
1
2
4
5
1
*
,
•
.
•
.
•
•
.
•
•
•
*
.
9
•
•
•
•
•
.
•
•
»
»
»
—
»
•
•
.
*
w
•
•
•
4634^t>05
SS355F-OS
0601 JF.-04
07773F-01
20181E-05
H29SF.-OS
27 J9QF-OS
4 1 S 2 ') f. - 0 5
.M6R4F-05
341 74F-')S
34777F.-05
/\ 3 \ » o F. - 0 5
B9457F-05
06760F-05
791 76F-05
081 P4K-05
'i b 7 4 9 F. - 0 5
01903K-05
33 J07f -05
79M5R-OS
04927E-05
44465F.-05
4444 7.K-05
OOJ 17.F-05
•H205F-0-5
31 760F.-05
32500F-05
3264RF.-05
16654F-')5
95057^-05
R) 4355-05
95093K-05
66901 F-05
0 1 5 3 ft f - 0 5
501 95fc>05
49R42'v-0't
R.
s.
9.
9.
7.
5.
3.
3.
2.
2.
2.
2.
3.
4.
5.
6.
5.
4.
2.
2.
3.
3.
3.
1.
2.
7.
2.
2.
2.
?..
t .
1.
•?.
4.
5.
1.
7505">F>05
40967F-05
U17S1F>05
15036F-05
79382E-05
15097F.-05
7132HF-05
Olfil 6F-05
73ft4RF,-05
79730F-05
7R1POE-05 ,
B5743f>05
14821F.-05
02241^-05
33799R-05
ft531 SF-05
931 196-05
15147F-05
HR355F-05
6R6B3F.-05
2?4fil:;-05
97B57E-05
97530F:-05
75B33E-05
39115F.-05
97702F-05
4B397F.-04
7
f.
7
6
6
4
3
2
7
2
7
2
2
3
4
7
5
3
2
7
7
3
3
3
3
2
2
7
?
2
2
1
2
4
5
1
.146R7F.-05
. 30704 1: -05
.24257F-05
,R7«20F-05
.07190F-05
.7175IR-05
. 1 3107F-05
.65573F-OS
.2R057F-05
.33775F-05
.321 56^-05
.56I43F-05
.767.H4E-05
. 413*9 F -05
.53120F-05
.03077F-05
.«)251RF-05
.40104F-05
.431 71F.-05
.33780F-05
.96334F-05
.62770F.-05
.931H2F-05
.66631F-05
. 1 2490F-05
.54RRBF-05
. 6 3 9 9 1 f . - 0 5
.65557F-05
,3l664F-0'i
.31 407F-05
.1 1461F.-05
.HPt 43F-OS
.50094E-05
.03911F-05
. 34709F-i)5
.21779F-04
4
4
5
5
4
3
2
2
2
7
2
2
2
3
1
7
4
2
2
1
2
3
3
3
2
2
7
2
2
2
1
1
2
3
4
7
.9439 7F-05
>flli)aliir_05
.SSPSBF-OS
. 19970F-05
.H0673F-05
.4944 JF-05
.65545F.-05
.49145E-OS
.17747F-05
. 19J7 IE-OS
.1760PT-05
.K2672F-05
.6B37 7F-05
,2009?F-0«>
.2397ftF-05
.23902F-05
.5B401F-05
.B0797F-05
.09285T-05
.94171F-05
.537B?F.-05
. 13307F-05
.3721 7F-05
. 1 53">2F-05
,RHH7IiF-05
. 1 3732F-05
.31 264E:-05
.259R4F-05
,OftOf>6F.-05
.031 7f F-05
.991 (SOF.-05
,70R?3F-05
.<>847>>F.-05
. (1034BF-05
.004R5F-05
.95097F-OS
                                                                                    4,S4<»nQF-05

                                                                                    3.«75tftf;-')5

                                                                                    2. »hi
                                                                                    2.:
                                                                                    1 .9J.Q7f,F-05
                                                                                    1 .'
                                                                                    1 .<
                                                                                    2.374SRF.-1S
                                                                                    2.:
3.3lfi30F.-05
5.35HT7F-05
1.fic)1 30K-05
7.31371F-05

1.75671F-05
2.1S1004.>05
                                                                                    7Bqaoo^^.f)*5

                                                                                    7.5R«tIP-OS
                                                                                    1.9150RF-05
                                                                                    2.(
                                                                                      .97703F.-05
                                                                                      .H5775F-15
                                                                                      .617 13F-15
                                                                                     3.77U
                                                                                     5.73311
-------
TFNIJESSF.I--  VA(iC>"Y  At»THnr>)TY  -   KfNOSTIlM
                                                                PI.AMT
    MftXfMHVi  74-HillJN  TO'IC-   1.95HF-II3
                                                              ^T lONr 1*,O .    0 I RT M'CF.=   1.1
                                                                                                           n "\ Y =l15.
    MlfiHFST  74-linHH
0.7  KM
                                                            M  F»CH  HF'.CFPTHII
                                            1.3  KM
                                                                                                             4.7  K»
                                                                                                                                             R . 7  K
01R
1
2

I 4
5
6
7
R
a
1 0
1 t
12

1 4
15
16
m 17
DO *
1 1R
fO 19

21
2?
2 1
24
25
26
27

29
30
31
32
33
34
35
36
.0050F-01 (
. 75R3K-0 1 (

.7407K-OJ (
. 11'MF-03 (
6.7743F-04 (
5. 7 42? F; -04 (
h.1457F.-04 (
9.1067F.-H4 (
7.M01F-04 (
7.0717R-04 {
5.70J1K-04 (
4.M97F-04 (
4. 5495 F:- n* (
6.10R1F)-04 (
4.511HK-01 (
J.0161F-04 (
1.4J47F.-04 (
1.R750F-04 (
3.3010F-04 (

5.R115F.-01 (
1.9017F-01 (
29H 1
2 'IP I
791 )
297 )
140 )
111) 1
HO )
SO** 1
795 )
795 )
795 )
795 1
107 I
107 )
14? )
111 )
1 12 1
31? )
13H )

15? )

15? )
102 )

117 )
114 1
114 )
314 )
j 4 ,
179 )
179 )
179 )
42 )
J S 0 1
i 1 ^ 1
6.7744F-04
4.R7A1F-O4
7. 77971- -04
R. 1570F.-04
>«]H014?-04
6. 3767 K -04
4. M49K-04
5.6407F-04
4 74] 4F-04
5.7775F-04
9. 0015 F. -04
7.2HR5F-0.4
6.6003
1 .0744F-01
6.R331F-04
4.57R5F-04
3.R499F-04
7.1571F-0*
6.2191F-04
6.1 15JF-04
fl.460f.R-01
6. 15R )K-04
4.11 R5F-04
4. 1 070F.-04

4.0R09F-04
3.1791F-04
3.0267F-04
7.6510F-04
2.7751F-04
4.0619F.-04
4.7114F-04
1 ,<>51*F-03
« 115
f }7f.
( 77f,
( 797
( 340
( 140
( 306
( 17?
( 17?

( ?BO
f 7RO
( 107
( 107
( 147
( HI
f 159
( 112
( 1*0
( 160
( 10
( 15?
( 114
( 307
( 102
( 117
( 114
( 114
• 111
( 11
( 11
( 170
( 4tt
( 797
( 269
< 115
5
5
fi
A
f*



'

6
5
4
5
5
t
7
1
7
7
f.
4
4
5
4
7
3
4
7
7
2
1
7
4
1
» 1
. I671F-04
.P177F-04
.7(»f.Hr_n4
. o B t 9 V. - 0 4
. | 790F-0*
. 54*4 f: -04
.3517F-04
.0444F-04
. 1175F;-04
.5?7(I>:-(M
.371 5B--04
.333RF-04
.4 J99F-04
. 46R1F-0"
.4170F>04
.I354F-01
.79R9F-04
.R71.RF-04
,4R?9F>04
.4402F.-04
.« 101F.-04
.R771F-01
.74! JF-04
.979RF-04
.0111F-04
.R7RRF-04
. 17RI F.-01
.0974F.-04
.Pfi 17F-04
.q^R^F.OI
.R741F-04
.491 1F-04
.6555^-04
,f qSBK-04
. 9 1 1 7 F - 0 4
.7597F.-01
7R4 1
376
755
760
140
1«7
174
1*0 )
743 1
1 )
7 HO 1
'i R 0 )
7P7 1
167 ) .
[ 222 )
f 741 1
159 )
757 )
257 )
[ 191 )
[ 30 )
t 30 )
( 117 )
r 10? )
[ 107 )
r in )
1*0 )
r 31? )
r HI )
[ 797 )
t 2R5 )
[ 334 )
[ 107 1
I 16 )
r 16 >
[ 315 )
1.H75F-14
•1 . 04
1 .4471F-01
9.5041F-04
1.R?R7F-04
1.01 P4F-04
1 .5797F-04
l.P5fi9F-04
4 .77BPF-04
». P4.0PF-04
1.9571F-04
4. 46*9 F -04
1 . 6 4 I 7 F - 0 4
7.*RI7';:-(I4
7.7*1 1 F-04
7. )filflF-04
1 .6797F.-04
1 . 9 7 5 1 F - 0 4
1 .0*11 F-01
7.P959F-04
«. 3t ORF-04
7.51 *»iF-01
6. 7157 F -04
( 75? 1
f 17 1
( ? 6 ? )
( 7 6 '> )
( 1 19 )
( ?1« )
(1741
( 140 )
( 174)
( 1 1
f 7R<» )
( 7 B O )
( 287 )
( 167 )
( 167 )
{ ?4 | )
( 704 )
( 75? )
( 113 )
( 191 )
( 10 )
( 10 1
f 797 1
( -10? )
( )61 )
( 117 1
( 117 )
( 11 ? )
175 )
2<>7 )
7R5 1
ll'l )
107 1
If- >
11 1
156 )
?.77«5F-04 f
4 . 1 o « 1 c. - 0 4 (
f..ll?4F-04 (
1 . R 7 2 * F - o 4 (
4.5067F-04 f
7.R991K-U1 (
2.4 JORF-04 (
6.R94]F-04 (
7.614 ir-01 (
3.36i«';:-t»i (
?.P6f.4i->o4 (
4.5996F-04 (
4.9614F-04 (
5.3?H4I;:-O4 (
4.5465F-04 (
9. 45R4F.-II-1 (
6.1773'r-0'» (
2.65R7F-04 (
2.72ROF-04 (
1 . 1 M4F.-04 (
?.J79P'=;-04 (
4.20P5F-04 (
5.3H67F-04 (
3 .01R 
-------
                 VAM.KY  A'lriilHITV -  Kf'iC.STrrj
                                                        Pt.AMT
YF.AKM
                  3-HM'jw
                                  H.HS17F-0*
                                                                                0.7
f
HArJGF 0.7 <•


f


f


(


(


(


(
CO
en
( ^


(












1) 1 H
1
7
3
4
S
ft
j
H
q
0
1
2
3
4
5
ft
7
H
19
20
21
2?
23
24
25
2f>
27
2H
29
30
31
32
33
34
35
3ft
5.314ftfc,-nl (
5.7«ft2O01 (
5.01710 0 .1 {
ft . ') i) 5 3 F. - 0 3 (
S.72ft2F-01 f

3 q 4 }<,(.• _i)J (
1 . H '/. 1 5 F - 0 1 f
S . 4 M 1 O 0 1 (
4.H -M4OO 1 (
S.2J63001 (
* . 7 1 b ) O 0 J (
4.7122O03 (
S . 4 0 7 ft f. - 0 3 (
4.1961003 (
S . 4 1 «7 0 0 1 (
4. 710 -tool (
4.6147003 (
4 . 4 0 3 9 F. - 0 3 C
4.00R6F-03 (
3.714701J f
4.2176003 (
1.B571003 (
3. 6312 F -03 (
3.I707O01 (
3.0227003 (

1.7661003 (

7.1377011 (
7. ? o
3<>9
331
190
IS 3
3 If)
1 1M
3»3
1S2
14 3
307 )
107 1
317 1
314 )
11 * 1
314 )
H 1

179 )
17 » )

?ft * )
JOH )
HIM AT fAT
1.3 KM
,>4iOS(r>()1
3.95 > 1 K-H3
iiftowfiF-o3
j" ^qilS(. -03
)is? ?MF-O3
l!l 1H5F-03
7. 551 7F-n 3
3.ft05fti-;-03
? . R 5 « 7 F - 0 3
2.9707F-03
3.7B04E-03
7 . « 7 1 ft F - 0 3
?.79ft4F-o-»
3.5f.'43F-03
7.9036F.-03
3 . 1 ft 1 S F - 0 3
3 . B 0 0 B V - 0 3
3. 1 1) ft OO 3
7.75H7F -03
2.4454F-03
3 . 3 4 7 9 f ; - 0 3
3.2571003
3.7SBPF. -03
3.60MF-03
7.Q5ROF-03
f.. 5104 F. -03
7 . 4 0 7 P F - 0 3
j_ )OSftF-03
7[4qijRF_n3
2.570400.3
7. 31 79O03
1 .P.005F-03
?loB07O03
7.9517F-03
1. 71/14 c- n 3
5"q.,,7F-03
( 7 ft 7 )
( l?ft 1
{ 77* )
( ft )
f 7 /S )
( 370 )
( 377 )
( 377 )
( 327 )
f 23ft )
( 2BO )
( 7 B 0 )
(291)
( 790 )
( 717 )
( 75ft )
( 35'» )
( 7fl» )
( 3 3 a )
( 3 3B )
( 333 )
( 7 0 ft )
( 314)
( 307 )
( 107 )
( M 7 )
(314)
(314)
( 334 )
( 31)
( 33 )
( 179 1
( 4tt )
( 4P )
f 7ft'» )
( 119 )
H HFCFP10R
7 *> K V
?.hf,7OK-03 (
7 .53H7OK1 (
7.ft?49F-03 (
7.4433F.-03 (
7.73B/F-03 f
7 . 0 1 7 1 F. - 0 3 (
2.«"37F-03 (
.93(,9F>03 (
.54*2003 (
.hftlOF-03 (
2.1533F-03 (
. 9 0 W 1 F - 0 3 (
.O3f,ijf.()3 (
7.17B5O03 (
7.SOB4F-03 (
?.ft7?3F-03 (
2.H775F-03 f
?.27l??F-03 (
1 . 5 0 0 1 F - 0 3 f
1 .6040F-03 (
3.0R57F-03 (
2 . 5 s ? 5 F. - 0 3 (
7.6100003 (
7.51H3O03 (
1 .BOftOF-03 (
1 ,75ft 3F.-03 (
7. 774 HF -03 (
2.751 1F.-03
1 . 7 0 H 1 «• - 0 1
1. 6747 F. -03
7.70M f-03
I .0775003
1 . ft 1 ft 4 F - 0 3
7.7497O03
7 . 3 9 7 B r - 01
4.070aF-03


341 1
341 )
7°4 1
7fn )
101 )
in? )
707 l
1 flO )
377 )
306 )
?no )
?PO )
795 )
?si )
740 )
730 )
350 )
?S1 )
7H1 )
2 HO )
30 )
237 )
73? )
307 )
302 )
76', )
3=;o )
3J2 )
334 )
7PS )
?P5 )
334 )
107 )
If )
1ft )
35ft 1

/I
7.
1 ,
3.
7.
7.
7 .
1 .
7.
7.
7 .
7.
1.
7.
7.
7.
3.
7.
1 .
7.
q .
1 .
1.
?.
1 .
7.
R.
1 .
1 .
* •
1 .
1 .
7.
q .
1 .
1 .
7.

.7 •"••
4 1 7 f- F - 0 3
•>7ft 3' '-(I 1
f. 17 H F- - f i 3
? 4 a 7 F - n i
4«7BF.-n3
4 S 7 3 P - 0 3
(•SI PF-03
7 3 cm . p 3
1 153F-03
(1 a 1 5F -0 3
(»ftBF'-03
7 7 5 7 F - 0 3
1 77 1 F-(I )
931 3F-03
7SftfiO03
7754 R - 0 3
f . ft ? 1 F - 0 3
H454F-03
1 3 f i f . i\ 3
3 ft 7 S F - 0 4
7 6 1 3 F - 0 1
9 0 3 0 F - 0 .3
1777003
') h H 4 O 0 3
3777F-03
4013 F. -04
3077OO 3
AA/17P-0 3
? A R P F - 0 3
n « OF: -"3
4 4 q 1 F - 0 3
4 3 4 S (. - 0 4
3 P Q 3 F: - o 4
3 Q 1 7 F - f .' 3
3 3 '» 1 F - n 3
S173F -03


r
i
f
f
(
f
c
r
(
r
c
(
(
(
(
(
(
f
(
(
r
r
(
(
r
(
r
(
r
(
r
r
(
r
(
(


341 1
141 )
? en )
) h 0 )
1 30 )
,»3* )
71° )
71 <' )
174 )
1 )
330 )
717 )
1 Q7 )
751 1
717 )
711 )
7'1 )
75? 1
333 )
3<<7 )
70 >
?R7 )
7R2 )
17; )
3ft 3 )
340 )
ISO 1
317 )
1 71 1
"ft )
2 US )
1 11 1
33 t )
1 ft )
1 ( , H )
1 B3 1

P. 7 K-.I
1 . ft 9 1 7 F - 0 3
7.PO-1°0"3
?.0"l ?0f>3
1 . 475 1 F -H.3
1 ,9747t -03
?.7?7H---n3
1. 7994I-- 03
1 .9077K-03
1 .H7MF-03
1 . ftH lOf -(>3
1 .4B5Bp-(l3
1 .744 OF. 03
7.71 1 ?t -03
1 .91 10003
2 . o B 9 Q K - o 3
2. 1 9ftftF-03
2.0510F-03
1 .S?90K-01
1 .605BF-03
7.740BF-04
1.SB1RF-03
2. 5 4 3 HO (i 3
7.646SF-O3
2. lflft.3F-03
7. 3«01F.-03
9.995' F-fi4
1 . S 2 B 1 F - o 3
1 . fi ft ft ft K - 0 3
1.333H003
9. 1 !)59F-(|.l
1 ,S97*O03
9.7473K-04
1 . '-> R 4 7 F - 0 1
1 . 1SftS?-u 1
J >l'tF-rri


f 141 )
( 7 14 1
( 7)4 )
( Iftl 1
( 111 )
( ) )H )
( 7!) 9 )
( 140 )
( 174 )
( 1 )
( ?ft7 )
( 7 H 0 )
( 1 Q > )
( ; s i i
( 193 )
( 7H3 )
f 14? )
f /»(! )
( 313)
( 3*K )
( 79 )
( ?"7 )
( 2 B 7 )
( 2*3 )
( 3ft3 1
( 71 )
( 319 )
( 737 1
( 149 )
( 304 )
( 349 )
C 104 )
( Ml)
C 21" )
( T'M 1
r i^ft i
-------
         —     •

         V.    —
                                  e  —  oocececcooe
2

b.

O
2

C
CJ
         a
         »~
         O
a
t-
z
         z
         C
         u
              c c
               i   i
If
a
c  c c
 i  i  i
                       cccccoooccoo
                       I  I  I  I   I   I  I  I  I  I   I  I
                       u:> i>:  i». i* u  u i«! !«• Ui Ui fa.  u;
              u- c  or  —-
                                           c*  c» •• « « ee  tv  — p. ir
                                                                                     B-64
-------
              M::-:  v*i,i>;y  AH rnim i  TY  -
              I  R-F ( Nc.n  CUM, srnnv


                  Pl,.MIT-"A 1 MiM  Pi
                                            I,r»»l<>  £.11 WO I T I OMP-r 1A I.
CTl
en
STACK
STAC"
t
HA 4.-

IsriiH =
TE-i" =
AFV =
A f V t- r
HL.HI =

H'rlZ


AFy( =
AFV* =
HLH1 r

JYk=76
i s r A r, =
T K ^ f-1 =
AF'l/ =
AFVH =
HI, HI =

JVK=76
ISTA^=
TElf =
AFV =
A F' V P =
HI, HI =

» I--KI
< 2--KI
STRUT
TYt>
MOM
MOV
K ( K .1) =
ipjai, VSR

4

30S.
305.
21 14
I67R
1


70* .
201.
105
761
I «')
1

1 S 1 .
154.
4 Of)
62-1
1*,,
4
7 . -;
-•76.
H7.
I * I .
MS i
44 I
I
A
') Q '}
7 9 s
7 Q s
. 71
. 16
4

772
719
2 ?q
<
b
= 1
3
771
1 69
1 6?
. 4
f
= 1


1 -I 2
1 1?
n ,•; •; T ' 1 1\: s T *
i r. s r 1 1 n s T *
KI;Y S07
K
0.71 1 .
ivrtc.w.s »Y
1 .00
4
. 791
. 5 14
. 11"
1 .
4

. 37 '
. l/> 1
i 4 . <> 1 1 I .
"/' '
4

. 271
. 769
. 259
OS .
17.
1 f ) A Y =
4
. 77..
. 157
. 152
mi.
66 .
1 n i, v =
1

. I'.J
. 151
US).

s •* .
52*.
•1

. 271
. 239
. 259
30S.
914 .
•1
1
. 270
. 1 "1
. 141
4 Of.
71 'I.
-
1
. 777
. 1 S"
. 1S«
Hi •!.
9 7 ') .
^ K S 1 1 -
2017.
4016.
11 7
rosi-:
oo . t
4

?6.
. •>*.
21 34.
1624.
4

. 770.
. 170.
. 17".
305.
911.



. 162.
. 1 *•?.
400.
710.

\

. 1*7.
. 167.
HS3.
47 S.
« , or.
O i J 3 A
00
.49
k
.00
4

71R.
230.
21 34.
1674.
4

770.
Ml.
I'll.
105.
91 3.

4
267.
ISO.
1 60.
inn.
7f).

3
77".
1 60.
1 60.
SSI.
°75.
Tf PAHT K'llS
( f, M S
4 . f S n . 6 0
1 .no
4
290.
3H.
131.
2134
1574
4

770.
U.
U.
ins
914

4

16s.
166.
/inn
71..



•164.
1 f 4 .
KM
«7S
1 .00
4
790.
4 .
4.
. 2114
' 1 w
1 61 .
161.
U :, i, .
Q7=>.
.70
.44
.00
1
300.
7.
7.
1 030
1574
1
3 3
7fll .
7.
7.
6oy
914

1
76 S .
167.
1 67 .
SS7
^ 1 "I

1
767.
I^S.
166.
"1 1
9 /fi
I) 1 A '.!(•• f FH fHir VFI.'.rfTY TF.MP
4 . 7 / 1 1 . ^ n 477.10
6.01 11.S6 471.90
1 . no 1 .on 1.0!.
1111

.1. (). 3d. 79.
0 . ° . 1O. ?9.
. 1754.
. 1571.
1173
1.1 1." 1.7 3.7
707. 201. >R4. 704.
1. '•<. 1Q. *p.
1 . 9 . 34. 1 « .
615.
. » 1 " .

11 1 1
76y. ->7-i. 770. 77 1.
167. 176. 17h. 161.
169. 1 7C . 17". 163.
590.
7 1 '< .

1 1 t >
V 6 7 . X- 7 . ? 6 < . > i- f- .
1 6 / . 1 (• i . 1 7 '1 . 1 6 J .
1 - ~> . 1 *• ' . 17". 1 ' 1 .
. 'I?".
9 7 6 .
1 .00
444
303. 103. 307.
10. 27. ?s.
10. 27. 75.


444
4.4 4.4 3 . «
7 S3. 791. 770.
•> 0 . 15. 54.
20. 16. S4.



1 4 4
)69. 76B. 767.
ir-3. 167. 167.
1 i 3 . 167. 167.



1 3 1
'.? S.O 5.1
).<^. 764. 76-1.
IS,'. 161. 1 „ i .
1 sn. 163. 1 t- I .


( " * * 5 / S f C 1
70/1 . -3.)
771.44

4 4 1 •!

11. 26. 29. si
11 . 76. 79. SI


4444
3.9 1 .  6 3 . 7 « ; . > 6 2
1 '•I . 1 'if. . IS". ) =51
1 51 . 1 SK. 15",. 1 SI,


-------
f

c
f
I S 1 A.«: t
A.
1*4.
1*1.
400.
617.


774.
1*4.
164.
457.
975.
* 1
H . 9 | (1 . •)
770.
1"3.
| R1.
400.
617.

3
774.
1 6*.
IPS.
457.
975.
7*9.
17H.
17 fl.
4 11 II
617

3
774.
If. 6.
166.
457
975
H.9 7.7
767. 767
16R. 167
I6R. 1 67
4(1(1.
617.

I 3
774. 273
164. I 66
164. |fih
. *57.
. 975.
1
. 767
. 161
. 1*1
"77 .
617.


. 773
. 1 6S
. 1 6S
571 .
975.
1 1 1
1 It . 7 10.6 10.5
. 7 '> 7 .
. 174.
. 174.
454.
617.


. 77J.
. 1*7.
. 1*7.
5H5.
975.
261.
171 .
171.
4R 1 .
617.

3
773.
1 6°.
169.
64Q.
975.
76».
166.
1*6.
SOP
617

3
773.
160.
160.
71 3
975
1 1 1
10.1 1 '> . 7 ".I
?60. 76H. ?6B.
1 f. 7 . I 6 < . 161.
16-7. » * « . 1 M .
S *5.
. 617.

1 1 1
773. 771. 773.
1*1. 1ST. 163.
161. (57. 1*3.
. 777.
. 975.
i
7*7.
1*7.
1*7.



1
777.
1 S6.
156.


• '1 t
-.1 6.1 5.7
7*7. 767. 767.
16*. 16*. 1f>R.
1 **. 169. 161.



< 4 4
777. 717. 277.
17*. 176. 170.
176. 176. 170.


h '
76*,.
170.
1 70.



4
771 .
1 f. t' .
1 Ml.


S . r> ') . 6
7f>h. 765
17|. IRS
171. IMS



4 A
271. 770
165. 1 i*
165. |*5


                                                                                                                                                                   '..7
                                                                                                                                                                   176.
                                                                                                                                                                   1 7*..
                                                                                                                                                    4
                                                                                                                                                 6.3
                                                                                                                                                 770.
                                                                                                                                                 170.
                    T -10=  3
                                 =  70
I
   CO

(   ^
A<*S =
TF;MP=
AFV =
AFVR =
HUI1 =

I*TA »=
R3.
14 .
14.
4. 4
?R7.
17.
17.



?°l .
77.
77..



3
293.
35.
15.
3.P
2R7.
73.
73.



790.
73.
71.




793.
35.
1*.
3.9
2B6.
41.
M.



7R9.
30.
-30.




791.
17.

3.fl
7B5.
2*.
76.



6.7
25.
75.




791 .
37.
37.
1.7
2R1.
55.
SS.



6.8
1*.
is.




701 .
73.
73.
1 .0
7fl2.
40.
40.



6.R
7fl7 .
47.
47.




7fi9.
20.
70.
0.5
7<"».
45.
4S .



5. 1
7B*.
47.
17.



•1
7fl6.
53.
53.
1
0.7
779
SO
50



4 . R
7B4
3 1
f 5



A
7*5,
so,

                             0.
                                            0.
                                                    n.
                                                 0.  1749.  719R. 3717.
                                                                                                 >.  6745.
                  7494.  R74J.  9910-  qooq.  9999.  OO99.  9O99.  9O99.  999O.  99O9.  9999.  9999.
          ISfAH=
          »HPr
          AFVr
 j nn=  -i  .IDAy= -»4
   1444
I . it   1.3   0.9   1.6
2 a I .  7 R O .  -> 7 •>.  •) 7 H .
 52.    36.    «l.   5*.
 S2.    35.    HI.   56.
 400.   10(1.   1MO.
1727.  |iso_  ||Q9. 11

1
1


0
9
4
. *
77.
•">.
5 ft .
0.
°. 1
4
1 .6
777.
64.
*4 .
40').
1 49'l.
4
0.6
776.
5B .
Sft .
'll'll
1 19Q
*
0.4 0
777. 7
7 '.' * . 3
77*. 3
4011,
. 1491.
4
. 9

3*.
36.
t,
1 4<
3
1 .5
7R4.
4.
4.

40. |4
1
7.7 7
1
.7
|
4.7
7 
-------
1 > | H !t - -t
AWS= 4.5
TEMP= 279.
. AFV= 186.
AFVR = 1H6.
HI,H1= 0.
1116.
JYR=76 T*T=
ISTAHs 4
TE*1P= 783.
AFV= 124.
AFVRs 124.
HI,H1= 0.
159S.
JYR=76 1^0=
A U! C — «» A
n rt i* — j « ^
TE«P = IB*.
AFV= 58.
AFVR= 58.
HliH1= 244.
1726.
DO
1 JYR—76 I M fl s


TR:MP= 282.
AFV = 103.
AFVR= 103.
HLH1 = 457.
1 i55.
JYH=76 TM3 =
A iitc — •> i
n W n -• « » -S
TF.MPs 277.
AFV= 22ft.
AFVR= 226.
HLHls 914.
1 142.
a .4 ,
4.1 5.1 4.1
777. 276. 276
142. 214. 229
192. 7 1 9 . 229
0. 0.
J3"7. 1403.
4 II>AY = 10S
444
783. ?*?. 780
176. 714. 205
176. 714. 205
0 . 0 .
1H67. 2134.
4 JD»Y=107

7H7. 786. 286
6'2. 54. 40
67. 54. 40
244. 244.
1973. 2275.

4 i) DAY — 117

ft 1 A 1 A Q
" . J 1.J 4."
281. 281. 280
137. 124. 137
137. 124. 137
457. 457.
1388. 1524.
4 ,,n*Y=1lB
2-v 5 f ^ A
. 1 i.n 3.4
277. 276. 776
193. 1 o fl . ? r> 7
193. 1 n H . 202
914. 914.
1180. 1214.
'
3.4
. 275
. 711
. ?31
0.
1493.

4
. 280
60
60
0.
2134.

1*5
. /
. 28ft
. 1 1
. 11
244.
2775.




. 780
. 146
. 14ft
457.
1524.

4)
. 3
. 775
. 190
. 1 9
. 1491

1
797.
8.
9.
. 133"
. •> 1 3 4


798.
11.
11 .
. 1474
. 7775


i
i
797.
162.
167.
. 117?
. 1574


4.4
?8n.
1 '7.
177.
. 1)04
. 1714

«.o
791 .
5.
•5.
m
•

7
798.
10.
10.
.
•


799.
12.
17.
,
•




78 3.
1 69.
169.
.
•


5.4
?q<*.
Ifl4.
1 ^4 .
.
.

3.3
?°3.
8.
0 .



1
70q.
1 1 .
11 .




799.
14.
14.






784.
167.
16T.




5 . 4
790.
165.
1 6S.


i
3. -»
293.
4 .
4.



1
?oq.
».
9.




298.
32.
32.




4
1
285.
167.
167.




6.3
290.
174.
178.



1.6 3.7
793. 793.
10. 36.
Id. 36.



7 4
29 W . 797.
49. 5B.
49. 58.


3 A
*
29fl. 297.
53. fiO.
53. fiO.




IA
•*
785. 784.
167. 178.
167. 178.



7T e 4
. .1 " . 1
2nq . 7ftB .
175. 179.
175. 179.



3. 7
791 .
41.
43.



4
295.
56.
56.




295.
43.
43.






783.
712.
217.




287.
170.
170.



3 . * ». u
2HB. 7«6.
4 H . 70.
48. 70.



4 4
?04. "XJ3.
79. 0.
 55.   51 .   5».   1S.   1?.   11.   1H.
 55.   51.   53.   45.   17.   11.   18.
-------
r,i.-..< = .
ArtSr | . ) ?. / :) . * ,, >() 4^,
TF.M^r 7c,ft 7Qn -,4 , g ;
,-. „ ./'./I.
A*V = *S. 56. 70. SS. M.
AfVMr 66. •;*,. 70. S5. 71.
H Li H 1 = 7 ft ^ . 7 fc ,* , ' ^» V "7 h "^

990. IO;>B. ior>7. 10^7!
1ST A Us 4 4 '1 4 4
A^Sr 74 Id 7/1 i o 11.
'•• '. '.' 1 . / 1 . rt
AFV= 177. 145. no! inoi if>«;|
AFVR= 177. MS. 140. (MO. |f,s[
HLMJ= 40. 40. 40. 40.
1150. 1335. IS77. IS>7!
JYP = 7f, |>n= «i Ji)«y = 14l
ISTAUr 4 4 4 4 M
*HS= 2.1 2.1 1.9 1.9 O.q
TF:MI' = ?H3. 7R3. 7H7. 291. 7RD.
AFVr 105. |9.1. 7113. 1<»Q. |()c,.
AFVH= (06. 194. -,oj. Ifld^ 1o*[
HI. 'Mr 0. 0. 0. o.
11411. Mil 1574 1S74 1
••• • ••« . ijc^. j
CD
1
00 ]STAH= 44/144
AWS** 7*5 Ol T 1»'»
T IT '•'! f* rr 2Pft, ''H''* i'WS 7RS ?H4
AFV= P4. Hh. «9. 114] S9^
AFVHa 04. R6. 39. 1|4 •>(>
H'-HIr 0. 0. 0. " 0.
102*,. 1197. 1372. 1377. 1
^
790
":
/ o / .
1 O<> 7 .
4

2. 1
14fl]
14fl.
40.
1527.

A
1.7
vno.
15.
IS.
0.



4
0.7
97.
m!
a j
* • T
|41.
144.
' " /
1067


7."
165."
1577!

4
1.7
7MO.
It.
11.
0.
1524.


4
0.6
783.
191.
191.
0.
1177.
•
'-1 2.9 I.S 3.^
150. MO. 117. 170
150. MO. 117. 170
767. "00. PIP.
. 1067. 1 0 r, 7 . 1 fi ft / .
"> * i »
''11
0.5 O.n 1.1 1.7
241. IH4. 0. Ihs]
74i. 1M4. 0. IPS.
. 1577. 1577^ 1527!

4171
" ' 1
0.7 0.9 I.J 7.*
7"7. ?"6. 7H9. 797.
21 R. 7. 7. 0.
21". 7. 7. 0.
0. |90. JRO.
1574. 1574. 1574.


1771
' '- f 1
O.R O.fl 1.1 ?.2
2H5, 2R". 791. 794.
I'M.- 2. 1. 5.
171. •).. 3 . 5 .
0. 171. 347.
1177. 1377. 1377.
1
1.3
. 156.
* 76 .
1 0 t, 7 .

t
1 .7
. t 1.
. 1 1.
1S77.


1.1
293.
7.
7.
570.
1574.



7.0
'96.
1.
3.
511.
1377.
,
1.9
701.
167.
167.
9 M


1
1.7
79).
S.
5.
7HO,
1577.


1
1.0
791.
Q.
760.
157*.



7.7
797.
1.
1.
1172.
> ,
« . -» s . •-
•» -1 -5 7 o ->
/#/. /*.
7. *.
9*5.
. 1577.


1 1
7 . '» 3.1
795. ?9f,.
1. 35H.
1. 359.
ISO.
1574.



1 t
7.9 7.5
790. 79R.
1. 7.
1. 7.
"55.
1 177.
, ,
•s.o fr . 1
7°t. 7^''.
t 5«. 1 f,S.
I5P. lf>5.



1 1
*.7 l.R
794. 794.
54. 15.
54. 45.


I 1
2.3 1.1
797. 707.
I " . 10.
14. 10.




1 1
7.9 7.7
709. 2<>o.
10. 14.
10. M ..
,
1 .7 7.7
' « 7 . 7 M 6 .
1 60. ( 6O.
160. 1 * q .



1 4
1.5 *.7
704. 291.
171. 171.
171. 171.


1 4
1.1 1.7
297. 797.
11. 40.
13. 40.




4 4
1.0 7.5
799. 799.
11. 72.
31. 77.

7 . » ^ . -l *: . t '- . 1 ?.•*
7 't S . ? n 5 . 7.
47. 50. 79. 107. 65.




44444
2." 4.R 3.3 1.1 1.0
297. 7.9d. 293. 791. 790.
70. 1M.- 170. 171. 177.
70. !*7. 170. 171. 177.
YkJA«  RASEO  OH  70.  DAYS
-------
c c

b: b:

if f
c «?•
T: »v
\c in
c c c
i f i

If If C

*- r*-. or
a in T

e =  b' b}  b^ b.  b," b
y£ ^  f^ ^*  *B Jf. f*>  ^^^ffC^C   >   i  i
                                                                                                                                                       u:  it  u.  t*;
                                          <>. — —•  ff  ac  if
u:
v:
                               a
                               o:
                               i-
                               t;  £
                               z:  v
                               r
                                          c  = c  c  =  c  c
                                          i   i   i  i   i  i   i
                      .
ceceeeccocec
 i   i  i   i  i   i   i   i   i  i   i   i
u. u;  CL' u  u;  u; b>  it i;  u; u: t«:
                                                                                                           seecc
                                                                                                                                         ec
                                                                                                                                          i   i
                                                                                                       c  o c  c  o
                                                                                                        I   I   I  I   I
                  a
                  a
                               3-  —    r-  



                                                                                                c  fsrv^—^^r^^^^r^^r^no* cor»^ —
•ft
-------
                                               PI,»NT
MMIMIIM 74-HIHIR
                          1.7071E-03
                                                                  f: =  0.7 KM
                  74-HOim
                               I . I KM
                                           nr E«CH
                                                        3.15
OIR
1
3
4
5
6
7
«
9
10
11
12
13
14
15
17
CD 1 9
' 19
0 20
21
22
23
24
25
27
79
29
31
31
32
33
34
35
36
9.5556E-04
1 .2099E-03
1 . OJO'iF.-O J
1 . 129HK-03
1 . .193'»K-03
1 .00046-03
3.911RF.-04
1.2957F.-05
?.?104f;-05
1 .4H ltK-05
3.0584F.-05
1 . 1170K-04
3.519IF-04
8.01 15P>04
1 .3079K-03
1 .6337E-03
1.0169E-0)
5.561 JF.-04
2.0170F-04
5.7207E-05
1 .3101t>05
1 . 3450E-05
1 .55|1f>05
2.44MF.-05
«.19I)6E-05
5.2541E-05
4. 1995E-05
2.441IF.-05
2.6729F.-05
9.6057F-05
7.4242K-04
4.6396F.-04
1 .7021F.-01
f 79* )
{ 799 1
( 797 )
( J10 J
( 140 )
(3101
( 340 )
( 140 )
( 342 )
( 34? »
( 342 J
( 34? )
( 14? )
( 34? )
( 272 )
( m )
( 332 )
( 312 )
( 317 1
( 33? I
( 332 )
f 332 )
( 115 1
( 315 )
f 315 )
( 3151
( 115 )
( 315 )
( 315 )
( 315 )
( 17 )
( 17 )
( 1 / )
( 17 )
( 319 )
5.B774E-04
6.4741F-04
6.0055F-04
7.4977E-04
9.9759F-04
6.6705F.-04
2.2659E-04
4.9976F.-05
1.6745F.-05
1.3561E-05
t .9985E-05
5.9960E-O5
1 .9601E-04
4.6637F-04
B.0437F-U4
1 .0770E-03
6.7170F.-04
3.6B99F-II4
1.50S4E-04
4.6 105F.-05
t .7676F-05
1 . 3361F.-05
1 .5777F.-05
1 .B777E-05
3.3131F-05
7.0478F.-05
9.4317F.-05
7.0476F-05
3.3770F-05
1.9979E-05
5.6713F.-05
1 .7037E-04
3.3055E-04
1 .6IBHF-03
{
(
(
(
(
f
(
(
t
{
(
(
(
(
(
(
(
(
(
(
(
(
(
(
f
(
f
(
r
t
(
(
(
(
(
(
3Ot)
79?
340
340
340
140
340
34?
14?
34?
34?
34?
34?
331
33?
33?
31?
337
31?
33?
312
115
115
315
315
115
315
315
315
1 7
17
17
17
315
x • » *\ n
) 5.3515E-01 ( 356 )
) 3.3029F.-01 ( 10B )
3.7177E-04 ( ?9B )
4.4614IT-01 ( 340 )
6.3J62F.-04 { 340 )
3.5121E-04 f .340 )
1.0540E-04 ( 340 )
7.594IE-05 ( 340 )
I.3R50F.-05 (*340 J
3.7469C-05 ( 331 )
1.5354F.-05 ( 34? )
3.6708F.-05 ( 342 )
1.0945E-04 ( 34? )
7.7513E-04 ( 34? )
5.191RE-04 ( 27? )
9.2787F.-04 f 241 )
6.?«42F>04 ( 231 )
3.6B97E-04 ( 332 )
2.199BE-04 ( 337 j
1.047BE-04 ( 312 )
3.60ft5(i:-05 f 332 )
1.5971E-05 ( 332 1
I.3P43F-05 C 315 )
3.?64«F.-05 ( .11J-'J
6.9117E-05 ( 315 )
3.6159F.-05 t 315 )
3.B431E-05 ( 315 )
9.1976E-05 ( 315 )
1.2952E-04 { 315 )
9.1972E-05 ( 315 )
3.75BPE-OS { 315 )
1.654BE-05 r 315 )
3.5043E-05 ( 355 )
1.1996F-04 ( 17 )
2.5937F-04 ( 17 )
1 .3?9flt;-01 ( 356 )
" . / KM
1.3571F-04
3. 1570F-04
7.41 I4E-01
?.3?75F-0«
4.030BF.-04
1 .3773F-05
1 .1 111F.-04
1 .4IB5F-05
7.761JF-05
?.05B7F-04
?. 1 307F.-04
5.3579F.-04
1 .4656E-03
6.7101F.-04
1 .7997F-04
1 .091 3F-04
5.7516F-05
7.5725F-05
1 .4170E-05
1 .3466R-05
3.7R37R-05
3.437?er-n5
2.7057F-05
6.31 36E-05
9.0476F-05
6.31 35F-05
7.6516F-05
1 .4546E-05
7.0680l!;-05
7.497BF-04
{
(
f
(
(
(
(
{
(
(
(
(
(
(
(
(
{
(
(
(
(
C
(
f
f
(
r
(
(
(
(
(
(
156 J
7<»7 )
140 1
140 )
340 )
340 )
371 )
111 )
311 )
14? )
331 )
331 )
131 )
27? )
741 1
231 )
731 )
33? )
31? )
311 J
31? 1
315 1
.115 )
115 )
315 )
315 }
315 )
315 )
315 )
315 »
315 )
355 )
17 )
17 )
356 )
B.7 KM
2.773HF-04
?.?9|?F-04
1 .51?QF-04
1 .7549F-04
2.5059F.-04
P. 141 2F-05
2.7B97F-05 (
6.3591E-05 (
I.3047F-05 {
1.1747E-04 (
1.3474F-05 (
1.2700E-04 (
2.7314R-04 (
2.3641E-04 (
3.6171F-04 (
1.0940F,-P3 (
4.0569E-04 (
1.27B5F-04 (
6.3570F-05 (
3.5BOIF-05 (
1.0B64F.-04 (
1.3393F-05 (
1.311 1F-05 (
2.2659F.-05 C
5.5P54F-05 (
2.3207E-05 (
1.9370F-05 (
3.99BBF.-05 (
5.6925F-05 (
3.99B9E-05 (
1.925QF.-05 {
1.3549E-05 (
1.57B4E-05 {
2.9940F-05 (
B.5355F.-05 (
4.0375F-04 (
155
29?
195
140
340
340
121
340
331
342
311
311
311
777
241
231
731
332
312
331
112
315
115
115
315
315
315
315
115
315
315
355
17
17
156
-------
                                       ;S'I MM •
                                                    PI.AMT
                                            i) i pe
                                                  r inn=   n.   nj •vM^CFs   0.7
                                                                                               Hnnp=iso.».
KA'KIR
                        3-"'i;ir
                                               »T
                                    1 . 3  K N-
                                                             7 . S  K
                                                                                      4.7  KM
                                                                                                               R . 7
I *
1
3
)
5

7

q
1 0
t 1

^
4

^
7

t 3
20
71
22
73

25

27

20
30
11
32

34
•^^
36
s!onr.-o (
S.* 7 a IF -ii
5.571 SK-i>
4.04H-4F--II
1 . hi J<«i->rt
3.53*-|F-0 r
5 . 1 S .> 2 (•' - 0 S <
2. 7 1) "K- OS f
1 . 144'»K-oi (

2.0117K-03 (
3 . y 0 I 7 K - 0 3 (
4.7714K-03 (

S.0257K-03 f
3.H5HIK-03 f
7 0 fi 5 fi F; - 0 3 (
7.Ht')3K-14 (
2.7.S23F.-04 f
•». HdhK-HS (

t . J-nilF-OS (
l.bbMK-'IS f

1 . 0 >| S 3 E - 0 4 (

3 1 7 9 3 5 K - 0 ;> (
2 . * '» 4 S (•: - 1 1 4 (
1 . 0 1 1KK-O4 (
1.22" OF- 04 (
5.'<5-»^t:-04 (
1 .« 3 iOK-OJ (
3.57SOR-03 (
».OrtMK-Ol (
i;;i
110 )
MO 1
Mi) )
34'.) t
340 )
342 1
347 )

342 )
342 1
342
3 il
21*
332
3 3>
33?

332 )
337 )
313 )
315 1
315 )
31S 1
315 )
315 )
315 )
31 5 )
17 1
1 7 )
1 7 )
17 )

I
3
2

1
•)
1
'-,
1
I
7
-)
3
3
2
1
7
2
4
1
3

, 5
,
4
8
4
t
h
1
1

S
. 4 V* 5 F - 0 1
,4ft10F:-fl3
. t K 0 h F - 0 3
. j -4 OOF. -I) 3
(-)qqq|.>f))
S443F-O4
.611 3FJ-04
.KOI 7F-05
. M12F-05
.42MF-05

.07 J 7 !•' - 0 3
|o<155F-03
\ 7 j  4 F) - 0 3
I 4 5 4 5 F - 0 4
[ ? 3 fi «; F - 0 4
[tjflqqe-OS
.5»07F>OS
.171 3F.-05

jq^SO* -OS
\ 7K4SF-»4
. 77R3F-04
.5 341F-04
.7731F-04
.751 fif;-d/1
*Q^77IT_(I5
. S 4 1 1 F: - 0 it
. 1 S 3 H F - 0 3

[611f,r-01
( 371 )
f 2 '»' )
r 340 )
f 140 )
( 340 )
( 340 1
( 340 )
f 317 )
C 142 1
( 347 )
f 34? )
( 342 )
( 741 1
( 34? )
( 13? )
f 337 )
( 3 ? 7 )
f 33? )
( 332 )
( 33? )
(33?)
( 315 )
( 315 )
( 315 )
f 315 1
(315 )
( 315 )
315 1
315 )
17 )
1 7 )
1 7 1
1 7 )
( 354 )
1
1
7
1
T
f.
\
7
j
1
4
8
|
7
2
1
f
f.
)
3
I
1
4
1
7
f,
9
(•,
?
4
1
^
i
•»
. 7 3 ? a T - 0 3
_ c 7 e, f, f; - 0 1
. 1 t Of.F-03
. 1 '» 3 4 F - 0 1
.7^b?K~04
v(iC)24|r_o^
.M «9F-05
.OS75F-0*
.H1<;7F>05
.2700F.-04
.4105F-04
.R41 7F-04
.608hF>03
. 3377F-03
. 0 1 7 6 f - 0 3
. 1 SM^-OI
.OR7 1 F-01
.004 3F-04
.R04»;t:-04
.S753E-05
.Q7d?F-05
.701 1F-04
.6370F-04
. 9 B ? 7 f : - 0 4
. lf.dSF-04
. 44P 1 F-04
.451 AF-04
.4-177K-04
. 0 1 7 0 F - 0 1
. 1 771F-05
. 6 2 7 1 *> 0 4
. h 4 f, 1 F. - 0 4
.f.f-1 3F. -II 1
>t,?SO= -O1
f
(
C
(
(
(
(
r
(
f
r
(
(
(
(
(
(
r
r
(
(
(
(
c
(
(
i
(
(
(
(
(
(
315 )
10S 1
2^7 )
340 1
371 )
321 )
340)
340 )
331 )
342 )
34? )
147 )
342 )
222 )
331 1
231 )
337 >
137 1
337 )
13? 1
332 1
315 )
115 1
115 )
315 )
315 )
315 1
315 )
315 1
315 )
315 1
355 )
17 )
1 7 )
3** )
1 . lf>57F'-03 (
7 . 7H7 7R-0 l (
1 . •; 1 .1 s r - (i i r
'».i?ioF-r>4 (
l ^TttftF-ni <
n.oi 1 9.F-04 f
?.f>?14F>O4 (
6 . 0 S 3 1 F- - 0 5 (
1.47S7F-05 (
B . 1 * 5 1 F; - 0 4 f
1 . H S 1 4 c- - 0 S (
s. 2^07 F: -n« (
1 . 5 1 1 f F - n i (
1.4174F-03 (
i . q 7 o ) F: - o 3 (
?.!35RSF:-03 (
7.B370F -03
T.53°?F:-n4
5.95QOF.-04
3 . 2 Q 1 7 F. - 0 4
5.1055F-04
2 . 1 7 7 fi F - 0 5 (
1 .f,77PF-05 (
1 . 7 1 S S F: - 0 4 (
5.6742F-04 (
1 .P147F.-04 (
1.2541R-04 (
4 . 1 4 0 Q F. - 0 4 (
5.37HOF-04 (
4 . 1 o 0 B K - 0 H (
' . 2 1 ft H F - 0 4 (
7 . 5 3 5 (1 V, - 0 5 f
5.1477F.-05 f
3.bM4r-04 (
•> _ (. Q s 7 F ' - 0 H (
J.fl7SQF-:i3 (
*SS )
iqo )
747 )
(1 II )
3 >1 1
371 )
*?1 )
331 )
331 )
317 1
131 )
331 )
331 )
777 )
2*1 )
231 )
231 1
33? >
132 )
331 )
332 )
3 1 ^ )
315 1
315 )
315 )
315 )
315 )
31*, )
315 1
315 1
315 )
355 >
17 1
1 7 )
35ft 1
I . 1 0 1 0 K - 0 1
1 m ft q i) 1 f . f> 3
1.06H3R-0!
7 .74S5F-C4
1 .1 t 52F-H1
5. 35R(>F-o/)
1.31 4M---04
4.1 7 7 0 F - 0 4
1 . 3 2 6 <3 F - 0 S
B.4R7t)F-Od
1 ,50«1 R-OS
9.1201T-04
1 .697°"'- 01
1 .7316' -03
1 . 0931^-03
7. 3567->03
2.0657^-113
6. 03" OF- O/i
"I 1JQ*\QP^.04
1 797?t*""f'4
7 . 7 H 1 0 F - 0 1
1 . f> 1 o ? F - o s
1 . 3 « H f> F - 0 5
9.0774T-OS
3.55P3F-04
Q.4S57F-OS
6. 3QMF-OS
7.7'3<10lr-(]4
3.6440R-0/I
?.?PqfiF.-04
>.. 3075«':-<:5
1 . 73P7c"-'»s
3. 1 4 17 F- 05
1 .191 SR-04
5. 3972R-'1 »
1 . >,7 n 4^-0 i
(
(
(
(
f
(
(
(
f
(
f
(
(
(
(
(
(
(
(
(
(
(
(
'
(
f
(
f
<
(
(
(
(
15«5 1
2 'i ? )
) ^ 4 )
1 * ft )
371 1
371 )
321 )
331 )
331 )
34? )
331 )
? 31 )
3H )
??? )
741 )
34? )
731 1
33? )
33? )
1 '1 >
332 )
315 )
115 )
315 1
315 )
315 1
315 )
315 )
315 )
315 )
3 1 s 1
3^5 )
n >
1 1 i
3m, )
-------
      w.
      e
— oooooe
      z
      c
      s-
      o
      U'
c
r
      c
      tj
      a
      5
         g. a
         ~ c

                                                          B-72

-------
          E VALLEY AUTHORITY
  SOLVENT RSFfNKO COAL STUDY

  KINGSTON PLANT 1975
                               KINftSTON POUCR PLANT
  KSTL=4  UlRsl  irAP,IPUN= 0 0
    IDftTA.IMAK.ILOTSs 000
  IQHGTs ?   WHGT= <»1.0  NST= I
  NPOL= 2   JTABr 1   INPHT= 2
  NSEA= 1   ECONVs   0.3048006
  DAY--
1 1
1
1
1
1
1
J
t
1
1
1
1
1
1
1
1
1
J
1
1
L 1







I
I






























1







1

SYTF* 1.0 FTV= 3.0 TAFs 0.60 B








1 t







1





'









J
1






1







1 1
1
1


















1
1
1
1
1
1
t
1 1
t t









BACKGRs
            U.O













































1






I
I















I
1
I









1
t
1
1
1
t
1
1
1
CO
-------
   PLANT ELEVATION (FEET ABOVE SEA LEVEL)--     775.0

       RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)

   DIRECTION   RINGM    RINGU   RINGM   RINGM   RINGI5
DO
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
1 21
i «
23
24
25
26
27
28
29
30
31
32
33
34
35
36
STUCK I
STACK «
STACK
1
2
760.0
760.0
755.0
750.0
750.0
740.0
780.0
820.0
860.0
690.0
920.0
650.0
7BO.O
750.0
740.0
730.0
730.0
740.0
740.0
740.0
730.0
760.0
760.0
760.0
760.0
760.0
760.0
760.0
7BO.O
7»0.0
790.0
805.0
795.0
»05.0
770.0
755.0
I—KINGSTON
2--KINGSTON
STRATEGY
TYPfi
NOM
NOW
750.0 760.0
750.0 1120.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1020.0
780.0 920.0
920.0 880.0
830.0 720.0
740.0 720.0
720.0 760.0
740.0 720.0
720.0 960.0
740.0 1150.0
900.0 1020.0
800.0 1060.0
900.0 1020.0
960.0 1020.0
820.0 720.0
760.0 970.0
720.0 980.0
780.0 920.0
860.0 1100.0
840.0 1100.0
760.0 820.0
780.0 840.0
800.0 1080.0
900.0 1040.0
1060.0 890.0
1160.0 1060.0
1080.0 1100.0
1120.0 1040.0
1140.0 1020.0
1010.0 1020.0
1020.0 830.0
760.0 800.0
STACKSI1-4, NORMAL
STACKSI5-9, NORMAL
S02 EMISSION RATE
(GMS/SEC)
533.00
936.00
970.0 1300.0
825.0 960.0
800.0 1000.0
1100.0 1100.0
900.0 1060.0
1160.0 1000.0
1000.0 1100. 0
1060.0 800.0
1000.0 960.0
800.0 920.0
960.0 1020.0
1070.0 1000.0
1060.0 1000.0
1020.0 1080.0
800.0 1020.0
780.0 940.0
1010. 0 720.0
1020.0 900.0
800.0 780.0
720.0 1040.0
720.0 750.0
600.0 980.0
1040.0 1020.0
950.0 760.0
1100.0 900.0
1140.0 740.0
1140.0 800.0
1100.0 1200.0
900.0 1400.0
1060.0 1400.0
1100.0 1100.0
1040.0 1100.0
1020.0 1100.0
1000.0 1400.0
1000.0 1500.0
1040.0 1600.0
POWER LOAD-SRC S02
POWER LOAD-SRC S02
PART EMISSION RATE
(GMS/SEC)
0.00
0.00








V-




























HEIGHT
(METERS)
76.20
91.44
   RANGE(KM)*    0.71    1.33    2.49
   SEASONAL  VARIATIONS  BY CASE  I
             1    1.07    1.08    1.24

 YEAR HASKD  ON  )65. OAfS
4.65

1.13
8.69

1.07
                                                                          DIAMETER   EXIT VELOCITY   TEMP
                                                                          (METERS)      (M/SEC)      (DEG.K)
                                                                            5.03
                                           10.90

                                           10.50
416.00

414.00
                                                                        VOLUMETRIC FLOW
                                                                          (M*»3/SEC)

                                                                             156.09
                                                                          I

                                                                             208.65
              1.04    0.91    0.74    0.83    0.88    0.93    1.07
-------
   TENNESSEE VALLEY AUTHORITY  -  KINGSTON PDHER PLANT


                                   NOM--SO2

      MAXIMUM MEAN CONC=   5.0552E-05   OIRECTIONs 36  DISTANCES   0.7  KM
if

c


r


•(


:l


(

OIR
1
2
3
4
5
6
7
a
9
10
11
12
13
14
15
CO 16
    RANGE
     ANNUAL MEAN CONCENTRATION  AT  EACH  RECEPTOR
0.7 KM         1.3 KM         2.5  KM          4.7
                                                               KM
                                                                           8.7 KM
18
19
20
21
22
23
24
25
26
27
2*
29
30
31
32
33
34
35
36
3.54219E-05
3.65364E-05
3.85684E-05
3.90537E-05
3.47263E-0«i
2.700S2E-05
2.11771E-05
1.88158E-05
1 .B3566E-05
1.86190E-05
1.86360E-05
1.88661E-05
2.01382E-05
2.33639E-05
2.81083E-05
3.16562E-05
2.93871E-05
2.3229-5E-05
.85899E-05
.71080E-05
.77961E-05
.88769E-05
.88711E-05
,76524£-01>
.63671E-05
.57801E-05
.58004E-05
.58055E-05
,53691E-0-i
.47787E-05
.44078E-05
.47844E-05
.67535E-05
2.04436E-OS
2.45205E-05
5.05522E-05
3.34880E-05 1
3.25671E-05 3
3.42334E-05 3
3.46059E-05 2
3.08725E-05 2
2.41507C-05 :
1.96402E-OS
1.7723RE-05
.6958SE-05 ,
.71123E-05
.70823E-05
.72882E-05
.80898E-05
2.04981E-05
2.4H66E-05 ;
2.77U9E-05 :
2.57454E-05 ',
2.08481E-05
1.735BOE-05
1.68126F-05
1.82848E-05
1.49145E-OS
2.03667E-05
1 .92224E-05
1.75724E-05
1.66174E-05
1 .66730E-05
1.67561E-05
1.619S2E-05
1.55349E-05
1.48586E-05
1.48538E-05
1.70032E-05
2.J5004E-05
2.583946-05
5.02179E-05 '
.91274E-05 2
.70169E-05 7
.93683E-05 3
.S3854E-05 2
.61569E-05 4
.10467C-05
.80495E-05
.67327E-05
.57021E-05
.58584E-05
.58138E-05
.64659F-05
.70197E-05
,8flll6F:-05
J.18790E-05 ;
(.87015E-05 I
(.32493E-05 ;
.87930E-05
.61206C-05
.58650E-05
.75818E-05
.94028E-05
.02423E-05
.95092E-05
.80154E-05
.64408E-05
.66934E-05
.67369E-05
.60238E-05
.57905E-05
.52919E-05
.46006E-05
.63102E-05
J.05518E-05
J.41601E-05
I.30135E-05
.30704E-05 1
.27102E-05 1
.5571PE-05 3
[.37534E-05 3
'.26676E-05 1
.90466E-05
.67369E-05
.62812E-05
.52782E-05
.54609E-05
.5412IE-05
.66470E-05
.68076E-05
.82358E-05
J.10951E-05
?.93497E-05
?.204?2E-05
.71609E-05
.51840E-05
.477H3E-05
.63961C-05
.80379E-05
.85672E-05
.8I071E-05
.73722E-05
.53117E-05
.57914E-05
.56513E-05
.50992E-05
.50166E-05
.4903fiE-05
.41246E-OS
.51643E-05
.77041E-05
2.04666E-05
J.14001E-05
.91954E-05
.97417E-05
'.1981BE-05
.07251E-05
.OllSSE-OS
.79864E-05
.59507E-05
.55215E-05
.47105F.-05
.49121E-05
.47959E-05
.59701E-05
.57225E-05
.67994E-05
.85741E-05
.42161E-05
.96033E-05
.58019E-05
.46354E-05
.4260QF.-05
.54514E-05
.71551E-05
.76512E-05
.72732E-05
.65505E-05
.46981E-05
.55293E-05
.50654E-05
.47140E-05
.45604E-05
.45183E-05
.38742E-05
.46083E-05
1.61492E-05
1 .84386E-05
J.38840E-05
-------
         TENNESSEE  VALLEY  AUTHORITY - KINGSTON POWER PLANT
DO

cn
                                        NOM—SO?

    YEARLY  MAXIMUM  24-HOUR  COHC=  5.4597E-04  01RECTIDN=360.  DISTANCE*   1.3  KM   OAY=315.
                            24-HOUR CONCENTRATION AT EACH RECEPTOR
                                       1.3 KM                2.5 KM
                                                                                    4.7  KM
                                                                                                           .7 KM
( 298
( 298
( 293
292
340
3JO
330
306
295
2°5
295
295
307
307
342
331
332
332
338
338
152
152
152
( 302
( 302
( 317
( 314
[ 314
[ 314
( 33
( 179
( 179
t 179
[ 42
[ 269
[ 319






























?
e
«
t
1
5
1.9543E-04
2.5404E-04
2.0880E-04
2.1998E-04
2.7995E-04
.8419E-04
.2856E-04
.6498E-04
.4013E-04
.5436E-04,
.5687E-04
.09B3E-04
.9166E-04
.0407E-04
.1757E-04
.2072E-04
.9120E-04
.9B09E-04
.3566E-04
.1553E-04
.0555E-04
.BI09E-04
.7750E-04
.4196E-04
.8420E-04
.2285E-04
.2246E-04
.6713E-04
.218BE-04
.0242E-04
.2786E-05
.2545E-05
.459SE-05
.2090E-04 {
.3928E-04 (
.4597E-04 (
315
326
276
292
340
340
306
322
322
280
2BO
280
307
( 307
( 342
t 331
359
332
360
360
30
152
314
302
302
317
314
314
314
33
33
179
48
297
269
315
) 1.5191E-04
) 1.7069E-04
t .8253E-04
I.7552C-04
1.7B87E-04
1.3495C-04
I.0122E-04
1.1980E-04
9.63S9C--05
1.3399O04
1.843ir-04
1 .5649E-04
1.3022E-04
1 .5878E-04
1.5796E-04
3.I883E-04
2.2444C-04
1.1618E-04
7.8205E-05
7.663BE-05
1.7806E-04
1.4347E-04
1.4035E-04
1.7479E-04
1 .21I3G-04
B.774BE-05
I.0256E-04
1.2199C-04
8.B674E-05
9.1026E-05
8.8556E-05
5.0S52C-OJ
8.254tE>01 (
I.3860E-04 (
1.17B7E-04 (
3.5B03C-04 (
284
326
255
260
340
1B7
174
140
243
1
280
280
287
167
222
241
359
252
252
193
30
30
317
302
302
317
350
312
334
297
285
334
107
16
16
315
) 1.0991E-04 ( 262
1.2053E-04 { 37
2.5528O04 ( 262
1.9Q66F-04 ( 260
2.0816E-04 ( 139
9.65B6E-05 ( 238
1.1223E-04 ( 174
2.Q4BOE-04 ( 140
9.IHME-05 ( 174
1.2268E-04 ( 1
1.2006E-04 ( 280
1.5906E-04 ( 280
1.9669E-04 ( 287
1.8666E-04 ( 167
1.5109E-04 ( 167
4.08I8E-04 ( 241
2.7100E-04 ( 204
1.1506E-04 ( 252
9.2478E-05 ( 333
5.1740E-05 ( 193
1.159BE-04 ( )0
1.2726E-04 ( ,10
1.1393E-04 { 282
1.1867E-04 ( 302
1.3136E-04 ( 363 1
5.4967E-05 ( 317 )
7.7910E-05 ( 317 )
8.5375E-05 { 312 )
7.4755E-05 ( 125 )
5.5935E-05 ( 297 )
6.2699E-05 ( 7B5 )
3.8070E-05 { 135 )
6.7210E-05 ( 107 )
1.0077E-04 ( 16 )
7.B704E-05 { 31 )
1.8200E-04 { 356 )
7.1286E-05
1.3087E-04
1.8477E-04
1.1667E-04
1. 3419004
H.9505E-OS
7.6412C-05
1.9975E-04
8.2135E-05
1.0222E-04
8.8772E-05
1.365BE-04
I.4670E-04
1.5666E-04
1.349BE-04
2.7135E-04
1 .8576E-04
H.3034G-05
7.1065E-05
4.1603E-05
7.5202E-05
1.2529E-04
1.5779E-04
9.3236E-05
1.6232E-04
4.6716E-05
9.I671E-05
5.1243E-05
5.8330E-05
4.3921E-05
6.75B3E-05
4.6179E-05
5.5102F-05
6.9602E-05
B.663IE-05
1.0342E-04
( 341 )
( 234 )
( 234 )
( 260 )
( 139 )
( 238 )
( 174 )
( 140 )
( 140 )
( 140 )
( 280 )
( 290 )
( 287 )
( 192 )
( 193 )
( 241 )
( 204 )
( 252 )
333 )
119 )
29 )
282 )
282 >
363 )
208 )
21 )
349 )
25 )
349 )
304 )
349 )
304 )
16 )
16 )
22 )
116 )
-------
    TENNESSEE  VALLEY AUTHORITY - KINGSTON POWER  PLANT







                                    NHM--S02




YEARLY MAXIMUM  3-HOUR CONC=  2.2289E-03  DIRECTIONS   0.   DISTANCES  0.7  KM   DAY=308.  HO«R=1500.


RAMGE 0.7
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
" 16
•vj 17
~-J 18
19
20
21
22
23
24
25
76
27
28
29
30
31
32
33
34
35
36

.4737E-03
.6088E-03
.3929E-03
.6S68E-03
.5900E-03
1.3415E-03
1.1068E-03
1 .3424E-03
1.5053E-03
1.361 7E-03
1.4542E-03
1.3132E-03
.1687E-03
.4973E-03
.2241E-03
.5049E-OJ
.3067E-03
.2842E-03
.2226E-03
.1118E-03
.0371E-03
.1818E-03
.0690E-03
1 .0062E-03
8.7907E-04
8.3951E-04
7.6P22E-04
t .0479E-03
7.6922E-04
6.4997E-04
6.B424E-O4
7.9594E-04
7.0891E-04
9.1541E-04
1.1239E-03
2.2289E-03
HIGHEST
KM

( 321 )
( 293 )
( 255 )
( 292 )
( 325 )
( 320 )
( 253 )
( 295 )
( 295 )
( 295 )
( 301 )
( 301 )
( 291 )
( 290 )
( 309 )
( 131 )
C 190 )
{ 153 )
( 338 )
( 338 )
( 333 )
( 152 )
( 343 )
( 302 )
( 302 )
( 317 )
( 314 )
{ 314 )
( 314 )
( 33 )
( 179 )
( 179 )
( 179 )
( 42 )
( 269 )
( 308 )
1-HOOP COICENTflATIflN AT
1.3 KM

9.7329E-04 262
1.1014E-03 3?6
1.0050E-03 276
9.9972E-04 6
9.8070E-04 275
8.7165E-04 320
7.1334E-04 322
1.0043E-03 322
7.9716E-04 322
B.3005E-04. 216
9.1281E-04 ( 280
7.8990E-04 ( 2BO
7.B175E-04 ( 291
9.9581E-04
8.0711E-04
8.8370E-04
1.0524E-03
8.B661E-04
7.7201E-04
6.8550E-04
9.3090E-04
9.1000E-04
9.0964E-04
1.0002E-03
B.2442E-04
7.0183E-04
6.7181E-04
9.4547P-04
6.9237E-04
7.1727E-04
290
217
256
359
281
338
338
333
206
314
302
10?
317
314
314
334
33
6.4670E-04 { 33
5.0849E-04 ( 179
5.B576E-04 ( 48
8.2368E-04 ( 48
8.9637E-04 ( 269
1.6620E-03 ( 319
EACH


)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
1
)
)
)
)
RECEPTOR
2.5 KM

7.4489E-04 { 341
7.0314E-04 ( 341
7.2324E-04 f 294
6.7872E-04 ( 260
6.2115E-04 { 301
5.6698E-04 ( 187
5.8'603E-04 ( 207
5.4724E-04 { 180
4.378RE-04 ( 322
4.6587E-04 ( 306
6.0552E-04 ( 280 )
5.3759E-04 ( 280 )
5.4171E-04 ( 295 )
6.0192E-04
7.7832E-04
7.2584E-04
7.9172E-04
6.2592E-04
4.2478E-04
4.5274E-04
8.6143E-04
7.041 1E-04
7.3197E-04
7.0660E-04
5.0947E-04
4.9480E-04
6.3703F.-04
6.2919E-04
4.8193E-04
4.7161E-04
6.1654E-04
3.0661E-04
4.5554E-04
6.2870E-04
251 )
240 )
230 )
359 )
281 )
281 )
280 )
30 )
232 )
232 )
302 )
302 )
265 )
350 )
312 )
334 )
285 )
285 )
334 )
107 )
16 )
6.7116004 ( 16 )
1.1235E-03 ( 356 )

4.7 KM

6.7823E-04
7.9062E-04
9.5952E-04
6.1042E-04
6.9329E-04
6.B094E-04
5.1862C-04
7.7959E-04
5.8R86E-04
5.6975E-04
5.6946F-04
4.B281E-04
6.0626E-04
7.B966E-04
7.6790E-04
9.1140E-04
7.4375E-04
5.1721E-04
5.9630E-04
2.6889E-04
4.91R1E-04
5.2740E-04
5.BH96E-04
5.5459E-04
6.5970E-04
2.5052E-04
3.7172E-04
4.0932E-04
3.6509E-04
3.3442E-04
4.1039E-04
2.1356E-04
2.6649E-04
3.04BOE-04
3.B104E-04
7.0981E-04

8.7 KM

( 141
( 341
( 294
( 260
( 139
( 238
( 209
( 214
( 174
( 1
( 330
( 217
( 2B7
( 251
( 217
( 283
( 231
4.7913E-04 ( 341
7.8587E-04 ( 214
8.3667E-04 ( 234
4.0281E-04
5.5374E-04
6.2485E-04
3.6900E-04
5.3572E-04
5.2790E-04
4.7480E-04
4.1939E-04
4.9193E-04
6.1990E-04
5.3901E-04
5.8709E-04
161
141
238
209
140
174
1
209
280
192
251
193
6.1707E-04 { 283
5.7531E-04 ( 342
( 252 ) 4.3206E-04 ( 20
333 ) 4.5355E-04 ( 333
347 ) 2.2220E-04 ( 358
29 > 4.4731E-04 ( 29
2B2 ) 7.1049E-04
282 ) 7.3923E-04
127 ) 6.0934E-04
( 363 ) 6.5563E-04
( 349 ) 2.8244E-04
( 350 ) 4.2989E-04
( 312 ) 3.0115E-04
( 125 ) 3.7557E-04
( 46 ) 2.6037E-04
( 285 ) 4.4966E-04
( 135 ) 2.7844E-04
( 334 ) 2.5702E-04
( 16 ) 3.8151E-04
( 168 ) 4.7708E-04
( 183 1 5.2647E-04
282
282
283
363
21
349
232
349
304
149
304
311 )
289 )
289 )
186 )
-------
                                                        MAXIMUM DAILY CONCENTRATIONS
                                            DAT     74-HOUR  CONCENTRATION    DIRECTION    DISTANCE

                                            315           5.4597E-04             .16          1.33
                                            319           5.322IE-04             35          0.71
                                            309           4.9050E-04             36          0.71
                                            331            .4720E-04             16          0.71
                                            356            .4502E-04             36          1.33
                                            22?            .154RC-04             16          0.71
                                            241            .IIBIBE-04             16          4.65
                                            284            .9B1BE-04             36          0.71
                                            35-5            .9274E-04             36          1.33
                                            340            .B087E-04              5          0.71
                                            342            .7908E-04             16          0.71
                                            332            .774BE-04             17          0.71
                                            23J            .72546-04             16          0.71
                                            218            .5897E-04             16          0.71
                                            354            .5BBBE-04             36          0.71
                                            298            .5670C-04              2          Q.71
                                            792            .51136-04              4          0.71
                                            321            .3788E-04             36          0.71
                                             17            .3573E-04             36          0.71
                                            185            .3326E-04             36          0.71
00
i
00
-------
    TENNESSEE VALLElf AUTHORITY - KINGSTON POWER PLANT
    60LVEM11 *KFINEI1 COAL STUDY

    KINGSTON PLANT-MAXIMUM POWER LOAD CONOITIONS-SRC SU2

    STACK  »  1--KINGSTON STACKSM-4, MAX.LOAD SRC 502
    STACK  »  2--KINGSTON STACKSI5-9, MAX.LOAD SRC S02
     STACK


         1

         2
         STRATEGY
           TYPE

           NOM

           NOM
                        (GMS/SFC)

                          750.00

                         1177.00
       RANGE(KM)=    0.71    1.33    2.
       SEASONAL  VARIATIONS  BY  CASE I
                1    1.00    1.00    l.
    JYP=75
    ISTAB=
    AWS =
    TEMPs
    AFV =
    AFVRs
    HLH1 =
N RATE PART
C)
0
0
49
00
4
1.7
290.
238.
238.


4.65
1 .00
4
1.5
290.
333.
333.


B
'
4
1.1
290
4
4
EMISSION RATE
(GMS/SEC)
0
0
.69
.00
4
0.8
. 292.
. 317.
. 317.
.00
.00

1.00
3
294.
358.
358.



1.00
2
296.
356.
356.
HEIGHT
(M6TF.RS)
76.20
91.44

1.00
1 1
298. 300.
350. 2.
350. 2.
DIAMETER EXIT VELOCITY TF.M
(METERS) (M/SEC) (DEC
4.
5.

1.00
1
301.
0.
0.
27
03

1.00
3 3
302. 302
9. 30
9. 30
14.26
13.66

1.00
3
. 303.
. 29.
. 29.
427
421

1.00
4 4
303. 303.
30. 27.
30. 27.
P
.K)
.40
.90


4
302.
25.
25.
VOLUMETRIC FLOM
(H**3/SKC)
204
271


4 4
300. 299.
li. 26.
11. 26.
.20
.44


4
5.9
298.
29.
29.




4
4.7
296.
51.
51.
03
I
          = 6 JDAYsl68
        44444
      2.9  1.2  1.3  2.5  0.9
      305.  295. 334. 323.  26. 238. 333.
      2134. 2134. 2134. 2134. 2134. 2134. 2134. 2058. 1982. 1906. 1830. 1754.
      1678. 1602. 1524. 1524. 1534. 1524. 1524. 1524. 1524. 1524. 1524. 1524.
JYRs75 IMO=12 JDAY=336
ArfS = 2.6 2.2 1.6
TEMP= 273. 272. 271
AFVa 208. 239. 259
AFV«= 208. 239. 259
HLH1 = 305. 305.
761. 837.
JYR=76 IMOs 1 JDAY=
ISTABs 1 3 4
AWS= 5.0 7.2 7.6
1.3
. 271.
. 219.
. 239.
305.
914.
4
3
7.3
1.0
270.
129.
129.
305.
914.

3
8.7
1.0
270.
143.
143.
305.
914.

4
7.9
0.9
270.
16.
16.
305
914

4
7.7
0.5 0.9
269. 270
5. 59
5. 59
. 305.
. 914.

4 3
6.4 6.1
J
1.8
. 272.
. 74.
. 74.
381 .
914.

1
5.4
l
i
2.0
275.
2.
2.
457.
914.

1
6.2

2.8
278.
5S.
58.
533.
914.

1
7.5
1
3.3
281.
2.
2.
609
914

1
6.2
)
3.8
282.
1.
1.
. 685
. 914

1
5.7
1
3.8
284.
8.
8.
.
.

1
6.3
2
3.7
284.
39.
39.



1
6.4
3
3.7
284.
38.
38.



5.9
4
4.4
283.
20.
20.



6.4
4
4.4
281.
15.
15.



6.7
f\ f t\
4
3.8
279.
54.
54.



a.t
^ £ «i
4
3.9
277.
60.
60.



8.6
1 £ T
4
3.8
277.
46.
46.



7.1
OC i
4
2.7
275.
53.
53.



6.2
OC £
4
3.0
275
83
83



6.0
•5 L K
TEMP
AFV
           272.
           154.
         '. » £ r 1 • « r u • * r »• • * v u . m. v * * * ••• v • *•••'• «.«•*•» »-„•	..	 ,	     -     -                           a-a   t f ^  * t n  4 T f\
         1. 162. 152. 141. 162. 150. 165. 168. 168. 169. 160. 173.  167.  162.  176.  178.  163.  163.  162.  162. 161. 163. 178.  79.
AFVR= 154. 162. 152. 143. 162. 150. 165. 168. 168. 169. 160. 173.  167.  162.  176.  17R.  163.  163.  162.  162. 161. 163. 178. 179.
HLH1=  400.  400.  400.  400.  400.  400.  400.  438.  476.  514.   552.   590.
            628.   666.  710.  710.  710.  710.  710.  7tO.  710.  710.  710.  710.
     JYR=76 1MO= 1  JDAY=  «
     ISfAB=  44331333321    I
     AWS=  7.2  H.O 10.6 11.0 10.3 11.2 10.7  8.2  9.6  9.3  9.2  9.0
     TEMP* 276.  275.  274. 272. 271. 270. 269. 268. 268. 767. 267. 26P.
     AFV=  147.  142.  153. 15fl. 167. 160. 164. 163. 163. 163. 161. 161
                                                                     1     1
                                                                   6.6   6.9
                                                                   267.  767.
                                                                   165.  167,
                                                                               1121343444
                                                                             6.B   7.5   7.2  7.7  5.8  5.9  5.8  6.8  6.1  5.J
                                                                             267.  266.  266.  265. 264. 264. 264. 263. 262. 262.
                                                                             164.  174.  164.  150. 163. 164. 151. 150. 150. 150.
     AFVR= 147.  14?. 153. 158. 167. 160. 164. 163. 163. 161. 161. 161. 165. 167.  164.  174.  164.  150.  163.  164.  151.  150.  150. 150.
     HLH1=  853.   R5J.  851.  rt51.  853.  853.
                                                      96R.  8H1.  *)9«.  913.  929.
            941-
                        9>5.  975.  975.  975.  975.  975.  975.  975.  975.  975.
-------
'IS 'dS '9*
'IS 'ZS '9t
•Obd M6Z 'Zbi




'OS 'ES 'Od
'OS 'ES 'OZ
•SBC *9BZ *b8Z
I'S t'9 S'S
V t t

'££ 'it 'It
'££ 'It 'It
'tUt '9BZ 'tb£
B'» I'S B'9
t t t

'OS 'St 'Ot
'OS 'it *0>
'61Z *08Z 'Z8Z
I'O S'O O'l
t t t


'Oil *S9l 'S9I
*0il 'S9I *S91
'OiZ 'OtZ 'lid


bbUI Utb
'Z9 *»S *Bd *id 'Od 'b* Ml 'S 't
*£bZ 'Sbd 'tbd 'bbd '8bd 'BbC -bbZ '<*bt 'Sbd
t t t 1 I I | ||


'bbbb *bb66
'Ed '££ 't£ 'S£ -SE '»£ '*d 'id '9?
*£Z '££ 'IE 'SE 'S£ ME 'tt 'il '91
MbZ M6Z M6Z 'E6d '£bd '£6d '£64 Mbd M6Z
£'S 6'9 S'9 S'b ft E'i fl O'l S'9
* * • t E £ || ||
•bdBI 'b£6|
•OHI '£16
•SE 'SZ '0£ 'Ed 'id MZ '£> '0» 'It
•SE 'SZ '0£ *£d 'id Md "ft 'Ot 'It
'88Z '8BZ 'bBd •Obd'Mbd Mbd Mbd 'bBd 'BBZ
8'9 i'9 6'S 9'S b'9 f9 0*9 E'9 O'S
t t t E £ i I | |
•nid MEIZ
'0£EI '»90l
'SS '9Z Mtf *Ed 'il '8 *EI 'I '£
'SS '9Z M> '£Z *l| '8 "El *l '£
'E8Z 'S8Z '98Z *ibd *t8d 'tBZ 'SBd 'tOl 'E8Z
ZM B'E b'E B'£ t't Q't S*Z 9'd 9'd
» * t E 1 I 1 I i

*Slb 'Sib
'tit 'Ell
"891 'Oil *9ll '911 '9SI '£91 *iSl -|-9| '091
'891 'Oil '911 -911 "9Sl -E91 'ISI M-SI *09l
Mtd 'dit 'did 'did "Zid 'Eld 'Etd 'Eld -EtZ
» > * E £ | | | i

I»B *t9 itS '00V '00* 'OUt 'UOfr ' OQt ' OOt •00^
"i 't *> *9tt '9dd 'as
1 1 r •> •. 4.
1 1 I t t t

*bb6b 'bbbb 'bbbb 'bbbb *bbbb
"lfrt£ *8b»Z 'bVd I'O '0
•id 't -B 'It 'dfc 'I!,
'Ed 't '8 'it "dS 'IS
•b8d Mad '»BZ 'Bid 'Sid 'SiZ
t'9 Z'E fi 9M BM f£
1 1 I £ t t
*bdbl 'bdal 'bdBI 'bCBI *b£8l
'*B9 '9S* '8dd '0 '0
•4S •*» '» '£S 'd9 -£S
'dS 'tit 'tt *ES 'Z9 'ES
•SBZ 'dad 'bid 'tid Mid MiZ
S'fr t't b'r £*£ b'E d'E
I 1 I £ t t
*»EIZ MEId '>£ld Mtld '>EIC
'Bbl *ZES *99Z '0 '0
'El '91 "SI *0£l 'SSI 'SSI
'El. '91 'SI '0£| 'SSI 'SSI
MBd *8id *9id *>tZ "ElZ *£IZ
fl fl b'O »M fd £'£
» E E E f t

'Sib 'Sib 'Sib -Slb 'Sib
'6»9 'SBS MZS ' L±t ' L±t
•e9l *tK| 'S9I '991 '*9l '991
•«>9l 'tSl 'S91 '991 *»9I '991
'EiZ 'lid 'tid 'Eld 'Irld 'til
E E E El f

•tl
9M
t

*bbbb
•o
•zs
'SiZ
S'E
*
"bdBI
•o
Mtz
f z

•o
•ssi •
•ssi •
t't
t

•1.16
•!.9I '
'S9I '
•»l£ '
t

•us
•ttz

t

'9S Mb 'SE 'dS
'9S MB *SE *ds
'bid '6td *obd Mbd
9 M b'O EM B * 1
t t t t
tb =A»UP t =OHI
= IHTH
= UAJ\I
= S«»
=uviai
9t=bAr
*bbbb "bbbb "t>-iU 'ttVL
•o
•at
•6t
'9td
*
•bdb
•o
•ES
Mid
U'Z

•o
'SSI
SSI
9'E


•Sib
>9l '
>tz
£

'0 *0 '0
MS MS '6* M9
MS MS 'bt M9
•9ld 'iid -Bid 'bid
£*> b'E S'E l'£

1 'bZbl '96SI 'bSEl
'0 '0 '0
'it 'tL Ml 'B9d
MiZ MtZ 'did 'tiZ
S'd £•£ fd SM
t t 9 t :

•o 'o -o
*09I '091 '091 'SSI
'091 '091 '091 'SSI
S'E r» k't I't

Ot =A\TOf £ =CM 5
'Sib *SOb MlB
'ISfr 'tSfr *IS»
'1.91 *£9I *£9l 'Oil
'S91 '£91 *Z9l 'Oil
E £ E t =
id =A«til' I =<)M V
sllllH
= AJV
= dt.3I
9i^ASf

= IH'IH
= dAJV
= dh31
= EH¥
=H»JSI
^l=dAT

= IHTH
= MAJW
-AJV
~ = SM«
=bWlSI
u = aAf

= IHTH
= UAJ«
-AJV
= aH31
= tc«
i = d*C
                                             •tl9  'ill*  MI9   MI9  'il9  MI9  MI9  'il9  'tl9  'M9   	,
                                             •SES  '80S  'IVt   't*t  'Lit  'OOf  '00»  'OOt  *00fr  'Oilb   'not,  Tift*
:!t!  :"! :i"  :?t!  :**\ :*" :»•:??»:•«• :^«  :»• :»»• :•*•  •»" -m -49,  •«*, -K,  -fit -»!r-nr
•911  -S8I Mil  'Oil  -891 'B91 '991  '£91 M91 '£91  Mvl '991  III   »i| "191 'd9l  'B9l 'ail  '£81 -»9I Mtl  'til 'f.,1
'S9d  -S9Z -99Z  -99Z  't9Z '19Z 'i9Z  M9Z '89Z '89Z  'b9Z '89Z t«9Z  M9£.-19£ M9Z  M9d '69Z  'Otd 'Oid Mtd  'Ztd 'ZIZ  tL, -„
 fS  9't  S-S   1'9   i'S  1-9  r«   1-8  1-6  d '01  I' 01 S' 01  9 • 01  d '01 d' 8  ft  6'8  d'O. 6'8  Z't  £"  9'OlfB  ,'01' =
                             >tllIlllIEE£E£tfff  =H»1SI
                                                                                                tl =
                                                                                                                        O
                                                                                                                        00
-------
JVR=76 110= 4 JOAY=101

TEMP* 279. 277. 776. 276. 275.
AFV= 196. 192. 219. 22«. 231.
AFV«= 186. (92. 219. 279. 731.
HLH1= 0. 0. 0. 0.
1116. 1302. 1493. 1493.
JYP=76 1^0= 4 JOAY=105
ISTA8= 44444
AWS= 2.6 1.9 1.5 1.9 1.3
TEMP= 283. 283. 282. 280. 280.
AFVs 124. 176. 214. 705. 60.
AFVR* 124. 176. 214. 205. 60.
HLH1* 0. 0. 0. 0.
1596. 1862. 2134. 2134.
JYR=7h IMO= 4 JOAY=107
AHS= 3.4 3.6 3.6 2.5 1.2
TElPs 28*. 287. 286. 286. 286.
AFV= 5S. 62. 54. 40. 11.
AFVR= 59. 62. 54. 40. 11.
HLKls 244. 244. 244. 244.
1776. 1973. 2225. 2275.
CO
£2 JY« = 76 IM3= 4 JD»Y=117
ISTAB= 33333
TKHP= 282. 281. 281. 280. 280.
»FV= 103. 137. 124. 137. 146.
AFVRs 103. 137. 174. 137. 146.
HLHls 457. 457. 457. 457.
1255. 1388. 1524. 1524.
JYR=76 113= 4 JD»Y=118
TSTABs 44444
AWS= 2.3 2.7 3.6 3.4 4.3
TEMP* 277. 277. 276. 276. 275.

4
274.
241.
743.
0.
1493.

4
1.3
280.
55.
55.
0.
2134.

0.8
295.
332.
332.
244.
2225.

3
279.
146.
146.
457.
1524.

4
5.7
, 275.

4
274.
243.
243.
0,
1493

4
0.7
280.
43.
43.
0
2134

0.6
785.
2.
2.
244
2225

3
278.
160.
160.
457
1524

4
4.3
275.

4211
275. 279. 283. ?86.
244. 244. 254. 792.
744. 244. 254. 797.
0. 186. 377.
. 1493. 1493. 1493.

2471
1.2 0.8 1.1 2.0
281. 284. 288. 792.
220. 211. 320. 7.
220. 211. 320. 7.
0. 766. 532.
. 7134. 7134. 2134.

2.2 2.3 2.4 3.9
286. 289. 793. 295.
87. 80. 64. 54.
87. 80. 64. 54.
. 244. 491. 738.
. 2725. 2225. 2225.

3322
279. 279. 279. 279.
159. 164. 166. 167.
159. 164. 166. 167.
. 457. 590. 773.
. 1524. 1524. 1524.

3111
2.5 2.1 7.4 5.0
277. 280. 282. 284.

1
287.
5.
5.
558.
1493.

1
2.9
295.
2.
7.
799.
21 34.
1
6.1
297.
16.
16.
985.
7275.

1
280.
170.
170.
856.
1524.

1
5.1

1
289.
3.
3.
744
1493

1
3.6
296.
2.
2.
1064
2134
1
6.4
298.
46.
46.
1232
2725

1
281.
166.
166.
989
1574

1
3.8

1 1
790. 291.
7. 5.
7. 5.
. 930.
. 1493.

1 2
3.9 2.5
297. 298.
8. 10.
8. 10.
. 1330.
. 2134.
I 1
5.5 4.1
298. 299.
11. 12.
11. 12.
. 1479.
. 2225.

1 1
287. 283.
167. 169.
167. 169.
. 1122.
. 1524.

1 1
4.4 5.4

I
703.
8-



1
3.6
799.
11.
11.


1
4.3
799.
14.
14.



1
784.
167.
167.



1
5.4
7«>0.

1
293.
4.
4.



1
3.3
299.
8.
8.


3
4.0
298.
32.
32.



1
285.
167.
167.



1
6.3
290.

3
293.
10.
10.



2
3.3
798.
49.
49.


3
2.0
298.
53.
53.




285.
162.
162.



3
7.3
289.

4
293.
36.
36.



4
3.8
797.
58.
58.


4
3.6
297.
60.
60.




284.
178.
178.



4
6.1
288.

4
291.
43.
43.



4
4.8
295.
56.
56.


4
4.2
295.
43.
43.




283.
212.
212.



4
6.3
287.

4
288.
48.
48.



4
5.4
294.
72.
72.


4
3.3
293.
40.
40.




282.
214.
214.



4
5.7
286.

4
286.
70.
70.



4
5.3
793.
68.
68.


4
3.3
292.
49.
49.




280.
237.
237.



4
5.8
285.
« n *»

4
284.
71.
71.



4
3.7
292.
74.
74.


4
4.0
291.
35.
35.




279.
206.
206.



4
4.7
283.
« a f.

4
283.
55.
55.



4
3.5
291.
54.
54.


4
4.3
289.
32.
37.




278.
213.
213.



4
3.5
283.
4 O C
AFV=  226. 193. 188. 207. 190. 173. 180. 174.  172.  199.  182.  158.  166.  172.  184.  165. 178. 175.  179.  170.  182.  182.  186.   85,
AFVR = 226. 193. 188. 202. 190. 173. 180. 174.  172.  199.  182.  158.  166.  172.  184.  165. 178. 175.  179.  170.  182.  182.  186.  IBS.
                         914.  914.  914.  914.  952.   990.  1078.  1066.  1104.
HLH1=  914.  914.  914.
      1142. 1180. 1219. 1719. 1719. 1219. 1719.  1719.  1219.  1219.  1719.  1219.
tSTAB= 4444444 4211
AHS = 2.0 1.2 1.2 1.5 1.3 0.9 0.4 0.9 1.1 2.9 3.7
TEMPs 280. 279. 279. 278. 778. 278. 278. 280. 284. 797. 290.
AFV= 42. 67. 40. 37. 49. 125. 177. 76. 11. 43. 55.
AFVR = 42. 67. 40. 37. 49. 125. 177. 76. 11. 43. 55.
HLH1= 0. 0. 0. 0. 0. 0. 0. 156. 317.
1
4.R
297.
78.
'8.
47.
59.
59.

1
5.3
297.
57.
57.


4.8
296.
55.
55.


5.6
296.
51.
51.


6.3
29«.
53.
53.


6.4
293.
45.
45.


5.8
290.
12.
12.


4.1
289.
11 .
1 1 .


4.4
290.
18 .
18.

       9J6.  1092.  1250.  1750.  1750.  1250.  1250.  1750.  175". 1250. 1250. 1750.
-------
        JYR=76  Hfl=  5  .IDAY=t2B
        ISTAfls   44444444)3
        AHSr   1.9  2.7   3.3   4.0   4.1   3.6  3.3   2.3   2.9   1.5
        TEMP*  290. 290.  290.  290.  290.  2«>0.  290.  290.  291.  291,
  2    1    1    t    1    1
3.2  3.3  3.9  5.9  5.6  5.9
792. 297. 293. 292. 292. 291.
        AFV =    65.   56.   70.   55.   71.   67.  144.  1-50.  140.  137.  «70.  156.  167.  1*5. 145. 158.
        AFVR=   66.   56.   70.   55.   71.   67.  144.  150.  140.  137.  170.  156.  167.  165. 145. 158.
        HLH1=   762.   762.   762.   762.   762.   762.   762.   BOO.   838.   976.   914.   952.
               990.  1026.  1067.  1067.  1067.  1067.  IO67.  1067.  1067.  1067.  1067.  1067.
  1
6.4
  I
7.2
  3
7.2
  3
7.B
  4
B.4
  3    3
6.4  5.4
  3
2.8
709. 247. 2B6. 285. 215. 264. 284.  264.
165. l«0. 169. 169. 175. 173. 177.  175.
165. 160. 169. 169. 175. 173. 177.  175.
f


:f

c
       JYR=76  1*0=  5  JOAY=140
   CO
   00
   ro
ISTARs
AHS =
TEHPs
AFVs
AFVR*
HMMs

_76
ISTABs
AMSs
TCMPs
AFVs
RFVRs
4
2.4
281.
177.
177.
40.
1 ISO.

4
2.1
283.
106.
106.
444
1.9 2.4 3.2
280. 279. 279
145. 140. 180
145. 140. 160
40. 40.
1335. 1527.
5 JOAT-141
444
2.1 1.9 1.9
283. 282. 281
194. 203. 189
194. 203. 189
4
1 .6
. 279.
. 165.
. 165.
40.
1527.

4
0.9
. 280.
. 106.
. 106.
4
2.1
276.
146.
148.
40.
1527.

4
1.2
280.
15.
15.
4
2.8
278.
165.
165.
40.
1527.

4
t_
.7
280.
31.
31.
2 3
0.5 0.8
261. 284
243. 184
243. 184
40.
1 1
1* t 1
.3 1.7
. 287. 2«9.
0. IBS.
0. 185.
225. 410.
1527. 1527. 1527.

4 3
0.7 0.9
262. 286
218. 2
218. 7

2 1
. 289. 292.
7. 0.
. 7. 0.
1
290.
11.
It.
595.
1577.

1
793.
7.
7.
1
291.
5.
5.
780
1527

1
294.
9.
9.
1 1
29?. 293.
7. 6.
7. 6.
. 965.
. 1527.

1 1
295. 296.
3. 356.
3. 358.
1
294.
54.
54.



1
297.
14.
14.
1
294.
45.
45.



3
797.
10.
10.
3
294.
171.
171.



3
297.
13.
13.
4
293.
171.
171.



4
297.
40.
40.
4
292.
152.
152.



4
295.
42.
42.
4
290.
133.
133.



4
292.
50.
50.
4
7B8.
138.
138.



4
290.
79.
79.
4
266.
147.
147.



4
289.
102.
102.
4
2 a
. 8
285
135
135



4
288
65
65
       HLHla     0.     0.     0.     0.     0.     0.     0.   190.   380.   570.   760.  950.
              1140.  1330.  1524.  1524.  1S24.  1524.  1524.  1524.  1574.  1524.  1524. 1524.
            F6  IilOs  5  JOAY3142
       ISTAQe   444444447.21     I
       AWS =  2.5  2.2   2.6   2.5   1.6   0.7   0.5   0.8   0.8   1.1   2.2   2.0
       TEHPs 286. 286.  285.  785.  284.  283.  283.  285.  28fl.  291.  294.  296.  297.  298.  298. 299
       AFV=    84.   86.   89.  114.   59.   97.  191.  171.    2.    3.    5.    3.
       AFVRs   84.   86.   89.  114.   59.   97.  191.  171.    2*    3.    5.    3.
       HLHls    0.    0.     0.     0.     0.     0.     0.   171.   342.   813*
             1026.  1197.  1377.  1372.  1172.  1372.  1372.  1372.  1372.  1372.  1372.  1372.
1
7
7.
3.
3.
94
1
2.9
298.
3.
3.
. 855
1
2.5
298.
7.
7.
1
2.9
299.
to.
10.
3
2.2
299.-
14.
14.
4
3.0
299.
31.
31.
4
2.5
298.
72.
72.
4
2.6
297.
70.
70.
4
4.8
294.
167.
167.
4
3.3
293.
170.
170.
4
3.3
291.
171.
171.
4
3.8
290.
177.
177.
       YEAR BASED ON   20.  DAYR
-------
   TENNESSEE VALLEY AUTHORITY  -  KINGSTON POWER PLANT


                                   NOM—S02

      MAXIMUM MEAN CONCs   1.9796E-04  DIRECTION* 3fi  DISTANCES  0.7 KM
                  ANNUAL  MEAN  CONCENTRATION AT F.ACH RECEPTOR
    RANGE    0.7 KM          1.3  KM         2.5 KM          4.7  KM
8.7 KM
I


(


r


r





(


OIR
1
2

4
5
6
7
8
9
10
It
12
13
14
7 15
00 16
co 17
19
20
21
22
23
24
75
26
27
28
29
30
31
32
33
34
35
36
1.01069E-04 fl.(504'»!»E-05 6.64401E-05 4. (WISE-OS 2.71452F-05
H.11263E-0-5 6.10594E-05 4.77209F-05 3.37500F-05 2.40345E-05
&.B0127E-05 4.9884BE-05 3.71301F.-05 2.76529E-05 2.79584E-05
&.61480P-OS 4.88255E-05 3.49577E-05 2.3«512E-05 1.91380F-05
5.90481E-05 4.473R3E-05 3.2J45BE-05 2.44645E-0-5 2.17227F.-05
1.95496E-05 3.05154E-05 7.33391F-OS
2.20971E-OS 1.R3563E-05 .584R3E-0I5
.47H51E-05 1.3R772E-05 .33491F.-05
.31966F-0-> 1.30749E-05, .30246F.-05
.10392F.-OS 1.30M7F.-05 .1J2R8E-05
.33133E-05 1.31145E-05 .30400E-05
.51947E-OS 1.39233E-05 .34718F-05
.37161E-05 1.79486E-05 .57610E-05
.03709E-05 3.20107E-05 2.21758F.-05
.01140E-04 6.40B61E-05 4.22111F.-05
.3B936E-04 9.30S23E-05 8.13340E-05
.15180E-04 7.44985E-05 5.60954E-05
.47379E-OS 4.1430BE-05 2.99521E-05
.103096-05 2.26RB2E-0'i
.747926-05
.379566-05
.30931E-05
.10071E-05
.30016E-05
.30061E-05
.30339E-05
.31549E-05
.33926E-05
. 35355E-05
.33945E-05
.31B73E-05
.3355SE-05
.493B6E-05
2.10757F.-05
.56388E-05
.35265E-05
.30677E-05
.30071E-05
.30293E-05
.30740E-05
.30775E-05
.32780E-05
.37875E-05
.41076E-05
.37832E-05
.329126-05
.32374E-05
.43245E-05
.91846E-05
.B7842E-05
.4R144F.-05
.34456E-05
.30455E-05
.30134E-05
.32510E-05
.37196E-05
.32994F-05
.33505F-05
.40913E-05
.46100E-05
.4091 3E-05
.33443^-05
.31234E-05
.364B5F-05
.fi766BE-05
3.S4739E-05 3.42658E-05 ?.71860f>05
.80710F.-05 .SSRSIF.-OS
.42561E-OS .35537E-05
.31694F-05 .37173E-05
.30078F.-05 .10017F-05
.43693F.-05 .44407E-05
.30220E-05 .30070E-05
.43515E-05 .49226F-05
.75747E-05 .75074F-05
.06036F.-05 2.00330E-05
.1B557E-05 2.53334E-05
.93669F-05 5.90641E-05
,fi05f>1E-05
.72855K-05
.5964RE-05
.39714F-05
.401 79E-05
.301«7F.-05
.30067E-05
.3253JE-05
.38849E-05
.32745F-05
.31941E-05
.3ft943E-05
.40779E-05
.36943F-05
.31890E-05
.30405F-05
.3706SE-05
.450SOE-05
.93213E-05
.57068E-05
.79731E-05
.444BOF-05
.34488E-05
.43RHRE-05
.30062E-05
.3001fiE-05
.31233F-05
.35472F-05
.11309E-05
.30881E-05
.33737E-05
.360B3T-05
.31737F-05
.30R6RE-05
.30126E-05
,30fi74E-05
.35637E-05
.59123^-05
1.97963E-04 1.78601E-04 1.31825E-04 7.2505BF-05 4.21323F.-05
-------
TENNESSEE VM,t,EY AUTHORITY  -  KINGSTON POWER PLANT


                                MOM—SO2

   MAXIMUM 24-HODR CONC =  4.7493E-04   ninECTION=360.  DISTANCE*  0.7 KM   OAY=11P.
                     -HOUR CONCENTRATION  »T EACH RECEPTOR
                               t.3  KM                 2.5 K1
                                                                            4.7  KM
                                                                                                  B.7 KM
{ 29")
( 299
( 298
( 292
( 340
( 340
( 340
( 340
( 340
( 342
( 342
( 342
( 342
( 342
( 342
( 272
( 332
( 332
( 332
( 332
( 332
( 332
( 332
( 315
( 315
( 315
( 315
( 315
( 315
( 315
( 315
( 17
( 17
1.7I01E-04 { 30B
1.8790E-04 ( 2«>»
1.7476E-04 ( 29B
2.1541E-04
2.8356E-04
1.9155E-04
7.1803E-05
2.atfllE-05
1.3194E-05
1 .3155E-0.*
1.4925E-05
2.593RE-05
6.3409E-05
1.1784E-04
2.30R5E-04
3.03H6E-04
2.5224E-04
1.9401E-04
1.1079E-04
5.07R4E-05
2.2108E-05
1.427RE-05
1.109BE-05
1.3-J82E-05
1 .4479E-05
1.4550IT-OS
1.«5«1E-05
2.H651E-05
3.51-51E-05
2.R650E-05
1.U519E-05
1.4906E-05
2.5050C-05
( 17 ) 9.6206E-05
( 17 > 1.0017E-04
( 51" ) 4.S712E-04
292
340
340
340
340
340
342
34?
342
342
342
342
'111
332
332
337
332
312
332
332
315
315
315
315
315
315
3(5
315
17
17
17
17
1.56P8E-04
1 .0035E-04
1.I152E-04
1.3100E-04
1 .846BE-04
1.0646E-04
3.8551E-05
1.6579E-05
1.3235E-05
1 .95J6C-05
1 .T649r-05
1.9505E-OS
3.9251E-05
7.1589E-05
I.5I39E-04
7.6169E-04
1.8I33E-04
1.1124E-04
7.0137E-05
3.8179E-05
1.9347E-05
1.3919E-05
I.3215E-05
t. BOISE-OS
2.7391E-05
1 .89BRE-0?
2.0010E-05
3.4R25E-05
4.5200E-05
3.4024E-05
1 .9795E-05
1.39R1E-05
1 .90R6C-05
4.21S4E-05
8.078SE-05
315 ) 3.76400-04
35fi
308
798
340
340
340
340
340
340 )
331 1
342 1
342 )
342 )
342 )
222 )
227 }
231 )
332 )
337 )
337 )
332 1
332 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
115 )
355 )
17 )
17 )
356 )
1.0720E-04 ( 3">fi )
9.'5H90f>05 t 792 )
7.5B«5E-05 ( 798 )
7.2799E-05 ( 140 )
1.7013E-04 ( 340 1
5.7434E-05 ( 340 )
2.2319E-05 ( 340 )
1.4597E-05 ( 371 )
1.30MK-05 ( 331 )
4.0376E-05 ( 331 )
1.1327E-05 ( 147 )
3.0511E-05 r 331 )
6.5M2E-05 ( 111 )
6.759RE-05 f 131 )
1.5659E-04 ( 222 )
4.1I79F-04 ( 241 )
1.8012E-04 ( 231 )
5.R349E-05 ( 731 1
3.9613E-05 ( 332 )
7.5124E-05 ( 332 )
2.08SOE-05 ( 311 )
1.3110E-05 ( 332 )
1.3119P-05 ( 115 )
1.8064*1-05 ( 315 )
3.0699E-05 ( 115 >
1.B4P1K-05 ( 315 1
1.6R82E-05 ( 115 )
2.6RH5E-05 f 315 )
3.4457F-05 ( 315 )
2.6H85F-05 ( 315 )
I.6761E-05 { 315 1
1.347RE-05 315 )
1.5125E-05 355 )
2.6071E-05 17 )
4.974IF-05 17 )
9.1680E-04 356 1
7.707RE-05 ( 155 )
7.7601E-05 297 )
5.1050E-05 185 )
4.1517E-05 340 )
7.8445E-05 340 )
3.1944E-05 340 )
1.7124E-05 321 )
2.6752E-05 321 )
1.3012E-05 ( 340 )
4.1811E-05 ( 331 )
1.31176-05 ( 342 )
4.4675E-05 ( 331 )
7.0950E-05 ( 331 )
7.4607E-05 ( 331 )
1.0923E-04 ( 222 )
3.0879E-04 ( 241 )
1.2156E-04 ( 211 )
4.3368E-05 231 )
2.6997E-05 332 )
1.9315E-05 332 )
3.926BE-05 331 )
1.3109E-05 332 1
1.3028E-05 115 )
1.5467E-05 ( 315 )
7.3944E-05 ( 115 )
1.5618E-05 ( 315 )
1.4767E-05 ( 315 )
2.0475E-05 ( 315 )
2.5166E-05 ( 315 )
2.0475E-05 ( 315 )
1.4734E-05 ( 315 )
1.3152E-05 ( 315 )
1.3771E-05 ( 355 )
1.7688E-05 t 17 )
3.7886E-05 ( 17 )
1.7108E-04 ( 356 )
-------
            TCMNESSFF  VALkEY AUTHORITY  -  KINGSTON POWER  Pl,»HT






                                             NOM--S02




(-       YEARLY MAXIMUM 3-HOUR COMC=   2.7303E-03  DIRFCTTON=  0.  DISTANCES  0.7







                        HIGHEST 3-HOUR CONCENTRATION  AT  EACH RECEPTOR
DAY=30R.   HOIIRalSOO.
RANGE 0.7 K*
f

(

(

f





( f
00
CJ1
(


(


(


i


i




OIR
2
3
4
5
f,
7
8
9
10
1 I
12
13
14
15
16
17
IB
19
20
21
22
23
24
25

27
28
29
30
31
32
33
34
35
36
.4525E-03 (
.4755E-03 (
.3280E-03 f
.5705E-03 (
.5397F.-03 (
.1325E-03 (
.5436E-04 (
1.0656E-04 (
2.3663E-05 (
1.6897E-05 (
4.9134E-05 (
7.0116E-04 (
5.B451E-04 (
1.0«21E-03 (
1.3232E-03 (
1.5654E-OJ (
1.3913E-03 (
1.0701K-03 (
5.7724E-04 (
2.2486E-04 (
7.0904E-05 '(
2.2363C-05 (

1.3219E-05 (
1.3979f>05 (
1.8432E-05 (
3.7787E-05 (
7.5B21E-05 (
9.8671E-05 (
7.5821E-05 (
3.7767E-05 {
4.3102E-05 (
1.7288E-04 (
5.1237F-04 {
9.7704E-04 (
2.2303E-03 (
371 )
298 )
298 )
292 )
340 )
340 )
340 )
340 I
340 1
342 )
342 1
342 )
342 )
342 )
342 )
331 )
218 )
332 )
332 )
332 1
332 )
332 )
332 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
315 1
17 1
17 )
17 )
17 1
308 )
1.3 KM
9.5788E-04 (
7.5279E-04 (
8.2524E-04 t
8.B075E-04 (
9.4145E-04 (
6.7038E-04 (
2.4484F-04 (
5.3814F-05 (
1.6586Er05 (
1.4189E-05 (
2.7132E-05 (
1.0044E-04 (
3.0643E-04 (
5.8446F.-04 {
7.5973E-04 (
Q.0797E-04 (
R.6680E-04 (
5.99B6E-04 (
4.02BBE-04 {
2.1322E-04 (
7.0185E-05 (
2.196BF-05 (
1.373BE-05 f
1.7653F-05 (
2.4B34S-05 (
2.5396E-05 t
5.74B5E-05 (
1.3821F-04 {
1.9021E-04 (
1.3820E-04 (
5.7155005 (
2.S219E-05 (
1.0691E-04 f
3.269BE-04 f
6.22BOE-04 f
1.5520F-03 <

321 )
298 •>
298 )
292 )
340 )
340 )
340 )
340 )
340 )
342 )
342 )
342 )
342 )
342 )
241 )
342 )
33? )
332 )
332 )
332 )
332 )
332 1
332 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
17 1
17 )
17 )
17 )
354 )
2.5 KM
5.4233E-04
4.8560E-04
5.5160E-04
5.4242E-04
S.91B3E-04
3.1 171E-04
1.131 1O04
2.6250E-05
1.3B71E-05
6.5207C-05
1.71926-05
4.4528£-0<5
1.3139E-04
2.5393E-04
4. 46546-04
6.5082E-04
5.561SIT-04
3.2776E-04
3.0923E-04
1 .7743E-04
S.9154E-05
1 .9270E-05
1.4722E-05
5.3142E-05
1 .2813E-04
6.0901E-05
6.9081E-05
1 .8760E-04
2.7060E-04
1 .B759F-04
6.7359E-05
2.0790E-05
5.4191E-05
2. 1989E-04
4.S617E-04
1 .2594E-03
315 )
308 )
298 )
292 )
340 )
321 )
321 )
340 )
340 )
331 1
342 1
342 )
342 )
342 )
222 )
331 1
231 )
332 )
332 )
332 )
332 1
332 )
315 )
315 1
315 5
315 )
315 )
315 1
315 )
315 )
315 1
315 1
355 )
17 )
17 )
f 356 )
4.7 KM
3.6841F-04
6.3656F-04
4.3463E-04
2.8395F-04
4.5709F-04
2.5515E-04
8. lfi9BE-05
2.5695E-05
1.3486E-05
2.3201E-04
1 .4577F-05
1 .5299F-04
4.2733E-04
3.9549F-04
5.235BF-04
7.9390F.-04
7.8770F-04
2.7122F-04
1.7160E-04
1 .0053F-04
1 .47B1E-04
1 .5430E-05
1 .3957E-05
5.3514F-05
1 .5459F-04
5.6927F.-05
4.4053E-05
1.740PE-04
1 .8466F-04
1.240PF-04
4.3101F-05
1 .6420F-05
2.696BF-05
1 .0979F-04
2.771 4F-04
7.9I97F-04

( 355 1
( 292 )
( 298 1
( 292 1
( 340 1
( 321 )
{ 321 1
( 321 1
331 )
331 )
342 1
331 )
331 )
{ 331 )
( 222 )
f 241 )
(2311
{ 231 )
( 332 )
f 332 1
( lit )
{ 332 1
( 315 )
f 315 )
(1151
( 315 )
{ 315 1
( 315 )
( 115 )
( 315 )
{ 315 )
( 315 )
( 355 )
( 17 )
f 17 1
{ 35fi )
8.7 KM
3.3689E-04
4.7493E-04
3.0328E-04
3.2202E-04
3.1708E-04
1.5766E-04
4.5793E-05
1 .2301E-04
1.3074E-05 (
2.4349E-04 (
1.3576E-05 (
2.6635E-04 (
4.7485E-04 (
4.B683E-04 (
3.1127E-04 (
6.5933E-04 (
5.7714E-04 (
2.0113E-04 (
1.0068F-04 C
5.9188E-05 (
2.2313E-04 (
1.3859E-05 (
1.3226E-05 (
3.2733F-05 (
1.0055E-04 (
3.3947E-05 {
2.7095F-05 (
7.2797E-05 (
1.1032E-04 (
7.2797E-05 (
2.6869E-05 (
1.4215E-05 (
1.8101E-05 (
4.7916E-05 (
1.5752E-04 (
4.4543E-04 (

355 )
292 )
185 )
284 )
340 )
321 )
321 )
321 )
331
331
342
331
331
331 )
222 )
241 )
342 )
231 )
332 )
332 )
331 )
332 )
115 )
315 )
315 )
315 )
315 )
315 )
315 )
315 >
315 )
315 )
355 )
17 )
17 )
356 )
-------
                                                            MAXIMUM nAir.r CONCENTRATIONS
f

\(

(

\<

C
PAY    24-HnilR CONCENTRATION    I1T«FCTTON    DISTANCE

319          4.7401E-04             16          0.71
30«          4.7443E-04             3*          0.71
77?          4.5R2«iE-04             IK          0.71
3tS          4.5717F;-04             3fi          1.13
331          4.4S61E-04             16          0.71
231          4.10*6004             16          0.71
741          4.H79R-04             16          4.65
347          4.0077E-04             16          0.71
340          3.9177E-04              S          0.71
71«          1.B347E-04             16          0.71
3-56          3.7640E-04             1*;          51.49
337          3.7393E-04             17          0.71
 17          3.526IE-04             16          0.71
3SS          3.4969C-04             J6          1.33
299          3.4190E-04              2          0.71
3S4          3.408SE-04             J6          0.71
321          3.3856E-04             36          0.71
297          3.I950E-04              4          0.71
IBS          3.1684E-04             36          0.71
2B4          3.1610fcio4         •    16          0.71
    00
-------
             VALLEY AUTHORITY  -  KINSSTON POWER PLANT
  SOLVFNT  HEFINEO COAL STUDY

  KINGSTON PLANT 1975
  &NAMI
  KSTI.= 4   IUR = 1   ITAP.IPHNs  0  0
    IOATA,IMVX.TLOTS= 000
  lOHOTs  2    WHGT= 91.0   NSTs  1
  NPOL=  2    JTAB* 1   INPUT= 2
  NSEA=  1    ECONV=   0.304B006
  OAY--
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 t
t t i
t 1 1
1
1
1







1
I
1
1
1
1
1
1
1
1




-i£..



t

SlTTFs 1.0    FIVs 3.0   TAF=  0.60   BACKGRa
                                                  13.0
                                                                                   1  1
                                                                                   1
                                                                                                                   1
                                                                                                                1  1
co
 i
00
-------
PLANT ELEVATION (FEET  ABOVE  SEA  LEVED--
775.0
    RECEPTOR ELEVATIONS  fKEET  AH1VE SEA LEVEL)
DIRECTION   KlNGIt
                     RING I 2
                               RING*!   RING»4
                                                 R1NG«5
t
I
3
4
5
6
7
8
9
10
1 1
12
11
14
IS
16
17
IB
19
7 20
00 21
00 72
2}
24
25
2h
27
2R
29
30
31
32
33
34
IS
36
STACK 1
STACK «
STACK

1
2
760.0
760.0
755.0
750.0
750.0
740.0
7HO.O
820.0
R60.0
890.0
920.0
850.0
780.0
750.0
740.0
730.0
710.0
740.0
740.0
740.0
730.0
7bO.O
760.0
760.0
ThO.O
760.0
760.0
760.0
780.0
780.0
790.0
B05.0
795.0
805.0
770.0
755.0
•--KINGSTON
2--KINGSTON
STRATEGY
TYPE
NOM
MOM
750.0 760.0
750.0 1120.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1020.0
7RO.O <>?0.0
920.0 flflO.O
R30.0 720.0
740.0 720.0
720.0 760.0
740.0 720.0
720.0 960.0
740.0 1150.0
900.0 1020.0
ROO.O 1060.0
900.0 1020.0
960.0 1020.0
820.0 720.0
760.0 970.0
720.0 9HO.O
780.0 920.0
860.0 1100.0
840.0 1100.0
760.0 820.0
780.0 840. 0
800.0 IOHO.O
900.0 1040.0
1060.0 890.0
1160.0 1060.0
1080.0 1100.0
1120.0 1040.0
1140.0 1020.0
1010.0 1020.0
1020.0 R30.0
760.0 800.0
STAGKSI1-4. NORMAL
STACKSH5-9, NORMAL
S02 EMISSION RATE
(GMS/SEC)
533.00
936.00
970.0
825.0
800.0
1 100.0
900.0
1160.0
1000.0
1060.0
1000.0
ROO.O
960.0
1070.0
1060.0
1,020.0
800.0
780.0
1010.0
1020.0
800.0
720.0
720.0
800.0
1040.0
950.0
1 100.0
1140.0
1140.0
1 100.0
900.0
1060.0
1100.0
1040.0
1020.0
1000.0
1000.0
1040.0
POWER
POWER
PART



1300.0
960.0
loon.o
1 100.0
1060.0
1000.0
1100.0
800.0
960.0
920.0
1020.0
1000.0
1000.0
1080.0
1020.0
940.0
720.0
900.0
780.0
1040.0
750.0
900.0
1020.0
760.0
900.0
740.0
800.0
1200.0
1400.0
400.0
100.0
100.0
100.0
400.0
1500.0
1600.0
LOAD-SRC S02
LOAD-SRC 502
EMISSION RATE HEIGHT DIAMETER EXIT VELOCITY TEMP
(GMS/SEC) (METERS) (METERS) (M/SEC) (OEG.K)
0.00 76.20 4.27 13.60 416.00
0.00 91.44 5.03 13.10 414.00
                                                                                                               VOLUMETRIC FLOW
                                                                                                                 (M**3/SKC)

                                                                                                                    194.75

                                                                                                                    260.31
  RAMf;E(KM)=    0.71    1.33   2.49   4.65   fl.69
  SEASONAL  VARIATIONS BY CASE «
            I    1.07    1.08   1.24   1.13   1.07
     1.04   0.91    0.74    0.83   O.Rfl   0.93   1.07
     nn.sKri nM
                    DAYS
-------
                :*:  VALLEY AUTHORITY - KINGSTON POWER PLANT
                                        NOM — S02

            MAXIMUM MEAN CONC =  «.3906IT-05  DIRECTIONS 36  DISTANCES  0.7 KM
                        ANNUAL MEAN CONCENTRATION AT EACH RECEPTOR
                   0.7 KM         1.3 KM         2.5 KM          4.7
                                                               KM
                                                                           fl.7  KM
00
 t
 2
 3
 4
 5
 6
 7
 8
 9
10
t t
12
t 3
14
15
16
17
I"
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
J.19338F-05 J
3.33021E-OS 3
V.51880E-05 3
3.S6094E-05 3
J.1H538E-05 7
2.51490E-05 3
2.00742E-05 1
1 .B0594F.-0-5
1.77266E-05
1.793566-05
I .B0069E-05
1 .82062E-05
1.93290E-05
2.21675E-05 1
2.63666E-05 1
2.94B19E-05 'i
2.74422E-OS "i
y,19f.55F.-05
1.78I96F.-05
1.64l54f>0^
.68892E-05
.77195E-05
.76396E-05
.65923E-OS
.55620E-05
.51241E-05
.51555E-05
.51584E-0'?
.48117E-05
.43565E-05
.40968E-OS
.44347E-OS
.60307E-05
.H9963E-OS
2.23030E-05
4. 39059E-05
.9S399F.-05 2
.92732P>05 2
.07094F:-05 2
.10973E-OS 2
.79513E-05 2
.23012E-05 1
.84783E-05, t
.69239E-OS
.63677E-OS
.6S203E-05
.64801E-05
.66437E-05
.73638E-05 1
.94354E-05 1
».24«82E-05 3
".52937E-05 '4
(.37535E-05 3
.956R7E-05
.66015E-05
.60494E-05
.71058E-05
.82812E-05
.85336E-05
.75755E-05
.63369E-05
.56H02E-05
.57264E-05
.57967E-05
.53flHOE-05
.48S32E-05
.43550E-05
.442ftflE-05
.61003E-05
.95177E-05
2.29352E-05
I.26649E-05
.6R151F-05 S
.52074E-05 3
.71372E-05 ',
.65433F-05 3
.44804E-05 ',
.99904E-05 1
.73472F.-05
.61391F.-05
.53104E-OS
.5458BF-05
.54245E-05
.58769E-05
.63573F.-05
.79186E-05
.04669E-05
.566B1F-05
I.17224E-05
.80334E-05
.57028E-05
.55116E-05
.68966F-05
.B3326E-05
.89510E-05
.8242BE-05
.69744IT-05
.5R6JOK-05
.60801E-05
.61 330E-05
.55172E-05
.52119F-05
.47562F-05
.43040E-05
.57777E-05
.93262E-05
2.23834E-05
J.H6633E-05
.19940F.-05
.1521 7E-05
.4025RF-05
(.24173E-05
M4030E-05
.8I577E-05
.62073E-05
.5756fiE-05
.48994E-05
,506«59F>05
.50364E-05
.59933P-05
.61940F-05
.74713F-05
.9HR90E-05
.69429E-05
.06992E-05
,fi6633F;-05
.48707E-05
.45856E-05
.59318E-05
.72075E-05
.76H11E-05
.72301E-05
.65106E-05
.49774E-05
.53441E-05
.53282F-05
.480lor-05
.46820F-05
.45632F.-05
.39271E-05
.48220E-05
.70944E-05
.9401 IE-OS
2.94846F-05
.B4946E-05
.90446E-05
.10665T-05
.9B724C-05
.93316E-05
.72805E-05
.55286F-05
.52456F-05
.45163F-05
.46601E-05
.461B5E-05
.56515E-05
.54621K-05
.64500E-05
.80457E-05
.321 14E-05
.BR9B6E-05
.5581BE-05
.43BB1C-05
.4H67E-05
.51295E-05
.64780E-05
.68074E-05
.64594E-05
.58902E-05
.43642E-05
.50220E-05
.47551F.-05
.44215E-05
.42425F-05
.42297E-05
.37102F.-05
.42979E-05
.56973F-05
.75946E-05
7.27746E-05
-------
             K VALLEY  AUTHORITY  -  KINGSTON PDWF.R  PLANT







                                      NOM--SO7




YEARLY  MAXIMUM 24-MODH  COHC=  4.4379F.-04  nTRFCTION=360.   OISTANCF*   0.7 KM  DAY=319.







                HIGHEST  74-HOUR  CONCF.HTP ATIOM  AT  EACH P.F.CFPTOP
RANGE 0.7 H
OIR
1 2.6549F.-04
2 3.3744E-04
3 2.9267E-04
4 3.1509E-04
5 3.377RE-04
6 2.5953E-04
7 1.8933E-04
B 2.1561E-04
9 2.573RE-04
10 7..5671E-04
tl 2.3087E-04
12 2.09B2K-04
*f 13 2.246«E-04
U3 14 2.5677E-04
° 15 3.1483E-04
16 4.0106E-04
17 3.3777E-04
IB 2.65B7E-04
19 1.6126E-04
20 1.3B20E-04
21 1.6458E-04
22 2.4130E-04
23 I.9751E-04
24 1.6107E-04
25 1.3223E-04
26 1.I438E-04
27 1.1127E-04
28 1.4599E-04
29 1.1041E-04
30 7.5814F-05
31 9.2665E-05
32 1.0263E-04
33 9.0740E-05
34 1.0901^-04
35 1.4599E-04
36 4.4379E-04
M

298
299
293
292
340
330
330
306
295
295
295
295
307
307
342
331
332
332
336
338
152
15?
152
302
302
317
314
314
314
33
179
179
179
42
269
[ 319
1.3 KM

1.5692E-04 { 308 )
2.27B9F.-04 ( 326 )
I.8455E-04 ( 271 )
2.1394E-04 { 292 )
2.4794E-04 ( 340 )
.6MOE-04 ( 340 )
.I555E-04 ( 30* ) t
.4255E-04 { 306 ) «
.2R96E-04 ( 295 ) f
.2765E-04 ( 295 )
.0537E-04 ( 2«0 )
.6950E-04 ( 2BO )
.6847E-04 ( 307 )
.8227E-04 { 307 )
.9«J36E-04 ( 342 )
2.7B31E-04 ( 331 )
2.4449E-04 ( 359 )
1.7RB4E-04 ( 332 )
1.1670E-04 < 360 )
9.B661E-05 ( 360 )
l.fi013F>04 ( 30 )
.6237E-04 ( 152 )
.4775E-04 ( 317 )
.9346E-04 ( 302 )
.4922E-04 { 302 )
.0397E-04 ( 317 )
.0414E-04 ( 314 ) (
.4135E-04 ( 314 ) '
.03S7E-04 ( 314 ) 1
8.5266E-05 ( 33 )
7,«l779r-05 ( 33 )
7.3528E-05 I 179 ) >
7.4191E-05 C 4B )
9.9610E-05 ( 4fl )
1.1939E-04 ( 269 )
1 4.3340E-04 ( 315 )
2.5 KM

.3646E-04 ( 356 ]
.5B66E-04 ( 326 ]
.5933E-04 ( 255 1
.3R66E-04 ( 260
.663RE-04 ( 340
.1950E-04 ( 1B7
I.2B10E-05 ( 174
>.1567E-05 ( 140
I.4II4E-05 ( 243
.14I2E-04 { 1
.7007E-04 ( 2BO
.3B43E-04 ( 2BO
.0746E-04 ( 291
.3364E-04 ( 290 ]
.3327E-04 ( 222 1
.3947E-04 ( 241
.9877E-04 ( 359
.0245E-04 ( 252
.4649E-05 ( 252
JBISIE-OS { 30
i57B8E-04 { 30
.2362E-04 ( 206
.2830E-04 ( 317
.6046E-04 ( 302
.1342E-04 ( 302
.2B94E-05 ( 317
».8040E-05 ( 350
>.9295E-05 ( 312
).I535E-05 ( 334
r.9736K-05 ( 297
F.4034E-05 ( 285
I.7397E-05 { 179
».1233E-05 { 107
I.1779E-04 ( 16
I.0274E-04 ( 16
J130BOE-04 ( 315
4.7 KM

1.0209E-04
1 .0658F.-04
2.146BE-04
1.7155E-04
1.8372E-04
B.4075E-05
9.B350E-05 (
1.6053E-04 (
7.43BOE-05 (
1.0576F-04 (
1.1177E-04 (
1.3407E-04 (
I^6521E-04 (
1.6771E-04
I.3515E-04
1 3.55B5E-04
2.3251E-04
1.034RE-04,
7.BB06E-05
4.8310E-05
1.0577E-04
1 .0978E-04
1 .0065E-04
1.0973E-04
9.60I6E-05
5.4227F-05
7.0219E-05
7.9548E-05
6.7517E-05
5.3592E-05
5.8553E-05
3.3755C-05
5.9854E-05
8.9366E-05
6.B173E-05
1.8003E-04
B.7 R1

762 ) 6.396BE-05
341 ) 1.0095E-04
762 ) 1.7644F-04
260 ) 1.I215E-04
139 1 1.2BOOE-04
187 ) 8.1495E-05
174 ) 7.2539E-05
140 ) 1.769BK-04
174 ) 7.3528E-05
1 ) B.9BB6E-05
280 ) 8.3673F.-05
280 ) 1.2496E-04
287 ) 1.3649E-04
167 ) 1.4268E-04
222 ) 1.2125E-04
241 ) 2.5872F.-04
204 ) 1.7455E-04
252 ) 7.9125E-05
333 ) 6.6678E-05
193 ) 3.9355E-03
30 ) 6.9503E-05
30 1 1.04B4E-04
317 1 1.3289F.-04
302 ) 8.7771E-05
363 ) 1.3003E-04
317 ) 3.6894E-05
317 ) 6.4201E-05
312 ) 4.3242E-05
125 ) 4.7214E-05
297 ) 3.8942E-05
2B5 1 5.B757E-05
135 ) 4.2051E-05
107 ) 4.6200E-05
[ 16 ) 6.3254E-05
31 ) 6.9107E-05
r 356 ) 1.0285E-04


310 )
234
234
260
139
238
174
140
140
140
280
280
287
192
193
241
204
252
333
119 )
29 )
282 )
282 )
302 )
208 )
349 )
349 )
312 )
349
304
349
304
16
16
22
116
-------
    TENNESSEE VALLEY AUTHORITY -  KINGSTON POWER  PLANT







                                    NOM--S02




YEARLY MAXIMUM 3-HOUP CONCa   2.0066E-03  DIRECTIONS  0.   OISTAMCE=  0.7 KM







               HIGHEST  3-HOUR CONCENTRATION  AT  EACH RECEPTOR
DAY=308.  HOUR=1500.
' RANGE 0.7 KM
i DIR
1 .3142E-03 (
I* 2
3
4
f 5
6
1
( 8
9
10

12
13
( 14
03 15
' 16
C -J 17
18
19
.52P4R-03 (
.2901E-03 (
.5329E-03 (
.4708R-03 (
.1910E-03 (
.8498E-04 (
.2709E-03 (
.4199E-03 (
.2839E-03 {
.3850E-03 f
.2508E-03 (
.0205E-03 (
.3774E-03 (
.1557E-03 (
.3B93E-03 (
.1672E-03 (
.2091E-03 (
.0875E-03 (
( 20 9.9408E-04 (
21 8.5151E-04 (
22 1.1065E-03 (
( 23 9.2697E-04 (
24 8.20H2E-04 (
25 7.1232E-04 (
' 26 6.9964E-04 (
27 6.3190E-04 (
28 8.5562K-04 (
'.. 29 6.3086E-04 (
30 5.1551K-04 (
31 6.0840E-04 (
32 7.1003E-04 {
33 6.3274E-04 f
34 7.7391E-04 (
35 9.5185E-04 (
36 2.0066E-03 (
321 )
293 )
255 )
292 )
325 )
320 )
253 )
295 )
295 )
295 )
301 )
301 )
291 )
290 )
309 )
331 )
218 )
353 )
338 )
338 )
333 )
152 )
343 1
302 )
302 )
317 )
317 )
314 )
314 )
33 )
179 )
179 )
179 )
42 )
269 )
308 )
1.3 KM
8.7680E-04 (
1.0144E-03 (
8.8BOOE-04 (
8.6058E-04 (
8.5900E-04 (
7.9167E-04 {
6.1729E-04 (
8.6452E-0.4 (
6.9948E-04 (
7.3785E-04 (
7.7222E-04 (
6.R301E-04 (
6.9161E-04 (
9.2188E-04 (
6.7317E-04 (
7.9975E-04 (
8.3882E-04 (
7.1294E-04 (
6.9811E-04 (
6.2198E-04 (
7.8330E-04 (
8.314BE-04 (
7.5263E-04 f
B.0608E-04 (
6.R545E-04 (
6.0028E-04 (
5.6632E-04 (
7.9616E-04 (
5.6632E-04 (
5.8B15E-04 (
5.3800E-04 (
4.4284E-04 (
5.0253E-04 (
7.05B8E-04 {
7.7365F-04 {
1.4191E-03 (

262 )
326 )
276
277
277
320
253
372
295
236 )
2BO )
280 )
291 )
290 )
290 )
331 )
359 )
281 )
338 )
338 )
333 )
206 )
343 )
302 )
302 )
317 )
314 )
314 )
314 )
33 )
33 )
179 )
48 )•
48 1
269 )
319 )
2.5 KM
5.9201E-04 (
6.06R8E-04 (
5.9214E-04 (
5.9B53E-04 (
5.5977C-04 (
5.0R52E-04 (
5.4565E-04 (
.9692E-04 (
.1375E-04 (
.9516E-04 {
.5664E-04 (
.9316E-04 f
.6689E-04 (
.6450E-04 {
6.4831E-04 (
5.9114E-04 (
7.3170E-04 (
5.7259E-04 {
3.9581E-04 (
4.06ME-04 {
7.5957E-04 {
6.7372E-04 {
5.5749E-04 (
6.5699E-04 (
4.7060E-04 (
4.4173E-04 (
5.4337E-04 {
5.1325E-04 (
4.3426E-04 (
4.0359E-04 (
5.0048E-04 {
2.6162E-04 (
3.9665E-04 (
5.1209E-04 (
5.8523E-04 (
1.0565E-03 (

327
326
HI
6
277
187
207
322
327
306
280 )
280 )
295 )
290 )
240 )
331 )
359 )
281 )
281 )
280 )
30 )
206 )
317 )
302 )
302 )
265 )
350 )
312 )
334 )
285 1
285 )
179 )
107 )
16 )
16 )
356 )
4.7 KM
5.8001E-04
7.3474E-04
8.4378E-04
5.7307E-04
6.0839E-04
5. 1480E-04
4.5076E-04
6.6212E-04
4.4992E-04
4.5273E-04
4.7569E-04
3.9517E-04
5.3498E-04
6.9525E-04
6.631RE-04
7.R903E-04
6.6974E-04
4.4026E-04
4.8735E-04
2.5R25E-04
4.2659E-04
4.5MOE-04
5.1214E-04
4.3050E-04
4.8357E-04
2.4938E-04
3.5221E-04
3.7592E-04
3.0902E-04
2.8094E-04
3.7723E-04
1 .7904E-04
2.3530E-04
3.667.4E-04
3.7376E-04
6.4R77E-04

( 262 )
( 341 )
( 294 )
260 )
139 )
238 )
207 )
214 )
174 )
( t )
( 330 )
( 295 )
( 287 )
( 251 )
( 240 )
( 283 )
( 231 )
( 252 )
( 333 )
( 347 )
( 30 )
( 126 )
( 317 )
( 302 )
( 363 )
( 317 )
( 350 )
( 312 )
( 125 1
f 46 )
f 2B5 )
( 135 1
{ 107 1
( 16 )
( 168 )
( 356 1
B.7 KM
4.2071E-04 (
5.9764E-04 (
8.2504E-04 <
3.5407E-04 (
4.7144E-04 (
5.6081E-04 (
3.4559E-04 (
4.9893E-04 (
4.7570E-04 (
4.2852E-04 (
3.7893E-04 (
4.3150E-04 (
5.4653E-04 1
5.1601E-04 1
5.3399E-04
5.7284E-04
5.0982E-04
3.9297E-04
4.1845E-04
2.006BE-04
4.0243E-04
5.9799E-04
6.3080E-04
4.5716E-04
5.8095E-04
2.0403E-04
3.4699E-04
2.15BOE-04
2.8665E-04
2.2054E-04
3.7906E-04
7..4541E-04
2.1669IC-04
2.8689E-04
3,.8519E-04
4.8628E-04

310
341
234
161
141
236
209
214
174
1
330
280
192
251
193
283
204
[ 20
333
[ 347
; 29
! 282
: 282
( 283
t 363
[ 349
( 349
( 232
( 349
( 304
( 349
[ 304
( 311
( 289
( 289
( 116

)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
-------
                                                           MAXIMUM DRILY CONCENTRATIONS
                                                      24-HOUR CONCENTRATION
 f

jc

|c
j

ir
j
•k
319
3J5
30»
331
222
241
231
356
342
340
332
290
718
284
355
292
321
124
354
326
4.4379C-04
4.3340C-04
4.3I93E-04
4.0106E-04
3.8509E-04
  5585E-04
  5077E-04
  4333E-04
  4227C-04
  3778C-04
  3777E-04
  3244004
  2534E-04
  2420E-04
  1715E-04
  150BE-04
  0573C-04
3t0322E-04
3.0116E*04
3.97I8E-04
36
36
*6
16
16
16
16
36
16
 5
17
 2
16
36
36
 4
36
17
16
 2
DISTANCE

  0.71
  1.33
  0.71
  0.71
  0.71
  4.65
  0.71
  1.33
  0.71
  0.71
  0.71
  0.71
  0;71
  0,71
  1.33
  0.71
  0.71
  0.71
  0.71
  0.71
     CD
      I
     UD
     ro
-------
        TENNESSEE VALLEY AtirHHRITY - KINGSTON PflWFR PLAIT
        SOLVENT HEKINF.I) COAL STUDY
        STUCK »   (--KINGSTON STACKS«l-4. MAX.LOAD SRC S02
        STACK *   2— KINGSTON STArKS«5-9. MflX.LOAO SRC SO?
         STACK

            1

            2
STRATEGY
  TYPE

  MOM

  NDM
SO2 EMISSION RATE
    rr.MS/SEC)

      750.00

     H77.00
PART EMISSION PATE    HEIGHT
     (GMS/SEC)        (M5TERS1

         0.00           76.?0

         0.00           91.44
          RANGF(KM)=   0.71   1.33   7.49   4.65   8.69
          SEASONAL VARIATIONS BY CASE *
                   1   1.00   1.00   i.OO   1.00   1.00
DIAMETER  EXIT VELOCITY    TEMP
(MF.TERS)     (M/SEC)      (DEG.K)
  4.27

  5.03
                                         1.00    1.00    1.00    1.00
                                                                                       1 .00
 17.90

 17.10



1.00   1.00
427.40

421.90
VOLUMETRIC FLOW
  (M**3/SEC)

     256.33

     319.80
   co
I  *°
(  co
        JYR=75
        ISTAB=  444434
           =   6.4  8.4  9.B 10.3 10.9  8.7
            s  2H9.  2fl9.  287. 286. 286. 295.
        ftFV=   160.  162.  162. 163. 164. 165.
                             443
                           8.9  9.4  8.4
                           284. 2R3. 284.
                           161. 163. 164.
                                 1111111
                               7.6  8.1  7.U   7.4   7.0   7.4  7.7
                               285. 285. 286.  2«7.  288.  288.  289.
                               165. 167. 170.  160.  163.  188.  181.
                                                 1344
                                               8.2  8.0  8.1  7.4
                                               289. 2BB. 2S7. 285.
                                               182. 17R. 178. 200.
        AFVR=  160.  162.  162. 163. 164. 165. 161. 163. 164. 165.  167.  170.  160.  163. 188. 181. 182. 17fl.  178.  200.
        HLH1=  1433.  1433.  1433. 1433. 1433. 1433. 1433. 1463.  1493.  1523.  1553.  1S83.
              1613.  1643.  1676. 1676. 1676. 1676. t676. 1676.  1676.  1676.  1676.  1676.
                                     4
                                   6.9
                             4
                           7.5
                    4
                  7.7
               4
             5.4
                                   284. 283. 283. 282.
                                   205. 201. 199. 198.
                                   205. 201. 199. 198.
ISTAR= 3
AWS= 5.0
TEMP= 272.
AFV= 154.
AEVRs 154.
HLHt= 400.
628.
JYR = 76 Hn =
ISTAH= 4
A*S= 7.2
TEHP = 276.
AF«= 147.
AFVRr 147.
HLH1= H53.
943.
1 JOAY = 4
7.2 7.6 7.3 8.7
271. 270. 270. 26».
162. 152. 14J. 162.
162. 152. 143. 162.
400. 400. 400.
666. 710. 710.
1 JOAY= 8
4333
H.O 10.6 11.0 10.3
775. 274. 272. 271.
142. 153. 158. 167.
142. 153. 159. 167.
853. 853. 853.
958. 975. 975.

7.9
'267.
150.
150.
400.
710.

3
11.2
270.
160.
160.
853.
975.

7.7
766.
165.
165.
400
710

3
10.7
2f>9.
164.
164.
853
975

5.4 6.1 5.4 6.2
266. 766. 266. 267.
169. 168. 169. 160.
168. 168. 169. 160.
. 400. 438. 476.
710. 710. 710.

3321
S.2 9.6 9.3 9.2
268. 268. 767. 267.
163. 163. 163. 161.
163. 163. 163. 161.
853. 868. 883.
. 975. 975. 975.

1
7.5
267.
173.
173.
514.
710.

1
9.0
268.
161 .
1 61 .
898.
975.

6.7
268.
167.
167.
552
710

1
6.6
767.
165.
165.
913
975
1*
1
5.7 6.3
269. 270.
167. 176.
167. 176.
. 590.
. 710.

1 1
6.9 6.8
267. 267.
167. 164.
167. 164.
. 928.
. 975.

6.4
270.
178.
178.



1
7.5
766.
174.
174.



5.9
770.
163.
163.



2
7.2
266.
164.
164.



6.4
269.
163.
163.



3
7.7
26S.
150.
150.



6.7
268.
162.
162.



3
5.8
264.
163.
163.



8.1
267.
162.
162.



4
5.9
264.
164.
164.



8.6
267.
161.
161 .



3
5.8
264.
151.
151.



7.1
266.
163.
163.



4
6.8
263.
150.
150.



6.2
266.
178.
178.



4
6.1
262.
150.
150.



6.0
265.
179.
179.



4
5.1
262.
150.
150.


JYR=7(
I STAft:

TEMP =
fcFV =
AFVR =
HLH1 =

L | \l n
: 3
10. 1
273.
164.
164.
400
5S2
all
' ' j »
8.7 in. 6 9.3
277. 272. 271
172. 174.171
172. 174. 171
. 400. 400.
. SH9. 617.

7.2
. 270.
. 164.
. 164.
400.
61 f.

R.9 ]
770.
183.
183.
400.
617.

10.2
269.
178.
17R.
400
617

8.9 7.7 8.2
267. 267. 267
168. 162. 161
169. 167. 161
400. 427.
. 617. 617.

10.7 1
. 767.
. 174.
. 174.
454.
617.

10.6
76H.
171.
171.
48 1.
617.
|
1
1-0.5
768.
166.
166.
50ft
617
4 |
I 1
10.1 10.2
769. 268.
167. 163.
167. 163.
. 515.
. 617.

1
".1
268.
161 .
161.



R.I
767.
162.
162.



8.1
267.
166.
166.



6.1
267.
168.
168.



5.7
267.
168.
168.



6.1
266.
170.
170.



5.5
266.
171.
171.



4.6
265.
185.
185.



5.7
265.
176.
176.


-------
f

c

c
c
r
        JYR=76  I ins  1  ((DAY =  27
        ISTAB=   133)393)333131     11
        AHS =  6.4  5.2  6.4   7.7  7.6  8.0  B.I   8.9  8.8  fl.4  B.I  7.5  8.2  7.5  9.1  6.7
        TEMP* 275. 275.  275.  274.  274. 774. 274. 274. 273.  273. 273. 27). 273. 27). 27). 273.
        AFV =  170. 162.  163.  165.  164. 165. 166. 164. 166.  165. 167. 16O. 160. |«4. 157. 163.
        AF/R = 170. 162.  163.  165.  164. 165. 166. 16*. 166.  |65. 167. 161. 160. 164. 157. 16).
        HLHls   457.   457.   457.   457.  457.  457.   457.   571.  5B5.  M<».  713.  777.
               B41.   905.   975.   975.  975.  975.   975.   975.  975.  975.  975.  975.
JYR=76 I1U= 3 JDAY= 70
ISTAR=  44444444
AWS=  4.1  4.3  4.1  3.5   1.6  4.4   3.3  7.7
TEMPs 276. 276. 275. 775.  774. 27).  273. 27),
                                                                                         33444444
                                                                                       B.O  7.2  5.7  3.9  2.9  2.3   4.2   6.)
                                                                                       272. 272. 272. 272. 271. 271.  270.  270.
                                                                                       156. 176. 176. 170. 168. 165.  165.  170.
                                                                                       156. 176. 176. 170. 168. 165.  165.  170.
AFV =
AFVR:
155.  160. 160. 160. 155. 155. 155» 155. 130.
155.  160. 160. 160. 155. 155. 155. 155. 130.
3 3
1.4 0.9
274. 276.
130. 15.
130. IS.
3 1
1.7 2.4
278. 2M1.
16. 13.
16. M.
1
7.6
783.
3.
3.
1
2.S
284.
7.
7.
1
2.5
285.
13.
13.
1
4.0
787.
8.
P.
1
4.4
287.
17.
17.
3.8
287.
23.
23.
3.9 3.8
286. 285.
41. 26.
41. 26.
1.2
283.
55.
55.
1.0
282.
40.
40.
0.5 0.7
280. 279
45i 50
45. 50
         0.
               0.
                     0.
                     0.
0.
                                       0.
            0.   266.  532.  79B. 1064. 1330.
      1596. 1862. 21)4. 2134. 2134. 7134. 21)4. 2134. 2134.  21)4.  2134.  2134.
        JYR=76  IMO=  3  JDAY =  78
ISTAB:
TEMPs
AFV =
AF¥R =

. T
273.
269.
268.

. 7
272.
11.
It.

. 3
271.
74.
74.

271.
77.
77.

271.
53.
53.

271*
44.
44.

271.
53.
53.

271.
62.
62.

273.
53.
53.
1
278.
44.
44.
1
2B2. 2
48.
48.
                 0.
                       0.
                             0.
                                   0.
                                 0.
                                 0.
                                   1112
                            4.5  5.0  6.)  6.0  6.3
                            295. 286. 289. 791. 291.
                             52.  43.  40.  43.  21.
                             57.  43.  40.  43.  21.
            0.   228.   456.  68«.  917. 1140.
              1368.  1596.  1829.  1B29. 1829. 1829.  1B29.  1929,  1829. 1879. 1829. 1879.
                                                                                         33444
                                                                                       6.9  5.6  5.9  6.7  6.8
                                                                                       291. 290. 289. 288. 288. 287
                                                                                        27.  23.  30.  25.  35.  42
                                                                                                                          444
                                                                                                                        6.8  5.1  4.8
                                                                                                                             286. 284.
                                                                                                                              42.  33.
                                                                                               77.   23.   30.   25.   35.   42.  42.  33.
        JYR=76  IMO=  3  JUAY=  84
        ISTABs   4
        AHS=  2.1
        TEMP= 279.
        AFV=    61.
        AFVR =   61.
             4
           3.5
           278.
            49.
            4
          3.9
          277.
           51.
        HLH1>
         0.
      49.  51.
         0.

4 4
276. 276.
51. 48.
51. 48.
4m
4
275. 275.
52. 53.
57. 53.
4*
3
275. 278.
52. 42.
52. 42.


284.
8.
8.
14
1
2B7. 289.
4. 23.
4. 73.
11
1
291. 291.
16. 27.
16. 27.


29);
24.
24.


793. 293.
34. 15.
34. 35.


293. 291.
35. 37.
35. 37.


291. 291.
32. 23.
32. 23.


289.
20.
20.


286. 2B5
53. 50
53. 50
                             0.
                                   0.
0.
                                               0.
                                                     0.  1249.  2498. 3747. 4996. 6245.
              7494.  8743.  9999.  9999. 9999. 9999. 9999.  9999.  9999. 9999. 9999. 9999.
        JVR=76  IMO=  4  JOAY=  94
AHS = 1.8
TF:MP= 281.
AFV= 52.
AFVR = 52.
HLH1= 400.
1.3 0.9
280. 279
35. 81
35. 81
400.
1.6
. 278
. 56
. 56
400.
1.6
. 277.
. 58.
. 5H.
400.
1.6
277.
f>4.
64.
400.
0.6
276.
58.
58.
400
0.4 0.9
777. 280
226. 336
776. 3)6
. 400.
)
1.5
. 784.
4.
4.
537.
1
2.2
789.
7.
7.
671.
1
2.7
292.
7.
7.
811.
1 1 1
4.2 5.) 5.6
795. 796. 298.
). 5. 11.
3. 5. 11.
948. 10R5.
1
5.1
29B
49
49

              1222.  1)59.  1499.  1499. 1499. 1499.  1499.  1499.  1499. 1499. 1499. 1499.
                                                                                                 1
                                                                                              5.6
                                                                                              298. 29B.
                                                                                               20.   27.
                                                                                               20.   77.
                                                                                              3    4
                                                                                            4.9  5.1
                                                                                                  4     4
                                                                                                5.9   6.6
                                                                                                 297. 295.
                                                                                                  28.  54.
                                                                                 4
                                                                               5.9
  4    4
7.6  5.9
                                                                                                     293. 292. 291.
                                                                                                      62.  46.  52.
                                                                                                  28.  54.  62.  46.  52.
                                                                                         290.
                                                                                          51.
                                                                                          51.
        JYP=76  THO=  4  JOAYrlOt
        ISTAB*   4444444
        AHS=   4.5   4.1  5.1   4.1   3.9  3.5  3.3
        TEMP =  279.  277.  276.  276.  27S. 274.
        AFV=   IR5.  192.  219.  229.  2)1. 74).
                                           42111
                                         J.O  2.5  2.4  2.3   2.5
                                    274. 275. 279. 28). 786.  2S7,
                                    241. 244. 744. 254. 797.    S.
        AFVRs  1H6.  1<>2.  719.  779.  711. 741. 241.  744.  244.  254.  292.
        HI,HI :
                       o.
                             o.
                                   o.
                                         o.
                                               0.
                                                     0.
1
7.1
789.
1.
3.
1
7.8
790.
7.
7.
1
3.0
291.
5.
5.
1
3.3
79.1.
n.
8.
1
3.4
793.
4.
4.
3
3.6
793.
10.
10.
4
3.7
293,
36.
36.
4
3.7
291.
43.
43.
4
3.8
288.
48.
48.
4
3.8
2*6.
TO.
70.
4
3.0
284.
71.
71.
4
4.1
283
55
55
                                                               319.   5SH.  744.  "10.
-------
                 0= 4 JDAY=U)5
(


(


f
ISTABs 4
AWS= 2.6
TEHPs 2H3.
AFV= 124.
AFVRs 174.
HLH1= 0.
1596.
JYR=76 1*0 =
FEMPs 288.
AFVs 58.
AFVR= 58.
HLH1= 244.
1726.
JYR=76 1^0=
AWSs 3.6
TEMP= 291.
AFV= 51.
AFVRs 51.
4444
1.8 1.5 1.9 1.3
283. 2H2. 2f>0. 280.
176. 214. 205. 60.
176. 214. 205. 60.
0. 0. 0.
1862. 2134. 2134.
4 JD»Y=I07
287. 286. 286. 286.
62. 54. 40. 11.
62. 54. 40. 11.
244. 244. 244.
1973. 2225. 2225.
4 JOAY=112
3.8 3.7 2.5 3.3
290. 289. 289. 289.
42. 17. 19. 26.
42. 17. 19. 26.
4
1.3
280.
55.
55.
0.
21 34.

285.
332.
332.
244.
2225.

3.6
289.
80.
80.
4
0.7
2HO.
43.
43.
0
2134

2H5.
2.
2.
244
2225

3.6
289.
13.
13.
2
1.2
281 .
720.
220.
0
. 2134

286.
87.
87.
. 244
. 2225

3.8
290.
32.
32.
4»)
c
0.8 1.1
284. 28H
211. 320
211. 320
. 266.
. 2134.
1 1
289. 293
80. 64
80. 64
. 491.
. 2225.

3.4 2.2
290. 292
32. 354
32. 354
4
2.0
. 292.
7.
7.
532.
2134.
1
. 295.
. 54.
. 54.
738.
2225.

5.0
. 295.
. 22.
. 22.

2.9
295.
7.
2.
798.
2134.
1
2->7.
16.
16.
985.
2275.

1
8.0
296.
28.
28.

3.6
296.
2.
2.
1064
2134
1
298.
46.
46.
1232
2225

10.5
297.
23.
23.
1 9
l f.
3.9 2.5
297. 298.
8. 10.
B. 10.
. 1330.
. 2134.
1 1
79fl. 299.
11. 12.
11. 12.
. 1479.
. 2225.
31*
i
10.8 8.8
297. 297.
27. 29.
27. 29.
|
X
3.6
299.
11.
11.


1
299.
14.
14.



10.1
298.
23.
23.

3.3
299.
8.
8.



298.
32.
32.



9.9
298.
21.
21.

3.3
298.
49.
49.



298.
53.
•S3.



3
9.3
297.
18.
18.

3.8
297.
58.
58.



3.6
297.
60.
60.



8.1
295.
17.
17.

4.8
295.
56.
56.



295.
43.
43.



4
7.7
294.
24.
24.

5.4
294.
72.
72.



293.
40.
40.



5.4
291.
46.
46.

5.3
293.
68.
68.



292.
49.
49.



4.1
290.
105.
105.

3.7
292.
74.
74.



291.
35.
35.



4.9
289.
95.
95.

3.5
291.
54.
54.



4.3
289.
32.
32.



4
4.7
288.
99.
99.
        H(,H1=   620.   620.   620.   620.   620.
              1640.  1810.  1981.  19«1.  1981.
                     620.   620.  790.  960. 1130. 1300. 1470.
                    1981.  1981. 1981. 1981. 1981. 1981. 1981.
   10
   cn
        JYR=76  IMO= 4 JDAY=1I7
        ISIARs   3333
        AWS=   5.6   6.3  4.3  4.8
        TEMP=  282.  281
        AFV=   103.  137
            3
          5.1
2«1. 280. 280.
124. 137. 146.
  3
S.2
279.
146.
        AFVRs  103.  137.  124.  137.  146.  146.
        HLHt =   457.   457.   457.   457.   457.
              1255.  1388.  1524.  1524.  1524.
  333221111     1
4.8  5.1  4.2  4.3  3.7  4.2  5.7  6.4  5.9   4.6
278. 279. 279. 279. 279. 280. 281. 292. 283.  284.
160. 159. 164. 166. 167. 170. 166. 162. 169.  167.
160. 159. 164. 166. 167. 170. 166. 162. 169.  167.
 457.  457.  590.  723.  856.  989.  1122.
1524. 1524. 1524. 1524. 1524. 1524.  1524.
  1    1444444
5.1  5.9  4.3  4.2  4.5  1.9   1.7  2.3
285. 285. 284. 283. 282. 280.  279. 278.
167. 162. 178. 212. 214. 237.  206. 213.
167. 162. 178. 212. 214. 237.  206. 213.
       JYR=76  IMO=  4  JDAY=118

TEMP= 277.
AFV= 226.
AFVR= 226.

277.
193.
193.

276.
188.
188.

276.
202.
202.

275. 275.
190. 173.
190. 173.

275.
tflO.
180.

277. 280.
174. 172.
174. 172.
1
282.
199.
199.
1
7R4.
182.
1«2.
1 1
286. 287.
158. 166.
158. 166.
1
2«R.
172.
172.
1113444444
289. 790. 290. 2«9. ?8«. 287. 286. 285. 283. 283.
184. 165. 178. 175. 179. 170. 182. 182. 186. 185.
184. 165. 178. 175. 179. 170. 182. 192. 186. 185.
       HLH1=   914.   914.   914.   914.   914.
              1142.  1180.  1219.  1219.  1210.
                     914.   9|4.  952.  990. 1028. 1066. 1104.
                    1219.  1719. 1219. 1219. 1219. 1219. 1219.
               110=  5
ISTAflr 4444444421 1

TEMP= 280. 279. 279. 278. 278. 278. 278. 280. 284. 287. 290.
AFV= 42. 67. 40. 37. 49. 125. 177. 76. It. 41. 55.
AFVK= 42. 67. 40. 37. 49. 125. 177. 76. 11. 43. 55.
HLH1 = 0. 0. 0. 0. 0. 0. 0. I56. 312.


2«2.
?fl.
28.
468.


294. 295. 296.
55. 55. 58.
55. 55. 58.
6?4. 780.


297.
59.
59.


297.
57.
57.


296.
55.
55.


296.
51.
51.


294.
53.
53.


293.
45.
45.


290.
12.
12.


289.
11.
It.


290.
18.
IB.
                  .  1092.  1?SO.  1250.  1750.  17.SO.  175O.  1750.  17SO. 17SO. 1250. 17.5o!
-------
JYR=76 IMO=
AHS= " ~
TKMPa
AFV =
AFVHs
HLII1 =

1 .•*
290.
66.
66.
762.
990.
5 «FOAY=12B
290.
56.
56.
762
1028
290. 290. 290. 290. 290. 290. 291. 291
70. 55. 71. 67. 144. 150. 140. 137
70. 55. 71. 67. 144. ISO. 140. 137
762. 762. 762. 762. 762. 800.
. 1067. 1067. 1067. 1067. 1067. 1067.
2
. 292.
. 170.
. 170.
830.
1067.
1
292.
156.
156.
876.
10S7.
1
293.
167.
167.
914
1067
1 1
292. 292.
165. 145.
165. 14S.
. 952.
. 1067.
1
291.
158.
158.


,
289.
165.
165.


1
287.
160.
160.


3
286.
169.
169.


3
7.8
285.
169.
169.


4
8.4
285.
175.
175.


3
6.4
284.
173.
173.


3
5.4
284.
177.
177.


3
2.8
284.
175.
175.


JYR = 76 IMf)= 5 JOAY=140
ISTAB= 44444442311
TEMP= 281. 280. 279. 279. 279. 27ft. 278. 281. 284. 287. 289.
AFVs 177. 145. 140. 180. 165. 148. 165. 243. 184. 0. 185.
AF»R= 177. 145. 140. IflO. 165. |48. 165. 243. 184. 0. 185.
HLHlr 40. 40. 40. 40. 40. 40. 40. 225. 410.

1
290.
II.
it.
595.

1
291.
5.
5.
780

t 1
292. 293.
7. 6.
7. 6.
. 965.

1
294.
54.
54.


I
294.
45.
45.


3 4
294. 293.
171. 171.
171. 171.


4
292.
152.
152.


4
290.
133.
133.


4
288.
138.
138.



286.
147.
147.


4
2.8
285
135
135

          1150. 1335. 1527. 1527. 1527. 1527, 1527. 1527. 1527. 1527. 1527. 1527.
00
    JYR=76 IMO= 5 JDAY3141
    ISTABs  44444
    AWS=  2.1  2.1   1.9  1.9  0.9
                                 444321111J
                               1.2  1.2  0.7  0.9  1.3  2.6  3.1  3.0  2.9  3.1
                                                I     3
                                             2.3  3.1
                                                                                  3
                                                                                1.1
                                                      4
                                                    3.2
                                      4
                                    4.4
                                      4
                                    4.7
                                 4
                               3.6
                                 4
                               2.3
                                                                                      14.  10.  13.  40.  42.
                                 4
                               2.7
TEMPs 283. 283. 282. 281. 280. 280. 280. 282. 286. 289. 292. 293. 294. 295. 296. 297. 297. 297. 297.  395.  292.  290   289   288
AFV=  106. 194. 203. 189. 106.  15.  31. 218.   2.   7.   0.   7.   9.   3. 358.  |4.  10.   13.   40.   42.   50.   79.  102.
AFVR= 106. 194. 203. 189. 106.  15.  II. 210.   2.   7.   0.   7.   9.   3. 358.
HLH1=    0.    0.    0.    0.    0.    0.    0.  190.  380.  570.  760.  950.
      1140. 1310. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524.
                                                                                       65.
                                                                        50.   79.  102.   65.
    JYR=76  110=  5  JDAY=I42
    ISTABs   444444
    AHS=  2.5   2.2  2.6   2.5   1.6  0.7
    TF.MPs 286.  286.  285.  285.  284.
                86.   89.  114.   59.
    AFVRs
    HLHla
       84.
       f»4.
         0
  4    4
0.5  0.9
283, 285
191. 171
86.  89. 114.  59.  97. 191. 171.
   0.    0.    0.    0.    0
                                                2
                                              0.8
                                              1
                                            2.2
                  I
                2.0
  i
2.7
  1     1
2.9   2.5
  1
2.9
  3
2.2
  4
3.0
  4
2.S
  4
2.a
  4
4.8
  4
3.8
                                              288.  291.  294.  296. 297. 298. 298. 299. 299. 299. 298. 297. 294. 293. 291. 290
   ?.    3.   5.   3.
   2.    3»   5.   3.
0.  171.   342.  5t3.
                                     3.   7.
                                     3.   7.
                                     855.
                10.  14.  31.  72.  70. 167. 170. 171. 177,
                10.  14.  31.  72.  70. 167. 170. 171. 177,
              ~      •      •     "* •     » *     v •     **•   i f i •   J 1 c *   ** I .7 •   O *1 t •   QJJ *
          1026.  1197.  1372.  1372.  1372.  1372.  1372.  1372.  1372.  1372.  1372.  1372.
   YEAR  BASED ON   20.  DAYS
-------
             TENNESSEE VALLEY AUTHORITY - KINGSTON POWER PLANT


                                            NOM--S02

                MAXIMUM MEAN CONC =  1.4279E-04  DIRECTION*  t6   DISTANCES  0.7 KM
i-f
    CD
     I
DIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 10
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
                            ANNUAL MEAN CONCENTRATION AT EACH  RECEPTOR
              RANGE    0.7 KM         1.3 KM         2.5 KM          4.7  KM
                                                                            8.7  KM
B.51117E-05 <
B.2I807E-05 1
6.P3279E-05
6.07825E-05
5.24605E-05
3.53766E-05
2.061366-05
1.44876E-05
.316356-05
.30344E-05
.32860E-05
.50433E-05
.326ME-05
.97S02E-05
.01428E-04 (
1.42794E-04 '
1.24335E-04
7.48234E-05 '
.74466E-05
.98284E-05
.42465E-05
. 31389E-05
.30091E-05
.30006E-05
.30030E-05
. 10207E-05
.30960E-05
.32435E-05
.33321E-05
.32440E-05
.31055E-05
.31210E-05
.36H27F-05
.65139E-05
2.67?02E-05
1.3H434E-04
5.94519E-05 !
5.1B173E-05 '
.77B74E-05 :
.32497E-05 ;
.90141E-05 ;
.71712E-05 :
.73050E-05'
.37045E-05 1
.30601E-05
.30103E-05
.31038E-05
.38464E-05
.76378E-05
.12378E-05 :
S.24188E-05 '
J.17793E-05
(.66196E-05 !
».50622E-05
J.49301E-05
.62657E-05
.35844E-05
.30637E-05
.30051E-05
.30151E-05
.303B6E-05
.304R7E-05
.31817E-05
.35123E-05
.37250E-05
.35125E-05
.31P62E-05
.310J9E-05
.35362E-05
.58B77E-05
2.49102E-05
.726IOE-04
5.99104E-05 !
».87144f>05 ;
J.46905E-05 3
I..7J703E-05 5
8.93976E-05 ;
J.14888F-05
.52883E-05
.32841E-05
.30190E-05
.31491E-05
.30341E-05
1.33504E-05
I.52346E-05
Z.17160E-05
I.1557JE-05 :
7.61992E-05
5.56488E-05 4
).06797P-05 ',
1.91836E-05
1.4874BE-05
1.33867E-05
.30415E-05
.30123F-05
.32319E-05
.36650E-05
.32780E-05
.33336E-05
.40395E-05
.45336E-05
.40395E-05
.33259F.-05
.30942E-05
.33415E-05
1.50295E-05
2.22253E-05
1.05687E-04 1
I.97633E-05
I.38173E-05
[.38402E-05
[.24661E-05
(.23636E-05
.72407E-05
.40325E-OS
.31019E-05
.30060E-05
.4001 4E-05
.30149E-05
.3791 6E-05
.60459E-05
.97871E-05
J.07140E-05
F.52062E-05
I.51053E-05
J.21116F-05
.57664E-05
.3B972E-05
.36775E-05
.30176E-05
.30067E-05
.3252?E-05
.3B814E-05
..12715E-05
.31940E-05
.36940E-05
.40754E-05
.36940E-05
.31BB5F.-05
.30321E-05
.31 190E-05
.3B014E-05
.70BP4E-05
>.22117F-05
J.68630E-05
K.39928E-05
.93770E-05
.B3544E-05
Z.04036E-05
.52327E-05
.34722E-05
.34429E-05
.30014E-05
.43256E-05
.30048E-05
.46064E-05
.fi46S8E-05
.92616E-05
J.49894E-05
5.91496E-05
J.56084K-05
.77B22E-05
.43226E-05
.34171E-05
.41478E-05
.30060E-05
.30016E-05
.31233E-05
.35472E-05
.31309E-05
.30881E-05
.31737E-05
.36083E-05
.33737E-05
.1086BE-05
.30106F-05
.30418E-05
.13154E-05
.5105BE-05
J.76944E-05
-------
         TENNESSEE VALLElf  AUTHORITY  -  KINGSTON  POWER
YEAPt.Y
               24-I.OI.R
                                         NOM — SO2

                                    4.1971E-04   niRE:TTON= 1 60.   OIST*NCE=  0.7 KM  DAY=2?2
DO
I
vo
CD
RANGE 0.7
O1R
1
2
3
4
5
6
7
B
9
10
It
17
13
14
15
16
17
IB
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36

2.4923E-04
3. t 49f,E-04
2.6H55E-04
?.8|90E-04
3.402IE-04
7.4781E-04
1 .03B4E-04
3.21 )6K-05
t .5179E-05
1.3*5?E-05
1.7353E-05 <
3.720Jf>05 I
9.67S6E-05 i
2.0505E-04 1
1.2793E-04 1
4.1971E-04 1
4.0220E-04 1
1.I64JE-04 1
1.791HE-04 I
7.1342E-05 (
2.4796E-05 (
1.4311E-05 (
1.3102FJ-05 (
1.3009E-05 (
1.3060E-05 (
1.341 IE-OS (
1.4921E-05 (
I.7B70E-05 {
1.964IE-05 (
I.7B70E-05 (
1.4920E-05 (
1.4739E-05 (
2.1934E-05 (
4.0498E-05 (
6.9504E-05 (
4.0970E-04 (
KM

( 29B )
t 79» )
( 79B )
( 292 )
( 340 )
( 340 )
( 340 )
( 340 )
( 340 )
( 342 )
t 342 )
t 342 )
( 342 )
C 342 )
[ 342 1
[ 222 )
[ 124 )
I 124 )
: 174 )
i 124 )
i 124 )
124 )
332 )
315 )
IIS )
315 )
315 )
315 )
315 1
315 )
315 )
355 )
355 )
355 )
155 )
308 )
                    HIGHEST 24-HOIJP CONCENTRATION  AT EACH  RECEPTOR
                                        1.3 KM                 7.5  KH
                                  i
                             I.5I72E-04
                             2.7032E-04
                             I .5B14E-04
                              .8612E-04
                             2.4350E-04
                             1 .6690E-04
                             6.4373E-05
                             2.1925E-05
                             ! .37B4E-05
                             I.3140E-05
                             1.472BE-05
                             2.4539E-05
                             5.7613E-05
                             1.2290E-04
                             2.0392E-04
                             2.57I6E-04
                             2.2272E-04
                             1 .6B12E-04
                             9.4061E-05
                             4.7.537E-05
                             1.9664E-05
                             I.3B82E-05
                             1.3065E-05
                             1.3300E-05
                             t.3773E-05
                             I.3933E-05
                             t.6634E-05
                             2.3245E-05
                             2.7501E-05
                             2.3245E-05
                             l.*613E-05
                             I.4312E-05
                             2.I129E-05
                             4.I204E-05
                             7.5372C-05
                             3.3922E-04
 (  321  )
 (  176  )
 (  2<»fl  1
 (  292  )
 (  340  )
 (  340  )
 (  340  )
 (  340  )
 (  340  )
 (  342  )
 f  342  )
 (  342  )
 (  342  )
 (  342  )
 (  342  )
 (  331  )
 f  124  )
 (  332  )
 {  332  )
 (  332  )
 (  332  )
 (  132  )
 (  332  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  115  )
 (  315  )
 (  315  )
 (  315  )
 f  3S5  )
 ( 355  )
( 355  )
( 355  )
(  319  )
1.3B74E
1.61S2E
I .0104E
1 .2599E
1.7156E
I.0222E
3.7656E
 .6460E
 .3277E
 .5936E
  3575E
  B062E
3.4775E
6.7870E
I .?606E
-04 (
                                                                        356
                                                                        326
                                                                  -04  (
                                                          I^SIBOE-
                                                          t .0358E-
                                                          6.5593E-
                                                          3.567BE-
                                                          I .B619E-
                                                          1.37I°F>
                                                          I.3I99E-
                                                          1 .7617E-
                                                          2.6300E-
                                                          I .8561E-
                                                          1.9671E-
                                                          3.3790E-
                                                          4.3672E-
                                                          3.3789E-
                                                          I.9473E-
                                                          1.3934E-
                                                          I .861 7E-
                                                          3.5B46E-
                                                          6.901BE-
                                                          3.44B2E-
-04 (
-04 (
-05 (
-05 (
-05 (
-05 f
-05 (
•05 f
•05 (
•05 (
•04 (
•04 {
 04 {
 04 (
 05 (
 05 (
 05 (
 05 (
 05 (
 05 (
 05 f
 05 (
 05 (
 05 {
 05 (
 05 f
05 (
05 (
05 (
05 t
05  (
                                                                  04  (
 340
 340
 340
 340
 340
 340
 331
 342
 342
 342
 342
 222
 222
 231
 332
 332
 332
 332
 332
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
315  )
355  )
355  )
355  )
356  )
  4.7 KM

 9.7644E
 9.B64HE
 7.0608E
 7.IB93E
 1.1149E
 5.2044E
 2.2293E
 1.4041E
 1.3049E
 3.3021E
 1.3215E-
 2.4079E-
 5.1430E-
 5.2B32E-
 it .3669E-
 3.4294E-
 1.6343E-
 5.6501E-
 3.9339E-
 2.5197E-
 2.30«2E-
 1.3307E-
 1.3119E-
 1.B044E-
 3.062BE-
 1.B470E-
 1.6BBOE-
 2.6BBOE-
 3.444BE-
 2.6879F-
 1.6761E-
 1.3478E-
 1 .50B3E-
2.3141E-
4.0951E-
2.1379E-
-05  (
-05  (
-05  {
-05  (
-04  (
-05  {
-05  (
-05  (
-05
-05
-05
-05
-05
-05
-04
-04
-04
-05 (
-05 (
-05 {
-05 (
-05 (
-05 (
•05 (
-05 (
05 (
05 (
05 (
05 (
05 (
05 (
05 (
05 (
05 (
05 (
04 (
                               356 )
                               376 )
 340 )
 340 )
 340 )
 340 )
 340 )
 340 )
 331 )
 342 )
 311 )
 331 )
 331 )
 222 )
 241 )
 231 )
 337 )
 332 )
 •337 )
 331  )
 332 )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 315  )
 3IS  )
 355  )
 355  J
 355  )
356  )
8.7 KM

 6.5442E-05
 *.7700E-05
 4.3524E-05
 4.3496E-05
 7.5524E-05
 3.1923E-05
 1.7072E-05
 2.1401E-05
 1 .3012E-05
 3.95IOE-05
 1.3075E-05
 4.2015E-05
 6.6331E-05
 6.9553E-05
 1.0287E-04
 2.9015E-04
 1.IB6IE-04
 4.7509C-05
 2.6991E-05
 1.9315E-05
 3.4504E-05
 1.3109E-05
 1.302BE-05
 I.5467R-05
 2.3944E-05
 1.561BC-05
 1 .4762E-05
2.0475E-05
2.5166E-05
2.0475E-05
I.4734E-05
1 .3152E-05
I.3771E-05
1.7454E-05
2.6642E-05
1.2092E-04
 ( 355 )
 ( 297 )
 ( 298 )
 ( 340 )
 ( 340 )
 ( 340 )
 ( 321 )
 ( 121 )
 C 340 )
 ( 331 )
 ( 342 )
 ( 331 )
 (  331 )
 (  331 )
 (  222 )
 (  241 )
 (  231  )
 (  231  )
 t  332 )
 (  332 )
 (  331  )
 (  332  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  315  )
 (  355  )
 ( 355  )
( 355  )
( 356  )
-------
    TENNESSKF  VALLEV AUTHORITY  -  KINGSTON POWER







                                     NOM--S02




YEARLY MAXIMUM 3-HOUB CONC=   t.9fi59E-03  DIRECTIONS  0.  DISTANCE*  0.7 KM  DAY=30B.  HOIIR = 1500.

r


r


r















i



1













RANGE 0.7
D1R
1
2
3
4
5
6
7
8
9
10
11
12
13
14
7 15
UD 16
V£> !7
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36

.2653E-03
.4049E-03
.2424E-03
.4206E-03
.3643E-03
.0038E-03
4.0364E-04
9.5B06E-05
2.243BE-05
1 .6515E-05
4.5614f>05
1 .8299E-04
5.3016E-04
9.8294E-04
1.2174E-03
1.4223E-03
1.2661E-03
1.4S68E-03
1 .0937E-03
4.3907E-04
1.0332E-04
2.3294E-05
1 .3531E-05
1.3074E-05
1 .347RE-05
1 .6307E-05
2.8364E-05
5.1957E-05
6.6129E-05
5.1957E-05
2.8359F-OS
2.605HE-05
7.5321E-05
1.8871E-04
3.2384E-04
1 .9659E-03
HIGHEST 3
KM

( 321 )
( 326 )
( 298 )
( 292 )
( 340 )
( 340 )
( 340 )
( 340 )
{ 340 )
( 342 )
( 342 )
( 342 )
( 342 )
( 342 )
( 342 )
( 331 )
( 218 )
( 124 )
( 124 )
( 124 )
( 124 }
( 124 )
( 124 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 )
( 355 )
( 355 )
( 355 )
( 355 )
( 308 )
-HOUR CONCENTRATION AT EACH RECEPTOR
1.3 KM 2.5 KM 4.7 KM

8.4003E-04 ( 321
1.0I47E-03 { 326
7.3776E-04 ( 298
7.9977E-04 ( 292
8.4234E-04
5.9B95E-04
2.1965E-04
4.9378E-05.
1.6197E-05
1.4078E-05
2.5820E-05
9.2377E-05
2.7967E-04
5.3326E-04
6.7667E-04
8.0574E-04
7.6157E-04
7.1886E-04
5.1171E-04
1 .8B88F-0+
5.2506E-05
1.8940E-05
1.347RE-05
1.5397E-05
1.9102f.-05
2.0466E-05
4.2074E-05
9.496IE-05
1.2900E-04
9.4959E-05
4.1904E-05
2.2H28E-05
7.0002E-05
1.8798E-04
J40
340
340
340
340
342
342
342
342
342
241
342
332
124
124
124
332
332
332
315
315
315
315
315
315
315
315
355
355
355
3.3653E-04 f 35S
4.8287C-04 ( 356 ) 3.2748E-04
5.9364E-04 ( 326 ) 5.2154E-04
4.7357E-04 { 298 ) 3.9318E-04
4.9454E-04 ( 292 ) 2.7899E-04
5.4652E-04 ( 340 3.8949E-04
2.9916E-04 ( 340 2.2862E-04
1.0210E-04
2.5743E-05
1.38376-05
3.6485E-05
1.7063E-05
4.3567E-05
1.2782C-04
2.46P1F.-04
3.7939E-04
5.5030E-04
4.4026E-04
3.0412E-04
2.7876E-04
1 .5870E-04
5.3520E-05
1.8478E-05
340 7.4092E-05
340 .8088E-05
340 .3356E-05
331 .731«f>04
342 .4085005
342 .0136E-04
342 3.1418E-04
342 2.7R26E-04
241 ) 4.6755E-04
331 ) 6.8607E-04
332 ) 6.8393E-04
124 ) 2.3321E-04
332 } 1.6983E-04
332 ) 9.9595E-05
332
332
1.4591E-05 { 315
5.0095E-05 ( 315
1.1940E-04 ( 315
5.7486E-05 { 315
6.6372E-05 315
1.7932E-04 315
2.503BE-04 315
1.7931E-04 315
6.478IE-05 315
2.0427E-OS 315
5.0867E-05 C 355
1.43IOE-04 ( 355
9.3427E-05
1.5403E-05
1 .394BE-05
5.3353E-05
1.5403E-04
5.6764E-05
4.4037F-05
1.2404K-04
1 .8459E-04
1 .2404E-04
4.30B8P-05
1.6419E-05
2.6625E-05
6.6128E-05
2.6423E-04 ( 355 ) 1.4180F-04
1.2598E-03 ( 354 ) 1.I761E-03 ( 356 ) 7.89V3E-04



( 356 )
( 292 )
( 298 )
{ 292 )
( 340 )
( 321 )
( 321 )
( 321 )
( 331 )
( 331 )
( 342 )
( 331 )
( 331 )
{ 331 )
( 222 )
( 222 )
( 231 )
( 231 )
( 332 )
( 332 )
( 331 )
( 332 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 )
C 315 )
( 315 )
( 315 )
{ 315
( 315
( 355
( 355
( 355
( 356

8.7 KM

2.8381E-04
4.3572E-04
2.3235E-04
1.8083E-04
2.9371E-04
1.5569E-04
4.538ir-05
8.0205E-05
1.3068E-05
2.2508E-04
1.3362E-05
2.4507E-04
4.3792E-04
4.4642E-04
2.9836E-04
6.1125E-04
5.3228E-04
1.9426E-04
1.0068E-04
5.9188E-05
1.8502E-04
1.3859E-05
1.3226E-05
3.2733E-05
1.0055E-04
3.3947E-05
2.7095E-<)5
7.2797E-05
1.1032E-04
7.2797E-05
355
292
298
284
340
321
321
321
331
331
342
331
331
331
222
241
231
231
332
332
331
332
315
315
315
315
315
315
315
315
2.6869E-05 ( 315
1.4215E-05 { 315
1.8096K-05 { 355
3.5962E-05 ( 355
7.9532E-05 ( 355
4.4543E-04 ( 356
-------
                                                      MAXIMUM DATtY CONCENTRRTIONS
                                          DAY    24-HOIIR CONCENTRATION    DIRECTION    DISTANCE

                                          222          1.I971E-04            |6          0.7J
                                          30ft          4.0970E-04            36          0.71
                                          124          4.0220E-04            17          0.71
                                          331          3.9394E-04            16          0.71
                                          231          3.9039E-04            16          0.71
                                          319          3.8173E-04            36          0.71
                                          342          3.5601E-04            16          0.71
                                          356           .44S2E-04            36          2.49
                                          241           .4294E-04            16          4.65
                                          218           .42HIE-04            16          0.71
                                          340           .40216-04             5          0.71
                                          315           .3I02E-04            36          1.33
                                          332           .2804E-04            17          0.71
                                          298           .I496E-04             2          0.71
                                          326           .01J6C-04             7          0.71
                                          321           .0036E-04            36          0.71
                                          292           48t90E-04             4          0.71
                                          354          2»7635E-04            36          0.71
                                          355          2.6036E-04            36          1.33
                                          284          J.50I7E-04            36          0.71
O
O
-------
   PENM.  eLETTPIC CO. SHAWVTLLE
   SOLVENT REFINED COAL STUDY

   SHAWVILLP PLANT 1975
PROJECT 7101
  KSTL=4   IOR=1   TTAP.tPIINs 0 0
     lOATA.lMUX.If.OTSs 000
  lOHGTs  2   WHGT= 91.0  NSTa 1
  NPOL=  2   JTABa 1    INPIIT= 2
  NSEA=  1   ECONVa   0.304B006

  OAY--

1







1










1
1
1
1
1
1
1
1
1
1
 SYTFs 1.0   FIV= 3.0   TAFs  0.60
                                     RACKGR=
                                                 52.0
1
1
1
1
1
1
1
1
1 1
1
1
1
1
1
1
1
1 1
1 1
DO

O
-------
PLANT FLEVATIDM (FEET ABOVE SEA LEVED--
IOflO.0
    RECEPTOR ELEVATIONS (FEET ABOVE SKA  LEVEL)
DIRECTION
                     RINC.I2   RINGI3
                                        HINRI4    RINGI5
1
2
3
4
5
6
7
8
9
10
1 1
12
3
4
5
f,
7
fi
DO 9
JL 20
O 21
r\J 2j
73
24
25
26
27
28
29
30
31
37
33
34
35
36
STACK «
STACK 1
STACK

1
2
1350.0
1200.0
1160.0
1170.0
1200.0
1250.0
1220.0
1180.0
1 100.0
1070.0
1050.0
1160.0
1 320.0
1400.0
1420.0
1440.0
1440.0
1440.0
1420.0
1400.0
1700.0
1060.0
1050.0
1200.0
1200.0
1260.0
1 3»0.0
1440.0
1460.0
1 460.0
1 4HO.O
1500.0
1500.0
I 4SO.O
1460.0
1440.0
1--SHAHVILLE
2--SHAWV1LLE
1300.0
1200.0
1460.0
1400.0
1 360.0
1 340.0
1 320.0
1 iOO.O
1300.0
1 320.0
1320.0
1060.0
1150.0
1420.0
1520.0
1590.0
1300.0
1260.0
1200.0
1100.0
1000.0
1300.0
1460.0
1500.0
1400.0
1440.0
1460.0
1400.0
1440.0
1 480.0
1500.0
1540.0
1520.0
1 400.0
1200.0
1463.0
STACKS
STACK 3
1400.0
1600.0
1590.0
1540.0
1520.0
1350.0
1260.0
1540.0
1340.0
1584.0
1580.0
1340.0
1300.0
1420.0
1605.0
1580.0
1580.0
1260.0
1320.0
1400.0
1480.0
1572.0
1540.0
1540.0
1540.0
1520.0
1561.0
1540.0
1560.0
1580.0
1560.0
1460.0
1400.0
1746.0
1640.0
1380.0
162
AND 4
1880.0
2174.0
1760.0
1600.0
1600.0
1567.0
1560.0
1500.0
1677.0
1639.0
1766.0
1836.0
1720.0
1743.0
1700.0
1900.0
1900.0
1 780.0
1700.0
1625.0
1540.0
1440.0
1120.0
1551 .0
1505.0
1660.0
18PO.O
1760.0
2140.0
2040.0
2100.0
2000.0
1841 .0
221B.O
1960.0
1900.0
COAI.-NnX
COAIj-UOX
STRATEGY SQ2 EMISSION RATE PART
TYPE
NOH
MOM
(fiMS/SEC)
176
275
.00
.00


2160.0
2100.0
2000.0
1900.0
1800.0
1560.0
1500.0
1481.0
1549.0
1564.0
1668.0
1744.0
1700.0
1800. 0
1900.0
2100.0
2100.0
1840.0
1620.0
1540.0
1520.0
1620.0
1537.0
1796.0
1773.0
2120.0
2320.0
2251 .0
2224.0
2253.0
2293.0
2770.0
7240.0
2056.0
2270.0
2405.0

NORMAL t.OAO
EMISSION RATE HEIGHT DIAMETER EXIT VELOCITY TEMP
(CMS/SEC) (METERS) (METERS) (M/6EC) (DEG.K)
0.00 182.88 3.81 21.82 391.00
0.00 99.06 3.73 18.84 386.00
                                                                                                             VOLUMETRIC  FLOH
                                                                                                               (M**3/SEC)

                                                                                                                  248.77

                                                                                                                  205.87
  RAMGC(KM)3   0.83   1.66    3.32    6.65   13.29
  SEASONAL VARIATIONS 8V CASE  I
           1   1.26   1.09    0.98    0.87    1.10
      0.92
0.87   1.08   0.9H   0.80
                                         1.05
                                    1.00
YEAR BASPD OH 365. DAYS
-------
PENH. ELECTRIC  CO.  SHAWVILtE







                                MOM—S02




   MAXIMUM 24-HOUR  CONC=  1.9650E-04  DIRECTION=360.   DISTANCES   0.8 KM  DAY=150,



RANGE O.R
OTR







DO
1
O
co





I
2
3
4
5
6
7
8
9
1 0
1 1
12
13
14
15
16
17
18
i 9
20
21
22
23
24
25
26
A •
27
28
29
30
3 1
32
33
34
35
36
1 .0399E-04
1 . 1 774P-04
1.3505E-04
1 .2760P-04
1 . 2727E-04
1 .1074E-04
1 .2023E-04
t .0957K-04
1 . 1938E-04
1 .5274T-04
1 .430 JE-04
1 . J409K-04
1. 1806E-04
1.3625E-04
1 .2662H-04
1.0939E-04
1 . 1824E-04
1.1233E-04
1 .2275E-04
1.2373E-04
1 .0676E-04
1 .0786E-04
9.4891E-05
9.8164E-OS
8. 96541-:. 05
9.4194E-05
8.51 33E-05
9.3510E-05
1.2080E-04
1 .2267E-04
1 .407BE-04
1 .2066K-04
1 .0064E-04
1.0514E-04
9.5545F-05
1.9650E-04
HIGHEST 24-HOUR CONCENTRATION AT
KM 1.7 KM
( 150 ) 1.0467E-04
( 140
( 237
( 151
( 131
( 221
( 221
( 256
( 230
f 230
f 230
f 239
( 122
( 122
12?
219
219
127
127
127
( 127 1
) 1.0457E-04
> 1.1204E-04
1 .0702E-04
9.9R69E-05
1 .0060E-04
1 .0391E-04
1.0176E-04
1.0489E-04
1.1713E-04,
1 .0986E-04
9.9947E-05
9.7272E-05
1.0210F.-04
9.6981E-05
9.67.02E-05
1.0mE-04
1 .0723F-04
1.0489E-04
9.8375F-05
9.0731F-05
( 180 ) 9.3428E-05
( 180 ) 8.6541E-05
( 176 } 1.0600E-04
( 176 ) 9.7694F-05
( M5 ) 9.9302E-05
( 145 ) 9.6136E-05
f 120 ) 8.7610E-05
( 120 ) 1.0037E-04
( 120 ) 1.0424E-04
( U7 ) 1.0962F-04
( 137 9.2SH9E-05
( 258 8.9342E-05
( ?58 R.6237E-05
C 168 8.56I2E-05
( 150 1.546BF-04
f 173 )
( 140 )
( 7.37 )
( 151 )
( 131 )
( 221 )
{ 271 )
( 90 )
f 256 )
( 230 )
( 230 )
f 67 )
( 136 )
( 136 )
( 220 )
( 219 )
( 219 )
( 127 )
( 127 )
( 127 )
( 1HO )
( 180 )
( 291 )
( 176 )
( 176 )
( 145 )
f 178 )
( 178 )
f 120 )
( 120 )
( 137 )
( 137 )
( 2SO )
( 258 )
( 187 )
( 195 )
EACH RECEPTOR
3.3 KM
8.5071E-05
8.3477E-05
9.3487E-05
1.0H1E-04
9.2913E-05
.0852E-04
.1721E-04
.2567E-04
.1429E-04
.5377E-04
.1227E-04
.1 1 11E-04
8.8431E-05
8.61B9E-05
9.6932F-05
7.4175E-05
7.5384E-05
8.0152E-05
7.9B29E-05
7.8807E-05
7.6604E-05
8.1702E-05
8.3217E-05
9.34J6E-05
1.1325E-04
7.8219E-05
8.2264E-05
7.5864E-05
9.7584E-05
8.6832E-05
1 .0575E-04
7.4R50E-05
7.1968E-05
6.9756E-05
7.5695E-05
1.0747E-04

6.7 KM
( 173 ) 7.2546E-05 (
( 259 ) 7.1844F-05 (
( 306 ) .1338E-04 (
( 56 ) .0258E-04 (
f 11 ) 9.8704E-05 (
( 19 1 .082SE-04 (
( 14 ) .2154E-04 (
f 44 ) .2070E-04 (
t 30 ) .2545E-04 (
( 94 ) .2B42E-04 {
( 79 ) .1668F-04 (
f 67 ) 9.0704E-05 (
( 2 ) B.4719E-05 C
( 122 ) 7.B771E-05 (
( 86 ) 9.4032E-05 (
( 219 ) 7.5307E-05 (
( 219 ) 6.9572E-05 t
( 127 ) 8.7063E-05 f
( 177
( 218
( 21B
( 218
( 291
( 291
( 73
( 145
( 178
( 244
C 243
( 120
( 123
f 272
( 258
( 211 1
( 11 )
( 195 )
) 8.38B2E-05 (
7.4904E-05 (
6.5S93E-05 f
8.2032E-05 (
8.9157E-05 f
B.8197E-05 f
1.3025F-04 (
8.4960E-05 (
8.4796E-05 (
9.6711F-05 (
l.OBBOF-04 f
9.1717E-05 (
1.1502F-04 (
7.9703F-05 (
6.8860E-05 (
7.1703F-05 (
7.7815E-05 (
B.1769E-0-) (


165 1
265 )
306 )
56 )
330 )
19 )
14 )
44 )
30 )
94 )
79 )
67 )
2 )
302 1
R6 1
34 1
33 J
20 )
20 )
218 )
180 1
71B )
291 t
33 )
73 )
28 )
121 1
171 )
243 )
8 )
123 )
6 >
71 )
53 )
11 )
195 )

13.3 KM
7.0849R-05 (
6.99425-05 (
9.4400E-05 (
8.6214E-05 (
7.8138E-05 (
8.1254E-05 (
9.8784E-05 (
9.2850E-05 (
1.0053E-04 (
1.0683E-04 (
8.7467E-05 (
7.5904E-05 (
7.8319E-05 (
7.4873E-05 f
7.7224E-05 (
6.8768E-05 (
6.8324F-05 f
7.3665E-05 {
7.7777E-05 (
6.6362E-05 (
6.0778E-05 (
6.9478E-05 (
8.5749E-05 C
8.4701E-05 f
1.0017E-04 (
9.1893E-05 (
9.0100E-05 (
8.9374E-05 (
9.2810E-05 (
7.7471F-05 (
8.9187E-05 f
7.2078E-05 (
6.7570F-05 (
7.3375E-05 (
6.2662E-05 (
7.07IOE-05 (


283 )
7 )
306 )
23 )
242 )
19 )
4 )
^ 1
45 )
30 )
318 )
79 )
96 )
303 )
302 )
86 )
34 )
31 )
20 )
218 )
218 )
180 )
218 )
291 )
33 )
73 )
28 )
121 )
121 )
243 )
162 )
123 )
6 )
71 )
53 )
146 )
150 )
-------
                                     ir. nminmir. inirinviir.  irinmirminininirinviiririnininiririninininininir
                                     ccecoccecccocccoccccccccoeeeecceeceo
                                      i   i   i  i  i  i   i   i   i   i  i  i   i   >   i  i  i  i  i   i   i   i  i  i   i   i   i   >  i   i   i   i   i  i  i   i
                                     u: it b: f b:  u; b: u.' u: u:  ui  u  u: u: u: ui ti-  u; u: it  u  i* b:  it  u; it u it  it  u; it u it  it  u.  u.
                                     ci«»«NO''*i«»>cttOP*frf-^-—r*'*^O'r***'0^^>*c»omo>ffr-o»r-irrfc^f|^acer*
                                     t»e  — c«Nve«e«CCT«virop»p-ir. « — — — crcuif~ir —  "s-r»cr-vc'^«r»^<' — —• IT. ir. v> in in in  in  m  mm«ic    O  IT.  — I
                L.           Z	

         CO.           «-
         o;     «-           f-
          i     c           «
          i                 c:
         ¥                 t~        muiintninir, irtnir, mirinwiminir, inin           z         i   i   i   i  i  i  i  t   i   i   i  i  i   i   i   i  i  i  i  i   i   i  i  i  i  i   i   i  i  i  i   i   i  i  •   i
tj                           ^X     b^blb?b7UUUbrUUbrb?Uttl«}b?b;bJbDbOUUUUb!b9&ub3brUUb:UUUbJ
u.
a
                                                                                  B-104
-------
    PF:NN.  FI.KCTRIC co. SHAWVTM.R
YSARf.Y MSXIMUM 3-HOUR CC)MC=   5.4I62F-04  DIRECTIONS  0.  DISTANCE*  O.B KM   »AY=150.  HOUR=15OO.
                         1-HOUR  CONCENTRATION  AT  EACH RECFPTOR
RANGE o.« KM
DIP
1
2
3
4
5
6
7
R
9
in
it
12

14
Wl 5
1 16
_i
CD
cn 18
19
20
21
22
23
24
25
26
! 27
28
29
! 30
31
32
1 33
34
35
i 36

3. 1 490R-04 (
3.3376E-04 (
3.2M7E-04 (
3.3070E-04 (
2.7663K-04 (
3.U&OE-04 (
2.8757E-04 (
3.0472E-04 (
3.175IE-04 {
3.421BE-04 f
3.4111E-04 (
3. 3 26 2 E -04 (
2.88ME-04 (
3.1525E-04 (
3.0626E-04 (
2.8407E-04 (
3.1170E-04 (
3.0673E-04 (
2.6714E-04 (
3.2444E-04 (
7.7875E-04 (
2.B169E-04 (
2.3530E-04 (
2.6307E-04 (
2.5555E-04 (
3.1174E-04 (
2.B620E-04 (
2.4244E-04 (
2.6652E-04 (
3.4716E-0* (
3.4R01R-0* (
2.9314E-04 (
3.0165E-04 (
3.1152E-04 (
2.8705E-04 (
5.4162E-04 (

146 )
738 )
237 )
131 )
131 )
236 )
236 )
245 )
224 )
230 1
239 )
239 )
136 )
136 )
122 )
219 )
219 )
219 )
127 )
127 )
127 )
180 )
176 )
176 1
235 )
145 )
145 )
161 )
21 )
21 )
137 )
1 37 )
250 )
135 1
135 )
150 1
1.7 KM

7.4416F.-04
?.72"»*F-04
2.7033E-04
2.9906E-04
2.43B6E-04
2.3535F-04
2.4170E-04
2.526BF-04
2.5194F-04
2.401SE-04.
2.5R23F-04
2.2193F-04
2.3556E-04
2.4994F-04
2.4123E-04
2.7376E-04
2.41 13F-04
2.4626E-04
2. 1069E-04
7.344BE-04
2.06SOE-04
2.1796F-04
1 .9765F-04
2.4R29E-04
2.823BE-04
2.2973E-04
2.4431E-04
1.8651E-04
2.2297E-04

2.4730F-04
7.4164E-04
2.3451E-04
2.3988E-04
2.0305F-04
3.8506E-04

{ 146 )
( 140 )
( 237 )

f 301 )
( 221 )
14 )
30 )
30 )
148 )
326 1
( 229 )
( 136 )
( 270 )
f 219 )
( 270 1
( 719 )
C 127 )
( 177 )
( 177 1
( 218 )
( 180 )
7.91 )
235 )
235 )
14S )
181 )
{ 178 )
( 244 )
( 21 )
( 333 )
( 334 1
{ 750 )
{ 150 )
f 59 )
( ISO )
3.3 KM

1 .91 37E-04
2.2357E-04
7.2870E-04
2.070RF-04
2.3485F-04
2.3514E-04
7.2631E-04
2.3173E-04
2.3671E-04
2.2897E-04
2.0077E-04
1.8463E-04
2.0414E-04
1 .7539E-04
2.0890E-04
1.8B94E-04
1 .6945E-04
1.6162E-04
1.6051E-04
2.0121E-04
1 .6472E-04
1.7745E-04
1.7710F-04
2.1703E-04
1 .8901E-04
1.9405E-04
1.6435E-04
1 .7631E-04
2.1044E-04
1 .9369E-04
2. I204E-04
1 .6983E-04
1.5BBOE-04
1 .6397F-04
1.8233F.-04
2.293SE-04


( 228 )
( 259 )
( 24 )
( 225 )
( 18 )
( 1R 1
( 16 )
( 9 )
( 9 )
( 2 )
( 337 )
( 67 )
( 2 )
f 340 )
( 34 )
( 126 1
( 185 )
f 214 )
( 20 )
( 20 )
(218 )
( 218 )
( 291 )
( 3? )
{ 735 )
f 69 )
( 35 )
( 334 1
( 76 )
( 333 )
( 123 )
f 6 )
( 149 )
( 11 )
( 1 1 )
( 142 )
6.7 KM

1 .59B9F-04
1 .76B4E-04
2.5695E-04
2.2575E-04
2.3936E-04
7.3442F-04
2.2B54F.-04
2.6380E-04
7.7860E-04
7.5505F-04
2.0O3fiF-04
2.0176E-04
2.7490F-04
1 .9723F-04
2.3151R-04
7. 1480F-04
1 .7737E-04
7.3373E-04
1 .7169E-04
1 .6B70E-04
1.4799E-04
I .6753F-04
1 .6000F-04
1.9705F-04
2.1099F-04
2.1776E-04
2. 185RE-04
2.0601F-04
2.4974F-04
2.43S8F-04
7.R660E-04
.7776E-04
.51ROE-04
.96fi7F-04
.6741E-04
.6305E-04


( 165 1
17 1
306 1
15 )
242 )
1
14
4
47
376
79 )
257 )
( 7 )
( 340 )
f 19 1
( 126 )
( 20 )
( 70 )
{ 70 1
( 218 )
( 72 1
218 )
291 )
242 )
32 )
4B 1
777 )
( 121 )
( 243 1
( 8 )
( 10 )
( 6 )
( 149 )
( 53 )
( 111
( 232 )
13.3 KM

1.60S9F-04
1 .7549K-04
1 .8935E-04
2.2787E-04
7.1066E-04
1.7092R-04
2.1083E-04
1.9665E-04
1 .9709E-04
2.02B7E-04
1.747RE-04
1.6665E-04
1 .4881E-04
1.4700E-04
1 .8056E-04
1 .4032E-04
1.3216E-04
1.6886E-04
1 .7052E-04
1 .3346E-04
1.2216E-04
1.4977E-04
1 .896BE-04
1.9157E-04
1.9479E-04
2.3724K-04
1 .9202F-04
1 .8038E-04
7.0253E-04
1.7143E-04
2.0551E-04
1.5872E-04
1 .3843E-04
1 .8524E-04
1.2358F,-04
1.1221R-04


( 2B3
( 7
( 306
( 23
( 242
( 37
( 308
( 45
( 30
{ 326
f 22
( 318
( 13
( 13
( 19
( 126
( 19
( 20
( 218
( 2IB
( 87
( 291
( 291
( 28
( 43
{ 2P
( 227
( 121
( 243
( 87
( 10
( 6
( 71
f 53
{ 759
( 232


)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
1
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
-------
90i-a
                                                            I
                                                            X
                                                            9
                   r  i  i  <  i  i  i  i  i i i i i i  i  i  i  i  '
                  OO3OOO3O3OOOO9OOO3O
                                                            O
                                                            a
                                                            z
                                                                  n
                                                                  CJ
                                                                  z
                                                                  -»
                                                                  **
                 OOOOOOWOOO—O3-—
                                                            O
                                                            ••*
                                                            •Jl
-------
PENH.  ELECTRIC  CO.  SHAWVILLE
SOLVENT  PGEINFO COAL  STUDY    PROJECT 7JOt  -

COAL  MAXIMUM  CONDITION

STATIC  »   1--SHAWVTU.E STACK I  (MAX.  COND.)   COAL NOX
STACK  »   7--SHAWVIU.E STACK 1S.4 COAL NOX  MAXIMUM LOAD
 STACK


     1

     7
STRATEGY
  TYPE

  MOM

  NOM
S02 EMISSION RATE
    (GMS/SEO

      716.00

      370.00
PART EMISSION PATE
     (RMS/SEC)

         0.00

         0.00
                0.81    1.66   3.12   6.65  13.'9
  SEASONAL  VARIATIONS  «Y  CASE «
            1    t.00    1 .00   J.00   1.00   1 .00
HEIGHT
(METERS)
187.88
09.06
DIAMETER
(METERS)
3.R1
3.73
EXIT VELOCITY
(M/SEC)
29.38
22.52
TEMP
(PEG.K)
403.00
396.00
                                      VOLUMETRIC FLOW
                                        (M**3/SFC)

                                           334.96

                                           246.08
                                         I .00
                                     1 .00
                        1 .00
1 .00
t .00
1 .00
1 .00
JYR=75 1*0=  3  JDAY =  73
ISTABs   3^3333333333333333
A«S=  7.2  7.7   9.8   8.9   8.0   8.5  8.5,  8.1   8.9  8.9  9.8 10.3  8.1  7.6  6.3   5.8   5.8   5.8
TEMRr 271. 271.  270.  270.  270.  269.  268.  268.  268.  2*9. 269. 769. 270. 270. 270.  270.  270.  269.
AFV =  2«3. 253.  256.  251.  257.  278.  264.  255.  254.  263. 264. 759. 261. 257. 757.  257.  253.  250.
AFVR= 743. 253.  256.  251.  757.  278.  264.  255.  254.  263. 264. 259. 261. 757. 257.  757.  253.  250.
HLH1=  HOI.  801.  801.   P01.   801.   801.   770.   739.   708.  677.  646.  615.
       584.  553.  553.   553.   553.   553.   553.   553.   553.  553.  553.  553.
                                                                                          333333
                                                                                        4.5  4.5  4.0   3.1   3.1   2.2
                                                                                        269. 270. 270.  270.  270.  269.
                                                                                        257. 250. 243.  262.  246.  223.
                                                                                        257. 250. 243.  262.  246.  223.
JYR=75 IMD=  4 JOAYs  94
ISTAH=  33333333333333333333
AWS= 14.« 13.4  16.1  15.6  12.5  12.5  11.6  12.1  14.8 16.1  15.6 17.4 16.1 15.6 15.fi  15.2  15.2  14.8  12.5 10.3
TI5MP = 269. 267.  767.  267.  266.  266.  266.  266.  267.  267.  267. 268. 269. 269. 268.  768.  268.  267.  267.  266.
AFV±  101. 106.  108.  109.  109.   97.   93.  100.  106.  106.  104. 103. 104. 105. 105.  104.  110.  104.  106.  106.
AFVR= 101. 106.  108.  109.  109.   <»7.   93.  100.  106.  106.  104. 103. 104. 105. 105.  104.  110.  104.  106.  106.
HLH1=  600.  600.  600.   600.   600.   600.   600.   720.   840.  950. 1060. 1170.
      1200.  1390.  1500.  1«>00.  1500.  1500.  1500.  1500.  1500. 1500. 1500. 1500.
                                                                                                     3333
                                                                                                  9.4   9.8  10.7   9.8
                                                                                                  266.  266.  266.  266.
                                                                                                  101.  108.  108.  101.
                                                                                                  101.  108.  108.  101.
JYR = 7
ISTAO
AWS =
TEMP =
AFV =
5 1 M0= 4 jr>AY = 103
= 4 44 4 4 4 4 3 7 1 1
270. 269. 269. 269. 267. 267. 267. 270. 273. 274. 275.
122. 110. 111. 111. 114. 108. 109. 106. 112. 128. 179.
1
275.
137.
1
275.
130.
1
775.
171 .
1
776.
122.
1
277.
1 15.
1 1
278. 279.
120. 128.
3
276.
1 36.
4
5Q
* "
274.
141.
4 4
5O HA
• H 3.4
273. 272.
146. 156.
4 4
4e i £
• D J , n
771. 270
153. 166
AFVRs 127. 110.  113.  111.  114.  I0q.  109.  106.  112.  178.  179. 117. 130. 17)'. 127..  115.  170.
HLH1=  827.  H27.  922.   9?2.   827.   827.  1019.  1?<>7.  1474. 169?. 1909. 2177.
      23
-------

•01
•oi
M6£




•6d
•6d
*d6£
9'£



•szs
"Sdd
*SB£


•ISE
•ISE





•£E
'££
•£6d
S'fr
»


•10£
Mod
•ibd


*QSC *9i£ *£&£ '«£
"OSt 'yt£ *£*£ "fl£
"£b£ *>b2 *Sb£ '*6i
»C fc fc
I. r r


•U *6 *£SE '8»£
*H -6 'lfi£ 'B»£
*£6C '>bd 'frbd *9bd
6'» l*£ I'E 0'»
* £ £ £


'9il '991 '»Sl '£»!
*9il '991 '»Sl '£H
•bed '06d '£6d *96£


•at
*bl
'ibd




•d£l
•£££
'ibd
1


'Sll
'ill
'bbd
I

ME
* IE
•ibd




* »E
*>*£
'bbd
1


' 101
' 101*
"86£
1

'it
'df
"ibd




• 1st
"ISE
*66£
1


*SOI
'SOI
'dbd

" I S I I
• t» M »
• l» ' \t
'obi "bbd
11
•
•Sidl
* lOdl
•6 '9
•b 'V
'66d *OUE
1 I
'OSil
MIM
Mil Mb
Mil M6


'SOI I
'It
'it
'8bd
C * H
a D

'Sidl
'S91I
*k
•fc


'OSil
Midi
•ooi
'001
•Sbd
1
'ibOl
'i>»
's>
'ibd
1 * u
1 O

'Sidl
'8dl|
'El
'El
'Sbd
1
'osti
Mill
'66
'66
'£bd
1
'UOOl '
"8> *»S»
'bk MS
'i6d 'Sb
1 * u 1 *
ID I.
If
c
'sidi •
•dbOl '
*9 '01
'9 '01
Mbd Mb
1 1
'OSi| '
•£S6 '
•£ll *£S
*£ 1 1 '£S
•dbd M6
1 1
09b
'£»
'if
C 'Sbd
9/ • /
C L

Stdl *
SSOl '
•b
'6
d *£b£
1
OSil *
dbi '
'69
'69

I
» Ib '
• |(.
' If
•£bd
H* C
a

stdi •
bloi '
*dSE
•dS£
•£bd

Ottl '
EE9 '
'CM
'£»»


£98 '(98
'8d *>d
'bd Md
'Obd "Obd
8* t fc * t
a r a

stdi 'stdi
dd6 'dbb
'» '6
*V '6
*£8d *£Hd

OSil 'OSil
Ei» *Ei»
*0d| '101
•Odl '£01
•dBd "Obd

M9b
'Sd
'Sd
*0bd
n * k
u r

•Sid
'£86
•El
'El
*lbd

•ost
• £ t»
•us
'8S
•obd

M9b '£98
'dd 'bd 'd£
*bd 'bd 'dd
'Obd M6£ Mbd
0*t l*f / * 7
r It C. C
is«=x»ar s
l 'stdi *st£i
•£B6 '£86
'91 'El '91
'91 'El '91
*£B£ 'EBd 'EBd

1 *OSil 'Oi.il
" Etfr " £i>
'Ot *S9 *0i
*0i 'S9 'Oi
Mbd '£8d '£Bd

* £98
*ld
'Id
M6£
u • r
7 C.
= OHI
•Bldl
*£8b
•0£
•OE
•ibd
.»,
'06SI
•Etfr
'if 1
*i£l
•»8d
I'E

zlHIH
*UAJV
= AJ«
— C M W
~ o r! •
£11 u I ft »
a 1 ilb i

= IH'1H
= dAJV
SAJV
e«SHt
st=ixf

x IH'JH
= UA JV
= AJtf
s=Sni
-6V1SI
                                                                                                                                 CO
'6dE *S££ MSE *8   'US£ 'BEE  *ili  '61E  'Od£  'HE
'6dE 'fi££ MSE *8   'BSE 'BEE  'tit  "6IE  *0££  'il£
•t8d *t8d '8B£ '68£ M62 *26£  'frb£  'Sbd  'S6£  '9bd
 9'£  I'E  O'V  I'L  L'9  fi*>  b'Si   >'S   »'S   E'9
 >     fr    »    £    £    £    £     I     I     I
                                                      'td£l 'ICEI 'ld£l  'td£l  *ldt»  'idEI
                                                      *<.»6  'OdB  '£69   *99S   'btt   *dl£
                                                  '6IE Mlt 'HE 'ME '9id  *09d  '6»d  ' LU
                                                  'bU '(IE 'ME 'UE '9id  '09d  *6»d  ' LH
                                                  '96d 'L6t *S6d 'frbd 'led  *8Bd  'Sbd  'I8d
                                                   B'S  *'S  b'S  »'S  S'fr  »'S   B'S   1*9
                                                   I    1    I    I    I    1     t     fr
                                                                                           'idfl 'idEI 'tdEI  'IdEl  'OOdl
                                                                                           'dlE  'dlE  'ZIE   'dl£   'Zl£   =IHTH
                                                                                           *6»d 'iSi 'titi *tsd  'an  *s»d  =UAJ«
                                                                                           "6»d 'tSd '6>d *iSd  *b»d  'Sf-d
                                                                                           'bid *b(.d 'OBd *{8d  *d8d  *£8d
                                                                                            »'S  S'»  I'E  fd  O't-  9'£   =SM«
                                                                                                                                  I
                                                                                                                                  CD
                                                •9101 '9101 '9101 *9IOI '9101  *9»0l  *9l0l  '9101  '9101  "9101  '9101  'ilOl
*9Ed  'Odd  *6ld *SOd '881 '£61 '991  *OSI  'Svl  'SEI
•9EZ  'Odd  '6ld 'SOd "881 '£61 '991  '061  'SH  'S£l
M»d  *SUd  *98£ 'BUd '06d 'dbd *Sbd  'Sbd  "Sbd  'Sbd
 6'fr   S'>   S'»  6*»  b'S  »'S  6'»  S'»   6'»   b'»
 *     V     >    >    *    d    I    I     I     I
                                                        I
                                                      •0801 'dOll *£dll 'Sfll  '9911  'b8ll  "bull  'BBII  'Ubll  'Btfll  'bbll  =IH1H
                                                       'OS» '
                                                       'Oil '
                                                       •»6d '
                                                                  'S£l '9£l '9>l 'Oil
                                                                  *lbd *66d '8bd '9Bd
                                                                   S'»  bTfc  Q'»  O't
                                                                   I     I    £    »
d£i
d£l
S8d
S'E
k
'601
'601
'Sbd
d'd
k
M6
* 16
*Sb£
f£
k
'9b
'9b
'Sbd
O'k
V
'Sb
•S6
*SUd
l'£
k
'Sb
'S8
'9bd
d-d
V
•d£
•d£
•98d
8M
»
•£i
MUd
                   *b»l
              '8H
              •£8d
                         '6bd '\bC
                                              *0»l
                                              'OH
bSI  'ibSI  'ibSI  *i6SI 'Lo*(
HI  'tddl  '(>bOI  'Eib  'UtU  'Idt
'til  *d»|  'til  r>SI 'Sti 'OSI '91
'oil  '<;k|  *£SI  '»SI *SE| 'OSI '9t
                                              Mbd  *Ubd  *bUd  *bbd
                                                                                     '8bS
     "ibSI
     'bbS   'bbS   *8bS
*Sdl  'tdl  '£9   'ES  *9   Mdl
'Sdl  'Edl  '£9   "ES  '9   Mdl 'dSd
•dBd  Mbd  'oad  '08d 'obd 'ubd
d'd  d'd  fd  I'E  i'9  UM   9'i   I'B   f9  1'9  E'9  d'i  d"i  ft  f 9   i'9   E'9   b'»   S'»   fl  EM   k'o   EM   8'
»»>»££!     lllllllddEfkykbtt
                                                                                                                         =IHTH
-------
f

r

<

c

r
       IST»R=  4
       AWS*  l.R
       TpMPs 788.
       AFV =  352.
             444
           t.B  1.8  0.9
           287. 287. 287.
  4    4
0.9  2.7
286. 286.
           319. 298. 317. 211. 270.
4 3
3.1 1.8
288. 290.
268. 772.
1
1 .3
294.
243.
1
3.6
297.
293.
1 1
4.5 6.7
300. 301.
326. 311.
1 1
301. 302.
313. 317.
1
301 .
315.
t
301 .
170.
t 1
301. 300.
313. 310.
2 3
299. 298.
325. 331.
4
296.
354.
•» tf A
4
296.
349.
^ 4 ft
3 4
294. 290
50. 44
KM ft
                                               .  777.  243.  293.  376. 311. 313. 317. 315. 320.  313.  319.  325.  331.  354. 349.
AFVRs 352. 319. 298. 317. 211. 770. 76R
HLH1=  356.  316.   356.  356.  356.  356.  515.  673.   832.   990.  1149.  1308.
      1466. 1675.  1625.  1675.  1675. 1625. 1625. 1625.  1625.  1675.  1625.  1625.
JYR=75 IMOs 6 JDAY=173
ISTAR= 4 4 44 4
TEMP = 288. 287. 287. 2«6. 786.
AFV= 211. 319. 5. 12. 8.
• plfni).. ^iQ 1% 11 B
AF"n= 211. 314. 3. i/. o.
HLH1= 340. 340. 340. 340.
1169. 1288. 1288. 1288.
JYR=75 110= 7 JOAY=189
ISTARs 44444
AHS= 1.3 1.3 1.3 1.8 1.8
TEMPs 289. 289. 268. 788. 288.
AFV = 342. 300. 284. 256. 259.
AFVRs 342. 300. 284. 256. 259.

4
786.
180.
t ft n
1 H \f .
340.
1288.

4
1."
788.
288.
288.

4
2flP.
180.
1 ft A
I n " •
340
1788

4
288.
310.
310.

1 t
297. 295
59. 39
SO 19
j ^ . f ^
. 458.

1 1
. 797. 799.
. 10. 7.
577. 695.
. 1288. 1288. 1289.

3 1
290. 291
71. 32
21. 32

1 1
. 294. 298.
. 77. 31.
. 77. 31.

1
301 .
•>.
814.
1788.

1
300.
12.
17.

1
302.
9.
932
1288

1
302.
4.
4.

1 1
307. 307.
9. 11.
9. 11.
. 1051.
. 1788.

t 1
303. 301.
7. 317.
2. 312.

1
304.
176.
176.



1
300.
340.
340.

1
303.
10.
10.



1
301.
1.
1.

1
300.
341 .
341.



1
299.
2.
2.

1
299.
336.
336.



3
297.
12.
12.

4
296.
12.
12.




296.
18.
18.

4
3.6
295.
14.
14.




295.
32.
32.

4
3.1
294.
19.
19.




294.
33.
33.

4
3.1
294.
23.
23.




294.
36.
36.

2.7
292,
31.
31,




29
29
                                                   750.  890. 1031.  1171.  1312.  1453.
              1593J  1734i 1734. 1734. 1734. 1734. 1734. 1734. 1734.  1734.  1734.  1734.
JYR=75 IMO:
JSTAB= 4
AWS = 1.3
TF.MPs 289.
AFV= 19.
AFVRs 19.
5 7 JOAY=191
1.8 0.9
287. 286.
67. 118.
67. 118.
1.3 0.9
785. 285.
90. 88.
90. 88.
1.3 2.2
284. 287.
32. 71.
32. 71.
1 1
0.4 0.4
290. 293.
108. 14.
108. 14.
1.3 2.2
296. 297.
334. 1.
334. t.
1 1
2.2 2.7
297. 298.
9. 10.
9. 10.
1 1
4.0 2.7
799. 301.
15. 11.
IS. 11.
1 t
4.0 3.1
301. 783.
9. 9.
9. 9.
2 2
4.5 5.4
283. 283.
35. 36.
35. 36.
3 3
1.0 1.0
283. 283.
319. 23.
319. 23.
444
1.0 1.3 2.7
283. 287. 287
30. 274. 36
30. 274. 36
                                       542.  54J.  716.  390.  1065.  1239.  1413.  1588.
              1762^ 1936! 1936. 1936. 1936. 1936. 1936. 1936.  1936.  I93S.  1936.  1936.
        JYP=75 IMO= 7 JDAY*195
        ISTABs  334444
        AWS=  2.2  2.2  2.7  2.7  l.fl  1.3
        TF,MP = 291. 290. 290. 290. 290. 290
        AFV=  373. 298. 284. 303. 324. 331
        AFV« = 323. 298. 284. 303. 324. 331
4 3
1.3 1.3
290. 291.
337. 291.
337. 291.
t
1.3
792.
5.
5.
1
2.7
293.
5.
5.
t
3.6
296.
It.
11.
1
3.6
297.
4.
4.
t t
3.6 3.1
299. 299.
5. 1.
5. 1.
3 1
3.6 4.0
295. 297.
16. 353.
16. 353.
1
3.6
297.
350.
350.
3 '
3.6
794.
5.
5.
4 4
3.1 2.7
292. 292.
72. 347.
72. 347.
4 4
1.6 0.4
292. 291.
302. 337.
302. 337.
4 4
0.9 2.2
291. 291
44. 52
44. 52
        HLH1*  660.  660.  660.  660.  660.  660.  743.   827.   910.   994. 1077. 1160.
              1244. 1327. 1327.  1327.  1377.  1327. 1327.  1327.  1327.  1377. 1377. 1377.
        JYR=75 110= 7 JD»Y=197
        ISTAR=  444*44
        AWS=  3.1  4.0  2.2  0.4  0.0  0.0
        TEMP= 291. 291. 291. 291. 291. 291.
        AFV=  259. 779. 286. 300. 305. 282.
        AFVRs 759. 279. 286. 300. 305. ?!»?.
        HkHl*  640.  640.  640.  6*0.  640.
              1995. 2177. 2177. 7177.  7177.
4 3
0.4 0.4
291. 792.
279. 313.
279. 313.
1 1
1.3 7.7
294. 296.
18. 7 .
18. 7.
1
7.7
799.
3.
3.
1 1
3.6 7.7
799. 298.
18. S6.
H. 56.
1
2.7
301 .
10.
10.
1
7.7
301.
12.
12.
1
7.7
301 .
28.
28.
1 1
3.1 3.1
300. 299.
12. 2.
12. 7.
3 4
3.1 3.1
297. 295.
356. 25.
351. 25.
4
0.9
295.
112.
112.
4
2.2
294.
284.
284.
4 4
1.8 0.9
293. 292.
268. 189.
268. 189.
                                      640.  832. 1024.  1216.  MOB.  1600.  1793.
                                     2177. 7177. 2177.  2177.  2177.  2177.  7177.
-------
            tMO=  8  JOAY=230
     ISTARs   4     4
     AHS =  4.0   3.6
     TEHP= 290.  290.
     AFV=    40.   49.
     AFVHs   40.   49.
            4    4
          4.9  4.0
          289.  289.
           47.   61.
           47.   61.
  4    4
4.5  5.4
289. 290.
 77. 106.
 77. 106.
     HLHla   967.   967.   967.   967.   967.
  4    3    I     1     I     I
4.5  3.6  4.0   5.4   5.8   5.4
291. 292. 293.  294.  295.  796.
107. 110. 108.   94.  |07»  101.
107. HO. 108.   94.  107.  101.
 967. 1073.  1179.  1284.  1390.
           1707.  1*13.  1813.  1813.  1P13.  1813.  1813.  1813. 1813.  1813,
                          1     I     I
                        5.8   6.3   7.2
                        2°6.  797.  297.
                        106.  lit.  114.
                        106.  HI.  114,
                        1496.  1601.
                        1813.  1813.
       I     1    1
     6.3   6.3  5.8
     797. 298. 797.
     11B. 106. 109.
     118. 106. 109.
                                                                                       344444
                                                                                     6.3  6.7  7.6  6.7  3.1  3.6
                                                                                     295. 292. 291. 290. 289. 288.
                                                                                     116. 129. 145. 148. 130. 145.
                                                                                     116. 129. 145. 148. 130. 145.
JYR»75 110

TEMP= 295.
AFIfs 47.
AFVR= 47.
HLH1= 501
758
JYR=75 IMO
ISTABs 1
AWS = 6.3
TEHPs ?90.
AFV= 114.
AFVRs 111.
HLH1= 439
a 8 JF>AY = 737

294. 704. 293. 293.
51. 49. 27. 30.
51. 49. 27. 30.
. 501. 501. 501.
. 795. 795. 795.
a 8 JDAY&239
5.4 4.5 3.6 2.7
290. 289. 288. 288.
115. 109. 104. 85.
115. 109. 104. 85.
. 419. 439. 439.


297.
77.
27.
sot .
795.

3.6
287.
48.
48.
439.


293.
3i .
31.
501
795

4.0
i87.
53.
53.
439
1111
* i l i
294. 296. 297. 299.
37. 34. 33. 37.
37. 34. 33. 37.
. 538. 574. 611.
. 795. 795. 795.

288. 290. 294. 296.
47. 57. 106. 122.
47. 57. 106. 122.
. 544. 649. 754.
i
i
300.
39.
39.
648.
705.
1
297.
174.
174.
859.
l
i
301.
25.
25.
684.
795.
1
298.
125.
125.
965.
1 i
i i
302. 301.
76. 37.
26. 37.
721.
795.
1 1
298. 299.
124. 118.
124. 118.
1070.
<
•
RR
• J
307.
45.
45.


i
299.
113.
113.


9e
. ^
301.
47.
47.


1
299.
112.
112.

7
7 6
f . f?
301.
48.
48.


1
799.
117.
H7.

3
^ t
t . *
299.
40.
40.


3
296.
109.
109.

4
61
. j
298.
45.
45.


4
293.
121.
121.

4
4 9
™ • 7
296.
47.
47.


4
291.
125.
125.

4
4.5
295.
39.
39.


4
289.
129.
129.

4
4 a
. *
294.
39.
39.


4
287.
142.
142.

4
40
. "
293.
21.
21.


4
286.
151.
151.

DO
 I
           1175.  1280.  1280.  1280.  1280.  1280.  1280.  1280.  1280.  1280.  12BO.  1280.
o
               =  9  .)DAY«247
     ISTABs
     AWSs
     TEMP =
     AFV =
     AFVR*
     HLHls
0.4
286.
 47.
 47.
  35
 911
  4
0.4
286.
 45.
 45.
    4
  1.3
  286.
   25.
   25.
35.
   4
 2.7
 286.
  36.
  36.
35.
  4
3.1
286.
 37.
 37.
35.
       4
     4.5
     287.
      31.
      31.
      35.
                 1128.  1128.  1128.  1124.
  4
4.0
287.
 32.
 32.
  35.
1128.
       4
     4.0
     288.
      77.
      77.
  3
5.4
290.
115.
115.
 172.
1128.
     1
   6.7
   791
   Hi
   Hi
 308.
H28.
    1
  6.7
.  293.
.  108.
.  108.
 445.
1128.
   1
 6.7
 294.
 113.
 113.
 581 .
H78.
  I
6.7
295.
118.
118.
 718.
1128.
                               1
                             7.2
                             J96.
                             122.
                             127.
  1
8.1
295.
117.
117.
  112444444
7.2  7.2  8.5  6.3  5.4  4.0  4.9  6.3  4.5
295. 295. .294. 291. 790. 288. 288. 286. 285.
112. HO. HO. 116. 114. 116. 121. 132. 131.
112, HO. HO. 116. 114. 116. 121. 137. 131.
                                     855.
                                    1128.
     TEAR  RASED  ON   20.  DAYS
-------
PRIM.
               cn.
   MAXIMUM
                Mr>M--SO?

CONCs  B.31R5F.-05   DIPKCTTON=
                                                    nJST*NCF=  1.7  KM
                HNWUL MFAN CHMCFNTRATION  AT  EACH  PFCFPTOR
           o.fl  KM          i.7 KM         1.1  KM          6.7
                                                            KM
1
t
3
4
5
6
7
H
9
1 0
1 1
1 2
1 3
DO 14
L 15
~—> 1 6
— ' 17
t H
1 9
20
21
2?
7 1
24
25
26
27
2H
29
30
11
32
11
34
35

6.07687K-05
5' 65678E-05
5. 16500F.-05
5.31557K-05

6.1*5! 4F-05
7.10879F-05
7 . 7«604R>05
7.629756-05
7.00456F.-05
6. 1121KC-05

5.60791F-05
5.34798R-05
5.24474F-05
s!276'l6ir.-05
s!?! 030E-"5
5. 70Q99 F. -05
5.20004E-05
5.70H35F.-05
5.7.0400F-05
5.224P2E-05
5 7671? F -05
5.7H043E-05
S 11 667E-05
si 4H290R-05
5* R5296F-05
b! 1 631 7F-05
6.05007l-:-05
5.75445K-05

5i76149E-05
7.95648E-05
6.7172SE-05
5.B4742F-05
5.55«40F.-05
5.17079E-05
5.771 43F-05
5.39889E-05
5.8H069F-05
6.67477F-05
6.P4362E-05
6 .64217F.-05
6.27947F-05
5.93476R-05
5 67651F-05
5il14R1F-05
5!2780nF.-05
5.2348RF-05
5.74763F-05
5.21ROOF-P5
5.2010BE-05
5.70007K-05
5.70022F-05
5.20506F-05
5.75461E-05
5 2B776F-05
5.77119E-05
5.27545F-05
•5. 35R49E-05
5.5777RF-05
5.R0407E-05

5.67190F-05
5.60967F-05
5.76077F-05
R.11 B51F-05
6. 17100F-05
5.7507H.-05
5.67069F-05
S.59491E-05
5.42397F-05
S.77367F-05
5.25T06F-05
5.31 4B5F-05
5.51 490F-05
6.3606BF-05
5.90017F-05
5.86425F-05
5.6579RF-05
5.58797F-05
5.41796F-05
5.78661F-05
S.22603F-05
5. 3143SF-05
5.21285F-05
5.71037F-05
5.70014E-05
5.20016F1-05
5.70515F-05
5.76065F-05
5.49(775-05
5.35048F-05
5.25928F-05
5.21094E-05
5.25695F.-05
5. 340t 6E-05
5.44S71F-05
5.447"5F-05
5. 4625PP-05
5.47226E-05
5.50897F-05
6. ««l 126F-05
5.69979F-05
5.4B106F-05
5.41B69E-05
5. 31970F-05
5.23509K-05
5.22Rt)tF-05
5.29660F-05
5.35745F.-05
5.97194F-05
5.60419F-05
5.53951E-05
5.371 17E-05
5.4634BF-05
5.31410F-05
5.73267F-05
5.20941R-05
5.23944F-05
5.21 341F-05
5.20314F-05
5.20005F-05
5.70017E-05
5 .?07t>|F:-05
5.11927T-05
5.678R7F.-05
5.35994F-05
5.248R6F-05
5.71 360F-05
5.730S7F-05
5.24975F-05
5.291T5F-05
5. 10575E-05
5.3B916F-05
5.79157F-05
5.3642IF-05
5.97S61F-05
5.4B409F-05
5.3BR57F-05
5.30979F-05
5.27957F-05
5.71779C-05
5.21401E-05
5.75764F-05
5.77402K-05
5.5P944F-05
5.47177F-05
5. 16PO6F-05
5.27343F-05
5.14P94F-05
5.25904F-05
5.21511F-05
5.70417E-05
5.22379F-05
5.20638F-05
5.201185-05
5.70001F.-05
5.20002F-05
5.70159F-05
5.13091f>05
5.40130F-05
5. 31540F-05
5.7471 1F-05
5.70662F-05
5.25650F-05
5.77798E-05
5.24499F-05
5.77904F-05
5.10954F-05
S.74199F-05
5.79118F-05
5.60R58.F-05
-------
     PFNN. F.tFCTRIC CO.
                                       NOM--SO7





YEARLY  MAXIMUM  74-HOUR  CONC =   1.«7R5F-04   HI PF.CTION = 360.   DISTANCED  O.fl  KM  DAY=|50.







                 HIGHEST  74-HOUR  CONCENTRATION AT  EACH RECEPTOR
RftHCFT 0.1
OTR
I
2
3
4
5
6
7
8
9
10
11
12
13
CO *
1 5
Zl 6
ro 7
B
9
20
21
2?
23
24
25
76
27
28
29
30
31
32
33
34
35
36

.0022F-04
.1 441F.-04
.33S4E-04
.7681F.-04
.0&43E-04
7.1705F.-05
6.0377F.-05
7.9905F-05
.1913F-04
.5259F-04
.4941E-04
.51 12E-04
.3163F-04
.3636E-0"
1.7653F.-04
9.201BF.-05
6.901 3E-05
5.B69SE-05
5.7063E-05
5.4047E-05
5.2I99E-05
5.700-IE-05
5.7069E-05
5.2795E-05
5.68B4E-05
6.391DE-05
6.5099F-05
6.4197F.-05
B.I81BF.-05
1 . 1617E-04
1 .4460E-04
1.3364E-04
9.1573F-05
8.1833E-05
B.803IE-05
t .R7R5F.-04
KM

(


150 )
( 737 )
( 237 )
(
151 )
( 151 )
(
(
151 )
I4B 1
( 230 )
( 230 )
( 230 )
( til 1
( lit )
( 103 )
( 122 )
( 122 )
1.7 KM 3.3 KM

1.0872F-04 ( 1Q7 ) 9.JOB1E-0*
9.2750F-05 ( 737 ) 7.3417F-05
I.I196E-04 ( 237 ) 8.557IE-05
1.0590E-04 f 151
H.B105F-05
6.2674E-05
5.6765F-05
6.9505C-05
9.1R02F.-05
.1745E-04
.1066F.-04
.0964E-04
.0088F-04
.0163F.-04
9.5930E-05
( 122 ) 7.6579F.-05
(
(
(
(
(
(
{
(
(
(
f
(
36 )
36 )
36 )
36 )
36 )
36 1
37 )
37 )
37 }
37 )
37 1
37 »
( 166 )
( 166 )
( 166 )
( 166 )
f 166 )
( 150 )
C 150 I
( 150 )
6.2198E-05
5.8I96F.-05
6.I467E-05
5.5598F-05
5.7716F-05
5.2002E-05
5.2079F.-05
5.7623E-05
5.756RE-OS
6.6331F.-05
6.350BF.-05
5.9414E-05
6.9075E-05
8.7714E-05
1 .0967E-04
9.9144E-05
7.3B03F-05
B.OOOPE-05
7.B3RIF.-05
1 .6901E-04
151
151
14B
148
730
730
230
lit
103
136
122
t 36
1 36
136
136
136
136
136
m
137
73
137
137
137
166
137
137
166
166
150
ISO
1 95
B.4039E-05
6.7641F.-05
5.6717F-05
5.81 43E-05
5.8353E-05
6.733IF.-05
1.7341E-04
9.51 17E-05
8.2289E-05
7.2B55E-05
fl.2810F.-05
7.IOS6C-05
6. 1400F.-OS
5.5673E-05
5.fl700E-05
5.9560E-05
5.4073E-05
5.2068F.-05
5.2032E-05
5.29BOE-05
5.7333E-05
1 .0652E-04
7.7943E-05
5.7911E-05
5.5052E-05
5.B533E-05
6.5497F.-05
7.6435E-05
7.0394E-05
6.5I46F.-05
6.7632E-05
6.369BF.-05
t .7035F-04


{ 173 )
( 197 )
1 237 )
( 737 )
( 151 )
f IB9 )
( IB9 )
( HI )
t 230 )
( 94 )
( 747 )
( 111 )
( 103 1
{ 177 )
( 22 )
( 36 )
( 36 )
( 36 )
( 36 )
f 36 )
( 36 )
( 166 1
( 166 )
t 73 )
t 73 >
I 73 )
( 137 )
{ 166 )
( 166 )
{ 137 J
( 137 )
( 166 )
( 166 )
C 150 1
t t«7 )
< 195 )
6.7 KM

7.6756F.-05
6.4764E-05
7.4777F-05
7.1096F-05
5.B501F.-05
5.49SOF.-05
5.6596E-05
6.474IF.-05
6.2753F-05
1 .5169F-04
7.77«3F.-05
7.7249F.-05
6.0<>01E-05
7.6023F.-05
5.9B6BE-05
5.6054F-05
5.346BE-05
5.9B50E-05
5.4616E-05
5.766BF.-05
5.701 1E-05
5.2075E-05
5.3563E-05
6.6H35E-05
1 .3505E-04
7.9306E-05
5.B019F.-05
5.3361F.-05
5.4675F.-05
5.6971F-05
6.1704E-05
5.841BF-05
6.1366E-05
5.8124F.-05
6.0465E-05
B.7B19F-05
13.3 KM

f 173
( 197
( 237
( 237
( 166
( 1B9
( 189
( til
( 94
( 94
( 247
( 111
f 136
C 122
( 14B
( 136
( 136
( 136
( 136
( 1 36
( 136
( 166
6.690BE-05
6.1116F-05
6.6950E-05
6.I914E-05
5.7459F-05
5.6116E-05
5.4464E-05
6.0554E-05
5.710IE-05
9.9836K-05
6.B654E-05
6.2905F.-05
5.6373E-05
6.5190E-05
5.6648E-05
5.4010F-05
5.2675E-05
5.6748F.-05
5.3275E-05
5.2237E-05
5.2002F-05
5.2005E-05
( 166 ) 5.2717E-05
( 73 ) 6.9504F.-05
( 73 ) 1.0907F.-04
( 73 1 7.25B5E-05
( 73 ) 5.6734R-05
( 137 ) 5.2661E-05
( 166 1 6.I336E-05
( 137 ) 5.4311F.-05
( 137 ) 5.6736E-05
( 166 ) 5.8828F.-05
( 166 ) 5.7B46F-05
f 150 ) 5.4937E-05
( 150 > 5.936IE-05
{ 195 > 7.063BF-05


( 173 )
( 197 )
( 237 1
( 237 )
( 239 )
( 148
( 189
( III
( 9*
( 94
f 247
( til
( 136
( 22
( 48
( 36
( 36
( 36
( 36
t 36
( 36
( 166
C 166
( 73
( 73
( 73
( 166
( 166
( 195
( 137 )
( 137 )
( 195 )
( 137 )
( 150 )
( ISO )
( 150 )
-------
PRNH.
              C  CO.  SHftWVlM.F
MAXIMUM ?-HOUP
                                MOM — S02

                          5.1219F-04   niRp;cTinN =  o.  nisr«'iCF.=   o.s
                                                                        nfcY=150.
            HIGHEST 1-HOUR CONCENTRATION  ST  E»CH RFCFPTOR
        O.R  KM                  |.7 KM                 3.3 KM
                                                                          6.7 KM
                                                                                                13.3  KM
otw
1
2

4
5
f,
7
q
q
f>

7

4
15
16
17
t R
1 9
20
2 1
22
23
24
75
26
27
78
79
30
31
32
33
34
35
36
2.5334F-04 (
3.21 32E-04 (
3.1505E-04 (

2.55»7E-04 (

i "omop-o* (
2.0969E-04 (
7.940HF.-04 (
3. 4271 F. -04 (
3.4705E-04 (
3.396HF.-04 (
3. 0 176 F. -04 (
3. 126? F -04 (
3.0973F.-04 (
2.345PE-04 (
1.4917F.-04 (
o^SS^F-OS (

6.8345F.-05 (
5.35H8E-05 (
5.2033F.-05 (
5.7554E-05 t
5.8362F.-05 (
9.1073F.-05 (
1.471HF-04 (
1.5182F.-0-1 (
1 .7555E-04 (
1.5S31E-04 (
2.641RE-04 (
3.4395F-04 (
7.R971E-04 (
2.0497F.-01 (
2.5673E-04 r
2.3902E-04 (
5.1219E-04 (
150 )
237 )
737 )
151 )
151 )
151 )
148 )
141 )
t 48 )
730 1
739 )
239 )
103 )
122 )
12? )
136 )
136 )
136 1
1 36 )
1 36 )
1 36 )
1 36 )
137 )
1 37 )
1 37 )
137 )
137 }
137 )
166 )
137 )
137 )
137 )
150 )
150 )
150 )
150 )
2.5446E-04
2.04A9F.-04
2.5R94F-04
7.4985E-04
1 .9245F-04
1.0362E-04
8.3438F-05
1.5278F.-04
2.1965E-04
2.3435F-04.
2.7436E-04
2.111 1C-04
7.2377F-04
2. 1799E-04
2.0703F-04
1.72BOE-04
1 . 1738E-04
9.7552E-05
1 .7751F.-04
8.0774F-05
5.3777E-05
5.7016F-05
5.2278F-05
5.6933F-05
9.4548F.-05
1 .6661E-04
1.4318E-04
.0701E-04
.3547F-04
.7367E-04
.7742F-04
.Q299F-04
.8610F-04
.7061E-04
qq^3F_04
!o316F.-04
( 191 )
( 237 1
( 737 }
( 151 )
(151 )
( 14H )
( 148 )
t 148 )

{ 747 )
( 739 )
( 136 )

( 136 )
( 136 )
f 136 )
( 136 )
( 136 )
( 136 )
< 136 )
( 136 )
( 137 )
( 137 )
( 137 )
( 137 )
( 137 )
( 166 )
( 166 )
( 137 )
{ 137 )
( 166 1
( 150 )
(1501
( I" )
( 195 )
1 .
1.
t.
1 .
1 .
8.
1.
1.
1.
1 .
1.
1.
1.
1.
1.
t .
7.
t.
1.
6.
5.
5.
5.
8.
t .
1 .
9.
7.
P.
9.
•
•
6793E-04
4764E-04
9491P-04
7R71F-04
2I55R-04
5731F-05
0115F.-04
0095E-04
4579E-04
9357E-04
4334E-04
3940F-04
4744E-04
4231E-04
1 425F-04
0003E-04
4566E-05
0419F.-04
0441F-04
8585E-05
2546E-05
2258F-05
9838E-05
5855E-05
81 14F.-04
3826F.-04
91 34F.-05
4528E-05
9447F-05
7002E-05
3R93E-04
I608E-04
C
f
(
r
(
c
(
(
t
r
i
(
r
c
c
(
r
(
(
(
(
(
(
(
(
(
(
(
r
f
(
c
..20R2IT-04 (
.
5fd4f;.0/)
(
.2143E-04 (
7.5845E-04 {
173 )
197 )
237 1
237 )
151 )
18° 1
189 )
111 )
94 )
94 )
747 )
111 )
136 )
12? )
122 )
136 )
136 1
136 1
136 )
136 )
136 )
166 )
166 )
73 )
73 )
73 t
137 )
166
166
137
137
166
150
150
197
173
9.0654E-05
1 .6065F-04
1 .4179F-04
1 .0400F-04
7.5601F-05
8.P76BF-05
1.535BE-04
1 . 334TF-04
1 .8716F-04
1 .4447E-04
1 .2577F-04
Q.7966F-05
1 .5067F.-04
1.1493E-04
7. 3489E-05
6.14R7F-05
1 . 1441E-04
7.3477F-05
5.7344F-05
5.70R5F-05
5.719RF-05
6.4506E-05
1 .701 3F.-04
7.0076F-04
1 .4670F-04
1 .0007F-04
6.741 1F-05
6.961 RF.-05
7.0767F-05
8.4868F-05
7.419BF-05
1 .1306F.-04
9.6707F-05
1 .0714E-04
1 .5507F-04
{ 173 1
( 197 1
C 237 )
( 737 >
( 173 )
( 189 )
( 189 )
( 111 )
( 94 1
f 94 1
( 747 )
( 11 )
( 36 )
( 22 )
r 48 i
( 36 )
( 36 )
( 36 1
( 36 )
( 36 )
( 36 )
( 166 1
( 166 )
73 )
73 1
73 )
73 )
166 )
166 )
( 1 37 )
{ 137 )
( 1 66 )
( 166 )
( 150 1
{ 137 )
f 173 1
1.1048F-04
1 .0061E-04
1 .3428E-04
1 .0042E-04
9.5674F-05
8.4P54E-05
7.J71 1F-05
1 .2036E-04
9.2785F.-05
1 .2202F-04
1.723RE-04
9.2065E-05
7.1856F-05
1.0634F-04
8.9185F-05
6.2966E-05
5.6547E-05
8.9864E-05
6.2199E-05
5.3896E-05
5.2012F-05
5.2037F-05
5.7737F-05
1 .6220C-04
1 .B378E-04
1.1202E-04
8.9868F-05
5.7188E-05
1 .0640F.-04
6.1361E-05
6.7838E-05
1 .065115-04
9.3330F.-05
7.2092F-05
1 .0004F-04
1 .0949E-04
( 173 )
{ 189 )
(2371
( 237 )
{ 239 )
( 148 )
( 189 )
(111)
{ 94 )
( 94 )
( 247 )
(111 )
( 136 )
( 172 )
( 148 )
( 136 )
( 1 36 )
(136)
f 136 )
( 136 )
(136)
( 166 )
( 166 )
( 73 )
( 73 )
( 73 )
{ 166 )
( 166 )
( 195 )
( 137 )
(137)
( 195 )
(137)
( 150 )
( 150 )
( 195 )
-------
                     O»II,Y
DAY
 
-------
    PENH.  ELECTRIC CT.  SHAWVU.|,R
    SOIjVKNr REFINED  COAL STUDY    PROJECT 7101

    SHUHVttLS PLANT  1«>75
    5.NAM1
    KSTL=4  IUR=1   irAP,IPUN= 0 0
      10ATA,t1AX,IbOTS= 000
    icihnr= 2   WHGT=  9i.o  NST= i
    NPO(,=  2   JTAB=  1    INPUT= 2
    NS6A=  t

    DAY--
RCONV= O.J048006 SYTF= 1.0 FIV= 3.0 TAF= 0.60 BACKGP= 52.0
1 1
1
1
1




1
1





1 I
I














1 1








































































1



















































1
1






1






1







1




















1
1
1
1
1
1
1
1
t 1 1
1 i 1


















t
t
1
1
1
1
|







1 1
1







1 1 1







1







1

































1
1

DO
 I
-------
    PLANT KLtVAUON  (FF.ET  ABOVE  SEA LFVfL)--
              1080.0
        RECEPTOR ELEVATIONS  (FEET ABOVE SHA LEVEL)
    DIRECTION   PING*I
CXJ
01
                          RINGI2
RINGI3   PING«4
                                                     HINGIS
1
2
3
4
5
6
7
8
9
10
I
2
3
4
5
6
7
8
19
20
21
22
23
24
25
26
27
2H
29
30
31
32
33
34
35
36
STACK »
STACK 1
STACK

1
2
1350.0
1200.0
1 160.0
1120.0
1200.0
1250.0
1220.0
1 180.0
1100.0
1070.0
1050.0
1160.0
1320.0
1400.0
1420.0
1440.0
1440.0
1440.0
1420.0
1400.0
1200.0
1060.0
1050.0
1700.0
1200.0
I2b0.0
mo.o
1 440.0
1460.0
1460.0
1480.0
1500.0
1500.0
14BO.O
1460.0
1440.0
1--SHAWVILLE
2--SHAWV1LLE
1300.0 1400.0
1200.0 1600.0
1460.0 1590.0
1400.0 1540.0
360.0 1520.0
340.0 1350.0
320.0 1260.0
300.0 1540.0
300.0 1340.0
320.0 1584.0
320.0 1580.0
1060.0 1340.0
1 150.0 1300.0
1420.0 1420.0
1520.0 1605.0
1590.0 1580.0
1300.0 1580.0
1260.0 1260.0
1200.0 1320.0
1100.0 1400.0
1080.0 1480.0
1300.0 1572.0
1460.0 1540.0
1500.0 1540.0
400.0 1540.0
440.0 1520.0
460.0 1560.0
400.0 1540.0
440.0 1560.0
4HO.O 1580.0
1500.0 1560.0
1540.0 1460.0
1520.0 1400.0
1400.0 1746.0
1200.0 1640.0
1463.0 1380.0
STACKS 112
STACK 3 AND 4
1880.0
2174.0
1760.0
1600.0
1600.0
1567.0
1560.0
1500.0
1627.0
1639.0
1766.0
1836.0
1720.0
1743.0
1700.0
1900.0
1900.0
1780.0
1700.0
1625.0
1540.0
1440.0
1120.0
1551.0
1505.0
1660.0
1880.0
1760.0
2140.0
2040.0
2100.0
2000.0
1841.0
2218.0
1960.0
1900.0
SHC-NOX
SRC-NOX
STRATEGY S02 EMISSION RATE PART
TYPE
NOM
NOM
(GMS/SKC)
168.00
261.00



2160.0
2100.0
2000.0
1900.0
1800.0
1560.0
1500.0
1481.0
1549.0
1564.0
1668.0
1744.0
1700.0
1800.0
1900.0
2100.0
2100.0
1840.0
1620.0
1540.0
1520.0
1620.0
1537.0
1796.0
1773.0
2120.0
2320.0
2251.0
2234.0
2253.0
2293.0
2220.0
2240.0
2056.0
2220.0
2405.0

NORMAL LOAD
EMISSION PATE HEIGHT DIAMETER EXIT VELOCITY TEMP
(CMS/SEC) (METERS) (METERS) (M/SEC) (DEG.K)
0.00 182.88 3.81 21.82 391.00
0.00 99.06 3.73 18.84 386.00
                                                                                                                   VOLUMETRIC FLOW
                                                                                                                     (M»*3/SEC)

                                                                                                                        248.77

                                                                                                                        205.87
      RANGt'(KM)3   0.83    1.66    3.32   6.65  13.29
      SEASONAL VARIATIONS  RY  CASE I
               I   1.26    1.09    0.9B   0.87   t.IO
                    0.92
0.87   1.08
                                          0.98
0.80   1.05
                                                                1.00
    YF.AO HASCO DN  J61.. DAYS
-------
           PF.HK.  ELECTRIC  CO.  SHAtfV IM,K


                                            MOM—SO?

              MAXIMUM MEAN CH'JC=  5.7530E-05   OIBECTONs  10   DISTANCED   O.R KM
                           ANNUAL MESH CONCCMTPATION AT  EACH RF.CEPTOR
                     O.H  KM           1.7  KM          3.3  KM          6.7  KM
                                                                              13.3  KM
D3
I
OIR
  1
  2
  3
  4
  5
  6
  7
  R
  9
 10
  I

  3
  4
  5
  6
  7
  H

 70
 21
 27
 23
 24

 76
 27
 28
 29
 30
 31
 32
 33
 31
 35
 36
b.55468e-05
b.M72HK-'>5
5.64472K-05
5.6I063K-OS
5.54598E-U5
5.S3217E-05
5.577S7F-05
5.fiS271E-OS
5.721 ISF-ns
5.75299F.-OS
5.710HOF.-OS
5.6036SF-05
S.490S6K-OS
S.40631K-05
5. 350S3F.-0-S
S.3091 IE-OS
S.2fl3S4F-OS
5.2fi*62F>0'5
S.25077E-OS
S.V45S8E-05
5.24244E-OS
5.7427»iE-05
5.25J45F.-OS
•5.271 49E-05
5.2S744E-05
5.29142R-05
S.29703F,-OH
5. J2408F.-05
5.38921E-OS
5.4S1 19E-OS
5.4S291E-OS
5.40630K-05
S.3'5451F.-0'i
•5.32973F.-05
5.330H7F.-05
S.6ISS20F.-OS
S.61216K-05
5.67256E-OS
S.69778E-05
5.657B3F-05
5.5«'152E-05
5.ti'>220R-05
5.61 1 20E-05
S.egs^SE-O-i
5.73754E-05,
5.71844F-05
S.631 44E-OS
5.13H29E-05
5.45H42E-05
5.39163F-05
•5.3551HE-05
S.31056E-OS
•5.28«61E-05
•5.26910E-05
S.7532SF.-OS
5.24754E-05
•5.24S45E-05
5.2«9?3E-05
•5.27039E-05
5.30577F:-05
5. 33295F.-05
S. 13767E-OS
S.3T25RE-05
5.34669E-05
5.40790F-05
S.451 76F-05
S.44063E-05
•i.397 t 7E-05
S.3S57SE-0'5
S.33669F-OS
5. 33599F.-05
S.71 I 50E-05
5. 17164E-OS
5.51019E-Ob
S.S9430E-05
5.5829IF-05
5.54967E-05
5.360S4F.-OS
5.63869F-OS
5.60400F-0-)
5.6M1I9F-05
5.6237SE-0'?
S.51614F-05
S.4«>796E-n'<
5.39164E-0'i
S. 14700E-OS
5.31 703E-05
5.27623E-OS
S.26658F-OS
S.2S2ftBF-05
5.2490HF-OS
5.23426F-05
•>.23246F-Of5
S.2402SE-05
5.7S787F-05
S.29624E-05
5. 34490E-OS
•5.321S9E-OS
5. 10644E-05
S.13219E-0-5
5. 39H35E-05
S .40S94E-OS
5.38430F-05
S.31728E-05
•5.31 21BF-OS
5.7999HE-OS
S.J^SflnF-O?
5.50027F-0'5
5.35163F-05
5.377R5F-f>5
5.S0485F.-05
5.50BS7E-05
5.49452E-05
5.51219E-05
S.593S1E-05
5.61 05HE-05
5.59007F-01;
•S.526?nF-05
5.43167E-05
•).396<>OF-05
5.34Rfl5F-05
5.31046F-05
5.2959SE-05
5.2534SF-05
5.25897F-05
5.24371F-05
•>.74*6IiE-05
S.72503E-f>5
5.724H4E-05
5.23521E-0«i
S.255HBE-05
5.30593F-05
5.372f>OF.-0'>
S. 17303F-05
5.31667F-05
S.33177F-05
5.404S4F-OS
S.37S96F-OS
S.31S94F.-05
S.796S1F-OS
S.77R3SF-0'>
5.276J7E-0?
S.76407E-OS
5.14770F-05
5.28B23F>05
5.31375F-05
S.40660E-05
5.402S2E-05
5.38991F-05
5. 19760E-05
5.440S3F-OS
5.4S841E-05
•5.44007F-05
S.404BBE-05
S.33B47F-05
•5.372B2F-OS
5. 3004DF-05
S.27180F-OS
5.26321E-05
S.73426E-05
5.21974F-05
-i.27944F.-05
•5.23103E-05
5.71B34E-0«i
•5.215P3F-05
5.2770SF-05
•5.24816E-05
S.29177F-05
S.34382F-0«;
•5.30703E-05
S. 301 BOF.-05
5.79533E-0-5
S. 14BS7F-OS
5.31 4MF-05
S.2871SF-05
5.766?4E-0'5
•>.7Sftfl9E-05
S.7SBP3F-OS
•5.24563E-0-;
5.27945F-0!>
-------
           PTNN. El.F.CTRIC  CO.
CO
oo
                                 NnM--Sfl2




MAXIMUM 21-HOUR CONC*   I.H931F.-04   01 PEC
                                                                   360.   Olsr»MCF=»   O.fl KM   DAir=150.
                        HIGHEST 24-HOUR  CONCENTRATION  »T EACH RECFPTOR
RANfiE O.B
OIR
1
7
3
4
5
6
7
R
9
0
1
2
3
4
5
6
7
R
9
20
.01 *OF-01
. M47F.-04
.3097F.-04
.23R4E-04
.234PF-04
.0781E-04
. 16B3E-04
.066"E-04
. t 603F-04
.4774F.-04
.3H50E-04
.3001F.-04
.1 477F-04
.3206F.-04
.2Z91F.-04
.055BE-04
.1494E-94
.0933E-04
.1172F-04
.2016E-04
71 1.0404E-04
72 1.0508F.-04
23 9.2756F.-05
24 9.5R61E-05
25 B.7775K-05
26 Q.2090F.-05
27 R.34R3E-05
28 9.1446E-05
29 1.1737E-04
30 1.1915004
31 1.3636E-04
32 I.1721E-04
33 9.B219F-05
34 1.0250K-04
35 9.3379E-05
36 1.8931E-04
KM

( 150
( 140
{ 237
( 151
( 131
( 221 )
( 221 )
( 256 >
{ 230 )
( 230 )
( 230 )
( 239 )
( 122 1
( 122 1
( 122 )
( 219 )
( 219 )
( 127 I
( 127 )
( 127 )
( 127 )
( 180 )
( 180 )
( 176 )
( 176 )
( 145 )
( 145 )
( 120 )
( 170 )
( 170 )
( 137 )
( 137 )
( 258 )
( 258 )
( 168 1
( 150 1
1 .7 KM

1.0207E-04 (
1.0198E-04 (
1.090BF-04 (
I.0430F-04 (
9.7511F-05 (
9.B206E-05 (
1.0135F.-04 {
9.9779E-05 (
1.0227E-04 (
1.13«»2E-04 {
1.0701E-04 (
9.7567E-05 (
9.5040E-05 f
Q.9630E-05 (
9.4760F.-05 (
9.4022F-05 (
9.9504E-05 r
1.0450F.-04 f
1.0228E-04 {
9.6093E-05 f
8.BB70F.-05 (
9.13B7F-05 {
8.4RI2E-05 (
1.0333E-04 (
9.S434E-05 (
9.6962E-05 f
9.3947E-05 (
8.5846E-05 (
9.7981F.-05 (
1.0166F-04 (
I.0678E-04 (
9.0687F-05 (
8.7502T-05 (
8.4553E-05 (
B.3956E-05 (
1.4961E-04 (
3.3 KM

173 ) 8.3446E-05
140 ) fl.1937F.-05
737 ) 9.1397F-OS
151 ) 9.B646F.-05
131 ) 9.0862E-05
271 ) .056RF.-04
271
90
251
230
730
67
136
136
220
219
219
177
177
177
180
180
291
176
176
145
178
178
12"
120
137
137
750
758
187
1*5
.I395E-04
.7700E-04
.I118E-04
.4B67E-04
.0975E-04
.OBJ6E-04
B.6618E-05
R.4406E-05
9.4703E-05
7.30B3E-05
7.4735E-OS
7.B77IE-05
7.8457E-05
7.74BOE-05
7.5319E-05
8.072BE-05
8.1859E-05
9.1331E-05
1 .1017F-04
7.6931E-05
B.0775E-05
7.4675E-05
9.5798E-01
B.5107E-05
1.030HE-04
7.3718E-05
7.097BF-05
6.88B6F-05
7.4506F.-05
1.0475E-04


(
(
(
(
(
f
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
{
{
t
f
(
(
(
(
(
(
f
(
(
f
(


173 t
259 )
306 )
56 )
11 )
19 )
14 )
44 )
30 )
94 )
79 )
67 )
2 )
122 )
86 )
219 )
219 )
127 1
127 )
218 )
218 1
218 )
291 )
791 1
73 )
145 )
178 )
244 )
243 )
120 )
123 )
27? )
758 )
211 1
11 )
195 >
6.7 KM

7.1532F-05
.OB74F-05
.1079F-04
.OOOBF-04
.6BB7E-05
.054BF.-04
.1R10F-04
.I730E-04
.71B1E-04
.7465E-04
.1 34BE-04
.7347E-05
fl.3102F.-05
7.6967E-05
9. 1955F-05
7.4153E-05
6.B703E-05
P.5327E-05
8.2307E-05
7.3776E-05
6.5019E-05
B.0549E-05
B.7305E-05
H.639RF-05
1 .2637F-04
8.3327F-05
8.3162E-05
9.4013E-05
1 .0601E-04
8.9747E-05
1.1 190E-04
7.7R57F-05
6.R017E-05
7.0747E-05
7.1786T-05
fl.0313F.-05


( 165 )
( 265 )
( 306 )
C 5« )
C 330 )
( 19 )
( 14 )
( 44 )
f 30 >
{ 94 1
( 79 )
( 67 )
( 2 >
( 302 )
{ flfi 1
( 34 )
{ 33 )
f 20 )
{ 70 )
( 219 )
( 180 >
( 31R )
( 291 )
f 31 )
( 73 )
{ 28 )
( 171 )
( 121 >
( 243
( R
( 123
( 6
( 71
( 53
( 11 1
( 195 )
13.3 KM

6.9919E-05
6.9055E-05
9.727BF-05
8.4533E-05
7.681 BE-05
7.9818E-05
9.6489E-05
9.0B30E-05
9.8143E-05
1.041 3F-04
8.5774E-05
7.4730F-05
7.7024E-05
7.3751E-05
7.5986E-05
6.7944E-05
6.7523E-05
7.2601E-05
7.6515E-05
6.5659E-05
6.0348F.-05
6.B620E-05
8.4073F-05
8.30
( 150 )
-------
                                               ,j.^e«-f>"rvrv,- — -«—CN — C^—>  — oir>u»-'>
                                   vt _ c —  t    »«    «•  «   i   i   '  i   i   i  i
                                              -]b:b:b::b:b:b:ti:b:Kb:b;ii:b3b;b:fc/b:
                C



                f
                &£
                                   (M^CS                    r"        m^.^.p,        o (N fv     (N        mm— •     —

                y
                                                       -                                                                                 *

                .a           s-    ooooeccooccoooeoooccooooocooooeoceec
                (_           »     i  i  i   i   i  i  i   i   .....   i  i  i   i   i   i  i  >   i   i  i   i   i   >  i   i   i  i  i   i   i   i  i
                IT        c       u  u;  u; u u: u  u u; u' i>.  ii3 u: u u U3  u; u.  u: &c  L»;  u' u; u u  u u u  ui u; u u  u: u: t; u.1  a:
                >_        cc>    ir,  r-o-^OD*r-nr»oor-a>ococinC'^fiO'—  r>cao*£irfcCff^'^t^»£
                          o,*^    ^•moio*icirr*-c**^ct^r**rff-*«c»*'^vcu^'^tt*"C«'(vr*cccf^vo**w^. CLITC
                          [,1       oo—"-o>OiCN  — CNtNCMar-o>*ooc\£in«iO'mr-r-otcao«1ir-cocC!vcir.mr-*cN— »»*-^-f%«-t»*^«^«»»»»»-*M»-«rec»^w,^,>.w.^^%-~^.«-~^«-^-  — ^

          •     —        «>,;    w^r^.«*^«r>»»t«'«»1<»'r^w«'»'^'«^'««f«r»«v'»'»»'>'«-«'»«^
          z     c        a       ccceeocccccooocoocooeooooccoocoooccc
          —      |        i- r-     i  i  i   i   i  i  i   i   i  I   i   I   I   I  I  i   I   I   I  1  I   I   I  I   I   I   I  I   I   I   I   I  I  I    I   I
          2     r^        z   .    t,.  i^:  ^. u;  u.  U:  Cij u' b; u;  u; u- ii-  u; ii.'  u; ui Ci." u:  Cx:  u. u; f  li  u; u: u:  u;1 f kj  u; tij u.'  u;  u: LI:
i-                        it
>                        —
x               »        c
<              u        X
i              z         i
lfNO              XWST                                                                                      ^^s^^^.»-w.>^«-^<


5-                           .           u
                o           z
                a           a
                                 c
                                                                                  B-119
-------
                                                          MHXIMIIM  DMI.y  CONCENTRHTIONS
CX)
 I
r\>
o
                                              DAY    24-HflllR CPNCrNTRBTTON    niRfTTtON

                                              150          1.R43IE-04             36          0.«3
                                              195          1.496IE-04             36          1.66
                                              173          1.4BB4F-04             36          1.66
                                               94          1.4fl67f>04             10          3.12
                                              230          l.4774f>04             10          0.»3
                                              197          I.17I3C-04             36          1.66
                                              191          1.370IIT-04             3*5          1.66
                                              137          1.3636F-04             31          O.B3
                                              239          I.3394E-04             11          O.B3
                                              IB9          I.3217E-04             36          1.66
                                              122          1.3206C-04             14          O.B3
                                              237          1.3097C-04              3          O.B3
                                              247          l.3064»;-04             11          O.fl3
                                               73          1.2637C-04             25          6.65
                                              lit          1.26I4E-04             12          0.83
                                              103          1.2537E-04             12          O.B3
                                              166          1.24RPE-04             31          O.H3
                                              136          1.2407E-04             14          O.B3
                                              MB          1.2390E-04             10          O.H3
                                              151          1.23fl4(;-04              4          O.B3
-------
      PENH.  ELECTRIf  CO.  SHAWVILLE
      SOLVENT  9EFINED COAL STIinY
                              PROJECT 7101
      STACK  »   1--SHAWVILLE STACK 1  (MAX. COND.)  SRC  NOX
      STACK  »   7--SHAHVILLE STACK 3i4 SRC-NOX MAXIMUM LOAD
        STACK


           t

           2
         STRATEGY
           TYPE

           NOM

           NOM
                    so? EMISSION RATE
                        (OHS/SECl

                           206.00

                           311.00
PART EMISSION RATE
     (GMS/SEC1

         0.00

         0.00
HEIGHT
(WETFRS)
1P2.88
99.06
OTAMF.TER EXIT VELOCITY TEMP
f METERS)
1.81
1.73
(M/SED
29.18
27.57
(OEG.K)
403.00
396.00
VOMIMETRIC FLOH
  (M**1/SFC)

     314.96

     246.08
         RHNf;E(KM) =    0.83   1.66   1.12   6.65  11.29
         SEASONAL  VARIATIONS BY CASE I
                  1    1.00   1.00   1.00   1.00   1.00
                                                   1.00
                                                          1.00   1.00   1.00   t.OO
                                                                                      1.00
                                                                                              1 .00
       JVR=75  1*10=  3 JOAY = 73
       ISTAR=   3133313
                  7.2  9.8  8.9  8.9  8.5  8.5
                  271.  270. 270. 270. 269. 268.
AHS =  7.7
TEMPs 271
                                         8.1
                                                 3331333133333131
                                               8.9   8.9   9.8 10.3  8.1  7.6  6.3  5.8  5.»   5.8   4.5   4.5  4.0  3.1  3.1  2.2
                                          268.  2fi8.  769.  269.  2*9. 270. 270. 270. 770. 270.  269.  269.  270.  270. 270. 270. 269.
AFV=  243. 251. 256. 251.  257.  278.  264.  255.  254.  261.  264.  259. 261. 257. 257. 757. 251.  250.  257.  250.  243. 362. 246. 723.
AFVRr 241. 753. 256. 751.  257.  27P.  264.  755.  254.  263.  764.  ?5P. 2M. 757. 757. 257. 251.  750.  257.  250.  243. 262. 246. 223.
HI.H1=  HOI.  801.  801.   801.   801.   801.   770.   739.   708.   677.  646.  615.
             553.  551.   551.   551.   553.   551.   553.   553.   551.  553.  551.
CO
       JYH=75  IHOs 4 JDAY= 94
       ISTAH=   313133313333333311333
       ArfS=  14.8  13.4 16.1 15.6 12.5 12.5 11.6 12.1 14.8 16.1  15.6  17.4  16.1  15.6 15.6 15.7 15.2 14.8 12.5  10.3   9.4
       TEMP =  2*8.  267.  267. 267. 266. 266. 266. 766. 267. 267. 767.  268.  269.  269.  26fl. 268. 268. 767. 267.  266.  266.
       AFV =   101.  106.  108. 109. 109.  97.  91. 100. 106. 106. 104.  101.  104.  105.  105. 104. 110. 104. 106.  106.  101.
       AFVRs  101.  106.  108. 109. 109.  97.  93. 100. 106. 106. 104.  103.  104.  105.  105. 104. 110. 104. 106.  106.  101.
       HLH1=   600.  600.  600.  600.  600.  600.  600.  720.   840.   950.  1060.  1170.
             1230. 1190. 1500. 1500. 1500. 1500. 1500. 1500.  1500.  1500.  1500.  1500.
                                                                                                                   33    3
                                                                                                                 9.8 10.7  <».8
                                                                                                                 266. 266. 266.
                                                                                                                 108. 108. 101.
                                                                                                                 108. 108. 101,
       JYR=75
                 = 4 ,H)AY=103

AWSs 5.4
TEMP= 270.
AFV= 122.
AFVRs 172.

5.4 5.8
269. 269.
110. 111.
110. 113.

6.1 5.8
269. 767.
111. 114.
111. 114.

767. 267.
108. 109.
108. 109.

270. 273.
106. 112.
106. 117.
1 1
274. 275.
128. 17".
128. 129.
1 1
775. 775.
117. 130.
117. 130.
1 1 1
275. 776. 277.
171. 177. 115.
121. 127. 115.
1 1
278. 279.
170. 128.
120. 178.

776. 774.
136. 141.
116. 143.

273. 777.
146. 156.
146. 156.

771. 770
153. 166
153. 166
       HLHIs   H22.   822.  822.  827.  827.  827. 1019. 1757.  1474.  169?.  1909.  2177.
             2314.  7561. 2561. 7561. 2561. 7561. 7561. 7561.  2561.  7561.  7561.  2561.
       JYR=75  IMO= 4
ISTARr
AHS =
AFVs
AFVRs
HLHI =

1
?75.
84.
S4.
2000
7018
13134111111111
275. 775. V74. 274. 777. 273. 274. 775. 775. 276. 277. 279. 700. 781.
80. 98. 116. 175. 113. 100. in|. 117. 126. 17". 17Q. 124. 1|0. 117.
80. 98. 116. 175. 111. 100. 101. 117. 176. 178. 179. 174. 110. 112.
. 2000. 7000. 7000. 7000. 70OO. 7007. 7005. 7008. 7010. 7O11. 7016.
. 2021. 20^1. 7071. 2071. 20?1. 7071. ?O7I. 7071. 7071. 7071. 7071.
1
281.
1 70.
1 70.


t
787.
lit.
HI.


1
781 .
118.
118.



780.
128.
178.



6.1
277.
128.
178.



276.
152.
152.



275.
159.
159.



774.
168.
168.



3.1
274
153
151


-------
•oi   'lit  'os£  *9EE  '£S£
•01   'ISE  'Oi£  '9EE  '£i£
'Ib£  'db£  -tbt  'frb£  'Sb£
 fr'i   S'fr   S'fr   »'S   9'£
 fr     fr     fr     £     fr
                                                 UbCI   UbCI   UiCI  UiCI  UiCI "0iCI  Uidl  UbCI
                                                Till  'iOII  "tiOl  'BO 01 *09b  Tlo  T9b  *£9b
                                                                                                     "Uitl
                                                                                                                 "£1161
                                                                                                                      s|H'IH
                              'd£  T£  'It  Tfr  TP  Tfr  'i»   'bfr   Ti   Tfr   TP   'at   Tt  "St  '«t  'tl  T£
                              'bl  T£  'It  Tfr  TV  Tfr  'iP   'bfr   Ti   Tfr   Tfr   'b£   '*(  *it  'bt  'b£  Tt
                              Tot Tb£ Tbt 'bb£ Tbt 'bbt Til  Tbt  'Sbt  'ibt  Tbt  'Ob£  *ObC 'ObC 'Obt '\bt Tfai
                          O'fr  9 T  bT  b'S  fr'b  o'B  S'B  I'B   I'b   t'9   ft   B'i  B - i  fr'i  O'fr  0' fr  IT  ft
                          fr£££ll     llltiltfrfrfrpt
                                                                 'ilil 'Sttl 't
                                                         II  'btll  '£bO«  '
                                                                             'bib! •
                        'fl££l
      Thb   'Ebb   'tBb   T86  =IH1H
£bi
U * L
y %,


S£i
S££
S8£
I' I
t



b££
bt£
U • f
9 I
fr
Tl
Tb£



T0£
* 10£
Tb£
f £



*SE£
'SEE
1 * f
i i
fr
"fri "b
>c
i

'9tl '991
'9il *\*9I
'bBt '06£
S'fr i *9
»b
V


TSE *B
TS£ 'B
'88£ 'bUC
fr e
't&t "bvi



•>Sl '£fr»
•frsi *£n
Tb£ '9fad
8'S 0" fr
t /
w fc


•BSE 'BEE
•ess 'BEC
Tbt '£b£
I C




'Sll
•sn
'bb£
9" £



Tl£
Tl£
•frb£
£
TfrE TSE
t> b C t> to C
\ t
i t

Toi 'sol
•TOI 'SO I
'Bbt 'tib£
0" fr 0* >
i i
i t


'bl£ '0£E
'6 IE 'OtE
•&b£ -Sfa£
1 I
"bbl *00£
i i
i i
TEfr 1
Til Tb
Til Tb
Tb£ "Sbt
O'fr i'fr
i i
i i
T££l
TiOl
TIE 'bl£
TIE 'blE
'9b£ '9b£
1 I
"162
•
i
•osti
Tttl
•ooi
•ooi
'Sfa£
ST

TtEl
Tfrb
• | n
• 1 1£

1
T 1
TI
1
I
'Oitl
Till
'bb
•t>b
T6£
fr'S

Tt£ 1
'OtB
* fr IE
'» IE
*ib£
1


*0itl
'£S6
'£11 '
"til '
'£b£ '
b' fr
1
1
T£EI
Tb9
" L 1 £ "
TIE •
Tfat '
I
01 '
01 '

•oSt
*tbl
.- , •
£S '
Ibt '


T££
'99S
9i£ *
9tt '
lb£ *
S* b
fr
1
b * tSE
b Til
Eb£ Tb£

1 'OStl
TE9
69 Tfrl
b9 Tvt
b8£ '9Bt


I Ttll
•b£fr
092 * tifr t
092 " 6fr £
tibt "Stit
»* C ll * C
a Ba
1 £
•fr
Tbt


Tlfr
"Ot 1
'otl
'£8£
1 T

Ttl 1
TIE
T>£
" /.fri
' IB£
i* a
9
P
'b
'b


Tlfr
To»
TOI
'Obt
L'l

TtEl
TIE
'bfrt
"bfr I
t> • c
P S
fr
Tl '91 Tl '91
TI '91 T I '91
Tbt Tbt Tbt T«£

1 'OStl 'OStl 'Oitl
Tip Ttfr Tifr
'bi 'Ot *S9 "Ot
Tti "01 "S9 "Ot
*OBt *lbt 'tbt Tbt
L'l L'l ft IT
8H=A«ur s
1 TtEl Ttll T?£I
TIE TIE Til
"tit "Bfr£ T fa £ "BVt
*tS£ "8P£ 'iSt "Ufrt
i^'h l*t 1*7 n*tt
Sfr IE tt Op
fr > fr fr
'Ok. =«AJ»
*0l =AJ*
B'S s b M V

T/tfr =IH'IM
" / I I =oA J*
* t£ 1 =AJW
Tb£ =dHJJ
IT =b'MW

'not I
Tit slH'IH
*Sfr£ -dAJS
* ifrt =A J»
*(bt =d^31
Cj * t — *J U \t
y I -b H ¥
fr =nwjyi
                                                                                                                               CM
                                                                                                                               CM
                                               '9101 'VlOl '9lOl '9101 '9101  '9101  '9101
                                               'biOl 'UbOl *<
                                                                  Ttll 'Sfrll '9911 'bbll
'9101  '9101  '9101 '9101 TEOI
"BBII  '8811  'tabll T8I1 *8bll =lh'IH
9E£ 'Ot£
9E£ 'Ot£
frb£ 'SB£
h ' k C • b
Or 3 r

•bl£
'bl£
"9B£


*soe 'bb»
*SO£ "b«(



Tbl
Tbl
Tb£


'991
'991
•Sbl
1
1
'USI
•osi
•Sfat


•ifrl
*S> 1
'Sbt


"b£


'9fr|
'9»l
Tot


*i£ 1
^l 1



•9ti '9n
•911 '9frl
•bBt 'bBt
I/
C
•on
•on
'9B£

•
*£t 1
•2tl



'bOI Tb *9b 'Sb 'S8
*bOl Tb '98 'Sb 'S8
*SB£ 'S8£ "Sbt 'Sbt "vbt

fr f fr fr fr
"Zt
"£t
•982

fr :
= dAJV
= AJ«
— C ti U
— b M ¥
^t=uAr
                                                Tbil  TbSI  TbSI  Toil Tbil Tbil Tbil
                                                Tfrll  Tttl  'bbUl  Ttb  'Bfrb  Ttt  'Hbi
Ti   Tpl  'bfrl  'Ufrl  'bfrl  Tfrl  '»H  'fall  Til  'Ofrl  'fatl  Tfrl  TS| TSI  'SEl 'OSl '9H 'Stl
Ti   Tfrl  'bfri  'an  'sn  Tfrl  TH  'bti  TSI  -on  TEI  TH  TSI TSI  'SEI 'osi -9^1 -iti
Tb£  Tb£  T8£  Tbt  Tbt  'bb£  Tbt  Tb£  Tbt  Tb£  Tbt  'bbt  'But Tbt  'ibt 'ibt TBt Tut
 ft   ft   L'l   IT   t'9   BT  9T   I'b   i'9   t'9   1'9   fttT   £T  i'9  t'9  £'9  b'fr
                              1
                                   1
                                        1
                                             1
                                                  1
                                                       1
                                                            l
                                                                 l
                                                                                         *tbtl  VbSI  "tbSl  'tbsl ' i I frl
                                                                                         *Bb(>
                                                                                                     *bbi   'Bbi  *bbi  =
It 1
Etl
Ibd
fc'fr
fr

T9
"f 9
'Obt
IT
fr

Ti
' k S
•ub£
l' I
»
ft
•9
*9
'08£
fr*0
fr
1 = A\it
Ttl •
Ttl •
'Ob£ '
1 ' I
I
if «, =i
tst
tS£
utt
bT
^ -
'V 1 S
= UAJV
= AJV
= dVv3J
= SM»
UVJSI
/ so/ r
-------
CO
JYHE7S I 1 J= h .TOAY=lhta
ISTARs 44444
&uc- i a in 10 ft Q ft a
H n o «™ I*~ l » n I » O " • ^ " * "
TEMP= 7(iq. 7«7. 287. 287. 2B6.
AFV= 352. 310. JOB. 3(7. 21l.
AFVR = 352. 319. ?OB. ii7. ?1J.
HLHls 3S6. 356. 356. 356.
14t>6. 1625. 1675. 1625.
JYR = 75 I 1.1s 6 JOAY=173
AWS= 0.4 2.2 7.2 2.2 1.3
TF.MPs 288. 287. 287. 286. 296.
AFV= 2)t. 319. 5. 12. 8.
AFVR= 211. 319. 5. 12. 8.
Hf.Hl= 341. 340. 340. 340.
1159. 1288. 1288. 1288.
JYR=75 110= 7 JDAY=1B9
AWS= 1.3 1.3 1.3 1.8 1.8
TE>4P= 2B9. 289. 288. 2«f». 298.
AFVr 342. 300. 284. 256. 259.
AFVfls 342. 300. 284. 256. 259.
HT,H1= 609. 609. 609. 609.
1593. 1734. 1734. 1734.

4
286.
770.
270.
356.
1675.


7H6.
190.
180.
340.
1288.

1.8
288.
288.
288.
609.
1734.

4
788.
268 .
768.
356.
1625.


288.
180.
180.
340.
1288.

0.4
288.
310.
310.
609.
1734.

3 1
290. 294
272. 243
272. 243
515.

1 1
. 297. 300.
. 293. 326.
. 293. 326.
673. 832.
1625. 1625. 1625.

1 1
292. 295
59. 39
59. 39
458.

1 1
. 297. 299.
. 10. 7.
. 10. 7.
577. 695.
1288. 1788. 1288.

2.7 1.8
290. 291
21 . 32
21 . 32
750.
1|
1
1.3 1.3
. 294. 298.
. 77. 31.
. 77. 31.
890. 1031.
1734. 1734. 1734.

1
301 .
311.
311.
990.
1675.

1
301 .
5.
5.
814.
1218.

2.7
300.
12.
17.
1171.
1734.

1
301.
313.
313.
1140
1675

1
302.
9.
9.
932
1288

7.7
302.
4.
4.
1312
1734

1 1
302. 301.
3«7. 315.
317. 315.
. 1308.
. 1625.

1 1
302. 302.
9. 11.
9. 11.
. 1051.
. 17.88.
14
1
7.7 3.6
303. 301.
7. 312.
2. 312.
. 1453.
. 1734.

1
301 .
370.
320.



1
304.
176.
126.



1
2.7
300.
340.
340.



1
301 .
31 3.
313.



1
303.
10.
10.



1
3.6
301 .
1.
1.



1
300.
319.
319.



1
300.
341.
341.



I
4.5
299.
2.
2.



2
290.
325.
325.



1
299.
336.
336.



4.5
297.
12.
12.



3
298.
331.
331 .




796.
12.
12.



3.1
296.
18.
18.



4
296.
354.
354.




295.
14.
14.



1.3
295.
32.
32.
i


4
71
, I
296.
340.
349.




294.
19.
19.



2.7
294.
33.
33.



3
8.5
294.
50.
50.




294.
23.
23.



2.2
294.
36.
36.



4
6.3
290
44
44




292
31
31



3.1
293
29
29


ro
CO
      ,IYR = 75  M0=  7  JOAY=191
!SrHB= 44444
A«5.
HLHl= 640. 640. 640. 64(1.
4
1.3
284.
37.
32.
542.
1936.


290.
331 .
331.
660.
1377.

0 0
791 .
787.
787.
640.
4
2.2
287.
71.
71.
542
1936


290.
337.
337.
660
1327

0 4
79| .
?7Q.
779.
640
1
0.4
290.
108.
108.
. 716
. 1936


291 .
291 .
20) .
. 743
. 1 127

0 4
797.
311.
313.
. fl37
1 1
0.4 1.3
293. 296
14. 334
14. 334
. 890.
. 1936.
It
1
292. 293
5. 5
5. 5
. 877.
. 1327.
Jl
1
294. 2°6
19. 7
1 H. 7
. 1074.
1
2.2
. 297.
1.
1.
1065.
1936.


. 296.
. It.
. 11.
910.
1327.


. 790.
3.
\.
1716.
1
2.2
297.
9.
9.
1239.
1936.


207.
4.
4.
994.
1377.

1
709.
1".
t«.
140R.
1
2.7
298.
10.
10.
1413.
1936.

1
299.
5.
5.
1077.
1 327.

1
298.
56.
56.
1600.
1 1
4.0 2.7
299. 301.
15. 11 .
15. 11.
158B.
1936.
1^
-1
299. 295.
1 . 1 *.
1 . 16.
1160.
1 127.

1 1
301 . 301 .
10. 17.
1«. 17.
1793.
1
4.0
301.
9.
9.




797.
353.
353.



1
301 .
78.
?P.

1
3.1
283.
9.
9.




297.
350.
350.




300.
1 7.
1 7.

4.5
2B3.
35.
35.




294.
5.
5.



1
)i
. 1
?Q9.
7.
7.

5.4
283.
36.
36.




792.
22.
27.



3«
. 1
797.
356.
356.

1.0
283.
319.
319.




292.
347.
347.



^ i
* . 1
795.
25.
75.

1.0
283.
23.
23.




292.
302.
302.



OQ
• M
295.
M2.
112.

1.0
283.
30.
30.




291.
337.
337.



2>y
• /
294.
784.
784.

1.3
287.
274.
274.




291.
44.
44.




1 * "
293.
268.
268.

2.7
287.
36.
36.




291.
52.
52.



OQ
. ^
297.
189.
1 89.

                   7177.  7177.  7177.  2177. 7177 .  7177.  7177.  ?|77.  7177. 7177.  7177.
-------
SAWG *0d   HU (JJfVb


IEI
IEI




(SI
[SI
98d
f



Id
Id
E6d





SVI
Sir 1
UBd
9 ' E


*d£l
•d£I
*98d
tr


'IH
'dH
MBd
fr



•6£
•b£
Mbd

^



•OEI
•o£l
*68d
1* «*
£


Mdl
* Idl
•«8d



*6dl
•bdl

fr *



'6£
•6£
*S6d

V



*BH
•bH
'Obd
i "9
tr


•911
'911
•Bbd
tr


*Sdl
•Sdl
M6d




" Lt
M»
'9bd

v



•SH
•SH
Mbd
f


Mil "911
Mil '911
•06d Mbd



MZI 'bOl
Mdl '601
M6d "9bd
* £



'Sir *0»
•s> 'o»
'86d '66d

t £



Mdl '911
*bdl **ll

t E


*OI I
•OH

d


Mil
Mil

1



*Bfr
*uv
• IOE

d



*bOI
•bOl
" tbd
t


'01 I
••on

1


*dll
•dll
'bbd
1



M»
'Lt
M0£

d



'90 I
'901
•Bbd
1
'Bdll
"SS8
•dll Mil Mdl
•dll Mil Mdl
'Sbd 'Sbd '9bd
I I I
'Obd 1
"otoi
Mil 'BH Mdl
Mil '811 Mdl
'obd '66d 'bbd
I I I
•
•Sbt
Mdt
'S> ME '9d
"Sr ME "9d
*doE Mot Mot
S'b I * b t'9
1 I 1

M Ibl
' 1091
•BH Mil Mil
•BH Mil Mil
' tbd " tbd * tbd
1 1 1
Midi I
•8U
'811
•811
'Sod
I
'OBdl
'S9b
*Sdl
•Sdl
•Bbd
1 • u
r B
l

•Sbt
Mb9
Md
'Sd
' IOE
v " s
l

Mini
•9bH
'901
'901
Mlbd
1
'Bd H
* IBS
Mil
Mil
L* d 1
Mdl
t " 9
1

Mb
*bir9
'b£
•b£
'OOE
8 "S
1

M Ibl
•uot I
MOI
* 101
'•int.
1
•ydli '8dli '
•Sfr> '801
*BOl Mil 'ill
'BUI Mil 'Sll
Mbd Mbd '06d
t'9 t*9 > * 5
1 1 E
•OBdl 'oBii '
M>£t "bM
'ddl '901 Mi
*ddl '901 MS
*96d Mbd *06d
bM 9'£ d'd
1 1 £

'Sbt 'Sot
MI9 MtS '
'd£ Ml ME
•dt ME ME
•bbd Mbd '9fad
0" V 0 M S'fr
1 1 1

MIUl MI81 '
Mrtdl 'btll *
Mol Mb MlOl
Mol Mb 'BOl
•Sbd Mbd Mbd
1 1 1
Bdll '
dtl '
Mt
Mt
OM
V
Oudl '
HrS '
" t*
Mtr
•bbd
1 M
V

v.fat *
8ES '
Ml
ME
Mbd
OM


t Ibl '
EtOI '
•ol 1
•01 1
Mbd
t
Bdl 1
SE
•d£
•d£
MBd
O'fr
fr
OBdl
b£>
MS
MS
Mbd
oM


Sbt
IOS
ME
ME
Mbd
S * fr
r

£ lul
t9b
MOI
MOI
Mbd

*8dll
•SE
ME
ME
Mud
SM

•Obdl
'blV
'bV
'8fr
Mbd
9M
t>

Mbt
MOS
Md
Md
•dbd
bM
t>

Mm
M9b
'901
•901
'Obd

•Bdl
*S£
ME
ME
IM

'OBd
'bttr
'SB
•fib
*88d
fd


•Sbt
MOS
•OE
•ot
Mfad
6M


MIU
M9b
Ml
Mt
•bbd
t
1 'Bdll •
'££
•91 'Sd
'9E Md
'9Ud '9bd
fd E* I
ttd=AV
1 *OBdl •
*bt t
MOI 'bOl
MOI '601
M B d * 6 b d
9*E SM

b£d=A«
•Sbt '
MOS '
Me 'bt
Md 'fa*
Mod Mbd
OM SM
» V
I Ed = At
1 Mlbl '
M9b '
M9 M>
M9 M>
M>Bd "6«d
1 *
Bdll
b£
•s>
'Sfr
'9bd
Ir'O
ur b
Obdl
bl*
•sn
•SH
'Obd
tr
ur B
Sbt
[OS
MS
MS
Mod
8'S

ur a
£181
t9b
'bf
'blr
"Obd

Mbb
'it
M»
Mir
'9«d
tr'O

•stn
•bt >
Mil
Mil
'Obd
E*9

= 0kl
MSt
• ios
' t»
Mfr
M6d
9M

= 0hl
Motl
M96
•o»
"il*
•Odd
o'v


= lhrIH
= dAJ«
= AJ\t
-Sf »


= IU'1H
= HAJV
= AJ\I
==s«i
=UVJSI
St-UAl

= lll')H
= HAJV
= AJV
= dks Ji
= SH*
=UV1SI
St=dAf

= i mil
= HA J\r
= AJV
-bCV
= tiV,lSiI
                                 CM
                                  I
                                 CQ
  ot r.sAixir  H =iii i  r.: =HAI
-------
           PFNN.  F.LFfTRJC CO.
                                            NOM — SO?

              MAXIMUM MF.RN fONr =   B.16B8F-05  DIRECTION*  36   DISTANCES   1.7  KM
                           ANNUM, MEAN  CONCENTRATION AT EACH  RECEPTOR
            PHN3E     O.B KM«         1.7  KM         1.1 KM          6.7 KM
                                                                                    13.3 KM
CO
 I
ro
en
  t
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 1 t
 14
 15
 16
 17
 19
 19
 20
 21
 2?
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
35
36
6.41BBBE-Q5
6.1 3H99E-OS
6.03461E-05
5.94741E-05
5.63477F-05
5.35705E-05
5.31000E-05
5.53358F-05
6. 1 1«68E-05
7.016B9E-05
7.6615SE-05
7.51 2HOK-05
6.91770F-05
6.35396E-05
5.94506R-05
5.58327F.-05
5.34086F-05
5.24259G-05
5.22S18F-05
f5.200BOC-05
5.20094E-05
5.20004E-05
5.50033F-05
5.20381E-05
5.22362F-05
5.25911E-05
5.276S6E-05
5.31 I05F-05
5.4b9J7E-()H
5.82153E-05
6.1 I682F-05
6.01772E-05
5.72775E-05
5.61495E-05
5.7344ir.-05
7.H2150E-05
6.64437E-05
6. I4770E-05
5.94051E-05
5.81632E-05
5.5421 4R-05
5.31451E-05
5.25flnOE-05
5.38936E-05
5.771B7E-05
6.55631E-05
6.76480E-05
6.57318E-05
6.22767F-05
5.P9905E-05
5.65369R-05
5.42356E-05
5.27426F.-05
5.23321E-05
5.24534F.-05
5.21713E-05
5.20103F-05
5.20002F.-05
5.20021F-05
5.?04fl1R-OS
5.25197F-OS
5.2B306F-05
S.76796F.-05
5.271 «3F-05
5.350BPF-05
5.55967F.-05
5.7751 2E-05
5.7432f>E-05
5.60355F.-05
5.59000F-05
5.73332E-05
B.16R73E-05
6.07691E-05
5.7739RC-05
5.64H15F-05
5.57599F.-05
5.41323E-05
5.27015F-05
5.24767E-05
5.30934E-05
5.49979F-05
6.30485r-05
5.94280E-05
5.B3244E-05
5.63S07E-05
5.56931F-05
5.40752E-05
•i.2fl249F:-05
5.72479F-05
5.23273F-05
5.23128F-05
5.20997E-05
5.20033E-05
5.20016F-05
5.20490F-05
5.25771F-05
5.47760F-05
5.34322F-05
5.2S643E-05
5.22946E-05
5.25423F-f>5
5.33346E-05
5.43444F.-05
5.43610E-05
5.4499BF-05
5.41 162E-05
5.49112F.-05
6.B0271F-05
5.675B5F-05
5.47863E-05
5.46761F.-0?
5.40822F.-05
5.31 405E-05
5.23341F-05
5.226SBF.-05
5.291 96E-05
5.3499JE-05
5.93497E-05
5.5M83E-05
5.52326E-05
5.3631PF.-05
5.450B4E-05
5.30B64E-05
5.23106F-05
5.20B96E-05
5.23754F-05
5.212BOF-05
5.20318F.-05
5.20005E-0-;
5.2001 2F-05
5.20752E-05
5. 3J251F.-05
5.60874^-05
5.35276F-05
5.24657F.-05
5.21 303E-05
5.22910F-05
5.24718E-05
5.2B717F-05
5. 300ft9F-05
5. 3flOnQE-05
5.7.B719E-05
5.35635F-OS
5.93857.F-05
5.47049E-05
5.37954E-05
5.35821F-05
5. 10454F.-05
5.27571F.-05
S.23121E-05
5.51 336E-05
5.254B8F-05
5.77048F-05
5.570B1F-05
5.411 17F-05
5.360B«1F.-05
5.26993E-05
5.34181F-05
5.25677F.-05
5.21460F-05
5.20397F.-05
5.27265F-05
5.20607E-05
5.701 1 3E-05
5.20001F.-05
5.70007F-05
5.20342F-05
5.37466F-05
5.47736E-05
5. 309PBE-05
5.74481K-05
5.70631E-05
5.25379F.-05
5.271 8BF-05
5.242B4E-05
5.27576F-05
5. 30430E-05
5.2399BF-05
5.7BR72E-05
5.5B903F-05
-------
           Ft,FCTRIC  CO. SHAWV1M.E






                                       Nnn--sn?




YE*RI,Y  MAXIMUM  74-flOUR TOMCs  1.P110F-O4  nTRFCTlOHs 160.   DISTANCES  0 . P  KM






                 HIGHEST 21-HOUR COMCFMTBATIHM  AT F.JCH
nAY=lso.
RAICE 0.8
nn>
\

i
4

(,
7
8
9
t 0
1
2

4
5
OO 6
1 7
ro 8
en 19
20
21
22
21
24
7.S
26
27
2B
29
.10
31
3?
31
34
35
36
._
1 . 1 1 41E-04

1 . 2370F-04
1 .01B1E-04
7.0757F-05

7.H467E-05
. t 5 t BF.-04
.477">E-04
.4477.E-04
.4635E-04
.27ROF-04
.3230E-04

9.0092E-OS
6.B 1 93E-OS
5.R372E-05
5.6fll8K>05
5.3919K-05
5.7I B9F.-05
S.7004E-OS
5.7H66E-05
5.7757E-05
5.654BF-05
6. 3141E-05
ft.4467F.-05
6. 1610E-05

1 . 1 10PF.-04
1 .4015F.-04

fl.9»>6°F,-05
R.0396E-05

1 .R1 31E-04
KM
( 150 )
( 717 )
( 7*7 )

( ISI 1

( 1 48 )
( 730 )
( 730 )
( 230 )
(111)
(111)
( 103 )
( 122 )
( 172 )
( 172 )

( 116 )
( 136 )
(136)
( 1 16 )
( t 36 )
( 1 37 )
(137)
( 1 37 )
( 137 )
( 117 )
(137)
( 1 66 )
( 1 66
( 166
( 166
( 166

( ISO*
( ISO
1.7 KM lil KM
1.0599E-04 ( |97 R.9211E-05 (
9.0321F-05
t .0909E-04
1 .0332F-04
B.6563E-05
6.71 14E-05
5.f 517E-05
6.B686E-05
f) _9flQ/l IT-OS
1 .1431E-04
1 .07R5E-04
1 .06BBE-04
9.RS37E-05
9.9754E-05
9.3R75E-05
7.5401E-05
6.1709E-05
5.789BE-05
6,101 IE-05
5.5474E-OS
5.220ISF.-05
5.2002E-OS
5.7077F-05
•5.705 (
1.67S4E-04 {
8.3574E-OS (
8.0B36E-OS (
7.IB5TE-OS (
B.1379E-05 (
7.0144F-OS f
6.09S1F1-05 (
5.5493E-05 (
5.8377E-05 (
S.R246E-05 (
5..3974C-OS {
S.2065E-05 (
5.203IE-OS {
5.2932E-05 (
5.7074E-OS (
I.03RBE-04 (
7.I929E-OS (
5.767RE-05 (
5.4906F-05 (
S.B77IE-01! (
R.6007F-OS ( 117 ) 6.4PS7E-05 (
1.06R6K-04 ( 137 ) 7.5766E-05 (
9.6B85E-OS ( 166 ) 6.95I5E-05 (
7.7758F-05 ( 166 ) 6.4514r-OS (
7.9663E-05 ( tSO ) 6.6BB4E-05 (
7.71ISE-05 ( ISO ) 6.3M7E-OS (
1.6339E-04 ( IOS ) I.I70RF.-04 (

173 1
197 )
237 )
737 )
151
IB9
t R9
111
730
94
747 )
HI )
10.1 )
17? )
172 )
136 )
136 )
136 )
136 )
136 )
1 36 )
166
166
73
73
73
137
166 )
166 )
137 )
1 37
166
166
ISO
197
195
6.1 KH
7.S09SF-OS
6.4IS7E-OS
7.36R7E-05
7.0IB7E-05
5.R1RRE-05
•5.4BOOE-OS
S.6377E-OS
6.4I7PE-05
6. 1761E-05
1 .4690E-04
7.6S47E-OS
7.177RE-05
6.0476E-05
7.4R71E-05
S.94R9F-05
5.5R60E-05
5.339BE-05
S.0477E-OS
5.4SSRE-05
5.7616E-OS
S.7010E-05
S.7024E-OS
5. 34B7E-05
6.6171E-05
1 .3105E-04
7.7094E-OS
5.7770F.-05
5.1796E-05
5.4S47E-05
5.6734E-05
6.1741E-OS
•J.B11 1F-05
6.091PE-05
S.fll 17E-OS
fi.OOSBE-05
B.6102E-OS

(
(
(
(
(
(
(
(
(
(
(










(
(
(
{
f
(
(
(
(
(
(
(
r
(
(

173 )
197 )
717 )
217 )
166 )
1B9 1
J B9 )
111 )
94 )
94 )
747 )
II )
36 )
27 )
4R )
36 )
36
36
36
36
36
1-66
166
71 )
71 )
73 )
73 )
137 )
166 )
137 )
t 17
166
166
150
ISO
19S
1 .1 . i « "»
6.6I9SF.-05
6.06BOE-05
6.6736F-05
6.1440E-05
5.7197E-05
5.59IRE-OS
5.4346E-OS
6.0145E-05
5.6BS7F-05
9.7547E-05
6.7BSBE-05
6.2383F-05
5.6164E-05
6.4550E-05
S.6426E-05
5.3914E-05
5.2643E-OS
5.6520E-05
5.3214E-OS
5.2226E-05
•5.2001E-05
5.2004E-05
5.26B2E-05
6.B667E-OS
1 .0634E-04
7.1601E-05
5.6504E-05
5.2630F-05
6.0BR7E-05
5.4200E-05
5.6S10E-OS
5.P501E-OS
5.7S66E-05
5.4797E-OS
5.900BE-05
6.974SF-05

( 173 )
( 197 )
( 237 )
{ 737 )
( 239 )
( I4R )
( IB9 )
{ HI )
( 94 )
( 94 )
( 247 )
( II)
( 36 )
( 22 )
( 4R )
( 36 )
( 36 )
( 36 )
( 36 )
( 36 )
( 36 )
( 166 )
( 166 )
( 71 )
( 73 )
( 73 )
( 166 )
( 166 )
( 195 )
( 137 )
( 137 )
( |95 )
( 1 37 )
( ISO )
( ISO )
( ISO )
-------
          PFNN.  Et.FCTRlC CO.  RHAWVTLLE
00
                                           NOM--S09


      YEftRLlf MAXIMUM  3-HOUR CONC=   4.9007E-04  DIRECTION*  0.
                      HIGHEST 3-HQIIR  CONCENTRATION  AT  FRCH RECEPTOR
                  0 * o  K M                   —
                                                                          E.  O.P  KM
                                                                                                  HOHR=i500.
DIR
1
2
4
5
6
7
8
9
10
1 1
12
13
14
15
16
19
20
21
22
23
21
25
26
27
28
29
30
31
32
33
34
35
36
*••*'• u • o f\
7.4935F-04 (
3.0836E-04
3.1902E-04
.7.4507F-04
1 .2650E-04
1 .0540F-04
2.0709K-04
7.871 8E-04
3.2872K-04
3.3286E-04
3.9.585E-04 (
7.B975F-04 (
3.0008E-04 (
2.9733 .3705E-0*
) .1127E-04
) 9.7738F-05
) 7.3488E-05
1 1.0167E-04
) 1.0I90E-04
) 6.7790F-05
> 5.2520F-05
) 5.2246F-05
) 5.9457E-05
) 8.4215E-05
) 1.7489G-04
) I.340BE-04
) 9.6881E-05
) 7.3451E-05
) R.7657E-05
) 9.4852E-05
.3477E-04
.1301F-04
.1 734E-04
.5182E-04
.1810E-04
2.485BF-04

( 173
( 197
( 737
( 237
( 151
( 189
f 189
( lit
( 94
f 94
{ 247
( 111
( 136
{ 122
( 127
( 1 36
f 136
( 136
( 136
{ 136
( 136
( 166
( 166
f 73
f 73
( 73
( 137
( 166
f 166
1 37
1 37
166
150
150
197
C 173

)
)
)
)
1
)
)
1
)
)
)
)
)
)
)
)
)
)
)
1
)
)
)
)
)
)
)
)
)
)
)
)
)
1
)
6.7 KM
1.2466F-04 {
B.8799E-05 (
1.5544E-04 f
1.3701E-04 (
1.0151F-04 (
7.4475F-05 (
B.7012F-05 C
1.4«70F-04 (
1.7952F-04 (
1.8067E-04 (
1.4004F-04 (
1.2170F-04 (
9.1009E-05 (
1 .4594F-04
1 .1 190F-04
7.2463F-05
6. 1034E-05
1. 1141E-04
7.7451E-05
5. 7089F-05
5.2081E-05 (
5.218PE-05 (
6.3B9BF-05 (
1.1685E-04 C
1.9361K-04 (
I.4167F-04 I
9.770BF-05 (
6.1014E-05 f
6.B776E-05 (
6.9871E-05 (
8.3298E-05 f
7.313BF-05 {
1.10I3F-04 (
<».4095F-05 (
1.0449F-04 (
1.5101F-04 (

173 )
197 )
237 )
237 )
173 )
189 )
189 )
111 )
94 >
94 1
247 )
111 )
136 )
122 )
148 )
1 36 )
1 36 )
I 36 )
1 36 1
1 36 )
136 )
166 )
166 )
73 )
73 )
73 )
73 )
166 )
166 )
137 )
137 )
166 )
166 )
150 t
137 )
173 1
13.3 KM
1 .0767E-04
9.82B2E-05
1 .3034E-04
9.8106E-05
9.3579E-05
8.3275E-05
7.0770E-05
1.1708E-04
9.0834E-05
1 .1867F-04
1.1901E-04
9.014BE-05
7.090BE-05
1 .0374E-04
8.7404E-05
6.2443E-05
5.6375F-05
8.8051E-05
6.1712F-05
5.3806E-05
5.2012F-05
5.2036E-05
5.7458E-05
1 .5693E-04
1 .7747E-04
1.0916E-04
8.8027E-05
5.6940R-05
1 .03BOE-04
6.0915E-05
6.7082E-05
1.0391F-04
9. 1350E-05
7.1 133E-05
9.7737E-05
1 .0671E-04

(
(
(
(
t
(
(
(
(
(
(
(
(
(
(
(
(
f
(
(
(
(
t
(
(
(
(
f
(
C
{

173 )
189 )
237 )
237 )
239 )
148 ).
189 )
111 )
94 )
94 )
247 )
111 )
136 )
122 )
148 )
136 )
136 )
136 )
136 )
136 )
136 )
166 )
166 )
73 )
73 )
73 )
166 )
166 )
195 )
137 )
137 )
195 )
137 )
150 1
150 )
105 )
-------
(  co
I 00
                                               DRY    74-HOUR CONf£NTR»TinN

                                               ISO          1.BI30E-04             36           °. HI
                                                94          1.67S4E-04             10           3.37
                                               195          1.6330f>04             3ft           l-6fi
                                               171          t.5250f>04             36           1.66
                                               7.10          1 .4775E-04             1"           0.13
                                               197          I.473IF-04             36           1.66
                                               191          1.4712C-04             36           1.66
                                               111          I.4635F.-04             12           O.B3
                                               )B9          |.44RI£-Q4             36           1.66
                                               103          1.4412P-04             12           O.RJ
                                               J66          1.40I5K-04             3«           O.H3
                                               247          1.4008E-04             11           "-"J
                                               7)9          1.J494C-04             11           0.«3
                                               137          1.342?»>04             31           0.»3
                                               172          1.3730r-04             14           O.B3
                                                73          1.3105E-04             25           6.65
                                               237          I.29BIE-04              3           O.B3
                                               151          I.2J70E-04              4           O.B3
                                               116          1.20B7E-0*             1«           O.B3
                                               t4fl          1.1907C-04             10           O.B3
-------
      PSTNN.
soLVFrir «F,FiNi-:n COAF, STUDY
SEWARD PMMT 1975
tNAMI
KSri=4 I()H = 1 I
'»P,TPIJN= ? 0
lOA'iA , i MAX , i Lors= o o n
IOHGT= 2 WHCT= 91.0 MSTs 1
WPOLr 2 >JTAB= 1 1NPUT= 2
NSEA= 1 ECOIIir. 0.3040006 SYTF= ,.0 FTV= 3.0 TAF= 0.60 BACKf.Rs 52.0
04Y--









1
1









































































1














1













































-



-














'


1








1











































1

























1




















































1
t
1
1
1
1
1
1
1
CO
l\3
-------
PLANT ELEVATION (FEET ABOVE SEA LEVEL)-*
              1120.0
    RECEPTOR ELEVATIONS fEEET ABOVE SEA LEVEL)
DIRECTION   RINGM
RINGH
                                       RINRI4   R1NC.I5
1
2
3
4
5
6
7
8
9
to
11
12
13
14
15
16
03 17
L t»
d> 19
0 20
21
22
23
24
25
26
77
78
29
10
31
32
33
34
35
36
STACK I
STACK 1
STACK

1
2
10B5.0
1090.0
1 100.0
1115.0
1120.0
1130.0
1 130.0
1135.0
1150.0
1145.0
1135.0
1120.0
1170.0
1120.0
1120.0
1 100.0
1100.0
1100.0
1070.0
1080.0
1240.0
1210.0
1270.0
1470.0
1485.0
1500.0
1420.0
1310.0
1440.0
1550.0
1550.0
1560.0
1530.0
1400.0
1750.0
1 180.0
1 — SEHAHD
2 — SEMARD
STRATEGY
TYPE
MOM
NOM
1110.0 1200.0
1150.0 1170.0
1700.0 1750.0
1170.0 1400.0
1100.0 1250.0
1740.0 1140.0
1300.0 1100. 0
12HO.O 1*00.0
1240.0 1350.0
1240.0 1450.0
1250.0 1500.0
1210.0 1550.0
1260.0 1500.0 '
1220.0 1500.0
1220.0 1400.0
1780.0 1350.0
1210.0 1450.0
1140.0 1350.0
1100. 0 1200.0
1080.0 1100.0
1080.0 1080.0
1090.0 1080.0
1230.0 1150.0
1250.0 1200.0
1350.0 1240.0
1470.0 1300.0
1560.0 1470.0
1540.0 1540.0
1400.0 1400.0
1320.0 1400.0
1300,0 1540.0
1330.0 1400.0
1550.0 1550.0
1400.0 1680.0
1330.0 1300.0
1200.0 1350.0
STACK 1 COAL NOX
STACK 7 COAL NORMAL
802 EMISSION RATE
(RMS/SEC)
52.00
1 15.00
1350.0
1500.0
1400.0
1440.0
1420.0
1440.0
1300.0
t 150.0
1400.0
1800.0
1950.0
2100.0
2100.0
2000.0
1850.0
1700.0
1640.0
1620.0
1600.0
1540.0
1100.0
1000.0
1080.0
1200.0
1300.0
1400.0
1460.0
1400.0
1550.0
1600.0
1620.0
1700.0
1800.0
1550.0
1580.0
1150.0


PART



1600.0
1500.0
1500.0
1450.0
1550.0
1500.0
1720.0
1720.0
1950.0
2100.0
1800.0
2460.0
2560.0
2500.0
2530.0
2450.0
2200.0
1900.0
1400.0
1300.0
1210.0
1210.0
1400^0
1060.0
1400.0
1350.0
1570*0
1660.0
1660.0
1710.0
1770.0
1750.0
1700.0 v
1600.0
1620.0
1620.0


EMISSION RATE HETGHT DIAMETER EXIT VELOCITY TEMP
(GMS/SEC) (METERS) (METERS) (M/SEO (DEG.K)
0.00 68.60 7.40 31.30 449.00
0.00 68.60 1.00 32.70 414.00
                                                                                                             VOLUMETRIC  ELOH
                                                                                                                (M**3/SEC)

                                                                                                                   141.60

                                                                                                                   231.14
  RANfiE(KM)=    1.17    2.07    2.75    3.65    5.23
  SEASONAL  VARIATIONS  BY  CASE I
            1    1.03    0.93    0.99    1.11    1.03
                    0.99
                           1.13
1 .09
I .10
              0.97
                                                        O.P7
                            0.81
YEAR BASED ON  1fi5.  HAYS
-------
    PFNN.  ELFC.  REWARD
       MAXIMUM  MFAN CONC
                  NOM--SO?

                 •05   DIRFCTIflNs  8  DTSTANCFr   3.7 KM
     RANGE















CO
1
__j
GO
'








niR
i
3
4
5
6
7
8
q
10
11
12
13
14
15
16
17
18
19
20
21
22
73
24
25
26
27
 ANNUAL MEAN CONCENTRATION  AP FACH RECEPTOR
KM         2-» KM          2.9 KM          3.7  KM
                                                                             5.7 KM
30
31
32
33
34
35
36
5.24108E-05
5.24865E-OS
5.27807E-OS
5.3211 6E-05
5.371 76E-05
5.37311E-05
5.36775E-05
5.35990E-05
5. 34055E-05
5.37805E-05
5.41030E-05
5.37762E-05
5.3054HE-05
5.2561 1F-05
5.236()7P>05
5.22900E-05
5 . 22404E-05
5.71983E-05
5.2HS05E-05
5.21 433E-05
5.21 191E-05
5. 20906E-05
5.70892E-05
5.211 05
5.45919F-05
5.47091E-05
5.38637E-05
5. 30555F-05
5.25881E-05
5.2382RE-05
5.2303BE-05
5.22443E-05
5.22197E-05
5.7.2189F-05
5.22227F-05
5.22301F-05
5.22166E-05
5.22171E-05
5.22455E-05
5.23331E-05
5.22791F-05
5.23332F-05
5.24014F-05
5.76987F-05
5.301 53K-05
5. 36767F-05
5.384S2E-05
5.28542F-05
5.24840E-05
5.7.3271F-05
5.7S223F-05
5.25367E-05
5.25778E-05
5.304ROF-05
5.3796RE-05
5.48461F-05
5.429ROE-05
5.50567F-O5
5.55028E-05
5.47357E-05
5.4761 4E-05
5.4755RF-05
5. 3R53RF-05
5. 30649F-05
5.25991E-05
5.23971F-05
5.23044F-05
5.2251 3E-05
5.22121F-05
5.71987F-05
5.22193E-05
5.27337F-05
5.22396E-05
5.22140K-05
5.22500R-05
5.23250E-05
5.2261 7E-05
5.23031F-05
5.238S1E-05
5.7741 2E-05
5.29605F-05
5.361 40F-05
5.2H3P7F-05
5.25177E-05
5.23276F-05
5.25719F-05
5.24987E-05
5.25475E-05
5.295R4E-OS
5.36367F-05
5.45170R-05
5.40934F-05

5.53324F-05
5.4721fiK-OS
5. 45983E-05
5. 44RR6F-05
5.36953E-05
5. 30054E-05
5.75728E-05
5.24109E-05
5.23063F-05
5.22572E-05
5.21 973F-05
5.21 5RRE-05
5.22023F-05
5.721 37E-05
5.224flf.E-'>5
5.71 86RE-05
5.22402F-05
5.27«»43F>05
5.22346F-05
5.22664F-05
5.73979F-05
5.7767*E~05
5.28308F-05
5. 33RRRE-05
5.363)6F*05
5.273R4F-05
5.24975E-05
5.73042F-05
5.24699F-05
-------
 to
, ro
            PEMN. El.FIC.  SF.HARD





                                             NOM--S02



               MAXIMUM  24-HOUR CONC«   I.086«JE-04  OIRECTIONsSOO.   DISTANCE*   2.8 KM  OAYal70.
HIGHEST 24-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE 1.2 KM 3!.| KM 2.8 KM 1.7 KM 5.2 KM
OTR
1 6.B65BF.-05 ( 200
1 6.738RE-05 { 113
3 7.4403E-05 ( 208
4 8.7762E-05 ( 208
5 7.9313E-05 ( 208
6 7.8567E-05 ( 189
7 7.8824E-05 ( 189
fl B.123HE-05 ( 58
9 8.3680E-05 { 183
10 9.0775E-05 { 111
II 9.2037E-05 { 96
1? 9.3088E-05 ( 103
13 8.2391E-05 ( 103
14 7.5754E-05 ( 117
15 7.2290E-05 ( 219
16 7.207Hli;-05 ( 219
17 7.2B29E-05 180
18 7.6048E-05 180
19 7.1864F.-05 1BO
20 6.4776E-05 180
21 6.4228E-05 181
22 6.1459E-05 ( 181
23 5.8221E-05 ( 181
24 5.9212E-05 ( 179
25 6.229SE-05 ( 179
2fi 6.2414E-05 ( 179
27 6.7626E-05 ( 197
28 8.4717E-05 ( 187
29 9.5349E-05 ( 187
30 9.8593E-05 ( 120
31 8.7415E-05 ( 194
32 8.5385E-05 ( 77
33 7.0599E-05 { 112
34 6.8B59E-05 ( 112
35 7.5335E-05 ( 200
36 8.8221E-05 ( 200
6.«t39E-05
6.2971E-05
7.I031E-05
8.2034E-05
9.7069E-05
7.9447E-05
8.7070E-05
1 .0335E-04
7.7636E-05
B.9047F.-05
9.0716E-05
8.2«79E-05
7.9623E-05
6.9554E-05
6.6780E-05
6.B907E-05
7.0479E-05
7.139IE-05
6.7905F.-05
6.5185E-05
6.8610E-05
6.7753E-05
6.4S92E-05
6.5664E-05
B.390BE-05
6.5177E-03
6.9648E-05
7.0652F.-05
8.1759E-05
1.0676E-04
1.0377E-04
9.6547E-05
7.3209C-05
6.4456F.-05
6.7032E-05
8.9257r-05
190 ) 7.2607E-05 ( 254 1 7.fllB>F.-05 ( 254 ) 7.93B8K-05
Ifi4 ) 6.3B99E-05 ( 164 ) 6.3026E-05 ( 164 1 6.1973E-05
349 ) 7.20IOE-05 ( 349 } 7.1386F.-05 ( 263 ) . 7.0145E-05
156 ) 8.6957E-05 ( 156 8.6B41E-OS ( 306 ) B.4045E-05
56 ) 1.0201E-04 f 56 9.84B4E-05 ( 56 ) B.7701E-05
3« 1 8.2779E-05 { 332 B.5815E-05 ( 332 ) B.3016E-05
26 ) 9.954IE-05 f 26 B.9321F-05 { 308 ) 8.6B33E-05
57 ) 1.0364E-04 { 57 9.6697E-05 ( 57 ) 9.1699R-05
9 ) 8.1607E-05 { 9 7.9B49O05 ( 9 ) 7.9665E-05
62 ) 9.B0696-05 ( 62 9.8446E-05 ( 62 ) 8.9947E-05
P4 ) 9.5000E-05 ( 94 ) 9.5900E-05 ( 96 ) 9.0393E-05
79 ) B.4608E-05 { 275 ) B.5603F.-05 ( 275 ) 8.0310E-05
67 ) 8.3860E-05 ( 67 1 B.2030E-05 { 67 ) 7.5112E-05
185 ) 6.B5UE-05
219 ) 6.4363F-05
1B6 1 6.5541E-05
196 ) 6.6721E-05
IBO ) 6.6558E-OS
180 ) 6.3728E-05
181 ) 6.2637E-01
181 ) 6.BI74E-OS
Ifll ) 6.5979E-05
181 ) 6.4664E-05
267 ) 6.8728E-05
267 ) 9.I117E-05
179 ) 6.5594E-05
73 ) 7.1794F.-01
187 ) 6.7614E-05
1B7 ) 8.8565E-05
120 ) 1.0869E-04
761 1 I.OB46E-04
77 ) 9.4396K-05
6 ) 7.6854E-05
(12 ) 6.3122E-09
303 ) S.B711P-05 ( 303 ) 6.6221E-05
220 ) 6.4B49F.-05 { 86 ) 6.7046E-05
iR6 ) 6.5340E-05 ( 20 ) 6.9491E-05
186 ) 6.2472E-05 ( 186 ) 6.3378E-05
VI80
180
179
218
181
267
267
367
267
73
73
177
120
361
77
6
325
200 ) 6.05 { 180 J 6.0973E-05
6.4320R-05 ( 218 ) 6.5044E-05
6.I306E-05 ( 179 ) 6.0319E-05
6.78-5QE-05 ( 218 ) 6.5317E-05
6.74SOF.-05 ( 159 ) 6.8726E-05
6.5178F.-05 ( 267 1 6.299BE-05
6.B342F.-05 { 267 ) 6.4995E-05
9.0343F.-05 { 267 ) B.2882E-05
6.5186F-05 ( 267 ) 6.257BE-05
7.0292F-05 { 73 ) 6.5859E-05
6.5055F.-05 ( 73 ) 6.3145E-05
1.0168E-04 { 177 ) I.0496E-04
1.0354E-04 ( 120 ) 9.I256E-05
I.0330E-04 f 261 ) 9.0468E-05
9.5642F-05 ( 137 ) B.8612E-05
254 )
167 )
263 )
306 )
56 )
332
308
7
134
62
96
275
67
303
86
19
218
210
21B
160
218
159
367
267
267
267
73
119
177
120 )
361 )
137 )
7.5633E-05 ( 6 ) 7.0324E-05 { 6 )
6.3117F-05 ( 311 ) 6.2H9E-05 ( 311 )
6.574BF-05 ( 201 ) 6.4389E-05 { 20| )
B.7664E-05 ( 700 1 7.9896E-05 { 200 )
-------
    PENN.  6t,EC. REWARD






                                     NOM--S02



VEftRLlf MAXIMUM 3-HOUR CONC =   2.10566-04  DIRECTIONS 60.  DISTANCE*  2.8 K«l
                                                                                      19.  HOURa  100.
HIGHEST 3-HOUR CONCENTRATION AT EACH R6CFPTOR
RANG6 1.2 KM 2.1 KM
OIR
1
2
4
5
6
7
8
9
10
1 1
12
13
14
CO ^5
l 16
1 . ,_
<*> 11
Co 18
19
20
21
.40546-04 ( 195 )
.42756-04
.70636-04
.62136-04
.94706-04
.86166-04
.77176-04
.6271E-04
.62606-04
.65346-04
.8052F-04
.62316-04
.64306-04
.3568E-04
.5557E-04
.44936-04
.4588G-04
.3508E-04
[ 238 )
238 )
205 )
237 )
110 )
154 )
58 )
183 )
91 >
97 )
95 )
303 )
117 )
219 )
220 )
180 )
180 )
.35796-04 ( 180 )
.30606-04 ( 218 )
.47636-04 { 218 )
22 1.0189E-04 ( 218 )
23 8.37006-05 ( 196 )
24 9.35806-05 ( 130 )
25 .OSS3E-04 ( 130 )
26 .15506-04 { 130 )
27 .39286-04 ( 187 )
28 .74576-04 ( 187 )
29 .63336-04 { 187 )
30 .64856-04 ( 120 )
31 .71016-04 ( 258 )
32 .79136-04 ( 258 )
33 .41926-04 ( 112 )
34 .2294E-04 ( 112 )
35 1.4602E-04 ( 200 )
36 2.01716-04 ( 201 )
.22386-04
.12176-04
.35266-04
.45846-04
.53966-04
.94916-04
.48706-04
.57666-04
.44196-04
.57366-04
.55946-04
.45236-04
.34576-04
.37716-04 (
.31326-04 (
.2755E-04 (
.26836-04 (
.18146-04 (
.14406-04 (
.17516-04 (
.36706-04 (
.64836-05 f
.07496-04 (
.07746-04 (
.39526-04 (
.16156-04 (
.39316-04 (
.46636-04 (
.24566-04 (
.50646-04 (
.66166-04 C
.58726-04 {
.42616-04 (
.30256-04 (
.21206-04 (
.46336-04 {
2.8 KM 3.7 KM
204 )
113 )
191 )
156 )
3 )
39 )
26 )
93 )
9 )
93 )
93 )
79 )
67 )
185 )
210 )
186 )
186 )
186 )
180
181
218
181
181
267
267
179
73
73
188 )
120 )
243 )
244 )
6 )
325 )
200 )
.26956-04 f 254 ) 1.51626-04
.09646-04 ( 113 ) 1.1505E-04
.4773E-04 ( 312 ) 1.58116-04
.57486-04 ( 156 ) 1.52376-04
.9278E-04 r 3 ) 2.05316-04
.10566-04 ( 39
.6440E-04 ( 234
.53746-04 ( 19
.54996-04 ( 9
.5617E-04 ( 94
.72566-04 ( 81
.56306-04 ( 126
.46306-04 ( 67
.25266-04 ( 185
.27376-04 210
.11416-04 186
.09586-04 186
.11936-04 210
.93156-05 182 )
.02426-04 181 )
.23966-04 ( 218 )
.0140E-04 ( 128 )
.15366-04 t 267 )
.2306E-04 r 267 )
.60666-04 f 267 )
.23056-04 ( 267 )
.4697E-04 f 73 )
.44206-04 ( 73 )
.29336-04 ( 177 )
.6403E-04 ( 120 )
.96296-04 { 243 )
.66576-04 ( 261 )
.5257E-04 ( 6 )
.41996-04 f 325 )
.17216-04 ( 700 )
200 ) 1.68986-04 ( 200 )
.97996-04
.74466-04
.57496-04
.60896-04
.5758E-04
.81916-04
.49476-04
.41206-04
.3495E-04 (
.13326-04 (
.2248E-04 (
.14116-04 (
.07186-04 (
.11626-04 (
.56886-05
.09936-04
.91436-05
.22146-04
.23266-04
.59126-04
.20526-04 (
.40976-04 (
.29516-04 (
.45636-04 (
.58996-04 (
.01096-04 (
.59576-04 (
.44016-04 (
.40896-04 (
.08616-04 (
.67486-04 (
5.2 KM
754 ) 1.53066-04 f 9S4
83 )
312 )
156 )
3 )
39 )
309 )
234 )
245 1
256 )
81 )
126 )
284 )
302 )
210 )
20 )
218 )
210 )
218 1
179 )
218 )
128 )
267 )
267 )
267 )
267 )
73 )
73 )
177 )
120 )
243 )
261 )
6 )
311 )
200 )
200 )
.17716-04 ( 205
.55116-04 ( 241
.54976-04 C 114
.86976-04 ( 3
.66886-04 ( 39
.77826-04 ( 42
.50836-04
.63116-04
.50236-04
.67686-04
.41446-04
.46916-04
.30236-04
.2133E-04
.32346-04
.16356-04
.80876-05
.15856-04
.04556-04
.04686-04
. 1 106E-04
234
42
229
81 )
98 )
206 )
302 )
20 )
20 )
218
92
21fl
219
73
217
.14976-04 ( 218
.14086-04 ( 266
.41596-04 ( 267
.07226-04 267 )
.2781E-04 87 )
.12946-04 119 )
.4928E-04 177 )
.42816-04 137 )
.81876-04 243 )
.43536-04 258 )
.21086-04 6 )
.33706-04 ( 311 )
.0723E-04 ( 201 )
.44656-04 ( 200 )
-------
                                                            MAXIMUM OMI.Y CONCF.NTRHTIONR
                                               DAV     24-HOUR  CONCENrRHTinN    OIRKCTinN
170
761
177
 57
 5fi
 62
 77
 96
137
335
|R7
 «4
 14
  7
 37
 26
103
IflR
267
200
 .OB60E-04
 .OB46C-04
 .0496F-04
 .03ME-04
 .07.0IE-04
9.H446F.-05
9.6S'l7E-0Ii
9.5900C-05
9.5485E-05
9.534«»(!;-05
9i5000E-05
9.4433F>05
9.3993E-05
9.3720E-05
9i3447E-05
9.30RRE-05
9il727E-05
9.II17E-05
9.0419E-05
30
31
79
 H
 5
JO
3?
11
37
 B
79
11
 fl
 «
 fl
 8
12
29
25
36
                                                                                                ?.7S
                                                                                                2.75
                                                                                                5. 23
                                                                                                7. 75
                                                                                                ?.7S
                                                                                                KS5
                                                                                                7.07
                                                                                                3-65
                                                                                                ?.65
                                                                                                2.75
                                                                                                1.17
                                                                                                7.75
                                                                                                3.65
                                                                                                3.65
                                                                                                3.65
                                                                                                2.75
                                                                                                1.17
                                                                                                1.17
                                                                                                2.75
                                                                                                2.75
ij  CD
  OJ
-------
CO
CO
en
     P£*N. FLKC.
     SOLVENT REFINED  CDAL  STUDY

     1975 DATA MAXrMUM  LOAD
                                    REWARD
STACK » 1--SRWAHD STACK 1 - MAXIMUM LOAD COAL HOX
STACK K 2--SEWARD STACK 2 - MAXIMUM LOAD COAL NOX
STACK STRATEGY SO? EMISSION RATE PART EMISSION RATE HEIGHT
TlfPG (GMS/SF,C) (GMS/SF.C) (MCTFRS)
I MOM 79.00 0.00 68.60
' "OM 125.00 0.00 68.60
RANGE(KM)= 1.17 7.07 2.75 3.65 5.23
SEASONAL VARIATIONS BY CASF 1
1 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00
JYR=75
ISTAR=

TEMPs
Af Vs
AFVRr
HLH1 =

JYR=75
AWS =
TEMPs
AFV =
AFVRs
HLH1 =
.MO.
7.6
273.
59.
59.
1800.
1800.
3
7.6
260.
1 0 1 .
101.
959.
1 JDAY= 7
7.h 9.4 8.5 9.4
273. 273. 273. 273.
71. 80. 83. 82.
71. flO. 83. 82.
1800. 1800. 1800.
1800. 1800. 1800.
1 JDAY= 14
8.9 8.1 7.6 7.6
260. 759. 259. 259.
90. 88. 79. 84.
90. 88. 79. 84.
9i><». 959. 959.

8.5
273.
84.
84.
1800.
1800.

8.1
259.
81.
81.
959.

8.5
273.
85.
85.
1800
1800

6.9
258.
75.
75.
959

8.1
273.
83.
83.
. 1900
. 1800

10.3
258.
76.
76.
. 1013

9.4 8.9
273. 274
77. 82
77. 82
. 1800.
. 1800.

8.9 6.7
258. 250
71. 77
71. 77
. 1067.

8.9
. 274.
. 83.
. 83.
1800.
1800.

6.7
. 259.
. 80.
. 80.
1121.

9.4
275.
89.
89.
1 800.
1800.

8.5
750.
81 .
81 .
1175.

7.2
776.
86.
86.
1800
1800

8.5
259.
87.
87.
1228
DIAMETER EXIT VELOCITY TFMP
(MF.TERK) (M/SEC) (DEG.K)
2.40 31.30 449.00
3.00 32.70 " 414.00
1.00 1.00 1.00 1.00

4.0 4.0
277. 277.
82. 82.
82. 82.
. 1800.
. 1800.

3 1
8.5 8.1
260. 760.
84. 81.
84. 81.
. 1282.

4.5
277.
71.
71.



2
8.1
760.
85.
85.


3.6
277.
38.
38.



3
7.6
260.
81.
81.


5.4
276.
5.
5.



3
8. 1
260.
85.
85.


6.3
276.
2.
2.



3
9.4
260.
84.
84.


8.1
277.
18.
18.



3
9.4
259.
80.
80.

VOLUMETRIC FLOW
f M*»3/SEC)
141.60
231.14

8.1
277.
23.
23.



3
8.5
260.
75.
75.


6.3
277.
26.
26.



3
8.1
260.
73.
73.


6.3
277.
6.
6.



3
8.9
260.
72.
72.


6.3
277
357
357



3
9.4
260
70
70

           1336. 1390. 1390. 1390.  1390.  1390.  1390.  1390.  1390.  1390. 1390.  1390.
     JYR=75 IMO= 1  JOAY = 26
     ISTAB=  333333333333333333443333
     AWS= 11.7 11.6 12.1 11.0 13.9  13.9  14.8  16.1  14.8  15.2  15.6  15.6 15.2 14.8  15.2  16.5  14.3  16.1  13.9 13.0 13.9 13.0  12.5  11.6
     FEHP= 271. 271. 271. 271. 270. 270.  270.  269.  269.  769.  769.  269. 269. 269. 768.  767.  267.  267.  267. 267. 267. 266.  266.  266.
     AFV=   75.  72.  71.  65.  87.  77.   76.   78.   73.   75.   80.   78.  86.  «5.  88.   BR.   91.   92.   88.  88.  86
     AFVH =  75.  77.  71.  65.  87.  77.   76.   78.   73.   75.   80.   TV.  86.  85.  88.   88
     HLH1=  566.  566.  566.  566.  566.   566.   598.  629.   661.   6Q3.  725.  756.
            798.  «(20.  870.  820.  820.   870.   P70.  P?0.   820.   870.  870.  870.
                                                                              91 .
                                                                              91 .
97.
92.
88.
88.
88.
88.
                                                                                                  86.
88.
88.
87.
87.
87.
87.
     JYR=75  IMO= 7 JDAY= 37
     AHS=   8.1
     T£NP=  277.
     AFVs    fif).
     AFVRs   6».
  4433333333
8.5  8.5  9.8 11.2  11.2  10.3   9.4  10.3  10.7  10.7 10.? 10.3
272. 271. 774. 774. 274.  273.  273.  772.  271.  771.  271
 67.  67.  73.  76.   80.   85.   92.   «R.   88.   83.   B7
 67.  67.  73.  76.   80.   85.   07.   i)8.   88.   B3.   B7
     HLH1=  110D.  1100.  1100. 1100. HOO. 1100. IOQ<1.  1088.  lOflt.  I07S.  1069. 1061
           105b.  1050.  1050. 10SO. 1050. 1050. 10SH.  1050.  1050.  1OSO.  1050. 1050.
3
0.3
771 .
86.
86.
3
».5
771.
87.
87.
3
9.1
771 .
85.
85.
3
7.6
771 .
88.
88.
3
6.7
271.
97.
97.
3
7.7
771 .
91 .
91.
3
6.7
771.
03.
93.
3
6.3
271.
02.
92.
3
6.7
270.
86.
86.
3
6.7
270.
95.
85.
3
7.6
770.
91.
91.
3
7.7
270.
97.
97.
-------
              1MO= 2 JOAYs 56
ISTAB
AWS =
TF.MPs
AFV =
AFVR =
-
\



3
0.7
771.
93.
91.
1
8.5
271.
83.
83.
3
7.2
270.
65.
65.
3
7.2
270.
SI.
51.
3
8.9
270.
54.
54.
1
10.7
270.
61.
61.
3
10.7
270.
58.
58.
1
9.8
270
51
51
       HLHls "1700. 1700. 1700. 1700. 1700. 1700.
             1061.  970.  970.  970.  970.  970.
                                               56.   51.   69.   55.   57.
                                               56.   53.   69.   55.   52.
                                                IS18.  1476.  1.115.  1244.
                                           970.  970.   970.   970.   970.
50.
50.
1 151
970
57.
57.
.
.
54.
54.


58.
58.


59.
59.


59.
59.


66.
66.


72.
72.


76.
76.


81.
81.


83.
B3.


JYR=7S nn = 2 JOAYs 57
ISrARs  333333311337232333333333
AWS = 19.2 17.4 17.9 16.1 15.2 15.2 13.9 13.9 14.3 16.1  16.5 16.|  15.6 17.0 16.5 15.6 |4.3 11.9 13.0 12.5 13.4 13.4  12.1  11.6
TEMP= 272  271. 271. 271. 271. 271. 270. 270. 270. 271. 272. 273. 274. 274. 275. 275. 274. 274. 274. 273. 273. 273. 272.  272.
            85   82.  80.  77.  77.  71.  68.  72.  75.  75.  77.  83.  88.  86.  86.  91.  89.  87.  B4.  87.  87.   87.   87.
            85   82.  80.  77.  77.  71.  68.  72.  75.  75.  77.  83.  89.  86.  86.  9|.  89.  87.  84.  87.  87.   87.   87.
AFV =
AFVRs
              82.
              82.
       HLHIa 7000. 2000. 2000. 2000. 2000. 2000. 1968. 1935. 1903. 1870. 1838. 1805.
             1771. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740.
(  £

  CO
JYR=75
ISTAH=  3
AHS =  9.8
TE«P = 261
AFV=  118
                 =  3
                    3
                  9.4
  = 62
  3    3
9.5  8.9
  3333
8.9  9.8 10.3  9.4
                                                3213333333333333
                                              9.4  9.8 10.3 10.7 11.6 11.6 12.1 10.3 10.3  11.2  12.1  10.7  12.5  12.1  10.3   9.8
                  263. 262. 262.  263. 262. 262. 267. 262.
           «„,. ,.,«. .-.. .~^. ..... .-.. .-.. .--• ?«3. 264. 264. 265. 765. 264. 264. 265. 264. 264. 264. 264. 263.  263.  263.
      ,,„. 118. 122. 105. 108. 106. 109. 101. |07. 110. 106. 107. 106. 101. 115. 112. 109. 114. 120. 115. 108. 115.  106.  103.
AFVR= 119. 118. 122, 105. 108. 106. 109. 101. 107. 110. 106. 107. 106. 101. 115. 112. 109. 114. 120. 115. 108. 115.  106.  103.
MLH1 = 1050. 1050. 1050. 1050. 1050. 1050. 1174.  1298. 1421. 1545. 1669. 1793.
                        2040. 2040. 2040. 2040.  2040. 2040. 2040. 2040. 7040.
              1916.
JYR=75 IMO- 3 JOAYs 77
AHSs 9.4 10.3 8.9 11.2 13.9
TEMPs 277. 277. 276. 276. 275.
AFV= 312. 110. 245. 331. 329.
AFVRa 312. 310. 245. 331. 328.
HLHls 100. 100. 100. 100.
1150. 1.100. 1300. 1300.
JYR=75 IHO= 4 JDAYa 94
AWSs 15.6 18.8 17.0 17.9 1 7 . «»
TEMPs 266. 266. 265. 265. 265.
AFV= 115. 115. 110. 109. 107.
AFVRs US. 115. 110. 109. 107.
HLHI= 1000. 1000. 1000. 1000.
1744. 1850. 1850. 1850.
JYRs75 IMOs 4 JDAY* 96

TEMPs 266. 267. 267. 266. 266.
AFVs 120. 109. 111. 115. lit.
AFVRs 120. 109. 113. 115. 111.
HLHIs 336. 336. 136. 336.

12.5
275.
325.
325.
100.
1300.

17.0
265.
M2.
117.
1000.
IB50.


267.
110.
110.
316.

15.2
275.
326.
326.
100
1300

15.6
265.
107.
107.
1000
1850

P. 5
267.
IIP.
1 18.
336

14.1 1
275.
326.
326.
. 250
. 1300
3
14.9 1
264.
101.
101 .
. 1106
. 1850

9.4
267.
117.
117.
. 444

2.5 13.4
275. 276
328. 324
328. 324
. 400*
. 1300.
3 3
5.6 11 .2
265. 265
104. 104
104. (04
. 1213.
. 1B50.

9.8 9,4
268. 269
117. 117
112. 117
. 557.

15.6
. 277.
. 323.
.. 323.
550.
1300.
3
13.0
. 266.
. 109.
. 109.
1310.
1650.

I
a q
. 770.
. 115.
. 115.
660.

13.0
279.
318.
319.
700.
1300.
3
10.1
266.
111.
111.
1*75.
1850.

1
771.
119.
119.
769.
Ill
12.1 13.0 13.4
279. 790. 280.
321. 318. 324.
321. 318. 324.
850. 1000.
1300. 1300.
333
11.6 11.7 13.0
268. 269. 270.
110. 110. 108.
110. 110. 108.
1531. 1618.
1850. 1950.
• tt
ill
9.R 11.2 10.3
271. 777. 772.
115. 114. 116.
115. 114. 116.
876. "«4.

11.2
281 .
325.
325.


3
12.1
770.
119.
119.



11.2
272.
117.
117.

3
14.8
280.
327.
327.


3
12.1
269.
122.
127.



11.6
271.
116.
116.

3
14.3
.278.
328.
328.


3
11.*
268.
126.
126.



10.7
271 .
118.
1 IB.


17.0
277.
324.
324.


3
11.2
266.
133.
111.



8.9
270.
121.
121.


18.3
276.
325.
325.


3
11.2
266.
128.
128.



9.8
269.
122.
122.


13.9
276.
320.
320.


3
10.7
266.
123.
123.



9.8
268.
118.
IIP.


13.0
275.
320.
J20.


3
10.7
266.
116.
116.



8.9
268.
113.
113.


13.0
275.
318.
318.


3
11.2
265.
113.
113.



7.6
267.
lie.
118.


13.4
276
313
313


3
11.2
265
121
121



6.3
26R
120
120

-------
JYR=75 TMO= 4 JDAY=103
ISTA8=  44444443
AWS =  1.6   ».l  3.1  2.7  2.2  1.8  1.8  1.3
2
;
i

i

i

l

i

l

1

l

l

3

4

4

4

4

TEMP = 270. 270. 270. 270. 270. 270. 271. 271. 272. 273.  275.  276.  777.  777.  277.  277. 277. 276. 275.
                           II.  91.  77.  77. 101. 12*.  121.  12S.  124.  124.  177.  124. 129. 132. 128.
AFY =  190. 126. 122. 106
AFVR = 190. 126.  122. 106.  91.  91.  77.  77. 101.  128.  171.  126.  124.  124.  177.  124. 129. U2. 128.
HLH1=  778.  77fl.  77B.  77B.  77«.  779. 1029.  1279.  1529.  1779.  2029.  7780.
      2530. 2780. 2780. 2780. 2780. 2780. 2780.  27BO.  2780.  7780.  2780.  2780.
                                                                                                                             4
                                                                                                                             6
                                                                                                      274. 274. 277. 272. 272.
                                                                                                      129. 132. 140. 153. 167.
                                                                                                      129. 132. 140. 153. 167.
JYR=75 IM3= 4 JOAY=120
ISTAB=
        ...    3    3    3    1    2    2     1     1     I     1     1     1     1     1    2    3
AMS=  9.4  9.8 10.3  9.8 10.7  9.8 10.3 11.2 11.2  10.7  10.3  11.7  11.2   9.4  11.6  11.6  11.2 10.7 10.3
TEMPs 280. 280. 281. 281. 280. 280. 281. 281. 282, 284.  284.  285.  284.  285.  784.  284. 284. 283. 282.
AFV =  310. 311. 311. 308. 305. 304. 306. 307. 302. 303.  303.  305.  305.  309.  295.  309. 310. 307. 308.
AFVRa 310. 311. 311. 308. 305. 304. 306. 307. 302. 303.  303J  305.  305.  309.  295.  309. 310. 307. 308.
HLH1*  600.  600.  600.  600.  600.  600.  600.  770.   840.   950.  1060.  1170.
      1280. 1390.  1500.  1500. 1500. 1500. 1500. 1500.  1500.  1500.  1500.  1500.
  33333
9.4  9.8 11.2 12.1 12.5
282. 282. 282. 282. 282.
303. 308. 309. 305. 308.
303. 308. 309. 305. 308.
JYR=75 IMO= 5 JDAY=137
ISTAfls 44444
AWS = 6.3 6.7 10.3 8.5 6.3
TEMPs 285. 285. 284. 284. 285.
AFV= 275. 278. 274. 281. 290.
AFVR= 275. 27". 274. 281. 290.
HLH1= 100. 100. 100. 100.
1036. 1170. 1170. 1170.
CO
— 1
JYR=75 IMQ= 6 JOAY=177
ISTAB= 43344
A«S = 5.8 4.9 4.5 4.0 4.9
TEMPs 291. 291. 791. 291. 291.
AFV= 290. 299. 29*. ?7. 291. 291. 240. 290.
AFV= 310. 302. 291. 106. 102.
AFVRs 311). 307. 291. 306. 1O2.
HLH1= 450. 450. 450. 45O.

4
5.8
284.
293.
293.
100.
1170.



4
5.4
291 .
290.
290.
100.
810.


3.1
291.
299.
299.
189.
1850.

4
4.0
289.
319.
319.
450.

3
6.7
285:
298.
298.
100
1170



4
5.4
290.
292.
292.
100
810


4.0
291 .
331 .
331 .
389
1850

4
5.8
290.
32B.
328.
4bO

3332
7.2 5.8 6.3 6.7
286. 287. 289. 290.
306. 304. 305. 300.
306. 304. 305. 300.
. 234. 368. 501.
. 1170. 1170. 1170.



3333
6.7 5.8 5.4 4.9
290. 290. 291. 290.
296. B99. 295. 293.
296. Z99. 296. 791.
. 189. 278. 366.
810. 810. 810.


4.5 2.7 4.0 4.5
297. 294. 295. 296.
319. 319. 296. 784.
319. 319. 296. 284.
. 571. 754. 917.
. 1850. 1850. 1850.

1111
4.0 1.6 7.7 7.7
291. 797. 294. 296.
12«. 291. 302. 316.
328. 291. 307. 116.
556. 661. 769.

2
7.6
291.
318.
318.
635.
1170.



3
5.8
290.
292.
292.
455.
"10.

|
4.5
297.
287.
287.
1119.
1850.

1
4.5
796.
300.
100.
875.

2
R.I
291.
319.
319.
769
1170



3
6.7
290.
295.
295.
544
810

1
4.0
298.
284.
784.
1307
1850

1
5.8
796.
300.
300.
9P1

3 3
7.6 8.1
791. 291.
376. 324.
326. 324.
. 903.
. 1170.



3 7
5.4 5.4
290. 291.
298. 294.
70fl. 794.
. 633.
. 810.

1 t
4.5 4.0
798. 799.
?«0. 791.
790. 791.
. 1485.
. 1850.

1 1
4.9 4.9
796. 296.
291. ?97.
7«1. 797.
. 10S«.

3
8.1
290.
324.
324.





3
5.8
292.
293.
293.



1
1.6
799.
308.
30R.



1
5.8
?95.
310.
110.


3
9.8
289.
323.
323.





3
5.8
291.
292.
297.



1
4.0
299.
310.
310.



1
4.9
294.
302.
102.


3
8.9
289.
324.
354.





3
4.9
290.
289.
289.



1
4.5
797.
301.
301 .



1
4.9
794.
289.
789.


3
8.5
288.
324.
324.





3
5.8
289.
286.
286.



1
4.9
796.
200.
790.



1
4.5
794.
290.
290.


3
8.1
287.
318.
318.





3
6.7
290.
291.
291.



4
5.4
295.
294.
294.



4
4.0
293.
296.
296.


3
8.5
287.
321.
321.





3
7.2
289.
293.
293.



4
6.3
294.
293.
293.



4
1.1
292.
298.
298.


3
9.4
286.
324.
324.





3
7.6
289.
296.
296.



4
5.4
294.
298.
298.



4
4.0
291.
288.
288.


'
9.8
286.
327.
327.





3
7.2
289.
299.
299.



4
5.4
293.
299.
299.



4
4.9
291.
293.
293.


'
9.4
286.
327.
327.





3
4.9
289.
297.
297.



4
4.5
292.
300.
300.



4
4.0
289.
300.
300.

       1194.  1300.  1300.  1300.  1300.  1100. 1»00. 1300. 1100.  11HO.  1300.  1100.
-------
     JYR=75  1*10= 7 JDAY=200
     ISTAB»   4444
     AW9 =  6.7  8.9
     TEMPs 292. 292. 292. 292
     AFV*  350.   0.   0.   0
     AFVRs 350.   0.
            43333211122233333444
8.9  8.9  9.8 10.) 10.3  9.4  9.4  9.4  8.1   8.9  8.1  8.9  9.4  8.9  8.9  7.6  8.9  6,7  6.7  8.1  8.9  9.8
          292. 292. 293. 2$4. 294.  294.  296.  297. 297. 299. 299. 299. 299. 29fl. 297. 297. 297. 295. 296. 296.
  0.
0.
     0.
     0.
0.
0.
0.
0.
                           0.
                           0.
0.
0.
0.
0.
0,
0.
0.
0.
0.
0.
0.
0.
0. 350. 350.
0. 350. 350.
            1100. 1100.  1100.  1100.  1100.  1100.  1154. 1208. 1261. 1315. 1369. 1423.
            1476. 1530.  1530.  1530.  1530.  1530.  1530. 1530. 1530. 1530. 1530. 1530.
0. 340. 340.
0. 340. 340.
0.
0.
0.
0.
0.
0.
     JYR=75 IMO= 9 JDAY«261
     IST«8=  344434443333333333333334
     AHS =  8.5  9.H  10.7  9.8  10.7  11.2  12.5  12.5 12.1 11*6 14.3 14.3 15.2 13.9  13.9  13.9  13.4  12.5  H.6  12.1  11.2  11.6  10.7   9.4
     TEMPs 287. 2flfi. 287. 2fl6. 286. 2*S. 286. 2Bfi. 286. 286. 286. 2«6. 286. 286. 286. 287. 287.  287.  287.  287.  287.  287.  287.  287.
     AFV =  315. 312. 316. 114. 313. 315. 320. 311. 315. 311t 310. 315, 313. 314. 313. 314. 320.  319.  317.  320.  323*  324.  321.  330.
     AFVR= 315. 312. 316. 314. 313. 315. 320. 311. 315. 311. 310. 3154 313. 314. 313. 314. 320.  319.  317.  320.  323.  324.  321.  330.
     HLHI=  600.  600.  600.   600.  600.  600.  571.  543.  514.  4B5.  456.  428.
            399.  370.  370.   370.  370.  370.  370.  370.  370.  370.  370.  370.
CO
 i
_•
CO
00
          5  IHO= 9 ,IDAYs267
     ISTAB=   33333333333333J333333333
     AWS=  9.4  10.7  11.6  13.4  9.8   8.1  8.0  10.7  10.3 10,3 10.7  9.4  8.9  8.5  9.4  10.7  10.7  9.fl  10.7   9.8  11.2  10.3  10.3. 10.3
     TEMPs 2H2. 282. 2R2. 282. 281.  282. 281. 282. 282. 282. 282. 282. 282. 283. 282. 282. 282. 285.  282.  283.  283.  283.  284.  283.
     AFV =  24B. 242. 238. 258. 263.  238. 235. 246. 250. 250. 250. 255. 250. 247. 247. 247. 250. 253.  259.  258.  263.  266.  266.  272.
     AFVR= 248. 242. 238. 258. 263.  238. 235. 246. 250. 250. 250. 255. 250. 247. 247. 247. 250. 253.  259,  258.  263.  266.  266.  272.
     HLHla 1400. MOO.  1400.  1400.  1400. 1400.  1245.  1090*  935.  780.  625.  470.
             315.   160.   160.   160.   160.   160.   160.   160*  160.  160.  160.  160*
     JYR=75  IMO=12 JDAYO35
     ISTAB=   33332333J322222333314
     AH3=  14.3  14.8  12.5  12.5  15.2  14.8  12.1  12.5 13.9 13*9 15.2 13.9 11.6 13.4  10.7  9.8  9.4  7.6   7.6   7.6   8.9
     TEMP* 279. 276. 274. 272. 271.  270. 269. 269. 269. 268. 268. 269. 269. 269* 270. 269i 268.,268.  283.  483.  283.
     AFV*    87.  89.  84.  91.   89.   R6.  85.  80.  8).  86.  81.  84.  93.  87.  81.
     AFVR=   87.  «9.  84.  91.   89.   R6.  85.  80.  83.  86.  81.  84.  93.  82.  81.
            1800. 1800.  1800.  1800.  1800.  1800. 1775. 1750, 1725. 1700. 1675. (650.
            1625. 1600.  1600.  1600.  1600.  1600. 1600. 1600. 1600. 1600. 1600. |600.
                                                                  90.
                                                                  90,
                                                                89.
                                                                89.
                                                           87.
                                                           87.
                                                           B2.
                                                           82.
                                                      85.  88
                                                      85.  88.
                                                            4
                                                          6.7
                                                          283,
                                                           92,
                                                           92,
                                                            4    4
                                                          5.8  4.9
                                                          283. 283.
                                                           85.  81.
                                                           85.  81.
     YEAR BASED ON  20. DAYS
-------
PENN. F.IKC.  SEWARD


                                 NOH--S02

   MAXTMUM  MEAN CONCs  6.906515-05   DIRECTIONS  8  DISTANCES  2.8 KM
 RAN BI-
           1.2 KM
MEAN CONCENTRATION  AT EACH RECEPTOR
   2.1 KM          2.8 KM          3.7  KM
                                                                          5.2 KM















CO
I
co
10


















DIR
1
2
3
4
5
6
7
8
9
10
11
12
11
14
IS
16
17
18
19
20
21
22
23
24
25
2*
27
28
29
30
31
3?
33
34
35
36
5.29079E-05
S.21972K-05
5.20303E-05
5.20400E-05
5.30619E-05
5.27155E-05
5.52002E-05
5.83884E-05
5.46872E-05
5.56985E-05
5.73204E-05
5.61193E-05
5.41295E-05
5.27411E-05
5.21605E-05
5.20205E-05
5.20015E-05
5.20000E-05
5.70000E-05
5.20000E-05
5.20000E-05
5.200J2E-05
5.20947E-05
5.21729E-OS
5.24660E-05
5.25390E-05
5.34&53E-05
5.56507E-05
5.85189E-05
5.96893E-05
5.86922E-05 •
5.64634E-05
5.31203E-05
5.25807E-05
5.33013E-OS
5.39896E-05
5.24174E-05
S.20697E-05
5.20107E-05
5.20426E-05
5.50482F-05
5.35631E-05
5.86574E-05
6.66371E-05
5.53343E-05 .
5.75053E-05
5.882n7E-05
5.5T553E-05
5.32274E-05
5.23245E-05
5.20616E-05
5.20066E-05
5.20004E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20074E-05
5.25489R-05
5.2P162E-05
5.39724F-05
5.28987E-05
5.28588E-05
5.41224E-05
5.72337E-05
5.83437E-05
5.89646E-05
5.86743E-05
5.2S175E-05
5.252B8E-05
5.2B295E-05
5.40573E-05
5.22586F-05
5.20390E-05
5.20193E-05
5.20265E-05
5.53497E-05
5.37167E-OS
S.94039E-05
6.90652E-05
5.56508E-05
5.79602E-05
5.92R10F-05
5.56764E-05
5.28978E-05
5.21954E-05
5.20347E-05
5.20034E-05
5.20Q02E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20056F-05
5.27213E-05
5.29868E-05
5.43814E-05
5.29787E-05
5.26341E-05
5.35786E-OS
5.73512F-05
5.77068P-05
5.84968E-05
5.90343E-05
5.23149F-05
S.75897E-05
5.26665E-05
5.41 130E-05
5.21537E-05
5.20215E-05
5.20563E-05
5.20130F-05
5.50927E-05
5.36114E-05
5.90477E-05
6.87859E-05
5.55698E-05
5.75712E-05
5.B8344E-05
5".iS3»03E-05
5\*26380E-05
5.21 138F-05
5.20189E-05
5.20017E-05
5.20001E-05
5.20000F-05
5.20030E-05
5.20000E-05
5.20000E-05
5.20030E-05
5.27438E-05
5.29567E-05
5.43147E-05
5.29072E-05
5.245R1E-05
5.32232E-05
5. 748^6^-05
5.6858BE-05
5.751 J2E-05
5.84RORE-05
5.21822E-05
5.25«99E-f)5
5.2516BE-05
5.39520E-05
5.20773E-05
5.20102E-05
5.71267E-05
5.20040E-05
5.43693E-05
5.32604E-05
5.76080E-05
6.57024E-05
5.49448E-05
5.63407E-05
•5.74107E-05
5.473R3E-05
5.23062E-05
5.20559E-05
5.2008SE-05
5.20007E-05
5.20000E-05
5.70000E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20010F-05
5.26164E-05
5.27572E-05
5.38545E-05
5.27094E-05
5.22949E-05
5.29051E-05
5.70523E-05
5.56199E-05
5.60449E-05
•5.70541E-05
5.2091«>E-05
5.24929E-05
5.73496E-05
5.35194E-05
-------
    PENN. ELF.C. SEUARD






                                    NOM—SO?




YEARLY MAXIMUM 24-HOUR CONC*   1.20HIE-04  DIRECTIONS 80.  DISTANCE
2.1 KM  t)AY= 57.
HIGHEST 24-HOIIR CONCENTRATION AT EACH RECEPTOR
RANGE 1.2 KM 2.1 KM 2.8 KM 3.7 KM 5.2 KM
DIR
1 7.0156E-05 (
2 5.5914E-05 1
3 5.2606E-05 (
4 5.2741E-05 (
5 7.2929E-05 I
6 5.8290f>05 (
7 7.4040E-05 (
8 9.M<»7E-05 I
9 7.1B60E-05 i
10 7.7705E-05
11 g^OHE-O1!
12 9.8313E-05
13 R.6213E-05
14 6.5594E-05
__ » » v « ' ' •-* «-*-
I 15 5.5101E-05
— ' 16 5.2404E-05
0 17 5.2030E-05
18 5.2001E-05
19 -J^OOOE-OS
20 5.2000E-05
21 5.2000E-05
22 5.2064E-03
23 5.1B89E-05
24 5.5353E-05 I
25 1.0104E-05
26 5.7158E-05
27 6.9123E-05
28 8.79JOE-05
29 9.97t4E-0*
30 1.0465E-04
91 B.1084E-05
32 9.4190E-01
33 6.5278E-05
34 5.9629E-05
35 7.7500E-05
36 9.1750E-05

200 ) 6.034BE-05 ( 700 ) 5.7177E-05
200 ) 5.3393E-05 ( 200 ) 5.2778E-05
200 ) 5.21B1E-05 ( 200 ) 5.2293E-05
56 ) 5.2B38E-05 ( 56 1 5.2523C-05
56 ) 1.1275E-04 ( 56 ) 1.1896E-04
56 ) 6.8559E-05 ( 56 ) 7.0479E-05
57 ) 9.4610E-05 ( 26 ) 9.7220E-05
335 ) 1.2081E-04 ( 57 ) 1.2073E-04
335
96
96
103
103
103
103
103
103
103
7
7
267
267
267
267
267
[ 1R7
[ 187
187
187
120
120
77
77
200
200
200
6.9101E-05 ( 335 ) 7.5B07E-05
9.9407E-05 ( 62
9.6173E-05 C 94
7.7986E-05 ( 103
6.9520E-05
5.80R2E-05
5.3206E-05
5.2131E-05
5.2008E-05
5.2000E-05
5.2000E-05
5.2000E-05
5.2000E-05
5.2149E-05
6.2977F-05
6.8295E-05
9.100BE-05
6.6698^-05
6.0492E-05
7.2293E-05
8.3978E-05
1.1419E-04
1.1004E-04
I.0790E-04
5.7738E-05
6.1211E-05
6.P441E-05
9.3136E-05
103
103
103
103
103
103
7
•j
7
267
767
267
267
267
187
187
1 .1077E-04
1.0087E-04
7.6673E-05
6.3301E-05
s.seBeE-o's
5.26P7E-05
5.2067E-05
5.2003E-05
5.2000C-05
200 ) 5.5073E-05
200 ) 5.2426E-05
7 ) 5.3079E-05
56 > 5.2254E-05
56 ) I.1379E-04
56 ) 6.9565E-05
26 ) 9.2778E-05
57 ) 1.1349E-04
37 ) 8.2155E-05
67 ) 1.1025E-04
96 ) 1.0167E-04
94 ) 7.5642E-05
103 ) 5.9019E-05
103 ) 5.4161E-05
103 ) 5.2373E-05
200 ) 5.3546E-05 ( 200 )
200 ) 5.2200E-05
7 ) 5.4514E-05
56 ) 5.2076E-05
56 ) 9.9225E-05
56 ) 6.5912E-05
14 ) B.8459E-05
135 ) i.OOlOE-04
37 > 8.1550E-05
62 ) 9.9264E-05
96 ) 9.50HOE-05
94 ) 7.1165E-05
103 ) 5.5728E-05
103 ) 5.3064E-05
103 ) 5.2168E-05
103 ) 5.2033E-05 ( 103 ) 5.20I3E-05
103 ) 5.2002E-05 ( 103 ) 5.2000E-05
103 ) 5.2000E-05 ( 103 ) 5.2000E-05
5.2000E-05 ( 7 ) 5.2000E-05 ( 7 ) 5.2000E-05
5.2000P-05 ( 7 ) 5.2000E-05 ( 7 ) 5.2000E-05
5.2000E-0? ( 7 ) 5.2000E-05 ( 7 ) 5.2000E-05
5.211^-05 ( 267 ) 5.2061E-05 { 2.67 ) 5.2020E-05
6.6476E-05 ( 267
7. I723E-05
9.9392F.-05
6.9f.50C-0'i
5.7329E-05
6.5396C-05
187 ) 9.9047E-05
120 ) 1.1603E-04
2M ) 1.1566E-04
77 ) 1.0492E-04
77 ) 5.5442E-05
200 ) 6.3042E-05
200 ) 6.5J56E-05
267
267
267
187
187
177
120
261
77
77
700
200
?00 ) 9.4256E-05 ( 200
6.6B77E-05 ( 267 ) 6.4329E-05
7.112BE-05 { 267 J 6.714IE-05
9.8172E-05 { 267 ) 8.903RE-05
6.9052E-05 ( 267 ) 6.5654E-05
S.6119E-05 ( 7«7 ) 5.5287E-05
6.04BHE-05 { 177 ) 6.1340E-05
1.1504E-04 { 177 ) 1.1R38E-04
1.0990E-04 ( 120 ) 9.5B90E-05
1.0953E-04 { 261 ) 9.4959E-05
1.0460E-04 { 137 J 9.5820E-05
5.4010E-05 ( 77 ) 5.3056E-05
6.33B3E-05 ( 200 ) 6.I649E-05
6.2798E-05 ( 200 ) 5.R976E-05
9.1037E-05 f 200 ) 8.23B7E-05
200 )
7 )
56 )
56 )
56 )
14 )
37 )
37 )
62 )
96 )
96 )
94 )
103 )
103 )
103 )
103 )
103 )
7 )
7 )
7 )
267 }
267 )
267 )
267 )
267 )
267 )
177 )
177 )
120 )
261 )
137 )
77 )
200 )
200 )
200 )
-------
DO
 I
           PKNN.  F,bF.C.  SEWRPD




                                              MOM--S07


      YEARLY M»XIMIJM 3-HOUR CONC =   1.9694E-04  D1RF,CTTON =   0.
1.7  KM   n«Y=200.   HOUR=1500.

HIGHEST
3-HOUR
RRMGE 1.2 KM
OIR
1
2
3
4
5
6
7
8
9
10
11
12
1 3
1 4
15
16
1.7

1 9
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
1.2407F.-04 ( 2«0
7.8079E-05 f 200
5.6767F-05 { 200
5. 40806-05 ( 56
1.1006F-04 ( 56
7.4716E-05 ( 56
1.2876F-04 f 57
1.650bE-04 ( 335
.3891F.-04 ( 335
.4R12K-04 ( 62
.7452K-04 ( 96
.7102E-04 ( 103
.4486E-04 ( 103
9.9623E-05 ( 103
6.b809F-05 ( 103
5.4714F.-05 ( 103
5.7191E-05 ( 103
5.200RF.-05 ( 103
5.2000K-05 ( 335
5.2000E-05 ( 335
5.2000E-05 f 267
5.2332E-05 ( 267
h. 1660E-05
6.3496E-05
7. 1 796G-05
8.652QF.-05
.4761R-04
.8626E-04
.7424F.-04
.7HJ9F.-04
.B227E-04
.41 20K-04
.5575E-05
,9'»57F-05
.S477E-04
7.67
267
267
187
187
187
187
120
137
77
77
200
700
200
1 8
) 6
1 5
) 5
) 1
CONCENTPRTTflN »T F.fcCH
7.1 KM
.5257E-OR { 200 )
.139RE-05 f 200 )
.3432F-05 ( 200 )
.366RE-05 ( 56 )
.7246E-04 ( 56 )
) 9.3332E-05 ( 56 )
)
;
,
j
.7051E-04 { 57 )
.7278E-04 ( 57 )
.7961E-04 ( 26 )
.66R4E-04
.6935E-04
.21 1 3E-04
) 9.8456E-05
) 7.3107E-05
) 5.7554F-05
) 5.7755E-05
) 5.2051E-05
) 5.2002E-05
) 5.7000F-05
) 5.2000F-05
) 5.2000F-05
) 5.2682F-05
)
j
,
,
j
)
1




1
.01 74E-04
. 1610E-04
.5243E-04
.3394E-04
.0109F.-04
.2357E-04
.31 33E-04
.6449E-04
.781 1E-04
.7474E-04
94 )
94 )
103 )
103 )
103 )
103 1
103 )
103 )
103 )
335 )
335 )
335 )
267 )
267 )
767 )
267 )
267 )
187 )
187 )
188 )
170 )
761 )
77 )
.0142E-05 ( 77 )
.0276E-04 ( 200 1
.28086-04 ( 200 )
L.5718F-04 ( 700 )
RECEPTOR
7.8 KM
7.2561F.-OS
5.7373E-05
5.4344F.-05
5.2946E-05
1 .7277E-04
9.3074F-05
.7219E-04
.751 3E-04
.4638E-04
.6927E-04
.6778E-04
.3146E-04
9.1729E-05
6.4941F.-05
5.5223E-05
5.2400E-05
5.2024E-05
5.200JE-05
5.2000E-05
5.7000F.-05
5.2000E-05
5.2565E-05
1.2446E-04
1 .3269E-04
1.7520F.-04
1.5014E-04
R.6049S-OS
9.8709E-05
1 .507PF-04
1 .7852F.-04
1.8051E-04
1 .81 35E-04
6.2957F-05
1 .7639F-04
1.2348F.-0*
1 .8096F.-04


( 200 )
( 700 )
( 7 )
( 56 )
( 56 )
t 26 )
( 57 )
( 335 )
{ 56 )
( 94 )
( 94
( 94
( 94
( 103
( 103
( 103 )
(103 )
f 103 )
( 335 )
( 335 )
f 335 )
( 267 )
( 267 )
( 767 )
f 267 )
( 267 )
( 267 )
( 187 )
( 177 1
( 170 1
( 761 )
f 261 )
( 77 )
( 700 )
( 700 )
( 200 )

3.7 KM
6.4284E-05 ( 200 1
5.5073F-05 { 200 )
6.0634F-05 ( 7 )
5.746RE-05 ( 56 )
1.6574F-04 ( 56 )
9.0576F-05 ( 56 )
1.6570E-04 ( 26 )
1.6825F-04 ( 7 )
1.6034E-04 ( 56 )
1.6340E-04 ( 62 )
1.6528F-04 ( 94 )
1.3173F-04 ( 96 )
P.98H5E-05 ( 94 )
5.9728F-05 ( 103 1
5.3B15F-05 ( 103
5.2204E-05 ( 103
5.2011F-05 ( 103
5.2000E-05
5.2000E-05
5.2000E-05
5.2000E-05
5.2376E-05
1 .3137E-04
1 .3226F-04
1 .7275F.-04
1 .4664004
R.4660F.-OS
.1 142F-04
.7009F-04
.7756E-04
.7182E-04
103
335
335 )
335 )
267 )
267 )
267 )
267 )
2S7 )
767 )
177 )
177 1
170 )
120 )
.7584E-04 ( 137 )
5.8457F-05 ( 77 )
.3506F-04 ( 200 )
. 1387F.-04 f 200 t
,78'«RF-04 ( 200 )

5.2 KM
5.8210F.-05 (
5.3471E-05 (
7.2115F.-05 (
5.2144F-05 (
1 .4205F.-04
8.6099E-05
1 .4855F-04
1 .5648F.-04
1.5402E-04
1.4724F-04
1 .5757E-04
1.1817E-04
8. 1 688E-05
5.5918E-05 (
5.2851E-05 (
5.2084E-05 (
5.2004E-05 (
5.2000E-05
5.2000E-05
5.2000E-05
5.2000E-05
5.2110E-05
1 .2066E-04
1.1636E-04 (
1.5228E-04 (
1.2826E-04 {
7.8204E-05 (
1.2236E-04 (
1 .7362F-04 (
1.6140F-04 (
1.4915F.-04 (
1.6024F.-04 {
5.5374F-05 (
1.2533E-04 (
9.7470E-05 (
1.5290E-04 {


200 )
200 )
7 )
56 )
56 )
56 )
14 )
335
37
62
96
96
94
1 03
103
103
103
103
335 1
335 )
335 )
267 )
267 )
267 )
267 )
267 )
267 )
177 )
177 )
137 )
120 )
1 37 )
77 )
200 )
200 )
200 )
-------
                                                           MAXIMUM OMLY CONCPNTR»T1OMS
                                               D»T    24-Hnilfl CONCEMTRHTIOM    DIRECTION     DISTANCE

                                                57           .208IE-04              0           2.07
                                                56           .IPH6E-04              5           2.75
                                               335           .IB77E-04              8           2.73
                                               177           .IBlflF-04             2<>           5.23
                                               120           .lfiOjr-04     ,        30           2.75
                                               761           .I566E-04             31           2.75
                                                62           .1027E-04             10           2.75
                                                77           .0790E-04             1?           2.07
                                                17           .07R6O04              8           3.65
                                               137           .0460E-04             32           3.65
                                                14           .0352E-04              fl           3.65
                                                 7           .0297E-04              ft           3.65
                                                26           .OI91E-04              8           2.75
                                                96           .OI67E-04             It           3.65
                                                9*           .006U-04             II           2.75
                                               187          9.97I4E-05             29           1.17
                                               267          9.9392E-OS             25           2.75
                                               103          9
-------
                          CM
                          IT
                          II
                          a
                          X.
                          
      p*
      
   «. U I E
—  • X <  O
II X S f-  O
Z «    1  til
            •   « H  u
            «• H  «  ft-  II  II     I
            s- J o  tr  J  <     i
            rt f« >-  I  O  I«3     >
            z in    c  3u  W     a
            a ^    M  z  z     a
                                                                                       B-143
-------
   PLBNT ELEVATION (FEET ABOVE SEA
1120.0
       RECEPTOR  ELEVATIONS (FEET  ABOVE BEA I.EVEI.)
   DIRECTION
00
                         RINGI2
                                                     RING»5
1
2
3
4
5
6
7
8
9
10
It
12
1 3
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
STACK »
STUCK I
STACK

1
2
1085
1090
1 100
I 15
1 20
1 30
1 30
1 35
1 50
1 45
1 35
1 20
1 20
1 20
1 20
1 too
1100
1100
1070
1080
1240
1210
1270
1420
1485
1500
1420
1310
1 440
1550
1550
1560
1530
1400
1250
1 180
•
*
.
•
*
,
.
m
,
m
•
*
^
m
•
•
»
.
•
•
.
*
.
•
.
.
•
*
*
•
.
•
.
.
•
•
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
l--SEWARf>
2--SFWARD
STRATEGY
TYPE
NOM
MOM
1330.
1 150.
1200.
1120.
l too.
1240.
1 300.
1280.
1240.
1240.
1250.
1210.
1260.
1220.
1220.
1280.
1210.
1140.
1100.
1080.
1080.
1090.
1230.
1250.
1 350.
1470.
1560.
1540.
1400.
1 320.
1 300.
1 330.
1550.
1400.
1 330.
1200.
STACK 1
STACK 2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0

1200
370
250
400
250
HO
too
400
350
1450
1500
1550
1500
1500
1400
1350
1450
1350
1200
1100
lono
1080
1150
1200
1240
1300
1470
1540
1400
1400
1540
1400
1550
161)0
1300
1350
SRC NOX
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0

SRC NORMAL
S02 EMISSION RATE
1 350.
1500.
1400.
1440.
1420.
1440.
1 300.
1150.
1400.
1BOO.
1950.
2100.
.2100.
2000.
1850.
1700.
1640.
1620.
1600.
1540.
1300.
1080.
1080.
1200.
1300.
1400.
MfiO.
1400.
1550.
1600.
1620.
1700.
1800.
1550.
1580.
1350.

NOX
PART
(RMS/SEC)








44.00
97.00




0
0
0
0
0
0
0
0
0
600.
500.
500.
450.
550.
500.
720.
720.
950.
0 2100.
0 IflOO.
0 2460.
ft 2560.
0 2500.
0 2530.
0 2450.
0 2200.
0 1900.
0 1400.
0
0
0
0
0
0
0
0
0
0
0
0
0
0
300*
210.
210.
400.
060.
400.
350.
570,
660.
660.
710.
770.
750.
700.
0 1600.
0 1620.
0 1620.




EMISSION
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0


RATE HEIGHT DIAMETER EXIT VELOCITY TEMP
(CMS/SEC) (METERS) (METERS) (M/SEC) fDEG.K)


0.00
0.00
68.60 2.40 31.30 449.00
68.60 3.00 32.70 4|4.00
                                                                                                                    VOLUMETRIC
                                                                                                                      (M**3/8EC)

                                                                                                                         141 .60

                                                                                                                         231.14
     RAWRE(K1)3    1.17   2.07   2.75    3.65   5.73
     SEASONAL  VARIATIONS RY CASE  I
               1    1.03   0.93   O.g<*    1.10   1.03
      0.91
             1.13
1.09
                            I . 10
                                   o.q?
0.87   0.81
   YEAR RASED  lir|  365.  DAYS
-------
         PENN.  ELEC.  SEWARD


                                        NOM--S02

            MAXIMUM MEAN CONC=  5.495HE-05  OTRECTTONa  fl  DISTANCE  3.7 KM
          RANGE
                        ANNUAL MEAN CONCENTRATION AT EACH RECEPTOR
                   1.2 KM         2.1 KM         2.R KM         3.7 KM
                                                                           5.2 KM
00
I
OIR
  1
  2
  3
  4
  5
  6
  7
  R
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 2R
 29
 30
 31
 32
 33
 34
 35
 36
5.23469E-05
5.24108E-05
5.26593E-05
5.30233E-05
5.34506E-05
5.34619E-05
5.341 25E-05
5.335046-05
5.31870E-05
5.35037E-05
5.37760E-05
5.35000E-05
5.2R907E-05
5.24739E-05
5.23047E-05
5.22449E-05
5.22031E-05
5.21675E-OS
5.21423E-05
5.21210E-05
5.21006E-05
5.20765E-05
5.20754E-05
5.20999E-05
5.21468E-05
5.21738E-05
5.22637E-05
5.24194E-05
S.261HOE-05
5.2H2R4E-05
5.2'«770E-OS
5.28188E-05
5.24438E-05
5.22637l!:-05
5.22627E-0«>
5.24966E-05
5.24132E-05
5.2461 3E-05
5.2R215E-05
5.33511E-05
5.41090E-05
5.37510E-05
5.40514E-OS
5.42271E-05
5.36414E-05 .
5.390J4E-05
5.40846E-05
5.35267E-05
5.28643E-05
5.24836E-05
5.23753E-05
5.22653E-05
5.22109E-05
5.21915E-05
5.21880E-05
5.21781E-05
5.21733E-05
5.21537E-05
5.21631E-05
5.21878E-05
5.22623E-05
5.22388E-05
5.23001E-05
5.23746E-05
5.257SRE-05
5.28653E-05
5.33458E-05
5.33884E-05
S.26675E-05
5.23S44E-05
5.22712E-05
5.25379E-05
•5.24450E-05
5.24H19IT-05
5.28797E-05
5.34871E-05
5.43686E-05
5.39031F-05
5.44099F-05
5.47181E-05
5.40352E-05
5.41889C-05
5.42870E-05
5.35739E-05
5.28914E-05
5.24967E-05
5.23233C-05
5.22566E-05
5.22063E-05
5.21856E-05
5.21849F-05
5.21881F-05
5.21943E-05
5.21829E-05
5.21933E-05
5.22074E-05
5.22814E-05
5.2235RE-05
5.22814E-05
5.23390E-05
5.25901^-05
5.28574E-05
5.34159f-05
5.35591E-05
5.27214E-05
5.24088E-05
S.22762E-05
5.2525'iE-05
5.24533E-05
5.24880F-05
5.28fl58r-05
5.35173E-05
5.44035E-05
5.39406F1-05
5.45814F-05
5.49581E-05
5.43099r-05
5.43321E-05
5.43272E-05
5.35654F-05
5.28993E-05
5.25059E-05
5.23354E-05
5.22571E-05
5.22122E-05
5.21791E-05
5.2J674E-05
5.21857E-05
5.21974E-05
5.22024E-05
5.2I807P-05
5.22112E-05
5.22745F-05
5.22210E-05
5.225fiOF>05
5.23261F-05
5.?62fiOE-05
5.2811 1K-05
5.33637F-05
5.35674K-05
5. J707RE-05
5.24310F-05
5.227^7F-05
5.24829F-05
5.2421ir-05
5.24624F-05
5.2H093E-05
5.33870E-05
5.41212E-05
5.37677E-05
5.44375E-05
5.48140E-05
5.429R2E-05
5.41942E-05
5.41014E-05
5.34316E-05
5.78490E-05
5.24837E-05
5.23470E-05
5.22587E-05
5.22173E-05
5.21666F-05
5.21341E-05
5.21709E-05
5.21805E-05
5.22100E-05
5.21577E-05
5.22028K-05
5.22486E-05
5.21982E-05
5.22250E-05
5.23318E-05
5.2M40E-05
5.27015E-05
5.31727E-05
5.33795E-05
5.26235E-0*
5.24201E-05
5.22569E-05
S.2396RE-05
-------
     PEMN.  KtF:C.  SFHARf)


                                          NOM--S07

YEARLY MIVXIMUM  24-HOUR CONC*   9.9875F.-05   DTRF.CT ION = 300.   DTRTftNCE=   7.8  KM   OA»=170.
   HIGHEST 74-HOUR  C01CENTPATION AT  EACH  PFCF.PTOR
1.2  KM                   2.1  KM                   2.8  KM
                                                                                             3.7  KM
5.7  KM
DIR
1
2
3
4
5
6
7
8
9
10
11
1?
3
4
5
TO 6
L 7
*» 8
°* 9
20
21
22
23
24
25
76
27
28
29
30
31
32
33
34
35
36

6.6066E-05
6.4993E-05
7.006E-OS
9.J 34SF.-05
8.1963E-05
«.0194*>05
6.7708E-05
6.6238E-05
7. 1704E-05
8.2586E-05

( 200 )
( 113 )
( 208 )
( 208 )
( 208 1
( 189 )
( 18" )
( S8 )
( 183 )
( 111 )
( 96 )
( 103 }
( 103 )
( 117 )
( 219 )
( 219 )
( 180 )
( 180 )
( 180 )
( 180 )
( 181 )
( 181 )
( 181 )
( 179 )
( 179
( 179
( 187
( 187
( 187
( 120
( 194
( 77
( 112
( 112
( 200
( 200 )

6.5621E-05
6.1224E-05
6.8071E-05
7.7364E-05
9.0061F-05
7.5I76E-05
R.1616E-05
9.5364E-05
7.3651E-05
8.3289E-05
B.4697F-OS
7.8076F.-05
7.5329F.-05
6.6823E-05
6.4480E-05
6.6277E-05
ft.7605E-05
6.8289E-05
6.5431E-05
6.3134E-05
6.6077E-05
6.4882E-05
6.27I9R-05
6.3544E-05
7.8964F-05
6.3127E-05
6.6904E-05
6.7749F-05
7.6706E-05
9.8240F.-05
9.5715E-05
8.96I7E-05
6.9912F.-05
6.251RF.-05
6.4693F-05
8.3467E-05

( 199
( 164
( 349
( 156
f 56
( 39
( 26
( 57
( 9
( 62
( 94
{ 79
( 67
( 185
{ 719
( 186
( 186
( 180
( 180
( 1 81
( 181
t 181
( 181
( 267
( 267
( 179
{ 73
( 187
( 187
120
261
77
6
112
200
200

6
6
6
fl
9
7
8
9
7
9
a
7
7
6
6
6
6
6
6
6
6
6
6
6
8
6
6
6
8
9
9
8
7
6
6
H

.9399F-05
.2049E-05
.8897F.-05
.1519E-05
.4231E-05
.79"5E-05
.STOIIT-OS
.560401-05
.7002E-05
.0905E-05
.831 IE-OS
.9537E-05
.8904E-05
.5946E-05
.7440E-05
.34J4E-05
.4430F.-05
.4293E-05
.1902E-05
.0982F.-05
.5657E-05
.3805E-05
.2695F-05
.6137K-05
.5054E-0?
.3495E-05
.871 5E-05
.5185F.-OS
.2884E-05
.9875F-05
.9679E-05
.7799E-05
.79PBE-05
.1392E-05
.7747E-05
.4447E-05

( 254 )
( 164 )
( 349 )
( 156 )
( 56 )
( 332 )
( 76 )
{ 57 )
( 9 )
( 62 )
( 94 )
( 275 )
{ 67 )
( 303 )
{ 220 1
( 186 )
( 186 )
{ 180 )
( 180 )
( 179 )
{ 218 1
( 181 )
( 267 )
( 267 1
f 267 )
( 267 )
( 73 )
( 73 )
( 177 )
( 170 )
( 761 )
{ 77 )
( 6 1
f 325 )
( 200 )
( 200 )

7.4109F-05
6.131 1F-05
6.8370E-05
8.1422E-05
9. 1 251F-05
0.0557F.-05
8.3513F.-05
8.974IF-05
7.5516F-05
9.1721E-05
8.9071F-05
8.0376F-05
7.7358E-05
6.6117E-05
6.78S7F-05
6.376BF-05
6.0ROOE-05
6.0660F-05
6.2405E-05
5.9858E-05
6.539IE-05
6.50S6F.-05
6.3178F.-05
6.5804E-05
8.439BF.-05
6.31 49F-05
6.7445F.-05
6.3073F.-05
9.3960E-05
9.5571F.-05
9.5319T-05
8.SH53F-05
7.1956F.-05
6.1387E-05
6.31«6E-05
8.21 I5F-05

( 254 )
( 164 )
( 263 )
( 306 )
( 56 )
( 117. )
t 308 )
( 57 )
( 9 )
( 62 )
( 96 )
( 275 )
( 67 J
( 303 )
( 86 )
( 20 )
( 186 )
( 1 80 )
{ 218 )
( 179 )
( 2J8 )
( 159 )
( 267 )
( 267 )
767 )
267 )
73 )
73 )
177 )
120
( 261
( 1 37
( 6
( 111
( 201
( 700 )

7.5126F.-05
6.042IF.-05
6.7321E-05
7.9058E-05
8.2144E-05
7.B191F,-05
8.1411E-05
8.5523E-05
7.5361F.-05
8.4042E-05
8.44I8E-05
7.5904E-05
7.1515E-05
6.4009E-05
6.4707E-05
6.6772E-05
6.1608F.-05
5.9577E-05
6.3015E-05
3.9025F.-05
6.3245E-05
6.6123F-05
6.1297E-05
6.2977E-05
7.B093E-05
6.0944E-05
6.3707E-05
6.1410E-05
9.6717E-05
B.5146E-05
B.4481E-05
B.2914E-05
6.7477E-05
6.0569E-05
6.2461E-05
7.5554E-05

C 254
( 167
( 263
( 306
( 56
( 332
( 308
( 7
( 124
( 62
( 96
( 275
( 67
( 303
( 86
( 19
( 218
( 210
( 218
( 160
( 218
( 159
( 267
( 267
( 267
( 267
( 73
( 119
( 177
120 )
261 )
137 )
6 )
311 )
201 )
{ 200 )
-------
    PENN.  ELEC.  SEHARO







                                     NDM--S02




YEARLY  MAXIMUM 3-HOUR COMCa  1.8598E-04  DIRECTIONS 60.  DISTANCES  7.8 KM
I>»Y = 30.   HOURs 300.
HIGHEST 3-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE 1.2 KM 2.1 KM 7.8 KM 3.7 KM 5.2 KM
DIR
1 1.2677O04 ( 195 ) 1.H43E-04 ( 204 1
2 1.2863004 ( 238 )
3
4
5
6
7
8
9
10
It
12
13
14
15
16
17
18

20
21
.521BE-04 ( 238 )
.4499E-04 ( 205 )
.7250004 ( 237 )
.6529E-04 ( 110 )
.5770O04 ( 154 )
.4548O04 ( 58 1
.4539004 ( 1R3 )
.4771F-04 ( 91 )
.6053E-04 { 97 )
.4515E-04 ( 95 )
.4583E-04 ( 303
.2267E-04 ( 117
.3945E-04 ( 219
.3048E-04 ( 220
.3127E-04 ( 180
.2216E-04 ( 180
.22766-04 ( 180
.1837E-04 ( 218
.3276004 { 218
22 9.4129E-05 ( 218
23 7.8773E-05 ( 196
24 B.7H4E-05 ( 130
25 9.7293E-05 ( 130
26 .0563E-04 { 130
27 .2570E-04 ( 187









.0281E-04 ( 113 )
.2231E-04 { 191 )
.317.5E-04 f 156 )
.3B10E-04 ( 3 )
.7266E-04 t 39 )
.3366E-04 26 )
.4122E-04 93 )
.2995F.-04 9 )
.4097E-04, 93 )
.3977E-04 93 )
.3073E-04 79 )
.2173E-04 67 )
.2438E-04 185 )
.1899E-04 710 )
.1158E-04 ( 186 )
.1519E-04 ( 186 )
.0785E-04 ( 186 1
.0469E-04 ( 180 1
.0732E-04 ( 181 )
.2352E-04 ( 218 )
8.95ME-05 { 181 )
9.8862E-05 ( 181 )
9.9073E-05 ( 267 )



28 .5550E-04 ( 187 )
29 .4S01F.-04 ( 187 1
30 .4729E-04 ( 120 )
31 .5250E-04 ( 258 )
37 .5851E-04 ( 258 )
33 .2794E-04 ( 112 )
34 .11R2E-04 ( 112 )
35 .3139004 ( 200 )
36 .7842E-04 ( 201 )
.2592E-04 ( 267 )
.0617E-04 ( 179 )
.2573E-04 ( 73 )
.3191E-04 ( 73 )
.1327E-04 ( 188 )
.3530E-04 ( 170 )
.4B40E-04 ( 243 )
.4211E-04 ( 244 )
.2852E-04 ( 6 )
.1BOBE-04 ( 325 )
.1044E-04 { 200 )
.3167E-04 ( 200 )
.1531E-04 ( 254 )
.0067E-04 ( 113 )
.3784E-04 ( 312 )
.4107O04 ( 156 )
.7087E-04 { 3 )
.8588E-04 ( 39 )
.4691E-04 ( 234 )
.3791E-04 ( 19 )
.3897E-04 ( 9 )
.3996E-04 ( 94 )
.5380E-04 ( 81 )
.4009F-04 ( 176 )
.3163E-04 t 67 )
.1386E-04 f 185 )
.1564004 ( 210 )
.0216E-04 ( 186 )
.0062E-04 ( 186 )
.0261E-04 { 210 )
.1954E-05 t 182 )
.4576E-05 ( 181 )
.1276E-04 ( 218 )
.3718E-05 ( 128 )
.055IE-04 ( 267 )
.1201C-04 ( 267 )
.4376E-04 ( 267 )
.1212E-04 ( 267 )
.3220E-04 ( 73 )
.2985E-04 73 1
.1731E-04 177 )
.4660F-04 120 )
.7383E-04 243 1
.4875E-04 261 )
.3693E-04 6 )
.2799E-04 325 )
.3613004 ( 254 1 1.3734E-04 ( 254 )
.OS74F-04 ( 93 1.0749E-04 ( 205 )
.4159004 { 312 1.3907E-04 f 241 )
.3675004 ( 156 1.3B95O04 ( 114 )
.8145E-04 ( 3 1.6596004 ( 3 )
.757.6F-04 { 39 1.4899E-04 ( 39 )
.5540O04 ( 309 1.5823O04 ( 42
.4108F-04 ( 234 1 1.3545E-04 ( 234
.4395E-04 ( 245 ) 1.4581E-04 ( 42
.4116E-04 ( 256 ) 1.3495E-04 ( 229
.6169E-04 ( 81 1 1.4967O04 ( 81
.3430E-04 ( 126 1 1.2753E-04 { 98
.2732004 ( 284 ) 1.3215E-04 ( 206
.2205E-04 { 302 ) 1.1806E-04 ( 302
.0378E-04 ( 210 ) 1.1056E-04 ( 20
.1153E-04 ( 20 ) 1.1985E-04 ( 20
.0445E-04 f 218 ) 1.0634O04 ( 218
.8592005 ( 210 1 9.0925E-05 f 92
.0235E-04 ( 21B
.B9Q2E-05 ( 179
.0091O04 ( 218
.180QE-05 ( 128
.1173O04 ( 267
.I217E-04 ( 267
.4746004 ( 267
.099BE-04 ( 267
.7708O04 ( 73
.1744E-04 f 73
.3107F-04 t 177
.4234F-04 ( 120
.7864E-04 ( 243
.4783E-04 ( 261
.7969E-04 ( 6
.2706004 ( 311
1.0591E-04 ( 218
9.6377E'-05 ( 219
9.6487E-05 ( 73
1.0188E-04 ( 217
1.0517E-04 { 218 )
1.0442E-04 ( 266 )
1.2765E-04 ( 267 )
9.8723O05 ( 267
1.1602O04 ( 87
1.0346E-04 119
1.3414004 177
1.2869E-04 137
1.6165E-04 243
1.2928E-04 258
1.1033E-04 6
1.2055E-04 311
.0707E-04 200 ) 9.9P04E-05 ( 200 ) 9.8631O05 201
.507BO04 ( 200 ) 1.4952F-04 ( 200 ) 1.3023E-04 200 1
-------
                                                        MAXIMUM  OAIOY  CONCtNTRATIONS
                                            HAY     24-HOUR CONCENTRATION     DIRECTION    DISTANCE

                                            120           9.9B75E-05             10          7.75
                                            261           9.9679E-05             II          2.75.
                                            177           0.6717E-05             29          5.23
                                              57           9.5604E-05              «          ' • T*
                                              56           9.421IE-05              5          2.75
                                              fi2           9.I22IE-05             10          3.*>5
                                              77           B.«l617E-n5             32          2.07
                                              Q6           B.9071E-05             II          J.<>5
                                            137           fl.8H51E-05             J2          3.65
                                            335           B.B72IE-05              «          2.'5
                                            187           B.R&06E-05             29          t.17
                                              94           B.83I1E-05             II          2.75
                                              14           8.7B34E-05              «          3.65
                                               7           8.7462E-05              8          3.65
                                              37           8,721IE-05              «          3.65
                                              26           P.6999E-05              8          2.75
                                            103           B46696E-05             12          1.17
                                            1R8           8i5548E-05             29          1.17
                                            267           645054E-05             25          2.75
                                            200           8.4442E-05             36          2.75
00
-------
      PENN.  ELEC.  SEWARO
      SOLVENT  REFINFO COAL STUDY

      1975  DATA  MAXIMUM LOAD
                                    SEWAPD
CO
I
STACK t 1--SF.WARO STACK
STACK « 2 — SF.WARO STACK
STACK STRATEGY S02
TYPE
1 NOW
2 NDM
RANGF(KM)= 1.17 2.
SEASONAL

JYR=75 IMO=
ISTAB= 4
A*S= 7.6
TEHP= 273.
AFV= 59.
AFVR= 59.
HLH1 = 1P10.
IfiOO.
JYR=75 T^Os
T C T A D •• t
1 5TA R= J
AWS= 7.6
TEMP= 260.
AFV= 101.
AFVRs 101.
VARIATIONS BY
1 1
.00 1.
1 JOAYa 7
3 A
7.6
273.
71.
71.
1800
1800
l jn
•*
8.9
260.
90.
90.
3 3
9.4 fl.5
273. 273
80. 83
80. 83
. 1800.
. 1800.
AY= 14
8.1 7.6
259. 259
88. 79
88. 79
1 - MAXIMUM LOAD SRC-NOX
2 - MAXIMUM LOAD SRC-NOX
EMISSION RATE PART EMISSION RATE
fGMS/SEC) (GMS/SF.C)
69.00 0.00
89.00 0.00
07 2.75 3.65 5.23
CASE
00 1

3
9.4
. 273.
. 82.
. 82.
1800.
1800.

7.6
. 259.
. 84.
. 94.
1
.00

3
0.5
273.
B4.
84.
1800.
1800.

8.1
259.
Bl.
81.

1.00

3
8.5
273.
85.
85.
1800
1800

8.9
258.
75.
75.


1.00 1.00

3
8.1
273.
83.
S3.
. IflOO
. IflOO

10.3
258.
76.
76.

9.4 8.9
273. 274
77. 82
77. 82
. 1800.
. 1800.

8.9 6.7
258. 259
71. 77
71. 77

1.

8.9
. 274
. 83
. 83
1800.
1800.

6.7
. 259
. 80
80
HEIGHT
(VIF.TF.RS)
68.60
68.60

00 I

9.4
. 275.
. 99.
. 89.
1800.
1800.

8.5
. 259.
. 81.
. 81.

.00

7.7
276.
86.
86.
1800.
1800.

B.5
259.
87.
87.
DIAMETER EXIT VELOCITY TEMP
(METERS) (M/SEC) (DEG.K)
2.40 31.30 449.00
3.00 32.70 414.00

1.00

4.0
777.
82.
82.
1800
IflOO

8.5
260.
84.
84.

1

4.0
277
82
82
*
*

8.1
260
PI
81

.00

4.5
. 277.
. 71.
. 71.


O
8.1
. 260.
. 85.
. 85.

1 .00

3.6
277.
38.
38.


3
7.6
260.
81.
81.

1.

5.4
276
5
5



8.1
260
85
85

00

6.3
. 276.
2.
2.


3
9.4
. 260.
. 84.
. 84.



6.1
277.
18.
18.



9.4
259.
80.
80.
VOLUMETRIC FLOW
(M**3/SEC)
141.60
231.14



8.1
277.
23.
23.



8.5
260.
75.
75.



6.3
277.
26.
26.



8.1
260.
73.
73.



6.3
277.
6.
6.



8.9
260.
72.
72.



6.3
277
357
357



9.4
260
70
70
      HLH1=   959.   959.   959.  959.  959.  959. 1013. 1067. 1121. 1175.  1228.  1282.
            1336.  1390.  1390. 1390. 1390. 1390. 1390. 1390. 1390. 1390.  1390.  1390.
      JYR = 75  I'40= 1  JDAY= 76
      ISTAH=   333333333333333333443333
      AHS=  11.2 11.6 12.1 13.0 13.« 13.9 14.8 16.1 14.8 15.2 15.6  15.6  15.2  14.fl  15.2  16.5 14.3 16.1 13.9 13.0 13.9 13.0 12.5 11.6
      TEMPs 271.  771. 271. 271. 27". 270. 270. 7.R9. 269. 269. 269. 269.  269.  769.  26B.  767.  267.  267. 267. 267. 267. 266. 266. 266.
      AFV=    75.   72.  71.  65.  82.  7"».  76.  7fi.  73.  75.  80.  7B.   86.   B5.   88.   88.   91.   92.  88.  88.  86.  88.  87.  87.
      AFVRs  75.   72.  71.  65.  82.  77.  76.  7fi.  73.  75.  RO.  78.   86.   95.   88.   BB.   91.   92.  RB.  88.  86.  88.  87.  87.
      HLHlr  566.  566.  566.  566.  566.  566.  598.  679.  661.  693.   775.   756.
             7H8.  820.  820.  820.  820.  B20.  B20.  870.  820.  870.   R20.   820.
      JYR = 75 I Mas 2 JOJVY = 37
AWS= 8.1
TKMPs 272.
AFV= 68.
AFVRs 68.
8.5
272.
67.
67.
H.5
273.
67.
67.
9.8 11.2
274. 274.
73. 76.
73. 76.
3 3
11.7 10.3
774. 273.
80. 85.
BO. 85.
3 3
9.4 10.3
773. 772.
02. 88.
92. 88.
3333
10.7 10.7 10.3 10.3
271 . 271. 271. 771.
88. 83. 87. 86.
8«. 83. 87. 86.
fi.5 fl.l
771 . 271 .
87. 85.
87. 85.
7.6
771 .
RH.
B8.
6.7
771.
92.
92.
7.7
271.
11.
91 .
3 J
6.7 6.3
271. 271.
93. 92.
93. 92.
      HLH1= 1100.  1100. 1100. 1100. 1100. 1100. 1094. 10SB. 1081.  107">.  1069.  1063.
            10S6.  10SO. 1050. 1050. 1050. 1050. 1050. 1050. 1050.  1050.  1050.  1050.
                                                                                                                   3333
                                                                                                                 6.7  6.7  7.6  7.7
                                                                                                                 270. 770. 270. 270.
                                                                                                                  86.  85.  91.  97.
                                                                                                                  86.  85.  91.  97.
-------
JYR = 75 110= 2 JI)ftY= 56
AWS= 10.7 fl.5 7.2 7.2 8.9 10.7
TEM»= 271. 271. 270. 270. 270. 270.
AFV= 91. 03. 65. 51. 54. ftt.
AFVR= 91. 83. 65. 51. 54. 61.
HMI1= 1700. 1700. 1700. 1700. 1700.
1061. Q70. 970. 970. 970.
JYR = 75 1 '*0= 7 jnAY = 57
ISTAHr 113131
AWR= 19.2 17.4 17.9 16.1 15.7 15.2
TEMPS 277. 271. 271. 271. 771. 271.
AFV= 02. R5. 02. 80. 77. 77.
AFVR= 87. 05. 02. 00. 77. 77.
HLH1= 2000. 2000. 7000. 2000. 2000.
1771. 1740. 1740. 1740. 1740.
JYP = 7"> lvio= 3 JD»Y= 62
1 STAH= 13 3131
TEMP= 261. 263. 262. 262. 263. 767.
AFV= 118. 118. 122. 105. 108. 106.
AFVR= 110. 118. 122. 105. 108. 106.
HljMI = 1050. 1050. 1050. 1050. 1050.
1916. 2040. 2040. 7040. 2040.

10.7
270.
58.
58.
1700.
970.

3
13.9 1
270.
71.
71.
2000.
1740.

3
262.
109.
109.
1050.
2040.

» •»
3 t
9.B 12.5 13.4
270.
5 1 .
51.
1609
970

3.9 1
270.
68.
6R.
I96B
1740

3
262.
101.
101.
1174
2010
270. 270
56. 53
56. 53
. 1518.
. 970.

3 3
4.3 16.1
770. 271
77. 75
77. 75
. 1935.
. 1740.
^ i
3 2
767. 763
107. 110
107. 110
. 1298.
. 2040.

3
15.2
. 770.
. 69.
. 69.
1426.
970.

3
16.5
. 272.
. 75.
. 75.
1901.
1740.

| ft 1
1 U • 3
. 264.
. 106.
i 106.
1421.
2040.

1
15.7
770.
55.
55.
1335.
970.

7
16.1
771.
77.
77.
1870.
1740.

1
In i
1 U . 1
264.
107.
107.
1545.
?0«0.

3
13.0
271.
52.
52.
1244
970
»%
7.
15.6
274.
81.
83.
1838
1740

I* jL
I 1 • «
265.
106.
106.
1669
2040
^
1
1 3
13.4 16.5
771.
50.
50.
. 1151
970

771.
57.
57.
.
•
1
1 i
17.0 16.5
274.
PI.
08.
. 1805
. 1740

11 At
1 1 • O 1
265.
101 .
101.
. 1793
. 2040
275.
86.
86.
.
•

"J 1
* • 1
264.
115.
115.
.
•
J
16.1
771.
54.
54.



15.6
775.
flfi.
86.



• A 1
I I/ • J
764.
117.
117.


^
16.5
271.
50.
58.



14.3
274.
91.
91 .



in i
i " • j
265.
109.
109.


1
.1
16.5
271.
59.
59.



13.9
274.
89.
80.



if o
• i . t
264.
114.
114.



18.3
272.
59.
59.



13.0
274.
87.
87.



12 1
I £ • 1
264.
120.
120.



10.3
271.
66.
66.



12.5
273.
84.
84.



in t
1 U . r
264.
115.
115.



16.1
271.
72.
72.



13.4
273.
87.
87.



UK
. 7
264.
toe.
108.



17.9
772.
76.
76.



13.4
273.
87.
87.



17 1
• * . i
763.
115.
115.



20.1
772.
81.
01.



12.1
272.
87.
07.



in \
i " * j
263.
106.
106.



19.2
273,
83.
83.



11.6
272.
87.
87.



9 a
• «
263.
103.
103.


DO
cn
O
JYH=75 1*10 = 1 JPAY = 77
ISFABr  433333333211111733333333
AWS=  9.4 10.3  B.9 11.2  13.9  12.5 15.2 14.3 12.5 13.4 15.6  13.0  12.1  13.0  13.4  11.2  14.8  14.3 17.0 18.3 13.9 13.0 13.0 13.4
TP1P = 277. 277. 276. 276. 275. 275. 275. 775. 275. 276. 277.  279.  279.  780.  280.  781.  200..278. 777. 276. 276. 275. 275. 276.
AFV=  312. 310. 245. 331. 370. 325. 326. 326. 32fl. 324. 321.  310.  321.  310.  324.  125.  327.  .120. 324. 325. 320. 320. 318. 313.
AFVRs 312. 310. 245. 331. 320. 325. 326. 376. 328. 324. 173.  318.  321.  318.  324.  375.  327.  120. 324. 325. 320. 320. 318. 313.
Hl,Hl=  100.  100.  100.   100.  100.  100.  250.  400.  550.   700.   850.  1000.
      1150. 1300. 1300. 1300.  1300. 1300. 1100. 1100.  1300.  1100.  1300.  11OO.
JYR=75 IMO= 4 JOAY= 94
I 8T AB= 3 "" * * *
AHS= 15.6
?EMP= 266.
AFV= 115.
AFVRs 115.
HLHls 1000
1744
JYR = 75 MO
I STA1 = 1
A*S= 6.1
TCMP= 266.
AFV= 120.
AFVR= 120.
HbHIs 316
} i i i
18.8 17.0 17.9 17.9
266. 265. 265. 265.
115. 110. 108. 107.
115. 110. |08. 107.
. 1000. 1000. 1000.
. 1850. 1050. 1850.
= 4 ,ir>AY= 9ft
331?
0.1 O.I 7.2 0.1
267. 267. 266. 266.
109. 113. 115. 111.
109. 111. 115. 111.
3.16. 316. 316.

•»
1 3
17.0 15.6
265.
112.
112.
1000.
1050.

3
0.1
267.
110.
110.
116.
265.
107.
107.
1000
1850

1
0.5
267.
1 IB.
I 10.
lift
111?
t y 3 J
14.0 15.6 11.2 13.0
264. 265. 265. 266.
101. 104. 104. 109.
101. 104. 104. 109.
. 1106. 1211. 1319.
. 1R50. 1050. 1850.

3211
•>.4 q.O 9.1 9.0
2*7. 26R. 769. 770.
II7. II2. 117. 115.
117. 117. 117. 115.
»**. f-52. f60.

10.3 !
2*6.
111.
lit.
1475.
1850.

1
0.4
771 .
lt».
110.
7fi».

11.6
268.
no.
no.
1511
1050

9.0
771.
115.
1 15.
076

11.7 1
769.
110.
110.
. 1610
. 1050


3.0
270.
108.
100.
.
•

1 i
11.7 10.1
772.
1 14.
111.
. 904
777.
IIS.
116.
.

12.1
270.
11<>.
119.



tl.7
777.
117.
117.


12.1
269.
127.
122.



11 .6
271.
1 16.
116.

•%
.1
11 .6 1
268.
126.
126.



10.7
771.
1 to.
1 IR.


*
j
II. 7 11.7 1
766.
133.
133.



8.9
770.
121.
121.

266.
128.
128.



9.8
269.
122.
172.

JL
t
i
t
10.7 10.7 11.2 11.2
266.
123.
123.



9.8
268.
11B.
118.

266.
116.
116.



8.9
260.
113.
113.

265.
113.
113.



7.6
267.
118.
110.

265
121
121



6.3
268
120
120

-------
JYR = 75 1*10
ISTAB= »
AWS= 3.5
TEMP= 270.
AFVRs 190.
HLH1= 778
253;)
444
3.1 3.1 2.7
270. 270. 270
126. 127. 106
126. 122. 106
. 779. 778.
. 2780. 2780.
4
2.2
. 270.
. 91.
. 91.
778.
2780.
4
1.8
770.
91.
91.
778.
7780.
4
1.8
271.
77.
77.
778
2780
32111
1.3 2.7 3.6 4.5 5.4
271. 277. 273. 275. 776.
77. 101. 178. 171. 126.
77. 101. 178. 171. 176.
. 1079. 1779. 1579. 1779.
. 2780. 2780. 7780. 7700.
1
6.3
277.
174.
124.
2029
2780
6.3 6.3
777. 277.
124. «77.
124. 177.
. 2280.
. 7780.
1
6.7
777.
174.
124.
1
6.7
277.
179.
179.
1
5.4
776.
132.
137.
3
4.9
275.
128.
178.
4
4.0
274.
129.
129.
4
4.0
274.
132.
132.
4
3.6
272.
140.
140.
4
3.6
772.
153.
153.
4
3.6
27?
167
167
       1*10= 4 JI)/VY=120
ISTABs  33333
           9.8 10.3  9.8  10.7
     HLH1:
   281.
   31 1.
   311.
600.  600.
 280. 280
 305. 304
 305. 304
600.  600
                                                           l
                                                                l
                                                                     l
                                                                               1
                                                                                         1
                                                                                              1
                                     9.8  10.3  11.7  11.7  10.7  10.3  11.7  11.7  94 11.6 11.6 11.7 10 7 10 3
                                    281. 281.  282. 284. 284. 785.
                                    306. 307.  302. 303. 303. 305.
                                    306. 307.  302. 303. 303. 305.
                                                                       £
       „«„.  ™«.  »«-.  —	   6M.  *of).  7'°.   8*°'   950«  1060'  1!7°-
      1280. 1390. 1500.  1500.  1500.  1500.  1500.  1500.  1500.  1500.  1500.  1500.
                                                                                  £ £
                                                                                                        3
                                                                                                      9.4
                                                                                                      £
                      3333
                    9.8 11.2 12.1 12.5
                    282. 282. 282. 282.
                    308. 309. 305. 308.
                    308. 309. 305. 308.
U3
 I
cn
J¥R=7S IM9= 5 JOVK=137
ISTft1=  4444
                             4
                           S:J.

                                                             3
                                                           7.6
                                                           291 .
                                                      3
                                                    8.1
     HLH1=   100.   100.   100.   100.  100.  100.   234.   368.  501.  635.  769.
            1036.  1170.  1170.  1170. 1170. 1170.  1170.  1170. 1170. 1170. 1170.  1170.
JYR=75
ISTARs
AWS =
TEMP =
I«n= 6 JDAY=177
4
5.8
291 .
3
4.9
291 .
3
4.5
791.
4
4.0
291.
4
4.9
291 .
4
5.4
291.
4
5.4
290.
3
6.7
290.
3
5.8
290.
3
5.4
291 .

3
4.9
290
                                                                   5.B
                                                                     3    3
                                                                   6.7  5.4
                                                                               2
                                                                             5.4

AFV=  290. 299. 294^ 29l! 286! ?9o]  79?] 296^ 299J  296.  293.  292.  295.  298. 294.
AFV« = 290. 299. 294. 791. 286. 290.  292. 296. 299.  296.  293.  797.  795.  798. 794.
Ht,Hl =  100.  100.  100.   100.  100.   100.   189.   278.   366.   455.   544.  633.
       721.  810.  810.   810.  810.   810.   810.   810.   810.   810.   810.  810.
                                                                                    3
                                                                                  8.1
                                                                                    3
                                                                                  5.8
                                                                                  797.
                                                                                  793.
                                                                                  293.
  3    3
9.8  8.9
289.
                                                                            3    3
                                                                          5.8  4.9
                                                                          291. 290,
                                                                          792. 289.
                                                                          792. 289,
  3
8.5
  3
8.1
  3
8.5
  3
9.4
                                                                                                                             3
                                                                                                                           9.8
  3
9.4
                                                                          3    3     3     3     33
                                                                        5.8  6.7  7.2   7.6   7.2   4.9
                                                                        289. 290. 289.  289.  289.  289.
                                                                        286. 291. 293.  296.  299.  797.
                                                                        286. 291. 293.  796.  299.  297.
                  7 JOAlf=187
      ISTAflr  4    4    4    4    4    4    4    4    1    1     1     1     '1.1,1
      ArtS=  J.6  3.6  3.1  3.1  3.1  3.1  4.0  4.5  2.7  4.0   4.5   4.*   4.0   4.5   40  36
      TEMP* 293. 292. 292. 291. 291. 291. 291. 297. 294. 795.  296.  297.  298.  798.  79*.  299,
      AFV=  300. 328. 322. 309. 291. 299. 331. 319. 319. 296.  784.  7B7.  284.  290.  79 .  30fl,
      AFVR= 300. 328. 322. 309. 291. 299. 331. 319. U9. 29*.  ?84.  287.  7P4.  "«.*•»»•  ln"'
      HLH1=  389.  189.  389.  389.  389.  389.  571.  754.  937.  1119.  1307.  1495.
            1667. 1850. 1050. 1850. Ifl50. 18"?0. 1850. 1850.  1850.  1850.  1850.  1850.
                                                                                          1
                                                                                        4.0
                                                                                        799.
                                                                                        310.
                                                                                               1
                                                                                             4.5
                                                                                             297,
                                                                                             301 ,
                                                                                       1     4
                                                                                     4.9   5.4
                                                                                        310.  301
                                                                                     4     4     4     4
                                                                                   6.3   5.4   5.4   4.5
                                                                        296.  295.  294.  294.  293.  292.
                                                                        290.  294.  293.  298.  299.  300.
                                                                        790.  294.  293.  298.  299.  300.
JYR = 75 IMO= 7 J[)AY = 18P
ISTAR= 444444431111'
AWS = 4.5 3.6 4.0 2.2 2.2 4.0 5.8 4.0 3.6 2.7 7.7 4.-? 5. ft '
TEMP* 292. 7<»t. 291. 290. 290. 289. 290. 291. 292. 794. 296. 296. ?96. '.
AFV = 310. 302. 291. 3O6. 302. 319. 328. 32«. 293. 302. 316. 300. 300. :
»cuo. -itn *m •><}« ™« 107. 319. 328. 378. 293. 302. 316. 300. 300. '.
1
'.9
1
4.9
1
5.8
295.
310.
310.
1
4.9
294.
302.
302.
1
4.9
1
4.5
294.
290.
790.
4
4.0
4
3.1
4
4.0
291.
288.
288.
4
4.9
291.
293.
29 J.
4
4.0
289.
300.
300.
      H r » n « jiv'ft j \f f. • <•»»•  ji-«-i»  *"«.»  *•-•  - - • • -  —  -  -   -  -  --             rtrt«
      HLHls  450.  450.  450.   450.   450.   450.   556.   663.   769.   875.   981.
            ..„,.  .,««   .inn   nnn   unn   Mnn.  MHO.  MOO.  MOO.  13A0.  MOO. MOO.
-------
      JYR=75  IMO=  7  JDAY=200
      1STAB=   4444
      AWS=  6.7  B.9   P.9   B.9
                 792.  7«2.  29?.
AFV=  350.
AFVR= 350.
Ht,Hls 1100.
                         0.
                         0.
  4333
9.8 10.3 10.3  9.4
79?. 797. 293. 294.
       0.   0.   0.
0.
0.
                                        0.
                                                  0.
                   1100.  1100.  1100.  1100.  1100.  1154.  120B.  1761.  131S.
  3211172233
9.4  9.4  8.1  8.9  B.I  B.9  9.4  B.9   8.9   7.6
294. 794. 796. 797. 297. 2'»Q. 299. 799.  2«9.  29B.
  0.   0.   0.   0.   0.   O.   0. 350.  350.    0.
  0.   0.   0.   0.   0.   0.   0.350.350.    0.
                     369
                                                                         1 473.
             1476".  1530.  1530.  1530.  1530.  1530.  1510.  1530.  1530.  1530. 1530. 1V30.
                                                                                                   333444
                                                                                                 fl.9  6.7  6.7  8.1  B.9  9.0
                                                                                                 797. 297. 797. 795. 296. 296.
                                                                                                 340. 340.   0.   0.   0.   0.
                                                                                                 340. 340.   0.   0.   0.   0.
JYR=75 IMfl= 9
JSTA«=  i    44
AWS =  «.5  9.R 10.7
                              4     344433333333    3    333333
                            9.B  10.7  11.7  12.5  12.5  t2.1  11.6  11.3 14.3 15.7 13.9 13.9 13.9 13.4 12.5 11.6  12.1  11.7.  11.6  10.7
      TEMP =  2H7.  2R6.  2«7.  2B6.  786.  2B6.  786.  2B6.  2B6.  286.  2B6.  2B6.  286. 786. 296. 7f»7. 2B7. 287. 287. 287.  287.  7B7.
      AFV =   315.  312.  316.  314.  313.  315.  320.  311.  315.  311.  310.  315.  313. 314. 313. 314. 320. 319. 317. 320.  323.  324,
      AFVR=  315.  312.  316.  314.  313,.  315.  320.  311.  315.  311.  310.  315.  313. 314. 313. 314. 320. 3J9. 317. 320.  323.  324.
      HLH1=  600.   600.   600.   600.   600.   600.   171.   543.   514.   4«5.   456.  428.
             399.   370.   370.   370.   370.   370.   370.   370.   370.   370.   370.  370.
                                                                                                                            4
                                                                                                                          9.4
                                                                                                                     2B7. 287.
                                                                                                                     321. 330.
                                                                                                                     321. 330,
CXI
I
en
ro
      JYR=75  110= 9 ,)nAY*267
      IST«R=   33333333333
      AHS=  9.4  10.7  11.6  13.4   9.fl   8.1   B.9  10.7  10.3  10.3  10.7
      TEMPs 2B2. 282. 282.  282.  281.  282.  281.  7B2.  282.  782.  282.  7B7.
      AFV =  24B. 242. 738.  258.  263.  238.  235.  246.  250.  250.  250.  755.
      AFVR = 248. 247. 739.  258.  263.  238.  235.  246.  250.  250*  250.  255.
      HMM= 1400. 1400.  1400.  1400.  1400.  1400.  1745.  1090.   935.   7BO.
              315.  160.  160.   160.   160.   160.   160.   160.   160.   160.
                                                                3333333333333
                                                              9.4   9.9   8.5   9.4  10.7  10.7  9.B 10.7  9.8 11.2 10.3 10.3 10.3
                                                                   282.  283.  282.  282.  282.  2B2. 287. 283. 2B3. 283. 284. 283.
                                                                   250.  247.  747.  247.  250.  253. 259. 258. 263. 266. 266. 272.
                                                                   250.  247.  247.  247.  250.  253. 259. 258. 263. 266. 266. 277.
                                                                   625.   470.
                                                                   160.   160.
          75 JMO=!2 ,)DAY =
      ISTAf} =  333373.33332222
      AWS= 14.3 14.8 12.5  12.5  15.2  14.8  12.1  12.5  13.9  13.9  15.2  13.9  11.6  13.4
      TEMP= 279. 276. 274. 772.  271.  270.  269.  269.  269.  2B8.  268.  269.  269.  269.
      AFV=   87.  89.  84.  91.   89.   86.   85.   80.   83.   «6.   fll.   94.   93.   87.
      AFVRs  87.  89.  84.  91.   89.   86.   85.   80.   83.   B6.   fll.   84.   93.   82.
      HLHl= 1800. 1BOO. 1800.  1BOO.  1800.  1800.  1775.  1750.  1725.  1700.  1675.  1650.
            1625. 1600. 1600.  1600.  1600.  1600.  1600.  1600.  1600.  1600.  1600.  1600.
7.
0.7
270.
81.
81.
3
9.fl
269.
90.
90.
3
9.4
269.
89.
89.
3
7.6
.268.
87.
87.
3
t.6
283.
82.
82.
3
7.6
263.
65.
85.
4
8.9
283.
68.
88.
4
6.7
283.
92.
92.
4
5.8
283.
85.
85.
4
4.9
283
fll
81
      YEAR BASED ON  20. DAYS
-------
PENN. ELFC. REWARD


                               NOM--RO2

   MAXIMUM MEAN cnwc=   6.5408E-05   DIRECTIONS   B   DISTANCES  2.0 KM
 RANSF.
               ANNUAL  MEAN CONCENTRATION  AT  FACH  RECEPTOR
          1.2 KM          2.1  KM         2.8  KM          3.7 KM
5.2 KM













CO
1
en
CO


















OIR
1
2
3
4
6
7
B
9
10
11
2
3
4
5
6
7
B
19
20
21
22
23
24
25
26
27
28
29
30
31
3?
33
34
35
36
5.27069E-05
5.21533E-05
S.20235E-05
5.70320E-05
S.2B505E-05
S.25.257H3f>05
5.21253E-05
5.201 6-0 K- 05
5.20012E-05
5.20000E-05
5.20000F-05
5.20000F.-05
5.20000E-05
5.20026E-05
5.20772E-05
5.21430E-05
5.23B54E-05
5.2432«E-05
5.3147HE-05
5.48555E-05
5. 71047E-05
5.B0213E-05
5.72512E-05
5.55153E-05
5.28737E-05
5.^4534E-05
5. 3014BE-OS
5. 15560E-05
5.23741E-05
5.20540E-05
5.200B4E-05
5.20335E-05
5.44002E-05
5.37327E-05
5.72500E-05
6.355BOE-05
5.46317E-05,
5.6340T-05
5.73737E-05
5.49506E-05
5.29571E-05
5.27520E-05
5.2047BE-05
5.20051E-05
5.20003E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.70059E-05
5.J4357E-05
5.26fiO"5E-05
5.36179E-05
5.27571E-05
5.26fl4flE-05
5.36551E-05
5. 61 105E-05
5.696R1F-05
5.74561F-05
5.7246HE-05
5.24027E-05
5.2416'iE-05
5.26471F-05
5.36 151E-05
5.22006E-05
5.20302E-05
5.2015^-05
5.20208E-05
5.46240E-05
5. 13477E-05
5.7B117005
6.540H4F-05
5.48725E-05
5.66779F-05
5.77146F-05
5.48839E-05
5.26993F-05
5.71516E-05
5.20269E-05
5.20026E-05
5.20001E-05
5.20000E-05
5.20000F-05
5.20000F-05
5.20000F-05
5.20044F -05
5.2567BF-05
5.27933F-05
5.3"442E-05
H.2B226F-05
^.251 30F-05
5. J7327F-05
5.62063F-05
5.64626F-05
5.70754E-05
5.750B5F-05
5.72447F-05
5.24634E-05
5.2M97E-05
5. 3654BE-05
5.21102E-05
5.20167E-05
5.20460E-05
5.20102F-05
5.4413BF.-05
5.32!»q5F-05
5.75H2F-05
6.51343F.-05
5.47973E-05
5.63546E-05
5.73431E-05
5.464S1F-05
5.24963E-05
5.208B3E-05
5.70146E-05
5.20013F-05
5.20001F-05
5.20000F-05
5.20000E-05
5.20000E-05
5.70000E-05
5.20074F-05
5.25872F-05
5.27657F-05
5.3flfl3'»F-05
5.27615F-05
5.23737F-05
5.29557E-05
5.6301 3F-05
5.57911E-05
5.62951E-05
5.705RPF-05
5.21414E-05
5.74617F-05
5.24094F-05
5.35240F-05
5.20599F-05
5.20079E-05
5.21013E-05
5.20031E-OS
5.383BOE-05
5.29B16E-05
5.63698E-05
6.76B08E-05
5.42975E-05
5.53BOOF-05
5.62136F.-05
5.41357E-05
5.23078F-05
5.70433E-05
5.70066E-05
5.20005E-05
5.20000E-05
5.20000E-05
5.20000E-05
5.20000F-05
S .20000F-05
5.20008F-05
5.74803F-05
5.26043E-05
5.3S056F.-05
5.25976F-05
5.22447E-05
5.27060F-05
5.59450E-05
5.4B169F-05
5.5.1464E-05
5.59337E-05
5.20709F-05
5.23841F-05
5.22717E-05
S.31B76F-05
-------
    PF.NN.  FLF.C. KF.HARD







                                      NOM--Sn2




YF.ARLY  MAXIMUM 24-HOUR  CONC =   1 . 05QBF.-04  DIRECTIONS DO.   DISTANCF.=  2.1  KM







                HIGHEST  24-HOUR  CONCENTRATION  AT  EACH RECEPTOR
DAY = 57.
RANGE 1.2 KM
01 R
}
2
3
4
5
6
7
8
9
10
11
2
3
4
5
6
7
8
9
20
21
22
21
24
25
26
27
28
29
30
31
32
33
34
35
36

6.61 JhE-OS
5.5066E-05
5.2470F.-05
5.259SF.-05
6.8/69F.-05
5.7011E-05
6.9416E-05
8.5997E-05
6.7543F.-05
7.200RK-05
8.7141F-05
fl.H21F.E-05
7.B732E-05
6.2612E-05
200
200
200
56
56
56
57
135 )
315 1
96 )
96 )
103 )
103 )
103 )
5.4420E-05 ( 103 )
5.2116E-05 ( 103 )
5.2023E-05 ( 103 )
5.2001F.-05 ( 101 )
5.2000R-05 ( 7 )
5.2000E-05
5.2000F.-05
5.2052E-05
5.3541F.-05
5.4779C-05
5.8758E-05
5.6029E-05
6.537BE-05
8.0H2E-05
8.9386E-05
9.3241E-05
7.4690E-05
8.5179E-05
7 )
267 )
267 )
267 )
267 )
267 )
187 )
187 )
187 )
1B7 )
120 )
120 )
77 )
6.2132E-05 ( 77 )
5.7968E-05 ( 200 )
7.1889E-05 ( 200 )
B.30H7E-05 ( 200 )
2.1 KM 2.8 KM

5.8481F-01 200 ) 5.6013F.-OS
5.1080E-05 200 ) 5.2603E-05
5.2140E-05 200 ) 5.2246E-OS
5.2660E-05 56 ) 5.2409E-05
9.9836E-05 56 ) 1.04JBE-04
6.5056F.-05 56 ) 6.6501E-05
8.5515E-05 26 ) 8.7175F-05
1.059BE-04 S7 ) 1.0569E-04
6.5403E-05 115 ) 7.0943E-05
8.9572E-05 *2 ) 9.7857E-05
8.6807E-05 ( 94 ) 9.0483E-05
7.2219E-05 ( 101 ) 7.1371E-05
6.5619E-05 ( 10.1 ) 6.0773E-05
5.6724E-05
5.2937E-05
5.2102E-05
5.2006F-05
5.2000E-05
5.2000E-05
5.2000E-05
5.2000E-05
5.2118E-05
6.0713E-05
6.5187E-05
8.4016E-05
6.4496E-05
5.8598E-05
6.7783F.-05
7.6941E-05
1 .0087E-04
9.B260E-05
9.5770E-05
101 ) 5.4860F.-05
t03 ) 5.2529E-05
101 ) 5.2052E-05
103
101
7
•j
7
267
267
267
267
267
IB7
187
187
120
261
77
5.6455F.-05 C 77
5.9272F.-05 ( 200
6.483IE-05 ( 200
8.4295E-05 ( 200
5.2003E-05
5.2000F-05
5.2000E-05
5.2000E-05
5.2000E-05
5.20H8C-05
6.3356E-05
6.7B54E-05
9..0701F.-05
6.6960E-05
5.6115E-05
6.2402E-05
8.9412E-05
1 .021 1E-04
1 .0179E-04
9.3295E-05
5.4670E-05
6.06R4E-05
6.2336E-OS
B.5093E-05
3.7 KM

{ 200 ) 5.4183F-05
( 200 5.2330E-05
( 7 5.2BR3E-05
( 56 5.2198E-05
( 56 1.0022F.-04
( 56 6.573IF-05
( 76 B.40I3F-05
( 57 1.0002E-04
( 37 ) 7.5773E-05
( 62 ) 9.7591E-05
( 96 ) V9.0914E-05
( 94 ) 7.0472E-05
( 103 ) 5.7444F-05
( 103 ) 5.3675F.-05
( 103 ) 5.2289F-05
{ 103 ) 5.2076E-OS
( 10.3 ) 5.2001E-05
( 103 > 5.2000F.-05
( 7 ) 5.2000E-05
( 7
( 7
( 267
C 267
( 267
( 267
( 267
( 187
( 187
( 177
{ 120
( 761
( 77
( 77
f 200
5.2000E-05
5.2000F.-05
5.2048E-05
6.3644F-05
6.7110E-05
8.9574F.-05
6.6423F.-05
5.5595F.-05
5.B716E-05
1 .0170E-04
9.7I77F-05
9.6845E-05
9.315PF-05
5.35SBE-05
6.091 2E-05
( 200 ) 6.001BE-05
( 200 ) B.2479E-05
5.

200 ) 5
200 ) 5
7 J 5
56 } 5
56 ) 8
56 ) 6
14 ) 8
{ 335 ) 8
( 37 ) 7
( 62 ) 8
( 96 ) 8
( 94
( 103
( 103
( 103
( 103
( 103
( 103
( 7
( 7
( 7
( 267
( 267
( 267
( 267
{ 267
( 267
( 177
( 177
( 120
f 261
( 117
6
5
5
5
5
5
5
5
5
S
5
6
6
8
6
5
5
1
8
8
*
( 77 ) 5
( 200 1 5
{ 200 1 5
( 200 ) 7
2 KM

.319BE-05 { 200 )
.2155E-05 { 200 )
.401IE-05
.2059E-05
.B744E-05
.2B37E-05
.0481E-05
.9524E-05
.5122E-05
.B830E-05
.5590F.-05
.6962E-05
.4902E-05
.2875F.-05
.2130E-05
.20IOE-05
.2000E-05
.2000E-05
.2000E-05
.2000F-05
.2000E-05
.2015E-05
.1607E-05
.4085E-05
.2071E-05
.3538E-05
.4870E-05
.9328E-05
.0393E-04
.6142E-05
.5394E-05
.6141E-05
.2818E-05
.9521E-05
7 )
56 )
56 )
56 )
14 )
37 )
37 )
62 )
96 )
96 )
94 )
103 )
103 )
103 )
103 )
103 )
7 )
7 )
7 )
267 )
267 )
267 )
267 )
267 )
267 )
177 )
177 )
120 )
261 )
137 )
77 )
200 )
.7421E-05 ( 200 )
.5652F-05 ( 200 )
-------
    PENH. ELEf.  SEWARD







                                    NOM--S02




YEARLY MAXIMUM  3-HOUR CONC=  1.6494E-04   DIRECTIONS  0.  OISTANCE=   1.2
HOUR=1500.
HIGH6ST 3-HOUR COMC6NTRATION AT
RANG6 1.2
OIK
t
2
3
4
5
6
7
8
9
10
11
12
13
t 4
15
16
17
1R
19
20
21
22
23
24
25
26
27
2*
29
30
31
32
33
34
35
36

1 .0798E-04
7.2216E-05
5.5702E-05
5.36556-05
9. 81826-05
7.0028E-05
1.12186-04
1 .4017E-04
1.1977E-04
1 .26966-04
1 .47476-04
1 .4492E-04
1.24376-04
B. 91286-05
6.27706-05
5.37276-05
5.2149E-05
5.20066-05
5.20006-05
5.20006-05
5.2000E-05
5.22686-05
5.98116-05
6.13746-05
6.77076-05
7.89736-05
.26696-04
.568HE-04
.47766-04
.50436-04
.53976-04
.21386-0*

. 34206-05
.32176-04
.64946-04
KM 2.1 KM

200 ) 7.78096-05 ( 200
200 ) 5.92R66-05 ( 200
200 ) 5.3110E-05
56 ) 5.3306E-05
56 ) 1.46336-04
56 ) 8.4330E-05
57 ) 1.4495E-04
335 ) 1.4645E-04
335 ) 1.12946-04
62 ) 1.42176-04.

( 103
( 103
( 103
( 103
( 103
( 103
( 103
( 335
( 335
f 267
( 267
( 267
( 267
1.4395E-04
1.05936-04
R. 81306-05
6.83R66-05
5.63126-05
5.25866-05
5.2040E-05
5.20016-05
5.20006-05
5.2000E-05
5.20006-05
5.25446-05
9.1657E-05
1.02766-04
( 761 ) 1.31426-04
( 187 ) 1.23576-04
( 187 ) 9.01386-05
200
56
56
56
57
57
26
94
94
94
103
103
103
103
103
103
335
335
335
267
267
267
267
267
1B7
( 187 1 1.07566-04 t 187
( 187 ) 1.13896-04 ( IBS
( 120 ) 1.40MF-04 ( 120
( 137 ) 1.50H46-04 ( 261
( 77 ) 1.47736-04 { 77
( 77 ) 6.60736-05 ( 77
( 200 ) 9.19806-05 ( 200
( 200 ) 1.1157E-04 ( 200
( 200 ) 1.35076-04 ( 200
EACH


)
)
)
)
)
)
)
)
J
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
>
)
)
)
)
)
)
)
)
)
)
)
R6CEPTOR
2.8 KM

6.79466-05 ( 200 )
5.61646-05
5.3964E-05
5.27406-05
1 .46456-04
8.41556-05
1. 46006-04
1 .48256-04
1.26706-04
1 .43766-04
1.42966-04
1.14326-04
8.28136-05
6.2037E-05
5.45006-05
5.2310E-05
5.201BE-05
200 )
7 )
56 )
56 )
26 )
26 )
335 )
56 )
94 )
94 T
94 )
94 )
103 )
103 )
103
103
5.20016-05 ( 103
5.20006-05 ( 335
5.20006-05 ( 335
5.2000E-05 ( 335
5.24466-05 ( 267
1.09186-04 ( 767
1.15396-04 { 767
1.48706-04 ( 767
1.37716-04 ( 267
8.17396-05 ( 267 )
8.82426-05 ( 187 )
1.30206-04 { 177 )
.51066-04 ( 120 }
.52496-04 ( 261 )
.53256-04 ( 261 )
6.04<»16-05 ( 77 )
.10656-04 t 200 )
.07B6E-04 ( 200 )
. 53)46-04 f 200 )

3.7 KM

6.15226-05 (
5.43*26-05 {
5.90636-05 (
5.2366E-05 (
1.40896-04 (
8.21556-05 {
.40786-04 (
.43096-04 (
.3712E-04 (
.39286-04 (
.40546-04 (
1.14446-04 (
8.160P6-05 C
5.79906-05 (
5.3407E-05 (
5.71596-05 {
5.200BF-05 (
5.20006-05 (
5.20006-05 (
5.70006-05 (
5.20006-05 (
5.72566-05 (
1.14216-04 (
1.14746-04 (
1.46*36-04 (
1.34666-04 (
8.05266-05 (
9.91176-05 (
1.44766-04 (
.46266-04 (
.45706-04 (
.4R906-04 {
5.70046-05 (
.17086-04 (
.00206-04 (
1.50796-04 (



200 )
200 )
7 )
56 1
56 )
56 )
26 )
7 )
56 )
62 )
94 )
96 )
94 )
103 )
103 )
103 )
103 )
103 1
33S )
335 )
335 )
267 )
267 )
267 )
267 )
267 )
267 )
177 )
177 )
120 )
120 t
1 37 )
77 )
200 )
200 )
200 )

5.2 KM

5.6812E-05 (
5.31396-05 (
6.8085F-05 (
5. 21126-05 (
1.2211E-04 (
7.8681E-05 (
.27426-04 (
.33616-04 (
.31896-04 (
.26306-04 (
.34416-04 (
.03646-04 (
7.51116-05 (
5.5036E-05 (
5.26596-05 (
5.2065E-05 (
5.20036-05 (
5.2000E-05 (
5.2000E-05 (
5.2000E-05 (
5. 20006-05 <
5.2086E-05 (
.05556-04 (
.02116-04 (
.30066-04
.18616-04
.4887E-05
.07246-04
.4700E-04
.37596-04
.27656-04
.3641E-04
5.4613E-05
1.09186-04
8. 73596-05
1 .30526-04



200 )
200 )
7 )
56 )
56 )
56 )
14 )
335 )
37 )
62 )
96 )
96 )
94 )
103 )
103 )
103 )
103 )
103 )
335 )
335 )
335 )
267 )
267 )
267 )
267 )
267 )
267 )
177 )
177 )
137 )
120 )
137 )
77 )
700 )
200 )
200 )
-------
                                                        MAXIMUM  OMLV  CONCENTRATIONS
DAY

 57
177
120
261
 62
 37
 77
1J7
 14
  7
 76
 96
267
 94
1B7
103
IBB
200
                                                   24-HOUR CONCENTRATION     DIRECTION
                                                          .059BE-04              1
                                                          .043BE-04              5
                                                          .043JE-04              1
                                                          .0303C-04             29
                                                          .0213S-04             10
                                                          .OI79F-04             31
                                                         <>.7B57K-05             10
                                                         9.5799E-05              B
                                                         9.5770E-05             32
                                                         9.315BE-05             32
                                                         9.251IE-05              B
                                                         9.2072E-05              8
                                                         9.1033C-05              fl
                                                         9.0934E-05             11
                                                         9.0701E-05             25
                                                         9.007BE-05             11
                                                         B.9396E-05             29
                                                         8.B216E-05             12
                                                         8. 63316-05             29
                                                         0.50931-05             36
                                                                                         DISTANCE
2.07
2.75
2.75
5.21
2.75
2.75
2.75
3.65
2.07
3.65
3.65
3.65
2.75
3.65
2.75
2.75
1.17
1.17
1.17
2.75
CXI

in
-------
 Tennessee  VAU.FY AUTHORITY  -  KINGSTON  POWER
 SOLVENT  RFFINF.D COAL STUDY

 KINGSTON PLAMT 1">75
              I   ITAP,IPUN=  0  0
   IHATA,l«AX,ILnTS= 000
 IOHGT=  ?    WHRTs <»t.O  NST=  •
 NPOLr 2    JTAR= 1   INPUT= 2
 NSEAs 1    CCONV=   0.304P006
SlfTF= 1.0   FIV=  3.0
TAF- 0.60
                                     RACKfiRs
                                                 40.0
 DAY--   1
         1
         1
         I
                                                          t   t
                                                          t   1
03
I
tn
-------
PLANT ELEVATION (FEET ABOVE SEA LEVEL)--      775.0

    RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)

DIRECTION   RIUfiKl   RINGiT.   RIM(5»3   PINGI4   PINGI5
1
2
3
4
5
6
7
8
9
to
t 1
1?
13
1»
IS
16
17
18
CO 19
' 20
cn 21
00 2?
23
74
25
76
27
28
29
10
31
12
33
34
35
36
STACK 1
STACK t
STACK

1
2
760.0
760.0
755.0
750.0
750.0
740.0
700.0
820.0
860. 0
B90.0
920.0
850.0
7RO.O
750.0
740.0
730.0
730.0
740.0
740.0
740.0
730.0
760.0
760.0
760.0
760.0
760.0
760.0
760.0
7*0.0
7BO.O
790.0
H05.0
795.0
805.0
770.0
755.0
1--KTNRSTON
2--KINHSTON
STRATEGY
TYPE
NOM
MOM
750.0 760.0
750.0 1120.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1020.0
780.0 920.0
920.0 BBO.O
B30.0 720.0
740.0 720.0
720.0 7fiO.O
740.0 720.0
720.0 960.0
740.0 1150.0
900.0 1020.0
BOO.O 1060.0
900.0 1020.0
960.0 1020.0
820.0 720.0
760.0 970.0
720.0 9BO.O
780.0 920.0
860.0 1100.0
840.0 1100.0
760.0 820.0
7BO.O 840.0
600.0 1000.0
900.0 1040.0
1060.0 B90.0
1160.0 1060.0
1080.0 1100.0
1120.0 1040.0
1140.0 1020.0
1010.0 1020.0
1020.0 830.0
760.0 800.0
sTACKsii-4. NORMAL
STACKSI5-9, NORMAL
SO? EMISSION RATE
(RMS/SEC)
410.00
720.00
970.0
B75.0
800.0
1100.0
900.0
1160.0
1000.0
1060.0
1000.0
800.0
960.0
1070.0
1060.0
1020.0
800.0
7BO.O
1010.0
1070.0
800.0
720.0
720.0
BOO.O
1040.0
950.0
1100.0
1140.0
1140.0
1100.0
900.0
1060.0
1100.0
1040.0
1020.0
1000.0
looo.o
1040.0
POWP.R
POWER
PART



1300.0
960.0
1000.0
1100.0
lOfiO.O
jooo.o
1100.0
BOO.O
960.0
920.0
1070.0
lono.O
lonOjO
1000.0
1070.0
940.0
720.0
900.0
790.0
1040.0
750.0
980.0
1070.0
760.0
900.0
740.0
BOO.O
1200.0
1400.0
1400.0
1100.0
1100.0
1 100.0
1400.0
1500.0
1600.0
bOAD-COM. NOX
LOAD-COAL NOX
EMISSION RATF HFIRHT DIAMETER EXIT VELOCITY TEMP
(GMS/SEC1 (METERS) (METERS) (M/SEC) (DEG.K)
0.00 76.70 4.27 10.90 416.00
0.00 91.44 5.03 10.50 414.00
                                                                                                              VOLUMETRIC  FLOH
                                                                                                                (M**3/8EC)

                                                                                                                   156.09

                                                                                                                   20B.65
  RANGE(KM)a   0.71    1.33    2.49    4.65    P.69
  SEASONAL VARIATIONS  RY CASE •
           1   1.07    I.08    1.74    1.13    1.07
I .04
       0.91
0.74
O.H3
0.93   1.07
YEAR RAKED ON  365. DAYS
-------
TENNESSEE VALLEY AUTHORITY - KINGSTON POWER  PLANT


                                NOM--S02

   MAXIMUM MEAN CONC=  S.BBPSE-OS   DIRECTIONS  36   DISTANCE*  0.7
               ANNUAL  MEAN C1NCENTRATTON  AT  EACH  RECEPTOR
 RAN3E    0.7 KM          1.3  KM         2.5  KM          4.7 KM
8.7 KM















CD
1
cn
vo


















OIR
1
2
3
4
5
6
7
8
9
10
11
1?
13
14
15
16
17
IS
19
20
21
21
23
24
25
26
27
28
29
30
31
3?
33
34
35
36
5.72476E-05 5.57601E-05
•5.B1049E-05 5.50517E-05
5.9S681E-05 5.633J4E-05
6.00414E-05 5.66200E-05
.67126E-05 5.37491E-05
.07740E-05 4.H5775E-05
.62901E-05 4.51079E-05
.44738E-05
.41206E-05
.41224E-0-S
.43355E-05
.45124E-OS
.54911E-05
4.79723E-05
5.16218E-05
5.43510E-05
5.26055E-05
4.78689E-05
4.43000E-05
4.31601E-OS
4.36894E-05
4.45208E-0'5
4.45I63E-05
4.3S789E-05
4.25901C-05
4.213B6E-05
4.21542E-05
4.215S1E-05
4.18224E-05
4.136S1E-OS
4. t08?OC-05
4.13727E-05
4.28874E-05
4.S7259E-05
4.88620E-05
.36317E-05
.30451E-05 ,
.31634E-05
.31403E-05
.32987F-05
.39153E-05
.57680E-05
.85513E-05
.13169E-05
.98042E-05
.60371E-05
.33S24E-05
.29328E-05
.40fi53E-05
.53t«9E-05
.56668E-05
.4786-5E-05
.35173E-05
.27781E-05
.2B255E-05
.28894E-05
.24603E-05
.19500E-05
.142<»«E-05
.14260E-05
.30794E-05
.65389E-05
.98765F-05
6.88864E-05 6.86292E-05
5.24057E-05
5.07823E-05
5.25911E-05
5.18349E-05
5.01207F.-05
4.61R98E-05
4.38843C-05
4.28714E-05
4.20786E-05
4.21989E-05
4.21645E-05
4.76662E-05
.774ft'»E-05 .47658E-05
.74694E-05 .51860E-05
.96707F-05 .69092E-05
.82718E-05 .59424E-05
.74367E-05 .5473SE-05
.46511E-05 .18357E-05
.2874fi«T-05 .2269BE-05
.25241E-05 .19397E-05
.I7526F-05 .11158E-05
.18931E-05 .14709E-05
.18556E-05 .13815E-05
.28055E-05 .2284BE-05
4.30927E-05 4.29290F-05 .20943F-05
4.44705F-05 4.40276E-05 4.29227E-05
4.68301E-05 4.62271E-05 4.42878C-05
5.20781E-05 5.25767E-05 4.86278E-05
4.78841F-05 4.69556E-05 4.50796E-05
4.44S63E-05 4.32008F-05 4.21554E-05
4.74005E-05 4.1680IF-05 4.12581E-05
4.22039E-05 4.13680E-05 4.09700E-05
4.35246E-05 4.261J4E-05 4.188«iaE-05
4.49253E-05 4.38754E-05 4.31963E-05
4.557UE-05 4.42826E-05 4.35780R-05
4.50072E-05 4.39286E-05 4.32871E-05
4.1R581F-05 4.33633E-05 4.27313E-05
4.26469F-05 4.177H3E-05 4.I3063E-05
4.28412E-05 4.21489E-05 4.19457R-05
4.28747F-05 4.20395F-05 4.15889E-OS
4.23261E-05 4.l614Blv-05 4.13186E-05
4.2»46«F:-05 4.I55J3F-05 4.I2004E-05
4.17631F-05
4.14644E-05 4.11fi80E-05
4.17313F-05 4.08652F-05 4.06726E-05
4.25464E-05
4.58092E-05
4.16649E-05 4.12372E-05
4.3618RF-05 4.24225E-05
4.8S847E-05 4 . 574 3KF.-05 4 . 4 1 S3filv-05
6.30874F-05 S . 4 1 5 19E-05 4.83723E-05
-------
    TENNESSEE VALLEY AUTHORITY  -  KTMGRTON  POWER  PUNT







                                    NOM--S02




YEARLY MAXIMUM 24-HOUR CONC*  4.499BE-04   PIRECTION=360.   DISTANCE*  1.3 KM  DAY=315.
HIGHEST 24-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE 0.7 KM I.I KM 2.5 KM 4.7 KM 8.7 KM
Din
t 2.5059E-01 ( 29B
2 3.0439K-04 ( 398
3 2.7411E-04 ( 293
4 3.0010E-04 ( 292
5 3.2297E-04 ( 340
6 2.4768E-04 ( 330
7 1.84H7E-04 ( 330
8 2.1177E-04 ( 306
9 2.3905E-04 ( 295
10 2.38/6E-04 ( 295
11 2.1936E-04 ( 295
12 2.0543E-04 ( 295
13 7.2612E-04 ( 307
14 2.53ME-04 ( 307
15 2.9763E-04 ( 342
00 16 3.7400E-04 ( 331
J_, 17 3.2037E-04 ( 332
CT» 18 2.58&9E-04
0 jg
20
21
22
21
24
25
26
27
28
29
30
31
32
33
34
.7009E-04
.4B33F-01
.6760E-04
.344BE-04
.9847E-04
.flSl3E-01
.5737E-04
.3570E-04
.3326E-04
.6614E-04
.3246E-04
.0125E-04
.1074E-04
. 1824E-04
332
338
338
152
152
152
302
302
317
314
314
314
33
179
179
.0724E-04 ( 179
.2790004 ( 42
35 1.6H55E-04 ( 269
36 4.3939E-04 ( 119
1 .8033E-04
2.2542E-04
I.9061F.-04
2.1460E-04
2.4534E-04
.7168E-04
.2B89E-04
.5690E-04
.3779E-04
.4874E-04
.2759E-04
.9141E-04
.7743E-04
.8697E-04
.9736E-04
2.7671E-04
2.5400E-04
1.8237E-04


















.3435F-04
.18H7E-04
.8B12E-04
.6930E-04
.6S54F-04
.1617E-04
.7175E-04
.2150E-04
.2420E-04
.5856E-04
.7375E-04
.0878E-04
.01 37E-04
.3497F-05
.5073E-05
.2300E-04
.3714E-04
.49QRF-04
315
326
276
292
340
340
306
322
322
2HO
2RO
2BO
307
307
342
331
359
332
3fiO
360
30
152
314
302
302
317
314
314
314
33
33
179
48
297
269
315




























.4601E-04 2R4 ) 1.1455E-04 ( 262 ) 8.4835E-05 ( 341
.6130K-04 326 ) 1.2271E-04 { 37 ) 1.3067E-04 ( 234
.7041E-04 255 ) 2.2637E-04 ( 262 ) 1.7213F-04 ( 234
.6502F-04 ?60 )
.6759E-04 340 )
.3381E-04 187 )
.0786E-04 174 )
.2215E-04 140 )
.0412E-04 243 )
»3307E-04 1 )
.7178E-04 2flO )
.5037E-04 280 )
.30I7E-04 ( 2P7 )
.5214E-04 ( 167 )
.515IE-04 { 222 )
?.7525E-04 ( 241 )
Z.0265E-04 ( 359 )
.I937E-04 { 252 )
*.0|58E-05 ( 252 )
1.B952E-05 ( 193 )
.6697E-04 ( 30 )
.4036E-04 ( 30 )
.3796C-04 ( 317 )
.6445E-04 { 302 )
.231BE-04 { 302 )
.766RE-04 ( 260 ) 1.1974E-04 ( 260
.9012E-04 ( 139 ) 1.3323E-04 ( 139
.0430E-04 ( 238 ) 9.8850E-O5 ( 238
.1633E-04 ( 174 ) 8.8778E-05 ( 174
.8754E-04 ( 140 ) 1.B366E-04 ( 140
.0066E-04 { 174 ) 9.31BIE-05 ( 140
.2437E-04 ( 1 ) 1.0863E-04 ( 140
.2235E-04 ( 780 ) 9.R286E-05 ( 280
.5236E-04 f 2«0 ) I.3506E-04 ( 280
.8130E-04 ( 287 ) I.4285E-04 ( 287
.7I59E-04 ( 167 1 1.5051E-04 ( 192
.4672E-04 ( 167 ) I.33B3E-04 ( 193
J.439PE-04 ( 741
J.3846E-04 { 204
.1851E-04 ( 252
.0110E-04 ( 333
S.9BOOE-05 C 193
.1927E-04 ( 30
.7.789E-04 ( -30
.1TS4E-04 ( 282
.2129E-04 ( 302
.3105E-04 ( 363
J.7498E-05 ( 317 ) 7.22B2E-05 317
.0889E-04 ( 350 ) 8.9931E-05 317
.2383E-04 ( 312 ) 9.5673E-05 312
9.82IIE-05 ( 334 ) 8.7504E-05 125
2.3B73E-04 ( 241
1.7289E-04 ( 204
9.3873E-05 ( 252
8.4665E-05 ( 333
6.2002E-05 ( 119
B.784BE-05 ( 29
1.7638E-04 ( 282
1.513BE-04 ( 282
1.0I72E-04 { 363
1.5486E-04 ( 208 )
6.5935E-05 ( 21 )
I.0052E-04 ( 349 )
6.9418E-05 ( 25 )
7.4869E-05 { 349 )
1.0002E-04 { 297 ) 7.3027E-05 297 ) 6.3786E-05 ( 304 )
9.8I20E-05 ( 285 ) 7.8230E-05 285 ) 8.1987E-05 { 349 )
6.PHC6E-05 ( 334 ) 5.9284E-05 135 ) 6.5523E-05 304 )
9.3493E-05 ( 107 ) B.1700E-05 107 ) 7.2386E-05 16 )
I.3661E-04 ( 16 } 1.07-51E-04 |6 ) 8.3540E-05 16 )
I.2067E-04 { 16 ) 9.0541E-05 31 ) 9.6639E-05 22 )
3.0541E-04 ( 315 ) 1.7000E-04 356 ) 1.0955E-04 116 )
-------
cr>
         TENNESSEE  VALLEY AUTHORITY - KINGSTON POWER  PLANT







                                          NDM--S02




     YEARLY MAXIMUM 3-HOUR CONC=   1.7445F-03  DrRECTION=  0.   DISTANCES   0.7  KM  DAY=308.   HOUR=1«500.


RANGE 0.7
DIft
1
2
3
4
5
6
7
8
9
10
1 1
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
23
29
30
31
32
33
34
35
36

.lb3*F.-03
.2S75E-03
.1015E-03
.3121E-03
.2531003
.OS19E-03
.81 37E-04
.0626E-03
.1879E-03
.0775E-03
1.1486E-03
1 .0401E-03
9.29016-04
1 .1H17O03
9.7163E-04
1.1976E-03
1.0352E-03
1.0178F-03
9.7045C-04
8.8681E-04
8.2777E-04
9.3911E-04
9.5230E-04
8.0401E-04
7.06JIOE-04
6.7578K-04
6.2094E-04
8.3727E-04
6.2094E-04
5.299BO04
5.5634E-04
6.4226E-04
5.7532E-04
7.3416E-04
B.9454E-04
1.7445E-03
HIGHEST
KM

( 321 1
( 293 )
f 255 )
( 292 )
( 325 )
{ 320 )
( 253 )
t 295 )
( 295 )
( 295 )
( 301 )
( 301 )
( 291 )
( 290 )
( 309 )
( 331 )
( 190 1
( 353 )
( 338 1
( 338 )
( 333 )
( 152 )
( 343 )
( 302 )
( 302 )
( 317 )
( 314 )
( 314 )
( 314 )
( 33 )
( 179 )
( 179 )
( 179 )
( 42 )
( 269 )
( 308 )
3-HOUP CONCENTRATION AT EACH RECEPTOR
1.3 KM 2.5 KM

7.7869E-04
8.7727E-04
8.0308E-04
7.9902E-04
7.8439E-04
7.0050E-04
5.7873E-04
8.0251E-04
6.4320E-04
6.6850E-04
7.3216E-04
6.3761F-04
6.3134E-04
7.9601E-04
6.50855-04
7.0977004
8.3957E-04
7.1200F.-04
6.2386E-04
5.5731E-04
7.4608E-04
7.3000E-04
7.2972E-04
7.9942E-04
762 ) 6.0799E-04
326 ) 5.7088E-04
276 ) 5.8634E-04
6 ) 5.5210O04
275 ) 5.0781E-04
320 ) 4.6614O04
322 ) 4.8079E-04
322 ) 4.5095E-04
322 ) 3.6683C-04
236 ) 3.8836E-04
280 ) 4.9579E-04
280 ) 4.4353F-04
291 ) 4.4670E-04
290 ) 4.9301E-04
217 ) 6.2871E-04
256 ) 5.8834004
359 ) 6.3901E-04
281
338
338
333
206
314
302
6.6417E-04 ( 307
5.6')87E-04 ( 317
5.4677E-04 { 314
7.5728E-04 ( 314
5.6260E-04 ( 334
5.8175E-04 ( 33
5.2746E-04 ( 33
4.2114E-04 ( 179
4.8059F-04 ( 48
6.6360E-04 ( 48
7.1951F-04 ( 269
5.1148E-04
3.5676E-04
3.7B26E-04
6.9263E-04
5.7163E-04
5.9306E-04
5.7354E-04
4.2190E-04
4.1061E-04
5.2002E-04
5.1399E-04
4.0071E-04
3.9278E-04
5.0427E-04
2.6585E-04
3.8041004
5.1362E-04
5.4628E-04
1.3084E-03 ( 31<» ) 8.9422E-04



341 )
341 )
294 )
260 )
301 )
187 )
( 207 )
( 180 )
( 327 )
{ 306 )
( 280 )
f 280 )
( 2<»5 )
( 251 )
( 240 )
( 230 )
( 359 )
( 281 )
( 281 )
f 280 )
( 30 )
( 232 )
t 232 )
( 302 )
( 307 )
( 265 )
( 350 )
( 312 )
334 )
285 )
285 )
334 )
107 )
16 )
( 16 )
f 356 )

4.7 KM

5.5171F-04
6.3R17E-04
7.6809E-04
5.1494F-04
5.6330F-04
5.5380E-04
4.2R94O04
6.2968F-04
4.8297E-04
4.6827E-04
4.6R04F-04
4.01 39E-04
4.9636E-04
6.3743E-04
6.2069E-04
7.310BO04
6.0211O04
4.2785E-04
4.8869E-04
2.36S4E-04
4.0832E-04
4.3570E-04
4.8305E-04
4.5661E-04
5.3746F-04
2.227JE-04
3.1594E-04
3.4486E-04
3.10H4004
2.B725E-04
3.4569E-04
1.9427E-04
2.34Q9E-04
3.3369E-04
3.2311E-04
5.7601F-04



( 341
( 341
( 294
( 260
( 139
( 238
( 209
214
174
1
330
217
287
251
217
283
231
252
( 333
( 347
( 29
( 282
( 282
( 127
( 363
( 349
{ 350
( 317
( 125
( 46
( 285
( 135
( 334
f 16
( 168
( 183









)
)
)
)
)
)
)
)
)
)
)
1
)
)










)
)
)
)
)
)

8.7 KM

3.9856E-04 ( 341 )
6.3451E-04 ( 234 )
6.7359E-04 ( 234 )
3.3986E-04 ( 161 )
4.55'»6E-04 ( 141 )
5.1066E-04 ( 238 )
3.1384E-04 { 209 )
4.4209E-04 ( 140 )
4.3608F-04 ( 174 )
3.9523E-04 ( 1 )
3.5261E-04 ( 209 )
4.0841E-04 ( 280 )
5.06B4F-04 ( 192 )
4.4464E-04 ( 251 )
4.8161E-04 ( 193 )
5.0467E-04
4.7255E-04
3.6236E-04
3.7888E-04
2.0092E-04
3.7408E-04
5.7653E-04
5.9864E-04
4.9873E-04
5.3433E-04
2.4726004
3.6069E-04
2.6165E-04
3. 1890E-04
2.3029E-04
3.7589E-04
2.4418E-04
2.2771E-04
3.2347E-04
3.9699O04
4.3497E-04
283 V
342 )
20 )
333 )
358 )
29 )
282
282
283
363
21
349
232
349
304
349 )
304 )
311 )
289 )
289 )
186 )
-------
                                                      MAXIMUM DAILY CONCENTRATIONS
                                          DAY    24-HOUR CONCENTRATION    DIRECTION    DISTANCE

                                          115          4.499BE-04            36           1.33
                                          319          4.3939E-04            16           0.71
                                          SOB          4.071IE-04            36           0.71
                                          3Jt          1.7400E-04            16           0.71
                                          356          3.7232E-04            16           1.33
                                          222          3.4960E-04            16           0.71
                                          241          3.439HE-04            16           4.6-5
                                          294          3.36?9r-04            36           0.71
                                          355          3.32IIE-04            36           1.33
                                          340          3.2297E-04             5           0.71
                                          342          3.2160E-04            16           0.71
                                          332          3.2037E-04            17           0.71
                                          231          3.1657E-04            16           0.71
                                          21B          3.0613C-04            16           0.71
                                          354          3.0606E-04            36           0.71
                                          298          3.0439E-04             2           0.71
                                          292          3.0010E-04             4           0.71
                                          321          2*B991E-04            16           0.7t
                                           17          2iB826E-04            36           0.71
                                          IBS          2t8635E-o4            36           0.71
DO
 i
0>
ro
-------
TENNESSEE VALLEY AUTHORITY - KINGSTON POWER PLANT
SOLVENT REFINED COAL STUDY
STACK »  1--K1NGSTON STACKS«l-4, MAX.LOAD COAL NOX
STACK *  2—KINGSTON STACKSI5-9, MAX.LOAD COAL NOX
STACK STRATEGY S02 EMISSION RATE
TYPE (GMS/SEC)
1 NOM 577.00
2 NOM 905.00
RANGE(KM)s 0.71 1.33 2.49 4.65
SEASONAL VARIATIONS BY CASE *
1 1.00 1.00 1.00 1.00
JYR=75 IMO= 6 JDAY=16B
A«S= 2.9 1.2 1.3 2.5 0.9 1.7
TEMPs 292. 292. 291. 291. 290. 290.
AFV = 305. 295. 334. 323. 26. 236.
AFVR= 305. 295. 334. 323. 26. 238.
1.5
290.
333.
333.
PART
8
1
1.1
290
4
4
EMISSION
(GMS/SEC)
0.00
0.00
.69
.00 1.00
o.e 1.6
. 292. 294
. 317. 358
. 317. 358
RATE
1 .00
2
3.0
. 296.
. 356.
. 356.
HEIGHT
(METERS)
76.20
91.44
1.00
1 1
4.0 4.4
298. 300.
350. 2.
350. 2.
DIAMETER
(METERS)
4.27
5.03
1.00 1.
1 3
5.9 7.0
301. 302.
0. 9.
0. 9.
EX
00
3
6.9
302
30
30
IT VELOCITY
(M/SEC1
14.26
13.66
1.00 1.00
7.1 7.3
. 103. 303.
. 29. 30.
. 29. 30.
TEMP
(OEG.K)
427.40
421.90
7.2 6.6
303. 302.
27. 25.
27. 25.
VOLUMETRIC FLOW
(M*+3/SEC)
204.20
271.44
5.6 5.9
300. 299.
11. 26.
11. 26.
5.9 4.7
298. 296.
29. 51.
29. 51.
HLH1= 2134. 2134. 2134. 2134. 2134. 2134. 2134. 2058. 1982. 1906. 1830. 1754.
      1678. 1602. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524.
DO
1







0> JYR=75 IMO=12 JDAY=336
AWS =
TEMPs
AFV =
AFVRs
HLH1 =

JYR = 7
ISTAH
AWS =
TEMPs
2.6
273.
208.
208.
305
761
6 I MO
= 3
5.0
272.
2.2 1.6
272. 271
239. 259
239. 259
. 305.
. 837.
a 1 .JOAYs
3 4
7.2 7.6
271. 270
1.3
. 271
. 239
. 239
305.
914.
4
3
7.3
. 270
1.0
. 270.
. 129.
. 129.
305.
914.

3
8.7
. 268.
1.0
270.
141.
143.
305.
914.

4
7.9
267.
0.9
270.
16.
16.
305
914

4
7.7
266.
0.5 0.9
269. 270
5. 59
5. 59
. 305.
. 914.

4 3
6.4 6.1
266. 266

1 1
1.8 2.0
. 272. 275.
. 74. 2.
. 74. 2.
381. 457.
914. 914.

1 1
5.4 6.2
. 266. 267.

1
2.8
278.
5«.
58.
531.
914.

1
7.5
267.

1
281.
2.
2.
609
914

1
6.2
268.

1 1
282. 284.
1. 8.
1. 8.
. 685.
. 914.

1 1
5.7 6.3
269. 270.

2
284.
39.
39.



1
6.4
270.

3
284.
38.
38.



5.9
270.


283.
20.
20.



6.4
269.


281.
15.
15.



6.7
268.


279.
54.
54.



8.1
267.


277.
60.
60.



8.6
267.


277.
46.
46.



7.1
266.


2.7
275.
53.
53.



6.2
266.


3.0
275.
83.
83.



6.0
265.
AFV=  154. 162. 152. 143. 162. 150. 165. 168. 168. 169. 160. 171. 167. 162.  176.  178.  163.  163.  162.  162.  161.  163.  178.  179.
AFVR= 154. 162. 152. 141. 162. 150. 165. 168. 168. 169. 160. 173. 167. 162.  176.  178.  163.  163.  162.  162.  161.  163.  178.  179.
HLH1=  400.  400.  400.  400.  400.  400.  400.  438.  476.  514.  552.  590.
       628.  666.  710.  710.  710.  710.  710.  710.  710.  710.  710.  710.
JYP=76 T'10 = 1 JDAY =  8
ISTAP=  44131333321    I    1
AWS=  7.2  8.0 10.6 11.0 10.3 11.2 10.7  8.2  9.6  9.1  9.2  ".0  6.6
TE*IP= 276. 275. 274. 272. 271. 270. 269. 268. 268. 267. 267. 268. 267.
AFV=  147. 142. 153. 158. 167. 160. 164. 163. 163. 163. 161. 161. 165.
AFVRa 147. 142. 153. l5fl. 167. 160. 164. 163. 163. 161. 161. 161. 165.
HLHls  853.  R53.  853.  153.  853.  853.  «51.  86P.  881.  89fl.  913.
       941.  958.  975.  975.  <»75.  975.  975.  975.  975.  975.  975.
  1
6.9
267
167
167
  928.
  975.
  1     1
6.«   7.5
267. 266.
164. 174.
164. 174.
  2    3    34    3    4    4    4
7.2  7.7  5.8  5.9  5.8  6.8  6.1  5.1
266. 265. 264. 264. 264. 263. 262. 262.
164. 150. 163. 164. 151. 150. 150. 150.
164. 150. 163. 164. 151. 150. 150'. 150.
-------
JYR=76
ISI»H=
                   JOAK=
                  13
     AHS= 10.1  8.7 10.6
  JllJJJIIItllll
9.3  7.7  8.9 10.7  8.9  7.7   8.2 10.2 10.6 10.5 10.1 10.2  9.1  8.1
     TCMP= 271. 272. 272. 271. 270. 270. 269. 267. 267. 267. 767. 268. 268. 268. 268. 768. 267.
     AFV =  164. 172. 174. 171. 161. 183. 178. 16B. 162. 161. 174. lit. 166. 167. 163. 161. 162.
     AFVR = 164. 172. 174. 171. 164. 183. 178. 168i 167. 161. 174. 171. 166. 167. 163. 161. 167.
     HLH1*  400.  400.  40O.  400.  400.  400.  400.   477.  454.  481.  508.  535.
            562.  589.  617.  617.  617.  617.  617.   617.  617.  617.  617.  617.
      4444444
    8.1   6.1   5.7  6.1   5.5  4.6  5.7
    267.  267.  267.  266.  26fr. 265. 265.
    166.  168.  168.  170.  171. IBS. 176.
    166.  168.  168.  170.  171. 185. 176.
     JYR=76 IMO= 1 JDAYa 27
     ISTAB=  33333
     ArtS*  6.4  5.7  6.4  7.2  7.6
     TEMP* 775. 275. 275. 274. 274.
     AFV*  170. 162. 163. 16-5. 164.
     AFVR = 170. 167. 163. 165. 164.
     HtHl=  457.  457.  457.  457.
            841.  905.  975.  975.
                                 J333333311I3
                               8.0  8,1  8.9  8.8   8.4  8.1   7.5  8.2  7.5  9.1  6.7  8.0
                               274. 274. 274.  773.  273.  273. 271. 273. 273. 773. 773. 272.
                               165. 166. 164.  166.  165.  167. 169. 160. 164. 157. 163. (56.
                               165. 166. 164.  166.  165.  167. 169* 160. 164. 157. 163. 156.
                               457.  457.  457.   521.   585.   649.  713.  777.
                               975.  975.  975.   975.   975.   975.  975.  975.
      3444444
    7.7   5.7   3.9  2.8  2.3  4.2  6.3
    277.  272.  272.  271. 271. 270. 270.
    176.  176.  170.  168. 165. 165. 170.
    176.  176.  170.  168. 165. 165. 170.
CO
i
     JYR=76 IMOe 3 JDAY= 70
     I3TAB=  44444444333111(11
     AHS=  4.1  4.3  4.1  3.5   3.6   4.4  3.3  2.7  1.4  0.9  1.7  2.4  2.6  2.6  2.5   4.0   4.4
     TEMP = 276. 276. 275. 275.  274.  273. 273. 273. 274. 276. 278. 281. 283. 284. 285.  287.  287.
     AFV =  155. 160. 160. 160.  155.  155.  155. 155. 130.  15.  16.  13.    3.    7.   11.
     AFVR= 155. 160. 160. 160.  155.  155.  155. 155. 130.  15.  16.  13.    3.    7.   13.
              0.    0.    0.     0.    0.    0.    0.  266.  532.  79fl.  1064.  1330.
           1596. 1862. 2134.  2134. 2134.  2134. 2134. 2134. 2134. 2134.  2134.  2134.
                                                                                   8.
                                                                                   8.
17.
17.
                                                                        344444-4
                                                                      3.8  3.9  3.8   1.2   1.0   0.5   0.7
                                                                      287. 286. 285.  283.  282.  280.  279.
                                                                       23.  41.  26.  55.   40.   45.   50.
                                                                       23.  41.  26.  55;   40.   45.   50.
vHR = 76 TMO =

TEMP= 273.
AFV= 268.
AFVR= 268.
HLHlz 0.
1368.
JYR=76 110=
ISTABs 4
AHS = 2.1
TF.MPs 279.
AFV= 61.
AFVR= 61.
3 JDAY= 78

272.
11 .
11.
0
1596

271. 271
74. 77
74. 77
0.
. 1829.

. 271.
. 53.
. 53.
0.
1829.

271»
44.
44.
0.
1829.

771.
53.
53.
0.
1829.

271.
62.
62.
0
1829
3.2
773
53
53
*

t
4.8
. 278
. 44
. 44
228.
. 1829.

4.4
. 282.
. 48.
. 48.
456.
1829.

1
4.5
285.
521
52*
684.
1829J

1
5.0
288.
43.
43.
912
1829
ti
1
6.3 6.0
289. 29l.
40. 43.
40. 43.
. 1140.
. 1829.

2
6.3
291.
21.
21.



6.9
291.
27.
27.



5.6
290.
. 23.
23.



5.9
289.
30.
30.



6.7
288.
25.
25.



6.6
288.
35.
35.



6.8
287.
42.
42.



5.1
286.
42.
42.



4.8
284.
33.
33.


3 JOAY* 84


278.
49.
49.


277. 276
51. 51
51. 51


. 276.
. 48.
. 48.


275.
52.
52.


275.
53.
53.


275.
57.
57.


27C
4?
42
1

. 284
8
8
1

. 787.
4.
4.
1

289.
73.
23.
1

291.
16.
16.
1 t

291. 293.
27. 24.
27. 24.
i

293.
34.
34.


291.
35.
35.


293.
35.
35.


291.
37.
37.


291.
32.
32.


291.
23.
23.


289.
20.
20.


286.
53.
53.
4

285.
50.
50.
     HdHls
              0.
                    0.
                           0.
                                 0.
                                 0.
                                             0.
                                                  0. 1749. 2498. 3747.  4996.  6245.
           7494. 8743. 9999.  9999.  9999.  9999. 9999. 9999. 9999. 9999.  9999.  9999.
     J*R = 76  1*10= 4 JDAY*  94
AW3 = 1.8
TEMP= 281.
AFVa 52.
AFVR= 52.
HliHl= 400.
i •>•>}
1.3 0.9 1.6 1.6 1.6 0.6 0.4 0.9 1.5 2.7
280. 279. 278. 777. 277. 276. 277. 280. 284. 789.
35. 81. 56. 58. 64. 58. 776. 116. 4. 7.
35. 81. 56. 58. 64. 58. 276. 116. 4. 7.
400. 400. 400. 400. 400. 400. 537. 674.
I^IQ t *QQ I4Q4. 14Q9- 14P<)- 1411- 1499. 1499. 1
1
7.7
?P7.
7.
7.
811.
1 499.
1
4.7
295.
3.
3.
94P
1499
t t
"5.3 5.6
7"6. 298.
5. It.
5. It.
. 1085.
. 1199.
1
5.1
298.
49.
49.


1
5.6
298.
20.
20.


4.9 5.1
298. 297.
77. 28.
27. 28.


5.9 6.6
295. 293.
54. 62.
54. 62.


5.9
292.
46.
46.


7.6
291.
52.
52.


5.9
290.
51.
51.


-------
JVH=7>-' 1 •' >= t J'MYsl HI
ISTArts 4444
AWS= 4.5 4.1 5.1 4.1
TF«P = 279. 277. 276. 276
AFV= 1«S. 192. 219. 729
AFVR= 1H6. 192. 219. 22O
HLH1= 0. 0. 0.
1116. 1302. 1493.
JYR=76 113 = 4 JD»Y=105
ISTAB= 4444
' AHS= ?.f> 1.8 1.5 1.9
TF.MP= 283. 283. 282. 280
AFV= 124. 176. 214. 205
' AFVRs 124. 176. 214. 205
HLH1= 0. 0. 0.
1596. 1862. 2134.
t
1 JYR=76 110= 4 JOAY=107
ISTABs 4444
AWS = 3.4 3.6 3.6 2.5
( TEMP= 288. 287. 286. 286
AFV= 58. 62. 54. 40
AFVR= 58. 62. 54. 40
4
. 275.
. 231 .
. 231.
0.
1493.

4
1.1
. 280.
. 60.
. 60.
0.
2134.


4
1.2
. 286.
. 11.
. 11.
4
274.
243.
243.
0.
1493.

4
1.3
280.
55.
55.
0.
2134.


4
0.8
285.
332.
332.
4
274.
243.
243.
0
1493

4
0.7
2«0.
43.
43.
0
2134


4
0.6
285,
2.
2.
4211
27*. 270. 283. 286.
244. ?44. 254. 292.
244. 244. 254. 292.
0. 186. 372.
. 1493. 1493. 1493.

2421
1.2 0.8 1.1 2.0
281. 284. 288. 292.
220. 211. 320. 7.
220. 211. 320. 7.
0. 266. 532.
. 2134. 2134. 2134.


4111
2.2 2.3 2.4 3.9
286. 289. 293. 295.
87. 80. 64. 54.
87. 80. 64i 54.
t
297.
5.
5.
558.
140».

t
2.9
295.
2.
2.
798.
2134.


1
6.1
297.
16.
16.

289.
3.
3.
744
1493

1
3.6
296.
2.
2.
1064
2134


1
6.4
298.
46.
46.
t 1
790. 201.
7. 5.
7. 5.
. 930.
. 1493.

1 2
3.9 2.5
207. 298.
8. 10.
8. 10.
. 1330.
. 2134.


1 1
5.5 4.1
298. 299.
11. 12.
11. 12.
1
3.3
293.
P.
8.



1
3.6
299.
1 1 .
11.




1
4.3
299.
14.
14.
1
3.4
293.
4.
4.



1
3.3
299.
8.
8.




3
4.0
298.
32.
32.
3.6
293.
10.
10.



2
3.3
298.
49.
40.




3
2.8
298.
53.
53.
4
3.7
793.
36.
36.



4
3.8
297.
58.
58.




4
3.6
297.
60.
60.
4
3.7
291.
43.
43.



4
4.8
295.
56.
56.




4
4.2
295.
43.
43.
4
3.B
298.
46.
48.



4
5.4
294.
72.
72.




4
3.3
293.
40.
40.
4
3.8
286.
70.
70.



4
5.3
293.
68.
66.




4
3.3
292.
49.
49.
4
3.0
284.
71 .
71.



4
3.7
292.
74.
74.




4
4.0
291.
35.
35.
4
4.1
283.
55.
55.



4
3.5
291.
54.
54.




4
4.3
269.
32.
32.
    H!.H1=   244.   744.   244.   244.   744.   244.   744.   491.   739.   985.  1232.  1479.
           1726.  1973.  2225.  2225.  2225.  2225.  2225.  2225.  2225.  7275.  2225.  2225.
CTi
cn
JYR=76 IMO= 4 JDAY=117
ISTAB=  3333
AWS-  5.6  6.3  4.3
TEMPs 282. 281
     AFV
           103.  137
            3    3
     4.8  5.1  5.2
281. 280. 280. 279.
124. 137. 146. 146,
     AFVR=  103.  137.  124.  137.  146.  146
  3332211111
4.8  5.1  4.2  4.3  3.7  4.2  5.7  6.4  5.9   4.6
27fl. 279. 279. 279. 279. 280. 281. 287. 283.  284.
160. 159. 164. 166. 167. 170. 166. 1S2. 169.  167.
160. 159. 164. 166. 167. 170. 166. 162. 169.  167.
     tatU=   457.   457.   457.   457.   457.   457.   457.   590.  723.  856.  989. 1122.
           1255.  1388.  1524.  1524.  1524.  1524.  1524.  1524. 1524. 1524. 1524. 1524.
  1    1    4    4    44    4    4
5.1  5.9  4.3  4.2  4.5  1.9  1.7  2.3
285. 295. 284. 283. 282. 280. 279. 278.
167. 162. 178. 212. 214. 237. 206. 213.
167. 162. 178. 212. 214. 237. 206. 213.
     JYR=76  IMOs  4  JDAY=118
     1STAB=   4     4
     AWS=   2.3   2.7
     TEMPs  277.  277
     AFY=   225.  193
     AFVR=  226.  193
     HLH1=   914.   914.	   . .  .
           1142.  1180.  1219.  1219.  1219.  1219.  1219. 1719. 1219. 1219. 1219. 1219.
« I = 1 IB
4 4
36 34
J . o J . ^
276. 276.
188. 202.
188. 202.
. 914. '
4
4.3
275.
190.
190.
M4.
4
5.2
275.
173.
173.
914.
4311111111
4.3 2.5 2.1 2.4 5.0 5.1 3.8 4.4 5.4 5.4
275. 277. 280. 282. 284. 286. 287. 288. 289. 290.
180. 174. 172. 199. 182. 158. 166. 172. 184. 165.
180. 174. 172. 199. 182. 158. 166. 172. 184. 165.
9)4. 914. 952. 990. 1028. 1066. 1104.
1
6.3
290.
178.
178.

3
7.3
289.
175.
175.

4
6.1
288.
179.
179.

4
6.3
287.
170.
170.

4
5.7
286.
182.
182.

4
5.8
285.
182.
182.

4
4.7
283.
186.
186.

4
3.5
263
185
165

JYR=76 1MO= 5 JDAY=126
AWS= 2.0 1.2 1.2 1.5 1.3 0.9 0.4 0.9 1.1 7.9 3.7
TEMPs 280. 279. 279. 771. 27P. 778. 27«. 280. 284. 287. 290.
AFV= 42. 67. 40. 37. 49. 125. 177. 76. 11. 43. 55.
AFVR= 42. 67. 40. 37. 4O. 125. 177. 76. 11. 4*. 55.
HLHla 0. 0. 0. 0. 0. 0. 0. 156. 312.
\
4.8
292.
78.
28.
4«,B.
I
4.3
294.
55.
55.
674
1 1
5.2 5.1
7<»5. 796.
55. 58.
55. 58.
780.
1
4.6
297.
59.
59.

1 3
5.3 4.8
297. 246.
S7. 55.
57. 55.

4
5.6
296.
51.
51.

4
6.3
294.
53.
53.

4
6.4
293.
45.
45.

4
5.8
290.
12.
12.

4
4.1
289.
11.
11.

4
4.4
290
18
IB

            9J6.  1092. 1250. 1250. 1250. 1250, 1250. 1250. 12SO. 1259. 1250.  1250.
-------
m CB v in in
. oo p> r-
Pi PI -< —
« oo p> p-
in o — —
t . .
. CD P* P*
16 PI «• —
f -V lf> Ift f:
• ec P- p-
CB rx «• «•
m 00 in cr er
«oo to tc
p. IN ....
m Pi 1C C" CT
• cc « ie
p- PI "^ ••
...
•• PJ P- C G
' CE tC tC
p- pi — ••
— «• er in in
» cr to tc
«O PJ — —
• er in m
IT Pi — —
i ic P> m in
. 0. *^ ^>
in pi «• o
m PI x •> ec o
pi' pi pi e o • •
« O> P- p- OP P-
m P* — — r* to
ee o
pi in -* p- p-
• cr* w ^ * .
— PI — — O P-
O ^
. . .CD O
•t tr •- o o —
. er ^ v
PJ PJ X ^ . •
PI P-
« •*. C C O P- O
.  e » » tc tc
• o*- V «r p- o
m CM » — M
*P CC C P* P* PI P»
«Pl P- C
» — e «! — . .
. cr P* P» pi P*
NP Pi x£ X9
P- O
» o o in m
• cr in m * •
X xr PI pi r*
•"• tc te
— . . .P. e
n * m e o o «•
>• • cr P* p*
rf f*» PJ . .
c pi ce
"3 » • • <£ PJ
» P- 0 * to p- 0

rx PJ
ii . .
—> ... PI c
— « O* «3 tO p- Cr
-" PI

•~ ec n n u
n « it o. n a. —
Z fc. tC I > > X
» 05 S U U. b. J
"5 ^* * t- < « X
» co m in «
. CC f^ f^
...
. CC XT »
""I cc m m
« Pi- «
«, e» o* m «
. c* w w
•» PI — —
» PicCrln
• er- in in
. "* " — —
» P.« J J
« C* P" P-
» p» •• —«
• « •
*n in ^ «•* •*
. e^ P- P*
w PI - —
— • cc T in in
» ff1 ^ ^
iw PI
. eh m in
...
•" p* ^ WO w?
. e-
f^ CN . •
in P*
. . . tC tN
• o- ••
m p»
• . . O P"
— r- — in in CD rw
. ^ P- m
m pi ••
«• p. c •• •• m p-
. CT1 ** ^ 9 P*
— o in in
v» p* Cf> m m . .
. CP CO GO O P*
^ pi ^ •• «• PJ
«r in
— »•> P- O O
. cc • »
— pi in p-
^ (N
. . • PI m
*n op ^ ^ ^ ~*
• ec ce cc
O P* *• *- • *
0 f
Pi m — m w * in
. CE W « —
e Pi PJ p<
...OP-
^r CD cc m in v c«
« r- to tc m
pi rx •« »• ••
w — cr ec- cc c r-
. p* v v » PJ
Pi Pi — •« IT
T xs er m tr . .
. p- to tc o P-
v« p» v« wii «•• pi
in
« tv cr e e
. p- cc oc * .
O m PJ -• -< o P^
^ ^C* Pi
•^ ... - in
It V w CC- O O •«
>. . p. V W
^ Pi PJ w. ^> . .
e o in
•3 . . . ^ **i
» o- o in in m
m * CD * v *•
v« PJ *M W4
N • •
o . . * o o
IM . co p- r- •«
P4 pi VN «rt v^
«r n
P- er n u u
II « II O. II DC —
OC fr* W Z ^ > S
>• 05 I K t. U. J
r> -< « K. « < s
XF p" ce m m
. s ^ ^
pi PI
. ce o o
pi pi »• »•
. 0 P- p-
m Pi
x» p- Pi. O O
• o» in m
V tN
•«• » m p* «M
• tr« ^ XT
•» P4
» Pi r- o o
» en xr ^v
m tN
* • «
^ •• pfc f*| fvt
. C* ** ^*
*" "
m — • p- o o
. o> •• «•
...
"2£z^
— ^ to ec oc
» o- m m
w rx f^fi * •
o »
* . . in pi
. er •*
PJ PJ
« •• »oW-
— o •» cr cr to p«
• er p- if.
m IN -.
—••"«" P- P- O «•
m pi m m
— >e tNcs es . .
• cr o ^
PI PJ OC Pi
-m in
pi m cr P- p- "™
• oc • .
— Pi O •»
Ot f^t
• • • «• m
f+t & *& p<4 r* *^
• or
C «M * •
o •*
^ ^* PI oc tt m
• OD — — <—
O PI Pi Pi
.« . • e •«•
"» Pi O — • M pi
• oo »n m in
— tN —
«•• pi c « m o xr
- PI «
^^O*O^ • *
• oc o o O «r
o c* *- *- rt
IT)
v o> - • CD O O
*C «« (H  *•• f n
m • oo 9 os •-•
CN O* ** «^
n • •
O ... o O
, 1— . CO O O — «
rx pi ~* •* «*
1C II
P- ec n n n
u *. n Q. 11 ec —
ec *« tc £ > > s
>• tfi X b2 tb U. *3
-a 1-1  m ""
•• cr • *
•« tN •« Pi
T^ r*>
• « • ^» ^
pi ec CD rx p< —
. ce
O Pi . .
c PJ
•w cc ir — — m
. 00 P- P- ~
O Pi •- »•
i . • O Pi
^e* m ^> -«•• ** r*
« co cr en <•>
0 
e pi «
» to •» e>J«r . .
* co in m o PI
^* PJ P"
f^
^r m m v ^r
. 09 v* w^ . .
Pi pi p» — — O Pi
xr r-
^M . » • ^
it ^ N? m cr crt «•*
>• . CE 00 CC
« PI PJ • «
C O P-
•^ . « • cr
^ PJ tO x? WD «••
m * ce cc ec —
PI !N
it * .
O ... o ^
M . CD CC CC O
PI PI ••
tC II
r- or n u a
M «r n a » ec —
ce H «n i » > x
>• 03 » U h. h. J
•^ ••* « H- * < X































































1C
>«
«c
c

.
0
pi


z
0

o
03
«t
3?

cr
a
u
x
B-166
-------
    TENNESSEE VALLEY AUTHORITY - KINGSTON POWER PLANT


                                   NOM--SO2

       MAXIMUM MEAN CONC=  i.82?6E-o4  DIRECTIONS 36  DISTANCES  0.7 KM
                       ANNUAL  MEAN CONCENTRATION  AT EACH  RECEPTOR
        RANGE    0.7 KM          1.3  KM         2.5 KM          4.7  KM
                                                                           fl.7  KM
co
OIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 l6
 17
 IB
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
1 .07735E-04
9.23963E-05
8.23105K-OS
8.08763E-05
7.54J57E-05
6.04193E-05
4.69966E-05
4.13729E-05
4.01512E-05
4.00301E-05
4.02409E-05
4.16879E-05
4.82117E-05
6.B7419E-05
1.07789E-04
1.36857E-04
1 . 1B586E-04
7.97914E-05
5.38675E-05
4.34450E-05
4.06042E-05
4.00716E-05
4.00055E-05
4.0001 JE-05
4.00047E-05
4.00261E-05
4.01192E-05
4.03020E-05
4.04119E-OS
4.030346-05
4.01441E-05
4.02716E-05
4.14910E-05
4.621 1 IE-OS
5.95923E-05
1.82257E-04
9.61796E-05
7.P5008E-05
6.636B1E-05
6.75534E-05
6.44098E-05
5.34710E-05
4.411<»5E-05
4.06746E-05
4.0057SE-05 ,
4.00J05E-05
4.008R1E-05
4.07101E-05
4.38059E-05
5.46209E-05
7.92900E-05
1.01568E-04
8.72983E-05
6. 18659E-05
4.74512E-05
4.20295E-05
4.04049E-05
4.00571E-05
4.00054E-05
4.00225E-05
4.00569E-05
4.00596E-05
«.02l3flE-05
4.06019E-05
4.0B519E-05
4.06024E-05
4.02240E-05
4.01826E-05
4.10187E-05
4.475S6E-05
5.63557E-05
l.fi7164E-04
8.110026-05
6.67036C-05
5.85583E-05
5.S8B75F-05
5.48787E-05
4.79S17E-05
4.21906E-05
4.02685C-05
4.00190E-05
4.02'529E-05
4.00307E-05
4.03629E-OS
4.21235E-05
4.70570E-05
6.24659F-05
9.25561E-05
7.31445E-05
5.30376E-05
4.44485E-05
i.MlORF-OS
4.03427E-05
4.00350E-05
4.00103E-05
4.01931E-05
4.05536E-05
4.02303E-05
4.02h96E-05
4.0R393E-05
4.17382E-05
4.08393E-05
4.02648E-05
4.00940E-05
4.04987E-05
4.28970E-OS
S.09102E-05
1 .31 3H7E-04
6.14524E-05
5.595«6E-OS
5.1269SE-05
4.83472E-05
4.88174E-05
4.39000E-05
4.09660E-05
4.01303E-05
4.00060E-05
4.10531E-05
4.00169E-05
4.10395E-05
4.35180F-05
4.58479E-05
5.45014E-05
9.10426E-05
6.54186E-05
4.71413R-05
4.22033T-05
4.07036E-05
4.07829E-05
4.00144E-05
4.000S2E-05
4.0194BE-05
4.06BDflE-05
4.02U2E-05
4.01493E-05
4.05340E-05
4.0B2S1E-05
4.05340E-05
4.014S4E-05
4.0031 JF-05
4.01SB9E-05
4.115<»3e-05
4.4861HE-05
B.57650F-05
5.087B8F-05
4.R4864E-05
4.76589E-05
4.4720BE-05
1 4.67087E-05
4.19881E-05
' 4.042'58E-05
I4.05517E-05
4.00013E-05
4. 1 1080E-05
4.00054E-05
4.14786E-05
4.34fi6'SE-05
4.54090E-05
4.94854E-0«i
7.54271E-05
5.74634E-05
4.37B63E-05
4.11137E-05
4.03452E-05
4.10681E-05
4.00048E-05
4.00012E-05
4.00Q49E-05
4.04210E-05
4.01007E-05
4.0067BE-05
4.02B74E-05
4.04678E-05
4.02B74E-05
4.00668E-05
4.00097E-05
4.0051BE-05
4.04311E-05
4.22398F-05
6.24051E-05
-------
              VALLEY AUTHORITY  -  KINGSTON  POWER  PLANT







                                    NOM—S07




YEARLY MAXIMUM 24-HOUR CONC*   3.952BE-04   DIRECTION=360.   OISTANCP=  0.7 KM  DAY=31<».







               HIGHEST 74-HOUR  CONCENTRATION  AT  EACH  RECEPTOR
RANGE 0.7 KM 1.3 KM 2.5 KM 4.7 KM 8.7 KM
DIR
1 2.3936E-04 ( 298 ) 1.6153F1-04 ( 30R ) 1.5066E-04 ( 356 ) 1.0B60E-04 ( 356 ) 8.5436E-05 ( 355
2 2.92966-04 ( 29» ) 1.7451E-04 ( ?•»« ) 1.071RK-04 ( 30B ) 1.0375E-04 ( 292 ) 8.5B39E-05 ( 292
3 2.5515E-04 ( 298 ) 1.6441E-04 ( 299 ) 1.1577E-04 { 299 ) fl.B348F.-05 ( 29« ) 6.9264E-05 ( tfl5
4 2.7573F-04
5 J.3131E-04
6 2.4836E-04
7 t.20?5F:-04
8 5.6879R-05
9 4.1927E-05
10 4.0387E-05
11 4.373BE-05
12 6.085BF.-05
13 1.1203E-04
14 2.0650K-04
15 3.1346E-04
If, 3.B244G-04
DO 17 3.1759K-04
j_, 18 2.5506E-04
CT> 19 1.5459E-04
00 20 8.1I45E-05
2J 4.9303F.-05
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
.1287E-05
.0107C-05
.0021E-05
.0094G-05
.0522E-05
.2383E-05
.6040E-05
.8237E-05
.6040E-05
.2381E-05
.2895E-05
.5409E-05
.8400E-05
.3517E-04
.9528E-04
292 ) 1.9567E-04 ( 292 ) 1.3076E-04 ( 340 ) 8.56!OF>05 ( 340
340 2.4B09E-04 ( 340
340 1.7737E-04 ( 310
340 8.5225E-05 ( 340
340 4.7830E-05 ( 340
340 4.0687E-05 ( 340
342 ) 4.0119E-05
342 ) 4.14HOE-05
342 } 4.9951E-05
342 ) 7.8769E-05
342 ) 1.360IE-04
342 ) 2.0755F.-04
222 ) 2.6370E-04
332 ) 2.2399E-04
332 ) 1.7922E-04
332 ) 1.1521E-04
332 ) 6.9060E-05
332 ) .7005E-05
332 ) .0982E-05
332 ) .0076E-05
315 ) .0447E-05
315 ) .I13BE-05
315 ) .1192F.-05
315 ) .4277E-05
315 ) 5.2038E-05
315 ) 5.7037E-05
315 ) 5.2037C-05
3J5 ) 4.4245E-05
17 ) 4.1466C-05
17 ) 4.9244E-05
17 ) 7.3230E-05
17 ) 1.0704E-04
319 ) 3.7773F.-04
342
342
342
342
342
342
331
332
332
332
332
332
332
332
315
3J5
3t5
315
315
315
315
315
17
17
17
17
315
1.7704E-04 f 340 ) 1.2239E-04 ( 340
1.118BF.-04 ( 340 ) 7.0379F-05 ( 340
5.965IE-05 ( 340 ) 4.7182E-05 ( 340
4.2752E-05 ( 340 ) 441224E-05 { 321
4.018IE-05 ( 340 4.0047E-05 ( 331
4.5020E-05 ( 331 6.1055F-05 ( 331
4.0499E-05 ( 342 4.0252E-05 ( 342
4.5003E-05 ( 342 5.34B5E-05 ( 331
6.0I89E-05 ( 342 8.0465F-05 ( 331
8.5059F-05 ( 342 8.1992E-05 { 331
1.4644E-04 ( 222 ) 1.5043E-04 ( 222
2.3127E-04 ( 22? ) 3.4V32E-04 ( 241
1.6947E-04 ( 231 ) 1.6H6BE-04 ( 231
6.3472E-05 ( 340
9.0333E-05 ( 340
5.4570F.-05 ( 340
4.3171E-05 ( 321 )
5.0577E-05 ( 321 )
4.0009E-05 ( 340 )
6.2159E-05 ( 331 )
4.0090E-05 ( 342 )
6.4361E-05 ( 331 )
8i4568E-05 ( 331 )
8.73BIE-05 ( 331 )
1.1401F-04 ( 222 )
2.6749E-04 ( 241
1.2349E-04 ( 231
1.1555E-04 { 332 ) 7.5339F.-05 ( 231 ) 6.3356E-05 { 231
8.3943E-05 C 332 ) 6.0467E-05 ( 332 ) 5.0761E-05 ( 332
5.9364E-05 ( 332 ) 4.947PE-05 ( 332 ) 4.4857E-05 ( 332
4.4B7BE-05 ( 332 1 5.2O6BF.-05
4.0630C-01! ( 332 ) 4.0238F-05
4.0166E-05 ( 315 ) 4.0092F.-05
4.3860E-05 ( 315 ) 4.3896E-05
5.I072E-05 ( 315 ) 5.3StfiF-05
4.4606E-05 ( 315 ) 4.4224E-05
4.5391F-0-S ( 315 ) 4.29H5E-05
5.6785E-05 { 315 ) 5.0K79F.-05
6.47«4E-05 ( 315 ) 5.6502E-05
5.6784E-05 ( 315 ) 5.0R79E-05
4.5226E-05 { 315 ) 4.2894F.-05
4.0754E-05 ( 315 ) 4.0329E-05
4.468IE-05 ( 355 ) 4.1M5E-05
331 ) 6.0203E-05 ( 331
332 ) 4.00B4E-05 { 332
315 ) 4.0022E-05 ( 315
315 1 4.1898E-05 ( 315
315 ) 4.B4J9E-05 f 315
315 ) 4.2014E-05 ( 315
315 ) 4.1355E-05 ( 315
315 ) 4.5749E-05 ( 315
315 4.9356E-05 ( 315
315 4.5749E-05 ( 315
315 4.1333E-05 ( 315
315 4.0117E-05 ( 315
355 4.0593E-05 ( 355
6.2445E-05 ( 17 ) 5.0053E-05 { 17 4.3606E-05 ( 17
9.2136E-05 { 17 ) S.8257E-05 ( 17 ) 5.5294E-05 C 17
3.1948E-04 ( 356 ) 1.9674E-04 ( 356 ) 1.2312E-04 ( 356
-------
       TENNESSEE  VALLEY AUTHORITY - KINGSTON POWKR  PLANT

                                       NOM--sn2
   YEARLY MAXIMUM 3-HOUP CONC=  1.7451F-03  DIRECTIONS   0.   DISTANCES   0.7  KM   OAY=10«.  HOIIR=1500.
oo
cr>

HIGHEST
RANGE 0.7 KM
OIR
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36

.1471K-03 ( 321 )
.1648E-01 ( 298 )
.0514F-03 ( 298 1
.2179E-03 ( 292 )
.2142E-03 ( 140 )
9.0100E-04 ( 340 )
3.7945E-04 ( 340 )
1.1196E-04 ( 340 )
4.B201E-05 ( 340 1
4.2997E-05 ( 342 )
6.7791E-05 ( 342 1
I.8472E-04 ( 342 ]
4.7954E-04 ( 342 1
8.6224E-04 ( 342 ]
1.0476E-03 ( 342 )
1.2339E-03 ( 331 )
1.1001E-03 ( 218 ]
R.5302E-04 ( 332 1
4.7396E-04 ( 332
2.0295E-04 ( 332
8.4535E-05 { 332
4.7202E-05 ( 332
4.0684E-05 ( 332
4.0168E-05 ( 315
4.0753E-05 ( 315
4.4178F.-05 ( 315
5.9065E-05 ( 315
8.831BE-05 f 315
1.0589E-04 ( 315
8.8318E-05 ( 315
5.9049E-05 ( 315
6.3152E-05 ( 17
1.6296E-04 ( 17
4.2406E-04 ( 17
7.8144E-04 ( 17
1.7453E-01 ( 308
3-HOUR CONCENTRATION AT EACH
1.3 KM

7.6670E-04 { 121 )
6.0896E-04 { 298 )
6.6469E-04 ( 298 )
7.0738E-04 ( 292 )
7.5560E-04 ( 340 )
5.4559E-04 ( 340 )
2.1831E-04 ( 140 )
7.13R9E-05 ( 140 )
4.7758E-05 { 140 )
4.0914E-05 ( 142 )
5.0869E-05 { 342 )
1.0725E-04 { 347 )
2.6567E-04 f 342 )
4.7950E-04 ( 342 )
6.1410E-04 ( 241 )
7.2831E-04 ( 34? )
6.9665E-04 ( 332 )
4.9I35E-04 ( 332 )
3.3986E-04 { 132 )
1.9399E-04 { 132 )
8.4213E-05 ( 332 )
.6R97E-05 ( 312 1
.0567F-05 ( 112 )
.3580E-05 { 115 )
.0104E-05 ( 315 )
.9535E-05 ( 315 )
.4215E-05 ( 315 )
.3610E-04 r 315 )
.7610E-04 ( 115 )
.3630F-04 { 3)5 )
7.3961E-05 ( 315 )
5.1705E-05 ( 17 )
1 1.1223E-04 ( 17 )
1 2.814BE-04 ( 17 )
» 5.08Q9E-04 { 17 )
1 1.2236E-01 ( 154 )
RECEPTOR
2.5 KM

4.47IOE-04 C 315 1
4.0348E-04 ( 308 )
4.5424E-04 ( 298 )
4.4717E-04 ( 292 )
4.8517E-04 { 340 )
2.6974E-04 ( 321 )
1.1700E-04 ( 321 )
5.0I91E-05 ( 340 )
4.0670E-05 ( 340 )
8.0157E-05 ( 331 )
4.3224E-OS ( 342 )
6.4247E-05 ( 342
1.3105E-04 ( 342
2.7529E-04 ( 342
3.7345E-04 ( 222
5.3054E-04 { 331
4.5777E-04 { 231
2.820BE-04 C 332
2.6783E-04 ( 332
1.6646E-04 ( 332
7.5496E-05 ( 332 )
4.4822E-05 { 332 )
4.1325E-05 ( 315 )
7.0B83E-01? C 315 )
1.2857E-04 ( 315 )
7.6850E-05 ( 315 )
8.3131E-05 ( 315 )
1.7428E-04 ( 315 )
2.3811E-04 ( 315 )
1.7428E-04 { 315 )
8.1B07E-05 ( 315 )
4.599BE-05 (315 )
7.1679E-05 ( 355 )
1.9912E-04 ( 17 )
3.8853E-04 ( 17 )
9.9855E-04 { 356 )

4.7 KM 8.7 KM

3.1314E-04 ( 355 > 2.8910E-04 355 )
5.I9S8E-04 ( 292 » 3.9526E-04 292 )
1.6427F-04 ( 298 ) 2.6325E-04 185 )
2.4B3PE-04 ( 292 ) 2.0076E-04 284 )
3.8155E-04 ( 340 > 2.7386E-04 340 )
2.2623E-04 ( 321 1.5125E-04 321 )
9.2834E-05 ( 321 6.5221E-05 121 )
4.9765E-05 ( 171 1.2461E-04 321 1
4.0174F-05 ( 331 4.0057E-05 331 )
2.0H44K-04 ( 331 2.1727E-04 331 )
4.1174E-05 ( 342 4.0443K-05 342 )
1.4768E-04 ( 331 2.3485E-04 331 )
3.5867E-04 ( 331 3.9521E-04 331 1
3.341BF-04 ( 311 4.0442E-04 331 )
4.3769E-04 ( 22? 2.6939E-04 222 )
6.4059E-04 ( 241 5.3708E-04 241 )
6.3543E-04 ( 211 4.7388E-04 342 )
2.3860F-04 ( 231 1.8469E-04 { 231 )
1.6198E-04 ( 132 1.0743E-04 ( 332 )
1.0732E-04 ( 332 } 7.5522E-05 ( 332 )
1.4369E-04 ( 331 ) 2.0161E-04 ( 331 )
4.1869E-05 ( 332 ) 4.0661E-05 ( 332 )
4.0733E-05 ( 315 } 4.0174E-05 ( 115 )
7.H69E-05 ( 315 ) 5.5181E-05 ( 315 )
I.4893E-04 ( 315 ) 1.0735E-04 ( 315 )
7.3793E-05 ( 315 ) 5.6115E-05 ( 115 )
6.3882E-05 ( 315 ) 5.0840E-05 ( 315 )
1.2543E-04 ( 315 ) 8.5988E-05 ( 315 )
1.7202E-04 ( 315 ) 1.1485E-04 ( 3)5 )
1.2543E-04 ( 315 } 8.5988E-05 ( 315
6.3150E-05 ( 315 ) 5.0666E-05 C 315
4.2631E-05 ( 315 ) 4.0934E-05 315
5.0741E-05 ( 355 ) 4.3923E-05 355
1.1444E-04 ( 17 ) 6.6853E-05 17
2.4115E-04 ( 17 ) 1.5115E-04 17
6.3908E-04 ( 356 1 3.7257E-04 356 )
-------
                                                       MHXIMIIM DMI,r CONCENTRATIONS
                                           DRV    24-HOUR CONCENTRATION    DIRECTION    DISTANCE

                                           319           .95?«f:-04            16          0.71
                                           300           .94H9E-04            16          0.71
                                           222           .B244E-04            16          0.71
                                           315           .7773E-04            16          1.33
                                           331           .727BF-04            16          0.71
                                           231           .5199E-04            16          0.71
                                           241           .4632E-04            16          4.65
                                           342           .3823E-04            16          0.71
                                           340           .31316-04             5          0.71
                                           218           .249JE-04            16          0.71
                                           356           .I94fte-04            36          2.49
                                           332           .1759E-04            17          6.71
                                            17           .0119E-04            J6          0.71
                                           355          2.9B95E-04            36          1.33
                                           S9fl          249296!->04             2          0.71
                                           354          2.9216E-04            36          0.71
                                           321          2.9038E-04            36          0.71
                                           292          J.7573E-04             4          0.71
                                           185          2.7369E-04            36          0.71
                                           284  '        2i7312E-04            36          0.71
DO
i
-------
   TENNESSEE VALLEY AUTHORITY  -  KINGSTON POWER PLANT
   SOLVENT REFlHrO COAL STUDY

   KINGSTON PLANT 1975
   (NAM!
   KSTLs4  IHR=1  ITAP,IPUN=  0  0
     lOAfA.lMAX.ILflTSs 000
   IQHflTs 2   WHGT= 91.0   NST=  1
   NPOL=  2   JTABs 1   TNPUT= 2
   MSEA=  1   ECDNV=   0.3040006
   OAY--
                   1   1
                   I   1
SYTFs 1.0 FIVa 1.0 TAF= 0.60 H
1 1














1






1



















1
1
i
I
1
1





t
1









RftCKGR=

     t
     1
            40.0


























.
1
1
1
1
1
1
1
1
1















I
I





'




1
1







DO
-------
PLANT ELEVATION (FEET ABOVE SEA LEVED--
775.0
    RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)

DIRECTION   RINGM   RING»2   RINGI3   RINGI4   RINGI5
1
2
3
4
5
6
7
R
9
10
tt
12
1)
14
15
IIS
17
IB
19
TO 20
L '»
--J 22
ro 2J
24
25
26
27
28
29
30
31
32
33
34
35
36
STACK «
STACK 1
STACK

1
2
760.0
760.0
755.0
750.0
750.0
740.0
780.0
820.0
860.0
890. 0
920.0
850.0
780.0
750.0
740.0
7 JO.O
730.0
740.0
740.0
740.0
730.0
760.0
760.0
760.0
760.0
760.0
760.0
760.0
780.0
780.0
790.0
805.0
715.0
BOb.O
770.0
755.0
1--KINGSTON
2--KINGSTON
STRATEGY
TYPE
MOM
MOM
750.0 760.0
750.0 1120.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1020.0
780.0 920.0
920.0 880.0
830.0 720.0
740.0 720.0
720.0 7SO.O
740.0 720.0
720.0 960.0
740.0 1150.0
900.0 1020.0
800.0 1060.0
900.0 1020.0
960.0 1020.0
820.0 720.0
760.0 970.0
720.0 980.0
780.0 920.0
860.0 1100.0
840.0 1100.0
760.0 820.0
780.0 840.0
800.0 1080.0
900.0 1040.0
1060.0 890.0
1160.0 1060.0
IORO.O 1100.0
1120.0 1040.0
1140.0 1020.0
1010.0 1020.0
1020.0 830.0
760.0 800.0
STACKSI1-4, NORMAL
STACKSI5-9, NORMAL
SU2 EMISSION RATE
(GMS/SEC)
402.00
705.00
970.0
625.0
800.0
1 100.0
900.0
1160.0
1000.0
1060.0
1000.0
800.0
960.0
1070.0
1060.0
1020.0
600.0
780.0
1010.0
1020.0
800.0
720.0
720.0
800.0
1040.0
950.0
1100. 0
1140.0
1140.0
1100.0
900.0
1060.0
1 100.0
1040.0
1020.0
1000.0
1000.0
1040.0
POWER
POWER
PART



1300.0
960.0
1000.0
1100.0
1060.0
1000.0
1100.0
800.0
960.0
920.0
1020.0
1000.0
1000.0
1080. 0
1020.0
940.0
720.0
900.0
790.0
1040.0
750.0
960.0
1020.0
760.0
900.0
740.0
800.0
1200.0
1400.0
1400.0
1100. 0
1100. 0
1100.0
1400.0
1500.0
1600.0
LOAD-SRC HOX
LOAD-SRC NOX
EMISSION RATE HEIGHT DIAMETER EXIT VELOCITY TEMP
{GMS/SEC) (METERS) (METERS) (M/8EC) (OEG.K)
0.00 76.20 4.27 10.90 416.00
0.00 91.44 5.03 10.50 414.00
                                                                                                            VOLUMETRIC  FLOH
                                                                                                               (M**3/SEC)

                                                                                                                  156.09

                                                                                                                  20H.65
  RANCH(KM)=   0.71   1.33   2.49   4.65   8.69
  SEASONAL VARIATIONS BY CASE »
           1   1.07   I.08   1.24   1.13   I.07
     1.04
0.91   0.74   0.83   0.88   0.93
                                               1.07
TEAR BASErt OH 365. DAYS
-------
                  VALUE*  AUTHORITY - KINGSTON POWER  PLANT
                   i>IFAN
                                    NOM--S02

                            6.B305>F-0«>  PIRFCTIONs
                                                           DISTANCE*  0.7  KM
                       ANNUAL MEAN co«ireNTRATioM  AT  F*CH RECEPTOR
        HANSE     0.7  KM         1.3 KM         2.5  KM         4.7 KM
                                                                             B.7  KM
ro
 i
CO
DIR
  1
  2
  3
  4
  5
  f,
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 IB
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 11
 32
 33
 34
 35
 36
5.6H986F.-OS
5.773B4F.-05
S.92699E-05
5.y*35f-£-05
•5.63742K-05
•>.05559E-05
4.61627F.-05
4.4.3832E-0-5
4.40371E-05
4.42348E-OS
4.42476E-05
4.44210E-05
4.S379HE-05
4.7810BE-OS
5. 138MC-05
5.40603F:-OS
5.23S02E-OS
4.77096C-OS
4.42129E-05
4.3005
4. 36148l!:-0ti
4.44294f>05
4.442S1E-05
4.3'>06*F>05
4.21379E-05
.20955E-OS
.21 107E-OS
.21 146R-05
. 17fl5(>e-OS
,13406E-0'i
4.1061 IE-OS
4.134»>
4.56102E-OS
4.B6828E-05
6.83020E-OS
•5.S4409F-05
5.471fiHE-05
5.6002SE-05
S.62B33E-05
5.346Q6E-05
4.94037F.-05
4.50045F>05
4.3S601E-05
4.29B34E-05 .
4.309«»2E-05
4.30767E-05
4.32319F-05
4.38360E-05
4.56S11E-05
4.83781P-05
5. 10B78E-05
4.960S6E-05
4.5914BE-05
4.32B45E-05
4.2B735E-05
4.39B31E-05
4.521 13E-05
4.55572E-05
4.4ftfl98E-05
4.34462E-05
4.27227E-05
4.276B3E-05
4.28310E-05
K24105E-05
.19106F.-05
. 14009E-05
.13172F-0-5
.301 71E-05
.6406»>F,-05
.96767E-OH
6.fl049fiE-05
5.21541E-05
5.05637F-05
S.23359F.-OS
S. 15949F-05
4.9915SF-05
4.60R43E-OS
4.3B055E-05
4.2B132F-05
4.20365F-05
4.21543E-05
4.21207F.-05
4.26122F-05
4.30296E-05
4.43900F-05
4.66919C-0'i
5.IB339E-05
4.77244E-05
4.43659E-05
4.235I9R-05
4.71592E-05
4.34532E-05
4.4B256E-05
4.545B3F-05
4.490S8F-OS
4.37BOOE-OS
4.25932F-05
4.27836E-05
4.2H164E-05
4.22789F-05
.21031F.-OS
. 17274E-05
.12063F-05
.24947E-05
.56914E-05
.84107E-OS
ft.26191E-05
4.75B97F.-05
4.7317"F.-OS
4.9474f.E-05
4.8104IF-05
4.72859E-05
4.45570F.-05
4.28163E-05
.24779E-05
.17171E-05
.18547F-05
.181 SOF-05
.27487F.-OS
.28697F-05
4.39460F.-05
4.61010F-0-5
5.23219F.-0-5
4.681 47F.-05
4.313SPF-05
4. 16460F-05
4.1 3403F.-05
4.2559SF.-05
4.37970E-05
4.4195BE-05
4.38490E-05
4.32952F-05
4.17422E-05
4.21053F-05
4. ^gBlE-OS
,158?1E-05
.1S198F.-05
.14347E-05
.OB476E-05
.1631 2E-05
.354S2E-05
.56271F-05
5.3866"5E-05
4.4fi69JE-n5
4.50807F-OS
4.676B9E-05
4.5B219F-05
4.53624E-05
4.37570F.-05
4.2223BF.-05
4. 19003E-05
4. 12891F.-05
4.144J1E-05
4.13S35F.-05
4.723B4F-05
4.20518F-05
4.?8fi34F.-05
4.42008E-05
4.84527E-05
4.49765E-05
4.211 16F.-05
4.12326F.-05
4.09fJ04E-05
4. 1B475F-05
4.31 316E-05
4.350S-5E-05
4.32205E-05
4.26759E-05
4. 17798F-05
4.19062E-05
4.15567E-05
4.1291BF-0«>
4.117»ilF-05
4.U444E-05
4.06589F-05
4.12121E-05
4.23714K-05
4.409fl8E-05
4.82023F.-05
-------
              VALLEIT AUTHORITY  -  KINCSTDN  POWER  PLANT





                                    HOM — so2



YEARLY MAXIMUM 24-HOUR CONC«  4.4168E-04   DI RECTION=3fiO .   DISTANCE*  1.3 KM






               HIGHEST 24-HOUR  C01CENTRATIOM  AT  EACH  RECEPTOR
f)A»
RANGE 0.7 KM 1 . .1 KM 2.5 KM 4.7 KH 8.7 KM
DIB
1 2.4631004
2 2.9902O04
1 2.6936G-04
4 2.9483O04
5 3.1724E-04
6 2.4347E-04
7 1.81BSE-04
8 2.0829O04
9 2.3501E-04
10 2.3477E-04
11 2.1573E-04
12 2.0208E-04
13 7. 2215004
H 2.4931004
15 2.924IE-04
I 16 3.6723E-04
— J 17 3.1469O04
.^ 18 2.5426004
19
20
21
22
2)
24
25
26
77
28
29
30
31
32
31
34
.6745E-04
.46I4E-04
.6501E-04
.3054E-04
.9526E-04
.831BO04
298
298
293
292
340
330
330
306
295
295
295
295
307
307
342
331
332
332
338
338
152
152
152
302
.5500E-04 ( 302
.3127004 ( 317
.3137E-04 ( 314
.6359O04 ( 314
.3059E-04 ( 314
.0001E-04 ( 33
.0931E-04 { 179
.1666E-04 ( 179
.OS88E-OM ( 179
.26I2E-04 ( 42
35 1.58HO04 ( 269
36 4.3131004 ( 319
1 .7749004
2.2166E-04
1.8756E-04
2.U05E-04
2.41I8E-04






























.6901O04
.2709E-04
.5453E-04
.3581E-04
.4654E-04
.2380E-04
.8834E-04
.7465E-04
.B399E-04
.9417E-04
.7191E-04
.4967E-04
.7949E-04
.3244E-04
.1727E-04
.«512E-04
.6668004
.fi39BE-04
.1256E-04
315
326
276
29?
140
140
306
32?
327
780
280 )
280 )
307 )
307 )
342 )
331 )
359 )
33? )
360 )
360 )
30 )
152 )
314
302
.*909E-04 ( 302
.2279004 ( 317
.3249E-04 ( 314
.5616E-04 314
.2206E-04 314
.0739E-04 33
.0013O04 33
.2412E-05 179
.3956E-05 48
.2132E-04 297
.J517E-04 f 2«9






.4474E-04 ( 284 ) 1.1103E-04
.5884E-04 ( 326 ) 1.2104F>04
.6777E-04 ( 255 ) 2.2260E-04
.6249E-04 { 260 ) 1.7389E-04
.6500E-04 ( 340 ) I.8708E-04
.3I91E-04 ( 187 ) 1.0300E-04
.0649E-04 ( 174 ) 1.147PE-04
.2049E-04 ( 140 ) 1.8456E-04
.0282E-04 ( 243 ) 9.9430E-05
.31I8E-04 ( 1 ) 1.2266E-04
.6910E-04 C 280 ) 1.2068E-04
.4814E-04 ( 280 ) 1.5008E-04
.2835E-04 ( 2R7 ) 1.7844E-04
.4988C-04 ( 167 ) 1.708BC-04
.4925E-04 ( 222 ) 1.4407E-04
.7051E-04 ( 241 ) 3.3782E-04
.9935E-04 ( 359 ) 2.3444E-04
.1776E-04 ( 252 ) 1.1691E-04
.913BE-05 ( 252 ) 9.9861E-05
.7960E-05 ( 193 ) 6.9195E-05
.6439E-04 ( 30 ) I.1761E-04
.3833E-04 ( 30 ) 1.2611E-04
.3597C-04 ( 317 ) 1.1608E-04
.6192E-04 ( 30? ) 1.19ME-04
.2149E-04 ( 302 ) 1.2921E-04
.6330E-05 ( 317 ) 7.1676E-05
.0750F-04 ( 350 ) 8.8918E-05
.2714E-04 { 312 ) 9.4542E-05
9.7029E-05 ( 334 ) 8.6540E-05
9.B803E-05 297 ) 7.2355E-05
9.6942E-05 285 ) 7.7454E-05
6.8301E-05 334 ) 5.8893C-05
9.2409E-05 107 ) R.OB55E-05
262 ) 8.3923E-05
37 ) 1.2883E-04
262 ) 1.6944E-04
260 ) 1.IU12E-04
139 ) I.3133E-04
238 ) 9.7656E-05
174 J 8.7788E-05
140 ) 1.8074E-04
174 ) 9.2102E-05
1 J 1. 0724004
280 ) 9.7102E-05
280 ) 1.3313E-04
287 ) I.4076R-04
167 ) 1.4827E-04 (
167 ) 1.3I92E-04 (
241 ) 2.3470E-04 (
20« ) 1.7019E-04 (
252 ) 9.2778E-05 (
331 ) 8.3758E-05 (
193 ) 6.1556E-05 (
10 ) 8.6877E-05 (
. 10 ) I.2463E-04 (
282 ) 1.4912E-04 (
302 ) 1.0047E-04 (
363 ) 1.5253E-04 (
317 ) 6.5412E-05 (
317 ) 9.97.90E-05 (
112 ) 6.8821E-05
125 ) 7.4164E-05
297 ) 6.3303E-05
285 ) 8.I136E-05
135 ) 6.5005E-05
107 ) 7.1730E-05
I.3466E-04 16 ) I.0614E-04 ( 16 ) 8.2656E-05
1.1903E-04 16 ) 8.9517E-05 ( 31 ) 9.5493E-05
4.4168E-04 ( 315 ) 3.0002E-04 315 ) 1.6735E-04 { 356 ) 1.0814O04


341
234
234
260
139
238
174
140
140
140
280 )
280 )
287 )
192
193
241
204
252
333
119
29
282
282
163
208
21
349
25 )
349 )
304 )
349 )
304 )
16 )
16 )
22 )
116 )
-------
    TENNESSEE  VALLEY AUTHORITY  -  KINGSTON POWER PLANT







                                     NOM--SO2




YEARLY MAXIMUM 3-HOUR CONC=   1.7100E-03  DIRECTION*   0.   DISTANCES   0.7  KM  OAY=30fl.   HOUR=»1500.
HIGHEST
RANGE 0.7
DIR
1
2
3
4
5
6
7
8
9
10
11
12
1 3
14
15
1 16
— ', 17
crl 18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
1 . 140PE-03
1 .2426E-03
1.0800E-03
1.2863E-03
1 . 2284E-03
1 .0412E-03
8.6431E-04
1 .0419E-03
1 .1S46E-03
1 .0564E-03
1 . 1261E-03
1.0198E-03
9. 1 100E-04
1 . 1586E-03
9.5773E-04
1.1643E-03
1 .0150E-03
9.979PE-04
9.5159C-04
8.6964E-04
8.H83E-04
9.2087E-04
8.35B6E-04
7.B855E-04
6.9273E-04
6.6791E-04
6.0918E-04
8. 1624E-04
6.0918E-04
5.7007E-04
5.4587E-04
6.3005E-04
5.6447E-04
7.201 1E-04
8. 7774E-04
1.7100E-03
KM
321
293
255 ]
292
325
320
253
{ 295
( 295
( 295
( 301
( 301
( 291
{ 290
( 309
( 331
( 190
( 353
( 338
{ 338
( 333
( 152
( 343
( 302
C 302
( 317
( 314
( 314
( 314
( 33
( 179
( 179
( 179
( 42
( 269
( 308
3-HOUR CONCENTRATION AT EACH RECEPTOR
1.3 KM
7.6370E-04
8.6028E-04
7.8760E-04
1 7.8364E-04
1 7.6930E-04
6.8709E-04
5.6780E-04
7.8704E-04
6.3097E-04
6.5574E-04
7.1814E-04
1 6.2549E-04
1 6.1934E-04
1 7.8066E-04
) 6.3849E-04
) 6.9619E-04
) B.2340E-04
) 6.9840E-04
) 6.1700E-04
) 5.46B1E-04
) 7.3176E-04
) 7.1599E-04
) 7.1574E-04
) 7.8404E-04
) 6.5152E-04
) 5.5912E-04
) 5.3650E-04
) 7.4274E-04
) 5.5202E-04
) 5.7077E-04
) 5.175BE-04
) 4.1341E-04
) 4.7165E-04
) 6.5096E-04
) 7.0573-E-04
) 1.2827E-03
2.5 KM
( 262 5.9157E-04
( 376
( 276
( 6
( 275
( 320
( 322
( 322
( 322
( 236
( 280
( 280
( 291
( 790
( 217
( 256
( 359
( 281
( 338
( 338
( 333
( 206
( 314
( 302
( 302
{ 317
( 314
( 314
{ 334
( 33
( 33
t 179
( 48
( 48
( 769
{ 319
5.6015E-04
5.7534C-04
5.4174E-04
4.9836E-04
4.5749E-04
4.71B4E-04
4.4259E-04
3.6018E-04
3.B131E-04
4.B653E-04
4.3531E-04
4.3847E-04
4.8389E-04
6.16B1E-04
5.7727E-04
6.26B5E-04
5.0191E-04
3.5032E-04
3.7140E-04
6.7939E-04
5.6091E-04
5.81B2E-04
5.6270E-04
4.1414E-04
4.0309E-04
5.1029E-04
5.0439E-04
3.9339E-04
3.8562E-04
4.9486E-04
2.6127E-04
3.7351E-04
5.0402E-04
5.3601F-04
B.7686E-04

( 341 )
( 341 )
{ 794 )
( 260 )
( 301 )
( 187 )
( 207 )
( 180 )
( 322 )
( 306 )
( 280 )
( 280 )
( 295 )
( 251 )
{ 240 )
( 230 )
( 359 )
( 281 )
f 281 )
( 780 )
( 30 )
( 732 )
f 232 )
( 302 )
( 302 )
( 265 )
( 350 )
( 312 )
( 334 )
( 285 )
( 285 )
( 334 )
( 107 )
( 16 )
( 16 )
( 356 )
4.7 KM
5.4131E-04 ( 341
6.2603E-04 ( 341
7.S333E-04 ( 294
5.0530E-04 ( 260
5.5269E-04 ( 139
5.4341E-04 ( 238
4.2106E-04 209
6.1774E-04 214
4.7402E-04 174
4.5960E-04 1
4.5938E-04 330
3.9408E-04 ( 217
4.8711E-04 ( 787
6.2532E-04 ( 251
6.0893E-04 ( 217
7.1708E-04
5.9071E-04
4.2000E-04
4.7961E-04
2.3284E-04
4.0087E-04
4.2772E-04
4.7412E-04
4.4B14E-04
5.2741E-04
2. 1902E-04
3.1033E-04
3.3867E-04
3.0534E-04
2.B223E-04
3.394BP-04
1.91 15E-04
2.3103E-04
283
231
252
333
347
29
282
282
127
363
349
350
312
125
46
2B5
135
334
3.2772E-04 ( 16
3.173SS-04 ( 168
5.6515E-04 ( 183

)
1
)
)
1
)
)
)
)
)
)
)
)
)
1
)
)
)
)
1
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)

8.7 KM
3.9127E-04
6.2244E-04
6.6071E-04
3.3377E-04
4.4752E-04
5.0110E-04
3.0B28E-04
4.3394E-04
4.2804E-04
3.8802E-04
3.4626E-04
4.0094E-04
4.9737E-04
4.3641E-04
.7265E-04
.9523E-04
.6378E-04
.5581E-04
.7200E-04
.9767E-04
.6730E-04
5.6566E-04
5.8731E-04
4.8945E-04
5.2430E-04
2.4307E-04
3.5419E-04
2.5718E-04
3.1326E-04
2.2643E-04
3.6908E-04
2.4004E-04
2.2390E-04
3.1774E-04
3.8975E-04
4.2695E-04


341 )
234 )
234 )
161 )
141 )
238 )
209 )
140 )
{ 174 )
( 1 )
( 209 )
280 )
192 )
251 )
193 )
283 )
342 )
20 )
333 )
{ 358 )
( 29 )
( 282 )
( 2B2 )
( 283 )
( 363 )
( 21 )
( 349 )
( 232 )
( 349 )
C 304 1
( 349 )
{ 304 )
( 31 1 )
( 289 )
( 289 )
( 186 )
-------
                                                           MAXIMUM DAILY CONCENTRATIONS


                                               PAY    24-HOIIB CONCENTRATION     DIBF.CTION    DISTANCE

                                               315          4.4I6BE-04             36           1.33
                                               319          4.3I3IE-04             36           0.7t
                                               30<»          3.99R7F-04             36           0.71
                                               331          3.6723E-04             16           0.71
                                               356          3.6560E-04             36           1.33
':                                              22?          3.4312E-04             16           0.71
                                               241          3.37B2E-04             16           4.65
                                               ?B4          3.3030E-04             36           0.71
(                                              355          3.2619E-04             36           1.33
                                               340          3.1724P-04              5           0.71
                                               342          3.15B9E-04             16           0.71
I                                              332          3.1469E-04             17           0.71
                                               231          1.1096E-04             16           0.71
                                               21B          3.0074E-04             16           0.71
(                                              354          3J0068E-04             36           0.71
                                               298          2.9902E-04              2           0.71
                                               292          2»94B3E-04              4           0.7t
(                                              .321          2.8484E-04             36           0.71
,                                                 17          2*8323C-04             J6           0.71
                                               (89          Ji8137E-04             16           0.71

-------
TKNNF.SSKE  YAM.KY  AUTHORITY - KINGSTON POWF.R Pl,ANT
SOLVFMT R?F1NFO  CHAf. STUDY

KINGSTON PUANT-MAKIMIM POWFR LOAD COHDITIONS-SRC

STACK *  1—KINGSTON STACKSI1-4, MAX.LOAD  SRC

 STACK
    1
          STRATEGY
            TlfPfT

            NOW
SO? EMISSION RATE
    (G4S/SEC)
      566.00
  RANGE(M) =    0.71    1.33   2.49
  SEASONAL VARIATIONS PY CASE «
           1    1 .00    1 .00   1.00
PART EMISSION RATE
     (GMS/SF.C)
                 4.65

                 1 .00
   ft.69

   t .00
         0.00
1 .00
            HFIGHT
           (MF.TEPS)

             76.20
       1 .00
1.00
        11AMETF.R   EXIT  VELOCITY   TEMP
        (METERS)      (M/SEC)     (OF.G.K)
                                                        4.77         14.26
                      1 .00   1.00    1 .00
                                                                                 427.40
                                            1.00
VOLUMETRIC FtOH
  (M**3/SEC)

     204.20
AWS = 2.9
TEMP = 292.
AFV = 305.
AfVHr 305.
1.2 1.3
29?. 291.
295. 334.
?9S. 334.
2.5 0.9
29). 290.
323. 26.
323. 26.
1.7 1.5
290. 290.
238. 333.
238. 333,
1.1 0.8
290. 292.
4. 317.
4. 317.
1.6 3.0
294. 296.
358. 356.
358. 356.
1 1
4.0 4.4
290. 300.
350. 2.
350. 2.
5.9 7.0 6.9
301. 302. 302.
0. 9. 30.
0. 9. 30.
7.1 7.3
303. 303.
29. 30.
29. 30.
7.2 6.6
303. 302.
27. 25.
27. 25.
5.6 5.9
300. 299.
11. 26.
11. 26.
5.9 4.7
298. 296
29. 51
29. 51
HLH1=  2134.  2U4.  2134. 2134. 2134.  2134.  2134.  205fi. 1982.  1906.  1830. 1754.
       1678.  1602.  1524. 1524. 1524.  1524.  1524.  1524. 1524.  1524.  1524. 1524.
J I N = / ^ 1 1'J = I / J U H I =
03 ISTAB= 444
__, AWS= 2.6 2.2 1.6
-~J TKWPs 273. 272. 271
"^ AFV= 203. 739. 259
AFVR= 209. 239. 259
HLHls 305. J05.
761. 817.
JYR=76 110= 1 JDAY=
ISTAB= 3 3 4
AWS= 5.0 7.2 7.6
TEMP= 272. 271. 270
AFV= 154. 162. 152
AFVRs 154. 162. 152
HljHl= 100. 400.
62W. 666.
JYR=76 1MO= 1 JOAY=
ISTAB= 443
A«S= 7.2 8.0 10.6
TEMP= 276. 275. 274
AFV= 147. 147. 153
AFrfRs 147. 147. 153
HLH1= K53. P53.
943. V5H.
1 JO
1
1 .3
. 271.
. 239.
. 239.
305.
914.
4
3
7. 3
. 270.
. 143.
. 143.
400.
710.
H
3
11.0
. 272.

. 15H.
853.
975.
4
1.0
270.
129.
129.
305.
914.

^
8.7
768.
162.
162.
400.
710.

3
10.1
271.
167.
167.
853.
975.
4
1 .0
270.
143.
143.
305.
914.

4
7.9
267.
150.
150.
400.
710.

3
11.2
770.
160.
160.
8S3.
97-i.
4
0.9
270.
16.
16.
305
914

4
7.7
766.
165.
165.
400
710

3
10.7
269.
164.
164.
853
975
4 4
0.5 0.9
269. 270
5. 59
5. 59
305.
. 914.

4 3
6.4 6,1
266. 266
168. 168
168. 168
. 400.
. 710.

3 3
8.7 9.6
268. 268
163. 163
163. 163
. S53.
. "75.
1
1 .8
. 272
. 74
74
381 .
914.

1
5.4
. 266
. 169
. 169
438.
710.

2
9.3
. 267
. 163
. 163
868.
975.
1
2.0
. 275.
2.
2.
457.
914.

1
6.2
. 267.
. 160.
. 160.
476.
710.

1
9.2
. 767.
. 161.
. 161.
««}.
975.
1
2.8
278.
5ft.
5B.
533.
914.

1
7.5
267.
173.
173.
514.
710.

1
9.0
76R.
161.
1M .
898.
97S.
1
3.3
281.
2.
7.
609
914

1
6.2
268.
167.
167.
552
710

1
6.6
267.
165.
165.
913
975
1 1
3.8 3.8
282. 284.
1 . 8.
1. 8.
. 685.
. 914.

1 1
•5.7 6.3
269. 270.
1 62. 176.
162. 176.
. 590.
. 710.

1 1
6.9 6.8
767. 267.
167. 164.
167. 164.
978.
. "75.
2
3.7
784.
39.
39.



1
6.4
270.
178.
178.



1
7.5
266.
174.
174.


3
3.7
284.
38.
38.




5.9
270.
163.
163.



2
7.?
266.
164.
164.


4
4.4
283.
20.
20.




6.4
769.
163.
163.



3
7.7
265.
150.
150.


4
4.4
281 .
15.
15.




6.7
268.
162.
162.



3
5.8
264.
163.
163.


4
3.8
279.
54.
54.




8.1
267.
162.
162.



4
5.9
764.
164.
164.


4
3.9
277.
60.
60.




8.6
767.
161 .
161.



3
5.8
764.
151.
151.


4
3.8
277.
46.
46.




7.1
266.
163.
163.



4
6.8
263.
150.
150.


4
2.7
275.
53.
53.




6.2
266.
178.
178.



4
6.1
262.
150.
150.


4
3.0
275,
83
83




6.0
265
179
179



4
5.1
762
150
150


-------
     10.1  H.J 10.6  •».«   7.7  H . •<  10.2  H . >»   /./  H.2  ||».2  J0.fi
TEMP = 27J. 772. 2/2. 271.  270. 270. 269. 767.  267. 267. 267.  76fl,
AFV»  164. 172. 174. 171.  164. l«3. 178. 169.  162. 161. 174.  171.
AFVR = 164. 172. 174. 171.  164. 193. 178. 168.  162. 161. 174.  171.
HLH1 =  400.  400.  400.  400.  400.  400.  400.  427.   454.   4R1.
       562.  589.  617.  617.  617.  617.  617.  617.   617.   617.
10.5  !«'.!  10.2  •*.«   ".I  H.I
 268.  268.  268.  268. 267. 267.
 166.  167.  169.  161. 162. 166.
 166.  167.  163.  161. 162. 166,
  508.   535.
  617.   617.
6.1  5.7  6.1  5.5  4.h  5.7
767. 267. 266. 266. 265. 265.
168. 168. 170. 171. IBS. 176.
168. 168. 170. 171. 185. 176.
ISTABs 333313
AHSa 6.4 5.2 6.4 7.2 7.6 8.0
TEHpa 275. 275. 275. 274. 274. 274.
AFV = 170. 162. 163. 165. 164. 165.
AFVRa 170. 162. 163. 165. 164. 165.
HbHla 457. 457. 457. 457. 457.
841. 905. 975. 975. 975.
JYR=76 110= 3 JOAYa 70
ISTARa 444444
TEMPa 276. 276. 275. 275. 274. 273.
AFVa 155. 160. 160. 160. 155. 155.
AFVRa 155. 160. 160. 160. 155. 155.
HliHIa 0. 0. 0. 0. 0.
1596. 1862. 2134. 2134. 2134.
tf JYRa76 IMO* 3 .JOAY= 78
— • ISTARa 444444
TF.MPa 773. 272. 271. 271. 271. 271.
AFVr 268. 11. 74. 77. 53. 44.
AFVR= 268. 11. 74. 77. 53. 44.
IILHla 0. 0. 0. 0. 0.
1368. 1596. 1829. 1829. 1829.
JYR-7 TMO- 3 JDAY- 84
ISTABa 444444
TFMP= 279. 27«. 277. 276. 276. 275.
AFV= 61. 49. 51. 51. 48. 52.
AFVRs 61. 49. 51. 51. 4R. 57.
HLHla 0. 0. 0. 0. 0.
7494. 8743. 9999. 9999. 99Q9.
JYR = 76 110 = 4 ,lt)AYa 94
T O T A U w 4 A A A A A
I 5 F AH s 4 4 4 «l H 1
AWS = 1.8 1.3 0.9 t.6 1.6 1.6
TFMP= 781. 7HO. 279. 27H. 277. 777.
AFV= 57. 35. 81. 56. 58. 64.
AFVRa 52. 35. 81. 56. 5fl. 64.
HI.Hla 400. 400. 400. 400. 400.
1777. 1359. 149<». 1499. 1499.
3
8.1
274.
166.
166.
457
975

4
273.
155.
155.
0
2134

4
271.
53.
53.
0
1829

4
275.
53.
5.1.
0
9999

0.6
276.
58.
5R.
400
1499
3
8.9
274.
164.
164.
. 457
. 975

4
273.
155.
155.
0
. 2134

4
271.
62.
62.
0
. 1829

4
275.
52.
57.
0
. 9999

0.4
277.
776.
27*.
400
. 1 «<><»
3 3
8.8 8.4
273. 273
166. 165
166. |65
. 521.
. 975.

3 3
274. 276
130. 15
130. 15
. 266.
. 2134.

3 1
273. 278
53. 44
53. 44
. 228.
. 1829.

3 1
278. 284
42. 8
47. 8
. 1249.
. 9999.

0.9 1.5
280. 7R4
336. 4
336. 4
. 537.
. 14Q9.
3
8.1
. 273
. 167
. 167
585.
975.

3
. 278
. 16
. 16
532.
2134.

1
. 782
. 48
. 48
456.
1829.

1
. 2P7
4
4
2498.
9999.
l
i
2.2
. ?R9
7
7
674.
1499.
3
. 273.
. 169.
. 169.
649.
975.

1
. 2R1.
. 13.
. 13.
79fl.
2134.

t
. 2R5.
. 52.
. 52.
684.
1879.

1
. 289.
. 23.
. 23.
3747.
9999.

7.7
. 2«7.
7.
7.
Rl 1 .
1 4<>9.
3
273.
160.
160.
713
975

t
283.
3.
3.
1064
2134

1
288.
43.
43.
912
1829


291.
16.
16.
4996
9999
l
i
4.2
295.
3.
3.
94P
1 499
1 1
273. 273.
164. 157.
164. 157.
. 777.
. 975.

1 t
284. 285.
7. 13.
7. 13.
. 1330.
. 2134.

t 1
280. 29t.
40. 43.
40. 43.
. 1140.
. 1B29.

1 t
291. 293.
27. 24.
77. 24.
. 6245.
. 9999.
l i
i •
5.3 5.6
29fi. 29H.
5. 11.
5. 11 .
. 10R5.
. 1499.
1
273.
163.
163.



i
287.
e.
8.



2
291.
21.
21.



1
293.
34.
34.


<
i
5.1
798.
4"».
49.


3
772.
156.
156.



1
287.
17.
17.



3
791.
27.
27.



3
293.
35.
35.


l
i
5.6
798.
20.
20.


3
272.
17ft.
176.



3
287.
23.
23.



3
290.
21.
23.
•


3
293.
35.
35.


-»
1
4.9
299.
77.
77.


4
272.
176.
176.



4
286.
41.
41.



4
289.
30.
30.



4
291.
37.
37.


4
5.1
797.
7R.
7H.


4
272.
170.
170.



4
285.
26.
76.



4
788.
25.
25.



4
391.
32.
37.


4
5.9
295.
54.
54.


4
271.
168.
168.



4
< i
s . t
283.
55.
55.



4
60
. u
288.
35.
35.



4
291.
23.
23.


4
6.6
293.
62.
67.


4
271.
165.
165.



4
i n
l « v
282.
40.
40.



4
60
• ?
287.
42.
42.



4
5K
. *»
289.
20.
20.


4
5.9
292.
46.
46.


4
270.
165.
165.



4
OB
• 3
280.
45.
45.



4
"» i
•j.i
286.
42.
42.



4
6.7
286.
53.
53.


4
7.6
291.
52.
52.


4
270.
170.
170.



4
Of
• f
279.
50.
50.



4
4 n
•t . o
284.
33.
33.



4
5.1
285.
50.
50.


4
5.9
290.
51.
51.


-------

FEHP= i79. 277. 276. 276. 275. 274.
AF\T= 186. 192. 219. 220. 231. 243.
AFVR= 186. 10?. 210. 229. 211. 243.
HLH1= 0. 0. 0. 0. 0.
1116. 1302. 1493. 1493. 1493.
JYR = 76 1*10= 4 JO»Y = 105
ISTA8= 444444
ftriSs 2.6 1.8 1.5 1.9 1.3 1.3
TEMP= 2«1. 283. 2R2. 280. 280. 700.
ftFVs 124. 176. 214. 205. 60. 55.
AFVR = 124. 176. 214. 205. 60. 55.
HLH1 = 0. 0. 0. 0. 0.
1596. 1862. 2134. 2134. 2134.
JYR=76 110= 4 jn»Y=J07
MS = 3.4 3.6 3.6 2.5 1.2 0.8
TEMPs 280. 2H7. 286. 286. 286. 285.
»FV= 5H. 62. 54. 40. 11. 332.
RFVR= 58. 62. 54. 40. 11. 332.
HLH1= 244. 244. 244. 244. 244.
1726. 1073. 2225. 2225. 2225.
CO
I JYR=76 IM9= 4 JDAY=117
~* isr»8= 333333
lO 4WS= 5.6 6.3 4.3 4.8 5.1 5.2
FE*IP= 282. 281. 281. 280. 290. 279.
HFV= 103. 137. 174. 137. 146. 146.
*FVR= 103. 137. 124. 137. 146. 146.
HLH1= 457. 457. 457. 457. 457.
1255. 13H8. 1524. 1524. 1524.
JYR = 76 I40> 4 JO»Y = H8
HWS = 2.3 2.7 3.6 3.4 4.3 5.2
rCMPs 277. 277. 276. 276. 275. 275.
»FV= 226. 193. 188. 202. 190. 173.

i. J
274.
243.
243.
0
14°3

4
0.7
280.
43.
43.
0
2134

0.6
285.
2.
3.
244
2225


3
4.8
278.
160.
160.
457
1524

4.3
275.
180.

275. 279. 283. 286.
?44. 244. 254. 292.
244. 244. 254. 292.
0. 186. 372.
. 1493. 1493. 1493.

2421
1 .2 0.8 1.1 2.0
281. 294. 2«8. 292.
220. 211. 320. 7.
220. 211. 320. 7.
0. 266. 532.
. 2134. 2134. 2134.

2.2 2.3 2.4 3.9
286. 289. 293. 295.
87. 80. 64. 54.
87. 80. 64. 54.
. 244. 491. 738.
. 2225. 2225. 2225.


3322
5.1 4.2 4.3 3.7
279. 279. 279t 279.
159. 164. 166. 167.
159. 164. 166. 167.
. 457. 590. 723.
. 1524. 1524. 1524.

2.5 2.1 2.4 5.0
277. 280. 282. 284.
174. 172. 199. 182.

787.
5.
5.
558.
1491.

1
2.9
295.
2.
2.
798.
2114.
1
6.1
297.
16.
16.
985.
2275.


1
4.7
280.
170.
170.
856,
1574.

5.1
, 286.
, 158.

280.
3.
3.
744,
1493

1
3.6
296.
2.
2.
1064
2134
1
6.4
298.
46.
46.
1232
2725


1
5.7
281.
166.
166.
989
1524

3.8
287.
166.

290. 291.
7. 5.
7. 5.
. 010.
. 1493.

1 2
3.9 7.5
297. 298.
8. 10.
8. 10.
. 1330.
. 2134.
1 1
5.5 4.1
298. 209.
11. 12.
11. 12.
. 1479.
. 2225.


1 t
6.4 5.9
282. 283.
162. 169.
162. 169.
. 1122.
. 1524.
4 |
4.4 5.4
288. 289.
172. 184.

793.
8.
8.



1
3.6
299.
11.
11.


1
4.3
299.
14.
14.




1
4.6
284.
167.
167.


j
5.4
290.
165.

291.
4.
4.



1
3.3
299.
8.


3
4.0
298.
32.
32.




1
5.1
285.
167.
167.


1
6.3
290.
178.

293.
10.
10.



2
3.3
298.
49.
49.


3
2.8
298.
53.
53.




t
5.0
285.
162.
162.


3
7.3
289.
175.

293.
36.
36.



4
3.8
297.
58.
58.


4
3.6
297.
60.
60.





4.3
284.
178.
178.


4
6.1
288.
179.

201.
43.
43.



4
4.8
295.
56.
56.


4
205.
43.
43.





4.2
283.
212.
212.



6.3
287.
170.

288.
48.
48.



4
5.4
294.
72.
72.


4
293.
40.
40.





4.5
282.
214.
214.



5.7
286.
182.

286.
70.
70.



4
5.3
293.
68.
68.


4
292.
49.
49.





1.9
280.
237.
237.



5.8
285.
182.
4 Q 1

784.
71.
71.



4
3.7
292.
74.
74.


4
291.
35.
35.





1.7
279.
206.
206.



4.7
283.
186.
• a £

283.
55.
55.



4
3.5
291.
54.
54.


4
4.3
289.
32.
32.





2.3
278.
213.
213.



3.5
283.
185.
t a C
      726. 103. 188. 202. 190. 173.  IPO.  174.  172.  199.  1«2.  15B.
HLHl =  914.  914.  914.  914.  914.
      1142. 1180. 1219. 1210. 1210.
 914.   914.  952.  990. 10?R.
1219.  1719. 1219. 1219. 1219.
166. 172. 184.
1066. 1104.
1219. 1719.
                                                                                   165.  178.  175.
ISTARr 4
HWS = 2.0
TEMP= 2HO.
HFV= 42.
»FVR= 42.
UHl- <>
016
— J U >'•*» — I « V
4444
1.2 1.2 1.5 1.3
7.79. 279. 278. 278.
67. 40. 17. 40.
67. 40. 37. 40.
0. 0. 0.
. 1002. 1250. 1250.
4 4
0.9 0.4
278. 278.
125. 177.
)7S. 177.
0. 0
1750. 1750
4 7 1 1 1 1 11
0.9 l.l 7.0 1.7 4.R 4.3 5.7 5.1
280. 284. 287. 290. 292. 294. 295. 296.
76. 11. 43. S5. 28. 55. 55. *«.
76. 11. 43. 55. 78. 55. 55. 5R.
0. 156. 312. 46R. 674. 780.
. 12-ift. 1250. 1250. 1250. 1250. 12SO.
1
4.6
297.
59.
">9.


1
5.1
297.
57.
57.


3 4
4.8 5.6
296. 296.
S5. 51.
55. 51.



6.3
294.
53.
53.



6.4
293.
45.
45.



5.8
290.
12.
12.



4. 1
289.
11.
1 1 .



4.4
290
18
1 8


TVn--t£ luT- c
-------
ftHS =  1.9  2.7  3.J  4.0  4.1  3.B  3.3  2.3  2.9  1.5  3.2  3.«  3. .:*  5.*  5.9  fi.4   7.2   7.2   7.8   8.4   6.4  5.4  2.8
      290. 290. 290. 290. 290. 290. 290. 290. 291. 29t. 292. 292. 293. 292. 292. 29|. 289.  2B7.  286.  2"5.  2R5.  284.  284.  284.
       66.  56.  70.  55.  71.  67. 144. 150. 140. 117. 170. 15*. 167. 165. 145. 15B. 165.  160.  169.  169.  175.  173.  177.  175.
    =  66.  56.  70.  55.  71.  67. 144. 150. 140. 137. 170. 156. 167. 165. 145. I5B. 165.  160.  169.  169.  175.  173.  177.  175.
HLH1=  762.  762.  762.  762.  762.  762.  767.  BOO.  838.  876.  914.  952.
       9<»n. 102B. 1067. 1067. 1067. |067. 1067. 1067. 1067. 1067. 1067. 1067.
JYR=76 110= 5 JDAY»140
ISTM = -1444
HHS= 2.4 1.9 2.4 3.2
TEMP* >H1. ZBO. 279. 279
AFV= 177. 145. 140. 180
AFVR= 177. 145. 140. 180
HtHI= 40. 40. 40.
1150. 1335. 1527.
JYR = 76 IMO= 5 ,IDAY = 141
ISTAB= 4444
HWSs 2.1 2.1 1.9 1.9
FEMP = 283. 283. 282. 281
AFV= 105. 194. 203. 189
HFVRs 106. 194. 203. 189

4
If
.*>
. 279.
. 165.
. 165.
40.
1527.

4
0.9
. 280.
. 106.
. 106.

4
21
. 1
278.
148.
148.
40.
1527.

4
1.2
280.
15.
15.

4
20
. 8
27B.
165.
165.
40.
15274

4
In
.2
280.
31.
31.

2 3
OC" no
.5 0. H
281. 284
243. 184
243. 184
40.

1
»«
. 3
. 287
0
0
225.
1527. 1527.

4 3
0.7 0.9
282. 286
218. 2
218. 2

2
<^
.3
. 289
7
7

1
1 7
. 289.
. 185.
. 185.
410.
1527.

2£
. 6
. 292.
0.
0.

1
290.
11.
11.
595.
1527.

1
3.
. 1
291.
7.
7.

1
291.
5.
5.
780
1527

H A
3*0
294.
9.
9.

1 1
292. 293.
7. 6.
7. 6.
. 965.
. 1527.
If
1
295. 296.
3. 358.
3. 358.

1
294.
54.
54.



1
297.
14.
14.

1
294.
45.
45.




297.
10.
10.

3
294.
171.
171.




297.
13.
13.

4
293.
171.
171.




297.
40.
40.

4
292.
152.
152.




295.
42.
42.

4
290.
133.
133.




292.
50.
50.

4
47
. «
288.
138.
138.




290.
79.
79.

4
4f
• 1
286.
147.
147.




289.
102.
102.

4
i a
* . o
285
135
135




288
65
65
HUH1=    0.    0.    0.    0.    0.    0.    0.  190.  380.  570.  760.  950.
      1140. 1330. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524. 1524.
DO
1
CO
o
JYR = 76 1*10= 5 JO»Y = 142
ISTUBa 444444442211
MrfS= 2.5 2.2 2.6 2.5 1.6 0.7 0.5 0.8 O.B 1.1 2.2 2.0
TEMP= 286. 286. 285. 285. 284. 283. 283. 285. 288. 291. 294. 296.
*FV= 84. 86. 89. 114. 59. 97. 191. 171. 2. 3. 5. 3.
AFVRs 84. 86. 89. 114. 59. 97. 191. 171. 2. 3. 5. 1.
•iLHl* 0. 0. 0. 0. 0. 0. 0. 171. 342. Si).
1
2*
t 7
297.
3.
3.
684
1 I
21) 1 M
.9 2.5
248. 298.
3. 7.
3. 7.
. 85S.
1
2 A
. V
299.
10.
to.
3
O 1
/ i /
299.
14.
14.
4
3n
• v
299.
31.
31.
4
}•
. 3
298.
72.
72.
4
397.
70.
70.
4
294.
167.
167.
4 4
293. 291.
170. 171.
170. 171.
4
290
177
177
      1026. 1197. 1372. 1372. 1J72. 1372. 1372. 1372. 1372. 1372. 1372. 1372.
ITEAR RASED ON  20. DAYS
-------
       TENNESSEE  VALLEV AUTHORITY -  KINGSTON  POWER PLANT


                                        MOM—502

          MAXIMUM MEAN CONC=  1.0752E-04   OIPF.CTION = .16  DISTANCES  0.7 KM
        RANGE
                       ANNUAL MEAN CDNCF.NTRAT ION AT FACH RECEPTOR
                  0.7 KM          1.1  KM          2.5 KM          4.7 KM
                                                                             9.7  KM
CO
CO
5TR
  I
  1
  1
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 Id
 19
 20
 21
 22
 23
 24
 25
 26
 27
 2«
 29
 30
 31
 32
 33
 34
 35
 36
7.15924E-05
6.40918E-05
5.92294E-05
5.85252E-05
5.60928E-05
4.9289BE-05
«. 31829F.-05
4.062-50E-05
4.00689E-05
4.00134E-05
4.01060E-05
4.07425E-05
4.36242E-05
5.26838E-05
7.01B66E-05
8.33698E-05
7.49765E-05
5.75754F.-05
4.6I406E-05
4.15522E-05
4.02807E-05
4.00346E-05
4.00028E-05
4.00009E-05
4.000306-05
4.00145E-05
4.00651E-OS
4.0I649E-05
4.02249E-05
4.01656E-05
4.00768E-05
4.01308E-01
4.07036E-05
4.29409E-OS
4.93071E-05
1 .07521E-04
6.56347E-05
5.741 17E-05
5.271 HOE-05
5.22618t-05
5.07607E-05
4.59059E-05
4.18013E-05
4.02938E-05
4.00251E-05 .
4.00053E-05
4.00371E-05
4.02996E-05
4.16097E-05
4.671 10E-05
5.70159E-05
6.7251 IE-OS
6.07333E-05
4.94688E-05
.324H5E-05
.09190E-05
.01915F-05
.00255E-05
.00035E-05
.00270E-05
.00543E-05
.00408E-05
4.01092E-05
4.03057E-0')
4.04320E-05
4.03054E-05
4.01 179E-05
<.00840E-05
4.04594F-05
4.21774E-05
4.7522fiE-05
9.83995E-05
5.73479F.-05
5.1482RE-05
4.80910E-05
4.73945E-05
4 .63081E-05
4.32857E-05
4.09063E-05
4.01085F.-05
4.00082F-05
4.01656E-05
4.00136E-05
4.01776E-05
4.10059E-05
4.30232E-05
4.95525F.-05
6.41231E-05
5.45445F-05
4.54252E-05
4.17959E-05
4.05775E-05
4.01590E-05
4.00149E-05
4.00090E-05
4.01893E-05
4.05416F.-OS
.02043F.-05
.01132E-05
.03375E-05
.04979E-05
.03375E-05
4.01065F.-05
4.00384E-05
4.02035E-05
4.12030E-05
4.45329E-05
7.83581E-05
.87472E-05
.67160F-05
.49742E-05
.37927F-05
.39301E-05
.15544E-05
.0384BE-05
.00671E-05
.00026E-05
.05172E-05
.00072F.-05
.05098E-05
.16048E-05
.26367E-05
».61fi95E-05
5.24711E-05
5.09394E-05
*.28754E-05
4.08558E-05
4.02756E-05
4.04040E-05
4.0005RE-05
4.00047E-05
1.0191 IE-OS
.06674E-05
.01974F.-05
.00605E-05
.020S5E-05
.03191F-05
.02065F.-05
.00567E-05
4.00121E-05
4.00624E-05
4.045fl9r-05
4.19252E-05
5.87648F.-05
4.44041E-05
4.34330E-05
4.12822F.-05
4.21614E-05
4.3169ftE-05
4.07721E-05
4.01657F-05
4.02836E-05
4.00006E-05
4.04618E-05
4.00021E-05
4.06119F.-05
4.14091E-05
4.22615E-05
4.3R364E-05
5.44404E-05
4.71813E-05
4.14812E-05
4.04306F.-05
4.01335F.-05
4.04729E-05
4.00019F.-05
4.0001 IE-OS
4.00931E-05
4.04128F-05
4.00953E-05
4.00268E-05
4.01111F-05
4.01809F.-05
4.01 t 11E-05
4.00258E-05
4.00038E-05
4.00201E-05
4.01fift4F.-05
4.09084E-05
4.91 197F-05
-------
            E VALLEY AUTHORITY  -  KINGSTON  POWER  PLANT
                                    NOM--S02

fEARLY MAXIMUM 24-HOUR CONC=   7.0913E-04   01 RECUON = 360 .   DISTANCE  0.7 KM
  RANGE
               HIGHEST 74-HOUR  CONCENTRATION  AT FACH RECEPTOR
            0.7 KM                 1.3  KM                7.5 KM
OAY=319.
 4.7 KM
                        8.7  KM
J M. "
' 1 t
2 1
j 1
4 :
5 1
6 1
' 7 1
9 '
9
' 0
t
2
' 3
4
15
CD * J
1 16
— • j 7
l\i 18
1 9
20
21
1 22
23
24
25
26
27
' 28
29
30
( 31
32 '
33 '
34 1
35 1
36 '
.2702E-04 I
.5034E-04 I
. 3494E-04
.4635E-04
.7261E-04
. 344f>E-04
.6185E-05

*0«65E-05
.0171E-05
. 1651F-05
.9237E-05
.19B8E-05
. 1412E-04
.6237E-04
.91B9E-04
. 6623 E -04
.378BE-04
. 1 997E-05
.8962E-05
.4397E-05
.0627E-05
.0054E-05

. 0 0 6 0 E - 0 5
.0289E-05
. 1 302E-05
.320BE-05
.4497E-05
.3297E-05
.1300E-05
I.1327E-03
I.7036E-05
5.2006E-05
J.3062E-05
Z.0913E-04
298 9.43?<>E-05 (
298 9,6356E-05 (
29B 9.3357E-03 (
7<»2 1.0875E-04 (
340 1.3197E-04 1
340 9.9641E-05 (
340 ) 5.939BE-05 (
340 ) 4.3349F.-05 {
340 ) 4.0294E-05
342 ) 4.0050E-05
34? ) 4.0624E-05
342 ) 4.4714E-05
342 ) 5.M94E-05
342 ) 8.0993E-05
342 ) I.1195E-04
277 ) 1.3971E-04
337 ) 1.20I4E-04
332 ) 1.0075E-04
332 ) 7.3419E-05
332 ) 5.3364E-05
332 4.3338E-05
332 4.0481E-05
332 4.0038E-05
315 4.0438E-05
315 4.10B5E-05
315 4.0B15E-05
t 315 4.21B4F.-05
( 315 4.6I05E-05
[ 315 4.8640E-05
[ 313 4.6I04E-05
[ 315 ) 4.2153E-05
[ 17 ) 4.0637E-05
[ 17 1 4.4044E-05
[ 17 ) 5.4902E-05
t 17 ) 7.0155E-05
( 319 ) 2.0103E-04
315
298
298
797
340
340
340
340
340
342
342
347
142
342
342
331
332
332
332
332
332
332
312
315
315
315
315
315
315
315
315
17
17
17
17
315
B.7060E-05 ( 356
6.8828E-05 ( 308
7.3032E-0-! ( 298
B.5709E-05 ( 340
9.8167E-05 ( 3«0
6.P9B3E-OS { 340
.7B16E-05 ( 340
.1093E-05 ( 340
.0072E-05 ( 340
.329BF.-05 ( 331
.0210E-05 ( 342
.2263E-05 ( 342
4iBB27E-05 342
5.-B297E-05 342
9.0P96E-05 222 ]
( 1.420BE-04 241
) 1.0149E-04 231
I 7.1115E-05 332
1 5.8011E-05 332
I 4.B035E-05 337
) 4.2043E-05 ( 332
4»0265E-05 ( 332
4.0162E-05 ( 315
4.37B6C-05 ( 315
5.0837C-05 ( 315
4.4085E-05 ( 315
4.2264E-05 { 315
) 4.6750E-05 ( 315
) 4.995BE-05 ( 315
t 4.6749E-01 ( 315
) 4.2101E-05 ( 315
) 4..0303E-05 ( 315
) 4.1912005 ( 355
) 4.9565E-05 ( 17
) 6.2497E-05 ( 17
) 1.55IBE-04 ( 356
6.7480F-05
6.9010E-05
6.0435E-05
6.60B1E-05
1.6759F-05
5.1B76F-05
4.2789E-05
4.0809E-05
4.0023E-05
5.0340F.-05
4.0107E-05
4.7198F-05
5.997IF.-05
6.0fi3BE-05
8.9716E-05
1.B022E-04
9.5581E-05
5.5262E-05
1 4.7973E-05
4.3692E-05
4.7034E-05
4.0093E-05
4.0090E-05
4.3B72E-05
5.3347F-05
4.3949E-05
4.1209E-05
4.4130F-05
4.63B7E-05
4.4130E-05
4.1119E-05
4.0127E-05
4.0641E-05
4.4052E-05
3.1483E-05
» 1.0122E-04
35R ]
292 ]
[ 29fl ]
340 ]
340 ]
340 ]
32t ]
321
331 ]
331
342
331
331
331
222
241
231 1
231 ]
332
132
331 1
.332 ]
315
315
315
315
313
t 315
[ 315
( 315
[ 315
t 315
t 355
f 17
[ 17
( 35«
5.9166E-05 (
5.9110E-05
5.2670E-05
5.4022E-05
6.1374E-05
4.3650E-05
4.1237E-05
4.5495E-05
4.0003E-05
4.9235E-05
4.0035E-05
3.0218E-05
5.85B4E-05
3.9776E-05
7.0548E-05 (
1.3377E-04
7.3369E-05
.9335E-05
.4160C-05
.1878E-05
.9010E-05
.0032E-05
.0021E-05
.1861E-05
.8256E-05
.1907E-05
4.0537E-05
4.2222E-05
4.3617E-05
.2222E-05
.0515E-05
.0045E-05
.0229E-05
.1412E-05
4.6743E-05
7.2166E-05
355 )
292 )
[ 185 )
[ 340 )
[ 340 )
[ 340 )
[ 321 )
[ 321 )
[ 340 )
[ 331 )
[ 342 )
331 )
[ 331 )
f 331 )
222 )
241 )
[ 231 )
231 )
[ 332 )
332 )
331 )
332 )
315 )
315 )
315 )
315 )
315 )
315 )
315 )
315
315
315
355
17
[ 17
[ 356 )
-------
    TENNESSEE  VALLEY AIITHOHITY -  KINGSTON POWER PLANT
                                     NOM--S02

(EARLY MAXIMUM  3-HOUR COMC=  8.0202E-04  DIRECTIONS   0.   orSTANCE=   0.7  KM  DAY=308.   HOUR=1500.
  RANGF
   HIGHEST  1-HOUR CONCENTRATION  AT  EACH RECEPTOR
0.7 KM                 J.3 KM                 2.5 KM
4.7 KM
                                                                                                          fl.7 KM
1
2
3
4
5
6
7
B
9
10
11
1 2
13
1 4
15
16
03 17
1 1 B
m 19
GO 20
21
72
23
24
25
?6
27
28
29
30
31
32
33
34
35
36
5. 1375E-04
5.2550E-04
4.H207K-04
5.65771C-04
5.62H9E-04
4.2141K-04
1.91 16E-04
7.7041E-05
4.36'>2E-05
4. 1 117E-05
5.2208E-05
1 .0354E-04
2.1281K-04
4.0023P-04
4.7996K-04
5.6257F-04
5.037QE-04
1.9671E-01 (
2.3076E-04 (
1.1904K-04 (
h.l454fc-05 (
4.3b50E-05
4.0355K-05 (
4.0126E-05 (
4.0482R-OS (
4.^315C-05 (
5.0412E-05 (
6.6380E-05 <
7.5977E-05 (
6. 6380 K -05 (
5. 040 OE -05 (
5.0612E-05 (
9.6079E-05 (
2. 1 395E-04 (
3.7336^-04 (
B.0202F-04 (
C 121 )
f 298 )
[ 298 )
( 292 )
[ 340 )
f 340 )
t 340 )
( 340 )
[ 140 )
t 342 )
[ 342 )
[ 142 )
t 342 )
342 1
142 )
331 )
218 )
132 )
312 1
332 )
132 )
332 >
332 )
315 )
315 )
315 )
115 )
315 1
115 )
115 )
315 )
17 )
17 )
17 )
17 )
30B )
3.5080E-04 ( 321
2.7529E-04 ( 308
3.0R91E-04 ( 29B
3.1965E-04 ( 292
3.5105E-04 ( 340
2.5441E-04 ( 140
1.1562E-04 ( 340
5.1311F.-05 ( 340
4.1170E-05 ( 340
4.0383E-05 ( 342
4.4552E-OS ( 342
6.8153E-05 ( 342
1.3441E-04 ( 142
2.7166E-04 ( 342
2.BB17E-04 ( 241
3.3725E-04 ( 342
3.2541E-04 ( 332 }
2.3328E-04 ( 132 1
1.7919E-04 ( J12 ]
1.I1HOE-04 ( 112 )
6.171BE-05 ( 332 1
4.3445F-OS ( 132 1
4.0296E-05 ( 112 )
4.3500E-05 ( 315 J
4.B6B1E-05 ( 115 )
4.6520E-05 ( 115 1
5.7471E-05 ( 315 1
8.8817E-05 ( 315 ]
1.0912E-04 ( 315 )
B.8B14F-05 ( 115 )
5.7222F-05 ( 115 )
4.50B4E-05 ( 17 )
7.1273E-05 ( 17 )
1.4401F-04 ( 17 )
2.4065E-04 ( 17 )
5.6914E-04 ( 154 )
2.1638E-04
2.1085E-04
2.2B47F.-04
2.2089C-04
2.2359E-04
1 .4669P-04 (
7.5969E-05 (
4.4062E-05 (
4.0267E-05 (
6.6.181E-05 (
4.1279E-05 t
4.9619E-05 (
9.0394E-05 (
1.1146E-04 {
2.1423F.-04 (
2.9346E-04 (
2.6657F-0* (
1.4353E-04 (
1.34HOE-04 (
9.2965E-05 (
5.4942E-05 {
4.2015E-05 (
4.1299E-05 (
7.0207F1-05 f
1.2666E-04 (
7.2687F.-05 (
5.8111E-05 (
9.4002F-05 (
I.1967E-04 (
9.3995E-05 (
5.6911E-05 (
4.2412E-05 (
5.?969E-05 (
1.0843E-04 (
1.92BIF-04 (
4.2996F-04 f
356 )
292 )
298 )
340 )
340 )
321 )
321 )
340 )
340 )
331 )
342 )
342 )
331 )
342 )
222 )
222 )
23! )
132 )
332 )
332 )
332 )
332 )
315 )
315 )
315
315
315
315
315
315
315
315 )
355 )
17 J
17 )
356 )
1
2
1
1
1
1
6
4
4
1
4
9
1
1
2
3
3
1
B
6
9
4
4
7
I
7
4
7
9
7
4
4
4
7
1
2
.M78E-04 (
.6024E-04 (
.7915E-04 (
.7907E-04 (
.9179E-04 (
.1772F-04 (
.2069E-05 (
.6462E-05 (
.01R4F-05 (
.2272E-04 (
.04H6E-05 (
.7505F-05 (
.9712E-04 (
.8B72F-04 (
.1221F-04 (
.1202E-04 (
.0564C-04 (
.29SOE-04 (
.7540E-05 (
.6225E-05 C
.6251F-05 (
.077BE-05 (
.0719E-05 {
.0573E-05 (
.4678E-04 (
.15HRF.-05 (
.9671F-05 (
.304 IE-OS (
.1057F-05 (
.3019E-05 (
.B951F.-05 (
.1017E-05 (
.4224E-05 (
.OOR3E-05 (
.2281E-04 (
.7212E-04 (
155
292
298
140
340
121
321
321
331 )
131 )
342 )
331 )
331 )
331 )
222 )
241 )
231 )
211 )
112 )
112 )
311 )
332 )
315 )
315 1
115 )
315 )
315 )
315 )
115 )
115 1
315 )
115 )
155 )
17 )
17 )
156 )

•
ff
•
•
8.
4.
8.
4.
1 .
4.
t.
1 .
S.
1.
2.
2.
9.
6.
5.
1 .
4.
4.
5.
i.
5.
4.
5.
6.
5.
4.
4.
4.
5.
8.
1.
49HE-04
8845E-04
3716E-04
2040E-04
4219E-04
3386E-05
9838E-05
3960E-05
0024E-05
1388E-04 (
0172E-05 (
2172E-04 (
8815P-04 (
9254E-04 (
3344E-04 (
4650E-04 (
3209F-04 (
83B2E-05 (
6072F.-05 (
3733E-05 (
1207E-04 (
0255E-05 (
0171E-05 (
4892E-05 (
0605E-04 (
5253E-05 (
4294E-05 (
7779E-05 f
8937E-05 (
7779E-05 (
4124E-05 (
0361E-05 (
1518E-05 (
0524E-05 (
9606E-05 (
6B57E-04 (
155
292
IRS
340
292
321
321
321
331
331
342
331
331
311
222
241
342
211
332
332
331
112
315
315
315
115
315
315
315
315
315
315
355
17
17
356
-------
                                                     MAXIMUM  OMf.r  CONCENTRATIONS
                                          DAY     24-HOUR CONCENTRATION     DIRECTION    DISTANCE

                                          319          2.0913E-04             36           0.7t
                                          308          2.01 ME-01             3*           0.71
                                          315          2.0I03E-04             36           1.33
                                          222            .9lfl9E-04             16           0.71
                                          331            .8971E-04             II           0.71
                                          241            .8027E-04             {6           4.65
                                          231            ,765f.E-04             16           0.71
                                          342            .7424E-04             16           0.71
                                          356            .7353E-04             36           1.33
                                          340            .7261E-04              5           0.71
                                          219            .6BIBE-04             16           0.71
                                          332            ;6623E-04             17           0.71
                                          JS5            i6227E-04             36           1.33
                                           17            .6132E-04             36           0.71
                                          354            45968E-04             16           0.71
                                          284            .5769E-04             36           0.71
                                          321            t5168E-04             36           0.71
                                          185            45137E-04             36           0.71
                                          298            .5034E-04              2           0.7t
                                          292            i4635E-04              4           0.71
00
-------
                CO.
SOLVENT  REFIMRD COAL STIIOY

SHAWVU.LK  PJ,ANT 1975
                                 PROJECT 7101
  K5Tl, = 4  IHR=1   TTAP.IPHNs 0 0
    10ATA,IMAX,ILOTSa 000
  IOHGT= 2   WHCT=  <» 1 .0  "ST= 1
  NPO[,= ?   JTAP=  1    INPIITs 2
  NSffts 1   PCr.lNV=    0.3048006
  OAY--
i.n


















;
1










1
J
1
J
1
t
1
1
1








.


                                                 =  i.o
                                                         TAF=
                                                           1   1
                                                                                   7S.O
                                                                                                       l   t
00
en
-------
PLANT ELEVATION (FEET ABOVE  SEA  LEVEL) —
 10BO.O
    RECEPTOR ELEVATIONS  (FEET  ABOVE  SFA  LEVEL)
DIRECTION   RINGM
                               RINGI1    PINKI4
                                                 RINGI5
1
2
3
4
[ 5
6
7
B
q
10
1 it
12
11
*• 14
15
16
[ 17
IS
19
' ? 70
150.0
200.0
160.0
120.0
200.0
250.0
220.0
IHO.O
100.0
070.0
050.0
160.0
120.0
400.0
420.0
440.0
440.0
440.0
420.0
400.0
-• 21 1200.0
g( ?? 10*10.0
23 1050.0
24 1200.0
75 1200.0
2*i 1260.0
27 11BO.O
28 1440.0
' 2<» 1460.0
10 14*0.0
11 14PO.O
< 12 1500.0
11 1500.0
14 I4«0.0
' 15 1460.0
16 1440.0
STACK 1 1--SHAWVILLE
STACK » 2--SHAHVILLE
1100.0 1400.0
1200.0 1600.0
1460.0 1590.0
1400.0 1540.0
1160.0 1520.0
1140.0 1150.0
1170.0 1260.0
1100.0 1540.0
1100.0 1140.0
1120.0 1584.0
1170.0 1580.0
1060.0 1140.0
1150.0 1100.0
1470.0 1420.0
1520.0 1605.0
1590.0 1580.0
1100.0 15BO.O
1260.0 1260.0
1200.0 1170.0
1100.0 1400.0
lOflO.O 14HO.O
1100.0 1577.0
1460.0 1540.0
1500.0 1540.0
1400.0 1540.0
1440.0 1520.0
1460.0 1560.0
1400.0 1540.0
1440.0 1560.0
14HO.O 1500.0
1500.0 1560.0
1540.0 1460.0
1570.0 1400.0
1400.0 1746.0
1700.0 1640.0
1461.0 11BO.O
STACKS U?
STACK 3 ANO 4
IBflO.O
7174.0
1760.0
1600.0
1600.0
1567.0
1560.0
1500.0
1627.0
1619.0
1766.0
1B16.0
1770.0
1741.0
1700.0
1900.0
1900.0
1780.0
1700.0
1625.0
1540.0
1440.0
1 170.0
1551.0
1505.0
1660.0
1880.0
1760.0
2140.0
2040.0
7100.0
7000.0
1041.0
221B.O
1960.0
1900.0
COAL-TSP
COAL-TSP
STACK STRATEGY SO? EMISSION RATE PART
TYPE
1 NOM
2 NOM
(GUS/SEC)
Rl.OO
26P.OO



7160.0
2100.0
7000.0
1900.0
1BOO.O
1560.0
1500.0 '
1481.0
1549.0
1564.0
I66B.O
1744.0
1700.0
1ROO.O
1900.0
2100.0
7100.0
1840.0
1670.0
1540.0
1520.0
1670.0
1517.0
1706.0
1771.0
7170.0
7370.0
7751.0
7774.0
2251.0
2293.0
2720.0
2240.0 1
2056.0
7770.0
2405.0

NORMAL LOAD
EMISSION RATE . HEIGHT DIAMETER EXIT VELOCITY TEMP
(GMP/SFC) (METERS) (METERS) ("/BED (DCC.K)
0.00 182. BB l.fll 21. B2 391.00
0.00 99.06 1.71 18.81 386.00
                                                                                                              VOLUMETRIC FLOW
                                                                                                                (M*+3/8EC)

                                                                                                                   24B.77

                                                                                                                   205.87
  RAMGE(KM)a    0.81    1.66   1.12   6.65  11.29
  SEASONAL  VARIATIONS  PY CASE *
            1    1.26    1.09   0.9B   O.B7
1.10   0.97   0.87   1.OP
O.Ofl
O.BO
                                           1.05
                      1 .00
      QACCTI  nu
-------
       PENN. ELECTRIC  co.  SHAWVIU.E


                                       MOM--S02

          MAXIMUM  MEAN CONC=  8.015flE-05  DIRECTIONS  JO   r>ISTANCE =  O.R KM
        RANf.E
                    ANNUAL MEAN CONCENTRATION AT EACH  RECEPTOR
              O.R  KM          1.7 KM         3.3 KM          6.7 KM
                                                                              13.3 KM
DO
i
CO
DIR
  1
  2
  3
  4
  5
  6
  7
  a
  9
 10
 It
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 29
 29
 30
 31
 32
 33
 34
 35
 36
7.R28B4E-05
7.88710E-05
7.91370E-05
7.88309E-05
7.02316E-05
7.81096E-05
7.85449E-05
7.92546E-05
7.98836E-05
8.01503F-05
7.97293E-05
7.87222E-05
7.76778E-OS
7.69n44E-05
7.fi3928E-05
7.60090E-05
7.57726E-05
7.S5982E-OS
7.54653E-05
7.S419RE-05
7.53934E-05
7.53926E-05
7.«)4903E-0'5
7.56709E-05
7.5R203E-05
7.5B754E-0«i
7 .59062E-OS
7.6153 JE-05
7.67533E-05
7.73224E-05
7.73340E-05
7.69041E-05
7.64270E-05
7.61999E-05
7.62113E-05
7.93230E-05
7.8f.391E-05
7.9183fiE-05
7.94290E-05
7.90«1i?E-05
7.84473E-05
7.82598E-05
7.B7J32E-05
7.94522E-05
7.9P352E-05
7.96401E-05 ,
7.«f»240E-05
7.79945E-05
7 .72S84E-05
7.6760HE-05
7 .63765E-05
7.597BOF-05
7.57fififlE-05
7.56134E-OS
7.54735E-OS
7.R421 IE-OS
7.54036E-05
7.54399E-05
7.S6326E-05
7.595fi7E-05
7.62n75E-05
7 .62005E-05
7 .6099SE-05
7.63118E-05
7.68541E-nS
7.77.311E-05
7.71350E-05
7.67426E-05
7.637*7K-05
7.6208fiE-05
7.ft20}6C-05
7.9S002E-OS
7.73473E-05
7.7S793F-05
7.84956E-05
7.84103E-05
7.81 507F-05
7.82848E-05
7.90263E-05
7.95092E-05
7.93962E-05
7.H8218E-05
7.78235E-05
7.73074E-05
7.66970F-05
7.62952E-05
7.60341E-05
7.56693E-05
7.<5588ftE-05
7.54S29F-05
7.543R2E-05
7.52986E-05
7.52838F-05
7.53551E-05
7.55141005
7.5R689F-05
7.63283E-05
7.609SRE-05
7.59590F-05
7.M967E-05
7.67932E-05
7.68387E-05
7.6fi354F-05
7.62050E-05
7.59899E-05
7.58835E-05
7.58454F-OS
7.75879E-05
7.630SOE-05
7.65387E-05
7.77073E-05
7.771S3F-05
7.76017E-05
7.77592E-05
7.84902C-OS
7.97HBF-05
7.84656E-05
7.7R871E-05
7.70382F-05
7.67371E-05
7.63099E-05
7.59672F-05
7.5R454E-05
7.54690E-05
7.55198F-05
7.53RORE-05
7.53915E-05
7.571R5F-05
7.57175E-05
7.53107E-05
7.55019E-05
7.59558E-05
7.65607E-05
7.61060E-05
7.60505E-05
7.fil940F-05
7.68337F-05
7.65705F-05
7.6204RE-05
7.58573F-05
7.56993E-05
7.567BfiE-05
7.556HOE-05
7.6274PR-05
7.57553F-05
7.59837E-05
7.68058E-05
7.67414E-05
7.66321E-ns
7.6R949F-05
7.70635E-05
7.77219E-05
7.70808E-05
7.67609E-05
7.M91RE-05
7.60520E-05
7.5R672E-05
7.5fil39E-05
7.55406E-05
7.S2933E-05
7.533"9E-05
7.52570E-05
7.52633E-05
7.515R5E-05
7.51349F-05
7.52351F-05
7.54261E-05
7.57974E-05
7.fi7607E-05
7.S9320E-05
7.5B834F-05
7.58391E-05
7.67923E-05
7.60039E-05
7.57603F-05
7.55771F-05
7.54496E-05
7.5«5131E-05
7.54013E-05
7.Sfi«fi7E-OS
-------
(  OSl
  ES
  u
  V
  £61
  frfr2
  Ml
  Ul
  896
  El
  It
  166
  b!6
  Obi
  BI6
  816
(  06
(  It
(  98
(  60E
(  lOt
(  96
(  61
(  bit
(  OE
(  iifr
I  V
(  61
i  ZfrZ
(  16
(  90E
(  L
I  £82
        so-aobio'6
        s.o-30916'**
        JiO-38892'6
        so-ai29b'8
        SO-3»Ml'6
        frO-3£2SO'I
        SO-3bfrlS*6
        »o-aosio'
        fro-auio"
        frO-390»0*
        90-39E 16*8
        SO-392IB-B
        SO-36698"B
SO-38099'6
SO-3IE£fr'6
        »0-3£902'
        frO-3»9*l*
        »0-3b£60*
        >o-a»oti'
                 (  S6I
                 (  II
                 I  ti.

                 (  9
                 (  161
                 I  8
      ) V.0-36l*b'b
      ) S0-396i6'6
      ) iO-39681'6
      ) £0-30110*6
      ) S,0-3|rtOb'6
      ) frO-30<,b6'l
      ) (>0-3bbbO*l
      J »0-3Sbl6*l
      ) frO-36ttfl
                               ) frO-39itfr'l
                       } »0-3b9lO* I
                       ) frO-3fr100' I
I  161
(  161
(  86
(  Cl
(  ee

t  uu
(  081
                 I  It
                 I  ft
(
(  C
I  19
(  bl
I  Vb
(  01

(  frl
(  61  ) frO-3fri,66'l
(  Oil J frO-3M90*l
                               ) i,0-3li.8fr*b
                               )
                         t  voi ) >o-aonfi
                                                  t
                                                    U
      ) »0-3bbb I * I
      ) S0-3bb*>9'6
                  8
(  116 ) bU-JJfr^Cb
(  8SZ ) iO-3U02'6
(  616 ) i-O-^OSH-'b
(  £61 ) VO-381E6M
(  061 ) V0-309»0*l
                                                    £*6
                                                )  iO-Jtbdb'b
                                          (  811  )  5>0-Jllt86*6
                                          (  Sfrl  )  SO-36E69'6
                                          I  El  )  t-l
  162
  816

  816

  02
  616
(  bIZ
I  9tt
                                                  i  i
                                          (  f6
                                          (  OE
                                                  (  61
                                                  (  II
                                                  I  9S
                                                  (  90E
                                                    til
        r i

>.0-dblll*6
                                 4.0-3191 8*6
                                 SO-3lbOfr'6
                                         :•&
                                                          vo-avs.62*
                                                          >0-3lb99*
                                                  VO-atBbl'
                                                          I
                                                              ft
                 (  Lb
                 (
    ) &0-36160'
    ) »i
    ) H
                   It
                   It
                   06
                   06
                   81
                   Bl
08
Ob

16
16
                   b!6  )
                   066  )
                   91 I  I
                   9t I  J

                   utC  )
                   Ot6  )
                                                                                 )  vo-ao9b
                               )  »0-3£86
                               )  >0-39b*
frO-3t160'
VO-30610'
                                                                                   VO-309M
                           Ob  )
                           166 )
                           166 )
                           Itl )
                           Ibl )

                           Of I )
                           til )
      frO-30886'

      f0-3b»8 I '

      frU-Jttil'

      »0-390I6'
                                                                                   V0-3i.6bl
                                         I Oil  )  frO-3lbOO'6
                                         ( 891  )  frO-31861
                                         ( flit  )  frO-aiEll'
                                         ( Itl  J  t-C
                       (  061 ) frl
                       (  021 ) >0-aS6»C'
                       (  021 ) »(
t  911 ) t-U-auEBO'
(  911 ) >0-39lir
{  OBI ) frO-:iOfr6l'
(  OBI ) frU-3b9E6'
(  161 ) VC
(  121 ) t(
I  161 ) t>0-3bl9F'
I  121 ) frO-anOhZ1
(  616 ) frl
(  616 ) K
I  261 ) H
(  661 ) frl
                 I  6E6  )  K
                 (  OE6  )  H
                 (  OE6  )  frl

                 (  95,6  )  VO-32016'
                 (  166  )  frO-^ytkE1
                 I  126  )  frO-36196'
                 I  IEI  )  frO-3l60fr'
                 I  ISI  )  VO-3601*'
                                                                                            I  Ofrl  )  frO-3ZZ6f
                                                                                            t  Oil  )  frO-38t>06'

                                                                                                 hX  8*0
9£
St

£C
6E
IE
OE
b£
82
£2

S6

£2


02

61
It
91
SI
frl
£1
61
U
01
b
8
I
9
S

E
6
I
dia
                                                                                                                              CO
                                                                                                                              oo
                                                                                                                               i
                                                                                                                              CO
                                                                           IV
                                                                                            ttnt>H-»6
                                                 B'O
                                                                  *09t
                                                                               6Ub'--HON
-------
        PF.NN. ELECTRIC CO. SHAHVILt,F







                                         HOM--S02




   YEARLY MAXIMUM  3-HOUR CONC =  5.0131F-04   DIRECTIONS  0.  DISTANCFr  O.fl  KH  HAY=150.  HOIIR=1500.
00

HIGHEST 3-HOUP
RANGE 0.8 KM
DIR
1
2
3
4
5
6
7
8
9
10
1 1
1 2
1 3
14
15
16
17
1 8
19
20
21
22
23
74
25
26
27
28
29
30
31
32
33
34
35
36

3.0191E-04 ( 146 )
3.1542E-04 C 238 )
3.1354E-04 ( 237 )
3.1474E-04 ( 131 1
2.6968E-04 ( lit )
2.9910E-04 ( 23ft )
2.78«i2O04 ( 221 V
2.9279E-04 { 245 )
3.0412E-04 ( 224 )
3.2535E-04 { 230 )
3.2358F-04 ( 239 )
3.1619E-04 ( 239 )
2.8049004 ( 136 )
3.0337E-04 ( 136 )
2.9782E-04 ( 122 )
2.7735O04 { 219 )
2.9966E-04 ( 219 )
2.9394E-04 ( 219 )
2.6311E-04 ( 127 )
3.H73E-04 ( 127 )
2.7036E-04 ( 127 )
2.7511E-04 ( 180 >
2.3510004 ( 176 )
2.6006004 176 )
2.5294E-04 235 )
3.0022O04 145 )
7.779BE-04 145 )
2.40S9E-04 161 )
2.6164F-04 21 )
3.3180004 21 )
3.3037004 137 )
7.8293E-04 ( 137 )
2.924JE-04 ( 250 )
2.9944E-04 ( 135 )
2.7803E-04 ( 135 )
5.0131E-04 ( 150 )
CONCENTRATION AT EACH RECEPTOR
1.7 KM '3.3 KM 6.7 KM 13.3 KM

2.3313F-04 ( 146 ) 1.B504E-04 ( 728 ) 1.6745F-04 ( 165 ) 1.6440E-04 ( 283 )
2.6176E-04 ( 140 ) 2.1547E-04 f 307 1 1.8271E-04 ( 17 ) 1.7R73E-04 ( 7 )
2.5798E-04 ( 237 ) 2.2523E-04 ( 3 ) 2.7548F-04 ( 306 1 7.0544E-04 ( 306 )
7.8712E-04 f 73 ) 2.1328E-04 ( 15 1 2.7735F.-O4 ( 15 ) 7.2756E-04 ( 23 )
2.3548E-04 { 124 ) 7.4054E-04 ( 18 ) 7.5B27F-04 ( 247 1 2.3020E-04 ( 242 )
2.756RE-04 ( 14 ) 2.4094E-04 ( 18 ) 2.7996F-04 ( 1 ) 1.7255E-04 ( 37 )
2.3736F-04 ( 14 ) 2.33B1E-04 ( 16 ) 2.2586F-04 f 14 ) 2.0367E-04 ( 308 )
2.4B46E-04 ( 30 1 2.3847F-04 ( 9 ) 7.4815F-04 { 4 1 1.9645O04 ( 45 )
2 4703F-04 30 ) 2.4218E-04 ( 9 ) 7.4775E-04 ( 42 ) 7..0066E-04 ( 42 )
2.4585E-04 47 ) 2.3518O04 ( 2 ) 2.4006E-04 ( 326 1 .9458E-04 ( 326 )
2.4350F-04. 147 ) 2.1066O04 ( 337 1 2.0719F-04 ( 79 ) .8242E-04 ( 22
2.1852F-04 279 ) 1.9636E-04 ( 67 ) 2.0423E-04 ( 252 ) .7095E-04 ( 318
2.3303E-04 7 ) 2.1507E-04 ( 2 ) 2.2158E-04 ( 7 ) .S546P-04 ( 13
2.3973004 220 ) 1.8R50E-04 ( 3*0 ) 1.9869F-04 ( 340 ) .5330E-04 ( 13
2.3820E-04 34 ) 2.0374O04 ( 34 1 2.7983F-04 ( 19 ) .8016E-04 ( 19
2.1807E-04 270 ) 2.0132E-04 ( 176 ) 2.1372E-04 ( 126 ) .467BE-04 ( 126
2.3358E-04 219 ) .7112E-04 ( 185 ) 1.7839E-04 ( 20 ) .4047E-04 ( 19
7 384PF-04 127 ) .6728E-04 f 214 ) 7.304BE-04 ( 20 ) .7040E-04 ( 70
2.0537E-04 ( 127 1 .6445O04 ( 70 ) .7736E-04 ( 70 ) .6947F-04 { 218
2.2443E-04 f 177 ) .9B02E-04 ( 20 ) .7394E-04 ( 218 1 .4009E-04 ( 218
2.0537E-04 ( 218 ) .6470E-04 ( 218 ) .56RBE-04 ( 72 ) .3253E-04 f 87 )
2.1105E-04 { 180 ) .8I41E-04 r 218 1 .7354E-04 ( 218 1 .5505E-04 f 291 )
1.9836E-04 ( 291 ) .7483E-04 f 291 ) .7693E-04 ( 791 ) .9115E-04 ( 791 )
2.3882E-04 f 32 ) .2371E-04 ( 291 ) .9788E-04 ( 242 ) .B689F-04 ( 28 )
2 6049E-04 ( 735 ) .9655E-04 ( 73 1 7.1147O04 ( 32 ) .9158E-04 ( 43 )
2.7585E-04 t 69 ) .9139E-04 ( 69 ) 2.1677E-04 ( 78 ) .2370E-04 ( 28 )
2.3402F-04 ( 181 ) .6858E-04 ( 35 ) 2.19»5E-04 ( 727 ) .8838E-04 { 227 )
1.8949E-04 ( 178 > .9506E-04 334 ) 2.1817E-04 ( 10 ) .8020E-04 ( 121 )
2.2287E-04 ( 744 ) .0773E-04 76 t 2.3R47E-04 { 243 ) .9445E-04 { 243 )
2 4891F-04 ( 71 ) .8979E-04 744 ) 7.3889F-04 ( 8 ) .7344E-04 ( 87 )
2 3495E-04 ( 333 ) .3046E-04 10 ) 3.044PR-04 ( 10 ) .2516F-04 ( 10 )
2.2811E-04 f 334 ) .7566O04 6 ) 1.7903E-04 ( 6 ) .60B4E-04 ( 6 )
2.2494F-04 r 250 > .7261F-04 149 ) 1.5917F-04 ( 149 ) .5286E-04 ( 71 )
2.3368E-04 ( 150 ) .7790E-04 11 ) 7.0147E-04 ( 53 ) .8468E-04 ( 53 )
2 0474F-04 ( 59 ) .9331E-04 11 ) 1.7734E-04 f It ) .3270F-04 ( 759 )
3.4775F-04 ( 150 ) 7.7054E-04 798 ) 1.7525O04 f 298 ) .2921O04 { 232 )
-------
                                                           MAXIMUM oRir.v  CONCFNTRIVTION.S
                                              DRY    74-HflllB  CONCFTrRATlrjN     niRFCTIflN     DISTANCE

                                              150           7.00W7F-04             16           O.B1
                                               Q4           I.6691F-04             10           1.12
                                              710           1 .677IF.-04             10           O.B1
                                              |9S           1 .S077F.-04             16           t .16
                                              171           1.6001F-04             1«           1.66
                                              117           1.57005-04             11           O.B3
                                              197           1 .40*7F.-04             16           1.66
                                              719           1.4940F.-04             M           O.ni
                                              191           1.4017F.-04             16           1.66
                                              17.7           I.4777C-04             14           O.«l
                                              717           1.475IF.-04              1           O.B1
                                              247           1.4696F.-04             II           O.fll
                                              1H9           1.45I9F.-04             16           O.R1
                                              lit           1.424IE-04             17           O.B3
                                              101           1.4170E-04             17           O.R1
                                               71           I.4156E-04             2S           6.6S
                                              151           I.4109F.-04              4           0.81
                                              14fl           1.4100E-04             10           O.fll
                                              136           1.4097E-04             14           O.B3
                                              166           1.40B7E-04           ,  It           O.B3
vo
o
-------
    PENN.  ELECTRIC  CO.  SHAWVILLE
    SOLVENT  REFINED COAL  STUDY     PROJECT  7101

    COAL  MAXIMUM  CONDITION

    STACK  »   1--SHAWVILLC STACK  1  (M»X.  COND.)   COAL  TSP
    STACK  «   7--SHAWVILLE STACK  3t4  COAL TSP   MAXIMUM LOAD
     STACK


        1

        1
         STRATEGY
           TYPE

           NflM

           NOM
S02 EMISSION RATE
    (RMS/SEC)
PART EMISSION RATE
     (GMS/SEC)
      RAHGECK«!) =   0.83   1.66
      SEASONAL VARIATIONS BY CASE «
               1   1.00   1.00
107
322

ASE

3
.00
.00
3.12 6.65
1
1.00 1.00
1 3
0.00
0.00
1 3.79

1.00 1.00
333
HEIGHT
(METERS)
(87.88
09.06
DIAMETER EXIT VELOCITY TEMP
( METERS 1
1.81
1.73
CM/SECl
29.18
22.57
(DF.G.K)
403.00
396.00
VOLUMETRIC FLOW
  (M**3/SEC)

     314.96

     246.OB
                                                         1.00   1.00   1.00    1.00
                                                                                      1.00
                                                                                             1.00
JVR=75 IMO= 1 JDAY= 73
ISTA«=  33333333333331331333
AWS=  7.2  7.2  9.8  8.9  8.9  8.5  8.5  8.1  8.9  8.9  9.8 10.3  8.1  7.6  6.3  5.8   5.8   5.8   4.5   4.5
TEMP= 271. 271. 270. 270. 270. 269. 268. 268. 268. 269. 269. 269. 270. 770. 270. 270.  270.  269.  269.  270.
AFVs  243. 253. 256. 751. 257. 278. 264. 255. 254. 263. 264. 259. 261. 257. 257. 257.  253.  250.  257.  250.
AFVR = 243. 253. 256. 251. 257. 278. 264. 255. 254. 263. 264. 259. 261. 257. 257. 257.  253.  250.  257.  250.
       801.  801.  801.  801.  801.  801.  770.  739.  708.  677.  646.  615.
       584.  553.  553.  553.  551.  553.  553.  553.  553.  551.  553.  553.
    HlHl
                                                                                                                 3333
                                                                                                               4.0   3.1   3.1   2.2
                                                                                                               270.  270.  270.  269.
                                                                                                               243.  262.  246.  223.
                                                                                                               243.  262.  246.  223.
CD
 I
    JYR=75 1^0= 4 JUAY= 94
    ISTAR=  13333133333131133333
    AHS= 14.8  13.4 16.1 15.6 17.5 12.5 1l.fi 12.1  14.8 16.1 15.6 17.4 16.1 15.6 15.6 15.2 15.2  14.8  12.5  10.3
    TE*P = 26H.  267.  267. 267. 266. 266. 266.  266.  267. 267. 267. 268. 269. 269. 268. 768. 268. 267. 767.  266.
    AFV =  101.  106.  108. 109. 109.  97.  93.  100.  106. 106. 104. 103. 104. 105. 105. 104. 110. 104. 106.  106.
    AFVR= 101.  106.  108. 109. 109.  97.  93.  100.  106. 106. 104. 101. 104. 105. 105. 104. 110. 104. 106.  106.
    HLHls  600.  fiOO.   600.  600.  600.  600.   600.   720.  840.  9-«0. 1060. 1170.
          1280. 1390.  1500. 1500. 1500. 1500.  1500.  1500. 1500. 1500. 1500. 1500.
                                                                                                             3333
                                                                                                           9.4  9.8 10.7  9.8
                                                                                                           266.  266.  266.  266.
                                                                                                           101.  108.  108.  101.
                                                                                                           101.  108.  108.  101.
    JYR=75  110= 4 JDAY«103

AWS = 5.4 5.4 5.8 6.1 S.fl
VEMP= 270. 269. 269. 269. 267.
AFVs 122. 110. 113. 111. 114.
AFVR= 127. 110. 113. 111. 114.
HLH1= H27. 822. 827. 872.
2344. 2S61. 7561. 7561.
JYR=75 IMO= 4 JDAYslil
AWS= 5,« 5.8 8.5 6.7 6.1
TEMP= 275. 775. 275. 274. 274.
AFVr Bd. 80. 98. 116. 125.
AFVR* 84. 80. 98. 116. 135.
HLHls 2000. 2000. 2000. 7000.
2019. 2021. 2021. 7021.

267.
108.
108.
822.
2561.

4.5
272.
111.
111.
2000.
7021 .

267.
109.
109.
fl?2
2561

4.9
273.
100.
100.
2000
2021

270. 773. 274. 775.
106. 112. 128. 129.
106. 112. 128. 129.
. 1039. 1257. 1474.
. 2561. 2561. 2561.

274. 275. 275. 776.
101. 117. 126. 178.
101. 117. 126. 17fl.
. 7002. 2005. 200B.
. 2021. 7071. 7071.
1
275.
117.
137.
1692.
2511 .
1
777.
179.
179.
2010.
2071 .
1
775.
130.
130.
1909
2561
1
279.
174.
174.
7011
7021
1
775.
171.
121.
. 7127
. 7561
1
780.
110.
1 10.
. 2016
. 7071
1
276.
122.
172.
.
•
1
7«i.
112.
112.
.
.
1
277.
115.
115.


1
781 .
120.
120.


1
278.
120.
120.


I
782.
HI.
111.


1
279.
128.
128.


1
281 .
118.
118.


3
276.
136.
136.



7BO.
128.
128.


4
274.
143.
143.



277.
128.
128.


4
5.8
273.
146.
146.



276.
152.
152.


4
5.4
272.
156.
156.



275.
159.
159.


4
4.5
271.
153.
153.



274.
168.
168.


4
3.6
270.
166.
166.


4
3.1
274.
153.
153.


-------
. flc p- r*
CS CM
•  i» oc r-
• a IT ir er er
P- es — — e IT
• ee ir ir «*> f
p- cs — — r- tr
cr, ^
• OC P" m • .
w er
i . . a m
rs P. ir c c «"
> or IP in
f P- ,
. • • cs er
i~ (•• 0 >£ >C P- IT
•«• er es IP IP cr cr
V CM »• — *-
^ m — • i*" m or P-

(" cs er o
in in
. a; in ir • •
rs — cs ec p*
rs cr er
>• • or
< O cs . .
C ec p-
- . . . er o
**• r*> c — — IP in
M CM — —
II • •
f . . . . or. rs
r m ac e rs rs cr p*
*• • ac in in in ^
•• rs ex CM ~<
in n
P- cr u n n
n « li i n a —
a: t- t/: r > > x
>• o; s u b_ u. —
»r er * « «
» CM CM CM
. OC CN CM
•r cs CM rv
. oc •- «-
» CS CM CM
^ c* cc in in
. OP O O
•V CM CM CS
. er ac ao
. er cr er.
-• er m « o in rs cs ac —

• a c c or —
£
. a ac CD • •
•c » rv a. \e
*• . ac cr er
a r- rv . .
C a \c
~ . . . ec —
*? rv c in in — o
in . oc oc oo » »
u • •
O • • • OC P*
*-i . or m ^ »* c
*• rs w •*
in n
p- o: n li n
it « li i. n rr —
C i- tr. 3T >• > X
>• tf) X U U. Ii- —
•^ 1-1 «t f- f a. z
. OC CN CM
. OP ^* ^\
• CD in m
m cs cr oo cc
> cc
*C CM W ^1
f*l Ifl CN OB OC
. er* P^ 1*1
fM ac v r-> p*
. e- — —
IT CS »»l f.
— v in er er
— «» in c c
• cr CM CM
m cs c. rr
•^ p*
. • . P" CS
^* oc *c cr cr o ^i
. • . r» r»
. er — — er T
~- ao in * ^ c P-
• c — — rs rv
^ r"i
. cr r* r* • •
^ CS CS CM >C P-
tC CS
... m ***
" « OC O C —
• oo ic u:
m rs cs CM . .
cr p-
• • . p*t rs
cs ot IT er er v •"
ir> cs cs cs
. . . rs p.
. ac «r v P-I n
1C CS (M CS —
* ^ er cr cr CM P"
. P- V ^ — CM
» IT or P- r- « •
^ rs rs rs ^^ cs
«f •• o oc ec
• oc «• «t • .
p» r* rs CM CM cv P-
fn •» CM
>• • ec in in
« CS CM CS CS . .
C cs P-
v c cs oc or m T
in • a « v —
» cs rs cs
u • •
O • • • CN O
fi . an •* ^ r* rs
»»> CM CM CM —
in n
p- o: M n n
n a n a n ec —
CC !- K Z > > X
>> 10 2 EL k. k. .3
•^ l-c * f- « « X
» cs in in in
. ac. rs rs
rs CM CM CM
. ac c c
CS CM CM CM
. ec p* r*
V CM •• «M
» P- O «5 SC
• cr  IT
— oc o- c» cr —
. 00 >C c r-
(*! rs i— *-
. i . m c
«r — cs o c r~ in
• cc CM CN sr r*
• or o c P- r
^ P- C CC OC . .
CM rs P* IT
^ p-
V p- -« C C
. CD r* P- » •
00 CS CM *•*> C
» p- m
>v . OC ^ ^
« CM Cs . .
e cr o
•5 . . .p. m
•w w fi c? e> w P-
in • a r- P- ••
— cs
y«r-««p-p.p-er
». . ec m »»! w m
in ll
P- CC H II II
l!  > x
>• « ^ U U. U. J
^ ^ rs cr er
^ er m »^
» CS
« er
«n CN
• er ir in
CM c ^ ac ec
...
• cr- r*i i^'
. cr - . OD ^- — »
c cs m
•~ ... or p-
f*s  > x
>• 03 3r U U- U. —
v v — o e
in CM
. er m in
. er. in in
. er «•» »»
. er in in
^ CM CO ^l
« e  cv
cs er P* *- —
« CS
r~< ac p^ cs cv
» o w «•
in rv
. a C IT
• . . er rv
CM cs in f< *^ ^
. er T »
p- CS . <
— C
• . . — If
in cs
...me
» cc o oc ac ^ if
in CM -
• cr cv cs ir if
» e e? u- in •
w rv «c if
a p
v c c or. cc
. er cs rs .
_ « rs r- c
IT iC If
— ... or r
>• . o rs cs
C f c
•^ . . • tf i/
^ rs *- cv fs oc p
in . er cs cs
n *
C . . . r- p
>•* . C CM cs oc r
n CS v
IP II
p- CC II II II
ii A ii a n a —
>> 1C X U) U. U. 3
•^ M «t f- «• < X
B-192
-------
ISTAB:
TKMP =
AFV =
AFVR =
HLH1 =


t.8
288.
352.
352.
356
1466

287. 287. 287. 286. 286. 288. 290. 294. 297. 300. 301. 301. 307. 301.
119. ?9«. 317. 211. 770. 261. 272. 243. 293. 375. 311. 313. 317. 315.
319. 298. 317. 211. 770. 268. 272. 243. 293. 326. 311. 313. 317. 315.
. 356. 356. 356. 356. 356. 515. 673. 832. 990. 114Q. 130R.
. 1625. 1625. 1625. 1625. 1675. 1675. 1*75. 1675. 1675. 1625. 1675.
1
301 .
370.
370.


1
301.
313.
313.


1
100.
310.
319.


7
299.
325.
325.


3
798.
331.
331.


4
296.
354.
354.


4
7.2
296.
349.
349.


3
8.5
294.
50.
50.


4
6.3
290
44
44


       t>1'J= 6
ISTAR* 44444
IU7.
4.
4.
1
3.1
302.
9.
9.
932
1288

2.7
302.
4.
4.
1312
1734


2.7
298.
10.
10.
141 3
1936

4
3.6
299.
5.
5.
1
2.7
302.
9.
0.
. 1051
. 1288

2.7
303.
7.
2.
. 1 453
. 1734

1
4.0
299.
15.
15.
. 1598
. 1936

1
3.1
200.
I .
1.
1
2.7
302.
11.
11 .
.
•

3.6
301.
312.
312.
.
•


2.7
301.
1 1.
11.
.
•

3
3.6
205.
16.
16.
1
1.3
304.
126.
126.


4
2.7
300.
340.
340.



1
4.0
301 .
9.
9.



1
4.0
297.
353.
353.
1
3.1
303.
10.
10.



3.6
301.
t.
1.



1
3.1
283.
9.
9.



1
3.6
297.
350.
350.
1
3.6
300.
341.
341 .



4.5
299.
2.
2.



2
4.5
283.
35.
35.



3
3.6
•>94.
5.
5.
t
2.2
299.
336.
336.



4.5
297.
12.
12.



2
5.4
783.
36.
36.



4
3.1
792.
22.
22.

3.1
296.
12.
12.



3.1
296.
18.
18.



3
1.0
283.
319.
319.



4
2.7
292.
347.
347.

3.6
295.
14.
14.



1.3
295.
32.
32.



3
1.0
283.
23.
23.



4
1.8
292.
302.
302.

3.1
794.
19.
19.



2.7
294.
33.
33.



4
1.0
283.
30.
30.



4
0.4
291.
337.
337.

3.1
294.
23.
23.



2.2
294.
36.
36.



4
1.3
287.
274.
274.



4
0.9
291 .
44.
44.

2.7
292.
31.
31.



3.1
293.
29.
29.



4
2.7
787.
36.
36.



4
7.2
291 .
52.
52.
HI.H1=  6hO.   660.  660.   661).  660
      1244.  1327.  1327.  1327. 1327
.   660.   743.   827.  910.   994. 1077.  1160.
.  1377.  1327.  1377. 1377.  1377. 1377.  1377.
JYR = 75 T10= 7 .IOAY=107
AWS= 1.1 1.0 7.2 0.4 O.n 0.0 0.4 0.4 1.1 7.7 2.7 3 . f-
TF.MP= 291. 701. 791. 291. 291. 791. 291. 2O?. 794. 796. 799. 299.
AFV= 25-?. 27«. 2«6. 100. 305. 9*7. 279. 313. 18. 7. *. in,
AFVR= 259. 779. 786. loo. 305. 2«2. 270. m. 18, 7. 3. 1 « .
HLH1= 640. 640. 640. MO. 640. 640. «37. 1O74. 1716. 140R.
1
7 OR.
56.
56.
1600.
1 1
3!)1. 301.
10. 12.
10. 17.
1791.
1
7.7
301 .
78.
28.

1
1.1
300.
12.
17.

1
1.1
799.
7.
7.

3
3. 1
797.
356.
356.

4
3. 1
795.
25.
25.

4
0.9
205.
112.
1 17,

4
7.7
294.
284.
284.

4
1 . 8
293.
268.
268.

4
0.9
292.
189.
189.

       19*5.  7177.  2177.  2177. 2177.  2177. 7177.  2177.  2177.  7177.  7177. 7177.
-------
JYH = T5 1*1= H J|)HV = 7.10
ISTAqs 44444
AWR= 4.0 3.f 4.9 4.9 4.5
TFMPs 790. 200. 789. 789. 289.
Af'V= 40. 49. 47. 6|. 77.
AFVRs 40. 49. 47. 61. 77.
HbHla 967. 967. 967. 967.
1707. 1013. 1813. IBM.
JYR*75 IMOs 8 ,inAY = 737
ISTAHS 44444
AWSs 7.6 5.H 4.5 4.0 4.9
TEMPs 295. 294. 294. 293. 293.
AFV= 47.51. 49. 27. 30.
AFVRs 47. 51. 49. 27. 30.
HI.Hls 501. 501. 501. 501.
758. 795. 795. 795.
JYR = 75 l*r»= 8 JOAY=239

TEMPS 290. 290. 289. 288. 288.
AFV= 114. 115. 109. 104. 85.
AFVRa 114. 115. 109. 1O4. B5.
IH,M1= 419. 439. 439. 439.
1175. 1280. 1280. 1780.
JYRs75 IMfla 9 JDAY=247
ISTAB= 44444
AWS= 0.4 0.4 1.3 2.7 3.1
TEMPs ?86. 286. 286. 286. 286.
AFV= 47. 45. 25. 36. 37.
AFVRs 47. 45. 25. 36. 37.
HtHla 35. 35. 35. 35.
991. 1I2B. 112B. 112B.

4
5.4
790.
106.
106.
967.
1811.

4
4.9
292.
27.
27.
501.
795.

4
287.
48.
48.
419.
1780.

4
4.5
287;
31.
31.
35.
1128.

4
4.5
291 .
107.
107.
967
1R13

4
4.5
291.
31.
31.
501
795

4
287.
53.
53.
439
1280

4
4.0
287.
32.
32.
35
1178

lilt
3.6 4.0 5.4 5.8
297. 291. 794. 795.
110. 108. 94. 107.
110. 108. 94. 107.
. 1071. 1179. 1784.
. 1813. 1811. 1811.

3111
4.0 4.5 4.0 4.0
794. 296. 797. 299.
17. 34. 13. 12.
37. 34. 11. 32.
. 538. 574. 611.
. 795. 795. 795.

4311
288. 290. 294. ?96.
47. 57. 106. 122.
47. 57. 106. 172.
. 544. 649. 754.
. 1280. 1280. 1280.

4311
4.0 5.4 6.7 6.7
288. 290. 291. 293.
77. 115. 111. 108.
77. 115. 111. 108.
. 172. 308. 445.
. 1128. 1178. 1178.

1
5.4
796.
101.
101 .
1 390.
1811.

1
5.8
300.
39.
39.
648.
795.

1
297.
124.
124.
859.
1780.

1
6.7
794.
113.
113.
581.
1178.

1
296.
106.
106.
1496
1811

1
5.4
301 .
75.
75.
684
795

1
798.
125.
125.
965
1280

1
6.7
295.
118.
118.
718
1178

1 1
6.3 7.2
297. 297.
111. 114.
111. 114.
. 1601.
. 1 « 1 1 .

1 1
6.7 R.I
302. 301.
26. 17.
26. 37.
. 721.
. 795.

1 1
298. 299.
124. HP.
124. 118.
. 1070.
. 1780.

1 1
7.2 8.1
796. 295.
122. 117.
172. 117.
. 855.
. 1128.

1
6.3
797.
MR.
118.



1
8.5
107.
45.
45.



1
799.
113.
113.



1
7.2
295.
112.
112.



1
6.1
298.
106.
106.



2
8.5
301.
47.
47.



1
299.
112.
112.



1
7.2
295.
110.
110.



1
5.8
797.
109.
109.



7
7.6
101.
48.
48.



1
299.
117.
117.



2
8.5
794.
• 110.
110.



3
6.3
295.
116.
116.



3
7.2
299.
40.
40.



3
296.
109.
109.



4
6,3
291.
116.
116.



4
6.7
292.
179.
129.



4
6.3
298.
45.
45.



4
293.
121.
121.



4
5.4
290.
114.
114.



4
7.6
291.
145.
145.



4
4.9
296.
47.
47.



4
791.
125.
125.



4
4.0
288.
116.
116.



4
6.7
290.
148.
1 48.



4
4.5
295.
39.
39.



4
289.
129.
129.



4
4.9
2BB.
121.
121.



4
3.1
289.
130.
130.



4
4.9
294.
39.
39.




287.
142.
142.



4
6.3
286.
132.
132.



4
3.6
288,
145
145



4
4.0
293
21
21



4
286
151
151



4
4.5
285
131
131


YEAR BASED ON  20. BAYS
-------
PENN. ELECTRIC CO. SHAWVILLF


                                 NOM--S02

   MAXIMUM  MF.AN CONC=   1.0134F.-04  DIRECTIONS  36   DISTANCES   I.1 KM
                ANNUAL MEAN  CONCENTRATION  AT  EACH RECEPTOR
 RANGE     0.8 KM          1.7  KM         3.3  KM          6.7  KM
KM















cn
i
UD
CJ1


















OIR
1
7
3
4
5
6
7
8
9
10
1 1
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
8.644'i3E-0'>
8.37623F.-05
8.27498E-OS
B. 19397E-05
7.90254E-05
7.64464E-05
7.60094F.-05
7.80569E-05
B.34187E-05
9.16682E-05
Q.75556E-05
9.61367F-05
9.07002E-0-J
«.555fi5E-05
8. 18757E-05
7.H5567K-05
7.6289SE-05
7.53979E-05
7.52477G-05
7.50976E-05
7.50094F.-05
7.50004E-05
7.S0031E-OS
7.50359E-05
7.52255E-05
7.5ft637E-0'i
7.57157E-OS
7.60248E-05
7.74632E-05
8.06702E-05
8.33792E-0-5
8.24990E-05
7.0Hftq5E-05
7.flfl644E-05
8.00047E-05
9.96482E-05
8.78754E-05
8.34?4np-05
e.!593»F>05
8.04831E-05
7.«0504E-n5
7.60212E-05
7.56013E-05
7.66470F-05
8.00084E-OS
8.7145fE-05 ,
8.flfifi4c»E-05
8.69375E-05
S.39S71E-OS
8.11010E-05
7.894Q3E-05
7.69375E-05
7.56420E-05
7.529B6E-05
7.54192E-05
7.51SHRE-05
7.50095E-05
7.50001E-05
7.50019E-05
7.50462E-05
7.55032E-05
7.57677E-05
7.56057P-05
7.562'57E-05
7.63060E-OS
7.81105E-05
7.99939E-01;
7.97390E-05
7.85564E-05
7.84653E-05
7.97356C-05
1.01344E-04
8.7S047E-05
7.94500F-OS
7.B8346F-OS
7.B2580E-09
7.68544P-05
7.55984E-05
7.S4047F-05
7.59654E-05
7.76284E-05
8.50394E-05
8.13804F-05
8.04404E-0*
7.8fi835F-05
7.B2238E-05
7.67800F-05
7.569HF-05
7.52073E-05
7.5304BE-05
7.52692E-05
7.50950F-05
7.5002BF.-05
7.50016F-05
7.SOS03E-05
7.5S770F.-OS
7.77135E-05
7.R3449F.-05
7.55079E-05
7.52460E-05
7.54533E-OS
7.61175F-05
7.6969IC-05
7.69886E-05
7.71925E-05
7.67997E-05
7.75313F-05
8.flfi227F>05
7.90973E-05
7.7394PE-05
7.72816F-05
7.67776F-05
7.59795F.-05
7.52813E-05
7.52205E-05
7.58120E-05
7.62897E-05
8. 142HBF.-05
7.87999F-05
7.77738E-05
7.63552F-05
7.71 8BBF-05
7.59282F-n5
7.5256BE-05
7.50740E-05
7.53376E-05
7.510fiBE-05
7.50265E-05
7.50004E-OS
7.50012E-05
7.50773E-05
7.62424E-05
7.86972E-05
7.6350«>E-05
7.54107E-05
7.51076E-05
7.52514F.-05
7.5391PF-05
7.57233E-05
7.58440E-05
7.6-5717F.-05
7.57237F-05
7.6347SE-05
B.12827E-05
7.73107F.-05
7.651S5E-05
7.63761E-05
7.58754E-05
7.-56425E-05
7.5272SE-05
7.51103C-n5
7.54673E-05
7.5591 3E-05
7.813B3E-05
7.67731E-05
7.63525F-05
7.55776F-05
7.62018F.-05
7.54712E-05
7.51206E-05
7.50327F-05
7.51940E-05
7.S0501E-05
7.S0093E-05
7.50001E-05
7.50002E-05
7.50352E-05
7.60873F-05
7.73605E-OS
7.59273E-05
, 7.S4190E-05
7.50571F.-05
7.54763F-05
7.51807F-05
7.S3561E-05
7.56292E-05
7.5B817F-OS
7.53302F.-05
7.57S76R-05
7.fl299nE-05
-------
    PEMN.  ELECTRIC  CO.  SHAHVTt,tE






                                      NOM—sn?



YEARLY  MAXIMUM 24-HOUR  CONC=   1.9457E-04  niPF.CTTONs360.   DIRTANCF.=   0.8 KM
n»Y=i5o.
HIGHEST 74-HOUR CONCENTRATION AT EACH RECEPTOR
RAMCE O.B KM 1.7 KM 1.3 KM 6.7 KM 13.3 KM
DTR
t .1757E-04 150 .73I1E-04
' 7 .2942E-04 737 .OB73F.-04
3 .4662E-04 237 .7S06F.-04
4 .4052E-04 151 .2047F.-04
[ 5 .7267C-04 151 .0549E-04
ft 9.2174F.-05 ( 151 B.3868E-05
7 8.2353E-05 ( 14B 7.8944F.-05
' 8 9.9170E-05 ( 230 8.9464F.-05
9 .3363C-04 ( 230 .0786E-04
0 .6262E-04 ( 230 ) .7941E-04
1 .5966E-04 ( lit ) .2378F.-04
2 .6103E-04 ( 111 ) .7275E-04
3 .4430F.-04 ( 103 ) .1560F.-04
' 4 .4810E-04 ( 127 ) .1613F.-04
5 .3978F.-04 ( 127 ) .1139E-04
6 .0973E-04 ( 122 ) 9.5266F.-05
• m 7 8.9923E-05 ( 136 ) 8.312IE-05
l 8 H.1015E-05 ( 136 1 8.0316F.-05
r± 9 7.9759E-05 ( 136 ) B.3335E-05
' CT, 70 7.6943E-05 ( 136 ) 7.B174E-05
71 7.5189F.-05 ( 136 ) 7.5190E-05
22 7.5004F.-05 ( 136 ) 7.5002F-05
23 7.5061E-05 ( 137 ) 7.5074F.-05
74 7.5714E-05 ( 137 ) 7.5544E-05
25 7.9435F.-05 ( 137 ) 8.0438F.-05
26 8.5786E-0-5 ( 137 ) B.73S3F-05
27 B.6664E-05 ( 137 ) B.47I4F.-05
28 8.570BF.-05 ( 137 ) fl.1113F.-05
(. 29 .0087E-04 ( 166 ) B.9070E-05
30 .307BE-04 ( 166 ) 1.0450F.-04
31 .548SE-04 ( 166 ) 1.22BOF-04
' J2 .4579E-04 ( 166 ) 1.1393E-04
33 .0935E-04 ( 166 ) 9.30B9E-05
34 .013BF-04 ( 150 ) 9.B766E-05
35 .0672E-04 ( 150 ) 9.703BE-05
36 .9452E-04 ( 150 ) 1.7422F.-04
JQ7 ) 1.0672E-04 { 171
237 ) 9.240HF-OS
737 ) 1.0200E-04
151 ) 1.0139E-04
151 ) B.7612E-05
151
14fl
Mfl
230
730
247




















It
03
36
22
36
36
36
36
36
36
36
37
37
73
37
37
37
66
37
37
166
166
ISO
150
7.B410E-05
7.9995E-05
B.0990F-OS
B.7279E-05
1 .B580F.-04
1 .0259E-04
1 .0030E-04
9.1759E-05
1.0177E-04
9.0392E-05
8.2475E-05
7.7976E-05
B.0956E-OJ
8.0377E-05
7.6699F-05
7.5056E-05
7.5032E-05
7.5959E-05
B.0032E-05
1.2600E-04
9.4479E-05
7.9767E-05
7.7430E-OS
8.0I9BE-05
8.5777F.-05
9.4569E-05
8.9717E-05
B.6277E-05
8.7703E-05
8.4675E-05
195 1 1.3084F-04
197
237
237
151
1B9
189
111
730
94
747
ill
103
172
177
36
36
36
36
36
36
9.4730R-05
R.5645F-05
9.3510E-05
9.05IOE-05
B.0575F.-05
7.7371E-05
7.8615F.-05
fl.6060F.-05
B.1649F-05
1 .5«9?E-04
9.67B6E-05
9.1963R-05
B.2077E-05
915071F.-05
8.174BF.-05
7.B1B7E-05
7.6155r-05
8.1773E-05
7.7135F.-05
7.5S31F-05
7.500BF.-05
166 ) 7.5074F.-05
173 ) 8.6966F-05 ( 173 )
197 ) 8.7445F.-05 ( 197 )
737 ) 8.6898E-05 ( 737 )
737 1 fl.2B9BF.-05 ( 237 )
166 1 7.9553E-05 ( 739 )
189 1 7.8531F-05 ( 14B )
189 } 7.6937E-05 ( 189 )
111 1 8.2007F-05 ( 111 )
94 ) 7.9110E-05 ( 94 )
94 ) 1.1364E-04 ( 94 )
247 ) B.8276F.-05 ( 747 )
111 ) B.3837E-05 ( 111 )
136 ) 7.R438E-05 { 136 )
127 ) 8.5626F.-05 ( 122 )
I4B ) 7.6794F.-05 ( 148 )
136 ) 7.65BOE-05 ( 136 )
136 ) 7.5531F.-05 ( 136 )
116 ) 7.B872F.-05 ( 136 )
136 ) 7.6003F.-05 { 136 )
136 ) 7.5186F.-05 ( 136 1
136 ) 7.5001F.-05 ( 136 )
166 ) 7.5005F.-05 ( 166 )
166 ) 7.6530F-05 ( 166 ) 7.5702E-05 { 166 )
71 ) B.7BR5F.-05 ( 73 ) fl.9075F.-05 ( 73 )
73 ) I.4650F-04 ( 73 ) 1.2113E-04 { 73 )
73 ) 9.831BF-05 ( 73 ) 9.15B3E-05 ( 73 )
73 ) B.0137E-05 ( 73 1 7.9607E-05 ( 166 )
166 ) 7.6070E-05 ( 117 ) 7.5570E-05 166 )
166 ) 7.7103F.-05 166 ) 8.29B1E-05 195 )
137 ) 7.B916F.-05 137 1 7.6B17E-05 137 )
137 ) B.2655F-05 137 ) 7.B724E-05 137 )
166 ) B.0065F.-05 166 } 8.0524E-05 195 )
166 ) 8.7B51E-05 166 ) .7.97B8E-05 137 )
150 ) fl.0095F.-05 150 ) 7.7310E-OS 150 )
197 ) 8.2193F.-05 ( 150 ) 8.1064C-05 150 )
195 ) 1.04B1E-04 ( 195 1 9.0205F-05 150 )
-------
<£>
         PFNfl. KblvCTRIC CO.  SHftWVIF.Lf:







                                           1OH—S02




    YEARLY  MAXIMUM  3-HOUR  COMC=   4.7985F-04   DIRECTIONS   0.   TtSTANCEs  O.H KM   nAY=150.   Hn(IR = 1500.







                     HIGHEST  J-HOIIR  COMCENTRHTinN AT  EACH PPCEPTOR
RANGE 0.8
OIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
1 8
19
20
21
22
73
24
25
26
77
28
29
30
31
32
33
34
35
36

?.5793F>04
3.0948E-04
3.0614E-04
3.1572F-04
2.4959F-04
1 .4371K-01
1.7415E-04
3.1 32IE-04
2.9167K-04
3.277461-04
3.2979E-04
3.7725E-04
2.91 t BE-04
3.0075T-04
2.9702E-04
2.3515E-04
1.60I9E-04
1 .1702K-04
1.1749E-04
9.051 3E-05
7.6509E-05
7.5031E-05
7.5490E-05
8.0709E-05
.1048E-04
.611 4K-04
.65ME-04
.3965E-04
.6715E-04
2.5925E-04
3.2B51K-04
2.8152E-04
2.1013E-04
2.5467E-04
2.3R79R-04
4.7985E-04
KM

( 150 )
( 237 )
( 237 )
{ 151 )
( 151 )
( 151 )
148 )
148 }
14« 1
730 )
239 1
( 239 )
( 103 }
( 122 1
( 122 >
f 36 )
( 36 )
( 36 )
( 36 )
( 36 )
( 36 )
( 36 )
( 37 )
37 )
37 t
37 )
37 )
37 )
166 1
137 )
137 )
{ 137 )
( 150 )
( 150 )
( 150 >
C 150 )
1.7 KM

2.4572E-04
2.0557E-04
2.5077E-04
2.4305E-04
I.9374E-04
1 .1867F-04
1 .0092E-04
1 .5T1IE-04
2.1337E-04
2.7662E-04
2.1872E-04.
2.0515F-04
2.2110E-04
7.1 177E-04
.9980F-04
.7466E-04
.7479E-04
.1421E-04
.4149E-04
.0038E-04
7.6573F-05
7.5014E-0-5
7.5192E-05
.9348E-05
.1176E-04
.7380E-04
.5199F-04
.1672E-04
.4440E-04
.7485E-04
.2332E-04
.9371E-04
.8R43E-04
2.I931F-04
1 .B880E-04
3.6896E-04
3.3 KM

( 191 )
( 197 )
< 737 )
( 237 )
( 151 )
{ 151 )
( 148 )
( 148 )
( 148 )
( 148 )
( 747 )
( 239 )
( t 36 )
( 1 36 )
( 136 )
( 136 )
{ 136 )
( 136 )
( 136 )
.6725E-04
.5732E-04
.8918E-04
.S342E-04
.31 39E-04
.0244P-04
.1496E-04
.2143E-04
.6098E-04
.0373E-04
.5347E-04
.4990E-04
.5739E-04
.55316-04
.753BK-04
.1320E-04
.J944E-05
.7153E-04
. 1795E-04
( 136 ) 8.8591E-05
( 136 ) 7.5447E-05
( 136 ) 7.5253E-05
( 137 ) R.2672E-05
f 1 37 )
( 137 )
( 137 )
( 137
( 166
( 166
( 137
( 137
1 166
( 150
( 150
( 195
.0680E-04
.94776-04
.5496E-04
.1273E-04
.2948E-05
.0483E-04
.1076E-04
.4577E-04
.7S69E-04
.3194E-04
.6049E-04
.3794E-04
( 195 » 7.4021E-04


( 173 )
{ 197 )
( 237 )
( 237 )
( 151 )
( 189 )
( 189 )
( 111 )
{ 94 )
( 94 )
( 247 )
( 111 1
( 136 )
t 122 )
( 172 )
{ 136 )
t 136 )
( 136 )
{ 136 )
f 136 )
f 136 )
( 166 )
( 166 )
( 73 )
( 73 )
f 73 )
( 137 )
( 166 )
C 166 )
( 137 )
( 137 )
( 166 )
f 166 >
f 150 )
f 197 )
r 173 )
6.7 KM

.4024F-04
.0967F-04
.6577F-04
.4917E-04
.1920E-04
9.3564E-05
.0392E-04
.6371IT-04
.4369E-04
1 .B97RF-04
1.5153E-04
1 .3679E-04
1.0743F-04
1.5783E-04
1 .7897E-04
9.1894F-05
8.2458E-05
1 .2848E-04
9.2067E-05
7.9246F-05
7.5067E-05
7.5194E-05
8.7240E-05
1.3462E-04
2.0395F-04
1.5527E-04
1.159RE-04
8.3185E-05
8.8851E-05
8.9755P-05
1.0103E-04
9.2590E-05
1 .7690E-04
1 .10105-04
1.2735F-04
1.6467E-04


{
f
(
(
f
(
(
(
(
(
(
(
(
(
{
(
(
C
(
C
(
(
(






f
(
{
(
(
f
(
13.3 KM

173 1
197 )
237 )
737 )
173 )
189 )
t 89
1 1 1
94
94
247
11 1
136
127
148 )
.2294E-04
.1564F-04
.4084F-04
.1 391E-04
.1142F-04
.0319E-04
.0495E-05
.3099E-04
.0786E-04
.3181E-04
.3078E-04
.0754E-04
.0612E-05
.1B76E-04
.0535E-04
t36 ) B.3620E-05
136 ) 7.8571C-05
136 ) 1.0588E-04
136 ) B.3018E-05
136 ) 7.6491E-05
136 ) 7.5010F-05
166 ) 7.5037E-05
166 1 8.0615E-05
73 ) 1.6329F-04
73 ) 1.8122E-04
73 ) 1.2290E-04
73 ) 1.1186E-04
166 ) 7.9078F-05
166 ) 1.1900E-04
137 ) B.2359E-05
137 1 8.7450E-05
166 ) 1.1910F-04
166 1 1.0902E-04
150 ) 9.0B05E-05
137 •» 1.1499F-04
IQS ) 1.2660C-04


( 173 )
( 189 )
( 237 )
( 237 )
( 239 )
{ 148 1
( 189 )
( 111 )
( 94 )
( 94 )
( 247 )
( 11 )
( 36 )
( 22 )
( 48 1
( 36 )
{ 36 )
( 36 )
( 36 )
( 136 )
( 136 )
( 166 )
( 166 )
( 73 )
( 73 }
( 73 )
( 166 )
( 166 )
( 195 )
{ 137 )
{ 137 )
195 )
137 )
150 )
150 )
195 )
-------
CD
 I

VD
00
                                                       MAXIMUM  DAILY CnNCFNTRATIONS
                                                  24-linilR CflNCENTPIVTinN    OTRPCTIOM

                                           150           1.9457E-04             16           0.81
                                            94    ,       l.R580F>04             10           3.12
                                           195           1.7472P-04             16           1.66
                                           173           l.6493F>04             16           1.66
                                           210           1.676JE-04             10           0.83
                                           111           I.6I03E-04             1?           0.83
                                           197           I.5997F-04     .        36           1.66
                                           191           t.5970f>04             36           1.66
                                           101           1.59HF.-04             «'           O.B.I
                                           1R9           1.5719E-04             16           1.66
                                           747           1.55B4E-04             It           0.81
                                           166           1.54R5K-04             31           0.81
                                           219           1.5062F-04             11           0.83
                                           117           1.5053F-04             11           O.R1
                                           122           1.4819E-04             14           O.«1
                                           337           1.4667C-04               1           0.83
                                            73           1.4650E-04             2S           6.65
                                           151           I.4052E-04               4           O.fll
                                           136           1.3B46E-04             14           0.83
                                           148           1.3713E-04             10           0.83
-------
   PENN. l!bE?TRir C3. SHAHVTLtE
   SOLVF.NT REFINED COAL  STUDY
                      PROJECT 7101
   SHAWVILLE  PLANT 1<»7S
   tNAMl
   KSTb=4   IUR = 1   ITAP,IPIIN= 0 0
     IDATA,IMAX,1LOTS= 000
   IOHGT= 2   WHGT= 91.0   NST= 1
   NPOL= 2    JTAB- 1   INPUTS 2
   MSEA= 1    ECONtf=   0.3048006
   OAlf--
                       SlfTFa 1.0   FIVs 1.0
TAF= 0.60
1  1
1
BACKGRs

      t
      1
                                                                          7-S.O
DO
 I
CD
UD
-------
PLANT KLEtfATION  (FEET  ABOVE  SEA  LEVED--
1080.0
    RECEPTOR ELEVATIONS  (FEET ABOVE SEA LEVEL)
DIRECTION
                      RINGI2    RINO»3   R1WGI4   RINGI5
1
2
3
1 4
5
6
< •. 7
R
9
i 0
1
2
3
4
5
6
7
18
19
00 20
r^ 21
0 22
0 73
24
25
26
27
28
29
30
31
32
33
34
35
36
STACK 1
STACK t
STACK

1
2
J 350.0
1200.0
1160.0
1120.0
1200.0
1750.0
J220.0
11RO.O
1100.0
1070.0
1050.0
1 160.0
1320.0
1400.0
1 420.0
1440.0
1440.0
1410.0
1420.0
1400.0
1200.0
1060.0
1050.0
1200.0
1200.0
1260.0
1 3HO.O
1440.0
1460.0
1 160.0
1410.0
1500.0
1500.0
14HO.O
1460.0
1440.0
1--SHAWVILLE
2--SHAWVILLE
1300.0
1200.0
1460.0
1400.0
1 360.0
1 340.0
1 320.0
1 300.0
1300.0
1320.0
t 320.0
1060.0
1 150.0
1470.0
1520.0
1590.0
1300.0
1260.0
1700.0
1100.0
loeo.o
1300.0
1460.0
1500.0
1400.0
1440.0
1460.0
1400.0
H40.0
1480.0
1500.0
1540.0
1520.0
1400.0
1200.0
1463.0
STACKS
STACK 3
1400.0
1600.0
1590.0
1540.0
157.0.0
1 350.0
1260.0
1540.0
1340.0
15H4.0
fSHO.O
1340.0
1300.0
1420.0
1605.0
1580.0
1580.0
1260.0
1320.0
1400.0
14RO.O
1572.0
1540.0
1540.0
1540.0
1570.0
1560.0
1540.0
1560.0
J580.0
1560.0
1460.0
1400.0
1746.0
1640.0
1380.0
1080.0
2174.0
1760.0
1600.0
1600.0
1567.0
1560.0
1500.0
1627.0
1639.0
1766.0
1836.0
1720.0
1743.0
1700.0
1900.0
1900.0
1700.0
1700.0
1625.0
1540.0
1440.0
1120.0
1551.0
1505.0
1660.0
1 fl i) 0 . 0
1760.0
2140.0
2040.0
2100.0
7000.0
1 B 4 1 . 0
22IH.O
1960.0
1900.0
2160.0
2100.0
2000.0
1900.0
laoo.o
1560.0
1500.0
1481.0
1549.0
1564.0
1666.0
1744.0
1700.0
1800.0
1900.0
2100.0
2100.0
IR40.0
1620.0
1540.0
1520.0
1620.0
1537.0
1796.0
1773.0
2120.0
2370.0
2751.0
2224.0
2253.0
2293.0
2270.0
2240.0
7056.0
2220.0
2405.0
U2 SRC-TSP
ANO 4 SHC-TSI' NORMAL LOAD
STRATEGY S02 EMISSION RATE
TlfPE
MOM
MOM
(RMS/SEC)
1
a
.12
.74
PART EMISSION RATE tIEICHT DIAMETER EXIF VELOCITY TEMP
(OHS/SEC) (METERS) fMETEPS) (M/SEC) (DEG.K)


0.00 . 187.88 3.B1 21.82 391.00
O."0 99.06 3.73 IB. 84 386.00
                                                                                                              VOLUMETRIC  FLOW
                                                                                                                (M**3/SEC)

                                                                                                                   248.77

                                                                                                                   205.87
 RANGF(K1)=   O.H3   1.66   3.37   6.65   13.29
 SEASONAL  VARIATIONS BY CASE I
           I   1.26   1.09   0.98   0.87    1.10
     0.92   0.87    1.08
                                                                        0.98
                                  0.80
t .05
       I .00
     BASEO  UN  365.  DATS
-------
        PENN. ELECTRIC CO.  SHAHVILLF.


                                        NOM--S02

           MAXIMUM MEAN CONC=   7.5054E-05   DIRECTIONS 10  DISTANCES  O.B  KM
         HANSE
                    ANNUAL  MFAN  CONCENTRATION AT EACH RECEPTOR
              O.B KM          1.7  KM         3.3 KM         6.7  KM
                                                                               13.3 KM
1
ro
0
OIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 1?
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 29
 29
 30
 31
 32
 33
 34
 35
 36
7.503456-05
7.50406E-OS
7.504346-05
7.50401E-05
7.50338E-OS
7.50325E-05
7.S0371E-05
7.50445E-05
7.50511F>05
7.50540E-05
7.50497E-05
7.50391E-05
7.50291E-05
7.50199E-05
7.50145E-05
7.50in5E-05
7.50080E-05
7.50061K-OS
7.50047E-05
7.50043E-05
7.50040E-05
7.S0040R-05
7.500->OE-05
7.50069R-05
7.S0085E-05
7.50090E-05
7.50094E-05
7.-i0120f>05
7.50183E-05
7.50241E-05
7.50244E-05
7.50199E-05
7.50149E-05
7.50125E-05
7.50U6E-OS
7.50454E-05
7.50388E-05
7.50446E-05
7.50471E-05
7.50434K-05
7.5036»iE-05
7.50346E-05
7.50393E-05
7.50472E-05
7.50513E-05 ,
7.50493E-05
7.50407E-05
7.50319E-05
7.50243E-05
7.50187E-05
7.50146E-05
7.50103E-05
7.50080E-05
7.500fi4E-05
7.50049E-05
7.50043E-05
7.50041E-05
7.5004-5IT-05
7.50066r-05
7.50100E-05
7.50126F-05
7.50126E-05
7.S0116E-05
7.50138e-05
7.50196P-05
7.50237E-05
7.50256E-OS
7.S0185f.-05
7.50145E-05
7.50128E-05
7.50127F.-05
7.50480E-05
7.50252F>05
7.50287F.-05
7.50372E-05
7.50363F-05
7.50334E-05
7.50347E-05
7.50424F-05
7.50476E-05
7.504S5E-05
7.50405E-05
7.50300E-05
7.50245K-05
7.50180R-05
7.501 37E-05
7.50109F-Q5
7.50070F-05
7.50061E-05
7.50048E-05
7.50045E-05
7.50030E-05
7.50029E-05
7.50036E-05
7.50053E-05
7.50091F-OS
7.50139E-05
7.501 15E-05
7.50100E-05
7.50126F.-05
7.S0109F.-05
7.50194E-05
7.50173E-05
7.50128F-05
7.50104F-05
7.50093F.-05
7.SOOB9E-05
7.50278E-05
7.50140E-05
7.50164F.-05
7.5028BE-05
7.50290E-05
7.50277C-05
7.50294E-05
7.50372E-05
7.50396E-05
7.503S9E-05
7.50307E-05
7.50217E-05
7.50184E-05
7.501 39E-05
7.50102E-05
7.S0089E-05
7.50049E-05
7.50054E-05
7.50039E-05
7.50040E-05
7.50072F.-05
7.50027F.-05
7.50032E-05
7.50057E-05
7.50100E-05
7.501fi4F-05
7.501 1fiE-05
7.50110F-05
7.50175E-05
7.501 94F-05
7.501fi«F.-05
7.50127E-05
7.50090E-05
7.50071F-05
7.50071E-05
7.50059F.-05
7.50136E-05
7.50080E-05
7.50105F-05
7.50192F.-05
7.501S7E-05
7.50175F-05
7.50182E-05
7.50272E-05
7.50239E-05
7.50223F.-05
7.5018QF-05
7.50128E-05
7.50112F.-05
7.50092E-05
7.50065F.-05
7.50057F-05
7.50010F-05
7.50035C-05
7.50026E-05
7.50027E-05
7.50015E-05
7.50013E-05
7.50024F.-05
7.50044F-05
7.500B4E-05
7.50134E-05
7.50099F-05
7.50094E-05
7.5008BF.-05
7.50138F-05
7.50106E-05
7.50080E-05
7.50060E-05
7.50046E-05
7.S0054E-05
7.50041F-05
7.50072K-05
-------
         PGNN.
                         cn. SHAHVIM.F:
1X3
                                     Nnn--srt2

KEARl.Y MHXIMUM  24-HOUR COUC =   7.6330F.-05  PI HF.CTION=360.  DISTANCES  0. P KM


                HIGHEST 24-HOUR CONCENTRAT1ON  AT  EACH RF.CF.PTOR
                                    1.7 KM                 3.3 KM
RAHr.E O.B K*
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
33
36

7.5180E-05 ( 150
T.SfilSE-OS ( 140
7.5765E-05 ( 237
7.5S97F.-05 ( 151
7.5590E-03 ( 131
7.5544F.-05 ( 221
7.5S30E-05 ( 271
7.5543E-05
7.5616F.-05
7.5973E-05
7.5R J5E-05
7.5749E-05
7.5605E-05
7.5771E-05
7.5583E-05
7.5521E-05
7.5612E-05
7.5559R-05
7.5652E-05
7.5659F-05
7.5302F.-05
7.5514F-05
7.5395E-05
256
230
230
230
239
122
122
122 )
219 )
219 )
127 )
127 )
127 )
127 1
180 1
180 )
7.5429E-05 ( 176 )
7.5350E-05 { 176 1
7.5391F-05 ( 145 1
7.5306R-05 ( 145 ]
7.5ifllE-05 ( 120 ]
7.5M3E-05 ( 120 1
7.5652E-05 ( 120
7.5815F.-05 ( 137
7.5629E-05 ( 137
7.5448E-05 { 258
7.5488E-05 ( 258
7.5400E-05 ( 168
7.6330E-05 ( 150
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
•
*
•
*
•
•
•
•
•
a
*
•
•
•
•
9
•
•
•
*
•
•
*
•
*
•
•
•
•
•
•
•
*
•
>>473F-0>>
5469E-05
5535E-05
5493E-05
5425E-05
5433E-05
5460F-05
3459E-05
547BE-05
5579E-03
5514E-05
5437F.-05
5403E-05
5443E-05
5403E-05
5394F-05
5445E-05
5496E-05
5471E-05
5410F-05
5345F.-05
5367E-05
5325E-05
5486E-05
5412F.-05
5426E-05
5402E-05
532JE-05
5432E-05
5467E-05
5311E-05
3360E-05
5331E-05
5303E-05
5298r-05
5919F-03




(
{
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(









171
140
737
151
1 It
771
271
90
756
230
230
67
136
136
720
219
219
127
177
127
IBO
180
29i
176
176
145
178
178
120
120
137
137
250
258
187
195
)
)
)
)
)
)
)
)
)
)
)
1
)
)
)
)
)
)
)
)
)
)
)
)









)
)
)
7.5290F.-05 f
7.5275E-05 {
7.5407E-05 (
7.5467E-05 (
7.5387E-05 (
7.5538E-05 (
7.5612E-05 {
7.56B7E-03 (
7.S582E-05 (
7.5960E-05 (
7.5569E-05 (
7.5550E-05 (
7.5336E-05 (
7.5310E-05 (
7.54IOE-05 (
7.5197E-05 {
7.5206E-05 (
7.5246E-05 (
7.5249E-05 (
7.5242E-05 (
7.52l4f:-05 (
7.527JE-05 (
7.5290E-05 (
7.5397E-05 (
7.55R6F.-05 (
7.5230E-05 (
7.5268E-05 (
7.5220E-05 (
7.5431E-05 {
7.5315E-05 (
7.5509E-05 (
7.5207E-05 (
7.518IE-OS (
7.5155F.-05 (
7.522SE-05 f
7.54n6E-05 (
173
265
306
56
11
19
14
44
30
94
79
67
2
122
86
219
219
127
20
218
218
718
291
291
73
145
178
244
243
120
123
272
258
211
11
195
>
)
)
)
>
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
1
)
)
)
)
)
)
                                                                                       OAY=150.
                                                                                        i.7 KM
7.5184F-05
7.5I71F.-05
7.3586F-05
7.5437E-05
7.5332E-05
7.5507F-05
7.567BE-05
7.561BF-05
7.5666E-05
7.56B5F-05
7.55MF-05
7.5478E-05
7.5794F.-05
7.5739F.-05
7.5377E-05
7.521 IE-OS
7.5158E-05
7.5317F-05
7.57R6F.-05
7.5703E-05
7.5121E-05
7.5769F-05
7.5344F.-05
7.5332E-05
7.5709E-05
7.5302E-05
7.5303E-05
7.5406F.-05
7.5505E-05
7.5361E-05
7.5570E-05
7.5246F.-05
7.515BE-05
7.5177F-05
7.3187F-05
7.3257F-05
(
(







{
(
{
(
(
(
(
(
(
(
{
(
(
(
(
(
(
(
(
(
(
(
C
(
(
(
<
165 )
265 )
306 )
56 )
330 )
19 )
14 1
44 )
30 )
94 )
79 )
67 )
2 )
302 )
flfi )
34 )
33 )
20 )
20 )
218
180
21«
791
33
73
2« )
121 )
121 )
243 )
8 )
123 )
6 )
71 )
53 )
11 )
195 )
                                                                                                              13.3
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
7
*
•
»
•
*
•
•
•
•
^
m
•
»
*
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
m
•
•
•
•
•
5I60F.-05
5162E-05
5398E-05
5301E-05
5253E-05
5256F.-05
5409E-05
5367E-05
5428E-05
54B9E-05
5312E-05
5209E-05
5233E-05
5200E-05
5221E-05
5148F-05
5I42E-05
5190E-05
5224E-05
5125E-05
5076E-05
5153E-05
530BE-05
5289E-05
5422E-05
534RE-03
5338E-05
5329E-05
5359E-05
5224E-05
5327E-05
5175E-05
5144F.-05
5190E-05
5104E-OS
5164E-05
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
{
(
(
(
(
(
(
(
(
(
(
(
(
283
7
306
23
242
19
4
45
30
318
79
96
303
302
86
34
31
20
218
218
180
218
291
33
73
28
121
121
244
162
123
6
71
53
146
150
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
-------
PFNN. ELECTRIC  CO. SH»WVILLE






                                 NOM--SO2




   MAXIMUM  3-HOUR CONC =  7.9504E-05   OIRFTTIONE   0.   DISTANCE*   0.8  KM







            HIGHEST 3-HOUR CONCENTRATION AT EACH  RECEPTOR
D»Y=150.   HOUR=1500.
RAMGE 0.«
OIR
1
2
3
4
5
6
7
8
9
10
1 1
12
13
14
15
CO 16
J, 17
r\j
0 18
w 19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
7.7404F-05
7.7556E-05
7.7521C-05
7.7543E-05
7.7053E-05
7.7381E-05
7.7147E-05
7.7309E-05
7.7428t-05
7.7653E-05
7 .7537E-05
7.7559E-05
7.7174E-05
7.7416E-05
7.7314E-05
7.7143E-05
7.7379E-05
7.7323E-05
7.69S5E-05
7.7503E-05
7.7071E-05
7.71 14E-05
7 .6690F-05
7.6051E-05
7.6878E-05
7.7 )83F-05
7.71486-05
7.6753E-05
7.6973C-05
7.7714F.-05
7.7706G-05
7.7204F.-05
7.7297K-05
7.7377E-05
7 .7151E-05
7.9504E-05
KM
( 146
( 238
( 237
( 131
( 131
( 236
( 221
( 245
( 224
( 230
( 239
( 239
( 136
( 136
( 122
( 219
( 219
( 219
( 127
( 127
( 127
( 180
( 176
( 176
( 235
( 145
( 145
( 161
( 21
( 21
( 137
( 137
( 250
( 135
( 135
( 150

)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
1
)
)
)
)
1
)
)
)
)
)
)
)
)
)
)
)
)
)
1.7 KM
7.6703E-05
7.698RE-05
7.6958E-05
7.7252E-05
7.6701E-05
7.6622E-05
7.6724E-05
7.6837F.-05
7.6825E-05
7.6740E-05
7.6802E-05
7.6532F-05
7.6667E-05
7.6763E-05
7.6719E-05
7.6533E-05
7.6697F-05
7.6747F-05
7.6404E-05
7.6612E-05
7.6391E-05
7.6467F-05
7.6315E-05
7.6724E-05
7.7012E-05
7.ft599E-05
7.6709E-05
7.6219F-05
7.6566F.-05
7.6882E-05
7.6725E-05
7.6659E-05
7.6615E-05
7.6694E-05
7.6370F-05
7.7942E-05

146 )
140
237
23
124
221
14
30 )
30 )
42 )
( 326 )
( 229 )
( 2 )
( 220 )
( 34 )
( 220 )
( 219 )
( 127 )
( 127 )
( 127 )
r 2ta )
( 1 80 )
( 291 )
( 32 )
( 235 )
( 145 )
(181 )
( 178 )
( 244 )
( 21 )
( 333 )
( 334 )
( 250 )
( ISO )
C 59 )
( 150 )
3.3 KM
7.P 202E-05
7.64B5E-05
7.6574E-05
7.6435E-05
7.6727E-05
7.6731E-05
7.6654E-05
7.6702E-05
7.6743E-05
7.6671E-05
7.6412E-05
7.6262E-05
7.6454E-05
7.6178E-05
7.6388E-05
7.6310E-05
7.6037E-05
7.59R6E-05
7.5962E-05
7.6324E-05
7.5972E-05
7.6134E-05
7.6086E-05
7.6515E-05
7.6264E-05
7.6255E-05
7. 60035-05
7.6228E-05
7.6420E-05
7.6224E-05
7.6583E-05
7.6070E-05
7.6015E-05
7.6069E-05
7.6233E-05
7.6547E-05

( 228 )
( 259 )
( 24 )
( 15 )
( 18 1
( 18 )
( 16 )
( 9 )
( 9 )
( 2 )
( 337 )
( 67 )
( 2 )
( 340 )
( 34 )
( 126 )
f 185 )
{ 214 )
f 20 )
( 20 )
( 218 )
( 218 )
( 291 )
{ 291 )
{ 73 )
( 69 )
( 35 )
( 334 )
( 76 1
( 333 )
( 10 )
( 6 )
( 149 )
( 11 )
( It )
{ 142 >
6.7 KM
7.5982E-05
7.61 38F.-05
7.7042E-05
7.6571E-05
7.68fi7E-05
7.6651E-05
7.6604F.-05
7.6868E-05
7.6760E-05
7.6785E-05
7.6351E-05
7.6369E-05
7.6562E-05
7.6316E-05
7.6641E-05
7.6473E-05
7.6097E-05
7.6651E-05
7.6088E-05
7.6055E-05
7.5871F-05
7.6048E-05
7.6077E-05
7.6295F-05
7.6449E-05
7.6506E-05
7.6526E-05
7.6458E-05
7.6757E-05
7.6742E-05
7.7337F-05
7.6103F-05
7.5809E-05
7.6334F-05
7.6019E-05
7.6042F-05

( 165 )
( 17 )
306 }
IS )
242 )
1 >
14 )
4 )
42 )
326 )
79 )
( 252 )
( 2 )
( 340 )
C 19 )
( 126 )
( 20 )
( 20 )
( 20 )
( 218 )
( 72 )
( 218 )
( 291 )
( 242 )
( 32 )
( 48 )
( 227 )
( 10 )
{ 243 )
( 8 )
( 10 )
6 )
149 )
53 )
It 1
232 )
13.3 R!"l
7.5963E-05
7.6109E-05
7.6329E-05
7.6614E-05
7.6581E-05
7.6051E-05
7.6J93E-05
7.6299E-05
7.62P9E-05
7.6304E-05
7.6133E-05
7.6027E-05
7.5863E-05
7.5843E-05
7.6135E-05
7.5776E-05
7.5707E-05
7.6030E-05
7.6028E-05
7.5708E-05
7.5620E-05
7.5863E-05
7.6240E-05
7.6216E-05
7.6259E-05
7.6615E-05
7.6227E-05
7.61 34E-05
7.6302E-05
7.6059E-05
7.6530E-05
7.5932E-05
7.5814E-05
7.6181F.-05
7.5626E-05
7.5567E-05

( 783
( 7
( 306
( 23
( 242
( 37
( 308
( 45
( 30
( 326
( 22
( 318
( 13
( 13
( 19
( 126
( 19
( 20
( 218
( 218
( 87
( 291
( 291
( 28
( 43
( 28
( 227
( 121
( 243
f 87
( 10
( 6
( 71
( 53
( 259
{ 232

)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)







-------
                                                          MAXIMUM DAILY CONCENTRATIONS


                                              HAY    24-HOUR CONCENTRATION    DIRECTION

                                              150          7.6310E-05             16           O.R3
                                               94          7.59KOE-05             10           1.1?
                                              210          7.5923005             10  ,         O.R3
                                              195          7.59I9E-05             36           1.66
                                              173          7.591 IE-OS          '   36           1.66
                                              137          7.5815005             11           °•"'
                                              197          7.5800E-05             36           1.66
                                              19f          7.5798O05             36           1.66
                                              739          7.5780O05             11           f).B3
                                              122          7.5771E-05             14           O.fl3
                                              237          7.5765E-05              1           0.«3
(                                              247          7.5761E-05             11           °-83
                                              ]f)9          7.5751E-05             36           1.66
                                              111          7.57ME-05             12           O.B3
(                                               73          7.5709E-05             '5           6.65
                                              103          7.5707E-05             12           0.83
                                              166          7.5699E-05             11           O.H3
(                                              151          7.5697E-05              4           0.83
                                              116          7.5697E-05             14           0.83
                                              14fl          7.5697E-05             10           0.83

<


(   7
   ro
   o
-------
    PENN. ELECTRIC CO. SHAWVTLLE
    SOLVENT REFINED COAL STUDY    PROJECT 7101
    SRC MAX. :OND.  TSP
    STACK I  1--SHAHVILLE STACK 1 (MAX. COND.)  SRC
    STACK •  2—SHAHVILLE STACK 3R4 SRC-TSP MAXIMUM LOAD
CO
ro
O
tn
STACK STRATEGY 802 EMISSION RATE PART EMISSION RATE HEIGHT
TYPE (GMS/SEC1 (GMS/SFC) (METFRS)
I NOM 1.40 0.00 182.88
2 NOM 1.30 0.00 99.06
RANGC(K
-------
JYR=75 110
ISTABs }
AHS= 1.8
TEMP= 2BO.
AF»= 2^2.
AF»R= 252.
HLHls 599
1472
3444443221 1
280. 780. 290. 280. 281. 282. 284. 785. 785. ?P7. 788.
171. 6. 53. 63. 123. 175. I46-. 150. 135. 154. 153.
121. 6. 53. 63. 173. 125. 14ft. 150. 135. 154. 1S3.
. 5<»B. 598. 598. 598. 5P8. 723. R4B. 973. 109».
. 1597. 1597. 15<»7. 1597. 1597. 1597. I5«7. 1597. 1597.
1
289.
147.
142.
1223
1597
1 t
790. 791.
139. 140.
139. MO.
. 1347.
. 15«7.
1
291.
157.
152.


1
291.
139.
1 39.


1
791 .
144.
144.


3
289.
144.
M4.


3
2B7.
MB.
MB.


4
2R3.
148.
14*.


4
283.
149.
149.


4 4
281. 281
147. 73
147. 73


JYR=7?
IST*B=
AWS =
AFVs
AFVRs


> 1*0
: 4
1.8
^32.
37.
lion
1037
= 5 JD*Y=136
444
7B6. 285. 2H5
85. 95. B6
85. 95. 86
. 1188. 1188.
. 1016. 1016.
4
. 285.
91 .
. 91.
1188.
1016.
4
285.
109.
109.
1IB8.
1016.
4
285.
132.
132.
IIBR
1016
42 1 1
286. 288. 289. 29|.
130. 146. 136. 135.
130. 146. 136. 135.
. 1166. 1145. 1173.
. 1016. 1016. 1016.
1
207.
146.
146.
1107.
1016.
1
794.
ISO.
150.
1080
1016
1 1
794. 705.
Ml. 135.
Ml. 135.
. 1059.
. 1016.
1
795.
145.
145.


1
795.
150.
150.


1
295.
166.
166.


2
292.
193.
193.


4
290.
188.
188.


4
288.
205.
205.


4
286.
219.
219.


4
4.5
285.
220.
220.


4
4.9
284
236
236


I   03
   ro
   o
   en
JYR=75 110= 5 ,IDAY=l37
IST»R=  4444
AHS =  3.6  4.0  7.7  3.1
TEMP
      283.
                                    4442tlllllll>
                   .     .     .    4.5   5.4   6.7  5.8  5.4  4.5  5.4   5.8   5.4   5.8   6.3  5.4  5.4
           =     . 282. 281.  280.  219.  279.  281. 2B5. 2BB. 291. 794.  295.  297.  296.  296.  295.  295.
       AFV»  245. 748. 757.  248.  257.  249.  247. 249. 260. 276. 317.  3M.  311.  319.  317.  320.  319.
       AFVRa 245. 248. 257.  248.  257.  249.  247. 249. ?60. 276. 317.  314.  311.  319.  317.  320.  319.
       HLHI=  312.  312.   312.   312.   312.   312.   439.  566.  693.   870.   947.  1074.
             1200. 1327.  1327.  1327.  1377.  1327.  1377.  1377.  1327.  1377.  1327.  1377.
       JTR=75 1*0 = 5
       ISTAR=  4
       AWS=  3.1
       TEMP= 284.
       AFVs  137.
       »FVR= 137.
       HLH1=  473.
  2333444
5.8  4.5  6.7  7.2  4.0  3.1  3.6
294. 292, 291. 289. 288. 287. 287.
317. 33B. 358.   8. 351. 335. 329.
317. 338. 358.   8. 351. 335. 329.
5 ,111*1 =
4 4
283. 282
70. 65
70. 65
473.
1750. 1
Hi
4
. 291
70
. 70
473.
750.
44441111111
. 280. 280. 282. 286. 289. 291. 292. 293. 295. 296. 297.
. 58. 103. 120. 143. 69. 53. 112. 99. 100. 91. 111.
. 58. 103. 120. 143. 69. 53. 112. 99. 100. 91. 111.
473. 473. 473. 633. 792. 952. 1111. 1271. 1431.
1750. 1750. 1750. 1750. 1750. 1750. 1750. 1750. 1750.
1
298.
105.
105.


1
298..
101.
101.


1
298.
115.
115.


2
296.
142.
142.


4
5.8
293.
154.
154.


4
6.7
290.
166.
166.


4
4.5
289.
176.
176.


4
2.2
287.
201.
201 .


4
2.2
285
225
225


JIK=(n Itus 3 vll)1I = 13l'
TSTARs 434444441 1 1
A*S = 5.9 7.6 6.7 6.7 7.2 6.3 7.6 6.3 3.1 4.0 4.9
TEMPa 2P3. 783. 783. 783. 283. 293. 283. 783. 793. 294. 294.
ArV=: 30. 16. 13. 16. 13. 9. 4. 352. 9. 10. 6.
AFVRs 30. 16. 13. 16. 13. 9. 4. 352. 9. 10. 6.
HLH1= 9B2. 087. 982. 982. 982. 982. 1018. 1055. 1097.
1238. J275. 1275. 1275. 1775. 1275. 1275. 1275. 1275.
1
4.0
295.
13.
13.
1178.
1275.
|
4.0
297.
4.
4.
1 165
1275
1 1
4.5 4.9
300. 299.
6. 9.
6. 9.
. 1201.
. 1275.
1
4.5
799.
351.
351.


1
5.4
799.
344.
344.


t
3.1
297.
337.
132.


2
4.0
296.
348.
348.


3
3.1
794.
353.
353.


3
3.1
294.
9.
9.


4
4.9
293.
14.
M.


4 4
4.5 3.6
293. 292
33. 29
33. 29


                    5  ,n>AY=l51
a I n— r 3 j TU
AM5= 3.6
TF.MPa 291.
AFV= 23.
AF¥R= 23.
HLH1 = 863
" .1 ij n M —
2.2 3.1
791. 291
27. 29
22. 29
. Hf>3.
I J 1
4.0 4.0
. 200. 790.
. 2t. 25.
. 2«. 75.
861. 063.

5.4
790.
24.
24.
863.

5.B
200.
2P.
2fl.
Hf 3
12211
5.8 7.7 6.7 8.1 R.I
793. 295. 705. 797. 297.
41. 43. 54. 48. 45.
41. 43. 54. 48. 45.
911. 960. IOOB. 1057.
1
8.5
29 P.
42.
42.
t 105
1 |
8.9 9.4
799. 799.
41. 47.
41 . 47.
. 1153.
t 750-
3
5.8
297.
42.
47.

2
4.9
297.
31.
31 .

1
3.6
707.
IB.
38.

4 4
4.0 3.6
296. 795
28. 352
28. 352

                                                                                                                    3444
                                                                                                                  5.4  4.5  4.5  5.4
                                                                                                                  294. 792. 292. 291.
                                                                                                                  336. 350. 351.   10.
                                                                                                                  336. 350. 351.   10.
-------
JYR=7S 1^1= 6 JDAY=166
ISTA8=  444444
AWS =  l.«  1.8  I.ft  0.9  0.9  7.7
TEMP* 7S8. 287. 287. 287. 286. 286.
AFV =  352. 319. 2°B. 317. 211. 270.
AFVR = 357.. 319. 298. 317. 211. 270.
HLH1 =  356.  356.  356.  356.  356.
      1466. 1625. 1625. 1625. 167S.
                                      43    11    I    I    1     1     t
                                    3.1  I.R  1.3  3.6  4.5  6.7  8.5  8.5   9.4
                                    28H. 290. 294. 297. 300. 301. 301. 302.  301,
                                    26R. 277. 243. 293. 326. 311. 313. 317.  315.
                                    26B. 277. 243. 293. 326. 311. 313. 317.  315.
                                     356.  515.  673.  «32.  990. 1141.  H08.
                                    1625. 1675. 1625.  1625. 1675. 1675.  1625.
  1     J1734434
8.Q   9.4  7.2  7.2  7.2  7.6  7.2   fl.5   6.3
301. 301. 300. 290. 298. 296. 296.  294.  290.
320. 313. 319. 325. 331. 354. 349.   50.   44.
320. 313. 319. 325. 331. 354. 349.   SO.   44.
JYR=75
ISTAB=
AWS =
TEMPs
AFV =
AFVRs
HLHIs
JYP=75
I STAB —
A*S =
TEMP =
AFV =
AFVR =
HI,H1 =
CO
1
ro
0
JYR=75
T C T I\ Q —
151 An=
TKMP =
AFVe
AFVH =
HUH1 =

JYR = 75
ISTAB=
A WS =
TEMP =
AFVs
AFVH =
HLH1 =
IMO =
4
0.4
288.
211.
211.
340.
1169.
HOr
1.3
7H9.
342.
342.
609.
1593.



1*0=

289.
19.
19.
542.
1767.
KO.
3
291.
323.
323.
660.
6 jn*Y=173
414
2.2 7.2 2.7
287. 287. 286
319. 5. 12
319. 5. 12
340. 340.
l?88. 1788.
7 JDAYs
1.3 1.3
289. 288
300. 284
300. 784
609.
189
1.9
. 288
. 256
. 256
609.
1734. 1734.







4
1.3
. 286.
8.
a.
340.
128R.

1.8
. 288.
. 759.
. 259.
609.
1734.




4
0.0
296.
190.
IPO.
340.
128fl.

1.8
7R8.
2H8.
7R8.
609.
1734.




4
0.0
28R.
180.
tao.
340.
12RR.

0.4.
2BH.
310.
310.
609.
1734.



7 JDAY=191

287. 286
67. lid
67. 118
547.
1936. t
7 ,in»V.

290. 290
29R. 284
29H. 284
660.

. 285
. 90
. 90
542.
936.
195

. 290
. 303
. 303
660.

. 285.
. 88.
. 88.
542.
1936.


. 290.
. 324.
. 324.


284.
32.
32.
542.
1936.


290.
331.
331.


287.
71.
71.
542.
1936.


290.
337.
337.
660.


1 1 1 l
0.9 1.3 2.2 7.7
792. 295. 297. 299.
59. 39. 10. 7.
59. 39. 10. 7.
458. 577. 695.
12R8. 128R. 1288.

2.7 1.8
290. 291
21 . 32
21. 32
750.
1734. 1



14
1
290. 293
108. 14
108. 14
716.
4 |
1 1
1.3 1.3
. 294. 798.
. 77. 31.
. 77. 31.
890. 1031..
734. 1734.



4 |
I I
. 296. 297.
. 334. t.
. 334. 1.
890. 1065.
1Q36. 1936. 1936.

3 1
291. 292
291. 5
291. 5
743.

1 1
. 293. 296.
5. 11.
5. 11.
827. 910.

t
2.2
lot.
5.
5.
814.
1288.
1
i
2.7
300.
12.
12.
1171.
1734.



1'

297.
9.
9.
1239.
1936.

1
297.
4.
4.
994.

3.1
307.
9.
9.
937.
12R8.

7.7
302.
4.
4.
1312.
1734.



t
i
2.7
298.
to.
10.
1413.
1936.


299.
5.
5.
1077.

t t
2.7 2.2
302. 307..
9. 11 .
9. 11.
1051.
12RR.

2.7 3.6
303. 301.
2. 312.
2. 312.
1453.
1734.



1 1
i i
40 2.7
299. 301.
15. 11.
15. 11.
15R8.
1936.
t^
,3
299. 295.
1. 16.
1. 16.
1160.

1
1.3
304.
126.
126.

2.7
300.
340.
340.





j
4.0
301 .
9.
9.




297.
353.
353.


1
3.1
303.
10.
to.

3.6
301.
1.
I .





1
3.1
2R3.
9.
9.


4
1
297.
350.
350.


1
3.*
300.
341.
341.
1
4.5
299.
2.
2.





1
4.5
283.
35.
35.




294.
5.
5.


2.2
299.
336.
336.
3
4.5
297.
12.
12.





?
5.4
283.
36.
36.



3.1
292.
22.
22.


3.1
296.
12.
12.
4
3.1
296.
IB.
18.





3
1.0
2R3.
319.
319.



2.7
292.
347.
347.


3.6
295.
14.
14.
4
1.3
295.
32.
32.





3
1.0
283.
23.
23.



1 .8
292.
302.
302.


3.1
294.
19.
19.
4
2.7
294.
33.
33.





4
1.0
283.
30.
30.



0.4
291.
337.
337.


3.1
294.
23.
23.
4
2.2
294.
36.
36.





4
1.3
2R7.
274.
274.



0.9
291.
44.
44.


2.7
292.
31.
31.
4
3.1
293.
29.
29.





4
2.7
287.
36.
36.



7.2
291.
52.
52.

       1244.  1327.  1327.  1327.  1327.  1327.  1327.  1327. 1327. 1327. 1327. 1327.
JYR = 75 TMO= 7
ISTABs  44
A*S=  3.1  4.0
TEMP= 791
AFVa  259
                   444443
                 2.2   0.4   0.0   O.O   0.4   0.4
            291.  791.  291.  791.  291.  291.  297.
            279.  286.  300.  305.  2R2.  279.  313.
AFVPs 259.  279.  286.  300.  30S.  282.  279.  313.
HLH1=  640.   640.   640.  640.   640.   640.   832. 1074. 1216. MOP. 1600. 1793.
      1985.  2177.  2177.  7177.  2177.  2177.  7177. 2177. 7177. 7177. 2177. 7177.
1 1
1.3 2.7
294. 296.
18. 7.
18. 7.
1
7.7
799.
3.
3.
1 1
3.6 7.7
299. 298.
18. 56.
18. 56.
1
7.7
301 .
10.
10.
1
2.2
301 .
12.
17.
1
2.2
301.
2B.
28.
1
3.1
300.
12.
12.
1
3.1
7.<*9.
2.
2.
3 <
3.1 3.1
297. 295.
356. 25.
356. 25.
4
0.9
295.
112.
112.
4
2.2
294.
284.
784.
4 4
1.8 0.9
293. 297
268. 189
268. 1B9
-------
JYRS75  110= 8 JDAY=230
ISTAB=  444444431III1I
AHS=  4.0  3.6  4.9  4.9  4.5  5.4  4.5  3.6  4.0  5.4  5.8  5.4  5.8  6.3
TEMP= 290. 290. 289. 2R9. 289. 290. 291. 792. 293. 294. 295. 296. 296. 297.
AFV =
AFVPa
HLH1 =
40.
40.
967.
49.
49.
47.
47.
61.
61.
77. 106. 107.  ItO.  108.
77. 106. 107.  110.  10R.
94. 107.
94. 107.
101. 106. Ill,
101. 106. III. 114. 118. 106
  11.11344444
7.2  6.3  6.3  5.8  6.3  6.7  7.6  6.7  3.1  3.6
297. 297. 298. 797. 295. 292. 291. 290. 289. 288.
114. 118. 106. 109. 116. 129. 145. 148. 130. 145.
               109. 116. 129. 145. 148. 130. 145.
 967.  967.  967.  967.  967. 1073. 1179.  1284. 1300. 1496. IfOI.
      1707. 1813.  181).  IRI1.  1811.  IRI1. 1811. 1813. 1813. 1813. 1813.  1811.












DO
ro
0
00






ISTARs 4
AHS= 7.6
TEMP = 2015.
AFV = 47.
AFVR = 47.
HLH1= 501.
759.
JYR=75 IMO*
I3TAB= 4
K U C v £. 1
A if r>~ F* • »
TEMP* 290.
AFVs |14.
AFVRs 114.
HLHls 439.
1175.



JYR=75 110=
JSTABs 4
H tj g _ n A
AW 3= 0.4
TEMPs 286.
AFVs 47.
AFVRs 47.
HUHls 35.
5.R 4.5 4.0 4.9
294. 294. 291. 291.
51. 49. 27. 10.
51. 49. 27. 30.
501. 501. 501.
795. 795. 795.
8 .JOAYS239
4444
290. 289. 288. 2RR.
115. 109. 104. 85.
115. 109. 104. 85.
439. 439. 439.
12HO. 1240. 1280.



9 JDAYs247
4444
286. 286. 286. 286.
45. 25. 36. 37.
45. 25. 36. 37.
35. 35. 35.
4.9
292.
77.
27.
501.
795.

4
287.
48.
48.
439.
1280.




4
287.
31.
31.
35.
4.5
293.
31.
31.
501
795

4
287.
53.
53.
439
1280




4
287.
32.
32.
35
4.0 4.5 4.0 4.0
294. 296. 297. 299.
37. 34. 33. 32.
37. 34. 33. 32.
. 5.18. 574. 611.
. 795. 795. 795.

4311
288. 290. 294. 296.
47. 57, 106. 122.
47. 57. 106. 122.
. 544. 649i 754.
. 1280. 1280. 1280.




4311
288. 290. 291. 293.
77. 115. lit. 108.
77. 115. 111. 108.
. 172. 308. 445.
5.8
300.
39.
39.
648.
795.

1
297.
174.
124.
859.
12RO.




1
294.
113.
113.
581.
t
5.4
301.
25.
25.
684.
795.

1
298.
125.
125.
965.
1280.




1
295.
lie.
118.
718.
t 1
6.7 8.1
302. 301.
26. 37.
26. 37.
721.
795.

1 I
298. 799.
124. 118.
124. tin.
1070.
1280.




1 1
296. 295.
122. 117.
122. 117.
855.
8.5
302.
45.
45.



1
299.
113.
113.






1
295.
112.
112.

8.5
301.
47.
47.



1
299.
112.
112.






1
295..
110.
ItO.

2
7.6
301.
48.
4R.



1
299.
117.
117.






2
294.
110.
110.

3
7.2
J99.
40.
40.



3
296.
109.
109.






4
291.
116.
HA.

4
6.3
29«.
45.
45.



4
293.
121.
121.






4
290.
114.
114.
"
4
4.9
296.
47.
47.



4
291.
125.
125.






4
268.
116.
116.

4
4.5
295.
39.
39.



4
289.
129.
129.






4
40
« 7
288.
121.
121.

4
4.9
294.
39.
39.



4
287.
142.
142.






4
6*
. 3
286.
132.
132.

4
4.0
293.
21.
21.



4
286.
151.
151.






4
4it
. 3
285.
131.
131.

       991. 1128. 1128. 1128. 1178. 1128. 1128. 1(28. 1128. 1178. 1128. 1128.
YEAR BASED ON  20. BAYS
-------
       PENH.  ELFCTRTC CO. SHAWVIU,F


                                       NOM—S02

           MAXIMUM  MFAN CONC=  7.5284O05   DIRECTIONS 36  DISTANCE*   1.7  KM
                       ANNUAL MEAN CONCENTRATION  AT BACH RECEPTOR
        RANGE     0.8 KM         1.7 KM          3.3 KM         6.7 KM
                                                                            13.3  KM
ro
o
UD
DIP
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 2?
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
7.51208E-05
7.50927E-05
7.50921E-05
7.50735E-05
7.50427E-05
7.50154E-05
7.50107E-05
7.50325E-05
7.50696E-05
7.51773E-05
7.52401E-05
7.52252E-05
7.51673E-05
7.51124E-05
7.50727E-05
7.50379E-05
7.50137E-05
7.50042E-OS
7.50026E-05
7.50010E-05
7.50001E-0-S
7.50000E-05
7.50000E-05
7.50004E-05
7.50024E-05
7.50059E-05
7.50076E-05
7.50109E-05
7.50262E-05
7.50605E-05
7.50B93E-05
7.50798E-05
7.50517E-05
7.S0409E-OS
7.50529E-05
7.52602E-05
7.51384E-05
7.S0906E-05
7.50709E-05
7.5n590E-05
7.50328E-05
7.50110E-05
7.50065E-05
7.501 79E-05
7.50542E-05 .
7.51303E-05
7.51479E-05
7.51294E-05
7.50970E-05
7.50660E-05
7.50428E-05
7.50210E-05
7.50070E-05
7.5003JE-05
7.50044E-05
7.50017E-05
7.50001E-05
7.50000E-05
7.50000E-05
7.50005E-05
7.50053E-05
7.50081F-05
7.50065E-05
7.50068E-05
7.50142E-05
7.5033BE-05
7.50542E-05
7.50SnE-05
7.50384E-05
7.50373E-05
7.505IOE-05
7.52835E-05
7.5081flE-05
7.50486E-05
7 .50418P-05
7.50354E-05
7.50201E-05
7.50065C-05
7.50044E-05
7.50104E-05
7.50284E-05
7.51072E-05
7.50695E-05
7.50592E-05
7.50403E-05
7.50349F-05
7.50194F-05
7.50076E-05
7.50023E-05
7.50032E-05
7.50029E-05
7.50009E-05
7.50000E-05
7.50000E-05
7.50005E-05
7.50060E-05
7.50283E-05
7.50142F.-05
7.50054E-05
7.50027E-05
7.50050E-05
7.50123E-05
7.50216E-05
7.5021BE-05
7.50237E-05
7.50197E-05
7.50275E-05
7.51489E-OS
7.50445E-05
7.50761E-05
7.50249E-05
7.50194E-05
7.50J07E-05
7.50031C-05
7.500J4E-05
7.5008SE-05
7.50140F.-05
7.50695E-05
7.50359E-05
7.50302E-05
7.50149E-05
7.50237E-05
7.50101E-05
7.50028E-05
7.5000RE-05
7.50036E-05
7.50012E-05
7.50003E-05
7.50050P-05
7.50000E-05
7.5000BE-05
7.50131E-05
7.50395E-05
7.50145E-05
7.50044E-05
7.50012E-05
7.50027E-05
7.50043E-05
7.500BOF-05
7.50093E-05
7.50170E-05
7.500«IOF:-05
7.50147E-05
7.5068SE-05
7.50252E-05
7.50167E-05
7.50146E-05
7.50096E-05
7.50070E-05
7.50030E-05
7.50012F-05
7.500S1F-05
7.50065E-05
7.50344Er05
7.50195E-05
7.50148E-05
7.50064E-05
7.50131E-05
7.50057E-05
7.50013E-05
7.50004E-05
7.50021E-05
7.50005E-05
7.50001F-05
7.50000E-05
7.50000E-05
7.50004E-05
7.501 18E-05
7.50258E-05
7.50102E-05
7.50044E-05
7.50006E-05
7.50051E-05
7.50020F-05
7.50039E-05
7.50069E-05
7.50097E-05
7.50036E-05
7.50082F-05
7.501fi1F-05
-------
PF.NN. ELECTRIC  CO. SH»WV!LI,E






                                 NnH--sn?




   MftXIMUM  24-HOUR CONC=   7.626BE-O5  IH RECTFON=360.  DI8T*HCF«   O.B KM
HIGHEST 24-HOUR CONCENTRATION AT F»CH
RANGE O.fl
DIR
2

4
5
f,
7
8
9
1 0
| l
12
1 3
1 4
15
CD 16

—i IB
o 19
20
21
22
23
24
25
26
27
2R
29
30
31
32
33
34
35
36
7 .545IE-05
7 .5579F.-05
7.S761E-05
7.5S96F.-05
7.5507F.-05
7.51«3E-05
7.507CE-05
7.5258F.-05
7.5625E-05
7 .5933F.-05
7.5902F-05
7 .5917E-05
7.5738E-05
7.5780E-05
7.5690F.-05
7.5370F.-05
7 .5159F-05
7.5063F-05
7. 5049 F. -05
7 .5020E-05
7 .5007F-OS
7.5000E-05
7.5001G-05
7.5008R-05
7.5047E-05
7.51 13F.-05
7.51 23E-05
7.511 4E-05
7.5276F-05
7.5591E-05
7.5853E-05
7.5755F.-05
7 .5366E-05
7.5280E-05
7.5337F-05
7.6268E-05
KM 1.7 KM
( ISO ) 7.55I7F.-05 (
( 237
( 237
( 151
( 151
( 151
( 148
( 230
{ 210
( 230
( 111
( 111
( 103
( 122
( 122
( 122
( 136
( 136
( 1 36
( 136
( 136
( 136
( 137
( 137
( 137
( 137
( 137
( 137
( 166
( 166
( 166
( 166
( 166
( 150
( 150
( 150
7.536IE-05 (
7.554IE-05 (
7.5489E-05 (
7.5129F.-05 {
7.5096F-05 (
7.5041F.-05 (
7.5157E-05 (
7.5157E-05 (
7.5589E-05 (
7.5528E-05 (
7.5517E-05 (
7.5440E-05 {
7.5446F.-05 (
7.5394F.-05 (
7.5220E-05 (
7.5091E-05 {
7.5057E-05 (
7.508RE-05 (
7.5034E-05 (
7.5002E-05 (
7.5000E-05 (
7.5000F.-05 (
7.5006E-05 (
7.5056F.-05 (
7.5132F-05 (
7.5105E-05 (
7.5066F.-05 (
7.5153E-05 (
7.5320E-05 (
7.5518E-05 (
7.5422f>05 (
7.5196E-05 (
7.5255F.-05 (
7.5238E-05 (

197 )
217 )
217 )
151 )
151 )
151 )
148 )
148 )
230 )
210 )
247 )
1 1 1 )
103 )
136 )
122 )
136 )
116 )
1 )6 )
136 )
136 )
116 )
116 )
137 )
137 )
71 )
117 )
137 )
117 )
166 )
137 )
117 )
166 )
166 )
150 )
150 )
195 1
RECEPTOR
3.3 KM
7.5346F.-05
7.5I90E-05
7.5296E-05
7.5287E-05
7.5I38E-05
7.5037E-05
7.5054F.-05
7.5062E-05
7.5115E-OS
7.6162C-05
7.5298E-05
7.5273E-0*
7.5I84E-05
7.528IE-05
7.5168E-05
7.5082E-05
7.5012E-05
7.5061E-05
7.505RE-05
7.50IBE-05
7.50Q1F-05
7.5000F.-05
7.50IOE-05
7 ,5052Ei05
7.5530E-05
7.5203E-05
7.5052F.-05
7.5027E-05
7.5057F.-05
7.5II8F.-05
7.52I5E-05
7.5I61E-05
7.5121F.-05
7.5139C-05
7.5I05E-05
7.5608F.-05


( 173 )
( 197 )
{ 237 )
( 237 )
{ 151 )
( 189 )
( 189 )
( 111 )
( 730 )
( 94 )
( 247 )
( 111 )
( 103 )
{ 122 )
( 122 )
( 136 )
( 36 )
( 36 )
( 36 )
( 36 )
( 36 )
f 166 )
( 166 )
( 73 )
( 73 )
( 73 )
{ 137 )
( 166 )
( 166 )
( 137 )
( 137 )
( 166 )
( 166 )
( 150 )
( 197 )
( 195 )

6.7 KM
7.52I5F.-05
7.51 15F-05
7.S202F.-05
7.5169F.-05
7.5059F.-05
7.5026E-05
7.5040F-05
7.51 18F-05
7.5093E-05
7.5904F.-05
7.5231F-05
7.5183F-05
7.5077F-05
7.5217E-05
7.5072E-05
7.5035F-05
7.50I3F-05
7.5072F-05
7.5023E-05
7.5006F.-05
7.5000F-05
7.5000E-05
173 )
197 )
217 )
217 )
166 )
189 )
189 1
Ml 1
94 1
94 )
247 )
It )
16 )
22 )
4R )
36 )
36 )
16 1
36 )
36 1
36 )
166 )
7.50I6E-05 ( 166 )
7.5137E-OS ( 73 )
7.5764F.-05 ( 73 1
7.5250F.-05 ( 73 )
7.5055E-05 73 )
7.50I2E-OS 137 )
7.5023E-05 166 )
7.5043E-05 137 )
7.5084F-05 117 )
7.5056F.-05 ( 166 )
7.50P5E-05 ( 166 )
7.5056F.-05 { 150 )
7.5077f-05 ( 150 )
7.5123E-05 ( 19S )

13.3 KM
7.5131F.-05
7.5081F.-05
7.5131E-05
7.5087F.-05
7.5049E-05
7.5038E-05
7.5021E-05
7.5076E-05
7.5045E-05
7.5423F.-05
7.5146E-05
7.5096E-05
7.503BE-05
7.51 16E-05
7.5041F.-05
7.50I7E-05
7.S006E-05
7.5042E-05
7.5011E-05
7.5002F.-05
7.5000E-05
7.5000F.-05
7.5007F.-05
7.5154E-05
7.5504E-05
7.5182F.-05
7.5047E-05
7.5006F.-05
7.5086E-05
7.5020E-05
7.5041E-05
7.5060E-05
7.5052C-05
7.5026E-05
7.5066E-05
7.5166E-05


(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
{
(
(
(
(
(
(
(


173 )
197 )
237 )
237
239
148
189
111
94
94
247
111
136
122
148
136
136
136
136
1 36 )
136 )
166 )
166 )
73 )
73 )
73 )
166
166
195
137
1 37
195
137 1
150 :
150 )
150 }
-------
    PENN.  ELECTRIC CO.  SHAWVIM.E







                                     NOM--S02




fEAIU,Y MAXIMUM 3-HOUR CONC=   7.9297E-05  DIRECTIONS  0.  DISTANCE  0.8 KM   nAY=150.  HOUR=1500.







                HlfiHKST  3-HOUR CONCENTRATION  AT  EACH RECEPTOR
RANGE 0.8
31 R
' 1
2
3
( 4
5
6
( 7
a
9
' 10
it
12
' 13
14
15
( 
-------
                                                       MAXIMUM DAILY CONCENTRATIONS
                                                  24-HntlR CONTENrRATTON     DIRECTION    DISTANCE

                                           150          7.6268E-05             36          O.B3
                                           . 94          7.6I67E-05             10          3.3?
                                           195          7.6066E-0*             36          1.66
                                           17J          7.5<»6I>E-05             36          1.66
                                           230          7.5933E-05             10          O.B3
                                           111          7.5917O05             17          0.83
                                           197          7.5913E-05             36          1.66
                                           191          7.5911E-05             36          1.66
                                           103          7.5B96E-05             12          O.B3
                                           1*9          7.5BB5E-05             36          1.66
                                           247          7.58ftOE-05             11          O.B3
                                           I»i6          7.5853E-05             31          O.B3
                                           230          7.5B06E-05             II          0.«3
                                           137          7.5803E-05             31          0.83
                                           122          7.57BOE-05             14          0.83
                                            73          7.5764E-05             25          6.65
                                           337          7.5761E-05              3          O.B3
                                           ,151          7.56«>fiE-05              4          0.83
                                           136          7.5674E-05             14          0.83
                                           148          7.5659E-05             10          0.83
DO
l
ro
ro
-------
  PENS.  KLZZ.  SKWftRO
  SOLVENT  REFTMED COAL STUDY

  SEWARD PLANT 1975

  &NAM1
  KSTL=4  HJRsl   ITAP.IPUNs 2  0
     IOATA,I«ftX,ILOTSs 000
  lOHGTs ?    WHGTs 91.0  MST=  I
  NPOLa  2    ,JT»B= 1   INP»T= ?
  NSEA=  1    FJCONVr   0.304D006
  OAlf--
SYTFs 1.0   FIV=  3.0    TAF= 0.60
7S.O
1 1
1
1
1
1
1
1 1
1 1
t 1
















I








t
1
CO
ro
CO
-------
PLANT ELEVATION (FEET ABOVE 8FH  LF.VF.D--     1120.0
    RECEPTOR ELEVATIONS  (FEET  ABTVE  SEA  LEVEL)
DIRECTION
            R]NG » 1
                     RIHGI2
                                        PINCI4    RINGI5


















DO
ro
fs^.
•!•*




















1 1085.0
2 1090.0
3
4
5
6
7
R
9
10
1
7
j
4
5

7
q
100.0
i 15.0
120.0
130.0
130.0
135.0
150.0
145.0
135.0
1 20.0
170.0
120.0
120.0
100.0
100.0
100.0
19 1070.0
20 1080.0
21 1240.0
22 1210.0
23 1270.0
24 1420.0
25 1485.0
26 1500.0
27 1420.0
28 1310.0
29 1440.0
30 1550.0
31 1550.0
12 1560.0
33 1530.0
34 1400.0
15 1250.0
36 1180.0
STACK « 1--SEWAHO
STACK « 2--SEWARO
STACK STRATEGY
TYPE
1 NOM
7. NOM
1330.0 1700.0
1150.0 370.0
1200.0 250.0
1170.0 400.0
1100.0 750.0
1240.0 140.0
1300.0 100.0
1280.0 400.0
1740.0 1350.0
1240.0 1450.0
1250.0 1500.0
1210.0 1550.0
1260.0 1500.0
1220.0 1500.0
1220.0 1400.0
17RO.O 1350.0
1210.0 1450.0
1140.0 1350.0
1100.0 1700.0
IOHO.0 1100.0
lORO.O 1080.0
1090.0 10BO.O
1230.0 1150.0
1250.0 1700.0
13SO. 0 1240.0
1470.0 1300.0
1560.0 1470.0
1540.0 1540.0
1400.0 1400.0
1370.0 1400.0
1300.0 1540.0
1330.0 1400.0
1550.0 1550.0
1400.0 16*0.0
1130.0 1300.0
1200.0 1350.0
STACK 1 COAL T3P
STACK 2 COAL NORMAL
302 EMISSION RATE
(C.MS/REC)
14.00
38.00
1350^0
1500.0
1400.0
1440.0
420.0
440.0
300.0
150.0
400.0
800.0
950.0
2100.0
2100.0
2000.0
1B50.0
1700.0
1640.0
1620.0
1600.0
1540.0
1300.0
10BO.O
1010.0
1200.0
1300.0
1400.0
1 460.0
1400.0
1550.0
1600.0
1620.0
1700.0
IBOO.O
1550.0
1580.0
1350.0

TSP
PART



1600.0
1500.0
1500.0
1450.0
1550.0
1500.0
1770.0
1770.0
1950.0
7»oo.o
1000.0
2460.0
7560.0
2500.0
2 5 3 0.0
2450.0
2700.0
1900.0
1«00.0
1300.0
1710.0
1710.0
1400.0
1060.0
MOO.O
1350.0
1570.0
1660.0
1660.0
1710.0
1770.0
1750.0
1700.0
1600.0
1620.0
U70.0


EMISSION RATE
(GHS/SFC)
o.no
0.00
   RANGKCKM)*   1.17   2.07   2.75   3.65   5.21
   SEASONAL VARIATIONS BY CASE I
            1   1.03   0.93   0.99   1.10   1.03
                                                               HEIGHT
                                                              (MFTFRS1

                                                                ftfl.60

                                                                60.60
                      DIAMETER   EXIT  VELOCITY   TEMP
                      CMETERS1      (M/SEC)      fOEC.K)
                        7.40

                        3.00
31.30

17.70
449.00

414.00
VOLUMETRIC F1.0H
  |M»*3/SEC)

     141.60

     231.14
0.99
       1.13   1.09    1.10    0.97    O.fU    O.fll
 YEAR  RASCD OH 3*5.  OAVS
-------
       PF.MN. ELEC. SEHARD


                                       NOM--S02

          MRXIM'JH MF.HN CONC=   7.6076F-05  DIRECTION^  8  DISTHNCE*   3.7 KM
     RANGE     t.2  KM
                              MF.HN coNCENTRRrrnM AT EACH RECEPTOR
                                 2.1  KH         ?.fl KM          3.7  KM
                                                                            •5.2  KM
CD
ro
en
DIR
  t
  2
  3
  4
  5
  6
  7
  9
  9
 10
 11
 1?
 13
 14
 15
 IS
 17
 18
 19
 20
 21
 22
 2?
 24
 25
 26
 27
 2«
 29
 30
 31
 32
 33
 34
 35
 36
7.51256E-05
7.51488E-05
7.52391E-05
7.53710E-05
7.55254E-05
7.55309E-05
7.55120E-05
7.S4P89R-05
7.54306E-0'5
7.55462E-05
7.56459E-05
7.554S9E-OS
7.S324JE-05
7.51719E-0!>
7.51101E-0-S
7. •S0884E-05
7.507 »3E-05
7.50603E-05
7.50511E-05
7.50434E-05
7.50159E-05
7.S0272E-05
7.50267E-05
7.503S5E-05
1.50523E-05
7.50623E-05
7.50951E-05
7.51522E-0«i
7.522«6E-05
7.53009E-OS
7.53540E-OS
7.52959E-05
7.51603E-05
7.S0952E-05
7.50QS2E-05
7.51801E-05
7.5149I5E-05
7.51667E-05
7.52980E-05
7.54901E-05
7.57646E-05
7.5636'iE-05
7.57432C-05
7.5HOS4E-05
7.55930C-05 .
7.56086E-05
7.57564E-05
7.5S54flf-05
7.53139E-05
7.S1755E-05
7.511SOE-05
7.509fi3E-05
7.50765E-05
7.50694E-05
7.50fifllC-05
7.50643E-05
7.5062SR-05
7.50551E-05
7.S058»E-05
7.50675E-05
7.50936E-05
7.50855E-05
7.51086E-05
7.51364E-05
7.57093F>05
7.53144T-05
7.54893E-05
7.55033F-05
7.52422E-05
7.51120E-05
7.509H5E-05
7.519SSE-05
7.51613F-05
7.S1739E-05
7.53195E-05
7.5S407F-05
7.5R608E-05
7.«?fi917E-05
7.58743E-05
7.S9857K-05
7.57367E-05
7.57940P-05
7.-JS313F-05
7.55723E-05
7.53239F-05
7.51802F-05
7.51172F-05
7.50930C-n5
7.50747E-05
7.50673F-OS
7.50671E-05
7.50681F-05
7.S0703F-05
7.50»>60E-05
7.50664E-05
7.50748F-05
7.51005E-05
7.S0842E-05
7.51019F.-OS
7.S1233F.-05
7.S2147E-05
7.53119E-05
7.S5162F-05
7.556fi7f.-05
7.52626F.-05
7.S1484E-05
7.5in04F-05
T.SigilF.-OS
7.51647F.-05
7.51763E-05
7.53224F.-05
7.55531F-05
7.58760E-05
7.57070C-05
7.59394F-05
7.f07P1F,-05
7.58389F.-05
7.58481F-05
7.584H1F-05
7.5S701F-05
7.53272F-05
7.5181RE-05
7.51214F.-05
7.50911F.-05
7.507PQF.-05
7.50650E-05
7.50609F-05
7.5067JF.-05
7.50716E-OS
7.50731F-05
7.5065BF-05
7.507fi1F-05
7.509B2E-05
7.50790F-05
7.50927F-05
7.511«4F.-05
7.52273F-05
7.52955F.-05
7.549S2F.-05
7.55691E-05
7.525P3F-05
7.5l''75E-05
7.510nflF-05
7.517KOE-05
7.51534E-05
7.51675E-01)
7.52954E-05
7.S5053F-05
7.S77S4E-05
7.5M10F-05
7.S8895E-05
7.60?72E-05
7.SR379E-05
7.58007E-05
7.S76R1E-05
7.55226F.-05
7.53097E-05
7.51762E-05
7.51259E-05
7.5093BE-05
7.507B8F-05
7.50606E-05
7.50489F.-05
7.50621E-05
7.50657F.-05
7.50763K-05
7.50576E-05
7.«i0735F.-05
7.50R91E-05
7.50710F.-05
7.50816E-05
7.51705F-05
7.5234-5E-05
7.525ME-05
7.54294F-05
7.55040E-05
7.52280F.-05
7.51533E-0'5
7.S0938F.-OS
7.51448F-05
-------
    PF.NN. EI.F.C. SEWARD
                                    NOM--S07

YEARLY MAXIMUM 24-HOUR  CONC*  9.2497F-05  DIRF,CTION = 300.   DrSTA«irE =  2.B KM
  RANGE
   HIGHEST 24-HO»R CONCENTRATION AT EACH RECEPTOR
1.2 KM                 2.1  KM                2.B KM
                                                                   DAY=120.
                                                                                 1.7  KM
                                                                                                       3.2  KM
t 8.0163C-05 (
2 7.9764E-05 (
3 8.I930E-OS I
4 8. 44976-05
5 9.3406E-0-;
6 8.3139E-05
7 9.3224E-05
8 9.4001E-0'5
9 8.4796E-05
10 8.6844E-05
11 9.7381E-05
12 8.7587E-05
13 B.4391E-05
14 9.2307E-05
15 P.1240E-05
°° 16 B.1179E-05
r\i 17 8.1399E-05
^ 18 8.2377F.-05
19 9.1099E-05
20 7.8911F.-05
21 7.8748E-05
22 7.7952E-05
23 7.6966F>05
24 7.7I71E-05 t
25 7.B109E-05
26 7.B151E-05
27 7.9829IC-n5
28 8.5098E-05
29 8.9361E-05
30 9.9366E-05
31 8.5979E-05
32 8.5256F.-0')
33 R.0683E-05
34 8.0165E-05
35 8.2222E-05
36 B.61B3E-05
200 ) 7.9959E-05
113 ) 7.B37BF.-05
208 ) 8.0956E-05
208 ) 8.4711E-05
208 ) 8.8829F.-05
189 ) B.3495E-05
189 ) 8.5771E-05
59 ) 9.08HE-05
1B3 ) B.7853E-05
111 ) B.6298E-05'
96 ) B.6872E-05
103 ) 8.4516E-05
103 ) 8.3453E-05
117 1 8.0470E-05
219 ) 7.9578E-05
219 ) 8.0211E-05
180 ) 8.069BF.-05
IBO ) 8.0963E-05
IBO ) 7.9917E-05
180 ) 7.9065E-05
218 ) 8.0113E-05
181 ) 7.96P1E-05
181 1 7.8886F-05
179 ) 7.90BOF.-05
179 ) 9.4379E-05
179 ) 7.9063E-05
197 ) 8.0410F.-05
197 ) 8.0797E-05
[ 197 ) B.4055F.-05
[ 120 ) 9.J833E-OS
t 194 1 9.0907E-05
t 77 ) 9.8739E-05
[ 112 > 9.1490E-03
[ 112 ) 7.9B55C-05
[ 200 ) 7.9650K-05
r 200 ) B.6463E-05
199 1
164
349 1
156
56
39
76
57
9
6?
04
79
67
IBS
219
196
1B6
IflO
ISO ]
181 ]
m
181
191
267
767
179
73
187
1B7
170
261
77
6
112
700
200
8.I309E-OS ( 254 1 8.3069E-05
7.B64BE-05 ( 164 ) 7.8393E-05
B.1IBOE-OS f 349 1 8.0984E-05
B.57B1E-05 ( 156 ) B.5733F-05
9.04l8E-0!5 ( 56 ) B.937BE-05
8.4415C-05 { 332 ) B.5395E-05
B.fiSfieE-OS ( 26 ) 8.6559E-05
9.0960E-05 ( 57 ) 8.BB50E-05
8.4124E-05 ( 9 ) B.3615E-05
8.9144E-0-5 ( 62 ) 8.9330E-05
B.8256E-05 ( 94 ) 8.9526E-05
8.5012E-05 ( 275 ) B.5364F.-05
8.4812E-05 ( 67 ) 8.42B5E-05
B.0066E-05 ( 303 ) 8.0147E-05
7.B816E-05 ( 220 ) 7.B914E-05
7.9I91E-05 ( 186 ) 7.9055F-05
7.9557E-OS ( 186 ) 7.B234F.-05
7.9510E-05 ( IBO ) 7.81B3E-0"5
7.8634E-05 f 180 ) 7.8776E-05
7.8271F-0-? ( 179 ) 7.7874F.-05
7.9990E-05 ( 218 ) 7.9O05F.-05
) 7.9307E-05 ( 1P1 ) 7.9742E-05
I 7.9B87E-05 ( 267 ) 7.9066E-05
I 8.0030E-05 ( 767 ) 7.9936E-05
I B.6565E-05 ( 267 ) 8.63BOF.-OS
1 7.8B35E-05 t 767 ) 7.873IE-05
) 8.1102E-05 ( 73 ) B.0659E-05
1 7.9832F.-05 t 73 ) 7.9049E-05
( 8.61I5E-05 ( 177 ) 9.0777F.-05
1 9.74B7E-05 ( 170 ) 9.0946E-05
1 9.2432E-05 ( 261 1 9.08B6E-05
» B.8I16E-01 t 77 ) 8.B467E-05
\ 8.2653E-05 { 6 ) 8.2307E-05
» 7.B428E-05 ( 325 1 7.84S4F.-05
1 7.8757E-05 ( 200 ) 7.9097E-05
1 B.f847F-05 r 700 ) B.B027E-05
254 ) B.34B6E-05
164 ) 7.B090F.-05
263 ) B.0626E-05
306 ) 8.4922E-05
56 ) fl.6073F.-05
332 ) 9.45B3E-05
30B ) 8.3817E-05
57 ) 8.7257F-05
9 ) 8.3549E-05
62 ) B.6754E-05
96 ) 8.6885e-05
275 ) B.3765E-05
67 ) 8.216BE-05
303 ) 7.9399K-05
B6 7.9605E-05
20 B.0350E-05
1B6 7.8505E-05
IflO 7.776BF.-05
21B 7.9025E-05
179 7.7567E-05
218 7.9130F-05
169 8.0175F-05
267 7.B407E-05
267 7.8936E-05
267 8.41B9E-05
267 ) 7.7997E-05
73 ) 7.9300E-05
73 ) 7.8449E-05
177 ) 9.1344E-05
120 ) 8.7177E-05
261 ) 8.6941E-05
137 ) 8.6342E-05
6 1 B.06B3E-05
311 ) 7.8159E-05
201 ) 7.8B44E-05
200 ) 8.3649E-05
t 254
[ 167
263
306
56
332
308
7
124
62
96
275
67
303
t B6 )
[ 19 )
[ 218 )
t 210 )
[ 218 )
160 )
[ 218 )
[ 159 )
267 )
267 )
267 )
267 )
73 )
119 1
177 )
120 )
261 )
137 )
6 )
311 )
201 )
[ 200 )
-------
PENH. EUFC.  SEHARO
YEARLY MAXIMUM  3-HOUR C
                                NOM--S02




                          1.2434E-04  DTRFCTIONs  60.   DISTANCE*   2.B  KM  DAY= 39.   HOURs  300.
HIGHEST 3-HOOP CONCENTRATION AT EACH
RANGF. 1.2
OIR
1
2
3
4
5
6
7
g
9
10
11
12
13
14
00 15
no 16
— ' 17
18
19
.0221F-04
.0300K-04
.1 160E-04
.0911E-04
.1905E-04
.1636E-04
.13S7E-04
.0921E-04
.0923E-14
.1002E-04
.1455E-04
.0913E-04
.0966E-04
.0077E-04
,06<>7E-04
.OSSSE-O*
,03<»ie-04
.OOS8E-01
.0070E-04
20 9.92J1E-05
21 t.0440t-04
22 9.0344E-05
23 S.4680E-05
24 B.77S5F.-05
25 9.1455F.-05
26 9.4495E-05
27 .0199E-04
28 .1288E-04
29 .0940E-04
30 .0997E-04
31 .1168E-04
32 .1396E-04
KM

( 195 )
( 238 )
( 238 )
( 205
( 237
( 110
( 154
( 58
f 183
( 91
( 97
( 95
( 303
( 117
( 219
( 220
( 180 )
( 180 )
( 180 )
( 218 )
( 218 )
( 218 )
( 196 )
( 130 )
( 130 )
130 )
187 1
187 )
187 )
120 )
258 )
258 1
33 .0249E-04 112 )
34 0.6744F.-05
35 .0409E-04
36 .212RE-04
( 112 )
( 200 )
( 201 )
2.1 KM

9.6759E-05 (
9.3540E-05 (
.0074E-04 (
.0182E-04 (
.0642E-04 (
.1941F.-04 (
.0476E-04 (
.0762E-04 (
.0329E-04 (
.0750E-04 (
.0701E-04 (
.0367F.-04 f
.0029E-04 (
.0141F-04 (
9.9340E-05 (
9.6715F.-05 t
9.8107E-05 {
9.5425E-05 (
9.4331E-05 (
9.5230E-05 (
1.0129E-04 (
8.B704E-05 (
9.2077F>05 (
9.2012F-05 (
1.0175E-04 {
9.4800F-05 f
.OlROE-04 (
.0418F-04 f
.7465F-05 (
.0526E-04 (
.1018F-04 (
.OR70E-04 (
.02BOE-04 {
9.8997E-05 (
9.6144E-05 {
1.0400F.-04 (


204 )
113)
191 J
156 )
3 )

26 )
93 )
9 )
93 )
93 )
79 )
67 )
185 )
210 )
186 )
196 )
1 86 )
180 )
181 1
218 )
181 )
1 «1 )
267 )
267 )
179 )
73 )
73 )
187 )
120 )
243 )
244 )
6 )
325 )
200 )
201 )
RECEPTOR
2.8 KM

9.7B07E-05
9.2757E-OS
.0452E-04
.0756E-04
.1867E-04
.2434E-04
.0961E-04
.0642E-04
.0677E-04
.0719E-04
.1232E-04
1.07I6E-04
I.0406E-04
9.7659E-05
9.8251E-05
9.3372F.-05
9.2841E-05
9.3397E-05
8.9590E-05
9.0624E-05
9.7386E-05
9.0139F-05
9.4403F.-05
9.6851E-05
1.0844E-04
9.4932E-05
.0431E-04
.0353E-04
9.8608E-05
.0955E-04
.1972E-04
.1035E-04
.0602E-04
.0275E-04
9.5149F.-OS
1 .1102F.-04



f 254
( 113
( 312
( 156
( 3
( 39
f 234
( 19
f 9
f 94
( 81
( 126
( 67
( 185
r 210
186
186
210
182



) 1

3.7 KM

.0557E-04
) 9.440BF-05
1
)
1
)
)
)
)
)
)
1
)
1
.0786F-04
.0605E-04
.226BF.-04
.2045F-04
.1300E-04
.0746E-04
.0855E-04
.0754E-04
.1517F-04
.0516E-04
.0252E-04
.0049F-04
) 9.3982E-05
) 0.6483E-05
) 9.4038E-05
) 9.2030E-05
) 9.3251F-05
1»1 ) 8.846BE-05
218
128
267
267
( 267
( 365
( 73
f 73
( 177
( 120
( 243
( 261
f 6
( 325
( 200
f 200
) 9.3036F-05
1 8.9538F-05
) 9.6612E-05
V 9.7011E-05
)
I .OP08F-04
) 9.3448E-05
)
1.0250E-04
) 9.9039F.-05
)
)
)
)
)
)
.0379F-04
.OR04F-04
.2I63E-04
.0829F-04
.0348E-04
.0263F.-04
) 9.2562R-05
\
1 . 1070F-04

5.2 KM

( 254
( 83
( 312
{ 156
( 3
{ 39
{ 309
234
245
256
81
126
284
302
210
20
218
( 210
( 218
( 179
( 218
( 128
1.0622E-04
9.5223E-05
.06B1E-04
.0695E-04
.1702E-04
.1077E-04
.1414E-04
.0554E-04
.0949E-04
.0530E-04
.1 101E-04
.0257E-04
1.0419E-04
9.91B4E-05
9.6191E-05
9.9710F-05
9.4868E-05
8.9048C-05
9.4699E-05
9.1129E-05
9.1208E-05
9.3104E-05
( 267 ) 9.4483E-05
{ 267 ) 9.4127E-05
( 267 ) 1.0277E-04
( 267 ) H.9866E-05
( 73 ) 9.8274F.-05
{ 73 1 9.3809E-05
( 177 ) 1.0507E-04
( 120 ) 1.0303E-04
( 243 ) 1.1543E-04
( 261 > 1.0335E-04
( 6 t 9.6439F.-05
( 311 ) 1.0028E-04
{ 2«1 ) 9.218BE-05
( 200 t 1.0173E-04



( 254 )
( 205 )
( 241 )
( 114 )
( 3 )
( 39 )
( 42 )
( 234 )
( 42 )
( 229 )
( 81 )
( 98 )
206 )
302 )
20 )
20 )
218 )
92 1
218 )
219 )
73 )
217 )
218 )
( 266 )
( 267 1
{ 267 )
( 87 )
( 119 )
177 )
137 )
243 )
258 )
6 )
311 )
201 )
200 )
-------
                                                       MAXIMUM DAILY CnMCFMTRATTONR
DO
00
                                           DAY    24-HOUR COUCKNTRHTinN     DlR^CTrO*!    01.

                                           170          P.74H7F-OS             30          7.75
                                           761          9.2437F-05             II          2.15
                                           177          9.M44F-05             W          5.23
                                            57          9.0960F-05              8          2.75
                                            56          9.04IBF-05              *>          2.15
                                            67          P.9330F-05             10          3.65
                                            77          8.P73«»E-05             12          2.07
                                            96          B.B526F-05             11          ?.'»'>
                                           137          O.B467F-05             1?          1.^5
                                           335          S.B40JF-05              «          2.75
                                           1B7          fl.P361F-OS             29          1.11
                                            94          B.B25MT-05             It          2.75
                                            |4          S.BOJflF-O'S              *          3.65
                                             7          B.79n5E-05              1          ^.65
                                            37          «.785lf.-05              B          3.«'
                                            76          8.779fiF-0'S              «          2.75
                                           103          B.76B7E-05             12          1.17
                                           ,188          8.7236C-05             29          1.17
                                           HI          fl.6B7RE-05             11          t.17
                                           200          B.6B47E-05             36          2.75
-------
    PENN.  ELE:. SEWARO
    SOLVENT REFINED COAL STUDY
    1975 DATA MAXIMUM LOAD
REWARD
03
I
[S3

IO
STACK » 1--SKWABO STACK
STAC" « 2--SFWARO STACK
STACK STRATEGY S02

1,
2
RAMGE(KM)
SEASONAL

JYR=75 IMO =
ISTABa 4
AWS = 7.6
TEMPs 273.
ftFVs 59.
AFVR= 59.
HLHls 1800.
1 H 0 0 .
TYPE
NOW
NOW
s 1.17 2.
VARIATIONS BY
1 1.00 1.
1 JDAY= 7
7.6 9.4 8.5
273. 273. 273
71. 80. 83
71. 80. 83
1800. 1800.
1800. 1BOO.
1 - MAXIMUM LOAD COAL TSP
2 - MAXIMUM LOAD COAL TSP
EMISSION RATE PART EMISSION RATE
(GMS/SFC)
21.40
41 .50
07 2.75
CASE *
00 1.00

9.4 8.5
. 273. 273.
. 82. 84.
. 82. 84.
1800. 1800.
1800. 1800.
(GMS/SFC)


3.65

1.00

8.5
273.
85.
85.
1800
1800


5.23

1.00

8.1 9
0.00
0.00


1.00

.4 8.9
273. 273. 274
83.
83.
. 1800.
. 1800.
77. 82
77. 82
1800.
1800.




1.

9.9
. 274
. 83
. 83
1800.
1800.
HFTGHT
(MF.TRPS)
68.
68.


00 1.

9.4
. 275.
. 89.
. 89.
1800.
1800.
60
60


00

7.2
276.
86.
86.
1800
1800
OIAMFTF.R FXIT VELOCITY TEMP
(MFTFRS)
2.40
3.00


1.00 1.00

4.0 4.0 4.5
277. 277. 277
82. 82. 71
82. 82. 71
. 1800.
. 1ROO.
(M/SEC) (DEG.K)
31 .30
32.70


1 .00

3.6
. 277.
. 38.
. 38.


449.00
414.00


1.00

5.4 6.3 8.1
276. 276. 277.
5 . 2 . 18.
5. 2. 18.


VOLUMETRIC F[
(M*»3/SEC)
141.60
231.14




8.1 6.3 6.3
277. 277. 277.
23. 26. 6.
23. 26. 6.


,nw







6.3
277
357
357


JYRs75 I MO
ISTABs 3
A»S= 7.6
TEMPs 260.
»FV= 101.
HFVR= 101.
HLHls <»59
= 1 JDAYs 14
333
8.9 8.1 7.6
260. 259. 259
90. 88. 79
90. 88. 79
, 959. 959.
3
7.6
. 259.
. 84.
. 84.
959.
3
8.1
259.
81.
81.
959.
3
8.9
258.
75.
75.
959
3
10.3
258.
76.
76.
. 101
3 3
8.9 6.7
258. 259
71. 77
71. 77
3. 1067.
3
6.7
. 259.
. 80.
. 80.
1121.
3
8.5
259.
81 .
1175.
3
8.5
759.
87.
87.
1228
3 1
8.5 8.1
260. 260.
84. 81.
84. 81.
. 1282.
2
8.1
260.
85.
85.
                                                                                             3333
                                                                                           7.6   8.1   9.4   9.4
                                                                                           260.  260.  260.  259.
                                                                                            81.   85.   84.   80.
                                                                                            81.   85.   84.   80.
                                                                               3333
                                                                             8.5  8.1  8.9  9.4
                                                                             260.  260. 260. 260.
                                                                              75.   73.  72.  70,
                                                                              75.   73.  72.  70.
          1336. 13<»0. 1390. 1390. 1390. 1390. 1390. J390. 1390. 1390.  1390.  1390.
                1 ,IDAY= 26
    ISTAB=  333333333333333333443333
    »WS= 11.2 11.6 12.1 13.0 13.9 13.9 14.8 16.1 14.8 15.2 15.6  15.6  15.2  14.8  15.2  16.5  14.3  16.1  13.9 13.0 13.9 13.0 12.5 11.6
    TEMPs 271. 271. 271. 271. 270. 270. 270. 269. 269. 269. 269. 2*9.  269.  269.  268.  267.  267.  267.  267.  267.  267. 266. 266. 266.
    »FV =   75.  72.  71.  65.  82.  77.  76.  7P.  73.  75.  80.  78.   86.   OS.   88.   88.   91.   92.   88.   88.   86.  88.  87.  87.
    AFVRs  75.  72.  71.  65.  82.  77.  76.  7».  73.  75.  80.  78.   86.   •)•>.   88.   88.   91.   92.   88.   88.   86.  88.  87.  87.
    HLHls  566.  566.  566.  566.  566.  566.  598.  629.  661.  693.   725.   756.
           793.  820.  820.  820.  820.  820.  820.  «20.  820.  820.   820.   820.
ISTA«
AWS=  R.I
TEMPs 272.
AFV=   68.
AFVRs  68.
           IMOa 2 JOAYs  J7
            3443
               P.5  8.5  0.8  11.2  11.2  10.3  9.4  10.3  10.7  10.7  10.?  10.3
               272. 273. 274. 274. 274. 273. 273. 272. 271. 271.  271.  271
                67.
                     67.
                67.  67.
73.  76.
73.  76.
   80.  85.  97.
   90.  85.  92.
                        271. 271. 271.
88.  BB.  R3.  82.  86.  H7.  85.  «8.
fl8.  88.  «3.  92.  86.  87.  85.  88.
    HLH1= 1100.  1100.  UOO.  1100.  1100.  1100. 10«4.  1088.  1081.  1075.  1069.  1063.
          1056.  1050.  1050.  1050.  1O50.  1050. 1150.  1050.  1050.  1050.  1050.
                                                      3     3
                                                    7.6   6.7
                                                         271
                                                          92
      3333333
    7.2  6.7  6.3  6.7  6.7  7.6  7.2
    271. 271. 271. 270. 270. 270. 270.
     91.  93.  92.  86.  85.  91.  97.
92.  91.  93.  92.  86.  85.  91.  97.
-------
J)f« = 75 1*0= 2 .JOMf= 56
ISTARs
i 3
3
AWS= 10.7 «.5
TEMP*
AFVs
AFVRs
271.
93.
93.
271.
83.
83.
3
7.2
270.
65.
65.
3
7.2
270.
51.
51.
J
3
3
8.9 10.7 10.7
270.
54.
54.
270.
61.
61.
270
58
58
                                                           .  55.
HMIl = 1700. 1700. 1700. 1700. 1700. I7OO. 1609. 15IH. 1426. 1315.
      10M.  970.  970.  970.  970.  970.  970.  970.  970.  970.
                                     33333333333333333
                                   9.B  17.5  13.4  15.2  15.7  13.0  13.4  16.5  16.1  16.5  16.5 18.3 18.3 16.1  17.9 20.1 19.2
                                   270.  270.  770.  770.  270.  771.  771.  271.  771.  271.  771.  272.  271. 271. 272. 272. 273.
                                    31.   56.   53.   69.   5S.   57.   50.   57.   54.   58.   59.   59.   66.  77.  76.  Bl.  83.
                                    51.   5fi.   53.   60.   55.   52.   50.   57.   54.   58.   59.   59.   66.  72.  76.  81.  83.
                                                            1244.  1153.
                                                             970.   970.
J¥R=75 IMO= 2 ,in*\f = 57
ISTA8=  3    3    3    3    33    3    3    3    3    3    723    2    3    3    3     3     3     3    3     3     3
AHS = 19.7 17.4 17.9 16.1 15.2 15.2 13.9 13.9 14.3 16.1 16.5 16.1 13.6 17.0 16.5 15.6 14.3 13.9  13.0  12.5  13.4  13.4  12.1  11.6
T6MP = 272. 271. 271. 271. 771. 271. 270. 270. 270. 271. 272. 273. 274. 274. 275. 275. 274. 274.  274. 273.  273. 273.  272.  272.
AFVs   B2.  B5.  82.  8O.  77.  77.  71.  68.  77.  75.  75.  77.  83.  SB.  B6.  86.  91.  B9.   87.   84.   87.  87.   87.   87.
AFVR =  82.  85.  «7.  80.  77.  77.  71.  6B.  72.  75.  75.  77.  83.  88.  86.  86.  91.  89,   87.   84.   87.  87.   87.   87.
      2000. 7000. 2000. 7000. 2000. 2000. 1<»«8. 1935. 1903. 1870. 1P38. 1«05.
      1773. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740. 1740.
JYR=75 IMOa 3 JDAYs 62






CO
1
ro
ro
o
ISTABs 3
AHSs 9.B
TEMPs 263.
AFVs lie.
AFVRs JIB.
HLHls 1050
1916



JYR=75 IMO
333
9.4 8.5 8.9
263. 262. 262
llfl. 122. 105
11B. 122. 105
. 1050. 1050.
. 2040. 2040.



s 3 JOAYs 77

3
8.9
. 263
. 108
. 108
1050.
2040.






3 3
9.8 10.3.
. 262.
. 106.
. 106.
1050.
2040.



3
262.
109.
109.
1050.
2040.



3

3
9.4
262.
101.
lot .
1174
2040



3

321
9.4 9.8 10.3
262. 263. 264
107. 110. 106
107. 110. 106
. 1298. 1421*
. 2040. 2040.



3 2 1


3 J
10. 7 11.6
. 264.
. 107.
. 107.
1545.
2040.



1
263.
106.
I06t
1669
2040



1

11.6 12.1 10.3
265. 264. 264.
101. 115. 112.
101. 113. 117.
. 1793.
. 2040.



1 1 •>

10.3 11.2 12.1 10.7 12.5 12.1 10.3 9.8
265. 264. 264. 264. 264. 263. 263. 263
109. 114. 120. 115. 108. 115. 106. 103
109. 114. 120. 115. 108. 115. 106. 103






AHSs
TEMP
AFVa
AFVR
9.4 10.3  8.9 11.2 13.9 12.5 15.2 14.3  12.5  13.4  15.6 13.0 12.1  13.0 13.4 11.2 14.8 14.3 17.0 18.3 13.9 13.0 13.0 13.4
277. 277. 276. 276. 275. 275.  275.  275.  275.  276.  277.  279.  279.  280. 280.  781.  280. 778. 277. 276. 276. 275. 275. 276.
312. 310. 245. 331. 328. 325.  326.  326.  328.  324.  323.  3IB.  321.  31B. 374.  325.  327. 328. 324. 325. 320. 320. 318. 313.
312. 310. 245. 331. 328. 325.  326.  326.  328.  324.  323.  318.  321.  318. 374.  325.  327. 328. 324. 325. 320. 320. 318. 313.
 100.  100.  100.  100.  100.   100.  750.   400.   550.  700.   850. 1000.
1150. 1300. 1300. 1300. 1300.  1300. 1300.  1300.  1300. 1300.  1300. 1300.
     S TMQs 4 JOAts 94
ISTABs  333333333333333333333133
AWSs |5.6  18.fi  17.0 17.9  17.9  17.0 15.6 14.8 15.6 11.2 13.0 10.3 M.6 11.2 13.6 12.1 12.1  11.6  11.2  11.2  1.0.7  10.7  11.2  11.2
TEMPs 266. 26*.  265. 76S. 265. 265. 265. 764. 265. 265. 766. 2*6. 268. 269. 270. 270. 269. 76R.  266.  266.  266.  266.  265.  265.
AFVs  115. 115.  110. 108. 107. 112. 107. 101. 104. |04. 109. 111. 110. 110. 108. 119. 122. 126.  133.  128.  123.  116.  113.  121.
AFVRx 115. 115.  110. 108. 107. 112. 107. 101. 104. 104. 109. 111. 110. 110. 10B. 119. 122. 126.  133.  128.  123.  116.  113.  121.
      1000. 1000.  1000. 1000.  1000. 1000. llOfi. 1713. 131'. 1475. 1531. 1638.
      1744. 1850.  1850. 1850.  1850. 1850. 1R50. 1P50. 1850. 1850. 1850. 1850.
JYRs75 IMO= 4 JDAY = 96
I3TAB= 33333333711
AWSs 6.3 fl.l B.I 7.7 fl. I 8.1 8.5 « . 4 <» . « 9.4 9.B
TEMPs 766. 267. 267. 766. 766. 267. 267. 267. 26B. 269. 270.
AF¥= 120. 109. 113. 115. 111. 110. 118. 117. 112. 117. 115.
AFVHs 120. 109. 113. 115. 111. 110. 118. 117, 112. 117. 115.
HLHls 336. 336. 336. 336. 316. 336. 444. 552. 6*0.

1
9.<
271.
Itfl.
11".
7*fl.
I ?nn
«* i
1 1
9.B 11.7 10.3 '
271. 277. 272.
115. 114. 116.
115. 114. 116.
P76. 9M.
1700. 1700.

11.2 I
272.
117.
117.


11.61
271.
116.
116.


10.7
771.
118.
118.


8.9
270.
121.
121.


9.8
269.
122.
122.


9.B
268.
118.
11B.


8.9
268.
113.
113.


7.6
267.
118.
118.


6.3
26R
120
120

-------
JYR = 75 I^T= 4 JI)AY=103
ISTAPs  444444
ArtS=  3.6  3.1   ».l   2.7  2.7   l.«
TE««P= 770. 770.  270.  770. 770.  270.
AFVs  190. 126.  122.  1O6.  91.   91.
AFVH= 19!). 126.  122.  106.  91.   91.
HC,H1=  778.  778.  778.  778.   77ft.
      2530. 7780. 2780. 2780. 7780.
                                       4     3     2     1     1     1    1    I    1     t     1
                                     i.H   1.3   2.7   3.6   4.5   5.4  6.3  6.3  6.3   6.7   6.7
                                     271.  771.  777.  773.  275. 27ft. 777. 777. 777.  277.  277.
                                      77.   77.  101.  128.  171. 176. 124. 121. 177.  124.  129.
                                      77.   77.  101.  178.  121. 1?ft. 174. 174. 127.  174.  129.
                                      778.  1079.  1279.  1529.  177O. 2029. 7780.
                                     7780.  27PO.  2780.  2780.  27PO. 2780. 7780.
                                                                                               |     3     4    4    4    44
                                                                                             5.4   4.9   4.0  4.0  3.6  3.6  3.6
                                                                                             776.  275.  274. 274. 277. 272. 272.
                                                                                             132.  128.  129. 132. 140. 153. 167.
                                                                                             137.  178.  129. 132. 140. 153. 167.
JYR=75 1*10
JSTA«=  3
AWS =  5.8
FEMP = 275.
AFV =  IPO.
AFVR = 1HU.
            4 ,IDAY = 1
             33
           7.2  6.7
           274. 775.
            7H.  89.
            78.  89.
} 3
274. 273
90. 97
90. 97
0. 7050.
4
. 277.
. 96.
. 96.
2050.
331111111
272. 773. 774. 774. 776. 277. 277. 779. 779.
87. 95. 108. 109. 111. 119. 118. 114. 101.
87. 95. 108. 109. 111. 119. 118. 114. 101.
2050. 7039. 7078. 2016. 2005. 1994. 1983.
1
279.
Ill .
11 1 .

1
279.
105.
105.

1
279.
103.
103.


278.
115.
115.


277.
120.
120.


276.
122.
122.


3.1
275.
128.
128.


3.6
275.
147.
147.


3. 1
275
156
156

      1971. 1<»60.  196".  I960.  I960.  I960.  I960.  I960.  1960. I960.  I960.  1960.
JY«=75 IMO= 4 ,j..«i = i/"                                                                            -                       ,     ,
ISTAH=  333333322111111117333333
AMSs  9.4  9.8  10.3   9.8  10.7   9.8  10.3  11.7 11.2 10.7 10.3 11.2  11.2   9.4  11.6  11.6 11.2 10.7 10.3  9.4   9.8  11.2  12.1  17.5
rEHP= 280. 280.  281.  281.  280.  280.  781.  781.  282. 284. 284. 285.  284.  ?85.  284.  284.  284. 283. 282. 282.  282.  282.  282.  282.
AfVs  310. 311   311.  308.  305.  304.  306.  307.  302. 303. 303. 305.  305.  309.  295.  309.  310. 307. 308. 303.  308.  309.  305.  308.
AFVR= 310. 311.  311.  308.  305.  304.  306.  307.  302. 303. 303. 305.  305.  309.  295.  309.  310. 307. 308. 303.  308.  309.  305.  308.
HLH1=  600.  600.   600.   600.   600;   600.   600.  770.  840.  950.  1060.  1170.
      1280. 1390.  1500.  1500.  1500.  1500.  1500. 1500. 1500. 1500.  1500.  1500.
>IYR
            5 JOAY=137
ISTABs  444
AWS =  6.3  6.7  10.3
                       44     4     3     3     3     3>2    7
            .   ...  8.5  6.3   5.8   6.7   7.7   5.8   6.3  6.7  7.6
TKHPr 205. 285. 284. 284. 285.  284.  285.  286.  287.  289. 290. 291.
AFVs  275. 778. 274. 2«1. 290.  293.  298.  306.  304.  305. 300. 318.
AFVR= 275. 278. 774. 281. 290.  293.  29P.  3O6.  304.  305. 300. 318.
HLH1=  100.  100.   100.   100.   100.   100.   734.   368.   501.  635.
      1036. 1170.  1170.  1170.  1170.  1170.  117O.  1170.  1170. 1170.
  2333
8.1  7.6  8.1  8.1
291. 291. 291. 290.
319. 376. 374. 324.
319. 376. 324. 324.
 769.  903.
1170. 1170.
  33333
9.8  8.9  8.5   8.1   8.5
289. 289. 288.  287.  287.
                                                                                                                    333
                                                                                                                  9.4   9.8  9.4
                                                                                                                  286.  286.  286.
                                                                                        323. 324. 324.  318.  321.  324.  327.  327.
                                                                                        323. 374. 324.  318.  321.  324.  327.  327,
JYR=75
ISTARs
AWS =
TEMPs
AFV =
AFVR =
HI,H| =

JYR=75
ISTAB=
AMS =
TEMP =
AFV=
AFVRo
HLHls
1 ;4Q
4
5.8
290.
290.
100
771
I MO
4
3.6
300.
300.
389
= 6 JDAY=I77
3344
4.9 4.5 4.0 4.9
291. 291. 291. 791.
299. ?04. 291. 286.
299. 294. 291. 286.
100. 100. 100.
«10. 810. 810.
= 7 JOAY=187
4444
3.6 3.1 3.1 3.1
792. 29?. 291. 791.
328. 322. 300. 791 .
378. 322. 309. ?oi .
. 389. 389. 389.

4
•5.4
291.
790.
790.
100.
810.

4
3.1
791 .
799.
299.
389.

4
5.4
290.
292.
292.
100
81 0

4
4.0
791 .
331.
331.
<89

3
6.7
290.
296.
296.
1 89
. 810

4
797.
310.
310.
. 5M

3
5.8
790
299
299
•
*

1
794
319
319
.

3
. 791.
. 296.
. 296.
278.
810.

1
. 795.
. 79ft.
. ?9fi.
754.

3
290.
293.
293.
366.
810.

1
296.
784.
284.
937.

3
290.
297.
79?.
455.
810.

1
797.
797.
1119.

3
790.
295.
295.
544
810

1
298.
784.
784.
1 307

3
?00.
79H.
798.
. 633
. .10

1
700.
790.
. 1 *9.
791.
79 I .
.

3
797.
293.
293.



1
299.
308.
308.


3
291.
292.
797.



1
299.
310.
310.


3
790.
289.
289.



1
297.
301 .
301 .


3
289.
786.
286.



1
296.
790.
290.


3
290.
291.
791.




295.
794.
794.


3
289.
293.
293.




294.
293.
793.


3
289.
296.
296.




294.
298.
798.


3
289*.
299.
799.




293.
299.
799.


3
289
297
797




292
300
300

       1667.  1850.  1850. 1R50. 1850. 1850. 1MSO. 1850.  1850.  1850.  1850. l»50.
-------
     JYR=75
     AHSs
     TEMPi
  4
4.5
     AFVR
 7 JOAlf=IB8
  4    4    4
3.6  4.0  7.2
  4
2.2
                                 4
                               4.0
                                           4
                                         5. 8
                                     j    |     1    1     II    1    I    1    t    11    4    44     4     4
                                   4.0  3.6   2.7  2.7   4.5  5.8  4.9  4.9  5.8  4.9  4.9  4.5  4.0  3.1   4.0   4.9   4.0
292. 291. 791. 290. 290. 289. 290. 791. 292. 294. 29S. 296. 296. 296. 296. 795. 294. 294. 294. 291. 29?.  291.  291.  289.
3.0  302  291. 306. 302. 119. 328. 37fl. 293. 302. 316. 300. 100. 791. 297. 310. 302. 289. 290. 296. 298.  288.  293.  300.
310. 302. 791. 306. 302. 319. 328. 32«. 293. 307. 316. 300. 300. 291. 297. 310. 307. 2H<». 290. 296. 298.  288.  293.  300.
                                                       875.  981. 108B.
            450.
                  450.   450.   450.   450.  450.   556.   663.   769.
           1194.  1300.  1300.  1300.  1300. 1300.  1300.  1300.  1300.  1300.  1300. 1100.
JYR=7
ISTAB
AHSs
TEMPr
AFV =
= 4
6.7
292
350
350
0= 7
4
8.9
. 292
0
0
JDAV=200
4 4
S.9 8.9
. 292. 292.
0. 0.
0. 0.
4
9.8
292.
0.
0.

10.3
292.
0.
0.

10.3
293.
0.
0.

9.4
2"4.
0.
0.

9.4
294.
0.
0.

9.4
294
0
0
                                                          11122
                                                        8.1   8.9  8.1  B.o  9.4
                                                   294. 294. 297. 797. 299. 299.
                                                          0.   0.   0.   0.   0.
                                                          0.0.0,0,0.
HLH1= 1100. 1100. 1100. 1100. 1100. 1100. 1154. 1208. 1261.  1315. 1369. 1423.
      1476. 1530. 1530. 1530. 1530. 1530. 1530. 1530. 1530.  1530. 1530. 1530.
                                                                                        7    3
                                                                                      8.9  8.9
                                                                                             3
                                                                                           7.6
                                                                         3
                                                                      8.9
                                                                                            3     3
                                                                                          6.1  6.7
                                                                                                            4
                                                                                                          8.1
                                                                                                                      4
                                                                                                                    9.8
                                                                                      299. 299. 298. 297. 297. 297. 295. 296.  296.
                                                                                      350. 350.   0. 340. 340.   0.   0.    0.    0.
                                                                                      350. 350.   0. 340. 340.   0.   0.
                                                                                                                       0.
                                                                                                                                 0.
DO
I
ro
r\>
ro
JYR=75 110= 9 JDAY=261
ISTAR=  144434443333331
AMS=  8.5  9.fl 10.7  9.8 10.7 11.2 12.5 12.5 12.1 11.6 14.3 14.3 15.2 13.9 13.9
TF-Mps 287. 286. 287. 286. 296. 286. 286. 286. 286. 286. 786. 2«6. 286. 286. 286,
AFVs  315. 312. 316. 314. 313. 315. 320. 111. 315. 111. 310. 315. 113. 314. 313,
AFVR= 315. 312. 316. 314. 313. 315. 320. 311. 315. 311. 110. 315. 313. 314. 313.
Hblll=  600.  600.  600.  600.  600.  600.  571.  Ml.  514.  485.  456.  428.
       399.  170.  370.  370.  370.  370.  370.  370.  370.  370.  370.  370.
                                                                                        333333334
                                                                                     13.9 13.4 12.5  11.6  12.1  11.2  11.6  10.7   9.4
                                                                                      287. 287. 287. 287. 287. 287.  287.  287.  287.
                                                                                      314. 320. 319. 117. 320. 323.  324.  321.  330.
                                                                                      314. 320, 119. 117* 320. 323.  324.  321.  310.
            12 JDAY=315
ISTAB*  333323333322772
AHSs 14.3 14.8 17.5 12.5 15.2 14.8 12.1 12.5 13.9 13.9 15.2 13.9 11.6 13.4 10.7
TEHP= 279. 276. 274. 272. 271. 270. 269. 269. 269. 268. 268. 269. 269. 769. 270.
AfV=   87.  89.  84.  91.  89.  86.  85.  80.  83.  86.  81.  84.  93.  82.  81.
AFVR =  «7.  89.  84.  91.  89.  86.  85.  80.  83.  86.  81.  84.  93.  82.  81.
HtHl* 1«00. 1800. 1800. 1800. 1800. 1800. 1775. 1750. 1725. 1700. 1675. 1650.
      1625. 1600. 1600. 1600. 1600. 1600. 1600. 1600. 1600. 1600. 1600. 1600.
                                                                                        333134444
                                                                                      9.8  9.4  7.6  7.6  7.6  8.9   6.7   5.8   4.9
                                                                                      269. 268.-268. 283. 283. 283.  283.  283.  283.
                                                                                       90.  89.  87.   82.   85.   88.   92.   85.   81.
                                                                                       90.  89.  87.   82.   85.   88.   92.   85.   81.
     YEAR BASED ON  20. DAYS
-------
    PF.NN. ELEC. SF.WARD


                                    NOM--SO?

       MAXIMUM MEAN  CONC=  8.0103F.-05  DTPFCTlONs  8  DISTANCES  7.6 KM
     RAMGE
                       ANNUAL MEAN CONCENTRATION  AT  EACH RFCFPTOR
                      KM         2.1  KM          2.B  KM         3.7 KM
                                                                            5.2  KM*
DO
ro
DIH
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 II
 12
 13
 14
 15
 »«
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
7.527R5E-05
7.50606E-0!5
7.50093E-05
7.50120E-05
7.53168E-05
7.'>m2E-05
7.59<»OOF-05
7.70184E-OS
7.61559E-05
7.677<»8E-05
7.72781E-05
7.66I01E-05
7.57565E-OS
7.52445E-05
7.SOS07E-05
7.50063E-0-5
7.50005K-05
7.S0002E-OS
7.50000E-05
7.50000E-05
7.50000E-05
7.50000E-OS
7.S0001E-05
7.S0016E-05
7.5018hE-05
7.51 174E-05
7.54359E-OS
7.61 147E-05
7.69889E-05
7.73459E-05
7.70376E-05
7.63541E-05
7.53432E-05
7.S1777E-05
7.53986E-05
7.56078E-01>
7.51284E-05
7.50215E-05
7.S0032E-05
7.S0129E-05
7..5925rtE-05
7.54743F-05
7.70503E-05
7.951|nE:-05
7.62319E-05 .
7.70005E-05
7.74119E-05
7.63104E-05
7.54166E-05
7.51054E-05
7.50193E-0'5
7.50020E-05
7.50003E-05
7.50130E-05
7.50002F-OS
7.50000E-05
7.50000E-05
7.50000E-05
7.SOOOOE-05
7.50005E-05
7.5006BE-05
7.50504E-05
7.52075F.-05
7.S6493E-05
7.65922E-05
7.693S2E-05
7.71240E-05
7.70286E-05
7.5158HE-05
7.51604E-05
7.52539E-05
7.56261E-05
7.50796E-05
7.S0120IT-05
7.50056F.-05
7.50091E-05
7.60216F-05
7.5'5232E-05
7.73086E-05
8.03033P-05
7.63440P-05
7.70307E-05
7.744S5E-OS
7.62378E-05
7.52987F-05
7.50631F-05
7.5010BF-05
7.50011E-05
7.50003E-05
7.S0338E-05
7.50003E-05
7.SOOOOE-05
7.50000E-05
7.50000E-05
7.50000K-05
7.50002E-05
7.5003SE-05
7.50296F.-05
7.51286E-0'i
7.54825F-05
7.fi6266E-05
7.67434F-05
7.69867F-05
7.71461F-05
7.S0968E-05
7.51793F.-05
7.52042F.-05
7."ift44fiF-05
7.50473E-05
7.500fifiE-05
7.50165E-05
7.50040E-05
7.59466K-05
7.54978F-05
7.722IBF-05
8.02647E-05
7.61359E-05
7.68388E-05
7.72351E-05
7.612B5F-05
7.52091F-05
7.5036SE-05
7.50059E-05
7.50005E-05
7.50002E-05
7.50543F-05
7.50007E-05
7.SOOOOE-05
7.50000E-05
7.50000F-05
7.50000F.-05
7.50001E-05
7.50019F.-05
7.501SHF-05
7.50770E-05
7.5373PE-05
7.66714E-05
7.64876"!:-OS
7.66897F.-05
7.S9833E-0'5
7.505R1F-OS
7.51B01P-05
7.51SHRF-0'i
7.55977F-05
7.50238E-05
7.S0031F.-05
7.50379E-05
7.50012E-05
7.57252E-05
7.53B67E-05
7.67B57E-05
7.91359F.-05
7.61258E-05
7.64045E-05
7.67401E-05
7.59246E-05
7.512BOE-05
7.50178F-05
7.50076E-05
7.50002E-05
7.S0001E-05
7.50637E-05
7.50001E-05
7.50000E-05
7.50000E-05
7.50000E-OS
7.50000E-05
7.50000F-05
7.5000BF-05
7.S0082F-05
7.50402E-05
7.52771E-05
7.65457F-05
7.6111 1F-05
7.62420F.-05
7.6551 IE-OS
7.502P2E-05
7.51511E-OS
7.5107SF-05
7.5*663F.-05
-------
     PF.HM. ELEC.  SEWARI)







                                           MOM—SO?




YEARLY  MAXIMUM 24-HOUR CONCs   9.S01PF-O5  OIBF:CTIflN =  BO.   OISTANCF.=  7.B KM   Oft¥= 57.


FANOF 1.2
OIR
1
2
3
4
5
6
7
B
9
0
1
2
3
4
5

ro 7
!£ "
9
20
21
22
23
24
25
26
27
2B
29
30
31
32
33
34
35
3ft

8.0570E-05
7.ft212E-05
7.51R6E-05
7.5222F-05
8. I247F.-05
7.6379K-05
fl. 1665F-05
B.fll 15E-05
B.17BOF-05
8.B1ME-05
B.B773E-OS
R.9I49F-05

7.9160F.-05
7.594«f>05
7.5I74E-05
7.5009F-05
7.5003E-05
7.5000F-05
7.5000E-05
7.5000F.-05
7.5000E-05
7.5001E-05
7.5024F.-05
7.5265F.-05
7.6S7RF.-05
fl.073SF.-05
9.5971K-05
B.9549F.-05
9. I061E-0*
B.3905F.-05
P.7R18F-05
7.9076E-05
7.7330E-05
8.28IOF-05
R.7143E-05
HIGHEST
KM

700 )
200 )
200 )
56 )
5ft )
5ft )
57 1
335 )
IH )
( 111 )
( 96 )
( 103 )
( 103 )
( 103 )
( 103 )
{ 103 )
( 103 )
( 111 1
( 111 )
( 7 )
( 7 »
( 7 )
( 87 )
( 87 )
( B7 )
( 87 )
( 87 )
( 187 )

( 120 )
( 120 )
( 77 )
( 77 )
( 200 )
( 200 )
( 200 1
74-HOIIR rONCFflTPATlON RT EACH RFCFPTOR
2. 1 KM 2.B (CM

7.75ft7E-05 ( 200 ) 7.ft597F,-05
7.5429F-05 { 200 ) 7.5240F.-05
7.S056E-05 ( 700 ) 7.50P3E-05
7.5754E-05 ( 5ft ) 7.5I59F-05
9.3435F.-05 ( 56 ) 9.5397F.-05
B.0018F-05 f 5ft ) B.Oft26E-05
R.7943E-05 ( 2ft ) 8.BB10E-05
9.5957E-05 ( 57 ) 9.601«F.-05
B.0213F.-05 ( 335 ) B.2I50E-05
8.9793F-05 ( ft2 ) 9.2695E-05
8.8395E-05 ( 94 ) 9.9B27E-05
0.2977F-05 ( 103 ) 8.250BE-05
fl.03B4F.-05 ( 103 ) 7.B477F.-05
7.6870F.-05 ( 103 ) 7.6135F.-05
7.537IE-05 ( 103 ) 7.57IOE-05
7.5040E-05 ( 103 ) 7.507IF-05
7.5004F.-05 ( HI ) 7.5005E-05
7.5?ft|E-05 ( HI ) 7.5R76F-05
7.5004F-05
7.5000F-05
7.5000E-05
7.5000E-05
7.5000E-05
7.5007F.-05
7.5100E-05
7.5707F-05
7.7ftllF-05
8.1737E-05
8.4793F.-05
9.3911F-05
9.28B4E-05
9.2058F.-05
7.6765E-05
7.778BF-05
8.0033E-05
R.7519E-05
HI ) 7.5005f-05
7 ) 7.5000F-05
7
7
B7
87
«7
B7
fl7
fl7
B7
20
261
77
77
200
700
7.5000E-05
7.5000E-05
7.5000F.-05
7.5003F-05
7.5054E-OS
7.5471E-05
7.6640E*05
7.9170E"05
B.oi 37E-05
9.4538E-05
9.4146E-05
9.1701F-05
7.6060E-05
7.8355E-05
7.9061E-05
700 ) B.7B90E-OS








(
(
(
(
(
(











f
r
f
(
(
(
(
(
(
(
(
(
(
r



700
200
7
56
56
56 )
26 )
57 1
37 )
62 )
96 )
94
103
103
103
103
111
111
111
7
7
7
187 )
1B7 ) -
187 )
187 )
187 )
187)
177 )
120 )
261 )
77 )
77 )
200 )
200 )
700 )

3.7 KM

7.S047F-05
7.5131F-05
7.53I5F.-05
7.5078F.-05
9.3912E-05
8.03ftBE-05
8.7 JBIE-05
9.381 1F-05
8.4140F-05
9.77B1E-05 {
9.0139E-05 (
8.27?9F-05 (
7.71ftlF>05 (
7.56fiPF-05 (
7.5115E-05 (
7.5010E-05 (
7.5004E-05 (
7.60flfiK-05 f
7.5004F-05 (
7.5000F-05 (
7.5000F-05 (
7.5000F-05 {
7.5000F.-05
7.5001F-05
7.507BF-05
7.5242E-05
7.5994F-05
7.7596F-05
9.4106E-05
9.2775E-05
9.7632F-05
9. 1057E-05
7.5619F-05
7.8474E-05 (
7.BlftOF-05 (
B.6944F-05 (



200 )
200 )
7 )
5ft )
5ft 1
Sfi )
14 1
335 )
37 1
ft7 )
9ft )
94 )
103 )
103 )
103 )
103 )
HI )
HI )
HI )
7 )
7 1
. 7 )
187 )
87 )
R7 1
B7 >
B7 >
87 >
77 )
120 )
261 1
137 )
77 )
200 )
200 )
200 )

5.2 KM

7.5476F.-05 C
7.5062E-05 (
7.5751F.-05
7.5023E-05
8.9498E-05
7.976ftF-05
8.6150E-05
B.9779E-05
8.4022E-05
B.9489F.-05
8.819l)r-05 (
B.Ofl64F,-05 (
7.6144E-05 (
7.5328F-05 (
7.5052E-05 (
7.5004F.-05 f
7.5002E-05 (
7.6274E-05 (
7.5002E-05 (
7.5000E-05 (
7.5000E-05 (
7.5000F.-05 (
7.5000E-05 f
7.5001E-05 (
7.5012E-05 (
7.511BE-05 {
7.5522E-05
7.7844E-05
9.526BF-05
8.847ftE-05
8.B200F.-05
8.B435E-05
7.5326F.-05
7.7957E-05
7.7144E-05
8.4325E-05



200
200
7
56
Sfi
56
14
37
37
62
96
9fi )
94 )
103 )
03
03
11
11
11
7
7
7
187
1B7
187
187
187
177
177
120
2ftl
137
77
200
200
200
-------
    PF.NN.  El
                 SFHARD
                                     MOM--S07




YEARLY MAXIMUM H-HOUR  CONC=  1.1943F.-04   DIRECTIONS   0.   niST»NCF=   1.2 KM  nAY=700.  HOUR=1500.







                HIGHEST 3-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE 1.2 KM
OIR
1
2
3
4
5
6
7
8
9
10
1 1
12
13
14
15
03 16
1 ,
ro ' '
ro in
01 19
20
21
22
23
24
25
26
27
2 ft
29
30
31
32
33
34
35
36

9.7163E-05 (
8.3004F.-05 (
7.6466E-05 (
7.5«.?5F.-OS (
9.7440K-05 (
8.1K40F.-05 (
9.8445F.-OS (
.0965E-04 (
.0163F.-04 (
.0905 (
7.5180E-05 (
7.6934E-05 (
8.5560E-05 (
1.0424E-04 (
1.1606E-04 (
1.12JOK-04 (
1.1377E-04 (
1.14766-04 (
1 .O39F-04
9.8385E-05
8.3407E-05
1 .OM7F.-0 4
1 .1943E-04

200 )
200 )
200 )
56 )
56 )
56 )
57 )
335 )
335 )
111 )
96 )
103 )
103 )
103 )
103 )
103 )
103 )
111 )
111 )
335 )
335 )
335 )
187 )
187 )
187 )
187 )
187 )
187 )
187 )
120 )
1 37 1
77 )
77 )
200 )
200 )
200 )
2.1 KM

8.5232E-05 (
7.7895E-05 (
7.5441E-05 (
7.5509F-05 (
1.1175E-04 (
8.7623F-05 (
1.1110F.-04 (
1.1190F-04 (
9.8618F-05 (
1 .0994F-04. (
1.107BF-04 (
9.61B2E-05 (
8.9768E-05 (
8.1493E-05 (
7.670RF-05 (
7.5232F.-05 (
7.5029E-05 (
7.7086F-05 f
7.5079F-05 (
7.5000F-05 (
7.5000E-05 (
7.5000F-05 (
7.5002E-05 (
7.5053F.-05 (
7.5744F.-05 (
7.9B82F-05 (
9.0094F-05 (
9.6989E-05 (
0.9798F-05 (
1.0117E-U4 (
1.1344F-04 (
1.1729F-04 (
8.05B6E-05 (
9.0095F-05 (
9.B71SF.-05 (
1.0687E-04 (


200
200
700
56
56
51
57 )
57 )
76 )
94 )
94 )
103 )
103 )
103 )
103 )
103 )
111 )
111 )
111 )
335 )
335 )
335 )
187 )
187 )
1»7 )
1H7 )
lf>7 )
1B7 )
IBP )
170 )
761 )
77 )
77 )
200 )
700 )
200 1
2.8 KM

8.1337E-05
7.6656E-05
7.5667F.-05
7.52R9E-05
1 .11R9E-04
8.7535E-05
1.I175E-04
1.1263F.-04
1 .0349E-04
1 .1085E-04
1.1021E-04
9.9204F.-05
8.6933E-05
7.8985E-05
7.5992E-05
7.5123E-05
7.5042E-05
8.0406E-05
7.50426-05
7.5000E-05
7.5000E-05
7.5000E-05
7.5001E-05
7.5025F-05
7.5407E-05
7.7950E-05
8.467SE-05
8.9377F.-05
1 .04P1K-04
1 .1 361E-04
1 .1 426F-04
1 .1 44RK-04
7.8374E-05
9.7545F-05
9.6852E-05
1 .1428E-04


( 200 ) 7
( 200 ) 7
( 7 ) 7
( 56 ) 7
( 56 ) 1
( 26 ) 8
( 57 )
( 335 )
( 56 )
( 94 )
( 94 )
( 94 ) 9
( 94 ) 8
( 103 ) 7
f 103 ) 7
( 103 ) 7
( 111 ) 7
( 111 ) ' 8
( 111
( 335
( 335
( 335
( 187
f 187
( 1«7
( 187
f 187
( 187
( 177
( 170
( 261
( 261
( 77
7
7
7
7
7
7
7
7
8
9
1
1
1
1
7
( 700 ) 1
( 200 ) 9
( 200 1 1
3.1 KM

.8785F.-05
.5932E-05
.7570F-05
.5143F-05
.0977E-04
.6789E-05
.0979F.-04
.1044F.-04
.07<»4F,-04
.0897E-04
.0962F-04
.9321F.-05
.6581F-05
.7381F-05
.5559E-05
.5063F-05
.5036F.-05
. 3690E-05
.5036E-05
.5000F-05
.5000F-05
.5000E-05
.5000E-05
.5012F.-05
.571 4E-05
.6716F-05
.0990F-05
.2006F-05
.1097F-04
.1IR4F-04
.1 161E-04
.1281E-04
.6Q90F-05
.0032E-04
. 3"43F-05
.1368F-04


( 200 )
C 200 )
f 7 1
( 56
( 56
( 56
( 26
( 7
( 56
( 62
( 94
( 96 )
( 94 )
( 103 )
( 103
f 103
( 111
( 111
(111
( 335
( 335 )
( 335 )
( 187 )
( 187 )
( 187 )
( 87 )
( 87 )
( 77 )
77 )
70 1
70 1
37 )
77 »
200 1
( 200 )
( 200 1
5.2 K«

7.6914E-05
7.5453F.-05
8.1011E-05
7.5044E-05
1 .0263F-04
8.54I1E-05
.0453F-04
.0695F.-04
.0613E-04
.0416E-04
.0731E-04
9.5253F.-05
8.4109F.-05
7.6208E-05
7.5262E-05
7.5026E-05
7.5016E-05
8.5196E-05
7.5016E-05
7.5000E-05
7.5000E-05
7.5000R-05
7.5000E-05
7.5004E-05
7.5093E-05
7.5856E-05
7.8249E-05
9.6413E-05
1 .1220E-04
1 .0841E-04
1 .0480F-04
1 .0816F-04
7.6040E-05
9.7464E-05
8.8966IC-05
1 .0597E-04


( 200
( 200
( 7
( 56
( 56
( 56
( 14
( 335
( 37
( 62
( 96
( 96
( 94
( 103
( 103
{ 103 )
( 111 )
(111 )
(111)
( 335 )
( 335 )
( 335 )
( 187 )
( 187
( 187
( 187
( 1R7
( 177
177
137
120
137
77
200 )
( 200 )
( 200 )
-------
                                                      MAXIMUM DAILY CONCFNTRATIOHS
PAY

 57
 56
335
177
|?0
261
 62
 77
 37
137
 14
  7
 26
 96
 94
187
103
|R8
111
200
                                                 24-H'OIIR CONCENTRATION     DIRECTION
 5
 8
?9
10
31
JO
12
 H
32
 «
 8
 8
»1
tl
29
t?
29
It
36
                                                       9.5392E-05
                                                       9.5360E-05
                                                       9.52ME-05
                                                       9.453BE-05
                                                       9.4446E-05
                                                       1.278IE-05
                                                       9.205WP-05
                                                       9.202IE-05
                                                       9.I057C-05
                                                       9.0657E-05
                                                       9.0493E-05
                                                       9.0244C-05
                                                       9.0I39E-05
                                                       8.9824C-05
                                                       8.9549E-05
                                                       9.9149005
                                                       8.8340E-05
                                                       8.B208E-05
                                                       B.7B90e»05
DISTANCF.

  2.75
  2.75
  2.75
   .23
   ,75
5.
2.
2.75
3.65
2.07
3.65
3.65
3.65
1.65
2.75
3.65
2.75
t.17
1.17
1.17
1.17
2*75
ro
-------
C O
tr tj
3 e
f Ui
tr, z
U' 0.
^  .
tt f-
   z
 • u:
r >
z J
U.' O
a in
          a

          o
              e

              IT

                    «— «



                    ^ «



              a     — •



              tj
              tf
              ic     — •


                    •• «
              o

               t    •"• *
              O

              II     — •
              u.
              «
              t-     — .




              c
               •
              #^    — •

              II
              >    — .
              »•
              b.




              O    — •
               •



              II
              l_    — ,
              f-


              to    — •


 o     —          — •
           (N <£>
 CM     II    O
        f- II O    — •
  ii  e  w f- ce
 z     z ss »
 z  c     a o    <- •

 i-i  O  C i-  •
   •      •    e    »• •
 a  it  —
 
     1-1  ir 
-------
    PLANT ELEVATION  (FEET  ABOVE SEA LEVED--
                                                 1170.0
        RECEPTOR  ELEVATIONS (FEET A^flVE SEA I.FVE!,)

    DIRECTION   RINGM    RINOI2   RINGI3   RINOI4   R1NRI5
00
1
7
3
4
5
6
7
e
q
10
11
17
13
14
15
16
17

19
70
71
77
23
24
25
76
27
2P
29
30
31
37
33
34
35
36
STACK »
STACK »
STACK

|
2
1085.0
1090.0
1100.0
1115.0
1120.0
1130.0
1130.0
1135.0
1150.0
1145.0
1135.0
1120.0
1120.0
1120.0
1120.0
1 100.0
1100.0
1100.0
1070.0
1080.0
1240.0
1210.0
1270.0
1420.0
14R5.0
1500.0
1420.0
1 310.0
1440.0
1550.0
1550.0
1560.0
1530.0
1400.0
1250.0
1180.0
1--SF.WARD
2--SEWARO
STRATEGY
TYPE
NOM
NOM
1330.0 1700.0
1150.0 1170.0
1200.0 1750.0
1170.0 1400.0
1100.0 1250.0
1740.0 1140.0
1300.0 1100.0
17*0.0 1400.0
1740.0 1150.0
1240.0 1450.0
1250.0 1500.0
1710.0 1550.0
1260.0 1500.0 •
1220.0 1500.0
1720.0 1400.0
12BO.O 1150.0
1710.0 1450.0
1140.0 1350.0
1100.0 1JOO.O
1080.0 1100.0
1080.0 1080.0
1090.0 1080.0
1230.0 1150.0
1250.0 1200.0
1350.0 1240.0
1470.0 1100.0
1560.0 1470.0
1540.0 1540.0
1400.0 1400.0
1370.0 1400.0
1300.0 1540.0
1330.0 1400.0
1550.0 1550.0
1400.0 IftftO.O
1330.0 1300.0
1200.0 1350.0
STACK 1 SRC TSP
STACK 7 SRC NORMAL
S07 EMISSION RATE
(RMS/SEC >
0.24
0.58
1350.0
1500.0
1400.0
1440.0
1470.0
1440.0
1300.0
1150.0
1400.0
1800.0
1950.0
2100.0
2100.0
7000.0
1850.0
1700.0
1640.0
1670.0
1600.0
1540.0
1300.0
IORO.O
IORO.O
1700.0
1 300.0
1400.0
1460.0
1400.0
1550.0
1600.0
1620.0
1700.0
IROO.O
1550.0
I5RO.O
1350.0

TSP
PART



1600.0
1500.0
1500.0
1450.0
1550.0
1500.0
1770.0
1770.0
1950.0
7100.0
1800.0
2460.0
2560.0
2500.0
2530.0
2450.0
2200.0
1900.0
1400.0
1300.0
1710.0
1210.0
1400.0
1060.0
1400.0
1350.0
(570.0
1660.0
1660.0
1710.0
1770.0
1750.0
1700.0
1600.0
1620.0
1670.0


EMISSION RATE HEIGHT DIAMETER EXIT VELOCITY TEMP
(GMS/SEC) (METERS) (METERS) (M/8EC) (DER.K)
0.00 69.60 7.40 31.30 449.00
0.00 6R.60 3.00 17.70 414.00
                                                                                                                   VOLUMETRIC  FLOW
                                                                                                                      (M**3/8EC)

                                                                                                                         141.60

                                                                                                                         231.14
       MIs   1.17   7.07    2.75   J.65   5.73
SEASON4L VARIATIONS BY  CASE I
         1   1.03   0.93    0.99   1.10   l.nl
                                                        0.99
                                                               1.13
1 .09
                                                                             1.10
0.97
                                                                                            O.P7    O.«l
     rcnn  Bftsrn ON
                      . DAVS
-------
    PFNN. F.1.EC. SEWARD


                                    NOM--S02

       MAXIMUM MEAN  CONCs   7.5017E-05  DIRECTIONS  8  DISTANCES   3.7 KM
     RANGE
                    ANNUAL MEAN CONCENTRATION AT FACH RECEPTOR
               1.2  KM          2.1  KM         2.8 KM          3.7  KM
                                                                               5.2 KM
ro
DIR
  t
  2
  3
  4
  5
  6
  7
  8
  9
 10
 It
 12

 II
 15
 "
 16
 17
 18
 19
 20
 21
 22
 2?
 24
 25
 26
 27
 2H
 29
 30
 31
 32
 33
 34
 35
 36
7.50018E-05
7.S0022E-05
7.50037E-05
7.50058E-05
7.50082E-05
7.50083E-05
7.500B1E-05
7.50077E-05
7.500K7E-05
7.500B6E-05
7.S0101K-OS
7.SOOB5E-05
7.50050E-05
7.50026E-05
7.5001fiE-05
7.50Q12E-05
7.50010E-05
7.5D008E-05
7.50007t-0'5
7.S0005C-05
7.50004E-05
7.50003E-05
7.50003E-0«>
7.50004E-05
7.50007E-05
7.S0008E-OS
7.500I1E-05
7.50023K-05
7.500J4E-05
7.50046E-05
7.50055^-05
7.50046E-01;
7.500?4E-05
7.50013F.-05
7.5001 IP-OS
7.50027F-05
7.50022E-05
7.50025E-0!i
7.50046E-05
7.50077E-05
7.50120E-05
7.50100E-05
7.501 17E-05
7.5012RE-05
7.50093E-05 ,
7.50108E-05
7.50119E-05
7.50087E-05
7.5004PF-05
7.50076E-05
7.50Q17F-05
7.5001 4E-05
7.50010E-05
7.50009E-05
7.50009F-05
7.50009E-05
T.SOOOflE-Ofi
7.50007E-05
7.50(10flP-05
7.50009E-05
7.5001 3E-05
7.50012F.-05
7.50016f:-05
7.50020E-05
7.50012E-05
7.50048E-05
7.5007SE-05
7.50079F-05
7.50037E-05
7.500t<)F-05
7.50014E-05
7.50010E-05
7.50024F-05
7.50026li:-05
7.50050E-05
7.MIOH5F-05
7.50136F-05
7.50109E-05
7.50138F-05
7.50156E-05
7.50H7E-05
7.50125E-05
7.50131E-05
7.50090E-05
7.50050E-05
7.50027E-05
7.50017E-05
7.50013E-05
7.50010E-05
7.50009F-05
7.50009E-05
7.50009F-05
7.50010E-05
7.50009E-05
7.50009f -05
7.50010F-05
7.50014F.-05
7.50012F-05
7.50014E-05
7.5001BE-05
7.50032E-05
7.5004PF-05
7.50081E-05
7.500B9F-05
7.50040F-05
7.50022F-05
7.50014F-05
7.5002RF-05
7.50024F.-05
7.5007fiF-05
7.50050F-05
7.50087F-05
7.50138E-05
7.501HE-05
7.5014BE-05
7.50170F-05
7.50132F-05
7.50134F>05
7.501 3-5F-05
7.500B9f>05
7.50050F-05
7.500JPF-05
7.S0018E-05
7.50013E-05
7.500UE-05
7.50000C-05
7.50008F-05
7.5000«>F-05
7.5001 OF-05
7.500IOE-05
7.50009F-05
7.5001 1F-05
7.5001 4F-05
7.5001 IE-OS
7.5001 3F-05
7.5001 7E-05
7.50014F-05
7.50045E-05
7.50077E-05
7.500R9E-05
T.SOOJ^F-OS
7.50073F-05
7.5001 4F.-05
7 .5007RE-05
7.50023E-05
7.50025E-05
7.50045E-05
7.50079E-05
7.50122F-05
7.50101E-05
7.50140E-05
7.501R2C-05
7.50137F-05
7.50126E-05
7.50121E-05
7.50082E-05
7.5004BF.-05
7.50026E-01
7.50019E-05
7.50013E-05
7.50011F-05
7.5000BE-OS
7.50006F-05
7.5000BE-05
7.50009E-05
7.50010E-05
7.50007E-05
7.50010E-05
7.5001 3E-05
7.50010E-05
7.5001 1F-05
7.S001BF-05
7.50036E-05
7.50019E-05
7.50067E-05
7.50078F-05
7.50034E-05
7.50023F-05
7.5001 3F.-05
7.50021F-05
-------
PENH. Ebf:c.
                                     NOM--flO7




YEftRI.V MMTMIIM 74-HOUR CONC«  7.5777E-05   Dl RF!CTION
                                                         OISTHNCF.
                                                                     2.8 KM
HIGHEST 24-HOUR COHCF'ITR ATION »T EACH RECEPTOR
RIVNCE 1.2
OIR
1
2
3
4
5
6
7
8
9
10
1 1
12
13
CO 14
l |5
K 16
0 17
1 B
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
7.5087E-05
7.5075E-05
7.51 IOE-05
7.5150E-05
7.5I33E-05
7.5130E-05
7.5131E-05
7.5143C-05
7.51S5E-05
7.5197E-05
7.M96E-05
7.5201F.-05
7.5149E-05
7.51I6E-05
7 .5099E-05
7.5098E-05
7.5102E-05
7.51 17E-05
7.5097E-05
7.5062E-05
7.5060E-05
7.5046E-05
7.5030E-05
7.f>035R-05
7.5050E-05
7.5050E-05
7.5076C-05
7.5160E-05
7.5212E-05
7.5228E-05
7.5174E-05
7.5163E-05
7.5091E-05
7.5082E-05
7.5114E-05
7.5177E-05
KM 2.1 KM
( 200 1
( 113
( 208
( 208
( 708
t 189
( 189
( 58
( 183
( 111
( 96
( 103
( 103
( 117
( 219
( 219
( 140
( 180
( 180
( 180
( 218
( 181
( 181
( 179
( 179
( 179
( 187
( 187
( 187
( 120
( 194
( 77
( 112
( 112
( 200
( 200
7.5079E-05 {
7.5053E-05 (
7.5093F.-05 (
7.5146E-05 (
7.5270F-05 {
7.5134E-05 (
7.5171E-05 (
7.5251F-05 (
7.5125E-05 (
7.51ROF-05 (
7.5189E-05 (
7.5I51E-05 (
7.M3SF.-05 (
7.5086E-05 (
7.5072E-05 (
7.5083F-05 (
7.5090E-05 (
7.5094E-05 (
7.5078F.-05 (
7.5064C-05 (
7.5081E-05 {
7.5074E-05 (
7.5062F.-05 {
7.5066E-05 {
7.5153E-05 f
7.5064F.-05 (
7.5086E-05 {
7.5091E-05 (
7.5143F.-05 (
7.5267F.-05 f
7.5753E-05 {
7.57.18E-05 (
7.5103'=>05 (
7.5061F.-05 (
7.5074E-05 (
) 7.5182E-05 (
7.8 KM
199
164
349
156
56
39
57
9
62
94
79
67
185
719
86
86
80
7.5100E-05
7.5058E-05
7.50<>8E-05
7.5171E-05
7.5744E-05
7.5150E-05
7.5184E-05
7.5753E-05
7.5145F.-05
7.5225E-05
7.57tOE-05
7.5I59E-05
7.5156E-05
7.5081E-05
7.5060E-05
7.5066E-05
7.5072E-05
7.5071E-05
80 ) 7.5057E-05
81 ) 7.5052E-05
81 ) 7.5079E-05
81 ) 7.5068E-05
81 1 7.5062E-05
267 ) 7.5081F-05
767 ) 7. 51886-05
179 ) 7.5064K-05
73 ) 7.5097E-05
187 ) 7.5076E-05
|B7 ) 7.517BE-05
120 ) 7.5777E-01
261 ) 7.5276E-05
77 ) 7.5208E-05
6 ) 7.5121E-05
112 ) 7.5054C-05
200 ) 1.5059E-05
700 ) 7.51B8F.-05

( 754
( 164
349
156
56
337
26
C 57
( 9
( 62
(t 94
( 7.75
( 67 )
( 303 )
{ 720 )
( 186 )
t 186 )
( 180 )
( 180 )
( 179 )
( 218 )
( 181 )
( 767 )
f 267 )
( 267 I
( 267 )
( 73 )
f 73 )
( 177 )
( 120 )
( 261 1
( 77 )
( 6 )
( 375 )
( 200 )
( 200 )

3.7 KM
7.517PF-05
7.5054F.-05
7.5095E-05
7.S170E-05
7.5278F.-05
7.5165E-05
7.51R3E-05
7.5219E-05
7.5136F.-05
7.5227E-05
7.5715E-05
7.5I64F-05
7.5147F.-05
7.50B2F.-05
7.5062F-05
7.5065E-05
7.5051F-05
7.5050E-05
7.5060E-05
7.5046E-05
7.507BF-05
7.5075E-05
7.5064F.-05
7.5079E-05
7.5184E-05
7.5062F-05
7.5090F-05
7.5064F.-05
7.5742E-05
7.5352E-05
7.5251E-05
7.5213F-05
7.5116E-05
7.5055E-05
7.5065E-05
7.5175E-05


( 254 )
( 164 )
( 263 )
{ 306 )
( 56 )
( 332 )
( 308 )
( 57 )
( 9 )
( 6? )
( 96 }
( 275 )
( 67 )
( 303 )
( 86 )
( 20 )
( 186 )
( 180 )
( 218 ) N
( 179 )
( 218 )
( -159 )
{ 267 )
( 267 )
( 267 )
( 267 )
( 73 )
( 73 )
( 177 )
( 120 )
( 761 )
( 137 )
( 6 )
( 311 )
( 201 )
( 200 )

8.2 KM
7.5134F.-05
7.5049E-05
7.50B9E-05
7.5157E-05
7.5175E-05
7.5152E-05
7.5I71F-05
7.5194E-05
7.5135E-05
7.5186E-05
7.51B8E-05
7.5139E-05
7.5113E-05
7.5070E-05
7.5073E-05
7.5085E-05
7.5056E-05
7.5044E-05
7.5064E-05
7.5041E-05
7.5065E-05
7.5082E-05
7.5054E-05
7.5063E-05
7.5149E-05
7.5050E-05
7.5068E-05
7.5055E-05
7.5259E-05
7.5192E-05
7.51B9E-05
7.5179C-05
7.5090E-05
7.5050E-05
7.5061E-05
7.5137F.-05


(
(
(
(
C
(
(
(
(
(
{
(
(
(
(
(
(
(
(
(
(
(
{
(
(
(
C
(
(
(
(
(
(
(
(
(


254
167
263
306
56
332
308
7
174
62 )
96 )
275 )
67
303
86
19
218
210
218
160
218
159
267
267 )
267 )
267 )
73 )
119 )
177 )
120 )
261 )
137 )
6 )
311 )
201 )
200 )
-------
    PENN.  EL EC.  SEWARD







                                     NOM--S02




YEARLY MAXIMUM 3-HOUR CONC =   7.577BE-05  DIRECTIONr fO.  DISTANCES  2.8 KM
DAY = 39.   HOlIRs 300.
HIGHEST 3-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE 1.2 KM 2.1 KM 2.8 K«
DIR
1 7.5432E-OS ( 195 ) 7.5344E-05 204 ) 7.5364E-05
2 7.S444F-OS ( 238 7.5294E-05 113 ) 7.52B2E-05
3 7.55BOF-05 ( 238 7.5408E-05 191 ) 7.5468E-05
4
5
6
7
H
9
10
11
12
1 3
14
15
*? 16
1 '
l\j 17
°^ 18
t 9
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
7.5540E-05 (
7.5698E-05 (
7. 5656 F, -05 (
7.5M2E-05 (
7.5542F.-05 (
7.5542E-OS (
7.5b55E-05 C
7.562BF.-05 (
7.5540E-05 (
7.5549E-05 (
7.5409F-05 (
7.S507K-05 (
7.5453E-05 (
7.5459K-05 (
7. "5406 K -05 (
7.5409F-05 (
7.53«4f)-0b (
7.5467F.-05 (
7.5244E-U5 (
7.S154F.-05 (
7.5203E-05 (
7.5262F.-05 (
7.5310E-05 f
7.5477F.-05 (
7.5600K-05 (

7.55S3F-05 (
7.5582F-05 {
7.5617E-OS (
7.5438E-05 (
7.5346E-05 (
7.546<>e-r»5 (
7.5733K-05 (
205
237
1 10
154 )
58 )
183 )
91 )
97 1
95 )
303 )
117 )
219 )
220 )
180 )
t BO )
180 )
218 )
21 8 )

196 )
130 )
1 30 )
130 )

187 )
117 )
120 )
258 1
258 )
112 )
112 1
200 )
201 )
7.5458E-05
7.549BF.-05
7.5701F.-05
7.5472F-05 (
7.5517E-05 (
7.5450F.-05 (
7.5515F-05 (
7.550BE-05 {
7.5455E-05 (
7.5403F.-05 {
7.5419F-05 (
7.5387E-05 C
7.5345E-05 (
7.5366E-05 (
7.5324F.-05 (
7.5306E-05 f
7.5320F.-05 (
7.5415F.-05 (
7.5217E-05 f
7.5271E-05 (
7.5271P-05 (
7.5426E-05 (
7.5314E-05 (
7.5426E-05 (
7.5463E-05 (
7.5355F-05 (
7.54B1E-05 (
7.5558F-05 (
7.5524F-05 (
7.5442E-05 (
7.5382F-05 (
7.533BE-05 (
7.5450E-05 (
156 )
3 )
39 )
26 )
93 )
9 )
93 )
93 )
79 )
67 )
1B5 )
210 )
186 )
186 )
1B6 )
180 )
IB! )
218 1
181 )
1B1 )
267 )
267 1
179 )
73 )
7 J )
1 BB )
120 )
243 )
744 )
6 )
325 )
200 )
200 )
7.5516E-05
7.5690E-05
7.577BE-05
7.5549E-05
7.5498E-05
7.5504F.-05
7.5510E-05
7.5590E-05
7.5510E-05
7.5461F.-05
7.R359E-05
7.5369E-05
7.5291E-05
7.5282E-05
7.5292E-05
7.5231E-05
7.5247E-05
7.5353E-0-i
7.5241E-05
7.5309E-05
7.5317E-05
7.5531E-05
7.532BE-05
7.5464E-05
7.5451E-05
7.5376E-05
7.5548F-05
7.5707E-05
7.5560E-05
7.5492F.-05
7.5440F-05
7.5319E-05
7.5572E-05
{
f
{
(
r
r
(
(
(
(
(
(
t
c
(
{
(
c
C
(
(
{
(
{
(
(
(
f
(







254 )
113 )
312 1
156 )
3 )
39 )
234 )
19 )
9 )
94 )
81 1
126 )
67 )
185 )
210 )
186 1
186 )
210 )
182 )
181 )
21B )
128 )
267 )
267 )
267 )
267 )
73 )
73 )
177 1
120 )
243 )
261 1
6 1
325 1
200 )
200 )
3.7 KM
7.54B6F.-05
7.530BE-05
7.5520E-05
7.5491F-05
7.5752E-05
7.5717E-05
7.5601F.-05
7.5515F-05
7.5532F-05
7.5516E-05
7.5637E-05
7.5477F-05
7.5436E-05
7.5405E-05
7.5300E-05
7.5343E-05
7.5303F-05
7.5270E-05
7.5291F.-05
7.5214E-05
7.52B4F-05
7.5230E-05
7.5343E-05
7.5349F.-05
7.5524E-05
7.5316F-05
7.5435F-05
7.53BOF-05
7.5457F.-05
7.5523E-05
7.5736F-05
7.5527F-05
7.5451E-05
7.5436F-05
7.5277E-05
7.5565E-05
( 254
( 83
( 312
( 156
( 3
f 3°
( 309
( 234 )
( 245 )
( 256 )
f 81 )
( 126 1
f 2B4 )
( 302 1
C 210 )
( 20 )
( 218 )
f 210 )
( 21B )
( 179 )
{ 218 )
( 128 )
( 267 1
( 267 )
( 267 )
( 267 )
{ 73 )
( 73 1
( 177 1
( 120 )
( 243 )
( 261 )
( 6 1
( 311 )
{ 201 )
{ 200 )
5.2 KM
7.5495F.-05 (
7.5321F.-05 (
7.5504E-05 (
7.5504E-05
7.5663E-05
7.5564F.-05
7.5618E-05
7.5484E-05
7.5545F.-05 I
7.5480E-05 {
7.5568E-05 1
7.5437F.-05 (
7.54S3F.-05 (
7.5383E-05 (
7.5338E-05 (
7.5392E-05 (
7.5315E-05 (
7.5224E-05
7.5312E-05
7.5256F.-05
7.5257E-05
7.5288E-05
7.5308E-05
7.5303E-05
7.5439E-05
7.5255E-05
7.5370K-05
7 .5298E-05
7.5476E-05
7.5444E-05
7.5638E-05
7.5448E-05
7.5339E-05
7.5399E-05
7.5271E-05
7.5454E-05
254
205
241
114
3
39
42
234
42
229
81
98
206
302
20
20
218
92
218
21 9
73
t 217
[ 218
[ 266
267
267
'. 87
! 119
[ 177
: 1 37
; 243
' 258
; 6
( 31 1
( 201
[ 200
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
-------
                                                        MAXIMUM OMt*  CONCENTRATIONS
CD
l
ro
CO
ro
                                                   7.4-HniiR

                                            120          7.5?77l!:-05             10          2.75
                                            261          7.577f.*-05             11          2.75
                                            177          7.5750E-05             7<»          5.71
                                             57          7.5251E-05              R          7.75
                                             56          7.5744E-05              5          2.75
                                             62          7.5277E-05             10          3.65
                                             77          7.52IPE-05             12          2.07
                                             96          7.57I5E-05             II          J.65
                                            117          7.5713E-05             12          3.65
                                            315          7.5713E-OS              fl          2.75
                                            1B7          7.57I7E-05             2<»          1.17
                                             94          7.57IOE-05             11          2.75
                                             14          7.5207IT-05              0          1.65
                                              7          7.5205E-05              B ''         3.65
                                             37          7.5704E-05              «          1.65
                                             76          7.520JE-05              «          2.75
                                            101          7.5201E-05             12          1.17
                                            Iflfl          7.5I94E-05             29          1.17
                                            111          7.518BE-05             11          1.17
                                            200          7.5t«BE-05             16          2.75
-------
PENN. ELEC.
SOLVENT REFINED  COAL STUDY
1975 DATA MAXIMUM LOAD
                               SEHARD
STACK « 1--SEWHRD STACK 1 - MAXIMUM LOAD SRC-TSP
STACK « 2--S«;WARO STACK 7 - MAXIMUM LOAD SRC-TSP
STACK STRATEGY S07 EMISSION RATE PART EMISSION RATE HEIGHT
TYPE (RMS/SEC) (GMS/SEC) (METERS)
1 NOM 0.36 0.00 68.60
? NOM 0.63 0.00 68.60
RANGE(KM)= 1.17 7.07 7.75 3.65 5.73
SEASONAL VARIATIONS BY CASE 1
i i.oo i.oo i.oo i.oo i.oo i.oo i.no i.oo
JYR=75 1*13= 1 JOAY = 7
TSlARa 4333333333333
ArfS = 7.6 7.6 9.4 8.5 9.4 8.5 8.5 8.1 9.4 8.9 8.9 9.4 7.2
TEMP= 273. 273. 773. 273. 273. 273. 273. 273. 273. 274. 274. 275. 276.
AFV= 59. 71. 80. 83. 82. 84. 85. 83. 77. 82. 83. 89. 86.
AFVRs 59. 71. 80. 83. 82. 84. 85. 83. 77. 82. 83. 89. 86.
HLHla 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800
1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800. 1800
00
1
ro
CO
CO JYR=75 IMO= 1 JDAYs 14
MS= 7.6
TEMPs 260.
AFV= 101.
AFVRs 101.
HLHt= 959
1336
JYR«75 HO
ISTARa 3
AWS = 11.7
TEMPs 271.
AFV= 75.
AFVR= 75.
HLHls 566
788
JYR = 75 HO
ISTAR= 3
AWSa 8.1
TEMP« 272.
AFVs 68.
AFVR» 69.
8.9 8.1 7.6
260. 759. 259.
90. 88. 79.
90. 88. 79.
. 959. 959.
. 1390. 1390. 1
= 1 JDAY= 26
333
11.6 17.1 13.0
271. 771. 271.
72. 71. 65.
72. 7t. 65.
. 566. 566.
. 820. 820.
= 2 JOAY= 37
443
8.5 8.5 9.8
272. 273. 274.
67. 67. 73.
67. b7. 73.
7.6
259.
84.
84.
959.
390.

3
13.9
270.
82.
82.
566.
820.

3
11.7
274.
76.
76.
8.1
759.
81.
81.
959.
1390.

3
13.9
270.
77.
77.
566.
820.

3
11.7
774.
80.
80.
8.9 10.3 8.9 6.7 6.7
258. 258. 258. 759. 759.
75. 76. 71. 77. 80.
75. 76. 71. 77. 80.
959. 1013. 1067. 1121.
1390. 1390. 1390. 1390.

33333
14.8 16.1 14.8 15.2 15.6
270. 269. 269. 269. 269.
76. 78. 73. 75. 80.
76. 78. 73. 75. 80.
566. 598. 679. 661.
820. 870. 820. 820.

33333
10.3 9.4 10.3 10.7 10.7
273. 773. 277. 271. 271.
85. 92. 88. 88. 83.
85. 92, 88. 88. 83.
8.5
259.
81.
81.
1175.
1390.

3
15.6
269.
78.
78.
693.
870.

3
10.3
271 .
87.
A ** -• 0
8.5
259.
87.
87.
1228
1390

3
15.2
269.
86.
86.
725
820

3
10.3
271.
86.
86.
4 *t *- n
DIAMETER EXIT VELOCITY TEMP
(METERS) (M/SEC) (DKR.K)
2.40 31.30 .449.00
1.00 32.70 414.00
1.00 1.00 1.00 1.00
3333444
4.0 4.0 4.5 3.6 5.4 6.3 8.1
277. 277. 277. 277. 276. 276. 277.
82. 82. 71. 38. 5. 2. 18.
82. 82. 71. 38. 5. 2. 18.
. 1800.
. 1800.

8.5 8.1
260. 260.
84. 81.
84. 81.
. 1287.
. 1390.

14.8 15.7
269. 768.
85. 88.
85. 88.
. 756.
. 820.

1 3
8.5 8.1
771. 771.
87. R5.
87. 85.
i ft f. 1
2
8.1
260.
85.
85.



16.5
267.
88.
88.



3
7.6
771 .
OR.
88.
3
7.6
260.
81.
81.



14.3
267.
91.
91.



3
6.7
271.
97.
92.
3
8.1
760.



16.1
767.
92.
92.



3
7.2
771.
91.
91.
3
9.4
260.
84.
84.



13.9
267.
88.
88.



3
6.7
771.
93.
93.
3
9.4
259.
80.
80.



13.0
267.
88.
88.



3
6.3
?7t.
92.
92.
VOLUMETRIC FLOW
(M**3/SEC)
141.60
231.14
4444
8.1 6.3 6.3 6.3
277. 277. 277. 277.
23. 26. 6. 357.
23. 26. 6. 357.
3
8.5
260.
75.
75.



13.9
267.
R6.
86.



3
6.7
270.
86.
86.
3
8.1
260.
73.
73.


3
13.0
266.
88.
88.



3
6.7
270.
85.
85.
3
8.9
760.
72.
72.


3
12.5
266.
87.
87.




7.6
270.
91.
91.
3
9.4
260.
70.
70.


3
11.6
266.
87.
87.




7.2
770.
97.
97.
 HLHls 1100. 1100.  1100.  1100. 1100. 1100. 1094.  10R8.  1081. 1075.  1069.  1063.
       1056. 1050.  1050.  1050. 1050. 1050. 1050.  1050.  1050. 10-50.  1050.  1050.
-------
JYR = 75 T»1!V
1 ST ARr 1
AMSr 10.7
TEMPr 271.
AFVr 91.
AFVR = 91.
: 7 JOAYr 5f>
.t
8.5
271.
03.
81.
y
7.7
270.
65.
65.
J
7.7
270.
SI .
51 .
111
* 3 1
8.9 10.7 10.7
270. 770. 270.
54. 61. 58.
54. 61. 58.

9.8 12.5
770. 770.
51. 56.
51. 56.

13.4 IS.? 15.7
770. 770. 270.
53. 69. 55.
53. 69. 55.

13.0
271 .
52.
52.

13.4 16.5 16.1
771 . 771 . 771 .
50. 57. 54.
50. 57. 54.
1 i
16.5 16.5
271. 771.
58. 59.
59. 50.
133
18.3 IB. 3 16.1
272. 271. 271.
59. 66. 72.
59. 66. 72.
533
17.9 20.1 19.2
272. 272. 273
76. 81. 83
76. 81. 83
     HLH1=  1700.  1700. 1700.  1700. 170O. 1700. 1609. I51R. 1476. 1315. 1744. M53.
           1061.   970.  "70.   970.  970.  970.  970.  970.  970.  970.  970.  970.
DO
I
ro
CO
ISTARr 1
AWS= 19.7
TCMPr 272.
»FV= 82.
AFVR= P2.
HtHIr 2000
1771
JYRs75 IMfl
ISTAR= 3
AHS = 9.8
TFHPr 763.
AFVr 119.
3 3 3
17.4 17.9 16. 1
271. 271. 271
85. 82. 80
85. 82. 80
. 2000. 2000.
. 1740. 1740.
= 3 JI)AY= 62
333
9.4 8.5 8.9
263. 767. 262
118. 122. 105
3 1
15.2 15.7
. 271. 271.
. 77. 77.
. 77. 77.
2000. 2000.
1740. 1740.

3 3
8.9 9.8
. 263. 767.
. 108. 106.
3
13.9
770.
71.
71.
7000
1740

3
10. .3
767.
109.
13.9 1
770.
68.
68.
. 1968
. 1740

3
9.4
267.
101.
4.3 16.1
270. 271
77. 75
72. 75
. 1935.
. 1740.

3 2
9.4 9.8
2S2. 263
107. 110
16.5
. 272.
. 75.
. 75.
1903.
1740.

10.3
. 264.
. 106.
16.1
271.
77.
77.
1870.
n«o.

10.7
264.
107.
15.6
774.
83.
83.
1838
1740

11.6
765.
106.
17.0 1
774.
88 .
89.
. 1805
. 1740

11.61
765.
101.
6.5
775.
86.
86.
•
*

7.1
264.
115.
15.6
775.
86.
86.



10.3
764.
1 12.
14.3
274.
91.
91.



10.3
265.
109.
13.9 13.0 12.5
774. 274. 273.
89. t)7. 84.
80. 87. 84.



11.7 12.1 10.7
764. 764. 264.
114. 120. 115.
13.4
273.
87.
87.



12.5
264.
108.
13.4
273.
87.
87.



12.1
263.
115.
12.1 1
272.
87.
87.



10.3
263.
106.
It .6
272
87
87



9.8
263
103
     AFVRr MH.  118. 122. 105. 108. 106. 109. 101. 107. 110. 106. 107. 106. 101. 115.  112.  109.  114.  120.  115.  108.  115.  106. 103.
     HbHl= 1050.  1050.  1050. 1050. 1050. 1050. 1174. 179P. 1421. 1545. 1669. 1793.
           1916.  2040.  2040. 2040. 2040. 2040. 7040. 7040. 2040. 2040. 7040. 7040.
     JYf» = 7
                 3 JI)AY = 77
     ISTARs  433333333711111233313333
     AWS =   9.4 10.3  8.9 H.2 13.9 12.5 15.2 14.3 12.5 13.4 15.6 13.0 17.1 13.0 13.4 11.7  14.8  14.3  17.0  18.3  13.9  13.0  13.0 13.4
     TSMPa 277.  277. 276. 276. 275. 275. 275. 275. 275. 276. 277. 279. 279. ?HO. 280. 281. 780.. 278.  277.  276.  276.  275.  275.  276.
     AFV =   317.  310. 245. 331. 328. 325. 376. 376. 328. 324. 323. 318. 321. 318.' 374. 325. 327.  328.  324.  325.  320.  320.  318.  313.
     »FVR= 312.  310. 245. 331. 328. 325. 326. 376. 328. 324. 323. 318. 371. 318. 324. 325. 377.  378.  374.  325.  320.  320.  318.  313.
     HI,HI=  100.   100.  100.  100.  100.  100.   250.   400.  550.  700.  850. 1000.
           1150.  1300. 1300. 1300. 1300. 1300.  1300.  1300. 1300. 1300. 1300. 1300.
     JYR=7S  IMO= 4 JOAY* 94
     I6TA8=   333333333333133333333333
     AHS =  15.6 18.8 17.0 17.9 17.9 17.0 15.6 14.8 15.6 11.2 13.0 10.1 11.6 11.7 13.0 17.1  12.1  11.6  11.2  11.2  10.7  10.7  11.2  11.2
     TF,MP = 266.  266. 765. 265. 265. 265. 265. 264. 265. 26<5. 266. 76«. 268. 769. 270. 770. 269.  268.  266.  266.  266.  266.  265.  265.
     AFV=<   115.  115. 110. 108. 107. 112. 107. 101. 104. 104. 109. Ml. 110. 110. 108. 119. 127.  126.  133.  128.  123.  116.  113.  121.
     AFVR« 115.  115. 110. 108. 107. 112. 107. 101. 104. 104. 109. 111. 110. 110. 108. 119. 122.  176.  133.  128.  123.  116.  113.  121.
     HUI1= UIOO. 1000. 1000. lOOO. lOOO. 1000. M"6.  1)13. 111?. l4?->. 1531. 1638,
           1744. 1850. 1850. 1850. 1850. l«50. 1850.  1850. 1850. 18*0. 1850. 1R50.
JYR = 7
ISTAH
TEMPr
AFVR =
IIMU =
5 INQr 4 ,)MAY = 96
= 33131111211
6.3 8.1 8.1 7.7 8.1 8.1 P. 5 9.4 9.« 9.4 9.8
266. 267. 767. 766. 266. 767. 767. 767. 7*8. ?f,o. 770.
120. 109. Ml. MS. 1M. MO. 118. 117. 117. 117. MS.
120. 109. Ml. 115. Ml. MO. MB. 117. 117. 117. MS.
3J6. 3J6. 336. 336. 116. 33fi. 4*4. 557. 6*0.

9. *
771 .
IIP.
MB.
7*0.

1
9.8
771.
115.
M5.
876

1 1
11.7 10.1
772. 772.
1 M. 116.
114. 116.
. 094.

11.7
777.
117.
117.

M.6 10.7
771. 771.
116. M».
116. IIP.

8.9
770.
171.
171.

9.8
769.
177.
177.

9.8
260.
118.
118.

8.9
268.
113.
113.

7.6 6.3
267. 268.
118. 120.
118. 120.
-------
       JYR=75 IIQs 4
       ISTARs  44
       AWSs  3.6   3.1
       TGMPs 270.  270
  4444
3.1  2.7  2.2  1.8
270. 270. 270.  270.
AFV
              190.  126.  122.  106.   91.  91
                                      4
                                    1.8
                                    271,
                                     77.
       3211111111
     1.3   2.7   3.6   4.5  5.4  6.3  6.1  6.3  6.7  6.7
     271.  272.  ?73.  275. 276. 277. 777. 277. 277. 277.
            1     344444
          5.4   4.9  4.0  4.0  3.6  3.6  3.6
          276.  275.  274. 274. 272. 272.  272.
      77.  101.  128.  121. 126. 124. 124. 127. 124. 129. 132. 128.'124.  132.  140.  153. 167.
       AFVRs 190.  176.  122.  106.   91.  91.  77.  77. 101.  128.  121.  126.  124.  124.  127.  124.  129.  132. 128. 129. 132. 140. 153. 167
       HLHls  778.   778.   778.  778.  778.  778. 1079. 1279.  1529.  1779.  2029.  7280.
             2530.  7780.  2780.  2780. 2780. 2780. 2780. 2780.  2780.  7780.  2780.  2780.
JYRs75 1*0=
ISTABs 3
TEMPs 275.
AFVs 1«0.
AFVRs |HO.
= 4 JDAYsl]
3 3
274. 275.
78. 89.
78. 89.
I I
1 3
274. 273.
90. 97.
90. 97.
4 3
272. 272.
96. 87.
96. 87.
3 1
273. 274.
95. 108.
95. 108.
1 1
274. 276.
109. 111.
109. lit.
1 1
277. 277.
119. 118.
119. 118.
1 1
279. 279.
114. 101 .
1 14. 101.
1 1
279. 279.
111. 105.
111. 105.

279. 278.
103. 115.
103. 115.

277. 276.
120. 122.
120. 122.

275. 275. 275
128. 147. 156
128. 147. 156
       HLHls  2050.  2050.  2050.  2050.  2050.  2050. 2039. 2028.  2016.  2005.  1994.  1983.
              1971.  1960.  I960.  1960.  1960.  1960. 1960. 1960.  1960.  1960.  1960.  I960.
(   CO
       JYRs75  IMOs  4
       ISTABs   3333133221111111123
       AWSs  9.4  9.8  10.3   9.8  10.7   9.8  10.3  11.2  11.2  10.7  10.3 11.7 11.2  9.4 11.6 11.6 11.2 10.7 10.3
       TEMPs 2«0. 280.  281.  781.  280.  280.  281.  281.  282.  784.  284. 285. 284. 285. 284. 284. 284. 283. 282.
       AFV =  310. 311.  311.  308.  305.  304.  306.  307.  302.  303.  303. 305. 305. 309. 295. 309. 310. 307. 308.
       AFVRs 310. 111.  311.  308.  305.  304.  306.  307.  302.  303.  303. 305. 305. 309. 295. 309. 310. 307. 308.
               SOO.  600.  600.   600.   600.   600.  600.  720.   840.  950. 1060. 1170.
             1280.  1190.  1500.  1500.  1500.  1500.  1500.  1500.  1500. 1500. 1500. 1500.
                                                                                                        33333
                                                                                                      9.4  9.8 11.2 12.1 12.5
                                                                                                      282. 282. 282. 282. 282.
                                                                                                      303. 308. 309. 305. 308.
                                                                                                      303. 308. 309. 305. 308.
ro
00
JYRs75 1MO:
ISTABs 4
AWSs 6.3
TEMPs 285.
AFVs 275.
AFVRs 275.
« 5 JOAY=i:
4 4
6.7 10.3
285. 284.
278. 274.
278. 274.
37
444
8.5 6.3 5.8
2H4. 285. 284.
281. 290. 293.
281. 290. 293.

3 3
6.7 7.2
285. 286.
298. 306.
298. 306.

3 3
5.8 6.3
287. 289.
304. 305.
304. 305.

2 2
6.7 7.6
290. 291.
100. 319.
300. 318.

2 • 3
8.1 7.6
291. 291.
319. 326.
319. 326.

3 3
8.1 8.1
291. 290.
324. 324.
324. 324.

9.8 8.9
289. 289.
323. 324.
323. 324.

8.5 8.1
288. 287.
324. 318.
324. 318.

8.5 9.4
287. 286.
321. 324.
321. 324.
3 3
9.8 9.4
286. 286.
327. 327.
327. 327.
       HLHls   100.   100.   100.   100.   100.   100.   234.   368.   501.  635.  769.  903.
              1036.  1170.  1170.  1170.  U70.  1170.  1170.  1170.  1170. 1170. 1170. 1170.
             5  110=  6  JD»Y=177
        ISTABs   433444
        AWSs  5.8   4.9  4.5  4.0  4.9  5.4
        TEMPs 291.  291.  291.  291.  291.  291.
        AFVs  290.  299.  294.  291.  2«6.  290.
        AFVR = 290.  299.  294.  291.  286.  290.
        HOHls  100.   100.   100.   100.  100.
               721.   H10.   810.   810.  810.
                                                           33332
                                                         4.9   5.8  6.7  5.4  5.4
                                                         290.  290.  290. 290. 791.
                                                         293.  292.  295. 298. 294.
                                    207. 296.  799.  296.  293.  297.  295. 298. 794.
                                      100.   189.   278.   366.   455.   544.  633.
                                      BIO.   810.   810.   810.   810.   810.  810.
  4333
5.4  6.7  5.8  5.4
290. 2<»0. 290. 7«1.
297. 296. 299. 296.
  333
5.8  5.8  4.9
292. 291. 790.
293. 292. 289.
293. 292. 289.
                                                                                   333333
                                                                                 5.8  6.7  7.2  7.6  7.2  4.9
                                                                                 289. 290. 289. 289. 289. 289.
                                                                                 286. 291. 293. 296. 299. 297.
                                                                                 286. 291. 293. 296. 299. 297.
JYRs75
1STA8=
AWSs
TF.MPs
AFVs
IMO:
4
3.6
293.
300.
i 7 jr
4
1.6
292.
328.
>*Y=1«
4
3.1
297.
372.
n
4
3.1
291.
309.

4
1.1
291.
291.

4
3.1
291.
299.

4
4.0
291 .
331.

4
4.5
297
319
        AFVR*  JOO.  328. 372. 109. 291. 299.
        HLHlr   189.   389.  389.  189.  3«9.
                                                 11     11     1     1     1
                                               2.7   4.0   4.5  4.5   4.0   4.5   4.0
                                               294.  ?95.  ?<>&. 297. 298. 298. 799.
                                               319.  296.  2P4. 7R7. 284. 290. 291.
                                     331.  119.  119.  796.  284. 2«7. 784. 290. 791.
                                      389.   -)7i.   754.   937. Ilia. 1102. MRS.
                                                                                           1    1     1
                                                                                         3.6  4.0   4.5
                                                                                         299. 299.  297.
                                                                                         108. 310.  301.
                                                                                         308. 310.  301.
                                                               144444
                                                             4.9  5.4  6.3  5.4  5.4  4.5
                                                             796. 295. 294. 29*. 293. 292.
                                                             790. 294. 793. 298. 299. 300.
                                                             290. 294. 293. 29*. 299. 300.
              1667.  1850. 1850. 1850. 1B-50. 1H50.  1850.  1850. 1850. 1850. 1BSO.
-------
•» c er o c
• cc o c
*f ^1 P*l '"I
w cr J m m
. cr cr o
» rx ex CN
• • •
«r o — or cr
• er ec cc
•» fX CN fN
^ •• rx CD CD
• cr cr cr
m cs r» ex
•e C ff tC >C
• er er er
« CN ex ex
— in » o c
• cr er er
w fN fx ex
"f cr ^ cr cr
• er e er
•r ex ex ex
— er «• rv CN
• er e o
» (X ft ft
— a. IT. CB c

IT ex f f
— er tc P- P-
. er o er
v CN CN rv • •
cc c
• • • a e
• a er e — —
w rv ex rv
t •
. . . — e
— CB vt C C ft C
• o c e cr ft
If »X If. f «.
•— IT vf C C in O
• er e e P- c
— p- vc tc \c • •
• er — — cr e
ex rx rf rf >e e
p- if
• • • VM
— r* ^ ex rv
• er o o •• •
•c c
• • • tt ft
•• XC fN If ff **
• cr cr cr
rf ft rv ex . •
< cr c' e
. cc — — ir c
« rx m -i » m
» ex o ex CN • •
• cr o o e e
ex rv ff ff. m c
v if
• • • ^
V fN C? vC XC
• cr e c • •
cc fx ex m m e c
er me
«- • • • *p f.
II *r C — — — —
>• • 9 cr cr
« ^ CN CX CN • •
o c c
T • • • f C

r- • er c c >-

n • •
c • • • e *•
— • cr — — « —

ir n
r- I u u n
u « u a u ce —
a «-  rx ~ ft
rx er er e e
• cr ir. in
a rv if if
ex v er e* c
> er
cf ex • •
If. C
• i . CN ft
. cr «• •-
CC- fv

• • • er c
^* •" r* O o vc ft
06 CN — -
— er p- e o in e
* • •
— — «> e e • •
. er. — c
ac rx <£. if
CN in
• « • v« ••
CX W » C O
cr rx cc O
e if.
• • > CN IT
if f » C 0 — —
• cr
er rv t •
V 0
• • • if ff
If « •» O C •• IT
. O — —
C* fx

• • • O 0
m m m c c C t
• er — in
o rx — — •
rf  ^ o c *^ **
>ri • er
tf CC- CN • •
s © e
»* • • • c f
«• er rv o e — in
p» • er ^* **
CD rx
n • •
C • • • ss \c
2LWI"Icr!nS — v
t£ CN If. ff. *^ •«•
IT II
r* or ii u u
it « n a n cc —
CC E- t/> £ ^ > X
** BO tX V (fc U> w3
r> >->  — P- O O
• CD CX fN
fN ex m m
« ic r» r- r»
• CC «• w«
*• fN ff. f>
• CC «. —
rv rx m m
if. «r r» e e
• CC fN CM
v*>
m er P-* ^ »
• cc — —
f\ fX fT m
»•> e- vs m* m
• CC x —
f^ fx f> rf • •
— «D e
• > • fN P-
• a — —
ft fx fi ft

• • • *c o
ff fx tc ft ft if) p*
in rx f. m
• cc — »- of p-
ftZ^o'c
• er —• — » o
«r rx ft ft — p-
-• in ^
t • •
ff. VC VD «^ ^
J « — — ^ *
— T P-
• • • in ft
ft —  o c c r*
^ CD rx CN >c ft
rx CNm ft
« rx tc m in c e
• cc «- — o P-
• ex ft m ic ff.
«•
f« r- tc' ft m . .
. . • ec — —
tf O CN ft ft • •
a — o o
•5 •••OP-
^ or \c o« ^* NC ^i
9 . ar — —
er- rx ft ft
n • •
c • • • es cr
_ • OB _ _ ^o ft
QD fx ft ft
IT II
r- cc n u II
u < n a n ec —
tz t- tn x » » =
>• K ? Ix? tb Ik M
-5 »" *f fr- * « S
«• cr t «M «M
• CC CC CD
•«• CN
» « ft m in
• cc ec- cc
m CN
• • •
» p- rf. fx CN
. CD er er
ie rx
^ cr ft cc oc
• CC CD CD
CB CN
m ic ff in *>
• CC CD OC
r- cx
m to ft O CC CD CC tC
« ex — —
ft cc o ic to o e
• p- CC CD C O
 CD CD
« CN rx • •
e — oo
-3 • • • o C
ft CD te er er a- to
cs • p- ee CD — •-
«— ^ rv
n •- • •
o • • • o in
~ • r» cc * ce f
V CN — — .
in ii ••
r- ec n n M
n «r n a. M e —
ee H- in ? > » x
>- tn i u; u. ii. J
-5 «. «r fr. < «r z


































































n
>•
^
c

•
c
rx


z
O

0
10
tf
cc

ec
•a
Ct
»
B-236
-------
                2.
                X

                cc
                V.
                f
                C
          C     I
          IB     i~
          \     C.
          I
          z
          c     IT
          z     c
                i
               a
               o
               IT.
                u
               t,
               z
               o
               U

               2
               *f
               u;
^>
-
EiT
          ceeeeeecececcooceeccceceeeececcccecc
          i  i  i   i  i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i  i  i  i  i  i  i  i   i   i   i   i   i   i  i  i  i




     •     ceeeeeeeccecoeeeeceecceeeeeeceeeeeee
   IT     iriririTiririririT. IT. iririirkniririr>iriririririru"ir»riniririririru"ufc»rir







          cocecooc-eooooecooccocccccccoc-coeoeco
          i  i  i   i  i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i  i  i  i  i  i  i  i   i   i   i   i   i   i  i  i  i




oc   •     coecooooeoeocoocceeoeocececccecccpoc




u



x        eeeeeceoeeoccceoeocecccc^ecceeccccee
o        i  i  i   i  i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   t  i  i  i  i  i  i  i   i   i   i   i   i   i  i  i  i




<   •     ccccooecoceoccocccoccoececeooccccccc

2	


t-

a.

z        coeeoceoeeoccooeooesooccoocococoooco
j."        i  i  i   i  i   i   i   i   i   i   i   i   i   i   i   i   i   i   i   i  i  i  i  i  i  i  i   i   i   t   i   i   i  i  i  i




     •     eeoeoecoocoecccoeccococcceccccceccco








2        ccecoc-ccoooocoeeccoccocceiicodceocccc
3        I   I   I   I  I   I  I  I  I  I   I   I  I   I   I   I   I   I   I   I   I  I  I  I  I  I  I   t   I   I   I   I   I  I  I  I



   fN*^-OOCOCCOCCCOOCC—  ^^f^CSOriOC
    .     ooccocosooooooocooeccccccceooscccccc





   U.1


   X
   a



      ^                                        —  —  -•———                                     ,i»i(»immm
                                                                             B-237
-------
    PF.NN. F.LF.C. SEWARO
                                    NOM--S02
YEARLY MIUIMUM  24-HOUR  CONC*  7.5337E-05  DIRECTIONS BO.   OIST»NCE=  2.B KM  OAY = 57.
                HIGHEST  24-HOUR CONCENTRATION AT EACH PFCEPTOP
                                                                                                       5.7
RANGE 1.7 K
OIR
( 1 7.50PHE-05
1 7.50I9E-05
3 7.5003E-05
( 4 7.5004E-05
5 7.5100E-05
6 7.5030E-05
( 7 7.5106E-05
8 7.5208E-05
9 7.5107E-05
( 10 7.5208E-05
It 7.5718E-05 (
12 7.5224H-05 (
< 13 7.5165E-05 (
14 7.5066E-05 (
15 7.5015E-05 (
f I 16 7.5002E-05
£> 17 7.5000E-05
00 18 7.5000E-05
' 19 7.5000E-05
20 7.5000E-05
21 7.5000E-05
1 22 7.5000E-05
23 7.5000E-05
24 7.5000E-05
' 25 7.5004E-05
26 7.5025E-05
27 7.5083E-05
( 28 7.5174E-05
29 7.5730E-05
30 7.5754E-05
'.. 31 7.5MIE-05
32 7.5203E-05
33 7.5064E-05
34 7.5037E-05
35 7.5I23E-05
36 7.5192E-05
M 7.1 KM
200 ) 7.5040E-05 (
200 ) 7.5007E-05
700 ) 7.500IE-05
56 ) 7.5004E-05
56 ) 7.S292E-05
56 ) 7.5080E-05
57 ) 7.5705E-05
335 ) 7.5337E-05
111 ) 7.5083E-05
lit ) 7.5728E-05
96 ) 7.5213E-05
103 ) 7.5126E-05
103 ) 7.5085E-05
103 ) 7.5079E-05
103 ) 7.5006E-05
103 ) 7.5001E-05
103 ) 7.5000E-05
111 ) 7.5004E-05
7 ) 7.5000E-05
7 ) 7.5000E-05
7 ) 7.5000E-05
7 ) 7.5000E-05
187 ) 7.5000E-05
1B7 ) 7.5000E-05
IB7 ) 7.5002F-05
187 ) 7.5011E-05
187 ) 7.5041E-05
187 ) 7.509BE-05
187 ) 7.5I55E-05
170 ) 7.5300E-05
120 ) 7.57B4E-05
( 77 ) 7.5770F-05
( 77 1 7.502BE-05
( 2"0 ) 7.5044E-05
( 200 ) 7.5080E-05
( 200 ) 7.5I9BE-05
700
200
700
56
56
56
76
57
335
62 1
94 )
103 1
103 ]
103
103
103
ill
111
HI
7
7
7
7
187
1B7
m
187
187
170
761
77
77
700
200
700
2.8 KM
7.5025E-05
7.5004E-05
7.5001F-05
7.5003E-05
7.5J73E-05
7.5089E-05
7.57I8E-05
7.5332£*05
7.51 14E-05
7.57ME-05
7.5235E-05
7.5I19E-05
7.5055E-05
7.50I8E-05
7.5003E-05
7.5000E-05
7.5000E-05
7.50I1E-05
7.5000E-05
7.5000E-05
7.5000E-05
7.5000E-05
7.SOOOE-05
7.5000E-05
7.500IE-05
7.5076E-05
7.5065E-05
7.5725E-05
7.5309E-05
7.5308E-05
7.5756E-OS
7.50I7E-05
7.5053E-05
7.5064E-05
7.5704E-05
.1 . i * i
200 ) 7.5015E-05 ( 200
200 ) 7.5002E-05 ( 200
7 } 7.5005E-05 ( 7
56 ) 7.5001E-05 ( 56
56' ) 7.5299E-05 ( 56
56 ) 7.5085E-05 ( 56
26 J 7.519fiF.-05 { 14
57 ) 7.5297E-05 ( 335
37 ) 7.5145E-05 ( 37
67 ) 7.52B1E-05 ( 67
96 ) 7.5740E-05 ( 96
94 ) 7.51I4E-05 ( 94
103 ) 7.5034E-05 ( 103
101 ) 7.50IOE-05 ( 103
103 ) 7.5007E-05 ( 103
103 ) 7.5000E-05 { 103
HI ) 7.5000E-05 { 111
HI ) 7.50I7E-05 ( 111
til ) 7.5000E-05 f 111
7 ) 7.5000E-05 ( 7
7 ) 7.5000F-05 ( 7
7 ) 7.5000E-05 ( • 7
7 1 7.5000E-05 { 7
187 ) 7.5000E-05 ( 187
187 ) 7.5000E-05 ( 187
187 ) 7.5004E-05 ( 187
1B7 ) 7.5016F-05 ( 187
187 ) 7.504IE-05 ( 1B7
177 ) 7.5J03E-05 { 177
120 ) 7.5280E-05 ( 170
261 ) 7.5278E-05 ( 261
77 ) 7.5754E-05 ( 137
77 ) 7.5010E-05 ( 77
200 ) 7.5055E-05 ( 700
700 ) 7.5050E-05 ( 700
f 700 ) 7.51B9E-05 ( 700
7.500BE-05
7.5001E-05
7.50I2E-05
7.5000E-05
7.5229E-05
7.5067E-05
7.5176E-05
7.5233E-05
7.5143E-05
7.5229E-05
7.520BE-05 (
7.5093E-05 (
} 7.50IBE-05 (
) 7.5005E-05 •
) 7.5001E-05 (
7.5000E-05
7.5000E-05
7.5020E-05
7.5000E-05
7.5000E-05
7.5000E-05
| 7.5000E-05
) 7.5000E-05
) 7.5000E-05
7.5000E-05
7.5002E-05
7.5008E-05
7.5045E-05
7.5321E-05
7.52I3E-05
7.5208E-05
7.5712E-05
7.5005E-05
7.5047E-05
) 7.5034E-05
) 7.5I47E-05
200 )
200 )
7 )
56
56
56
14
37
37
62
96
96
94
103
103
103
til
111 )
111 )
7 )
7 )
7 )
7 )
1B7 )
187 1
187 1
187 1
177 1
177 1
120 )
761 )
137 ]
77 ]
200 1
200
700
-------
    PENH. ELEC.
YEARLY MAXIMUM  3-HotiR  roues
                                    NOM—R02




                              7.5701F-05  DIRECTION!
0.  OISTA«CE=   1.2  KM  n»Y=200.  HODR=1500.



RANGE 1.2

















03
1
PO
co
VO
















DIR
1
2
3
4
5
6
7
8
9
to
11
12
13
14
15
16
17
IB
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
.36

7.5349F.-05
7.5126E-05
7.5023E-05
7.5010F.-05
7.5278E-05
7.5109E-05
7.5371E-05
7.5547F-05
7.5420'>05
7.55J4E-05
7.5593F.-05
7.557SF.-05
7.5449F.-05
7.5230E-05
7.5067E-05
7.501 IE-OS
7.5001E-05
7.5000F.-05
7.5000E-05
7.5000E-05
7.5000E-05
7.5000f>05
7.5000E-05
7. 5003^-05
7.5031E-05
7.5167E-05
7.5462E-05
7.5649F.-05
7.5590E-05
7.5S12E-05
7.5629E-05
7.5432E-05
7.5211E-05
7.5133E-05
7.5497E-05
7.5701R-05
HIGHEST
KH

( 200
( 200
t 200
( 56
( 56
( 56
( 57
( 335
( 335
( 111
( 96
( 103
( 103
( 103
( 103
( 103
( 103
( 111
( lit
( 335
( 335
( 335
( 187
( 187
( 1S7
( 187
( 187
( 187
( 187
( 120
{ 137
( 77
( 77
( 200
( 200
( 200
3-HOUR CONCENTRATION AT EACH RECEPTOR
2.1 KM 2.8 KM 3.7 KM 5.2 KM

) 7.5161E-05 ( 200 ) 7.5100E-05 ( 200 ) 7.5060F.-05 200 t 7.5030E-05 200 )
) 7.5046E-05 ( 200 ) 7.5026E-05 ( 200 ) 7.5015E-05 200 ) 7.5007E-05 200 )
) 7.5007E-05 ( 200 ) 7.50HE-05 ( 7 > 7.5041E-05 7 > 7.5096O05 7 )
) 7.5008E-05 ( 56 ) 7.5005E-05 f 56 ) 7.5002F-05 56 t 7.5001E-05 56 )
) 7.55B2E-05 ( 56 ) 7.5583E-05 { 56 ) 7.5550F.-05 56 ) 7.5436E-05 56 )
) 7.5200E-05 ( 56 ) 7.5198E-05 { 26 1 7.51B6E-05 56 ) 7.5165E-05 56 )
) 7.5572E-05 ( 57 ) 7.5581C-05 ( 57 ) 7.5550E-05 26 ) 7.5467E-05 14 )
) 7.5583E-05 57 ) 7.5595E-05 ( 335 ) 7.5561E-05 7 > 7.5505E-05 335 )
) 7.5374E-05 26 ) 7.5453E-05 56 1 7.5522F-05 ( 56 ) 7.5493E-05 37 )
) 7.5554E-05. 94 ) 7.5567E-05 94 ) 7.5538E-05 ( 62 ) 7.5461E-05 62 )
) 7.5566E-05 94 ) 7.5558E-05 94 ) 7.5547E-05 ( 94 ) 7.5510E-05 96 )
) 7.5334E-05 103 ) 7.5383E-05 94 ) 7.5385E-05 ( 96 ) 7.5320E-05 ( 96 )
) 7.5225E-05 103 ) 7.5189E-05 94 ) 7.51B3E-05 ( 94 ) 7.5144E-05 ( 94 )
) 7.5102E-05 103 ) 7.5063E-05 103 ) 7.5037E-05 ( 103 > 7.5019E-05 { 103 )
) 7.5027F-05 103 ) 7.5016E-0* 103 ) 7.5009E-05 ( 103 1 7.5004E-05 ( 103
) 7.5004E-05 103 ) 7.5002C-05 103 ) 7.5001E-05 ( 103 1 7.5000E-05 ( 103
) 7.5000E-05 lit ) 7.5001E-OS 111 ) 7.5O01E-05 f 111 ) 7.5000E-05 ( 111
) 7.5034E-05 til ) 7.5087E-05 ( 111 ) 7.513RF.-05 ( 111 ) 7.5162E-05 ( 111
) 7.5000F-05 111 ) 7.5001E-05 { 111') 7.5001E-05 ( 111 > 7.5000E-05 ( 111
) 7.5000E-05 335 ) 7.5000E-05 ( 335 ) 7.5000F.-05 f 335 1 7.5000F.-05 335
) 7.5000E-05 335 ) 7.5000E-05 ( 335 ) 7.5000F-05 f 335 ) 7.5000F--05 335
) 7.5000E-05 335 ) 7.5000F.-05 335 ) 7.5000E-05 ( 335 ) 7.5000E-05 335
) 7.5000F-05 1«7 ) 7.5000E-05 187 ) 7.5000E-05 ( 335 t 7.5000E-05 335
) 7.5001E-05 1B7 ) 7.5000E-05 187 ) 7.5000E-05 f 1 «7 1 7.5000E-05 187
) 7.5012E-05 1«7 ) 7.5006E-05 187 ) 7.5003E-05 ( 1R7 ) 7.5001E-05 187
1 7.5077E-05 187 ) 7.5046E-05 187 ) 7.5077E-05 ( 187 ) 7.5013E-05 187
) 7.523BF-05 187 ) 7.5152E-05 187 ) 7.5094E-05 f 1B7 ) 7.5051E-05 f 187
) 7.5347E-05 187 ) 7.5226E-05 187 ) 7.52B5F-05 ( 177 1 7.5339E-05 ( 177
) 7.5384E-05 1KB ) 7.5474E-05 177 J 7.5569E-05 ( 177 ) 7.5588E-05 ( 177
) 7.5541F.-05 ( 120 ) 7.5611E-05 120 ) 7.5582F-05 ( 120 ) 7.5528E-05 ( 137
) 7.5609F.-05 ( 261 ) 7.5621E-05 261 ) 7.5579E-05 ( 170 1 7.5470E-05 ( 120
1 7.5590E-05 ( 77 ) 7.5625E-05 261 ) 7.559BF-05 ( 137 ) 7.5524E-05 ( 137
) 7.508BE-05 { 77 ) 7.5053E-05 77 1 7.5031F-05 ( 77 ) 7.5016E-05 ( 77
) 7.5241E-05 ( 200 ) 7.535BF-05 200 ) 7.5401E-05 ( 200 V 7.5355E-05 ( 200 )
) 7.5367E-05 ( 200 ) 7.5345E-05 200 ) 7.5299E-05 ( 200 ) 7.5220E-05 ( 200 )
) 7.5506F.-05 ( 200 1 7.5622E-05 200 ) 7.561JF-05 ( 200 ) 7.5489E-05 ( 200 )
-------
                                                      MAXIMUM DAIt.Y CONCENTRATIONS
                                          DAY    24-HOIIR CONCENTRATION    DIRECTION

                                           57          7.5332E-OS              B
                                           56          7.5373E-05              5
                                          33S          7.5327E-05              "
                                          177          7.5321E-05             20
                                          J70          7.5300E-05             10
                                          7M          7.530BE-05             11
                                           62          7.5281R-05             10
                                           77          7.5270E-05             32
                                           37          7.5769E-05              »
                                          137          7.5254E-05             32
                                           14          7.5J49E-05              «
                                             7          7.S246E-05              B
                                           21          7.524JE-05              «
                                           96          7.5240E-05             li
                                           94          7.5235E-05             11
                                          187          7.5230E-05             20
                                          103          7.5224C-05             12
                                          , (SB          7.5211C-05             29
                                          111          7.5209E-05             11
                                          200          7.5204E-05             36
DISTANCE

  2.75
  2.75
  2.75
  •5.23
  2.75
  2.75
  3.65
  2.07
  3.65
  3.65
  3.65
  3.65
  7.75
  3.65
  2.75
  1.17
  1.17
  1.17
  1.17
  2.75
CD
-------
           P;? VAF.LEV AUTHORITY  - KINGSTON POWER  PUNT
   SOLVFNT RfiFtNKO COAT,  STUDY
   KINGSTON PLANT  1975
   KSTL=4
   IOHGT=  2
   NPDLs 2
   NSER= t
   OAY--
                  0  0
         =  0  0 0
        ?1.0   NSTs  1
JTAU=  t    IMPIITs 2
ECONV=   0.304S006   SYTF=  1.0    FTV= 3.0   TAF= 0.60    BACKGH:

                     I
                     1
fiS.O

  1
  1
                                                                                                         t
                                                                                                      1   1
1  t
   1
CO
I\J
-------
PLANT ELEVATION (FEET ABOVE SEA LEVEL)—
                                             775.0
    RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)

DIRECTION   RINCM   RINGI2   RINGI3   PINGI4   HINGIS
1
2
)
4
s
6
7
8
9
0
t
2
1
4
5
ft
7
ft
9
20
DO 21
l
ro 22
-*=» 23
1X1 24
25
Ifi
1"!
1*
29
10
31
32
31
34
35
36
STACK 1
STACK t
STACK
1
2
760.0
760.0
755.0
750.0
750.0
740.0
780.0
820.0
N60.0
B90.0
920.0
B50.0
780.0
750.0
740.0
730.0
7.10.0
740.0
740.0
740.0
730.0
760.0
760.0
760.0
760.0
760.0
760.0
760.0
780.0
780.0
7<"».0
805.0
795.0
BOb.O
770.0
755.0
•--KINGSTON
2--KIHGSTON
STRATEGY
TYPE
NOM
NOM
750.0 760.0
750.0 1120.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1070.0
780.0 920.0
920.0 880.0
830. 0 720.0
740.0 720.0
720.0 760.0
740.0 720.0
720.0 960.0
740.0 1150.0
900.0 1020.0
800.0 1060.0
900.0 1020.0
960.0 1020.0
820.0 720.0
760.0 970.0
720.0 980.0
780.0 920.0
860.0 1100.0
840.0 1100.0
760.0 820.0.
780.0 S40.0
800.0 1080.0
900.0 1040.0
1060.0 890.0
1160.0 1060.0
1040.0 1100. 0
1120.0 1040.0
1140.0 1020.0
1010.0 1020.0
1020.0 630.0
760.0 800.0
970.0 1300.0
825.0 960.0
BOO.O 1000.0
1100.0 1100.0
900.0 1060.0
1160.0 1000.0
1000.0 1100.0
1060.0 800.0
1000.0 960.0
800.0 920.0
960.0 1020.0
1070.0 1000.0
1060.0 1000.0
1020.0 10BO.O
800.0 1020.0
780.0 940.0
1010.0 720.0
1020.0 900.0
BOO.O 780.0
720.0 1040.0
720.0 750.0
800.0 980.0
1040.0 1020.0
950.0 760.0
1100.0 900.0
1140.0 740.0
1140.0 800.0
1100.0 1200.0
900.0 1400.0
1060.0 1400.0
||00. 0 1100. 0
1040.0 1100.0
1020.0 1100.0
1000.0 1400.0
1000.0 1500.0
1040.0 IfiOO.O
STAfKSII-4. NORMAL POWER LOAD-COAL T6P
STACKS»5-9, NORMAL POWER LOAD-COAL TSP
902 EMISSION RATE
(GMS/SEC)
546.00
593.00
PART EMISSION RATE HEIGHT DIAMETER EXIT VELOCITY TEMP
(GMS/SEC) (METERS) (METERS) (M/BEC) (DEG.K)
0.00 76.20 4.27 10.90 416.00
0.00 91.44 5.03 10.50 414.00
                                                                                                             VOLUMETRIC  FLOW
                                                                                                                (M*t3/SEC)

                                                                                                                   156.09

                                                                                                                   208.65
   RANGK{KM)=   0.71   1.33   2.49
   SEASONAL VARIATIONS BY CASE I
            1   1.07   1.08   1.24
                                      4.65
                                            8.69
1.13   1.07    J.04    0.91    0.74    0.83    0.88   0.93   1.07
 YP »M
            (IN
                    DAYS
-------
                  VALLEY AUTHORITY  -  KINGSTON POWER PLANT
                                        NOM--R02

           MAXIMUM MEAN CONC=   9.54R9F-05  niRFCTTTI = 36  niSTftNCF,=   n.7 KM
         RANSE
                    ANNUAL MEAN CONCENTRATION  AT  FACH RECEPTOR
               0.7  KM         1.3 KM         ?.5  KM          4.7 KM
                                                                                H.7  KM
CD
ro
co
DIR
  1
  2
  3
  4
  5
  f>
  7
  fl
  9
 to
 il
 I?
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
8.^1 4°3E-OS
8.40070E-05
H.'563S«K-0'5
fl.602JOF.-05
B.75207E-05
7.62H67F.-OS
7.I5943E-05
6.96402E-05
6.93092E-05
6.95168E-05
6.9'>2<*1E-0'>
6.97175E-05
7.07441E-OS
7.33444E-05
7.71599F>05
B.OOIRflE-OS
7.H1Q61E-OS
7.32184E-OS
6.9">nfi2F:-OS
6.R1314E-05
6.89061E-OS
6.97955E-OS
6.9005SE-05
ft.8«2??K-05
6.77733E-05
6.77924E-OS
6.71090P.OS
6.73102f:-05
6.694ft7F>05
6.64626P-OS
6.^15 16E-OS
f..f>4542(v-OS
6.flOS7tE-05
7. 10659E-05
7.4181^F;-05
9.S4fl94E-OS
8.1S1S4E-05
I».07?'i2e-05
H.20B42F.-05
B.23640F-05
7.93636F.-05
7.39577E-05
7.03412E-05 .
8.87949E-05
6.81673E-05
6.92904E-05
S.87694E-05
6.8441 IE-OS
6.90B16E-05
7.10104E-05
7.39251E-05
7.60B35F.-05
7.'524S1E-05
7.13062E-05
f .95032E-05
6.80767E-05
6.9?fl20E-OS
7.n6|fl5E-05
7. 1001RF-05
7.0091SE-05
6.B7479F-05
6.7949SE-05
6.79972F-05
6.B0616E-05
6.760I4E-05
6.706ROF-05
6.65191E-OS
6.65035F.-05
6.H?4fi«F.-05
7.190S9F-05
7.54J1 IE-OS
9.S0419E-OR
7.7R609F-05
7.61<>77F-05
7.Rll7'iF-05
7.7271BF.-05
7.5S073F-05
7.14186E-05
6.90300E-OS
6.79959F-OS
6.7I621E-05
6.72907E-OS
6.72551E-05
6.7B020F-05
6.R2485E-05
6.96H69E-OS
7.217S9F-05
7.78149E-05
7.32486F-OS
6.96261F-OS
S.74914E-05
6.777POF-OS
fi.R67l IP-OS
7.015SBE-05
7.0B234F-05
7.07410F-OS
6.90510F-05
6.77S51F-05
fi.7Q523lT-05
6.79R57E-05
R.74144F-05
6.77441F-05
6.60565F-05
A.62B54E-OS
6.76464F-05
7. 10357F-05
7. 39080E-05
O.R90R7E-OS
7.29757F-05
7.2740IF-05
7.503J 3E-05
7.35B04R-OS
7.77197F.-OS
6.98394E-05
6.79852F-05
6.76312E-05
6.6R787E-n<>
6.69744F-OS
6.69360F-05
6.79396E-05
6.80624F-05
6.919R5E-OS
7. 14930E-05
7.817B7F-05
7.27560F-05
6.83141F-05
6.67500F-05
6.6414SF.-05
6.77207E-05
6.906R9F-05
6.946<»flE-OS
fi.9091 3F-05
6. RSI 11F-05
6.68371F-05
6.777R9E-05
6.71037E-05
6.6671 7F-05
6.661 34f>0Ii
6.65307F-05
6.59009F.-05
6.67230E-05
6.H7362F-OS
7.09363E-05
7.9'51 POF-OS
6.99145E-05
7.0347BK-05
7.210fi'5F-05
7.11316E-05
7.06392F-05
6.896S2E-05
S.73443E-OS
6.69972E-05
6.63574E-05
6.6S166E-05
6.6422RF.-05
6.73538E-05
6.71S90E-05
6.B0045E-05
6.94097E-05
7 . 3RROOF-05
7.02450E-05
6.771R2E-05
6.S3173F-05
6.60073F.-05
6.69493E-05
6.H34t7F-05
6.R7448E-05
6.R4316E-05
6.7R3B4E-05
6.6T500F-05
6.70767F.-OS
6.66473F-OS
<>.63718F-05
6.67SR7F.-05
6.62249F.-05
fi.i>7002F,-nti
6.67f»73E-05
6.7SOS4E-05
S.93373F-n'5
7. ISROSF-O1;
-------
    TENNESSEE VADLEY AUTHORITY  -  KINGSTON  POWER  PI,ANT







                                    NOM--KO2




YEARLY MAXIMUM 24-HOUR CONCs   4.947BE-04   M«ECTION=360.   01RTAWCE=  1.3







               HIGHEST 24-HOUR  COMCENTRATION  AT  EACH RECEPTOR
I>AY = 315.
RANGE 0.7 KM
OIR
1
2
3
4
5
6
7
g
9
1 0
It
12
ro 13
i ' '
ro 14
•*" 15
\ i
IB
1 9
20
21
22
7 3
24
25
26
27
2B

30
31
32
33
34
35
36
7.8291E-04 ( 29B
3.3H51E-04 { 298
3.0B3BE-04 ( 293
3.360SE-04 ( 292
3.6039E-04 ( 340
?.7905f>04 ( 330
2.1512E-04 ( 330
2.4396E-04 ( 306
2.7004E-04 ( 295
7.69B3E-04 ( 295
2.50SOE-04 ( 295
2.3745F-04 ( 295
7.5971E-04 ( 307
7.BP12E-04 ( 307
3.3293E-04 ( 342
4.1 306E-04 ( 331
).5751E-04 ( 332
7.9304E-04 ( 33?
7.00R9E-04 ( 331
1 .77B1F.-04 ( 338
1 .Q743E-04 ( 152
2.6745E-04 ( 15?
7.3070E-04 ( 152
2.2077E-04
1 . B 94 1 £~0 4
1 .6547E — 0*
t .6357E-04
t .9B33E-04
1 .677 3E-04
1 .3000E-04
1 . 3917F-04

1 .35025-04
1 .5737E-04
1.91 52E-04
4.8554F.-04
302
30?
317
31 4
31 4
314
33
179
179
179
42
269
319
1.3 KM
1 2.1786E-04
) 2.5764E-04
) 7.2119E-04
) 2.4547E-04
) 2.7752E-04
) 2.0077E-04
) 1.5679E-04
) 1.8626E-0.4
) 1.6656E-04
) 1.7909E-04
) 2.6197E-04
) 2.2370F-04 (
) 2.0743F-04 (
) 2.1677F.-04 (
) 2.2690F.-04 (
) 3.I093E-04 {
) 2.B901E-04
) 2.1706E-04
) .6794E-04
j
j
j
)
J
j
,
j
1

)
j
1
)
.469BE-04
.2I75E-04

.9783E-04 (
.4990E-04 (
.0304E-04 (
.5306E-04 (
.5757F.-04
.BB31E-04
.5211C-04
.16B9E-04
.7994E-04
.7043E-04
.2207E-04
.S760E-04
.6610E-04
) 4.947BE-04
2.5 KM
315 )
326
276
292
340
340
306
327
32?
?no
780
2BO
307
307
347
331
359
332
360
360
30
15?
314
30?
307
317
314
314
314
33
33
179
48
?07
769
315

























.7530E-04 ( 7B4 )
.9003E-04 ( 326 1
.OI79E-04 ( 255 )
.9925F-04 ( 260
.9615E-04 ( 340
.61B7E-04 ( 187
.3733E-04 ( 174
.5348E-04 { 140
.31B9E-04 { 243
.6236F.-04 ( t
.001IE-04 { 2BO )
.7956E-04 ( 280 )
.6315E-04 { 287 )
.B537F.-04 (
!l947F.-04
.33«7E-04
.4776K-04
.I614E-04
. 159BE-04
.9634E-01
.6999E-0*
.6610E-04
. 9779E-04
.5001F-04
.2374E-04
.3651E-04
.527BF.-04
167 )
777 )
741 )
359 )
2R? )
752 }
193 )
30 )
30 )
317 )
302 )
307 )
317 )
350 )
312 )
.7466E-04 { 334 >
.272IE-04 ( 297 )
.2563E-04 ( 7B5 )
.4937E-05 ( 334 )
.70HOE-04 1 107 J
.6557IT-04 ( 16 1
.4B60F-04 ( 16 )
.3648E-04 ( 315 )
4.7 f. H
I.4182E-04 { 262 )
1.5178E-04 ( 37 )
2.6030F-04
2.0673E-04
2.2172E-04
.3339F-04
,4455F,-04
2.2141E-04
.7917E-04
.5297E-04
.49fi?F-04
.B759E-04
7.1 371E-04
7.0476F-04
1.7589F-04
3.B165E-04
762 )
260 »
139 )
73B )
174 )
140 )
174 )
1 )
280 )
?BO 1
2B7
167
167
241
7.7734E-04 ( 204
1.467BE-04 ( 252
1.2907F-04 ( 333 )
9.5SI9E-05 ( ,193 )
1.4660E-04 ( 30 )
I.5661E-04 ( 30 )
1.4950E-04 ?«7. )
1.4B57F-04 302 )
1.6779E-04 363 )
9.7706E-05 317 )
1.1664F-04 317 )
1.7I95E-04 312 )
1.1385E-04 { 125 )
9.B666E-05 ( 297 )
1.0411E-04 ( 2B5 1
B.5413F-05 ( 139 l
1.0877E-04 ( 107 )
I.3490E-04 ( 16 )
I.1759F-04 ( 31 I
1.9657E-04 ( 356 )
H. f IV"!
1.1034E-04 341 )
1.5828«>04 734 )
2.0027E-04 262 )
I.4643E-04 260 )
1.6032F.-04 139 )
1.2566E-04 238 )
1.1493E-04 174 )
2.1341E-04 140 )
1.1997E-04 ( 140 )
1.3609E-04 ( 140 )
1.249BE-04 ( 209 )
1.6272E-04 ( 280 )
1.7055E-04 ( 2«7 )
1.7879E-04 ( 192 )
1.6183E-04 ( 193 )
7.6B07F-04 { 741 )
2.0114E-04 704 )
1.7004E-04 752 )
1.1082E-04 333 )
B.7611E-05 119 )
I.1419E-04 29 )
1.5512E-04 2B2 )
1.B100E-04 2B2 )
1.2B94E-04 363 )
1.B405E-04 ( 208 )
9.287BE-05 ( 21 )
1.2792C-04 ( 349 )
9.6333E-05 { 25 )
1.0176E-04 349 )
8.9732E-05 304 )
1.0B65E-04 349 )
9.1407E-05 304 )
9.9003E-05 16 )
1.0990E-04 16 )
1.2460E-04 22 )
1.3546E-04 116 )
-------
    TENNESSEE  VALLEY AUTHORITY - KINGSTON  POWER PLANT







                                    NOM—SO?




YEARLY MAXIMUM 3-HOUR CONCs  1.B361O03  ntRECTIONs  0.  DISTANCE*  0.7 KM  DAY=10H.   HOUR=1500.
HIGHEST 3-HOUR CONCENTRATION AT EACH
RANGE 0.7
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
03 14
' 15
^» 16
01 J7
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36

.2344003
.3781E-03
.1625O03
.3B20E-03
.3194E-03
.1295003
.41186-04
.1 180E-03
.2479E-03
.1341003
.2057O03
1.0936E-03
9.9380O04
1.2591E-03
.0748E-03
.2523E-03
.1022E-03
.0730O03
.0340E-03
9.4638004
B.9537O04
9.9477E-04
9. 1929O04
8.7207E-04
7.6*54004
7.3440O04
6.7810E-04
9.0114E-04
6.7810E-04
5.8495E-04
6.0286E-04
6.9197E-04
6.2225E-04
7.9621E-04
9.6225E-04
1.8361E-03
KM

( 321 ) 8
{ 293
( 255
( 292
( 325
f 320
( 253
( 295
( 295
( 295
( 301
( 301
( 291
( 290
{ 309
( 331
( 190
( 353
9
8
8
8
7
6
8
6
7
7
6
6
8
7
7
9
7
( 338 ) 6
( 338 ) 5
( 333 ) 7
( 152 ) 7
( 343 ) 7
( 302 } 8
( 302 ) 7
( 317 ) 6
( 314 ) 5
( 314 1 8
( 314 ) 6
( 33 ) 6
r 179 ) 5
( 179 ) 4
( 179 ) 5
{ 48 ) 7
f 269 ) 7
( 308 ) 1
1 .3 KM

.2922E-04 t
.2909E-04 (
.5545E-04 {
.5826E-04 (
.37R5O04 (
.4380004 (
.27P5E-04
.5458004 ,
.9207E-04
.1309O04
.8660E-04
.8376E-04 {
.7779004 (
.4348E-04 (
.0730E-04 (
.5841004 f
.0898E-04 (
.7051E-04 (
.6555E-04 (
.9686E-04 (
.9B60E-04 (
.7470E-04 (
.8399E-04
.6153E-04
.1459O04
.1439E-04
.
-------
                                                       MAXIMUM DAILY CONCrNTRATTONS
                                           DAY    24-HOUR COMCFMTRATtON    DIRPCTTON     DISTANCE

                                           315          4.947BC-04             36           1.33
                                           319          4.D554E-04             16           0.71
                                           30B          4.4B35E-04             16           0.71
                                           356          4.I4R5E-04             16           1.33
                                           331          4.1306E-04             16           0.71
                                           24t          3.PI65C-04             t6           4.65
                                           2B4          3.7B13E-04             16           0.71
                                           355          3.7ft57f:-04             16           1.31
                                           340          3.6039E-04              5           0.71
                                           312          3.58JOE-04             16           0.71
                                           312          3.5751E-04             17           0.71
                                           711          1.5157E-04             16           0.71
                                           354          3.4500E-04             16           0.71
                                           2|8          3.4230E-04             16           0.71
                                           798          J.3851E-04              2           0.71
                                           292          3.3605T-04              4           0.71
                                             t7          3.25J2E-04             36           0.71
                                           321          3.24596-04             36           0.71
                                           185          3.2437E-04             36           O.ll
oo
ro
-------
TENNESSEE VAU.EY AUTHORITY - KINGSTON POWER PLANT
SOLVENT REFINED COAL STUDY

KINGSTON PLANT-MAXIMUM POWER LORD CONDITIONS-COAL TSP

STACK «  1--KINGSTON STACKStl-4, MAX.LOAD COAL TSP
STACK «  2--KIHGSTON STACKSi5-9, MAX.LOAD COAL TSP
(   DO
    I
   ro
STACK STRATEGY SO?
TYPE
1 MOM
t MOM
RANGE(KM)= 0.71 1.
SEASONAL VARIATIONS RY
I 1.00 t.
JYR=75 TMO= 6 JDAY3168
AWSa 2.9
TEHPs 292.
AFVs 305.
AFVRs 305.
t.? 1.3 2.5
292. 291. 291
*95. 334. 323
795. 334. 323
EMISSION RATE
(CMS/SEC)
768.00
745.00
33 2.4<> 4.65
CASE 1
00 1.00 1.00
0.«» 1.7
. 290. 290.
. 26. 238.
. 26. 238.
1.5
290.
333.
333.
PART EMISSION
(GMS/SEC1
0.00
0.00
8.69
1.00 1.00
1.1 O.fl 1.6
290. 292. 294
4. 317. 358
4. 317. 358
RATE
1 .00
3.0
. 296.
. 356.
. 356.
HEIGHT
(METFRS)
76.20
91.44
1.00
1 1
4.0 4.4
29R. 300.
350. 2.
350. ?.
DIAMETER
(METERS)
4.27
5.03
1.00 1.
5.9 7.0
301. 302.
0. 9.
0. 9.
EXIT VELOCITY
(M/SEC)
14.26
13.66
00 J.OO 1.00
6.9 7.1 7.3
302. 303. 303.
30. 29. 30.
30. 29. 30.
TEMP
(DEG.K)
427.40
421.90
7.2 6.6
303. 302.
27. 25.
27. 25.
VOLUMETRIC FLOW
CM**3/SEC)
204.20
271.44
5.6 5.9 5.9
300. 299. 298.
11. 26. 29.
11. 26. 29.
4.7
296
51
51
HLHls 2134. 2134.  2134. 2134. 2134. 2134. 2134.  205H.  1982.  1906.  1830.  1754.
      167H. 1602.  1524. 1524. 1524. 1524. 1524.  1524.  1524.  1524.  1524.  1524.
JYRs75 IMS:
AHSs 2.6
TEMPs 273.
AFVs 208.
AFVRs 20ft.
=12 JOAYs336
2.2 1.6
272. 271.
239. 259.
239. 259.
1.3 1.0
271. 270.
239. 129.
219. 129.
1.0 0.9
270. 270.
143. 16.
143. 16.
0.5 0.9
269. 270.
5. 59.
5. 59.
1 1
272. 275.
74. 2.
74. 2.
1 1
278. 281.
58. 2.
58. 2.
1 I
282. 284.
1. 8.
1. B.

284. 284.
39. 38.
39. 38.

283. 281.
20. 15.
20. 15.

279. 277.
54. 60.
54. 60.

277. 275. 275
46. S3. 83
46. 53. 83
HLH1*   305.   305.   305.   305.   305.   305.   305.   381.   457.   533.   609.   6B5.
        761.   837.   914.   914.   914.   914.   914.   914.   914.   914.   914.   914.
JYR=76  1*0*  1  JDAY=   4
ISTABs   33433444311
AHSs  5.0  7.2  7.6   7.3   8.7   7.9   7.7   6.4   6.1   5.4   6.2
TFMP= 272. 271.  270.  270.  268.  267.  266.  266.  266.  266.  267.
AFVs  154. 162.  152.  143.  162.  150.  165.  168.  168.  169.  160.
ftFVR= 154. 162.  152.  Ml.  162.  150.  165.  168.  168.  169.  160.
HLHls   400.   400.   400.  400.   400.   400.   400.   438.   476.
        628.   666.   710.  710.   710.   710.   710.   710.   7|0.
                                                                        1111134444444
                                                                     7.5  6.2   5.7   6.3   6.4   5.9  6.4  6.7  8.1  8.6  7.1  6.2  6.0
                                                                     267. 26B.  769.  270.  7.70.  270. 269. 268. 267. 267. 266. 266. 265.
                                                                     171. 167.  162.  176.  178.  163. 163. 162. 162. 161. 163. 178. 179.
                                                                     171. 167.  167.'176.  17H.  163. 163. 162. 162. 161. 163. 178. 179.
                                                                     514.  552.   590.
                                                                     710.  710.   710.
JYR=76  I'in=
               JDAY=   8
ISTABs   4433333     3371
AHS=  7.2   8.0  10.6  11.0  10.3  11.2  10.7   R.2   9.6   9.1  9.2
TEMPs 776.  775.  774.  272.  771.  770.  769.  768.  7SP.  767.  767.
AFV=  147.  142.  153.  I5fl.  167.  160.  164.  161.  163.  161.  161.
AFVPs 147.  142.  153.  15B.  167.  160.  164.  161.  163.  163.  161.
        HLH1=  k>51.  fl"Sl.
                          P51.   « S ? .
                                                  B6H.   RBI.
                                                                        1111123343444
                                                                     9.0   6.6   6.9   6.8   7.5   7.2  7.7  5.R  5.9  5.B  6.8  6.1  5.1
                                                                     768.  26?.  767.  261.  266.  266. 765. 264. 264. 264. 263. 762. 262.
                                                                     161.  165.  167.  164.  174.  164. 150. 163. 164. 151. 150. 150. 150.
                                                                     161.  165.  167.  164.  17*.  164. 150. 163. 164. 151. 150. 150. !50.
                                                                     flOR.   911.   97R.
-------
   CO
   I
   ro
'   00
JYR=76 110:
ISTABs 3
TGMPs 271.
AFVs 161.
AFVRs 164.
Hl.H|s 400
562
JYRs76 110
ISTARs 3
AHSs 6.4
TEMPs 275.
AFVs 170.
AFVRs 170.
H!,H1 = 457
841
= 1 JOAYs
3 3
8.7 10.6
272. 772
172. 174
172. 174
. 400.
. 5R9.
s 1 JOAY=
3 3
5.2 6.4
275. 275
162. 163
162. 163
457.
. 905.
17
1
. 271
. 171
. 171
400.
617.
27
3
7.2
. 274
. 165
. 165
457.
975.
3
. 770.
. 164.
. 164.
400.
617.

3
7.6
. 274.
. 164.
. 184.
457.
975.
3 3
8.9 10.2
270. 269.
1R3. 17B.
183. 178.
400. 400
617. 617

3
8.0
274.
165.
165.
457.
975.

3
8.1
274.
166.
166.
457
975
1 3 1
8.9 7.7 9.2
767. 767. 767
168. 162. 161
168. 162. 161
400. 427.
. 617. 617.

3
R.9
274.
164.
164.
. 457
. 975

1 3
8.R 8.4
273. 273
166. 165
166. 165
. 521.
. 975.
11111
10.2 10.6 10.5 10.1 10.2
. 267. 76R. 268. 768. 768.
. 174. 171. 166. 167. 161.
. 174. 171. 166. 167. 163.
454. 481. 508. 515.
617. 617. 617. 617.

3
8.1
. 273.
. 167.
. 167.
585.
975.

1
7.5
273.
169.
649.
975.

8.2
273.
160.
160.
713
975
i i
i i
7.5 9.1
271. 273.
164. 157.
164. 157.
. 777.
. 975.
9.1
26R.
161 .
161.

6.7
273.
163.
163.


8.1
267.
162.
162.

8.0
272.
156.
156.


4
fl.l
267.
166.
166.
3
7.2
777.
176.
176.


4
6.1
267.
168.
168.
4
5.7
272.
176.
176.


4
5.7
267.
168.
168.
4
3.9
272.
170.
170.


4
6.1
266.
170.
170.
4
2.8
271.
168.
168.


4
5.5
766.
171.
171.
4
2.3
271.
165.
165.


4
4.6
265.
185.
185.
4
4.2
270.
165.
165.


4
5.7
265.
176.
176.
4
6.3
270.
170.
170.


JYR=76 IMOs 3 JOAYs 70
ISTABs  44444444333
AHSs  4.1  4.3  4.1  3.5   3.6   4.4   3.3  2.7  1.4  0.9   1.7
TEMPs 276. 276. 275. 275.  274.  273.  273. 273. 274. 276.  278.
AFVs  155. 160. 160. 160.  155.  155.  155. t55. 130.   15.   16.
AFVP= 155. 160. 160. 160.  155.  155.  155. 155. 130.   15.   16.
         „     0     0      0.     0.    0.    0.  266.   532.   79«.  1064.  1310.
      159&! 1862.  2134. 2134.  2134.  2134. 2114. 2134. 2134.  2114.  2134.  2134.
  1
2.4

 13,
 13.
                                                                            1111134444
                                                                          2.6  2.6  2.5  4.0  4.4  3.8   3.9   3*8   1.2   1.0
                                                                          283. 284. 285. 287. 287. 287.  286»  285.  283.  282.
                                                                                     13.   8.  17.   23.   41.   26.   55.   40.
                                                                            3.
                                                                            3.
                                                                         7.
                                                                         7.
11.    R.   17.  23.  41.  26.  55.  40.
  4
0.5
280.
 45.
 45.
        JYR=76  110 =  3  JOAY= 78
        ISTABs   4     4    4    4
        AHSs   1.5  2.7  3.1  2.5
        TEMPs  271. 272.  271. 271,
        AFVs   268.   11.   74.  77,
        AFVRs  268.   11.   74.  77,
        HLHls     0.     0.    0.    •*.    ».    --     -_---_
              1368.  1596. 187.9. 1829. 1829. 1829.  1829.  1829. 1829. 1879.  1829.  1879.
                                               4
                                             0.7
                                             279.
                                              50.
                                              50.
4
7.0
271.
53.
51.
0.
4
2.7
271.
44.
44.
0.
4 4 3 1 » 1 1 1 *
271. 271. 273» 278. 282. 285. 288. 289. 291.
53. 62. 53, 44. 48. 57. 43. 40. 43.
53. 62. 53. 44. 48. 52. 43. 40. 43.
0. 0. 228. 456. 684. 912. 1140.
2
291.
21.
21.
3 .
291.
27.
27.
3
290.
21.
23.
4
289.
30.
30.
4
25.
25.
4
35.
35.
4
6.8
287.
42.
42.
4
5.1
286.
42.
42.
4
4.8
284
33
33
JYRs76 110
ISTABs 4
AHSs 2.1
TEMPs 279.
AFVs 61.
AFVns 61.
HLHls 0
s 3 JDAY= 84
444
3.5 3.9 4.1
278. 277. 776.
49. 51. 51.
49. 51. 51.
0. 0.
4 4
4.6 3.5
776. 275.
48. 52.
48. 52.
0. 0.
4
3.7
275.
53.
51.
0
4 1 1 1 1 1 1 1 « 3
1.8 1.6 7.3 3.7 6.4 6.5 7.0 7.7 7.1 7.4
275. 278* 284. 287. 299. 291. 291. 293. 293. 293.
52. 47. 8. 4. 71. 16. 77. 74. 34. 15.
57. 47. 8. 4. 21. 16. 27. 24. 34. 35.
0. 1249. 2498. 1747. 49<>6. 6745.
1
B.5
793.
15.
15.
4
6.5
291.
37.
37.
4
6.9
791.
32.
37.
4
5.3
291.
23.
23.
4
5.5
789.
20.
20.
4
6.7
286.
53.
51.
4
5.1
285.
50.
50.
                  .      .     .      .     .     .     .     .
              7494.  8743. 9999. 9999. 9999. 9999. 9999. 9999. 99<»9. 9999.  9999.  9999.
JYR=76 110= 4 JOAYs 94
ISTABs  44    4     4
AHSs  l.R  1.1
TEMPs 7B1. 2RO
AFV=   52.  15
t run-  e 1   1C   01    *if.
                                     444441
                        0.9   1.6   1.6   1.6  0.6  0.4  0.9  1.5  7.7
                        779.  27R.  777.  277. 77ft. 777. 280. 7R4.
                         «1.  56.   58.  64-.  •>«. 726. 316.   4.
                                                      IIS.
                                                             4.
t t
7 7.7
9. 297.
7 7
7. 7.
i
4.7
795.
3.
1.
1
5. 1
?0fi.
S.
S.
1
5.6

1 1 .
11.
1
5.1

49.
49.
1
5.6
79«.
70.
20.
1
4.9
79R.
77.
27.
4
5.1
797.
28.
2".
4
5.9
7.95.
54.
54.
4
6.6
793.
62.
62.
4
5.9
292.
46.
46.
4 4
7.6 5.9
291. 290.
52. 51.
52. 51.
-------
JYR=76 111
ISTABs 4
TEMPs 279.
AFVs IB6.
AFVPs 186.
- A Jl
4
277.
192.
1<>2.
} A Ys 1 1
4
276.
219.
719.
11
4
276.
221.
279.
4
275.
231.
231.
4
774.
243.
243.
4
274.
241.
243.
4
275.
244.
244.
2
279.
744.
244.
1
2H3.
754.
254.
1
286.
297.
292.
1 1
7«7. 289.
5. 3.
5. 3.
                                                                           1     1     t     1    3444
                                                                        7.8   3.0   3.3   3.4  3.6  3.7  3.7  3.8
                                                                        290.  291.  793.  293. 293. 293. 291. 288.
                                                                           7.    5.    8.    4.  10.  36.  43.  48.
                                                                           7.    5.    B.    4.  10.  36.  43.  48.
    HLHls
              0.
                    0.
                          0.
                           0.
                                      0.
                                            0.
O.  1B6.  372.  558.  744.   93O.
           ll!6.  1302.  149J. 1493. 1491. 1493. 1493.  1493.  1493.  1491.  14<»3.  1493.
                                                                                                                        444
                                                                                                                      3.8  3.0  4.1
                                                                                                                      286. 284. 2B3.
                                                                                                                       70.  71.   55.
                                                                                                                       70.  71.   55.
    JYR = 76  I MC1= 4
    ISTAHs   444444
    AUSs   2.6   1.81.5  1.9  1.3  1.3
    TEHP=  281.  283.  2B2. 28O. 780. 280.
    AFV=   124.  176.  214. 705.  60.  55.
    AFVRs  174.  176.  714. 205.  60.  55.
     HLHls
                    0.
                          0.
                           0.
                                      0.
                                       4242
                                     0.7   1.2  0.8  1.1  2.
                                     280.  281.  784. 288. 29
                                      43.  220.  211. J20.
                                      43.  770.  211. 370.
1 1
2. 295.
7. 7.
7. 7.
1
796.
2.
2.
1
297.
8.
9.
2
298.
10.
10.
1
299.
1 1 .
11.
1
299.
8.
8.
2
298.
49.
49.

297.
58.
58.

295.
56.
56.

294.
72.
72.

293.
68.
68.

292. 291
74. 54
74. 54
                                            0.
0.  266.  532.   7<»fl.  1064.  1330.
               .  1062. 2134. 2134. 2134. 2134. 2134.  2134.  2134.  213«.  2134. 2134.
DO
I
ro
•£>
     JYP
                 4 JD«Y=107

AWS = 3.4
T(CMP= 29«.
AFVs 53.
AFVR = 58.

1.6
287.
62.
62.

286.
54.
54.

286. 286.
40. 11.
40. 11.

285. 285.
312. 2.
332. 2.

2B6. 289.
87. 80.
87. 80.
1 1
293. 295.
64. 54.
64. 54.
1
237.
16.
16.
1 1
298. 298.
46. 11.
46. 11.
1
799.
12.
12.
1 3
299. 298.
14. 32.
14. 32.
3
2«» a.
53.
S3.
4 4
297. 295.
SO. 43.
60. 43.
4 4
293. 792.
40. 49.
40. 49.
4 4
291. 289
35. 32
35. 32
HLH1 =  244.  244.   244.   244.   244.   244.   244.  491.  738.  985.  1237.  1479.
      1726. 1973. 2225.  2225.  2225.  2275.  7225. 2225. 2225. 2225.  2225.  7775.
JYRs76 IVOs 4 JD»Y=117
ISTABs 33333
AWSs 5.6 6.3 4.3 4.8 5.1
T"!«Ps 2S2. 281. 281. 280. 280.
AFVs 103. 137. 124. 137. 146.
AFVRs 103. 137. 124. 137. 146.
HLHls 457. 457. 4-57. 457.
1255. 1388. 1524. 1524.
JYRs76 IMHs 4 JDAYsllS
TEMPs 277. 277. 276. 276. 275.
AFV= 22S. 193. 188. 202. 190.
AFVRs 226. 193. 188. 202. 190.

3
5.2
279.
146.
146.
457.
1524.

275.
173.
173.

3
4.8
270.
160.
160.
457
1524
4
275.
180.
180.

3 3
5.1 4.2
279. 279
159. 164
159. 164
. 457.

2 2
4.3 3.7
. 279. 279.
. 166. 167.
. 166. 167.
590. 723.
. 1574. 1524. 1524.
3 \
277. 2"»0
174. 177
174. 172
t t
. 282. 284.
. 199. 187.
. 1Q9. 182.

t
4.2
280.
170.
170.
856.
1574.
t
286.
158.
158.

• 1
5.7
281.
166.
166.
989
1524
t
287.
166.
166.

1 1
6.4 5.9
282. 783.
162. 169.
162. 169.
. 1122.
. 1524.
t t
288. 289.
177. 184.
172. 184.

4.6
284.
167.
167.


1
290.
165.
165.

5.1
285.
167.
167.


1
290.
178.
178.

5.9
285.
162.
162.



289.
175.
175.

4.3
284.
178.
178.



288.
179.
179.

4.2
283.
212.
212.



287.
170.
170.

4.5
282.
214.
214.



286.
182.
182.

1.9
280.
237.
237.



285.
162.
182.

1.7
279.
206.
206.



283.
186.
186.

2.3
278
213
213



283
IBS
185
     HLHls   914.   014.  914.  914.  914.
           1142.  1180. 1219. 1719. 121<».
                                      914.   914.
                                     1219.  1219. 1219. 1210. 1219.  1219.  1219.
JY8s76
ISTABs
AHS*
TEMP«
AFVs
AFVRs
HLHl =
4
2.0
280.
42.
42.
0
s 5
4
1.2
279
67
67
•
4
1.2
. 279.
. 40.
. 40.
0.
Z6
4
1.5
278.
37.
37.
0.
4
1.1
778.
49.
49.
0.
4
0.9
27«.
125.
125.
o.
4
0.4
778.
177.
177.
0,
4
0.9
280.
76.
76.
2
t .1
784.
It.
It.
0. 1
1
2.9
2R7.
43.
43.
5ft.
1
3.7
55.
55.
312.
1
4.»
707.
2H .
78.
1
4.3
794.
55.
55.
1
5.7
795.
55.
55.
1
5.1
796.
58.
58.
1
4.6
717.
59.
59.
1
5.3
797.
57.
57.
                                                                                                    3444444
                                                                                                  4.8  5.6  6.3  6.4  5.8   4.1   4.4
                                                                                                  296. 796. 794. 793. 290.  289.  290.
                                                                                                   55.  51.  53.  45.  12.   11.   18.
                                                                                                   55.  51.  53.  45.  12.   It.   18.
-------
                                                                                                      SAVO  *0£   NO  03SVU  UV3A
     *UI
                   •ot
'Ul  *UI  "Oil  "191  'Ot
•06Z  "162
 B'£   £•£
           ft
                         'It
                         •II
'162
 8'2
 fr
                              'It
                          S'2  0'£
•SSB '
•01
•01
'662
6"£
I
•L
• L
•bb£
S'Z
I
'I
•I
*86£
b'Z
»
'»89
'£
•£
'162
L'l
\
•EIS
'£
'£
•96£
0*£
I
                                                                  £'£
                                                                  I
                                         *ui  *o
                                       •£   '£
                                       •£   '(.
                               8*0
                               £
                                                                 '0     *0
                                                              Ul  M6I  'It,
                                                              UI  M6I  *16
                                                                                 b'O  S'O
                                                            i'O
                                                            »
                                                   •o
                                                  *6S
                                                  *6S
                                                                                                9M
                                                                                                                   *>8
                                               ' 0    * 0
                                             'HI '6B  *98
                                             'HI 'bB  '98
                                                       '982
                                                        £*£  S'Z
                                                        v    v  ••
                                                         S = 0kvl \
                                                                                                                          IH1H
                                                                                                                          ttAJV


S9 '£01
S9 *ZOI
n 41 9 * C Q 7
O O v O D C>



'6t 'OS
*6i "OS
'062 '262



•s* *o>
*2» *0>
*S62 'tbd



' £ 1 '01 ' » I
•tl '01 '»!


•>2Sl
'OSb
'BSE '£
•8SE '£
'9b£ *So£
I 1
*>£Sl
'091
'6
•6

1
*»£SI
'(US
•I
•t
•£6£
I

'08
•o
•o

1
SI ' tl
£ 'Ot
't
•L
'68£
£'l
2

il '(
* /
'£
b'O
£

)
'Bl£
'812
1*0
*
t-C.il
0
'!£
'082
£•1
fr
'»£SI *>Z
*o '0
*Sl '901
'SI '901
*OB£ *OU£
£'l 6*0
» *
                                                                                                            •0££l '
                                                                                                      •0    '0
                                                                                                    'b8I *EOZ 'frbl
                                                                                                    '681 'EOZ '»6l
                                                                                                    •162 "Z8Z '£62
                                                                                                     b'l  b'l  l'£
                                                                                                     >    »    »
                                                                                                                S =
                                                                                          'IH1H
                                                                                                                                 CD
                                                                                                                                 in
                                                                                                                                 CVJ

                                                                                                                                 CO
                                                                                                                    *90l
                                                                                                                        =U«1SI
•SEI  *tM  *8EI  *££!  '2SI *UI 'Ul
•SEl  'IU  'BEI  'EEI  '2SI 'UI'UI
'SB2  '982  '882  *062  '262 '£62
                6'>   2'»  f>
8'2  I'tr  t'V
S'£
£
                                    'Sir

                                    •»6£
                                    B'l
                                    1
                     *»b2
                     L't
                     I
•9
'9
'lb£
 L'l
 I
                                                  •i
                                                  •£b2
                                                   £•£
/.2SI
08i
•s
•s

 i*£
 I
                             •S6S
                             Ml

                             *062
                              i'l
                                                                   *t£S|
•S8I  *0
     •o
     •LUC
 fi   f i
 l     i
                                                             'IV£  'S9I
                                                             '£V£  *S9I  *B»I  *S9I
                                                             '182  'Bi2  '8i2  'bi2  '6t2
B'O
S'O
£
B'2
V
1*2
»
9*1
»
        •SEEl 'OSH
  •0»   *0>   *0»
•OBI  'OH *SH 'ill
•OBI  'o»i *sn 'ill
      faiZ 'Ott£ *I8Z
      »*£  b'l  fr'2
      >    *    »
£'£
V
                                                                                                                         sdAJV
                                             = SMV
-------
        TKNNESSEE  VALLEY  AUTHORITY  -  KINGSTON  POWFR  PLANT

                                       NOM--KO?
           MAXIMUM MFAN CONC=  2.1706E-04   DIRECTIONS 36   DISTANCES  0.7 KM
                       ANNUAL MEAN CONCENTRATION  AT FACH RECEPTOR
         RANGE     0.7  KM         1.3 KM         7.5 KM         4.7 KM
                                                                           8.7  KM
DO
ro
cn
OIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 It
 12
 13
 14
 15
 16
 17
 18
 19
 20
 21
 22
 23
 24
 75
 26
 27
 23
 29
 30
 31
 32
 33
 34
 35
 36
.37U4E-04
.20605E-04
.097R5E-04
.08740E-04
.02485E-04
B.66185E-05
7.24074E-05
6.645*8E-05
K.51602E-05
6.SOM8E-05
6.52533E-05
6.67739E-OS
7. 3f>608F.-OS
".52267K-05
1.36431E-04
1 .ft71fi5K-04
1 .17fiOOf:-04
1 .a6855K-04
7.95947F.-05
6.8ft3<»5E-05
6.56427E-OS
f-.5076<)F-OS
6.50059E-05
6.50015F.-05
fi.<>0054E-05
6.50790F.-05
6.51318F-05
6.53340E-05
6.54555E-05
6.53355FX15
6.515S4E-05
6.S29JOE-05
ft.65916F.-05
7.16355E-05
8.59466E-05
2. 17062E-04
I.745IBE-04
t .05708E-04
9.4Q367E-05
9.4029SE-05
9.06647E-05
7.914S8E-05
6.93737E-05 •
6.57075E-05
6.50604F-05
6.501 14E-05
6.50917E-05
6.57396E-05
6.B9664E-05
R.02514E-05
1.061S3E-04
1.29791F-04
1.14670E-04
8.79020F-05
7.2R156E-05
6.71465E-05
6.54125R-05
6.505fi|F.-05
6.500fi3E-05
6.50299E-05
6.50749F-05
6.50702E-05
6.5732fiE-OS
6.S653SF-05
6.59749F.-05
6.56S40E-05
6.57428F-05
6.51<>38E-n5
6.60764F-05
7.00429F-05
B.735S4E-05
2.0007"F-04
1.07815E-04
•).29270E-05
B.44659F-05
8.27300E-05
R.051 38F-05
7. 37468F-05
fi.7772'5F-05
6.S277JE-05
6.50198E-05
fi.52939F-05
fi.50323E-05
6.53906E-05
6.7768RE-05
7.23745F-05
H.84393E-05
1 .20856F-04
9.981426-05
7.R5412F-05
«.9591PF-05
6.fi4604E-0-5
6.51644E-05
h.SOSfiSF-OS
6.501 3JE-05
6.52570F-05
6.57361C-05
6.57954E-05
6.52805E-05
6.58656E-05
6.62771E-05
6.58657F-05
6.57732F.-05
6.50980F-05
6.55159F-05
fi.SOOSlE-O'i
7.63280F-05
t ,600fl8F-n4
B.718S1E-05
8.16140F.-05
7.6B572E-05
7.38340F.-05
7.47931E-05
fi.90152F.-05
6.59945E-05
6.5142IF-05
6.5006?F.-05
6.61347F-05
6.50177F-05
6.61197F-05
6.872fiBF-05
7.1 1790E-05
8.01314E-05
1 .1B657F-04
9.15ft7<»E-05
7.7367RE-05
6.7256BE-05
6.57260E-05
6.5B537F-05
6.50149F-05
6.50067F.-05
6.52591F-05
f .59060F.-05
6.52761E-05
6.51542E-05
6.5546SF-05
6.5B444F-05
6.5546SE-05
6.514PPE-05
f- .50313E-05
6.51611E-05
6.6191 IF-05
6.999B7F.-OS
1 . 1 71BOF-04
7.62354F.-05
7.37633F-05
7.30040E-05
7.00051E-05
7.21635F-05
1.70363E-05
6.54361E-05
S.56010E-05
6.50014E-05
6.61512F-05
6.50055E-05
6.65140E-05
6.85831E-05
7.06734F.-05
7.47945E-05
1 .01639E-04
8.3093KF-05
6.BBB37E-05
6.61397E-05
6.53533E-05
6.61741E-05
6.50049F-05
6.50016F-05
6.51263E-05
6.55603E-05
6.5t 323E-05
6.50697E-05
6.57942F-05
6.547R7E-05
6.57942F-05
1.506B4E-05
6.500Q9F-05
R.50530E-05
6.5443BF-05
6.73141F-05
B.B1652E-05
-------
TENNESSEE VRbbEY AUTHORITY - KINGSTON POWER PLANT






                               NOM--S02




   MAXIMUM 24-HOUR CONC*  4.4502F-04  DIRECTION 360.   DISTAIC**  0.1 KM
HIGHEST
RANGE 0.7 KM
OIR
1 2.7416E-04 ( 29B )
2 3.30J6E-04 ( 298 )
3 2.9129E-04 ( 299 )
4 3.1411E-04 ( 292 )
5 3.7346E-04 { 340 )
6 2.8542E-04 ( 340 )
7 1.497<»E-04 ( 340 )
B 8.2828F.-05 ( 340
9 6.7030F>05 ( 340
; 10 6.5407F.-05 < 342
11 6.8931E-05 ( 342
12 9.6952E-05 ( 342
13 1.4085E-04 ( 342
a, 14 2.4043E-04 { 342
« 15 3.5346F.-04 ( 342
£1 1* 4.2553E-04 ( 222
1^0 17 3.-SBB6E-04 ( 332
18 2.9353F--04 t 332
19 1.8625E-04 ( 332
20 1.0869E-04 ( 332
71 7.4934F.-0-> ( 332
22 6.6384E-05 ( 332
23 
-------
    TENNESSEE VALLEY AUTHORITY - KINGSTON POWER  PLANT





                                   NOH--SO?



YEARLY MAXIMUM 3-HOUR CONC=  1.8633E-03  DIRECTIONS  0.   DISTANCES  0.7 KM  IUY=10R.   HOUR=I500.





               HIGHEST I-HOUR CONCENTRATION  AT  EACH  RECEPTOR
RANGE 0.7
DIR
1
2
3
4
5
6
7
8
9
10
1 1
1?
13
03 1*
' 15
ro .
01 16
«*> 17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
3)
34
35
36

.2146E-03
.2422E-03
.12I4E-03
.1233E-01
.3023E-03
.7227E-04
.2269E-04
.4082E-04
. 1642E-05
6.8149E-05
9.4198E-05
2.1 707E-04
5.2664E-04
9.28J3E-04
1.1205E-03
1 .1184E-01
1 .1778E-03
9.1895E-04
S.2099E-04
2.39S6E-04
I . 1 303E-04
7.281«E-05
6.5746E-05
6.5204E-05
6.5870E-05
6.9518E-05
8.60«4E-05
1.1843C-04
1 .37B7E-04
1. 1843E-04
8.606hE-05
8.9552E-05
1 .9575E-04
4.7122E-04
8.4793E-0*
1 .8611E-01
KM

( 321 )
( 298 )
( 299 1
( 292 }
{ 140 )
( 340
( 340
( 340
( 340
342
142
142
342
342
342 )
HI )
218 )
31? )
312 )
332 1
( 332 )
t 132 >
( 332 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 )
( 315 1
( 315 )
( 315 )
{ 17 )
( 17 )
( 17 )
( 17 )
( 308 )
1.3 KM 2.5 KM s-~ 4.7 KM 8.7 KM

B.2412E-04 ( 321 ) 4.9045C-04 ( 315 ) 1.52«OE-04 155 ) 3.2654E-04 355
6.5498E-04 298 ) 4.4739E-04 ( 3O8 ) 5.7381E-04 292 ) 4.3431E-04 292
7.1P46E-04 298 ) 5.0157E-04 { 298 > 4.019BE-04 298 ) 2.9908E-04 IBS
7.5916E-04 292 ) 4.8792E-04 { 292 ) 2.90B2E-04 340 ) 2.3482E-04 284
B.1095E-04 340 ) 5.2651E-04 ( 340 ) 4.2475E-04 140 ) 3.0764E-04 340
5.9202E-04 140 ) 3.0935E-04 f 321 1 2.5854E-04 { 121 ) 1.7904E-04 121
2.5087E-04 340 ) 1.4701E-04 ( 321 ) 1.1992E-04 ( 321 ) 9.0855E-05 ( 321 )
9.7720E-05, ( 340 1 7.M92E-05 ( 340 1 7.6384E-05 ( 121 ) 1.5741E-04 ( 321 )
6.7B75E-05 ( 340 ) 6.5689E-05 { 340 ) 6.5403E-05 ( 331 ) 6.5059E-05 ( 331 )
6.5951E-05 { 142 ) 1.1171E-04 ( 331 ) 2.4649E-04 ( 111 2.4917E-04 311 )
7.R104E-05 342 ) fi 4 83 1 6E-05 ( 342 ) 6.6218E-05 ( 342 6.5454E-05 342 )
1.3494E-04 342 ) 8.9940E-OS ( 342 ) 1.R141E-04 { 111 2.6771E-04 331 )
2.94A4E-04 342 ) 1.58K5E-04 ( 342 ) 4.0877E-04 ( 131 4.3410E-04 331 )
5.21R8F-04 342 ) 2.5557E-04 { 342 ) 3.8416E-04 ( 331 4.4396E-04 131 )
6.6674E-04 241 ) 4.2969E-04 f 222 ) 4.774IE-04 ( 227 3.0221E-04 222 )
7.8551E-04 342 ) 5.9351E-04 ( 222 ) 6.99B1E-04 ( 24| 5.8110E-04 241 )
7.5311E-04 312 ) 5.2620E-04 ( 231 ) 6.9268E-04 { 231 5.2161E-04 342 )
5.3661E-04 332 ) 3.1788E-04 ( 332 ) 2.7482E-04 ( 231 2.1433E-04 231 )
1.8401E-04 332 ) 1.0162E-04 ( 332 ) 1.9O02E-04 f 332 1.3401E-04 332 )
2.2997E-04 312 ) 1.9652E-04 ( 332 ) 1.1199F-04 ( 132 1.0135E-04 332 )
1.1264E-04 332 ) 1.0196E-0* f 332 ) 1.7948E-04 ( 311 2.3535E-04 111 )
7.24S1E-05 312 ) 7.0021E-05 ( 332 ) 6.6916E-05 ( 332 6.5676E-05 132 )
6.5615E-05 112 ) 6.6763E-05 ( 315 ) 6.5975E-05 ( 115 6.5232E-05 315 )
6.9759E-05 115 ) 1.0610E-04 ( 315 ) 1.0649E-04 ( 115 ) 8.5207E-05 ( 115 )
7.6989F-05 315 ) 1.8277E-04 ( 315 ) 2.0995E-04 f 315 ) 1.5464E-04 ( 315 )
7.6225E-05 115 ) 1.1726E-04 ( 315 ) 1.0917E-04 ( 315 ) 8.6162E-05 ( 315 )
1.0221E-04 315 ) 1.0988E-04 ( 315 ) 8.9667F>05 ( 115 ) 7.6147E-05 ( 115 )
1.6056F-04 115 ) 2.0150E-04 ( 315 ) 1.5243E-04 f 115 ) 1.1206E-04 ( 315 )
2.1298E-04 115 ) 2.6931E-04 f 115 ) 2.0011E-04 ( 315 ) 1.4160E-04 ( 315 )
1.6955E-04 315 ) 2.0349E-04 315 ) 1.5243E-04 { 115 1 1.1206E-04 ( 315 )
1.0187E-04 US ) 1.0S12E-04 315 ) 8.»fi92P-05 ( 315 ) 7.5915E-05 ( 315 )
7.7267E-05 17 ) 7.11R7E-05 315 ) 6 . 7S92E-05 { 315 ) 6.5956E-05 ( 315 )
1.4065E-04 17 ) 9.7792E-05 355 } 7.6028E-05 ( 355 ) 6.9015E-05 ( 355 )
3.1763E-04 17 ) 2.1141E-04 17 ) 1.4185E-04 ( 17 ) 9.2554E-05 ( 17 )
5.5495E-04 17 ) 4.3102E-04 17 ) 2.75IOE-04 ( 17 ) 1.8218E-04 ( 17 )
1.3114E-01 354 ) 1.0560E-01 156 ) 6.7813E-04 ( 356 ) 4.0514E-04 ( 356 )
-------
                                                       MRXIHUM DMI.Y CONCEWTRATTONS
 J|9
 30H
24-HmiP CONCENTRATION

      4.4502E-0*
      4.4067P-04
 J3t
 231
 241
 347
 337
  17
 35-5
 354
, 7
-------
    TENNESSEE VALLEY  AUTHORITY
    SOLVENT REFINED COAL STUDY

    KINGSTON P[,JkNT  1975

    SNAMt
    KSTL=4  IUP = 1   ITAP.IPWN= 0 0
      lOATA.I^AX.IUOTSs  000
    IOHGT= 2   «HGT=  91.0  NSTs i
    NPOLc  2   JTABs 1    INPUT= 2
    NSKAs  1   ECONVa    0.3048006
                                  KINGSTON  POWER PIjANT
SYTF= 1.0    FIV= 3.0   TAF=  0.60
                                     BACKRP=
    OAY--
                                                   1   1
                                                  65.0
1 1
t 1
t 1
1 t
1 1
1 1
1 1
1 1
1 1

















1




.










'

I









1
I







1








oo
 i
ro
en
en
-------
PLANT ELEVATION (FEET RHOVE SEA LEVED--
775.0
    RECEPTOR ELEVATIONS (FEET AHOVE SEA LEVEL)
DIRECTION
            RINGM
                     RING*}
                              RTNGll   RINCM   RING«5
1
2
1
4
5
6
7
0
9
10
1 1
12
1 1
14
t5
16
17
IB

70

7 \\
ro 23
S 74
25
76
27
29
29
10
11
12
11
34
15
16
STACK 1
STACK 1
STACK

1
2
760.0
760.0
755.0
750.0
750.0
710.0
7BO.O
B70.0
860.0
090.0
920.0
050.0
7BO. 0
750.0
740.0
710.0
710.0
740.0
740.0
740.0
730.0
760.0
760.0
760.0
760.0
760.0
760.0
760.0
7BO.O
780.0
790.0
005.0
795.0
005.0
770.0
755.0
1--K1NGSTON
2--KING5TON
750.0 760.0
750.0 1170.0
750.0 740.0
750.0 740.0
750.0 740.0
745.0 1070.0
700.0 920.0
920.0 8BO.O
010.0 720.0
740.0 720.0
770.0 760.0
740.0 770.0
770.0 960.0
740.0 1150.0
QOO.O 1020.0
000.0 1060.0
900.0 1020.0
960.0 1020.0
870.0 720.0
760.0 970.0
720.0 900.0
7HO.O 920.0
060.0 1100.0
840.0 1100.0
760.0 820.0
700. 0 040.0
000.0 1000.0
900.0 1040.0
1060.0 090.0
H60.0 1060.0
1000.0 1100.0
1120.0 1040.0
1140.0 1020.0
1010.0 1070.0
1070.0 010.0
760.0 800.0
STACKSI1-4, NORMAI
5TACKSI5-9, NORMAI
STRATEGY SO? EMISSION RATE
TYPE
MOM
NOM
RANGE(K1)= 0.71
SEASONAL VARIATIONS

1 1.07
(GHS/SEC)
3.70
5.40
970.0
025.0
BOO.O
1 100.0
900.0
1160.0
1000.0
1060.0
1000.0
000.0
960.0
1070.0
1060.0
1070.0
800.0
780. 0
1010.0
1070.0
BOO.O
770.0
770.0
800.0
1040.0
950.0
1 100.0
1140.0
1140.0
1 100.0
900.0
1060.0
1100.0
1040.0
1020.0
1000.0
1000.0
1040.0
POWER
POWER
PART



1.13 2.49 4.f.5 «.
RY CASE •
1 .00 1.24 1.1

1 1 .
1 100.0
960.0
1000.0
1 100.0
1060.0
1000.0
1 100.0
BOO.O
960.0
9?0.0
1020.0
1000.0
1000.0
1080.0
1070.0
940.0
770.0
900.0
700.0
1040.0
750.0
980.0
1020*0
760.0
900.0
740.0
800.0
7.00.0
400.0
400.0
100.0
100.0
100.0
400.0
1500.0
1600.0
LOAO-SRC TSP
LOAO-SRC TSP
EMISSION PATE
(GMS/SEC)
0.00
0.00
69

07 1.04 0.
(METERS)

  76.20
                                                                91 .44
                                                                         OfAMETER  EXIT VELOCITY   TFHP
                                                                         (METERS)     M/SEC)     (OEG.K)
                                                                           4.77

                                                                           5.01
                                                                 0.74   0.01
                                  0.00
                                          10.90

                                          10.50




                                         0.91
416.00

414.00
VOLUMETRIC FLOW
  (M**1/SEC)

     156.09

     200.65
                                                                                             1 .07
 YEAR BARED ON 165.  DAYS
-------
        TEMMESSEE VALLEY  AUTHORITY  - KINGSTON POWER PLANT


                                        NOM--S02

           MAXIMUM MEAN CONC*   6.5237E-05  DIRECTIONS 36  DISTANCES   0.7 KM
         RANGE
                    ANNUAL MEAN CONCENTRATION AT EACH RECEPTOR
              0.7  KM          1.3 KM         7.5 KM          4.7  KM
                                                                                8.7 KM
CD
ro
tn
DIR
  1
  2
  3
  4
  5
  6
  7
  8
  9
 10
 11
 12
 13
 14
 15
 16
 17
 IB
 19
 20
 21
 22
 23
 24
 25
 26
 27
 28
 29
 30
 31
 32
 33
 34
 35
 36
6.51413E-OS
6.51481E-05
6.51609E-05
6.M639E-05
6.51 367E-05
6.50881E-05
6.50515E-05
6.50366E-05
6.50137E-05
6.50354E-05
6.50355E-05
6.50370E-05
6.50450E-05
6.50652E-05
6.50951E-05
6.51173E-05
*>.51031E-05
*.50644E-05
6.50353E-05
*.50260E-05
6.50304E-0'»
S.50372E-OS
6.50372E-05
6.50296E-05
6.50215E-05
6.5017HE-05
6.S0179E-05
«.50179E-05
6.50I51E-05
6.50114E-05
6.50090E-05
6. SOI 14E-05
6.50238C-05
6.50471E-05
6.50728E-05
6.52368E-05
6.512S8E-05
6.51229E-05
6.51334E-05
S.51357E-05
6.51123E-05
6.50701E-05
6.504I«E-05
6.50298E-05
6.50249E-05
6.502'i9E-05 ,
6.50257E-05
6.50270E-05
6.50320E-05
6.50471E-05
6.50699E-05
6.50927E-05
6.50601E-05
6.50494E-05
6.50275E-05
6.50241E-05
6.5n334E-05
6.50437E-05
6.504R6E-05
fi.50394E-05
6.50291 E-05
6.S0220E-05
6.50233E-05
6.50238E-05
6.50203E-05
6.50161E-05
6.5011SE-05
6.5011SE-05
6.50253E-05
6.50517E-05
6.50810E-05
6.52347E-05
6.51010E-05
6.SO«78E-05
R.51027E-05
6.50964E-05
6.50825E-05
6.50504F-05
6.503UE-05
6.50235E-05
6.50170E-05
6.50181E-05
6.50178F-05
6.50219E-05
6.50254E-05
6.50366E-05
6.50560E-05
6.50993E-05
6.50645E-05
6.50364E-05
6.50196E-05
6.50180E-05
6.502B8E-05
6.50403E-05
6.50456E-05
6.50410E-05
6.50317E-05
6.50217E-05
6.50232E-05
6.50235E-05
6.50191F-05
6.50176E-05
6.50145F-05
6.50102E-05
6.50208E-05
6.50474F-05
6.50700E-05
6.51879E-05
6.50629E-05
6.50609E-05
6.507W7E-05
6.50674E-05
6.50606E-05
6.50390E-05
6.50235F-05
6.50207E-05
6.50144E-05
6.50156E-05
6.50153E-05
6.50230(T-05
6.50240E-05
6.50330E-05
6.50509E-05
6.51027E-05
6.50569E-05
6.50262E-05
6.5013BE-05
f..50JI2E-05
6.50214E-05
6.5031 flE-05
6.50351E-05
6.50321E-05
6.50275F-05
6.50146E-05
6.5017«F--05
6.501R7E-05
6.501 32E-05
6.50177E-05
6.50I21E-05
6.50072E-05
6.50137E-05
6.50295T-05
f .5046«F-05
6.51148E-05
6.503BBE-05
6.10422E-05
fi.505filE-05
6.50484E-05
6.50445E-05
6.S0313E-05
fi.50185E-05
6.50159E-05
6.50108E-05
6.50121E-05
6.50113E-05
6.50187E-05
fi.50171F-05
6.50238E-05
R.S0349E-05
6.50702E-05
S.50414E-05
6.50176E-05
6.50104E-05
6.50080E-05
6.50155E-05
5.50262E-05
6.50293E-05
6.50269E-05
6.50224C-05
ft.50107E-05
6.50160E-05
6.50I30E-05
6.50108E-05
6.50099E-05
6.50097E-05
6.50056E-05
6.50102E-05
R.50198E-05
6.50341E-05
6.50679E-05
-------
    TENNESSEE VftbtEY  AUTHORITY - KINGSTON  PdHF.R PMNT






                                    NOM--R02




YEARLY MAXIMUM  24-HOUH CONC*  6.B35IE-05   fHRF.CTIONs 360.  DISTANCE*   1.3 KM







                HIGHEST 24-HOUR CONCENTPATlflN AT EACH PECF.PrtlR
                                                                                                        B.7  KM
RANGE 0.7 KM
OIR
1 6.6713E-05 (
2 6.7150E-05 {
3 6.6909E-05 (
4 6.71ME-05 (
5 6.7309E-05 (
6 6.66R7E-05 {
7 6.6179E-05 (
8 6.640IE-05 (
9 6.6616E-05 (
10 6.6614005 (
11 6.6459005 (
12 6.6349005 (
I 3 6.6520E-05 (
| 4 6.6744005 (
i 5 6.7099E-05 (
OT 6 6.7724E-05 (
1 7 6.7288E-05 (
1 £> 8 6.6784E-05 (
CD 19 6.6062E-05 (
20 6.5893005 (
21 6.603«E-05 (
22 6.65B5E-05 (
23 6.6293E-05 (
24 6.6702E-05 (
25 6.5965E-05 (
26 6.5780E-05 (
27 6.5765E-05 (
28 6.6034E-05 (
29 6.575BE-05 (
30 6.5503E-05 (
31 6.557BE-05 (
32 6.5619E-05 (
33 6.554BE-05 (
34 6.5719O05 (
35 6.5986O05 (
36 6.8270E-05 (
298 )
298 )
203 J
340 )
330 )
130 1
306 )
295 )
295 1
295 )
295 )
307 1
307 )
342 )
331 1
312 )
332 )
338 )
338 )
152 }
152 )
152 )
102 )
302 )
317 )
314 )
314 1
314 )
33 )
179 )
179 )
179 )
42 )
269 )
319 )
1.3 KM
6.6I49E-05
6.6510E-05
6.6226E-05
6.6419E-05
6.6670E-05
6.6070E-05
6.5722E-05
6.5952E-05
6.5797E-05
6.5889E-05
6.6534E-05
6.6238E-05
6.6I18E-05
6.6194005
6.6277E-05
6.6928F-05
6.674BF.-05
6.6157E-05
6.5768F-05
6.5641E-05
6.6215E-05
6.6051E-05
6.6035E-05
6.6440E-05
6.6077E-05
6.56B9E-05
6.5686E-05
6.5966E-05
6.5683F.-05
6.5562E-05
6.5500E-05
6.5435E-05
6.5448O05
6.5680005
6.5792E-05
6.8351E-05
(
(
(
(
(
(
(
(
t
(
(
(
(
{
{
(
(
(
(
{
{
{
(
(
(
(
(
(
(
(
(
(
(
(
(
(
115 )
326 )
276 )
292 )
140 )
340 )
306 )
372 )
322 )
280 )
780
280
307
307
342
331
359
332
3fiO
160
30
152
114
102
302
117
114
314
114
33
33
179
48
297
269
315
6.5869O05
6.5985F.-05
6.6066E-05
6.6031E-05
6.6035E-05
6.5762005
6.5558E-05
6.5679O05
6.5521E-05
6.5760O05
6.6068E-05
6.5899O05
6.5748E-05
6.5975E-05
6.5919E-05
6.6947E-05
6.6325E-05
6.5647005
6.5406E-05
6.5199F-05
6.6033E-05
6.5820O05
6.5796E-05
6.6009E-05
6.5673E-05
6.5465E-05
6.556IE-05
6.56B5E-05
6.5472E-05
6.5488E-05
6.5474E-05
6.5215E-05
6.5416E-05
6.57B8F-05
) 6.56S7F-05
) 6.7149005
284 1
326 )
255
260
340
187
174
140
24}
1
280
780
287
[ 167
[ 222
r 241
t 359
t 252
t 252
( 193
( 30
f 30
( 317
302
302
317
350
312
334
297
285
114
107
16
( 16
( 315
^ . r f> "
6.5605E-05
6.5676O05
6.6573O05
6.6112005
6.6724E-05
6.5529E-05
6.5671E-05
6.6211E-05
6.5498F-05
6.568PF-05
6.5668E-05 I
6.5918E-05 (
6.6155E-05 1
6.6090E-05
6.5867F-05
6.7479F-05
6.6620F-05
6.5619F-05
) 6.5499E-05
) 6.5241E-05
) 6.5643E-05
6.5717E-05
6.5644005
6.5660E-05
6.5751E-05
6.5760E-05
6.5406E-05
6.5451F-05
6.5385E-05
6.5767E-05
6.5310E-05
6.5158E-05
) 6.5340E-05
) 6.5549F-05
) 6.5412E-05
) 6.604BE-05
262
17
262
260
139
218
174
140
174
1
280
280
287
167
167
241
204
252
333
193
10
10
282
102
363
317
317
312
125
297
285
139
107
31
356
6.5362E-05
6.5736E-05
6.6070E-05
6.5645O05
6.5755E-05
6.5478E-05
6.5395E-05
6.6168E-05
6.5432E-05
6.5558E-05
6.5472O05
6.5771005
6.5B34E-05
6.5897005
6.5762E-05
6.6609E-05
6.6077E-05
6.5436E-05
6.5362O05
6.517BE-05
6.5388E-05
6.5705E-05
6.590BE-05
6.5502E-05
6.5935E-05
6.5214E-05
6.5493E-05
6.5242E-05
6.5786E-05
6.5194E-05
6.5142E-05
6.520BE-05
6.5265E-05
6.5354E-05
6.5464E-05
6.5561E-05
( 341
( 234
( 234
( 260
( 139
( 238
( 174 )
( 140 )
( 140 )
( 140 )
280 )
280 )
287 )
192
191
241
204
25?
333 )
( 119 )
( 29 )
( 282 )
( 282
363
208
21
349
25
349 )
( 304 )
( 349 )
r 304 )
( 16 )
( 16 )
( 22 )
( 116 )
-------
ro
        TENNESSEE  VALLEY  AUTHORITY - KINGSTON POWER  PtANT







                                        NOM--SO2




    YEARLY MAXIMUM  3-HOUR CONC=  7.8B86E-05  DIRECTION^   0.   DTSTMTFs   0.7  KM  0»Y=108.  HOUR=1500.

HIGHEST
RANGE 0.7 KM
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
2B
29
30
31
32
33
34
35
36

7.4159E-05 ( 321
7.4963E-05 ( 293
7.3611E-05
7.5149E-05
7.4864E-05
7.3333E-05
7. 1860E-05
7.3302P-05
7.4322E-05
7.3425E-05
7.3996E-05
7.3116E-05
7.2257E-05
7.4324E-05
7.2565E-05
7.4334E-05
7.3117E-05
7.2942E-05
7.2586E-05
7.1903E-05
7.1456E-05
7.231 IE-OS
7.1648E-05
7.1264E-05
255
292
325
320
253 )
295 )
295 )
295 )
301 )
301 )
291 )
290 )
309 )
331 )
190 )
353 )
338 )
338 )
333 )
152 )
343 )
302
7.0464E-05 ( 30?
7.0206E-05 ( 117
6.9761E-05 ( 314
7.1493E-05 ( 314
6.97S1E-05 314
6.9024E-05 33
6.9210E-05 179
6.9910E-05 179
6.9364E-05 179
7.0SS3E-05 48
7.1989E-05 269 )
7.8886E-05 308 )
3-HOUR CONCENTRATION AT EACH
1.3 KM

7.100BE-05
7.1803E-05
7.1209E-05
7.1197E-05
7.1062E-05
7.0358E-05
6.93B3E-05
7.1204E-05
6.9915E-05
7.0105E-05
7.0646E-05
6.9B62E-05
6.9805E-05
7.1138E-05
6.9999E-05
7.0449E-05
7.1553E-05
7.0496E-05
6.9738E-05
6.9197E-05
7.0752E-05
7.0598E-05
7.0626E-05
7.1209E-05
7.0088F.-05
6.9111F.-05
6.912BE-05
7.0843E-05
6.9276E-05
262 )
126 )
276 )
6 )
275 )
320 )
322 )
322 )
322 )
236 )
280 )
280 )
291 )
290 )
217 )
256 )
359 )
281 )
338 )
31B )
333 )
206 1
314 )
302 )
102 )
317 )
314 )
314 )
334 )
6.9419E-05 ( 11 )
6.B973F.-05 ( 33 )
6.8103E-05 { 179 )
6.B-S85E-05 ( 48 )
7.0075E-05 ( 48 V
7.0528E-05 ( 269 )
7.5324E-05 f 119 )
RECEPTOR
2.5 KM

6.9574E-05 { 341 )
6.9356E-05
6.9533E-05
6.9207E-05
6.8856E-05
6.8458E-05
6.B572E-05
6.B315F-05
6.7643E-05
6.7850E-05
6.B692E-05
6.8269E-05
6.8326E-05
6.8758E-05
6.9840E-05
6.9521E-OS
341 )
294 )
260 )
301 )
187 )
207 )
180 )
322 )
306 )
280 )
280 )
295 )
251 )
240 )
230 )
6.9855E-05 t 359 )
6.B822E-05 ( 281 )
6.7565E-05 ( 281 )
6.7746E-05 ( 280 )
7.0303E-05 ( 30 )
6.9406F-05 ( 232 )
6.9479E-05 ( 232 )
6.9321E-05 ( 302 1
6.8092E-05 ( 302 )
6.8009E-05 ( 265 )
6.8906E-05 ( 350 )
6.8B68F.-05 312 )
6.7924E-05 334 )
6.7869E-0-S 285 )
6.878BE-05 285 )
6.6838E-05 334 )
6.776BE-05 107 )
6.8865E-05 ( 16 )
6.9118F-05 t 16 )
7.1910E-05 ( 356 1

4.7 KM

6.9137E-05
6.9B55E-05
7.0934F-05
6.B862F.-05
6.9267E-05
6.9223F.-05
6.B179F.-05
6.9B16E-05
6.B639E-05
6.B509E-05
6.9499F-05
6.7962E-05
6.8749F.-05
6.9869E-05
6.9742E-05
7.0637E-05
6.9575E-05
6.8167E-05
6.8672F-05
6.6592E-05
6.8027E-05
6.8279E-05
6.8667E-05
141
341
294
260
139
238
209
214
174
1
330
217
192
251
217
2«1
231
252
333
347
29
282
282
6.8372E-05 ( 127
6.9096E-05 ( 363
6.6501E-05 ( 349
6.7211E-OS ( 350
6.7469F.-05 ( 312
6.7203E-05 ( 125
6.7012F-05 ( 46
6.7476E-05 ( 285
6.6264F-05 ( 139
6.6585F-05 ( 334
6.7378E-05 ( 16
6.72B5E-05 t 169
6.9170F.-05 ( 183



)
)
)
1
)
)
)
>
)
)
•)
t
)
•)
)
•>
)
•)
)
1
)
)
)
1
1
)
)
1
)
1
)
)
)
)
)
)

8.7 KM

6.7B91E-05 (
6.9815K-05 (
7.0115E-05 (
6.7438E-05 I
6.8387E-05 (
6.8822E-05
6.7219E-05
6.8Z72F.-05
6.8216E-05
6.7884C-05
6.7543E-05
6.799BE-05
6.8795E-05
6.8274E-05
6.8584C-05
6.8767E-05
6.8519E-05
6.7616E-05
6.7748E-05 (
6.6316E-05 1
6.7713E-05 (
6.9372E-05
6.9549E-05 (
6.8760E-05
6.9017E-05
6.6710E-05
6.7619E-05
6.6823E-05
6.7285E-05
6.6551E-05
6.7737E-05
6.6661R-05
6.6530E-05
6.7325E-05
6.7915E-05
6.8202E-05



341 )
234 )
234 )
161 )
141 )
238
209
140
174
t
267
280
192
251
193
283
342
20
331
358
29
282
2P2
283
363
21
349
232
349
304
349
304
311
289
289
186
-------
                                                        MAXIMUM  OMt.Y CONCENTHATTONS
                                            DftY     74-HOUR  COWCENTRHTION    mR«:CTtON    OlSTftHCK

                                            315           (4.8 J5IE-05             36          1.11
                                            319           6.B270E-05             36          0.71
                                            30*           6.7997E-05             16          0.71
                                            331           6.7724C-05             16          0.71
                                            356           6.7721E-05             36          1.33
                                            727,           6.7577E-05             16          0.71
                                            24t           6.7479E-05             16          1.65
                                            28«           6.7430E-05             3*>          0.71
                                            355           6.73B6F.-05             16          1.33
                                            340           6.7309E-05              5          0.71
                                            342           6.7296E-05             16          0.71
                                            332           6.72BBE-05             17          0.71
                                            231           6.7250C-05             16          0.71
                                            354           6.717BE-03             36          0.7|
                                            218           6.7170E-05             16          0.71
                                            79«           6.7150E-05              2          0.71
                                            292           6.712ir-05              4          0.71
                                            321           6.7036E-05             J6          0.71
                                             17           6.7029E-05             36          0.71
                                            195           6.7017E-05             36          0.71
f
DO
I
ro
-------
TENNESSEE VALLEY AUTHORITY - KINGSTON POWER PLANT
SOLVENT REFINED COAL STUDY
STACK »  1 — KINGSTON STACKSKl-4, MAX.LOAD SRC TSP
 STACK
    1
         STRATEGY
           TYPE

           MOM
    so?  EMISSION
        (GMS/SFC1

            •S.70
PART EMISSION RATE    HEIGHT
     (SMS/SFC)        (M5TF.RS)

         0.00          76.20
                                                                        DIAMETER   EXIT  VELOCITY   TEMP
                                                                        (METERS)      (M/SEC)      (DEG.K1
                                                                          4.27
                                                                                       14.26
                                                                                                   427.40
                                          VOLUMFTRIC FLOW
                                            (M**3/SF.C)

                                               204.2(1
  RANGE(KM)=   0.71   1.33   2.4t   4.f5   R.69
  SEASONAL VARIATIONS HY CASE «
           t   1.00   1.00   1.00   1.00   1.00
                                  l.oo   i.on
                                                                1.00
                                                       1 .00
                                                              1.00
                                                                      1.00    1.00
JYR=75 IMO= 6 JDAY=168
ISTAH=  4444
AMS =  2.9  1.2
            4    4    4    4    4    3
1.3  2.5  0.<»  1.7  1.5  1.1  0.8  1.6
                                                          2     1     1
                                                        3.0  4.0  4.4
       13334444444
     5.9   7.0  6.9  7.1  7.1  7.2  6.6  5.6  5.9  5.9   4.7
TEMP* 292. 292. 291. 291. 290. 290. 290. 290. 292.  294.  296.  298.  300.  301.  302. 302. 303. 303. 303. 302. 300. 299. 298.  296.
AFV=  305. 295. 334. 323.  26. 238. 333.   4. 317.  358.  356.  350.    2.    0.    9.  30.  29.  30.  27.  25.  11.  26.  29.   51.
AFVR= 305. 295. 334. 323.  26. 238. 333.   4. 317.  358.  356.  350.    2.    0.    9.  30.  29.  30.  27.  25.  11.  26.  29.   51.
HLH1= 71J4. 2134. 2134. 2134. 2134. 2134. 2134. 2058.  1982.  190R.  1830.  1754.
      1678. 1602. 1524. 1524. 1574. 1524. 1524. 1524.  1524.  1524.  1524.  1524.

CO
1
ro
en










JYR=75
ISTAB=
AWS =
TEMP =
AFV =
AFVR =
HLHls

JYB=76
ISTABs
AHS=
TEMPs
AFVs
AFVRs
HUHIa

110=12 JDAYs336
2.6 2.2 1.6 1.3
273. 272. 271. 271.
208. 239. 259. 239.
208. 239. 259. 239.
305. 305. 305.
761. 837. 914.
IHO= 1 JDAY= 4
33 4 3
5.0 7.2 7.6 7.3
272. 271. 270. 270.
154. 162. 152. 143.
15*. 162. 152. 143.
400. 400. 400.
624. 666. 710.

1.0
270.
129.
129.
305.
914.

3
8.7
268.
162.
162.
400.
710.

1.0
270.
143.
143.
305.
914.

4
7.9
267.
150.
150.
400.
710.

0.9 0.5 0.9 1.8 2.0
270. 269. 270. 272. 275.
16. 5. 59. 74. 2.
16. 5. 59. 74. 2.
305. 305. 381. 457.
914. 914. 914. 914.
.
44311
7.7 6.4 6.1 5.4 6.2
266. 266. 266. 266. 267.
165. 168. 168. 169. 160.
165. 168. 168. 169. 160.
400. 400. 438. 476.
710. 710. 710. 710.

1
2.8
27R.
58.
58.
533.
914.

1
7.5
267.
173.
173.
5t4.
710.

1
3.3
1*1.^
2.
2.
609.
914.

1
6.2
26B.
167.
167.
552.
710.
If
1
3.R 3.8
282. 284.
1. 8.
1. 8.
685.
914.

1 1
5.7 6.3
269. 270.
162. 176.
162. 176.
590.
710.

3.7
284.
39.
39.



6.4
270.
17B.
178.



3.7
284.
38.
38.



5.9
270.
163.
163.



4.4
2B3.
20.
20.



6.4
269.
163.
163.



4.4
281.
15.
15.



6.7
26B.
162.
162.



3.8
279.
54.
54.



8.1
267.
162.
162.



3.9
277.
60.
60.



B.6
267.
161.
161.



3.8
277.
46.
46.



7.1
266.
163.
163.



2.7
275.
53.
53.



6.2
266.
178.
178.



3.0
275
83
83



6.0
265
179
179


JYRs76 IMO= 1 JDAY=  8
ISTABs  443333333211
AHSs  7.2  8.0 10.6 11.0 10.3 11.2 10.7  8.2  9.6   9.3   9.2   9.0
TEMPs 276. 275. 274. 272. 271. 270. 269. 26B. 2fiB.  767.  267.  268.
AFVr  147. 142. 153. 15H. 167. 160. 164. 163. 163.  163.  161.  1M.
AFVRs 147. 142. 153. 158. 167. 160. 164. 163. 163.  163.  161.  161.
HLH1=  853.  853.  853.  853.  853.  853.  BS3.  868.   8fl3.   898.
  1111233
6.6  6.9  6.8  7.5  7.2  7.7   5.B
267. 267. 267. 266. 266. 265
165. 167. 164. 174. 164. 150
                                                                 434
                                                              5.9   5.8   6.8
                                                                                                                        4
                                                                                                                      6.1
                                                                                                             4
                                                                                                          5.1
                                                                                                  264.  264.  264.  263.  262.  262.
                                                                                                  163.  164.  151.  150.  150.  150.
                                                                   165. 167. 164.
                                                                    913.  928.
       943.  958.   975.  975.   975.  975.   975.   975.   975.   975.  975.  975.
                                                                                  174.  164.  150.  163.  164.  151.  150.  150.  150.
JYR=76 IMO= t JOAY=  17
ISTARr  333333333
A«S= 10.1  R.7 10.6   9.3   7.?  «.9  10.?   8.0   7.7
                                     111111
                                     .7 10.2  10.6  10.S  10.1  10.7
                                                                                              4
                                                                                            8.1
                                 4
                               6.1
                                                                 4
                                                               5.7
  4
5.5
  4
4.6
  4
5.7
-------
     »M=  lt>4.  I If.. 1/4. 1/1. |h'l. IM1. 1/H.  th«. \bl. |hl. 1/4.  l/|.  |hb.  I'l'.  l«i».  Ihl.  |h/.  !••'..  IhH.  Ihll. l;o.
     AFVR = |64.  172. 174. 171. 164. l«3. 17H.  16H. 162. |fi|. 174.  171.  166.  167.  163.  161.  162.  166.  16R.  160. 170.
     HLHla  400.  400.   400.  400.  400.  400.  400.  427.  4«i4.   481.  508.   535.
            562.  589.   617.  617.  617.  617.  617.  617.  617.   617.  617.   617.
                                                                                                 III.  I n •>.  l/n.
                                                                                                 171.  1R5.  176.
                                                                                                        4
                                                                                                      5.7
                                                                                   4    4
                                                                                 3.9  2.8
JYBs76 IMO= 1  JDAY* 27
ISTABs  333333333333311133
AHS=  6.4  5.2  6.4  7.2  7.6  8.0  B.I  8.9  8.8  8.4  8.1  7.5   8.2   7.5   9.1   6.7   8.0  7.2
TEHP= 275. 275. 275. 274. 274. 274. 274. 274. 273. 273. 273. 273.  273.  273.  273.  273.  272.  272.  272. 272. 271.
AFV*  |70. 162. 163. 165. 164. 165. 166. 164. |6f. 165. 167. 169.  160.  164.  157.  163.  156.  176.  176. 170. 168.
AFVRr 170. 162. 163. 165. 164. 165. 166. 164. 166. 165. 167. 169.  160.  164.  157.  163.  156.  176.
HbHl«  157.  457.   457.  457.  457.  457.  457.  521.  585.  649.  713.   777.
       B41.  905.   975.  975,  975.  975.  975.  975.  975t  97S.  975.   975.
                                                                                                      176. 170. 168.
                                                                                                   444
                                                                                                 2.3  4.2  6.3
                                                                                                 271. 270. 270.
                                                                                                 165. 165. 170.
                                                                                                 165. 165. 170.
     JYH=76 IMO= 3 JD»¥= 70
     IRTARc
           4.1
     HLHI'

6. 276. 275.
5. 160. 160.
5. 160. 160.

275. 274.
160. 155.
160. 155.

273. 273.
155. 155.
155. 155.

273. 274.
155. 130.
155. 130.

276. 278.
15. 16*
15. 164
1 t
281. 283.
13. 3.
13. 3.
1
284.
7.
7.
t 1
285. 287.
13. 8.
13. 8.

287. 287.
17. 23.
17. 23.

286. 285.
41. 26.
41. 26.

1.2 1.0
283. 282.
55. 40.
55. 40.

0.5 0.7
280. 279
45. 50
45. 50
              0.
0.
0.
                           o.
                  o.
0.
0.   266.   532.  798. 1064. 1330.
           1596.  1062.  2134. 2134. 2134. 2134. 2134. 2134. 2134. 2134. 2134. 2134.
CD
ro
crt
ro
JYR=76 ISO
ISTAB
AHSs
TEMps
AFV=
AFVRs
HLHI =
= 4
1.5
273.
268.
268.
0
= 3
4
» • *
272
11
11
*
JDAT = 78
4
3.3
. 271.
. 74.
. 74.
0.
4
2.5
271.
77.
77.
0.
4
2.0
271.
53.
53.
0.
4
2.7
271.
44.
44.
0.
4
3.2
271.
53.
53.
0.
4
3.9
271.
62.
62.
0
3
3.2
273
53
53

                                      I
                                     1.9
                                                               1
1
4.5
1
5.0
6,
1
3
1
6.0
2
6.3
6
3
.9
5
3
.6
4
5.9
4
6.7
                                                      228.  456.  684.  912. 1140.
           1368.  1596.  1829. 1829. 1829. 1829. 1829. 1829. 1829. 1829. 1829. 1829.
                                                                                        4
                                                                                      6.8
                                    278. 282. 285. 288. 289.  291.  291.  291.  290.  289. 288. 288.
                                     44.  48.  52.  43.   40.   43.   21.   27.   23.   30.  25.  35.
                                     44.  48.  52.  43.   40.   43.   21.   27.   23.   30.  25.  35.
                                                                                                                  444
                                                                                                                6.8  5.1  4.8
                                                                                                                287. 286. 284.
                                                                                                                 42.  42.  33.
                                                                                                                 42.  42.  33.
JYR=76
ISTAfls
AHSs
TEMPs
AFV«
AFVR =
HLHI =

JTRs76
AMS>
TEMPa
AFV«
AFVRs
IMOs
2.1
279.
61.
61.
0.
7494.
110=
1 H
281.
52.
52.
3 JDAYs
278. 277
49. 51
49. 51
0.
84
. 276
. 51
. 51
0.
8743. 9999.
4 JDAIfs
ti n 9
280. 279
35. 81
35. 81
94
6
. 27<»
. 56
. 56

. 276
. 4B
. 48
0.
9999.

1 A
. 277
. SB
5*

. 275.
. 52.
. 52.
0.
9999.

t ft
. 277.
. 64.
. 64.

275.
53.
53.
0
9999

Oc
276.
58.
58.

275.
52.
52.
0
. 9999

OA
277.
226.
2?6.

I
278. 284
42.
42.
. 1249.
. 9999.

09 1
8
B



R
780. 284
336.
336.
4
4
1
. 287
4
4
2498.
9999.


. 2B9
7
7
1
. 289.
. 23.
. 23.
3747.
9999.


. 292.
7.
. 7.
1
6.5
291.
16.
16.
4996
9999


295.
3.
3.
1 1
291. 293.
27. 24.
27. 24.
. 6245.
. 9999.

1
2°6. 298.
5. 11.
5. 11.
1
293.
34.
34.




298.
49.
49.

293.
35.
35.




298.
20.
20.

293.
35.
35.




298.
27.
27.

291.
37.
37.




297.
28.
28.

291.
32.
32.




295.
54.
54.

291.
23.
23.




293.
62.
62.

289.
20.
20.




292.
46.
46.

286.
53.
53.




291.
52.
52.

285.
50.
50.




290.
51.
51.
     HLH1:  400.   400.   400.   400.  400.  400.  400.  537.   674.  Bit.  948. I08S.
           122?.  1359.  1499.  1499. 1499. 1499. 1499. 1499.  1499. 1499. 1499. 1«99.
     JTRs76  IM
     Term-   t
-------
                                                                          _          _
     AFVR = 186.  1<»2.  219. 229.  231. 243. 243.  244. 244. 254. 292.   5.   3.   7.   5.
     HLHls    0.     0.    0.     0.    0.    0.    0.  |86.  372.  558.  744.  930.
           1116.  1302. 1493.  1493. 1493. 1493. 1491. 14<>3. 1493. 1493. 1493. 1493.
                                                         I " .   .** .   1 > .   «H .  I » .  II.
                                                         1".   36.   43.   48.  70.  71.
                                                                                                                            55.
JYRs76 110=
AWS= 2.6
TEMPs 283.
AFV= 124.
AFVRs 124.
HLH1= 0.
1596.
JYR = 76 IN!)*
AWSs 3.4
TEMPs 288.
HFVs 58.
AFVH= 58.
HLHls 244.

1.8 1.5 1.9
283. 282. 280
176. 214. 205
176. 214. 205
0. 0.
1862. 2134.
4 JDAY»107

287. 286. 286
62. 54. 40
62. 54. 40
244. 244.

1.3
. 280.
. 60.
. 60.
0.
2134.


. 286.
. 11.
. 11.
244.

1.3
2HO.
55.
55.
0.
3134.


285.
332.
332.
244.
4
0.7
280.
43.
43.
0.
2134.

4
285.
2.
2.
244.
2421
1.2 0.8 1.1 2.0
281. 284. 288. 292.
220. 211. 320. 7.
220. 211. 320. 7.
0. 266. 532.
2134. 2134. 2134.

4111
286. 289. 293. 295.
87. 80. 64. 54.
87. 80. 64. 54.
244. 491. 738.
1
295.
2.
2.
79fl.
2134.

1
297.
U.
16.
985.
1
296.
2.
2.
1064.
2134.

1
298.
46.
46.
1232.
1 2
297. 298.
8. 10.
8. 10.
1330.
2134.

1 1
298. 299.
11. 12.
It. 12.
1479.
1
299.
11.
11.



1
299.
14.
14.

1
299.
8 .
a!



3
298.
32.
32.


29U.
49.
49.



3
298.
S3.
53.


297.
58.




4
297.
60.
60.


295.
56.
56.



4
295.
43.
43.


5.4
294.
72.
72.



4
293.
40.
40.


293.
68.
68.



4
292.
49.
49.


292.
74.
74.



4
4.0
291.
35.
35.


291
54
54



4
4,3
289
32
32

           1726.  1973.  2225.  2225.  2225.  2225.  2225.  2275. 2225. 2275. 2225. 2225.
CO
 I
ro
cr»
GO
JYR=76 IMOs 4 JOAY=117
ISTABs  333333
AUSs  5.6  6.3  4.3  4.8  5.1  5.2
TEMPs 282. 281. 281. 280. 280. 279.
AFV=  103. 137. 124. 137. 146. 146.
AFVRs 103. 137. 124. 137. 146. 146.
Ht,Hls  457.  457.  457.  457.  457.
      1255. 1388. 1524. 1524. 1524,
  33322111111
4.8  5.1  4.2  4.3  3.7  4.2  5.7  6.4   5.9   4.6   5.1
278. 279. 279. 279. 279. 280. 281. 282.  283.  284.  285.
160. 159. 164. 166. 167. 170. 166. 162.  169.  167.  167.
160. 159. 164. 166. 167. 170. 166. 167.  169.  167.  167.
 457.  457.   590.  723.  856.  989. 1172.
1524. 1524.  1524. 1524. 1524. 1524. 1524.
  1444444
5.9  4.3  4.2  4.5  1.9   1.7   2.3
285. 284. 283. 282. 280.  279.  278.
162. 178. 212. 214. 237.  206.  213.
162. 178. 212. 214. 237.  206.  213.
JYRs76
ISTAB=
AWSs
TEMPs
AFVs
AFVRs
HLHls

JYR=76
ISTABs
ft U C ~
H H 3 "•
TF.MPs
AFVs
AFVRs
HLH1 =

JY«s7*
ISTABr
ftWS =
IMOs 4 JDAYstlS
44444
2.3 2.7 3.6 3.4 4.3
277. 277. 276. 276. 275.
226. 193. 188. 702. 190.
226. 193. 188. 202. 190.
914. 914. 914. 914.
1142. 1180. 1219. 1219.
IMQs 5 JOAYal26
44444
2.0 1.2 1.? 1.5 1.3
280. 279. 779. 77H. 278.
47.. 67. 40. 37. 49.
42. 67. 40. 17. 40.
0. 0. 0. 0.
936. 1092. 1250. 1750.
IMOs 5 JD»Y=128
1.9 7.7 ?.» 4.0 4.1

4
5.2
275.
173.
173.
<»14.
1219.

4
0.9
279.
125.
125.
0.
1250.

».R

4
4.3
275.
180.
180.
914
1219

4
0.4
271.
177.
177.
0
1750



3111
2.5 2.1 2.4 5.0
277. 280. 282. 284.
174. 172. 199. 182.
174. 172. 199. 182.
914. 952. 990. 1
. 1219. 1219. 1219. 1

4711
2HO. 784. 287. 790.
7ft. 11. 43. 55.
7ft. 11. 43. 55.
0. 15ft. 317.
. 135ft. 1250. 1250. 1

2.1 P.P 1.5 1.7

1
5.1
286.
158.
158.
070.
219.

1
2a?.
7R.
78.
469.
250.

1

1
3.8
287.
166.
166.
1066
1219

1
794.
55.
55.
ft74
1250

1

1
4.4
28R.
172.
172.
. 1104
. 1219

1
295.
55.
55.
780
. 1750

1
= .9

1
5.4
289.
184.
184.
.
•

1
796.
58.
5R.

•

1

1
5.4
290.
165.
165.



1
297.
50.
59.



1

1
6.3
290.
178.
178.



1
797.
57.
57.



1

3
7.3
289.
175.
175.




206.
55.
55.



1
7.7

4
6.1
288.
179.
179.




796.
51.
51.



3
7. 7

4
6.3
287.
170.
170.




294.
53.
53.



3

4
5.7
286.
182.
182.




293.
45.
45.



4
fl.4

4
5.8
285.
182.
182.




290.
12.
12.



3
6.4

4
4.7
283.
186.
186.



4
2«9.
11 .
11.



3

4
3.5
283
185
185



4
290
18
18



3
2.8
-------
(VKV=
       ob.  •>••.   in.  •>•>.   /I.   f,/.  144.  ISO.  MO.  I)/.  1/0.  15h.  I*./.  I »>S .  I-IS.
       66.  56.   70.  55.   71.   67.  144.  |50.  MO.  117.  170.  156.  167.  I61}.  145,
       762.  762.  762.  767.   767.   762.   76?.   BOO.   838.   876.   914.   952.
       990. 1020. 1067.  1067.  1067.  1067.  1067.  1067.  1067.  1067.  1067.  1067.
                                                                       ISH.  165.  160.  169.  169. 175. 171. 177. 175.
JYR=76
ISTARs  4
AHS=  2.4
TEMPc 281. 280
 5 JO*Y=140
  444
1.9  2.4  3.2
                   4    4
                 1.6  2.1
                       4
                     2.8
     279.  279. 279. 278. 278. 281. 284.
AFV=  177. 145. 140. 180.  165.  148.  165.  743.  184.
HFVRa 177. 145. 140. 1»0.  165.  148.  165.  741.  184.
HLH1=   40.   40.   40.    40.   40.    40.    40.   225.   410.   595.   780.   965.
      1150. 1335. 1527. 1527. 1527.  1577.  1S27.  1527.  1527.  1527.  1527.  1527.
1
1 1
• . •'
287.
0.
0.
17
• 1
289.
185.
185.
1
290.
It.
11.
1
291.
5.
5.
1
292.
7.
7.
1
793.
6.
6.
1
794.
54.
54.
1
294.
45.
45.
3
294.
171.
171.
4444
793. 292. 290. 288.
171. 152. 133. 138.
171. 152. 133. 138.
4
286.
147.
147.
4
2Q
.B
285.
135.
135.
JYP=76 JMO=
• u c— i i
Rf 3 — / • I
TEMP= 283.
»FV= 105.
HFVRe 106.
« 5 Jl
71
. 1
283.
194.
194.
W = l'

282.
703.
703.
II

281.
189.
189.


2"0.
106.
106.


2BO.
15.
15.


280.
31.
31.


2«2.
218.
218.


286.
2.
2.


289.
7.
7.


292.
0.
0.

31
. 1
293.
7.
7.
HMD:
0.
0.
                     0.
                0.
                                 0.
                              0.
                       i     1     I
                     3.0  7.9  3.1
                293. 294. 295. 296.
                       9.    3. 358.
                       9.    3. .158,
0.  190.   380.  570.  760.   950.
      1140. 1330. 1524. 1524. |«24.  1524.  1574.  1524.  1524.  1524.  1524.  1524.
1
2.3
297.
14.
14.
J.I
297.
10.
10.
3.1
297.
13.
13.
3.2
297.
40.
40.
4.4
295.
42.
42.
4.7
292.
50.
50.
4
3.6
290.
79.
79.
4
2.3
289.
102.
102.
4
2.7
288
65
65

CD
1
ro
en
-t*


JYR*76
I3TAB=
AWS =

AFVs
AFVRa
•lOHls
TMO= 5
4 4
286. 286
P4. 86
84. 86
0.
JtlAT*!'
4
. 285.
. 89.
. 89.
0.
1?
4
285.
114.
114.
0.

4
i K
t . «
284.
59.
59.
0.

4 44 2 2 1 1
07 AC no n A it 99 t n
•f V«3 U«D U«Q 1 • 1 c«« *•"
283. 283. 285. 288. 291. 294* 296.
97. 191. 171. 2. 3. 5. 3.
97. 191. 171. 2, 3. S. 3i
0. 0. 0* 171. 342. 513.

1
297.
3.
3,
684

1 1
298. 298.
3. 7.
3. 7.
. 855.

1
299.
10.
10.


3
299.
14.
14.


4
299.
31.
31.


4
298.
72.
72.


4
297.
70.
70.


4
294.
167.
167.


4
293.
170.
170.


4 4
291. 290
171. 177
171. 177

      1076. 1197. 1372. 1372. 1372. 1372. 1372. 1372. l372t 1372.  1372.  1372.
     BASED ON  20. OATS
-------
TENNESSEE VALLEY AUTHORITY  -  KINGSTON POWER PLANT


                                NOM--S02

   MAXIMUM MEAN CONC*   6.5670F-05  DIRECTIONS 36  DISTANCES   0.7  KM
 RANGE:
               ANNUAL  MEAN  CONCENTRATION AT EACH RECEPTOR
          0.7 KM          1.3  KM         2.5 KM         4.7  KM
8.7 KM














CXI
ro
CT>
in


















OTR
1
2
3
4
5
6
7
8
9
10
11
17
13
14
15
16
17
IB
19
20
21
22
21
24
25
26
27
2B
29
30
31
3?
33
34
35
36
6.52903E-05
6.52213E-05
6.51767E-05
6.51702E-05
6.51479E-05
6.50854E-OS
6.50292E-0'>
fi.5005BE-05
fc.50007E-05
6.50001E-05
f .50010E-05
6.5006BE-05
6.50333E-05
S.51165E-05
6.52773E-05
6.b3985E-05
6.53214E-05
6.51615E-05
6.50564E-OS
6.50H3E-05
6.50026E-05
6.50003E-05
6.50000E-05
6.50000E-05
6.SOOOOE-05
6.50001E-05
6.50006E-05
6.500J5E-05
6.50021E-05
6.50015E-05
6.50007E-05
6.50012E-05
6.50065E-05
6.50770E-05
6.S08S5F-OS
6.5f.203E-05
6.52355E-05
6.51600E-05
6.5II68E-05
6.51127E-05
6.509B9E-05
6.50543E-05
6.5nififiE-05
6.50027E-05
6.50002F-05
6.50001E-05 .
6.50004E-05
6.'50028E-05
6.5014BE-05
6.50'571E-05
6.51563E-05
6.52504E-05
6.51905E-05
6.50870E-05
6.50299E-05
6.500«5F>05
6.S0018C-05
6.50002R-05
6.50000E-05
6.50002E-05
6.50005E-05
6.50004E-05
6.50010E-OS
6.50078E-05
6.50040E-05
6.50028E-05
6.S0011E-05
6.5000BF.-05
6.50042E-05
6.50200E-05
6.50691E-05
6.55365E-05
6.51594F-05
6.51055E-05
6.50743E-05
6.50679F-05
6.505BOE-05
6.50102E-05
6.50083E-05
6.50010E-05
6.50001E-05
6.50015E-05
6.50001F-05
6.50016E-05
6.50093E-05
6.50278E-05
6.50878E-05
6.52235E-05
6.51336E-05
6.50499E-0-J
S.50165E-05
6.50053E-05
fi.50015F.-05
6.50002E-05
6.50001E-05
6.50018E-05
S.50050E-05
6.50019E-05
fi.5001 JE-05
6.50031E-05
6.50046E-05
R.50031E-05
6.50010F-05
6.50004E-05
6.50019F-05
6.50U1E-05
S.50417E-05
f.53524F-05
6.508045-05
6.50617E-05
6.50457F.-05
6.5034QF-05
6.50361E-05
6.50143E-05
6.50036F.-05
6.50006E-05
6.50000E-05
R.5004BE-05
6.50001E-05
6.50047E-05
6.5014BE-05
6.50242E-05
6.50567E-05
6.52065E-05
6.51005E-05
6.50264E-05
6.50079E-05
6.50025E-05
6.50037E-05
6.50001F.-05
6.50001E-05
6.5001BE-05
6.50061E-05
6.5001BF.-05
6.50006E-05
6.500J9E-05
6.50029E-05
6.500I9E-05
6.50005E-05
6.50001E-05
6.50006E-05
6.50047F.-05
6.50177E-05
6.51774E-05
6.S0405E-05
6.50315E-05
6.50302E-05
6.50199E-05
6.50291E-05
6.50071F-05
6.50015E-05
6.50026E-05
6.50000K-05
6.50043E-05
6.50000E-0">
6.50056F.-05
6.50130E-05
6.5020BE-OS
6.50353E-05
6.51327E-05
6.50660E-05
6.50136E-05
6.50040E-05
6.50012E-05
6.50044E-05
6.50000E-05
fi.SOOOOF.-OS
6.50009E-05
6.5003BE-05
6.S0009E-05
6.50003F-05
6.50010E-05
6.50017E-05
6.50010F.-05
6.50002E-05
6.50000E-05
6.50002F-05
6.50016F.-05
6.500BTF.-05
6.50B1BF.-05
-------
    TENNESSEE VAbtET AUTHORITY - KINGSTON POKER PLANT


                                   NOM—302

fEARLY MAXIMUM 24-HOUR CONCe  6.6554E-05  DIRECTION=360.  DISTANCE*   0.7  KM   I>AY=3I9.
  RANGE
   HIGHEST 24-HOUR CONCENTRATION AT EACH RECEPTOR
0.7 KM                1.3 KM                2.5 KM
                                                                               4.7 KM
                                                                                                     8.7 KM
Jtf
I 6.5799E-05 ( 298 1
? 6.6014E-05 ( 298 ]
3 6.5873E-05 ( 298
4 6.5977E-05 f 292
5 6.621BE-05 ( 340
6 6.5<»6HE-05 ( MO
7 6.5332T-05 ( 340
8 6.5070E-05 ( 340
9 *.!><>OflF:-05 ( 340
10 6. 5002f:-05 ( 342
11 6.5015E-05 { 342
12 6.5085E-05 ( 342
13 6.5294E-05 ( 342
14 6.5S81E-05 ( 342
15 6.6124E-05 ( 342
16 6.6J95E-05 ( 222
CO 17 6.6160E-05 ( 332
' Ifl 6.5999E-05 ( 332
OT 19 6.547HE-05 { 332
<*» 20 6.5174E-05 ( 332
21 6.5010E-05 ( 332
22 6.5006E-05 ( 332
23 6.5000P.-05 ( 332
24 6.5000IC-05 ( 315
25 6.5001E-05 ( 313
26 6.5003E-05 ( 315
27 6.5012E-05 ( 315
28 6.5030E-05 { 315
29 6.5041E-05 ( 315
30 6.5030E-05 ( 315
31 6.5012E-05 ( 315
32 6.5012E-05 ( 17
33 6.5065E-05 ( 17
34 6.5202f>05 ( 17
35 6.5396E-05 ( 17
36 6.6S54E-05 ( 319
6.5499E-05 ( 315
6.551BE-05 ( 29f»
6.5490E-05 ( 29B
6.5527E-05 ( 292
6.3845E-05 ( 340
fi.5548E-05 C 340
6.517PE-05 ( 340
6.5031E-05 ( 340
6.5003E-05 ( 340
6.5000E-05 ( 342
6.5006E-05 ( 342
6.5039E-05 { 342
6.5152E-05 ( 312
6.5377E-05 ( 342
6.5661E-05 ( 342
6.5918E-05 ( 331
6.5736E-05 ( 332
6.555BE-05 ( 332
6.5307E-05 ( 332
6.5I23E-05 ( 332
6.503IE-05 ( 332
6.5004E-05 ( 332
6.5000E-05 ( 332
6.5004E-05 ( 315
6.5010E-05 ( 315
6.5007E-05 ( 3l5
6.5020E-05 ( 315
6.5056E-05 ( 315
6.5079E-05 315
6.5056E-05 315
S.5020E-05 315
6.5006E-05 17
6.5037E-OS 17
6.5I37E-05 17
6.5277E-05 17
) 6.6479E-05 ( 3t5
6.5432E-05 <
6.5265E-05 (
6.5303E-05 (
6»5420£-05 i
6.5534F1-05 1
6.5266E-05
6;5072E-05
6.5010E-05
6.500IE-05
6.5030E-05
6.5002E-05
6.5021E-05
6»508l£-05
6.3168E-05
6.5468E-03
6»593BE-05
6.5565E-05
6.5286E-05
6.5165E-05
6.5074E-05
6.5019E-05
6.5002E-03
64500lf>03
e.SOSSE-O1?
6«5100E-05
6.503BC-03.
6.5021E-05
6.5062E-03
6.509IE-05
6.5062E-05
6.50I9E-05
6.5003E-03
6.5018E-05
6.50BBE-03
6.5207E-05
6.6058E-05
356
308
298
340
340
340
340
340
340
331
342
342
342
342
222
241
231
332
332
332
332
332
315
315
315
315
315
315
315
313
915
315
355
17
17
356
6.5252E-05
6.5267F-05
6.51BBE-05
6.5240E-05
6.5338E-05
6.5I09E-05
6.5026E-05
6.5007E-05
6.5000E-05
6.5095E-05
6.5001E-05
6.5066E-05
6.5|83E-05
6.5190E-05
6.5452E-05
6.62B8E-05
6.551 IE-OS
6.5140E-05
6.5073E-05
6.5034E-05
6.50S5E-05
6.5001E-05
6.5001E-05
6.5035E-05
6.5123E-05
6.5036E-05
6.5011E-05
6.503BE-05
6.5059E-05
6.503BE-05
6.5010E-05
6.500IE-05
6.5006E-05
6.3037E-05
6.5105E-05
1 6.5S62E-05
356
292
298
340
340
340
321
321
331
331
342
331
331
331
222
241
231
231
332
332
331
332
315
315
315
315
315
315
315
315
315
315
355
17
17
356
6.5176E-05 (
6.5176C-05
6.5116E-05
6. 51296-05
6.5196E-05
6.5052E-05
6.5011E-05
6.5050E-05
6.5000E-05
6.5085E-05
6.5000E-05
6.5094E-05
6. 51 7 IE-OS
6.5182E-05
6.5281E-05
6.5861E-05
6.5307E-05
6.5086E-05
6.503RE-05
6.50I7E-05
6.5083E-05
6.3000E-05
6.5000E-05
6.5017E-05
6.5076E-05
6.50I8E-05
6.5005E-05
6.5020E-05
6.3033E-03
6.5020E-05
6.5005E-05
6.5000E-05
6.5002E-05
6.3013E-05
) 6.5062E-05
) 6.5296E-05
355 )
292 )
185 )
340 )
340 )
340 )
321 )
321 )
331 )
331 )
342 )
331 )
331 )
331 )
222 )
241 )
231 )
231 )
332 )
332 )
331 )
332 )
315 )
315 )
315 )
315 )
315 )
315 )
313 )
315 )
315 )
315 )
355 )
17 )
I 17 )
t 356 )
-------
        TENNESSEE  VALUE* AUTHORITY - KINGSTON POWER PLANT
rsa
                                        NOM--802

     (EARLY  MAXIMUM  3-HOUR CONC*  7.2001F.-05  DIRECTION*  0.  DISTANCES   0.7  KM  DAV=308.  HOURalSOO.
      RANGE
   HIGHEST 3-HOUR CONCENTRATION AT  EACH  RECEPTOR
0.7 KM                 1.3 KM                 2.5  KM
                                                                                    4.7 KM
                                                                                                           B.f  KM
1
2
3
4
5
6
7
e
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
6.9582E-05
6.9460E-05
e^oeiE-os
6.9930F-05
6.9804E-05
6.8523E-05
6.6389E-05
6.5294E-05
6.5034P>05
6.5012E-05
f..5112E-05
6.5594E-05
6.6771E-05
6.8310F-OS
6.9042E-05
6.9801E-05
6.9261E-05
6.8277E-05
6.6753E-05
6.5717E-05
6.5202F-05
6.5034E-05
6.5003E-05
6.5001E-OS
6.5004E-05
6.5021E-OS
6.5096E-05
H.5242E-05
6. 53 HE-OS
6.5247IS-05
6.5096F-05
6.5097E-05
6.5515F-05
6.659BE-05
6.8063B-05
7.2001E-05
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
{
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
(
321 )
298 )
298 )
292 )
340 )
340 )
340 )
340 )
340 )
342 )
342 )
342 )
342 )
342 )
342 )
331 )
214 )
332 )
332 )
332 )
332 )
332 )
332
315
315
315
315
315
315
315 )
315 )
17 )
17 )
17 )
17 )
308 )
6.7B55E-05 ( 321
6.7162E-05 ( 30B
6.7471E-05 ( 298
6.7569E-05 ( 292
6.7858E-05 ( 340
6.6970E-05 ( 340
6.5695F-05 { 340
6.5122E-05 ( 340
6.S011E-05 ( 340
6.5004E-05 ( 342
6.5042E-05,( 342
6.5259E-05 ( 342
6.5B67E-05 ( 342
6.66B7E-05 ( 342
6.7280E-05 { 241
6.7731E-05 ( 342
6.7622E-05 { 332
6.6776E-05 { 332
6.62B1E-05 ( 332
6.5678E-05 ( 332
S.5?OOK-05 ( 332
6.5032E-05 ( 332
6.5003E-05 ( 332
6.5032E-05 ( 315
6.50HOE-05 { 315
6.5060E-05 ( 315
6.5161E-05 { 315
6.5449F-05 ( 315
6.5635F-05 ( 315
6.5449F-05 { 315
6.515HF-05 ( 315
6.5047E-05 ( 17
6.5297E-05 ( 17
6.5956E-05 ( 17
6.6H43E-05 ( 17
6.9853F-05 ( 3S4
6.6620E-05
6.6570E-05
6.6732E-05
6.6662E-05
6.6687E-05
6.5980E-05
6.5330E-05
6.5037E-05
6.5002E-05
6.3242E-05
6.5012C-05
6.50B8E-05
1 6.5463E-05
» 6.5675C-05
> 6.6601E-05
» 6.7329E-05
1 6. 70826-05
» 6.5951E-05
1 6.5871E-05
I 6.54B7E-05
) 6.5137E-05
1 6.5019E-05
1 6.5012E-55
> 6.5278F-05
1 6.5796E-05
I 6.5300E-05
1 6.5166E-05
1 6.5496E-05
6.5732E-05
6.5496E-05
6.5154E-05
6.5022E-05
6.5119E-05
6.5629E-05
6.6404E-05
6.05B3E-05
356 ]
292 1
298 ]
340 ]
340
321
321
340
340
331
342
342
331
342
222
222
231
332
332
332
332
332
315
315
315
315
315
315
315
315
315
315
355
17
17
356
6.6H4E-05
S.7023E-05
6.627B005
6.627BE-05
6.6395E-05
1 6.5714F-05
6.5203E-05
6.5059E-05
6.5002E-05
6.5760E-05
6.5004E-05
6.552BE-05
6.6445E-05
6.6366E-05
6.6582E-05
6.7499E-05
6.7441E-05
6.5822E-05
6.5437E-05
6.5241E-05
6.5517E-05
6.5007E-05
6.5007E-05
6.5281E-05
6.59B1E-05
6.5290E-05
6.5089E-05
6.5304F-05
6.5469E-05
6.5304E-05
1 6.50B2E-05
1 6.5009E-05
6.5039E-05
1 6.5276E-05
1 6.5761E-05
1 6.7J33E-05
r
(
(
{
(
t
(
(
(
t
(
(
(
(
(
(
(
(
t
{
(
(
(
t
t
(
(
t
(
(
(
(
(
(
(
(
355 )
292 )
298 )
340 )
340 )
321 )
321 )
321 )
331 )
331 )
342 )
331 )
331 )
331 )
222 )
241 )
231 )
231 )
332 )
332 )
331 )
332 )
315 )
315 )
315 )
315 )
315 )
315 >
315 )
315 1
315 )
315 )
355 )
17 )
17 )
356 1
6.6002E-05
6.6364E-05
6.5B93E-05
6.5739E-05
6.5939E-05
6.5399E-05
6.5090E-05
6.5404E-05
6.5000E-05
6.5679E-05
6.5002E-05
6.5751E-05
6.6361E-05
6.6401E-05
6.5B58E-05
6.6897E-05
6.6765E-05
6.5536E-05
6.5240E-05
6.5126E-05
6.5662E-05
6.5002E-05
6.S002E-05
6.5137E-05
6.5607E-05
6.5140E-05
6.5039E-05
6.5163E-05
6.5266E-05
6.5163F-05
6.5038E-05
6.5003E-05
6.5014F-05
6.5097E-05
6.5456E-05
6.6181E-05
( 355 )
( 292 )
( IBS )
( 340 )
f 297 )
( 321 )
( 321 )
( 321 )
( 331 )
( 331 )
( 342 )
( 331 )
{ 331 )
( 331 )
( 222 )
( 241 )
( 342 )
( 231 )
t 332 )
( 332 )
( 331 1
( 332 )
( 315 )
( 315 )
{ 315 )
( 315 )
( 315 )
C 315 )
( 315 )
( 315 )
( 315
( 315
( 355
( 17
( 17
( 356
-------
CD
ro
01
oo
                                                        MAXIMUM DMLY  CDNCFNTRRTTflNS
                                                   24-MOHR CONCENTRATION     DIRECTION    DISTANCE

                                            3|<»          6.6554E-OS             16          0.71
                                            30H          6.M»7?-OS             1*.          0.71
                                            31".          6.M7<)f:-05             16          1.13
                                            777          e.MoSE-OS             16          0.71
                                            3U          6.6375E-05             Ifi          0.71
                                            741          6.67R«P;-015             16          4.65
                                            231          6.6255E-05             16          0.71
                                            342          8.6233E-05             16          0.71
                                            116          6.6727E-05             36          1.31
                                            340          6.62tflF>05              5          0.71
                                            218          6.617BK-05             16          0.71
                                            3J2          6.M60E-05             17          0.71
                                            355          6.6173E-05             16          1.31
                                             17          6.61I5E-05             36          0.71
                                            354          6.6100E-05             36          0.71
                                            284          6.6015E-05             36          0.71
                                            371          6.6026C-05             16          0.71
                                            185          6.6023C-05             36          0.71
                                            298          6.6014E-05              1          0.71
                                            292          '6.5<»77f>05              4          0.71
-------
                               APPENDIX  C
                 FLUE GAS SAMPLING DURING THE COMBUSTION
               OF SOLVENT REFINED COAL IN A UTILITY BOILER
                                    By:

                     Craig S. Koralek and V. Bruce May
                         HITTMAN ASSOCIATES, INC.
                           9190 Red Branch Road
                         COLUMBIA, MARYLAND  21045
                                 ABSTRACT

      Solvent Refined Coal was burned in a commerical utility boiler.  Flue
gas samples were collected using EPA-5, ASME and Source Assessment Sampling
System (SASS) trains and grab sampling methodologies.  Results of available
analyses are reported.


Published in EPA Symposium Proceedings:  Environmental  Aspects of Fuel
Conversion Technology III, September 19, 1977,  Hollywood,  Florida.  Report
Number EPA-600/7-78-063 (April 78),  pp. 152-165.
                                    C-l
-------
FLUE GAS SAMPLING DURING THE COMBUSTION OF SOLVENT REFINED COAL IN A
UTILITY BOILER
I.   SUMMARY

     On June 13th, 1977 Solvent Refined Coal  (SRC) was burned in a
commercial utility boiler for the first time, for the purpose of
determining whether SRC could replace coal as a primary  fuel in a
pulverized coal-fired boiler.  In addition to boiler efficiency tests,
flue gas  samples were collected using EPA-5,  ASME, and Source Assessment
Sampling  System (SASS)  trains.

      In two  previous  phases of  this program,  coal was burned  in  the same
boiler.  Similar tests  were performed;  results  were  compared with the
Phase III SRC test.   The results  of the comparison  indicate that  SRC can
 be used as a replacement for coal in a conventional  pulverized  coal-
 fired boiler.   Results  of the grab sample analysis  indicated  no  detectable
 levels of C. - C, hydrocarbons.   S02 emissions are approximately the
 same as those from low sulfur coal combustion.   Higher concentrations
 of NO  were probably attributable  to high combustion temperature or
      X
 higher organic nitrogen in the fuel, although emissions of N0x were
 essentially the same as for coal.
  II.  INTRODUCTION

      A combustion  test  at Georgia Power  Company's Plant Mitchell,  located
  near Albany,  Georgia, was performed  to determine whether  SRC  can be
  burned in a pulverized  coal-fired boiler.   This  three-phase test marked
  the first time that SRC has  been burned  in a utility boiler.   In addition
  to boiler and precipitator  efficiency tests, a detailed  inventory  of  air
  emissions, including polynuclear aromatic  hydrocarbons,  was performed.
                                  C-2
-------
                                       *>
     In Phase I of this program,  low sulfur Kentucky coal was burned in
the existing, unmodified 22-1/2 MW pulverized coal boiler.  Following
replacement of the original burners with dual register burners and
accompanying modifications, Phase II of rthe test was conducted.  In this
phase, as in Phase" I, the boiler  was fired with low sulfur Kentucky
coal.- In Phase III, discussed in detail in this report, following
adjustment of the burners and the pulverizers, SRC was burned.  This SRC
had been produced at the Fort Lewis pilot plant from Western Kentucky
coals having a sulfur content of  approximately 4 per cent and an ash
content of 10 to  12 per cent.  Sulfur and ash in the SRC were nominally
0.6 and 0.1 per cent respectively.  In each of the  three  phases of  the
program, the boiler was operated at full  (^ 21 MW), medium  O 14 MW),
and low  (a/ 7 MW)  load  conditions.

      Precipitator efficiency  tests were run,  ash resistivity was de-
termined,  and  air emission levels were  evaluated using  EPA-5 and ASME
trains.  In  addition to particulates,  a number of  gases,  including  CO^,
CO, NO , 0_,  and  SO,, were  monitored.
       X    ^         ™

      During  Phases II  and  III, additional flue  gas sampling was  conducted
using a  SASS train to  collect samples  for modified EPA Level 1 laboratory
analysis.  Grab samples  also  were obtained for  on-site analysis  for C^ -
C6 hydrocarbons,  S02>  NZ>  CO, C02,  and 02«

      A diagram of the  SASS train is shown in Figure 1.   This sampling
device includes cyclones  and.a filter  to  collect particulates, a sorbent
 trap to collect C_ - C.fi hydrocarbons, impingers,  and associated tempera-
 ture controls, pumps,  and meters.  The sample is obtained from the flue
 gas duct by  means of a probe inserted  through the duct work and positioned
 to intersect the gas flow at a point having flow characteristics repre-
 sentative of the bulk flow.
                                      C-3
-------
o
                                           CONVECTION
                                           OVEN
FILTER
                                                                                      GAS COOLER
                                                                               GAS
                                                                               TEMPERATURE
                                                                               T.C.
                                                              CONDENSATE
                                                              COLLECTOR
                                                                          IMP/COOLER
                                                                          TRACE ELEMENT
                                                                          COLLECTOR   •
             DRY GAS METER ORIFICE METER
              CENTRALIZED TEMPERATURE
                AND PRESSURE READOUT
                   CONTROL MODULE
                                                                                                      IMPINGER
                                                                                                      T.C.
                                                        10 CFM VACUUM PUMP
                                      Figure 1.   Source  Assessment Sampling Schematic
-------
     Particulates are removed from the sample first, passing it through
a series of cyclones.  For the SRC tests, these cyclones were maintained
at a temperature of 400°F.  Particulates are collected in three size
ranges, > 10 u , 3 to 10n , and 1 to 3 y, respectively.  The cyclones are
followed by a standard fiberglass filter, which collects a fourth size
range, <1U .

     Gas leaving the filter is cooled  to approximately 68°F and passed
through a cartridge containing XAD-2 resin.  This resin absorbs a broad
range of organic compounds.  Condensate  produced when the gas  is cooled
is collected in a condensate trap.

     A series of three impingers  follows the resin  cartridge.  The  first
contains hydrogen peroxide solution, which  removes  reducing components
to prevent deterioration  of  the  following impinger  solutions.  The
second and third impingers,  containing ammonium  thiosulfate and silver
nitrate, collect volatile inorganic  trace elements.

     Next,  the  gas passes through a  dehydrating  agent,  to protect  the
pump which  follows.  Finally,  the gas  flow  rate  is  metered,  and the gas
is vented.

     Using  the  5ASS  train,  each  test run provided  a total  of  nine  samples,
all  of which included  solids fractions,  condensate, resin,  impinger
 liquids, and rinses.   After  weighing,  several  of the initial samples
were combined and  for  later  analysis.   Results will indicate the  presence
 or absence  of several  classes  of organic compounds as well as inorganic
 components  and  trace elements.   In  addition to the abbreviated Level 1
 analysis,  the samples  will  be  analyzed to  determine whether or not
 selected polynuclear aromatic  compounds, having carcinogenic properties,
were present.
                                    C-5
-------
     Grab samples were collected using a Tedlar bag and a stainless
steel probe.  The samples were extracted from the stack by means of
varistaltic pump, which can obtain leak-free samples over a long period
of time.  On-site analysis was performed (usually within thirty minutes
of sampling) by injecting gases captured in the sample bag into a gas
chromatograph.  Parameters identified included C^ - C, hydrocarbons, CO,
S02, 02, N2, and CCy

     Daily composites of the coal used during Phase II and the SRC used
during Phase III were also prepared.  Bottom ash samples were collected
as well.

     Participants in  the SRC combustion  tests  included:

     •    Southern Company Services - co-sponsor and  owner

     •    ERDA -  co-sponsor and  supplier of  SRC

     •    Southern Research Institute  (SRI)  -  SASS Train Sampling  and
          Resistivity

     •    TRW -  Grab sampling  and on-site  analysis for CO,  C02»  S02,
          N_,  02, and GI - C,  hydrocarbons

     *    York Research '- EPA-5 and ASME trains,  gaseous emissions,
          precipitator efficiency

      •    Babcock &  Wilcox -  Boiler efficiency

      •     Rust Engineering (Subsidiary of Wheelabrator-Frye) with SRI -
           Resistivity
                                  C-6
-------
     •    Wheelabrator-Frye - modeling of precipitator for control of
          SRC combustion particulates

     •    Hittman Associates, Inc. - Development of sampling plan for
          the SASS train and grab samples, coordination of these efforts,
          and responsibility for subsequent sample analysis and inter-
          pretation

     Figure 2 depicts the location of the precipitator and sampling
ports.  Boiler //I was the test boiler.  Load conditions (i.e. full,
medium and low) were varied daily.  During the first nine days of testing,
samples were collected at the inlet and outlet of precipitator #1.  Test
ports Aj, A2, B , and B_ were used for this emission testing.  ASME and
EPA-5 trains were used simultaneously to collect samples both at inlet
ports AI or A2, and outlet ports B  or B,.,  SASS train samples and grab
samples for on-site analysis were collected either at inlet port A1 or
outlet port B,.  Point X indicates the location of the continuous sampler
for monitoring gases such as SO- and NO .
                               ^       X

     Since precipitator #1 is a 1946 vintage Research Cottrell unit with
perforated plates, Rust Engineering and Wheelabrator-Frye requested that
two additional days of tests be performed on precipitator #3, a newer
unit.  Data gathered could be used in the future for modeling purposes.
To facilitate these tests, bpiler #2 and precipitators #1 and #2 were
shut down.  Samples were collected at ports C, D, EI and E«.  ASME and
EPA-5 samples were simultaneously collected at ports C, E., and E .
SASS train and grab samples for on-site analysis were collected at
outlet port D.
                                    C-7
-------
o

00
                   INLET SAMPLING PORTS


                            A|
           BOILER NO.
BOILER NO. 2
           BOILER NO. ?
                                 PRECIPITATOR NO.
PRECIPITATOR NO. 2
                                              CONTINUOUS
                                           x  SAMPLER
                                                              OUTLET
                                                           B2 SAMPLING
                                                              PORTS
                                                                                   OUTLET
                                                                                   SAMPLING PORTS
PRECIPITATOR NO. 3
                                                     INLET SAMPLING
                                                         PORT
                     PRECIPITATOR NO. 4
                              Figure 2.  The Location of  the Boilers, Precipitators and
                                        Sampling Ports at Plant Mitchell
-------
III.  Phases II & III Testing

     In both Phase II, coal combustion, and Phase III, SRC combustion,
the boiler was operated at full, medium and low load conditions.  In
addition, at the conclusion of Phase III, the boiler was operated "wide
open", approximately 23.5 MW, for several days.

     Because only one SASS train was available, it was impossible
simultaneously to collect samples at both the inlet and outlet ports to
the precipitator.  During each phase the SASS train location was varied
to permit sampling at both ports.  During each SASS run, a grab sample
for on-site analysis was collected at the same location.  EPA-5 and ASME
trains operated concurrently at both the inlet and outlet of the preci-
pitator being tested and while the SASS train was in operation.

     The schedules for Phases II and III were developed by Mr. Richard
McRanie of Southern Company Services after consultation with participants.
The load condition and test precipitator were designated for each day of
testing.  Tables 1 and 2 indicate these schedules as well as the sampling
location for the SASS train.

     During Phase II, which began May 24, 1977, low sulfur Kentucky coal
was burned in the boiler.  No significant operational problems were
noted during this phase.  The burners operated as expected and flue gas
samples were collected.  Phase II concluded on June 26, 1977, after
eleven days of testing.

     Combustion of SRC, Phase III, began on June 13th,  1977.  Sampling
continued through June 24, 1977.  A few additional days of testing were
scheduled starting June 25th; however SASS and grab samples were not
collected because of the experiments being conducted.  The schedule
called for variation in load levels, air to SRC feed ratios, and pre-
cipitator rapping.  Because of the short duration of these conditions,
it was impossible to complete a SASS train run which typically is of
five-hour duration.

                                     C-9
-------
               TABLE 1.  PHASE II - COAL COMBUSTION  TEST  SCHEDULE
  DATE
May 24
May 25
May 26
May 27
May 28
May 29
May 30
May 31
June 1
June 5
June 6
LOAD CONDITION

Full
Medium
Low
Full
Full
Medium
Medium
Low
Low
Full
Full
SASS TRAIN
SAMPLING LOCATION
Outlet ESP //I
Outlet ESP //I
Outlet ESP #1
Outlet ESP #1
Inlet ESP #1
Inlet ESP #1
Outlet ESP #1
Outlet ESP #1
Inlet ESP #1
Outlet ESP #3
Outlet ESP #3
               TABLE 2.  PHASE III - SRC COMBUSTION TEST  SCHEDULE
  DATE
 June 13
 June 14
 June 15
 June 16
 June 17
 June 18
 June 19
 June 20
 June 21
 June 22
 June 23
 June 24
LOAD CONDITION

Full
Medium
Low
Full
Full
Low
Low
Medium
Medium
Full
Full
"wide open"
SASS TRAIN
SAMPLING LOCATION
Outlet ESP #1
Outlet ESP #1
Outlet ESP #1
Outlet ESP #1
Inlet ESP #1
Inlet ESP #1
Outlet ESP #1
Inlet ESP #1
Outlet ESP #1
Outlet ESP #3
Outlet ESP #3
Outlet ESP #1
                                    C-10
-------
IV.  ANALYTICAL RESULTS

     Results of the SASS train analyses are not available at this time.
Figure 3 shows the planned analytical procedures.  Samples from both
Phase II (coal) and Phase III (SRC) runs will be analyzed.  One coal
and one SRC sample also will be tested for trace elements.

     Results which are available at this time include the on-site analyses
presented in Tables 3 and 4.  Analyses of the coal and SRC, and calculated
emissions are presented in Tables 5, 6, and 7.

     The C. to C, hydrocarbons were determined by means of a flame
          1     o
ionization detector in a Perkin-Elmer gas chromatograph.  During  the
first three days of Phase II, the test limits were 5 ppm due to improper
grounding of the instrument.  During the remainder of the tests,  the
detectable limit was 0.5 ppm.  The 0^, N^, CO and C02 and S02  levels
were measured with a thermal conductivity detector in an A.I.D. portable
gas chromatograph.  The accuracy of this instrument is•+  two percent  of
the reading taken.

     NO  and S09 were  continuously monitored.  A thermal  electron NO
analyzer was used to measure nitrogen oxides, and  the theta  sensor  SO-
monitor was used to measure sulfur oxides.  The  accuracy  of  these instruments
is i 10 ppm.

     Results of the on-site analysis of grab  samples  are  included in
Section VI of  this report.  The following conclusions can be drawn  about
SRC combustion:

     •    When compared on  a pounds of  S0» per million  Btu basis, SRC
           flue gas shows only approximately  67 percent  as much SO
          discharge as does coal flue  gas, during  the course of  this
           test.
                                   C-l-1
-------
                         CM

                        U
                         CM
                                o
                               U
<
                               S
                               s
                        x

                                    -  s
SPLITTING
BINE AN

SAMPLES
F
      SAMPLE
CO

O
SOXHLET EXTRACTION
GC FOR C7- C|2
LRMS
R
D DIGESTION
LC - I


PARR/AC
SSMS
ET CHEMISTRY)
As/Hg/Sb
tj CT"
§3
20
QUO
-------
                               TABLE  3.  ON-SITE ANALYSIS  OF  GRAB  SAMPLES  PHASE II - COAL COMBUSTION
                                                                               1977
o
GO
On-Site Gas Chromatograph
Analysis
Continuous
Sampler
1 na/4
^amnle
Condi- Loca-
Date 1
5/26
5/31
6/02
5/25
5/29
5/30
b/24
5/27
5/28
6/05
6/06
r M c <4)c (4)
Cl C2 L3
NO
ND
ND
ND
ND
NO
NO
NO
ND
ND
ND
ND
ND
ND
NO
NO
NO
ND
ND
NO
ND
ND
ND
ND
NO
ND
ND
ND
ND
NO
c(4)
L4
NO
ND
'NO
NO
NO
ND
NO
ND
ND
HO
C5<4)
NO
NO
ND
ND
NO
ND
ND
ND
ND
ND
C6
NO
ND
NO
NO
ND
ND
NO
ND
NO
ND
C0<3>
ND
ND
ND
NO
NO
ND
NO
ND
NO
ND
oz<»
13.31*
14.24*
14.91*
15.73*
13.70*
12.60*
13.78*
11.25*
12.14*
11.16*
co2{1>
7.40*
7.50*
6.56*
5.51*
7.59*
7.35*
6.65*
9.86*
9.31*
9.69*
N20) S
79.29*
78.26*
78.535
78.76*
78.71*
80.05*
79.66*
78.89*
78.55*
79.15*
°x '
254
329
174
413
209
413
311
381
214
210
SV
260
360
200
500
220
400
745
330
330
200
180
"V
no
110
100
170
160
150
225
215
220
170
110
Time
1500
1140
0300
1400
1400
1240
1200
1530
1420
1330
1030
tion
Low
Low
Low
Med
Med
Med
Full
Full
Full
Full
Full
tion
0-1
0-1
I-l
0-1
I-l
0-1
0-1
0-1
I-l
0-3
0-3
                                                                 0-3 - Outlet to precipitator - 3
                                                                 SO  and NO  values  are in ppm
                                                                   X      J*
NO  - None Detected
I-l  -  Inlet to precipitator -  1
0-1  - Outlet to precipitator -  1
(1)  - +_ 2* of total concentration
(2)  - 1 10 ppm
(3)  -  40 ppm detectable limit
(4)  -  5 ppm detectable limit 5/25, 5/26. and 5/27, 0.5 PPm detectable  limit 5/28 through 6/06
-------
                                   TABLE 4.   ON-SITE ANALYSIS  OF GRAB  SAMPLES PHASE III -  SRC COMBUSTION
                                                          June 13 to  June 24.  1977
o
i
On-Site Gas

Date
6/15
6/18
6/19
6/14
6/20
U/ f-\f
fi/21
\if f- \
6/13
6/16
6/17
6/22
6/23
6/24

C <4>
1
1
ND
ND
ND
ND


ND
ND
ND
ND
ND
ND

c <*)
**?
f.
ND
ND
ND
ND


ND
ND
ND
ND
ND
ND

c W
*"a
j
NO
ND
ND
ND


ND
ND
ND
ND
ND
ND

c (4)
UA
•t
ND
ND
ND
ND


ND
ND
ND
ND
ND
ND

C <4>
^C
3
ND
ND
ND
ND


ND
ND
ND
ND
ND
ND

r (4)
fi
O
ND
NO
ND
ND


ND
ND
ND
ND
ND
ND

C0<3>
ND
ND
ND
ND


ND
ND
ND
ND
ND
ND
Chroma tograph Analysis

o (D
£
14.79%
13.25%
14.003!
13.65%


11.39%
10.62%
11.11%
11.20%
10.75%
10.76%

co/1)
C.
5.88%
6.73%
6.26%
7.53%


9.86%
9.12%
9.15%
9.25%
8.90%
9.29%

*™
£.
79.33%
80.02%
79.74%
78.82%


78.75%
80.26%
79.74%
79.55%
80.35%
79.95%

S°x(1)
A
198
216
218
248


371
410
404
400
393
449
Continuous
Sampler

S°x(2)
A
225
220
235
260


325
335
345
345
325
380

N0x(2)
A
125
120
125
160


190
190
190
200
220
260

Time
1030
1200
1230
1200


1300
1145
1100
1030
1000
1100
Load
Con-
dition
Low
Low
Low
Med
Med
Med
Full
Full
Full
Full
Full
23.5

Sample
Location
0-1
1-1
0-1
0-1
0-1
1-1
0-1
0-1
1-1
0-3
0-3
0-1
                  ND - None Detected
                  1-1 - Inlet to precipitator-1
                  0-1 - Outlet to precipitator-1
                  (1) - + 2% of total concentration
                  (2) - + 10 ppm
                  (3) - 40 ppm detectable limit
                  (4) - 0.5 ppm detectable limit
0-3 - Outlet to precipitator-3
SO  and NO  values are in ppm
-------
                                    Table 5.  SRC Combustion Test - Phase it,  Coal
o
i
                                                                             S0?,  ppm	      N0y.  ppm
Date
5/26
5/31
6/2
5/25
5/29
5/30
5/24
5/27
5/28
6/5
6/6
% Sulfur
0.64,
1.05
NA
1.09
0.62
1.15
1.34
0.73
0.72
0.66
0.64
ri uAiiiiate
% Nitrogen^
1.38
1181
NA
1.29
1.82
1.82
1.19
1.51
1.45
1.60
1.81
nn a iya i a
Heating ^
Value. Btu/lb
14935
14723
NA
14648
14923
- 14725
14720
14802
14797
NA
14931
Load
Low
Low
Low
Med
Med
Med
Full
Full
Full
Full
Full
	 Im
Grab Sample
254
329
174
413
209
403
NA
311
381
214
210
Continuous
.Analyzer
260
360
200
500
220
400
745
330
330
200
180

110
110
100
170'
160
150
225
215
220
170
110
      NA - Not  Available

      (1) Moisture and Ash Free Basis.
-------
Proximate Analysis
Date
6/15
6/18
6/19
% Sulfur
0.70
0.74
0.66
% Nitrogen
1.54
1.80
1.82
Heating (1)
Value, Btu/lb
15742
NA
15668
Load
Low
Low
Low
S02, ppm
Grab Sample
198
216
218
Continuous
Analyzer
225
220
235
NO , ppm
A

125
120
125
6/14
0.72
1.62
15729
Med
248
260
160
6/13
6/16
6/17
6/22
6/23
6/24
0.73
0.73
0.72
0.70
0.64
0.66
2.02
1.77
1.47
1.37
1.37
1.71
15591
15602
15775
15647
15534
15505
Full
Full
Full
Full
Full
Wide Open
371
410
404
400
395
449
325
335
345
345
325
380
190
190
190
200
220
260
NA - Not Available
(1) Moisture and Ash  Free Basis
-------
Run Number, Precipitator Number 1
Conditions
Coal
Date
Load, MW
Fuel Feed. Ib/hr
S02 lb/106 Btu
N0x lb/106 Btu
SRC
Date
Load. MW
Fuel Feed. Ib/hr
S02 lb/106 Btu
NO lb/106 Btu
X.
1


5/24
21
22.300
2.33
0.50

6/13
21
17,500
0.99
0.41
2


5/25
14
15,300
1.86
0.45

6/14
14
12,000
1.02
0.45
3


5/26
6
7,400
1.50
0.46

6/15
7.5
7,200
1.21
0.48
A


5/27
21
21,000
1.03
0.48

6/16
21
17,800
0.97
0.39
5


5/28
21
20,000
1.06
0.51

6/17
21
17,600
1.01
0.40
6


5/29
14
15.000
1.84
0.50

6/18
7.5
7,400
1.05
0.41
7


5/30
14
15,000
1.84
0.50

6/19
7.5
7,400
1.13
0.41
8


5/31
7.5
9.400
2.38
0.52

6/20
14
12.000
1.11
0.49
9


6/1
7.5
9,700
1.39
0.50

6/21
14
12,200
1.04
0.45
-------
    •    When the coal sulfur content was approximately the same as
         the SRC sulfur content, SO- emissions per million Btu were
         equivalent.

    •    Pounds of NO  per million  Btu  are  lower  in  the SRC flue gas
                     x r
         than in the coal flue  gas, by  approximately 15 percent,
         during the course of  this  test.
          0«  levels  during  SRC  runs ran slightly below levels measured
          in  coal combustion.   This is directly related to control room
          operations.   Control  room data will be available later.
          S0» and NO  concentrations were highest at full load and
            2       x
          lowest at low load conditions.
     •    C,  - C, hydrocarbons were not detected during either Phase II
           1    6
          or Phase III.   The detection limit for these components was
          0.5 ppm.

V.   OBSERVATIONS AND CONCLUSIONS

     No major problems were encountered with the combustion of SRC.
Generally, the boiler operated smoothly.  On Wednesday, June 15th,
however, fire was lost in the boiler for about one hour and the SASS
train run was lost.  The cause of the problem was believed to be failure
of the fuel to reach the burner.  This could not directly be attributed
to the SRC.  Another run was  lost when pieces of polyethylene sheet,
upon which the SRC was stored, were accidentally scooped up by  the  front
end loader removing the SRC from the storage pile, and  fed into  the
pulverizers.  The pulverizers jammed and the run was  cancelled.
                                 C-18
-------
     Results of the test are limited at this time.  Future analytical
results will be incorporated in a final report.  The following prelim-
inary observations can be made.  These observations were made either in
the field or during preparation of samples for shipment to the laboratory,

     •    Particulates collected by the SASS train during combustion of
          SRC were approximately seventy percent carbon.  This compares
          with a typical coal fly ash carbon content of less than ten
          percent.  The high level of carbon is probably due to the
          boiler type.  This 22-1/2 MW boiler was originally designed to
          burn,oil, later modified to burn coal, and further modified
          prior to Phase II testing.  A boiler designed specifically for
          anthracite coal probably would have burned more efficiently,
          thus reducing the carbon content in the fly ash.  In addition,
          since the ash content of SRC is much lower than that of coal,
          identical combustion efficiencies for coal and SRC would
          result in a proportionately higher carbon content in the fly
          ash, even though the total carbon in the ash might be the
          same.

     •    The total quantity of ash produced from SRC combustion is
          approximately one percent of that resulting from the coal
          normally used at this facility.  Ash content of that coal is
          approximately 9 percent as compared to 0.1% for SRC.

     •    The particle size of SRC ash was much smaller than that of
          coal fly ash.  It is estimated that two to five percent of
          coal fly ash collected in Phase II was less than one micron.
          Comparably,  approximately twenty percent of the SRC fly ash
          was collected on the filter following the one micron cyclone.
                                  C-19
-------
It should be noted,  however, that due to the low density of
the SRC ash, particles which should have been collected by the
one micron cyclone instead may have passed through the cyclone
and collected on the filter.  The cyclones in the SASS train
were designed to collect particles having the density of coal
fly ash, i.e., 1 g/ml.  SRC fly ash is approximately one-
fourth as dense as coal fly ash.  It was observed that, with
SRC, the filter had to be changed frequently during each daily
test, indicating that after a certain volume of particulate
was collected in the cyclone, particles began passing through
the one micron cyclone or the particulates collected were
agitated and suspended in air, finally collecting on the
filter.

The efficiency of precipitator #1 with SRC ash was estimated
by the ERDA Sampling Team to be at best twenty percent.  The
hoppers to the precipitator were checked and no ash had been
collected.  The low efficiency of the precipitator is probably
due to the high resistivity of the high carbon fly ash.

During the latter part of" Phase III, when precipitator #1,
boiler #2, and precipitator #2 were shut down, the efficiency
of collection by precipitator #3 was significantly higher  than
observed with precipitator  #1.  Particle loading at the outlet
totaled approximately  1 gram.  This compares with about 25
grams for a similar full load test at the outlet to precipi-
tator #1.  The filter  following the cyclones did not have  to
be changed during tests at  the outlet to precipitator #3.  Up
to five filter changes had  been needed during tests at both
the inlet and outlet  to precipitator #1.
                        C-20
-------
          There was  a  visible  plume during  all  SRC  combustion tests
          using precipitator //I.   The opacity was  estimated at
          Ringelman  2.   However,  when only  precipitator #3 was functioning,
          there were no visible emissions.   During  coal combustion,
          there was  evidence of a plume on  occasion.   There are two
          possible explanations for this.   First,  boiler #2,  which was
          shut down  when tests were run around  precipitator #3, may  have
          been the cause of the visible plume.   Second, precipitator #3
          may have been inadequate to control the combined emissions
          from both  boiler #2  and boiler #1.  It was  suggested that
          without boiler #2 flue gas feeding into precipitator #3, the
          unit, which  is oversized, was effective.

     •    Although approximately equal volumes  (grain loading) of ash
          were collected from both coal and SRC combustion, about 50
          percent less fly ash, by weight,  was  collected during the
          SRC tests.

     •    Some dusting was noted during handling of SRC.  A front end
          loader was used to load a dump truck which in turn emptied
          into the feed hopper.  It was difficult to assess accurately
          the potential magnitude of this problem,  since this method of
          handling is  not standard operating procedure at the plant.

     Generally, the  SASS train performed adequately.   On most occasions,
representative flue  gas samples were collected.  There were, however,
several problem areas.

     •    The SASS train equipment proved to be very cumbersome.  This
          problem was  aggravated by space limitations.

     •    An electrical generator had to be rented in order that an
          adequate supply of electricity (45 amps)  was available.  Two
          runs on Phase III were lost when the generator broke down.
                                 C-21
-------
The entire SASS train operation, including preservation of
samples and preparation of the equipment for the next run,
required 10 to 12 hours.  Three men were required for this
labor intensive effort.

As mentioned earlier, the cyclones were designed to collect
particulates with a density comparable to coal fly ash.  SRC
fly ash, which has one-fourth the density of coal fly ash,
may have passed through the cyclones.  This may explain why
filters had to be changed so frequently.  Each time a filter
had to be changed, the run had  to be stopped, the filter
cooled and removed, and the oven reheated.  Each filter change
required a delay of up  to thirty minutes.  This may have
caused an erroneous particle size distribution since particles
may have passed through to  the  next  smaller cyclone or  to  the
filter.

Because  the particulates were  extremely  light  and  fine, small
amounts  of particulate  were lost during  the subsequent  transfer
to the plastic sample containers.

Because  of the time  constraints, it  was  impractical to  soak the
SASS  train in 1:1  nitric  acid  following  each  run.   If  this
procedure, prescribed in  the operator's  manual,  had been  followed,
 it would have been- impossible  to both preserve the samples and
prepare  for  the next day's  operation.
                          C-22
-------
                                APPENDIX D

                               BIBLIOGRAPHY


ASME.   1968.  Recommended Guide for the Prediction of the Dispersion of Air-
  borne Effluents.Edited by Maynard Smith.  ASME New York, NY.

Gifford, F.A.  1961.  Uses of Routine Meteorological Observations for Esti-
  mating Atmospheric Dispersion.  Nuclear Safety 2,4,47-51.

Hangebrauck, R.P., D.J. VonLehmden and J.E.. Meeker.  1964.  "Emissions of
  Polynuclear Hydrocarbons and Other Pollutants from Heat-Generation and
  Incineration Processes."  JAPCA 14(7):267-78.

Hanna, S.R., G.A. Briggs, J. Deardorff, B.A. Egan, F.A. Gifford, and
  F. Pasquill.  1977.  "Meeting Review - AMS Workshop on Stability Classi-
  fication Schemes and Sigma Curves - Summary of Recommendations."  Bull.
  Amer. Met. Soc. 58(12):1305-09.

Koch, R.C.  1977.  "A Study of Ambient S02 from Selected Non-Urban Pennsylvania
  Sources."  GEOMET Report Number EF-583.   Prepared for the Pennsylvania Dept.
  of Environmental Resources.  June 1977.

Koralek, C.S. and V. Bruce May.   1978.   Flue Gas Sampling During the Combus-
  tion of Solvent Refined Coal in a Utility Boiler.  Hittman Associates,
  Inc.  9190 Red Branch Road.

Singer, I.A. and M.E. Smith.   1966.   Atmospheric Dispersion at Brookhaven
  National Laboratory.   Int.  J.  Air and Water Poll., 10, 125-135.

Slowik, A.A. and G.N. Pica,   1976.   "A Field Comparison of the EPA 'VALLEY1
  Model, 'Half-Height'  Model, and a Suggested New Model  in Complex Terrain
  Under Stable Atmospheric Conditions."  Interim Report No.  1.  Pennsylvania
  Electric Co.,  Johnstown, Pennsylvania.

Touma, J.S.   1977.  "Dependence  of the Wind Profile Law on Stability for
  Various Locations."  JAPCA 27(9):863-66.

Turner, B.  1970.  Workbook  of Atmospheric  Dispersion Estimates.   Report
  No. AP-26.  EPA.  Research Triangle Park, North Carolina.   Available
  from U.S.  Government Printing  Office.

U.S. Environmental Protection Agency.   1975.   Compilation of Air  Pollution
  Emission Factors.   Third Edition.   Report Number  AP-42.Available  from
  NTIS as PB275-525.
                                   D-l
-------
                                TECHNICAL REPORT DATA
                         (Please read Instructions on the reverse before completing)
 . REPORT NO.
 EPA-600/7-78-203
                           2.
                                 3. RECIPIENT'S ACCESSION-NO.
4. TITLE AND SUBTITLE
Air Quality Impacts Using SRC Versus Conventional
 Coal in Power Plants
                                 5. REPORT DATE
                                 October 1978
                                 6. PERFORMING ORGANIZATION CODE
7 AUTHOR(S) Irving Leichter, R.C.Koch, N.L. Nagda, and
J.L.Swift (Geomet, Inc.)
                                 8. PERFORMING ORGANIZATION REPORT NO.
9. PERFORMING ORGANIZATION NAME AND ADDRESS
Hittman Associates, Inc.
9190 Red Branch Road
Columbia, Maryland 21045
                                 10. PROGRAM ELEMENT NO.
                                 EHE623A
                                 11. CONTRACT/GRANT NO.

                                 68-02-2162
12. SPONSORING AGENCY NAME AND ADDRESS
 EPA, Office of Research and Development
 Industrial Environmental Research Laboratory
 Research Triangle Park, NC 27711
                                 13. TYPE OF REPORT AND PE
                                 Final; 11/77 - 9/78
                                                                       PERIOD COVERED
                                 14. SPONSORING AGENCY CODE
                                  EPA/600/13
15. SUPPLEMENTARY NOTES ffiRL-RTP project officer is William J.  Rhodes, Mail Drop 61,
919/541-2851.
16. ABSTRACT
          The report gives results of air quality modeling to assess the impact of
burning solvent-refined coal (SRC) instead of conventional coal in three power plants
which exceeded National Ambient Air Quality Standards when burning conventional
coal. The EPA  CRSTER Gaussian plume model with minor modifications was used to
calculate ambient air pollution concentrations (for SO2, NOx, and particulates) when
(a) conventional coal and  (b) SRC were burned. SRC test burn emissions data were
used to determine emission factors for the three pollutants when burning SRC at each
plant. The most significant impact of switching from conventional coal to SRC was
the reduction of SO2 and particulate concentrations at each plant. The highest 20 max-
imum 24-hour SO2 concentrations were reduced by 60-75%. At all three plants, the
annual mean particulate concentrations were reduced to essentially background levels
when SRC was burned.
17.
                             KEY WORDS AND DOCUMENT ANALYSIS
                DESCRIPTORS
                                          b.lDENTIFlERS/OPEN ENDED TERMS
                                             c.  COS AT I E;icld/Group
Air Pollution
Coal
Liquefaction
Coal Preparation
Combustion
Electric Power Plants
Sulfur Dioxide
Nitrogen Oxides
Dust
Air Pollution Control
Stationary Sources
Solvent Refined Coal
Particulate
13B
2 ID
07D
081
21B
10B
07B

11G
13. DISTRIBUTION STATEMENT

 Unlimited
                     19. SECURITY CLASS (ThisReport)
                     Unclassified
                         21. NO. OF PAGES
                           351
                     20. SECURITY CLASS (This page I
                     Unclassified
                                              22. PRICE
EPA Form 2220-1 (9-73)
                                        D-2
-------