GCA-TR-77-05-G                                                        EPA 905/2-77-001

   Do not WEED. This document
   should be retained in the EPA
   Region 5 Library Collection.


            Emission  Update  And  Projections  For Ohio

                   Air  Quality  Maintenance  Analysis


                                 Final Report
                             Contract No. 68-02-1376
                               Task Order No. 25
                                   Prepared For
                         U.S. ENVIRONMENTAL PROTECTION AGENCY
                                    Region V
                            Air and Hazardous Materials Division
                                Chicago, Illinois 60604
                                    June 1977
               GCA/TECHNOLOGY DIVISION
                             BEDFORD, MASSACHUSETTS 01730

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                                    EPA 905/2-77-001
     EMISSIONS UPDATE AND PROJECTIONS
FOR OHIO AIR QUALITY MAINTENANCE ANALYSIS
                   By

         GCA/Technology Division
             Burlington Road
      Bedford, Massachusetts  01730
      CONTRACT NO. 68-02-1376 TO 25
              FINAL REPORT
              Prepared for

     Environmental Protection Agency
                Region V
  Air and Hazardous Materials Division
         Chicago, Illinois 60604
               March 1977
                                  '?£mental ******* Agency
                                 5, Library ff>L-12J)
                           77 West Jackson Boulevard 12th
                           Chicago, !L  60604-3590

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TECHNICAL REPORT DATA
(Please read iHitruc lions on the reverse before completing)
1 Hf PORT NO |2
EPA 905/2-77-001 J_
4 TITLE AND SUBTITLE
EMISSIONS UPDATE AND PROJECTIONS FOR OHIO AIR QUALITY
MAINTENANCE ANALYSIS
7 AUTHOR(S)
Victor Corbin; Linda Vincent
9 PERFORMING ORGANIZATION NAME AND ADDRESS
GCA CORPORATION
GCA/TECHNOLOGY DIVISION
BURLINGTON ROAD
BEDFORD, MASSACHUSETTS
12 SPONSORING AGENCY NAME AND ADDRESS
ENVIRONMENTAL PROTECTION AGENCY, Region V
Air and Hazardous Materials Division
Chicago, Illinois 60604
3. RECIPIENT'S ACCESSION-NO
5 REPORT DATE
March 1977
6. PERFORMING ORGANIZATION CODE
8 PERFORMING ORGANIZATION RLPOIU N(
GCA-TR-77-05-G
10 PROGRAM ELEMENT NO
11. CONTRACT/GRANT NO
68-02-1376, Task Order No. 2
13 TYPE OF REPORT AND PERIOD CUVLFU L
14. SPONSORING AGENCY CODE
15. SUPPLEMENTARY NOTES
16. ABSTRACT
 In some areas of Ohio, TSP and S02 air quality  levels are  near or  above  the  annual
 standards.  This study was designed to determine the area  source emissions for  22
 counties, and calculate the contribution of the area sources  to the  ambient  air
 quality for an areawide receptor grid.  To determine if  problems will  be encountered
 in maintaining air quality standards  in the future, the  area  source  emissions were
 projected for the years 1980 and 1985.
17. KEY WORDS AND DOCUMENT ANALYSIS
.) DESCRIPTORS

13 DISTRIBUTION STATEMENT
Distribution Unlimited.
b. IDENTIFIERS/OPEN ENDEDTERMS

19 SECURITY CLASS (This Report)
UNCLASSIFIED
20 SECURITY CLASS (This page)
UNCLASSIFIED
c. COSATI I ield/(,rou|)

21. NO OF PAGES
294
22. pRicr:
EPA Form 2220-1 (9-73)
                                          11

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     This air pollution report is issued by Region-V, Environmental
Protection Agency, to assist state and local air pollution control
agencies in carrying out their program activities.  Copies of this
report may be obtained, for a nominal cost, from the National Technical
Information Service, 5285 Port Royal Road, Springfield, Virginia 22151.
     This report was furnished to the Environmental Protection Agency
by GCA/Technology Division, Bedford, Massachusetts, in fulfillment of
EPA Contract 68-02-1376 TO 25.  This report has been reviewed by
Region V, EPA and approved for publication.  Approval  does not signify
that the contents necessarily reflect the views and policies of the
Environmental Protection Agency, nor does mention of trade names or
commercial  products constitute endorsement or recommendation for use.
               Region V Publication No.  EPA-905/2-77-001
                                   111

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                               ABSTRACT

In some areas of Ohio, TSP and S0? air quality levels are near or above
the annual standards.  This study was designed to determine the area
source emissions for 22 counties, and calculate the contribution of the
area sources to the ambient air quality for an area wide receptor grid.
To determine if problems will be encountered in maintaining air quality
standards in the future, the area source emissions were projected for the
years 1980 and 1985.
                                IV

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                                CONTENTS




                                                                    Page




Abstract                                                            iv




List of Figures                                                     vii




List of Tables                                                      xiv




Sections




I      Introduction                                                 1




II     Point Source Emission Inventory                              3




III    Area Emission Inventory                                      11




IV     Model Calibration                                            83




V      TSP Air Quality                                              103




VI     Projection of Emission Inventory                             110




VII    Recommendations                                              180




VIII   References                                                   182




Appendices




A      Program "Extract" and Sample Output                          184




B      Program Listing and Sample Output of "ALLO"                  196




C      NEDS Area Source Forms                                       205




D      Emission Sources for the Akron/Canton AQMk                   228




E      Emission Sources for the Cleveland AQMA                      239




F      Emission Source for the Columbus AQMA                        256
                                 v

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                          CONTENTS (continued)




Appendices                                                          Page




G      Emission Sources for the Dayton AQMA                         261




H      Emission Sources for the Mansfield AQMA                      269




I      Emission Sources for the Toledo AQMA                         272
                                vi

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                             LIST OF FIGURES


No.                                                                 Page

1      Location of Particulate Point Emissions and TSP Monitors
       in the Akron-Canton AQMA                                     5

2      Location of Particulate Point Emissions and TSP Monitors
       in the Cleveland AQMA.                                        6

3      Location of Particulate Point Emissions and TSP Monitors
       in the Columbus AQMA                                         7

4      Location of Particulate Point Emissions and TSP Monitors
       in the Dayton AQMA                                           8

5      Location of Particulate Point Emissions and TSP Monitors
       in the Mansfield AQMA.                                        9

6a     CAASE 2 Output for Belmont County                            20

6b     CAASE 2 Output for Butler County                             21

6c     CAASE 2 Output for Clark County                              22

6d     CAASE 2 Output for Clermont County                           23

6e     CAASE 2 Output for Columbiana County                         24

6f     CAASE 2 Output for Cuyahoga County                           25

6g     CAASE 2 Output for Franklin County                           26

6h     CAASE 2 Output for Geauga County                             27

6i     CAASE 2 Output for Greene County                             28

6j     CAASE 2 Output for Hamilton County                           29

6k     CAASE 2 Output for Jefferson County                          30
                                vii

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                       LIST OF FIGURES (continued)






No.                                                                page




6£     CAASE 2 Output for Lake County                              31




6m     CAASE 2 Output for Lorain County                            32




6n     CAASE 2 Output for Lucas County                             33




60     CAASE 2 Output for Monroe County                            34




6p     CAASE 2 Output for Montgomery County                        35




6q     CAASE 2 Output for Portage County                           36




6r     CAASE 2 Output for Richland County                          37




6s     CAASE 2 Output for Stark County                             38




6t     CAASE 2 Output for Summit County                            39




6u     CAASE 2 Output for Warren County                            40




6v     CAASE 2 Output for Wood County                              41




7a     CAASE 3 Output for Belmont County                           42




7b     CAASE 3 Output for Butler County                            43




7c     CAASE 3 Output for Clark County                             44




7d     CAASE 3 Output for Clermont County                          45




7e     CAASE 3 Output for Columbiana County                        46




7f     CAASE 3 Output for Cuyahoga County                          47




7g     CAASE 3 Output for Franklin County                          48




7h     CAASE 3 Output for Geauga County                            49




7i     CAASE 3 Output for Greene County                            50




7j     CAASE 3 Output for Hamilton County                          51




7k     CAASE 3 Output for Jefferson County                         52




7£     CAASE 3 Output for Lake County                              53
                                viii

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                       LIST OF FIGURES  (continued)






No.                                                                 Pa




7m     CAASE 3 Output for Lorain County                             54




7n     CAASE 3 Output for Lucas County                               55




7o     CAASE 3 Output for Monroe County                             56




7p     CAASE 3 Output for Montgomery County                         57




7q     CAASE 3 Output for Portage County                            58




7r     CAASE 3 Output for Richland County                           59




7s     CAASE 3 Output for Stark County                               60




7t     CAASE 3 Output for Summit County                             61




7u     CAASE 3 Output for Warren County                             62




7v     CAASE 3 Output for Wood County                               63




8a     Grid System for the Akron-Canton AQMA                        64




8b     Grid System for the Cincinnati AQMA.                          65




8c     Grid System for the Cleveland AQMA                           66




8d     Grid System for the Columbus AQMA                            67




8e     Grid System for the Dayton AQMA.                               68




8f     Grid System for the Mansfield AQMA                           69




8g     Grid System for the Steubenville AQMA                        70




8h     Grid System for the Toledo AQMA                               71




9a     Particulate Emission Density for the Akron-Canton AQMA       75




9b     Particulate Emission Density for the Cincinnati AQMA         76




9c     Particulate Emission Density for the Cleveland AQMA          77




9d     Particulate Emission Density for the Columbus  AQMA           78




9e     Particulate Emission Density for the Dayton AQMA             79
                                 ix

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                       LIST OF FIGURES  (continued)


No.                                                                 Page

9f     Particulate Emission Density for the Mansfield AQMA           80

9g     Particulate Emission Density for the Steubenville AQMA        81

9h     Particulate Emission Density for the Toledo AQMA              82

10     TSP Calibration for the Akron/Canton AQMA                    86

11     TSP Calibration for the Cleveland AQMA                       87

12     TSP Calibration for the Columbus AQMA                        88

13     TSP Calibration for the Dayton AQMA                          89

14     TSP Calibration for the Mansfield AQMA                       90

15     TSP Calibration for the Toledo AQMA                          91

16     TSP Calibration for the Akron/Canton AQMA with  Fugitive
       Dust Sources                                                 98

17     TSP Calibration for the Toledo AQMA with Fugitive  Dust
       Sources                                                      99

18     TSP Air Quality for the Akron/Canton AQMA                    104

19     TSP Air Quality for the Cleveland AQMA                       105

20     TSP Air Quality for the Columbus AQMA                        106

21     TSP Air Quality for the Dayton AQMA                          107

22     TSP Air Quality for the Mansfield AQMA                       108

23     TSP Air Quality for the Toledo AQMA                          109

24     Particulate Emission Density for the Akron/Canton AQMA
       (1980)                                                       120

25     Particulate Emission Density for the Cincinnati AQMA (1980)  121

26     Particulate Emission Density for the Cleveland AQMA (1980)   122

27     Particulate Emission Density for the Columbus AQMA (1980)    123

28     Particulate Emission Density for the Dayton AQMA (1980)      124

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                       LIST OF FIGURES (continued)


No.                                                                 Page

29     Particulate Emission Density for the Mansfield AQMA (1980)    125

30     Particulate Emission Density for the Steubenville AQMA
       (1980)                                                       126

31     Particulate Emission Density for the Toledo  AQMA (1980)       127

32     Particulate Emission Density for the Akron/Canton AQMA
       (1985)                                                       128

33     Particulate Emission Density for the Cincinnati AQMA (1985)   129

34     Particulate Emission Density for the Cleveland AQMA (1985)    130

35     Particulate Emission Density for the Columbus AQMA (1985)     131

36     Particulate Emission Density for the Dayton  AQMA (1985)       132

37     Particulate Emission Density for the Mansfield AQMA (1985)    133

38     Particulate Emission Density for the Steubenville AQMA
       (1985)                                                       134

39     Particulate Emission Density for the Toledo  AQMA (1985)       135

40a    Particulate Area Grid Emissions for Belmont  County in 1980    136

40b    Particulate Area Grid Emissions for Butler County in 1980     137

40c    Particulate Area Grid Emissions for Clark County in 1980     138

40d    Particulate Area Grid Emissions for Clermont County in 1980   139

40e    Particulate Area Grid Emissions for Columbiana County in
       1980                                                         140

40f    Particulate Area Grid Emissions for Cuyahoga County in
       1980                                                         141

40g    Particulate Area Grid Emissions for Franklin County in 1980   142

40h    Particulate Area Grid Emissions for Geauga County in 1980     143

40i    Particulate Area Grid Emissions for Greene County in 1980     144

40j    Particulate Area Grid Emissions for Hamilton County in
       1980                                                         145

                                 xi

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                       LIST OF FIGURES (continued)
No.
40k    Particulate Area Grid Emissions for Jefferson County in
       1980                                                         146

40.0    Particulate Area Grid Emissions for Lake County in 1980      147

40m    Particulate Area Grid Emissions for Lorain County in 1980    148

40n    Particulate Area Grid Emissions for Lucas County in 1980     149

40o    Particulate Area Grid Emissions for Monroe County in 1980    150

40p    Particulate Area Grid Emissions for Montgomery County in
       1980                                                         151

40q    Particulate Area Grid Emissions for Portage County in
       1980                                                         152

40r    Particulate Area Grid Emissions for Richland County in
       1980                                                         153

40s    Particulate Area Grid Emissions for Stark County in 1980     154

40t    Particulate Area Grid Emissions for Summit County in 1980    155

40u    Particulate Area Grid Emissions for Warren County in 1980    156

40v    Particulate Area Grid Emissions for Wood County in 1980      157

41a    Particulate Area Grid Emissions for Belmont County in 1985   158

41b    Particulate Area Grid Emissions for Butler County in 1985    159

41c    Particulate Area Grid Emissions for Clark County in 1985     160

41d    Particulate Area Grid Emissions for Clermont County in
       1985                                                         161

41e    Particulate Area Grid Emissions for Columbiana County
       in 1985                                                      162

41f    Particulate Area Grid Emissions for Cuyahoga County in
       1985                                                         163

41g    Particulate Area Grid Emissions for Franklin County in
       1985                                                         164
                                 xii

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                       LIST OF FIGURES (continued)


No.                                                                 Page

41h    Particulate Area Grid Emissions for Geauga County in 1985    165

41i    Particulate Area Grid Emissions for Greene County in 1985    166

41j    Particulate Area Grid Emissions for Hamilton County in
       1985                                                         167

41k    Particulate Area Grid Emissions for Jefferson County in
       1985                                                         168

41.0    Particulate Area Grid Emissions for Lake County in 1985      169

41m    Particulate Area Grid Emissions for Lorain County in 1985    170

41n    Particulate Area Grid Emissions for Lucas County in 1985     171

41o    Particulate Area Grid Emissions for Monroe County in 1985    172

41p    Particulate Area Grid Emissions for Montgomery County in
       1985                                                         173

41q    Particulate Area Grid Emissions for Portage County in
       1985                                                         174

41r    Particulate Area Grid Emissions for Richland County in
       1985                                                         175

41s    Particulate Area Grid Emissions for Stark County in 1985     176

41t    Particulate Area Grid Emissions for Summit County in 1985    177

41u    Particulate Area Grid Emissions for Warren County in 1985    178

41v    Particulate Area Grid Emissions for Wood County in 1985      179
                                xiii

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                             LIST OF TABLES


No.

1      Number of Emission Points and Total Emissions for Each
       County                                                       10

2      Average Percent Ash Content of Coal Burned in Each County    13

3      Particulate Area Emissions                                   17

4      Emission Factors and Data for Fugitive Emission Calcula-
       tions                                                        18

5      Particulate Area Source Emissions in Tons/Yr for 1974        73

6      Calibration and Correlation Data                             85

7      Calibration Data for the Akron/Canton AQMA                   92

8      Calibration Data for the Cleveland AQMA                      93

9      Calibration Data for the Columbus AQMA                       94

10     Calibration Data for the Dayton AQMA                         95

11     Calibration Data for the Mansfield AQMA                      96

12     Calibration Data for the Toledo AQMA                         97

13     Calibration Data for the Akron/Canton AQMA with Fugitive
       Dust Sources                                                 101

14     Calibration Data for the Toledo AQMA with Fugitive Dust
       Sources                                                      102

15     Projection Parameter for Area Source Categories              111

16     Growth Factors for Population, Industrial and Commercial/
       Institutional Area Sources                                   113
                                 xiv

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                       LIST OF TABLES (continued)






No.                                                                 Page




17     Projection Factors for VMT and Vehicular Fuels               115




18     Projected Aircraft Operations                                115




19     Particulate Area Source Emissions for 1980                    116




20     Particulate Area Source Emissions for 1985                    118
                                xv

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                                SECTION I
                              INTRODUCTION

In some areas of Ohio, TSP and S02 air quality levels  are near  or  above
the annual standards.  As part of a series of programs to model these
areas, and determine the sources which are contributing to the  problem,
this contract was initiated to develop an Area Emission Inventory  for
eight Air Quality Maintenance Areas (AQMA'S), and determine the contribu-
tion of area sources to the ambient TSP and S02 air quality levels.

To assist Ohio Environmental Protection Agency (OEPA)  in their  modeling
effort, two grid systems were developed for each AQMA, and the  area
emission contribution to the air quality at each grid  receptor  was
calculated.  Thus, for OEPA to obtain ambient air quality, all  that  is
required is the determination of the point source emission contribution
to each grid receptor, adding this contribution to the area source
contribution, and applying the calibration constants.   The first grid
system, which was developed for each AQMA, covered the AQMA with a
5 km separation between grid receptors.  The second grid system for  each
AQMA had a 2.5 km separation between grid receptors, and was developed
in conjunction with OEPA to cover the region in each AQMA which was
experiencing high TSP levels.

TSP emissions were the primary concern under this contract.  The methodol-
ogy utilized to develop the Area Emission Inventory was extracted from
"Guidelines for Air Quality Maintenance Planning and Analysis,   Volume 7:
Projecting County Emissions,"  and "Guide for Compiling a Comprehensive
                    2
Emission Inventory."   The methodology in References 1 and 2 was utilized
to obtain data for most categories on the NEDS Area Source Form.  Thus,

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              3
when the CAASE  programs were utilized for subcounty allocation and cal-
culation of the emissions, both particulate and SO  emissions were deter-
mined.  Although the SO- emissions are not discussed or tabulated in this
report, all model calculations were performed for both pollutants.  With
the data generated under this report, EPA or OEPA could readily calibrate
the predicted S02 air quality data which was generated under this con-
tract, and determine the ambient S02 air quality for each AQMA.

The contract was subdivided into a number of tasks which developed the
data required to determine the area emission contribution to the ambient
air quality at a number of receptors.  Under the first task a current
NEDS Point Source Inventory for the counties of interest was obtained
to determine the fuel utilization by point sources, and to extract from
the NEDS file the point source emissions which were required to validate
the model, and calculate the base year air quality.  Once the point source
fuel usage was determined, the area source fuel for each county could be
calculated.  The GAASE system was utilized to calculate the area emissions,
and allocate the emissions to subcounty grids.  With the completion of the
emission inventory, TSP air quality data was obtained from Region V,  and
                4
the model (MCDM)  was validated for the base year.

The calibration constants were then applied to the calculated air quality
to determine the regions of high TSP air quality.  Once the base year TSP
air quality had been calculated, a fine resolution grid which encompassed
the region of high air quality was defined, and the area source contribu-
tion to this grid was determined.

Under the final task of this contract the Area Emission Inventory was
projected for the years 1980 and 1985 using OBERS data, and the projected
inventory was allocated to the subcounty grids by means of the CAASE
programs.

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                                SECTION II
                      POINT SOURCE EMISSION INVENTORY

OEPA provided GCA with a NEDS formatted file of all point sources in their
inventory for the 22 counties in this study.  In order to obtain the data
required by the model MCDM, a GCA program "EXTRACT" was modified to extract
the point source data required by MCDM from the NEDS point source file, and
determine the fuel consumption by point sources.  Preliminary examination
of the file indicated a minor problem with the location of the comment
cards in the file, but modifications to "EXTRACT" overcame this difficulty.
When an attempt was made to generate the summaries for each county, and
generate the point source input for MCDM, errors were found in the file
for 10 counties.  The problem with the files was that for certain hydro-
carbon sources, "Card 6" of the NEDS Point Source Form had not been
included.

GCA undertook the task of examining the point source files for each county,
which had missing or erroneous data, and noting the problems on a computer
listing of the files which was sent to OEPA.  As a result of discussions
with OEPA and the project officer, another NEDS Point Source File was sent
to GCA, but this time the source of the previous problems; i.e., spray
booths and storage tanks, were not included in the file.  Since the new
file was received approximately 3 months after the original file, and the
file had been updated by OEPA, the new data (generation date 22 October
1976) was utilized for all counties, and the area emission inventories
were recalculated for those counties which had utilized the original data
files.

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The output summaries generated by "EXTRACT" were reviewed by OEPA to verify
the accuracy and completeness of the data.  The point source data cards
generated by "EXTRACT" were utilized to plot the plant coordinates on an
overlay of the county.  By examining the plot, a number of errors in the
plant coordinates were found and corrected.  In Figures 1 through 5,
the geographical distribution of the particulate point sources for each
AQMA is shown, as well as the location and air quality data for the monitors,

Table 1 is a tabulation of the number of point sources in the NEDS Point
Source Inventory for each county.  Additionally, emission points with po-
tential emissions greater than 25 tons/year were included as point sources
for modeling purposes, and Table 1 indicates their number and the per-
centage of total county particulate emissions they represent.  Emission
points which had emission rates less than the prescribed value were added
to the area emission grid square in which the emission point was located.
                                  4

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4S90
                               fJQMfl '  SCALE 1 • 250000
                                                     EM1I
                                                          * f *
                                                          < * <
                                                       1000 < X
                                                          <
                                                          < 4- <
                                                          < X «
                •*




                   'Sr
                        *>*        ~


                        >,*    *«*

4480
   490
                               KN  (IflSTIMO)
                                                                    510
         Figure 1.   Location of particulate point emissions
                     and TSP  monitors  in the Akron-Canton AQMA

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                CLEVELflHO
                                                                  no
Figure 2.  Location of particulate point emissions
           and TSP monitors  in  the Cleveland AQMA.

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4460
         1   ca'LUMB'us
           H	1-
SCALE   1 i 250000
4400
   300
                  _|	(     «	j-
                             KM  (EA3TINC)
                                                               360
        Figure  3.   Location of particulate point  emissions
                    and TSP monitors in the Columbus AQMA

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         4450
            I
            1C
            o
            te. .
CO
         4380.
            710
                                    DflYTON  flQMfl
SCALE  1  i 250000
                                                                                        PflRTICULRTES
                                                                                    EMISSION I_N TONS/YR
                                            A


                                            *

                                                                               +     z
                                                     KN   (EASTING)

                                Figure 4.  Location of particulate  point emissions  and

                                           TSP  monitors in the  Dayton AQMA
                                         BOO

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4550
MflNSFIELD flQMfl
                                     3CRLE  1  i 250000
                                                 PRRTJCULflTEl
                                             EMISSION IN TON3/YR
                                                100  < X <2Qi
                                                200  < f <
                                                500  < * <
                                                1000 < X
4480.
   340
                             KM   (EASTING)
                                                                00
      Figure 5.  Location of particulate point  emissions and

                 TSP monitors in the Mansfield  AQMA

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Table 1.  NUMBER OF EMISSION POINTS AND TOTAL EMISSIONS FOR EACH COUNTY

County
Belmont
Butler
Clark
Clermont
Columbiana
Cuyahoga
Franklin
Geauga
Greene
Hamilton
Jefferson
Lake
Lorain
Lucas
Monroe
Montgomery
Portage
Rich land
Stark
Summit
Warren
Wood

Number of
emission points
33
120
30
10
106
1,011
89
5
69
455
160
119
43
348
223
389
35
36
278
632
12
24
Particulate
emissions
tons/yr
9,834
11,210
11,035
9,698
3,518
72,565
14,526
74
12,253
56,698
176,198
13,845
51,663
10,207
11,200
18,742
894
6,444
71,964
15,005
256
2,523
Emission points with
potential emissions
greater than 25 tons/yr

Number of
emission points
16
Percent of
particulate
emissions
100.0
82 i 98.9
19
10
32
462
73
3
44
205
94
47
43
184
159
121
14
34
147
123
3
23
99.6
100.0
95.1
99.7
99.3
97.3
99.8
99.6
100.0
99.3
100.0
97.6
99.6
99.1
100.0
100.0
99.7
99.2
97.7
99.8
                               10

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                               SECTION III
                         AREA EMISSION INVENTORY

INTRODUCTION

One of the major tasks under this contract was the development of an area
emission inventory for 22 counties in Ohio.  Following the instructions in
References 1 and 2, an area emission inventory was developed for each
county.  Reference 3 was then utilized to allocate the missions to sub-
county grids.  The basic data sources referenced in generating the emis-
sion inventory are:
    •   Mineral Industry Survey
    •   Highway Statistics
    •   Med-X Census Tape
                         Q
    •   Census of Housing
                                9
    •   County Business Patterns
    •   Waterborne Commerce of the United States
    •   FAA Air Traffic Activity
                                     12
    •   Military Air Traffic Activity

Appendix B contains a listing and sample output of the program "ALLO" which
was developed to allocate fuel data from the state to the county level.  Ap-
pendix C contains the NEDS Area Source Forms which were completed for each
county.  In order to describe the derivation of the data in Appendix C,
each category will be described separately, as it appears in the form.

One item which is used for a number of emission calculations is the ash
content of each type of coal.  In order to determine the ash content of
                                   11

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coal burned in each county, the average ash content for each type of coal
was calculated from the ash content of the coal utilized by point sources
in 1974.  If coal was not utilized by point sources in a county, the av-
erage ash content for those counties utilizing coal would be used.
Table 2 lists the ash content for coal which was developed for each
county.

RESIDENTIAL AREA SOURCES

In order to determine the residential fuel usage in 1974, the number of
households in that year was required.  The estimated number of households
                                         13
was developed based on the estimated 1973   population since this was the
latest year for which data was available, and the 1970 value of inhabitants
per household obtained from Reference 8.  The fuel utilized for heating by
each household in 1974 was determined from Reference 8 by keeping coal and
wood burning households at 1970 levels, and increasing the number of house-
holds heating with oil and natural gas by the product of the ratio of the
market held in 1970 and the number of new households.  The fuels inventoried
for residential use are:  coal, distillate oil, natural gas, and wood.  For
each of these fuels an empirical equation has been developed (page 80, Ref-
erence 1)  to calculate the consumption of each type of fuel for residential
heating.

In order to obtain the state total residential fuel consumption, a weighted
average degree day was developed for the state.  Since the 22 counties were
distributed throughout the state, and contained 70 percent of the population,
it was felt that this data would give a good representative value for an
average degree day.  The average degree day value of 5624 was developed as
a weighted average of the degree days applicable to a county multiplied by
the average number of rooms per housing unit, and the total number of house-
holds.  The above procedure corresponds to a Level 3 inventory for residen-
tial fuel consumption.
                                  12

-------
   Table 2.  AVERAGE PERCENT ASH CONTENT OF COAL
             BURNED IN EACH COUNTY
County
Belmont
Butler
Clark

Clermont
Columbiana
Cuyahoga
Franklin
Geauga
Greene
Hamilton
Jefferson
Lake

Lorain
Lucas
Monroe
Montgomery
Portage
Richland
Stark
Summit
Warren
Wood
Anthracite coal
14. 6a
14. 6a
14. 6a
a
14.6
14. 6a
14. 6a
14. 6a
14. 6a
14. 6a
14. 6a
14. 6a
14. 6a
a
14.6
14. 6S
14. 6a
14.6
14. 6a
14. 6a
14. 6a
14. 6a
14. 6a
14. 6a
Bituminous coal
12.0
9.5
15.5

23.1
15.3
7.9
8.7
7.1
7.2
12.0
14.8
14.4

13.6
13.4
11. 5a
14.4
8.0
8.1
7.7
12.3
10.0
6.9
Average value for this type of coal
                     13

-------
COMMERCIAL/INSTITUTIONAL AREA SOURCES

To obtain the Commercial/Institutional (C/I) fuel totals for a county, the
state residential distillate fuel oil is subtracted from the state distil-
late heating oil fuel category found in Reference 5.  The remaining fuel is
allocated to counties based on the ratio of the county C/I employment to the
state total C/I employment.  The point source fuel consumption of distillate
oil is subtracted and the remaining distillate oil is considered the area
source fuel.  The above procedure is also performed for residual oil except
that it is assumed that no residential sources heat with residual oil.  The
natural gas and coal C/I area source fuel is determined by allocating the
state C/I natural gas and coal consumption found in Reference 5, to counties
based on C/I employment.  The point source C/I natural gas and coal consump-
tion is then subtracted from the county total to obtain the area source fuel.
No data was available on the use of wood by C/I area sources, and this field
was set to zero.  The methodology utilized for C/I area sources is similar
to Level 2 of Reference 1, except that all fuel used, for heating was allo-
cated to the residential and C/I category.

INDUSTRIAL AREA SOURCES

To obtain the industrial fuel totals for a county, the state totals for
coal, oil (distillate and residual), and natural gas were determined from
Reference 5 and allocated to counties based on the ratio of county indus-
trial employment to state industrial employment.  The point source fuel
consumption for each fuel was then subtracted from the county total to ob-
tain the industrial area sources.  Since no data was available on the
industrial area source consumption of coke, wood and process gas, these
fields were set to zero.

In Reference 1, it is recommended that the state point source fuel totals
be subtracted from the state fuel totals before allocation of the remaining
fuel to the counties.  Since state point source fuel totals were not avail-
able, the state fuel totals were allocated to counties based on C/I or
                                    14

-------
 industrial  employment, and  the  county  point  sources were  subtracted  to  ob-
 tain the  county  area  fuels.   In many cases,  the  area  fuels were negative;
 i.e.,  point sources consumed  more  fuel than  was  allocated to  the  county and
 in many cases  there was  a large amount of  area source fuel.   It was  decided
 to sum the  surpluses  and deficits  in the area source  fuels to  see if the
 sums were nearly the  same.  As  a result of these calculations, the follow-
 ing area  fuels were set  to  zero:   C/I  coal,  industrial coal, and  industrial
 oil (distillate  and residual).  The methodology  used  for  Industrial  Area
 Sources is  comparable to a  Level 2 update  as specified in Reference  1.

 TRANSPORTATION AREA SOURCES

 To obtain gasoline and diesel fuel sold, Reference 6  was  utilized  to  obtain
 state  totals for on and  off-highway fuel usage.  The  state on-highway fuel
 consumption was  allocated to  the counties  based  on automobile and  truck
 registration.  Gasoline  was further allocated to light and heavy  duty ve-
 hicles based on  the assumption  that 89  percent of the gasoline is  burned by
 light-weight vehicles as recommended in Reference 1.  For some counties
 (Butler,  Clermont, Hamilton,  Warren, Franklin, Cuyahoga, Lake, Lucas, Mont-
 gomery, Stark, Summit) a breakdown of VMT  by road type was available  from
 Region V  for 1975.  For  the remaining counties, VMT was calculated based
 on gasoline and  diesel fuel sold in the county, and allocating the VMT  to
 the  rural and urban categories based on the population density code for the
 county, as  recommended by Reference 1.   These codes were extracted from a
 1972 Area Emission Inventory  for the selected counties which was  obtained
 from Region V.  For those counties for which VMT data was available,  the in-
ventory corresponds to a Level 3 update, and the remaining counties are
Level 2 updates.   Off-highway fuels were allocated to counties based on
population.   State railroad fuel totals were allocated to counties based
on the ratio of county railroad mileage to state railroad mileage which was
obtained from the Ohio Department  of Transportation,  Bureau  of Systems
Planning.
                                  15

-------
Aircraft operations for all airports with FAA towers was obtained from
References 11 and 12.  For small local airfields, data on the number of
operations, which is coded on FAA 5010 forms, was obtained from FAA for all
public airfields.  This data estimated the number of operations for most
airports, but when no estimated operations are available, GCA estimated the
number of operations by multiplying the number of based aircrafts by 365 to
obtain yearly operations, as suggested in Reference 2.

For vessels, the procedure in Reference 2 was utilized.  Since Reference 10
details the travel between ports, underway fuel was allocated by mileage to
counties along the river for vessels docking upstream.  Contact with the
Port of Cleveland and Port of Toledo Lake Carriers Association indicated
no compilation was avilable on coal consumption by vessels.   The. gasoline
usage by vessels was set to zero since it is included in off-highway fuel
usage.

The allocation of railroads, aircraft and vessels corresponds to a Level 3
update.

FUGITIVE AREA SOURCES

An attempt was made to include fugitive sources in the particulate emission
inventory.  The report "Emissions Inventory of Agricultural  Tilling, Un-
paved Road, and Airstrips and Construction Sites"   was utilized to obtain
an emission inventory for fugitive particulate sources.  The data is coded
on the area source forms, but when the appropriate emission  factors were
applied, the emissions seemed extremely high, and were not used for
modeling  (see Table 3).  Table 4 contains the emission factors and the
data utilized to calculate the fugitive emissions.  To calculate the emis-
sions from a source, the emission factor for that category is multiplied
by the appropriate variable; e.g., VMT on dirt roads.  Previous work by
GCA has indicated that a local inventory of fugitive sources must be com-
piled, rather than the values in Reference 14 which are excessive for some
portions of the country.

                                   16

-------
Table 3.  PARTICULATE AREA EMISSIONS
County
Belmont
Butler
Clark
Clermont
Columbiana
Cuyahoga
Franklin
Geauga
Greene
Hamilton
Jefferson
Lake
Lorain
Lucas
Monroe
Montgomery
Portage
Richland
Stark
Summit
Warren
Wood
Particulates,
tons/yr
749
1,402
954
662
899
6,430
4,113
438
655
4,203
776
1,381
1,444
2,132
99
2,602
861
860
1,972
2,718
689
577
Particulates, tons/yr
with fugitive sources


127,916





91,149




177,992

171,318
143,422

252,608
177,410

110,965
             17

-------
                          Table 4.  EMISSION FACTORS AND DATA FOR FUGITIVE EMISSION CALCULATIONS
County
Clark
Greene
Lucas
Montgomery
Portage
Stark
Summit
Wood
Dirt road
VMT, 1000 mi
33,300
22,600
18,900
31,300
38,100
63,500
34,400
27,900
Dirt road
emission factor,
Ib/vehicle-mi
3.24
3.24
3.24
3.24
3.24
3.24
3.24
3.24
Construction
acreage
1,020
854
3,750
3,900
1,090
2,580
3,710
709
Construction
emission factor,
tons /acre
17.0
17.0
17.0
17.0
17.0
17.0
17.0
17.0
Tilling
acreage
1000 acres
354
320
225
224
151
266
37
841
Tilling
emission factor,
Ibs/acre
9.77
17.20
8.64
8.97
7.78
7.78
8.97
12.50
oo

-------
 MISCELLANEOUS  AREA SOURCES

 For  on-site  incineration, GCA was unable  to  obtain  estimates  of  tonnage
 burned  in Ohio.   Open  burning is allowed  under  a permit  system and  approxi-
 mately  150 permits were  issued  in 1975.   Most permits were  issued for
 burning abandoned homes  as  a fire-fighting instruction.   Since the  emis-
 sion factors are  not well established  for this  category  and the  emissions
 are  insignificant,  they  were not included in the inventory.   Forest fires
 in Ohio burned 2,345 acres  of woodland and corresponds to 245 tons  of par-
 ticulate emission if it  is  assumed  that 12 tons were burned per  acre as
 suggested in AP-42.    Since the sum is small and each fire consumed about
 4 acres,  it was determined  that the effort required to obtain the breakdown
 of fires  by counties and allocate to the  appropriate grid would  not be cost
 effective.  The Ohio State  Agricultural Department  indicated  that an in-
 significant amount  of  agricultural waste  burning occurred, and the  emis-
 sions from orchard  heaters  was insignificant.  The amount of  solvents pur-
 chased  per county was  calculated based on population as  suggested in
 Reference 1.

 ALLOCATION OF  AREA  SOURCES  TO SUBCOUNTY GRIDS

 The  county data was allocated to subcounty grids using the CAASE methodology.
 The  programs are  described  in Reference 3.  The general approach utilized to
 generate  the grid system for each county was to have high population density
 areas overlaid by a 2.5  km  grid, less urban areas overlaid with a 5 km grid,
 and  rural areas had a  10 km grid.   The second constraint which was utilized
was  to develop a  grid  system that nearly replicated the county outline and
would not overlay adjacent county grids.

Figures 6a to  6v  show  the population distribution from CAASE  2, and
Figures 7a to  7v  show  the grid system which was developed for each
county.   The first number in each grid square is the last four digits of
the grid square number, and the second value is the 1974  emission rate
of particulates (tons/year)  by area  sources.   In Figures  8a  to 8h
                                   19

-------
4460
 STRTE OF
COUNT.Y OF
 OHIO
BELMONT
                                                        1	1
                                        SCRLEi   1 KM i  250000  KM
                                           1  IN  RflD i   5000 PEOPLE
                   <$   o
                G
                          O
                          0
                            \©
                          ©
                                  o
4380 J
   470
                       i     i
                                     H	1-
                                KN  CERSTING)

                Figure  6a.   CAASE  2  output for Belmont  County
                                                             540
                                 20

-------
4400
"+~STfllTE~OF  """""oRta"

 CQUNT.Y  QF     BUTLER
                                          SCRLEs  1-KM :-250000  KM

                                             1 IN RflD :   5-000 PEOPLE
   X
   I—
   oc


   z
4330.
   670
                       -t	h-
                                  KM  (EflST'INO)
                                                          H	1	(-
                                                               -J
                                                                          740
               Figure  6b.   CAASE 2 output  for Butler County
                                  21

-------
4450
   tn
   6D
          ST.RTE  0F
         COUNTY'OF
4390 i	,_
   740
 OHIO
CLflRK
SCflLE:  1 KM s  250000  KM
   1  IN RRQ :   5000 PEOPLE
                                 KM   (EHSTING)
                                                                       [
                                                                       810
                Figure 6c.   CAASE 2 output for Clark County
                                22

-------
4360
             _+.	I	1	l_
 STflTE-OF-     OHIO

C0UNT.Y OF    CLERMONT
                                         SCfiLE:   1 KM : 250000  KM

                                            1  IN  RRD :  5000  PEOPLE
                                                                        f
   z ..

   I
   I-
   tr:
                                  ©
                                     o
4290.
   710
                                 KM  CEflSTING)
                                                                        780
               Figure  6d.   CAASE  2  output for Clermont County
                                  23

-------
4550
          STR'TE  G'F'   OH!O
                                H	I-
                                      SCALEi   1 KM i 250000  KM
       COUNTY OF     COLUMBIflNR       1  IN fiflD •  sooo PEOPLE
S

1-4
I


O,
                           0
                            © o
                                 ©
                                            o
4480.
   480
         I     »
                       I -- 1
H	1 •   t
 KN   (ERSTING)
                                               »••  — t
                                                                     550
                Figure 6e.   CAASE 2 output for Columbians County
                                  24

-------
4830

 STftTE OF
COUNT.Y OF
                          OHIO
                        CUYflHOGfl
SCflLEt  1 KM t  250000  KM
   1  IN RAO i   5000 PEOPLE
   I
   5
4560.
   410
                  I     I	1     t    I-
                                KK  (ERST IMG)
                                                              80
              Figure 6f.  CAASE 2 output for Cuyahoga County
                                25

-------
4460
           STflTE OF      OH Id           scflLEt   i  KM  : 250000  KM

         COUNTY OF     FRflNKLIN          l.INRHD:  5000 PEOPLE
   Z. .
   1—4

   X
   on
   o
4390.
   290
              1	1
-t	1	1

 KM   (EflSTJNG).
                                                          -i——-i	1-
360
                Figure 6g.  CAASE 2 output for Franklin County
                                   26

-------
 4640
4570J	
   4SO
' STflTE O'F   '  OHIO
COUNTY OF    GEflUGR.
                                         SCRLEt  1  KH 1.250000  KM.
                                           1 IW RRD  t  5000 PEOPLE-
                                KM
                                                                       20
                Figure 6h.  GAASE 2 output for Geauga County
                                 27

-------
4430
        5TRTE OF      OHIO
       COUNTY OF     GREENE
                       -1	-t	*	(	H	1-
                                                         -t	-»	H	
                                         SCflLE:   1 KM :  250000  KM
                                            1  IN  RflD :   5000  PEOPLE
Z
>—4
I
I—
CC
                              'J   0     O
                                                      0
                                            O    ©
4370
   730
                                            H	1	1-
                                 KM  CERSTING)
                                                                        800
                Figure  6i.   CAASE 2 output for Greene County
                                   28

-------
4370 ,	
   2 .

   Z
           STflTE  OF      OHIO           SCflLEs  1 KM :  250000  KM
          COUNTY  OF     HRMILT3N          1.IN.RRD-:   5000 PE0P-LE-
4300
   680
                                   KM  (EflSTING)
750
                 Figure 6j.   CAASE 2  output for Hamilton County
                                    29

-------
4500
   1
' STflTE  OFOHIO
COUNTY'OF    JEFFERSON
                                        • •«    «	—H	1   • «
                                        SCALE i  1 KM  1-250000 KM.
                                           l.IMRfiO-i  5000. PEOW.€
4430.
   480
         t    t - 1 - >    »    i    t -- 1 - 1-
                                KH  (ERST INS*
                                                             550
             Figure  6k.  CAASE 2 output for Jefferson County
                                30

-------
4850
           STflTE-OF-     OHIO'
         COUNTY-OF-    L-RKE-
                                 "I    -4
SCflLEi  1 KM i  250000  KM.

   1. IK RflO-i.  5000 PEOPLE
   I
4580.
   440
                                 KM  (ERST J NO
                               10
                 Figure  6,0.   CAASE  2  output for Lake County
                                 31

-------
4810.
          STflTE-OF      OHIO
         caiwrroF     LORRJN
SCALEi  1 KM i 250000  KH

   1 IN RflO t  5000 PEOPLE
                      0   0
                            ©
   O
4540.__
   370
                                KH  (EHSTJNC)
                             440
                 Figure 6m.  CAASE 2 output  for  Lorain County
                                 32

-------
4840
         ' STfl'lE- OF    '  OHIO
         COUNTY OF     LUCflS
SCflLE:  1 KM i  250000  KM
   l.IM RflO-i  5000 PEOPLE
                                                        0
4570 J	*.
   250
                                 KM  (ERSTIN6)
               -«	1	»-
                                                                        320
                  Figure 6n.  CAASE 2 output  for Lucas  County
                                   33

-------
4430
 STRTE OF
CQUNTY'QF
 OHIO
MONROE

   460
                            0
                          ©
                     ©    ©
                                       scflLE:.  i- KM. :- 250000  KH
                                          i  IN  RRD :   5000 P.EQPLE
                                         ©
                                        ©
                                         0
                               KM  (F.RSTING)
                          ©


                        0'

                        0
                         3
                                                                 --I
                                                                     53°
              Figure 60.   CAASE 2  output  for Monroe County
                               34

-------
4440
          STfiTE QF
         COUNTY QF
 3H I 0
MONTGOMERY
   r

   £ i
SCflLE:  1  KM :  250000  KM
   1  IN RflO :   b-000 PEOPLE
4370 i_
   700
        _i	1	1	1
         KM  CERSTING)
                              770
              Figure 6p.  CAASE 2 output for Montgomery County
                                35

-------
4590
H	*	-)	-<-
  STflTE QF
 COUNTY QF
                          OHIO'
                         PQRTflGE-
                                     -4	—t-
                                                         -t	1	
SCHLE-. - 1 KM : - 25-0000  KM
   1. IN. RRD- :   5000 PEOPLE
   cc
   E>
   z
4520.
   440
                                 KM  (ERSTING)
                       —,	J
                                                                        510
               Figure 6q.  CAASE  2  output  for  Portage County
                                 36

-------
      STflTE OF-     OHIO           SCRLE:  1 KM s  250000  KM
     :0UNTY 0F     RICHLRND'          i  IN. RRO :   sooo PESPIE
4480 J_
   340
                                  O
H	1	1	1-
 KM   (ERSTIN'G)
400
            Figure 6r.  CAASE 2  output  for Richland County
                             37

-------
4550
             -t	1	1	-i-
           STflTE- 9F-
         C3UNTY  QF-
 QHI3
STflRK
                                 -i	-+-
SCflLE:   1 KM s  250000  KM
   1-IN  RflD i   5000  PEOPLE
   ti

   :c
   i—
   a:
4480.
   430
             _)
                                 KM  CERSTING)
                                                                         500
                 Figure 6s.  CAASE 2 output  for Stark County
                                   38

-------
4590
   O
   oc
   63
   2
          STflTE- OF
         COUNTY  QF
 0HIQ
SUMMIT
SCflLE:  1 KM :  250000  KM

   1  IN RflD :   5000 PE0PLE
4520.
   420
                                KM  tEHSTING)
                                                                       490
                Figure 6t.  GAASE 2 output for Summit County
                                39

-------
4400 |	.	
          STflTE QF
         COUNTY QF-
 CHIO
WflRREN
SCflLE:  1 KM  : 250000  KM
   1  IN RHO :  5000 PEOPLE
4330J	
   700
                                KM  (ERSTING)
                                                                      770
               Figure 6u.  CAASE 2 output for Warren County
                                  40

-------
4620
          STflTE  0F    '  OHK
         COUNTY  QF     WOOD
SCHLEs   1 KM s-250000  KM

   1  IN  RRO- s   5000  PtOP-L-E-
   1
   H-
   OC

   Z '
4550.
   250
                                           _j	^	(	^	1	1-
                                 KM   (ERST ING)
                                                                         320
                Figure 6v.   CAASE 2 output for Wood  County
                                  41

-------
4460
          BELMONT  COUNTY
SCflLE:   1  KM:  250000 KM
   QC
710
22




510
34




310
48


110
23
730
23




530
23




330
22


130
37
750
39




550
52




350
20


150
37


770 780
19 0


570
43




370
3b


170
je

780
15
690
114


590
40
480
50


380
32


4400
   470
                               KM   (EflSTING)
                               530
                   Figure 7a.  CAASE 3 output for Belmont County
                                 42

-------
-p-
LO
          H-
         OP
          M
          O

          rt
         •«
          C
          n-
          o
          i-i

          w
          c
          rr
          i-1
          (D
          O
          O

          §
          It
                              CO


                           0)0

                           00
                           o
m

en
—i


O
                           ^s]


                           o
 KM    (NORTHING)
—i	1	1	1-
                                                                                               >£»
                                                                                               >£>>

                                                                                               O

                                                                                               O
                                                                                                                       CD
                                                                                                                       m
                                                    Oj

                                                    Q
                                                                                                                       -X
                                                    CO
                                                    o
                                                                               S3
                                                                                    as
    =8
                                                                                            ro
                                                                                            en
                                                                                            o
                                                                                            o
                                                                                            o
                                                                                            o

-------
 4450
4400

(Jb
-z.
»— t
1C
(—
cc
D
z "
2:
i^ -
0 .
	 t T ' 	 1 	 1 	 1 	 1 	 1 	 1 	 1 	 1 	 .
CLflRK COUNTY SCflLE: 1 KM: 250000 KM
-i- — 	 i
740

310
24
210
46
420
36
320
20
220
18
|

330
18
230
24

540
18
440
18
340
22
240
84

550
37
453
a
451
23
3SS
87
351
28


WM rc oc ••
454
11
452
33
3S4
58
3E2
28
580
27
480
21
380
57
ISO
35
570
1
580
71
370
42
170
49

r t wri

580
20
4W
0
380
1
280
0




-
'• — 1 — 	 -1
8
                      Figure 7c.   GAASE 3  output for Clark County

-------
4360
   tb

   t—I
   rr:
   i—
   QC

   Z
4290
CLERMONT C
-



	 1 	 1 —
01)
1014
35
1012
0
814
10
812
18
014
7
812
714
712
0

NTT SCflLE: 1- KM:- 250000 KM •
1120
13
1020
13
920
14
820
12
720
U
620
13
520
19
420
35

1130 1140
15 18
1030 1040
14 20
830
33
630
27
430
32
230
SB
IOSO
47
850
64
860
3S
24|°
250
b(







•
	 1 	 1 	 1 	 1 	 	 -> —
    720
                             KM   (ERSTING)
770
               Figure 7d.  GAASE 3 output  for Clermont County
                               45

-------
4540
          COLUMBIflNR COUNTY    SCRLE:  i KM: 250000 KM
   DC
   ED
   Z
eto
18


710
0
610
0


510
20


720
43




520
38








840
88


740
20
850
18


750
20


540
44


•40
48
140
38




780
80




S60
38


380
38
180
41




780
83




580
37


880
45
280 280
28 134

180
22
4480
   490
                                   H	h
                                                   H	h
                              KM   (EflSTING)
550
                 Figure 7e.  CAASE 3 output for Columbiana County
                                 46

-------
4620
   i:
   t—
   oc
4560

    410
CUYRHGGR COUNTY SCRLE: i




510
44
418
44
310
41
210
ta


521
18
423
22
421
21
323
0
321

522
30
424
24
422
18
324
31
322
15
220
46
120
25


S33
23
531
41
433
39
3*0"
333
16
331
12

534
32
532
83
434
45
5f
334
27
332
16
230
23
130
18
	 1 	
543 544
35 18
541 542
S3 67
448 444
45 29
441 442
13 37
343 344
32 49
341 342
40 20
240
45
140
U
553 554
14 49
551 552
47 22
453 454
SO 11
451 452
52 12
853 854
46 a
361 852
29 15
250
27
ISO
20

683 884
23 88
881 882
106 88
U3 S4
S81 582
49 14
483 484
44 46
481 482
23 135
383 384
15 18
381 3S2
8 11
280
17
180
19
	 1 	 1 1 	 I
KM:
771
37
873
82
871
46
1?
S1
o473
471
142
373
42
371
11
250000

774
38
772
39
874
SI
872
35
U4
572
474
0
472
97
374
29
372
881
SO
783
25
781
18
883
22
881
34
S3
581
9
483
15
481
43
383
21
381
24
882
28
784
18
782
31
884
14
882
24
584
9
582
8
484
9
482
13
884
382
9
KM
791
9
8«
S4

712
0
1
590
22
490
21
380
22
1 1 	
4
r • • —



•
-
                                  KN   (ERSTIN&)
                                                                           470
                 Figure 7f.  CAASE 3  output for Cuyahoga County
                                    47

-------
00
CO
o
o
p-
(D
OQ
•
CO 3
O
P i *
1 5
Ml —
r\ ^*
&)
>r Franklin County
*>>
o
(





KM (NORTHING)

8=
O
•
*
•i

CD
o
•
=i
4
=3

O
1
-i
»i
«l
-1
s§
1
O
«8
ss
5S
*l£
5fi
eg
rs
BS
'8
BS
=3
S8
*
SS
Ks
2g
—ft
8S
#.
SS
#.
=i
S3
"1
8«
Sg
82
ss
sg
Kg
Eg
g|
5§
*
^s
R£
«8
ya
=8
32
a
=i

S3
8
58
32
Kg
SS
ss
sg
i>
§
=8
Kg
5S
st
*g
sf
?
=1
BI


05
O

0
=i
ft
•— -J
~e
sa
ys
=
2
S2
01*4
*.
Ki-sJ
O1
»
»

=1
«8
»I
"8
=1
cn^l
o



DO
3D
1 —
O
Q
c.
-H
— <
CO
o
1—
m
••
PO
en •
o
o
o
0
3:

-------
4630
   e>
   z
   i—*
   1
   i—
   oc
4570

    450
GEflUGR COUNTY
•




	 1 	 1 	 1

510
8
410
9
310
10
210
IS

520
21
420
10
320
10
SCflLE: 1
730
in
830
0
530
e
430
0
330
8
120
18
740
ISI
54
26
750
a
9
340
21
140
18
	 1 	 1 	 t-
KM: 250000 KM
760
18
560
22
360
21
180
20





	 1 	 1 	 1 	 	 	 — l 	 ... -
                                   KM   (EflSTING)
510
                    Figure 7h.  CAASE 3 output for Geauga County
                                      49

-------
4430
   x:
   t—
   cc
4370
           GREENE  COUNTY
SCflLE:   1  KM:  250000 KM










	 1 	


504
0
502
6
404
5
402
S
304
12
302




610
36
510
se
410
41
310
IS
11



820
«/
520
12
420
13
320
34
J



BSD
3
530
78
430
16
330
89
13
25
	 (•

640
ia

44
26

340
'
3





0


350
0
250
13
ISO
1
	 1



46
34


28
22
180




0



0

170
n
	 1


'







	 1 	 1._
   740
                               KM  (ERSTING)
                               800
                  Figure 7i.  CAASE 3 output for Greene County
                                  50

-------
4370
   tb
   oc
   
-------
4500
   cb
   oc
   o
   z
4440
JEFFER



	 1 —
SO
714
8
	 1
N COUNTY SCRLE: 1
820
31


820
31
420
35
220
38
120
0

130
23
840
34
640
31
640
20
440
43
660
100
460
23
240
31
140
17
ISO
28
1 1 	 1 1

880
26
760
38
660
38
580
124
460
37
360
21
\ — 1
KM: 250000 KM






i 	 —i —
    500
                            KM   (EflSTING)
550
         Figure 7k.  CAASE 3 output  for Jefferson County
                            52
-------
                              en
                              CD
                            tn
                            o
                                                                  KM    (NORTHING)
                                                                                                            >£>
                                                                                                            cn
                                                                                                            en
                                                                                                            o
                                                        KS
                                                                                                         rnj

                                                                                                         o
                                                                                                         Q
          OQ

          S
          (D
                                                                    Kg
Ul
CO
W

U>


O

rt
          rt

          Hi
          O
          K
                                                                           82
                                                                     Otf.
                                                                     -s
                           XI
                           CO
                           -H
CO
O
D
          (D


          O
                                                                                                                    CO
                                                                                                                    cn
                                                                                                                    o

                                                                                                                    o
                                                                                                                    o

                                                                                                                    ;*;
                                                                                                                    :z
                           cn

                           o
-------
4610
      LORflIN   COUNTY
    cb
45401
      SCflLE:   1.  KM:-  250000  KM
                                                   1002
                   710
                   42
                   sto
                   5t
                             890
                             48
                             730
                             42
                             no
                             30
                             S30
                             40
                         320
                         41
                         120
                         44
                                  841 842
                                  41  42
                                  843
                                  841
                                  24
                                     844
                                     SO
  842
  22
740
28
840
52
                                          KO
                                          46
       eso
       70
                                         763
     761
     48
                                         851
                                         a
                                            784
                                            14
782
SI
                                            8S4
                                            48
         852
         13
                                       440
                                       42
                                       240
                                       37
              MO
              35
                                                 880
     780.
     36
     880
     17
              580
              23
                                                       1071
            (70
            27
            870.
            17
770.
4D
870
17
            570
            22
                 380.
                 38
       580
       IB
    380
                                 KM   (EflSTING)
                                       430
              Figure 7m.  CAASE 3 output for  Lorain County
                                  54
-------
         4640
Ul
Ui
         4580



cb
z .
»— «
n:
j—
GC
D
Z '
z:
iC

0.
LUCflS COUNTY SCflLE: 1 KM: 250000 KM



710
0
720
0
SIO
S3

310
131
110
80
• i
250

730
27
830
27
£30
28
740
23
040
43
540
40
330
58
230
32


780
7S1 7S2 781 762 B'
« * " «* 673
6S3 654 863 664 *"
" ^ 5« «• 660
651 8S2 681 682 671 872 ="<
27 34 47 72 33 35
580
553 554 583 S84 573 574 '""
18 30 83 3S 38 U ^ ^
551 552 581 562 571 572 ** "
14 30 44 27 33 13
450
ee


{ - 	 , 	 1 	 , 	 , 	 , 	 1 	 , 	 ,
K M rtroQT T Mm
                                                                                                 320
                                  Figure 7n.  CAASE 3 output for Lucas  County
-------
4420
     MONROE  COUNTY
   cc
   O
SCflLE:   1  KM:  250000 KM
eto
4


510
0

410
4


310
0
210
4




520
15





320
11




120
9


540
7





340
7




140
8




SBO
8











330



280
4




270
4







e










4370
   470
                         KM   (ERSTING)
                          520
           Figure 7o.  CAASE 3 output for Monroe County
                           56
-------
CO
00
- J C3
D

Tl
H-
OQ
C
>"f
m
•a
*

1
w 5
3 g
^ rt —
C X
rt co
HI -i
0 ^
C7)

o
o
rt
o

3
O
O
§
rt
*<
























0

o^-
M
O
K>5
o
"i


a»*-




"8
"s


oro
O

i>

KM (NORTHING) 1

a
QV
a
_^.
m
"5



CuM
-s



ft 
O


tn
o



^5
*~ *•
N
«Si


Eg
rs


£S
So*
s
fu*.
*•
oS


JjSl
*s


"I
£3
OCR
*-**n
M
£8


SS
SS


53g
8Q
"s
K>cn
*•
Kg


S2
^S


•>
C3



a


o


o
«



ottn



J
o

-s



* cn



"8
O

ID"
— <
o
a
cz
• •(
— <
CO
o
X)
1—
*™


-
^:
3
rv>
en •
o
o
o
o
^:


-------
4590
     r
          PORTflGE  COUNTY
SCflLE:   1  KM:  250000 KM
   CC
   ED
4530
   450








514
12
512
30
414
14

412
0







810
"

710
,3
810
23

523 524
13 0
521 522
as 11


420
30



310
i"
210
21

820
2;

720
it
620
2

533 534
0 ID
531 S32
24 fl


430
3i



320

220
13




730
«



540
S8








330
40




110
41


740
«J



550
51








340
58




120
52
                               KM   (EfiSTING)
                               510
                Figure 7q.  CAASE 3 output for Portage County
                                 58
-------
4550
            RICHLflND  COUNTY
     SCflLE:    1  KM:  250000 KM
t£>
2 .
I—1
X
M
or
                           1010
                           •10
                           19
                           810
                           18
                           710
                           1
                                    920
                                    34
                                    720
                                    46
                              510
                              96
                                 420
                                 IS
                                       MO
                                       23
                                       530
                                       42
430
17
                                        330.
                                        18
         •40
         31
         740
         43
      640
      57
                                            543
                                            52
                                            541
        544
        28
                                               842
                                               20
440
32
      940
      18
                                           130
      850
      27
             SSO
             21
880-
ie
                                                           540
                                                       860
                                                       35
                                                       150
                                                       54
4480
    340
                                     KM    (EflSTING)
                                          400
                      Figure 7r.  CAASE 3 output  for  Richland County
                                        59
-------
4550

   cc
   D




[
	 1
STflRK COUNTY
810
2?
510
1
410
1
310
27
210
110
31
820
41
520
25
420
46
320
31
830
33
530
23
433
28
431
40
434
432
zo
330
120
33
i 	 1 	 1 	
640
23
54
24
443
33
441
18
3
444
20
442
41
340
SCflLE: 1
810
710
25
650
37
553
22
SSI
23
4S3
38
451
70
SS4
11
552
37
454
58
452
84
350
130
	 1
	 1 	
720
47
880
56
37
463
30
461
28
)
484
18
482
12
380
25
870
3
570
77
470
23
370
SO
140
85


KM: 25000G KM
660
SI
460
51
220
6s
1 	 1 	 1
783
1
781
20
880
74
580
23
480
0
380
0

i 	 1 	
    440
                                  KM   (EflSTING)
500
                Figure 7s.  CAASE 3 output for Stark County
                                    60
-------
IU


3
•7
X
\~
or
o
2
id



0

SUMMIT COUNTY










— »

710
Sb
810
0
510
30
410
27
310
30
i
820
24
E20
2S
a-
123 324
11 21
321 322
16 30
210
33
110
24
| ( -(- — L 	 1 	 " 	
SCflLE: 1
1010
29
aio
38
1020
63
820
29
730
78
830
23
533
0
531
28
433
19
431
13
333
18
331
30
534
13
532
30
434
81
482
48
334
41
332
14
220
28
120
25

430
840
34
843 644
15 44
541 S42
24 33
443 444
38 21
441 442
37 48
843 344
43 44
341 342
16 13
230
30
130
25
1030
24
830
23
830
24
740
26
853
11
861
15
553
27
55,
.I'
IV
383
46
351
11
854
13
852
35
884
13
?F
464
12
4S2
20
3E4
25
382
12
240
25
140
130

1040
23
940
23
840
750
104
883
12
881
31
583
6|1
460
24
380
28

KM: 250000 KM










U-M fCQCTTMPl t
                                                           490
Figure 7t.  CAASE 3 output  for Summit County
                  61
-------
4400
5
i — i
i—
cc
D

4340.
l 	 — i 	 |
WfiRREN C


. i .
710
1
0UNTY
710



720
IS
820
520
o
420
28
320
14
220
21
123
0


124
7



SCRLE: 1 KM: 250000
730
830
530
5
430
IP
330
29
230
30
133
a

U-M
134
0
132
0
740
t,~3
54
30
440
16
340
IE
750
0
0
450
0
350
15
140
38

f COOT T M
780
Jt
770
1
580
360
121
180
77

rM
KM



•
•
i-
                                                         770
Figure 7u.   CAASE  3  output for Warren County
                  62
-------
 620
   tb

   i—t
   x;

   cc
4550
WOOD COUNTY scflLE



















SIO
19


310
2«
110
31

730
10
630
18


530
IS
840
8


740
10
840
21


640
62
330
19
130
23

860
31


: 1 KM: 250000 KM
1080
S3
880
1


750
18




550
41
350
22

150
21

870
60


770
23




S70
21


370
a
170
10

















	 1 	 1 	 1 	 1 	 1 	 1 	 1 	 1 i 	 4 	 1 — 	 ,„.
    250
                                  KM   (EflSTING)
310
                     Figure 7v.  CAASE 3 output for Wood County
                                    63
-------

1
1
s
4MO
4
flKflCfN-Cfl'NTOM RQMfl











































































































































SCRUi












1 KNi 280000 KM




























so '


KM














-












(EMTIN0I
510
Figure 8a.  Grid system for the Akron-Canton AQMA
                      64
-------
| -(BNIHJUMN) NX
4200
' ' ' CINCINNflTI



















































-

















fl





























OMfl


































KM.EI


















































1 KMi



















—


—


2SOOOO






























KM


























                   KM  CEMTJNW
Figure 8b.   Grid  system for the Cincinnati AQMA
                    65
-------
              CLEVELAND OOHfl
                               i •«« aom «
Figure  8c.   Grid system for the  Cleveland  AQMA
                      66
-------
t !
° KM (NORTHING) '
tOLU
MBUS





flQrffl







SCflLEi





































300










•









1 KM. 250000 KM

















KM (EASTING)





















•



360
Figure 8d.  Grid system for the Columbus AQMA
                  67
-------
00
445U
xQ KM CNORTHING)







' DflYTBN flOMfl
n












0 '
















h 1


























































SCALE i 1 KNi 250000 KM















































KH tEftSTJHW














i i
i

BOO
                                      Figure 8e.  Grid  system for  the Dayton AQMA
-------
4550
          MANSFIELD  RQMfl        SCRLEi  1 KHi 250000 KM
4480.
   340
                            KH  (EASTING)
                                                              400
       Figure  8f.   Grid system for the Mansfield AQMA
                           69
-------
                    flQlh.
                         tai.l< I mi WOOOon
                     W  HMTIIMI
Figure 8g.  Grid system for the Steubenville  AQMA
                      70
-------
i '•
P KM tNOBTHIHG). c
TOLEDO flQMfl











250

































SCflLEi


















KM







1 KHt 250000 KH















(ER3TING)













i
J20
Figure 8h.  Grid system for the Toledo AQMA
                  71
-------
the composite grids for each AQMA are plotted.  Table 5 breaks out
the TSP area emission inventory calculated by CAASE 5 for each source
category.  Figures 9a to 9h depict the area emission density for
particulates.  CAASE 4 has been modified to allocate railroad emissions
by the amount of track in each grid, and to allocate aircraft emissions
by the number of operations in the grid containing the airport.

One problem which arose in the allocation of emissions to grid squares,
was the allocation of some area sources by inverse population density.
Limited Access and Rural Road are allocated by inverse population density,
and in six counties (Cuyahoga, Franklin, Hamilton, Lucas, Montgomery,
Summit), this procedure allocated nearly all emissions from these two
vehicle sources to a grid.  For these counties, the excessive emissions
were redistributed uniformly over the county.

The methodology utilized to allocate fugitive emissions is proportional
to the grid side cubed for dirt road emissions, proportional to the in-
verse population density for dirt air strips, and proportional to the
grid square area for construction and land tilling emissions.  In the
original version of GAASE, dirt road emissions were allocated by inverse
population density, but due to the excessive emissions allocated to grid
squares with a few inhabitants, the side cubed allocation was developed
by GCA as an approximation to the inverse population density.
                                  72
-------
                              Table 5.  PARTICULATE AREA  SOURCE EMISSIONS IN TONS/YR FOR  1974
LO
                 Totals vary due to round-off.
Area source categories
Residential coal
Residential distillate oil
Residential natural gas
Commercial institutional
coal
Commercial institutional
distillate oil
Commercial institutional
residual oil
Commercial institutional
natural gas
Industrial coal
Industrial distillate oil
Industrial residual oil
Industrial natural gas
Incineration
Open burning
Off highway fuel usage
Aircraft operations
Vessel operations
Motor vehicle emissions
Railroads & miscellaneous
TOTAL3
Belmont
337
6
12

1
1
3
0
0
0
0
0
0
19
2
0
326
32
749
Butler
115
26
32
0
6
4
20
0
0
0
22
0
0
54
22
0
1,068
34
1,402
Clark
45
9
30
0
3
3
12
0
0
0
26
0
0
36
80
0
678
32
954
Clerraont
73
26
4
0
0
0
2
0
0
0
8
0
0
23
4
0
510
11
662
Columbiana
317
18
0
2
2
8
0
0
0
13
0
0
26
8
0
470
26
899
Cuyahoga
208
16
391
0
38
35
177
0
0
0
420
0
0
376
56
64
4,614
35
6,430
Franklin
140
19
176
0
15
13
55
0
0
0
249
0
0
197
170
0
3,029
51
4,113
Geauga
68
20
3
0
1
1
4
0
0
0
5
0
0
16
4
0
292
25
438
	
Preene
22
13
18
0
1
1
3
0
0
0
14
0
0
29
8
0
539
7
655
Hamilton
319
28
162
0
25
18
99
0
0
0
250
0
0
209
45
5
2,995
46
4,203
Jefferson
273
a
13
0
2
2
7
0
0
0
12
0
0
22
3
0
404
30
776
-------
  Table 5  (continued).  PARTICULATE AREA  SOURCE EMISSIONS IN TONS/YR FOR 1974
Area source categories
Residential coal
Residential distillate oil
Residential natural gas
Commercial institutional
coal
Commercial institutional
distillate oil
Commercial institutional
residual oil
Commercial institutional
natural gas

Industrial coal
Industrial distillate oil
Industrial residual oil
Industrial natural gas
Incineration
Open burning
Off highway fuel usage
Aircraft operations

Vessel operations

Motor vehicle emissions
Railroads & miscellaneous
TOTAL3
Lake
25
18
35
0

4

3

15


0
0
0
25
0
0
46
30

30

1,128
20
1,381
Lorain
62
7
54
0

7

6

26


0
0
0
37
0
0
60
42

0

1,101
40
1,444
Lucas
86
26
112
0

12

0

43


0
0
0
106
0
0
111
54

35

1,505
42
2,132
Monroe
25
2
3
0

0

0

0


0
0
0
0
0
0
3
1

0

58
7
99
Montgomery
79
17
121
0

19

17

67


0
0
0
126
0
0
137
72

0

1,911
35
2,602
Portage
135
16
17
0

2

2

6


0
0
0
12
0
0
30
2

0

606
36
861
Richland
81
10
25
0

4

*

0


0
0
0
26
0
0
30
37

0

612
33
860
Stark
296
20
76
o

11

Q

40


0
0
0
57
0
0
87
77

0

1,250
48
1,972
Summit
108
20
121
0

15

13

55


0
0
0
111
0
0
127
144

0

1,960
44
2,718
Warren
50
15
7
0

1

0

2


0
0
0
4
0
0
20
7

0

571
13
689
Wood
40
9
19
0

2

2

9


0
0
0
3
0
0
23
15

0

418
38
577
Totals vary due to round-off.
-------
     4590 ,	
                     RKRON/CRNTON  RQMR   SCRLE i  . 250000
                     TSP EMISSION  DENSITY FOR flREfl  SOURCES ONLT
    4490 i_
       430
  LEGEND
  irws/rn/so. Km
O-  1.0
A=  5. 0
+ •  10.0
•f"
X'
                                                                             11. )
                                                                             50.0
                                  KB  (EflSTING)
                                                                   510
Figure  9a.   Particulate emission density  for  the Akron-Canton AQMA
                                    75
-------
                    CINCINNRTI  flQHfl     scflLt  l • 250000
                    TSP EMISSION DENSITY FOR  BRER  SOURCES ONLY
                  O        On
                                        o
   1280 1	
     680
                              KH  (ERST I MCI
IEGEND

  i. o
  s.o
  10.0

  3'. 0
  40.1!
  SO. 0
Figure  9b.   Particulate emission  density  for  the  Cincinnati  AQMA
                                 76
-------
                  CLEVELAND RUHR     SCALE 1  I 250000
                  TSP EMISSION DENSITY FOR RRER SOURCES ONLY
                            KM  (EX3T1HG)
                                                                             LE6ENO
                                                                               5.0
                                                                               10.0
                                                                               •ti. o
                                                                               30. 0
                                                                               40. J
                                                                               SO. 0
Figure  9c.   Particulate  emission  density  for  the  Cleveland AQMA.
-------
                   4460
                                     ,	,
                               COLUMBUS RQMR        scflLE  i :  250000
                               TSP EMISSION  DENSITY FOR  RRER  SOURCES ONL
                      X
                      I—
                      DC
-j
00
                   4400.
                      300
                                                                                      0
                                                                                      x=
LEGEND
 CTONS/YR/SQ. KM)
   1.0
   5.0
   10.0
   20.0
   30. 3
   40. 0
   50.0
                                              KM   (ERSTING)
                                                                               360
                           Figure 9d.  Particulate emission density for the Columbus  AQMA
-------
4450
                    DffYTOtf BOHR        SCALE i • zsoooo'
                    TSP EMISSION DENSITY FOR flHEfl SOURCES ONLY
                                                           o
43*0 J
  710
                                 KM  IEBSTIMW
                                                                             LEGEND
                                                                            O"
                                                                            A-
1.0
5.0
10.0
20.0
30.0
40.0
SO.O
                                                                      BOO
       Figure  9e.   Particulate emission density  for  the Dayton AQMA
                                       79
-------
                    4550
00
o
                               MflNSFIELD flQMfl        SCflLE  i  : 250000
                               TSP EMISSION  DENSITY FOR  flREfl SOURCES  ONL
                                                                                     0 =
LEGEND
 (T8NS/YR/SO. KM)
   1.0
   5.0
   10.0
   20.0
   30. 0
   40. 0
   50.0
4480

340 KM


(EflSTING!


                                                                              400
                          Figure 9f.  Particulate emission density for the Mansfield AQMA
-------
           43701.
             170
                                   rfOMfl"1  sc'nu I • zsoooo''   "~
                         TSP EMISSION DENSITY FOR BREfl SOURCES ONLY
                                    KH  1FHST1ND)
LEUEND
 tTBNI/TH/BB. KM)
  1.0
  5.0
  10.0
  m. a
  jo. o
  40. n
  50.0
Figure 9g.  Particulate emission  density  for the Steubenville AQMA
                                       81
-------
  4640
               TOLEDO  flQMfi         SCRLE 1 I 250000
               TSP  EMISSION DENSITY FOR RREfi SOURCES  ONLY
  4560 i_
    250
LEGEND
 ITONS/TB/SO.
  1.0
  5.0
  10.0
  20. 0
  30.'1
  411. II
  50.0
                            KM  IEHSTINB)
                                                           320
Figure  9h.   Particulate  emission density for  the Toledo AQMA
                                   82
-------
                             SECTION IV
                          MODEL CALIBRATION

INTRODUCTION

The main reason for running an air quality model, such as MCDM, is to
obtain a representation of the air quality over a large region.  This
could be done alternatively by distributing a large number of monitors
over the area, but the cost of installing and maintaining such a network
is extremely expensive.  In practice, a small number of monitors are sited
in a region, and a model is run to calculate the air quality at the moni-
tors.  If the observed air quality is plotted against the calculated
value, a line with intercept 0 and slope 1 should go through all points.
In actuality, the model is not perfect, and a least squares linear re-
gression line is put through the data points.  This equation is the cali-
bration curve, and represents the best approximation to the data.   The
slope of the calibration curve should be approximately one, and the inter-
cept near a representative value of the background level.  If the cali-
bration curve is applied to the calculated air quality values, an accurate
representation of the air quality over the region can be obtained.

Under this contract,  the principal reason for running and calibrating
MCDM was to determine the regions of high TSP air quality so that  the
area source contribution could be determined for the problem area with a
finer receptor grid.   The principal task under this contract was the
development of the area emission inventory,  and the determination of
the area source contribution to the TSP air  quality.  Although the model
was calibrated and run with a 5 km grid, the calibration and modeling
results should be used with caution since an indepth analysis of the
                                  83
-------
monitors used for calibration was not performed, and all point source
data have not been verified by OEPA.

TSP MODEL CALIBRATION

As requested by the project officer, only six AQMAs were calibrated under
this contract.  The Cincinnati and Steubenville AQMAs were not calibrated
since both AQMAs are in regions of rough valley terrain, and MCDM does
not accurately calculate the air quality under these conditions.  Except
for the Cleveland AQMA, the calibration curves for the AQMAs were not
very good.  Table 6 lists the correlation coefficient, and the cali-
bration parameters for the AQMAs which were calibrated.  In Figures 10
through 15, the calibration data is plotted, and in Table 7 through
12, the air quality data and calculated data for each AQMA is tabulated
along with statistical parameters derived from the calibration curve.

In Figure 13, there is a monitor with an observed value of 83 ug and
a calculated value of 79.8 |j.g.  Since this data point calculated con-
siderably higher than the other monitors, the calibration was attempted
with the point removed, but no appreciable improvement in the correla-
tion resulted, thus the monitor was used for calibration.  For the
Cleveland AQMA, the monitor at coordinates (404.88, 4590.98), calculated
much higher than any other monitor, and it appears that this point was
influenced by emission points with emission rates much higher than actu-
ally occurred.  With this point removed, the correlation jumped from
0.627 to 0.909, thus this monitor was not utilized in calibrating the
Cleveland AQMA.

CALIBRATION OF TSP USING AN INVENTORY WITH FUGITIVE DUST EMISSION

Due to the results obtained in the calibration of the AQMAs without
fugitive dust sources, it was decided to calibrate some AQMAs with
fugitive dust emissions included to determine whether the correlation
would improve.  In Figures 16 and 17 the calibration data for the
                                  84
-------
Table 6.  CALIBRATION AND CORRELATION DATA
AQMA
Akron/Canton
Columbus
Cleveland
Dayton
Mansfield
Toledo
Correlation
Coefficient
0.378
0.598
0.909
0.217
0.563
0.408
Intercept
63.59
69.21
58.68
68.41
70.15
63.30
Slope
0.82
0.89
0.67
0.19
1.79
0.41
                    85
-------
  o
  o
o
(M.
               R " 0.379

              TSP - 63.6 + 0.82 TSP
                             calc.
(JD
—' O
-' o
C3 0
UJ o
UJ
CO
QD
  O-
  CM
          T         T   -  -  -T       -T-	r --      T
          10.00    20.00     30.00    40.00    bO. 00     60.00
                      CflLCULflTED         (UG/M3)
                                                               70.00
                                                                        80. 00
       Figure 10.   TSP calibration for the Akron/Canton AQMA
                                   86
-------
o
o
                                                R = 0.909


                                              TSP -58.68+0.67 TSPcalc
 3. 00     50.00     100.00   150.00    200.00   250.00    300.00,  350.00

                       CflLCULflTED         (UG/M3)
      Figure 11.   TSP calibration  for the Cleveland AQMA
                             87
-------
  o
  o
    R - 0.598


   SP - 69.21 + 0.89 TSP
                              calc.
  o
  o
  o_
  CO
UJo
 - o_
 - (D
in
QD
  O
  O
  CD-
  CM
  Coo
10.00     20.00    30.00    40.00     50.00     60.00    70.00    80.00

             CflLCULRTED         IUG/M3)
        Figure  12.  TSP calibration for  the Columbus AQMA.
                                   88
-------
  0
  o
  o
  CM.
  R - 0.217

TSP - 68.41 + 0.19 TSP
                              calc.
  o
  o
  o
 : °-
   _
  03
LUo
or
UJ
oo
CD
  o
  o
  O
  o
  o
  o
            10.00    20.00    30.00     40.00     50.00    60.00    70.00
                         CRLCULRTEO          (UG/M3)
                                                                         BO. 00
           Figure 13.   TSP  calibration for  the Dayton AQMA.
                                   89
-------
  a
  o
  o.
  CO
UJo
CO
aa
                              R = 0.563


                            TSP • 70.2 + 1.79 TSP
                                           calc.


   3.00     10.00     20.00    30.00    40.00     50.00    60.00     70.00    80.00

                        CfllCULRTED         (UG/M3)
         Figure 14.  TSP calibration for  the Mansfield AQMA
                                   90
-------
  o
  o
  o
  (M
en.
s;
  CD-
  CD
UJo
01

DD
  o

  CJ_
  o.
  fM
  R - 0.408


TSP - 63.30 + 0.41 TSP
                               calc.
   l. 00
            o. 00    20.00    30.00    40.00

                         CflLCULHTEO
 50. 00     60. 00

(UG/M3)
                                                                 70. 00
                                                           BO. 00
           Figure 15.  TSP calibration  for the  Toledo AQMA
                                   91
-------
                    Table 7.  CALIBRATION DATA FOR THE AKRON/CANTON AQMA




RECEPTOR LOCATION        Jj35x/~D         u-LC.  ?T.       CALJ.  A3,fA
        J " D"7 I i TI ixJ= 0 . 6
             J= 0.7 5
             T^ 0.
                    = C.
                                          TOTAL
453
~45?
453
460
456
443
453
	 T: cvrr
463
"" 462
456
479
470
VD 4^5
446
479
.10
.03
.33
.70
.55
.92~
.07
~.Tr~
.06
.99
.20
.31
.07
.59
.61
.54
4543
4551
4553
4545
45^7
" "45^0
4565
4532
4550
4573
4516
4533
4502
45m
4512
4555
.9?
.71 •
.25
.76
.55
.59
.3C
.94 --
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.32
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.49 "• "
.23
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11
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l->
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11
15
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3
12
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1-+
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-------
                 Table 8.  CALIBRATION DATA FOR THE CLEVELAND AQMA
RECEPTOR LOCATION
                                                         CALC.  AREA
                          113.00
                          146.00
                          ~176.00
                          164.00
                          108.00
                           ob.OO
                          Zicr^.oo
                          1J9.00
                           71.00
                           yo.oo
                           83.00
                          1oS.OO
                           59.00
                           96.00
                           81.00
                          100.00
                           rt7.00
                           73.00
                           55.00
                           72.00
                           56.00~
                           66.00
                           77.00
                           68.00
                           75.00
                           64.00
                           76.00
                           56.00
                           61.00
                           55.00
                           57.00
                           62.00
                           73.00"
                           72.00
                           75.00
                           t>5.00
                           64.00
        XMt:AN =  0.44908L+02
        YMEA,\I=  0,fit:7fl4E + 0.;
        CORR.CQtFr.= 0.909356+CO
        £LOPF=  0.670410*00
V41.20
V42.60
'»43.50
V44.GO
V48.60
'+37.30
V43 . fiO
*4'">.60
V3V.JO
V3 9.^8
»4 : . 4 o
t4';.10
f3?. .00
(-46.40
,52.10
>47.90
,5.-"i . }5
r5(' .43
r7«+.43
,94.02
,86. 78
,2 1 . 02
,37.61
>0^-.4 1
,06.7 1
,63.45_
,64 • 79
,9 fj «• 2 4
,85. b3
,85.i',J
^94. SI
,6B .71
,7'> . bl
»7v . a 1
»6C.49
f O t ' » -^ /
•f O 0 « i < i
4592.20
4594.80
"""4593.65
^588.^0
4596. ftO
4590.10
4592.40
4596.30
4592.00
450 U. in
4V30.70
4591.HO
45yy .oc
4539.30
460u. 10
4594.70
4583.72
4592. -S9
4581 .60
4549.95
460-t.lM-
4534.18
4581 .46
45B7.56
4567.71
4610.76
4624.1 8
4614.7 j
4614.73
4629. fl
4615.01
4618.60
46 IB .66
4e>u'5.S7
460?,. 16
4606.55
CALC.  PT,

  32.50
  68 .10
""217.52
  191.38
  42.38
  34.01
  171.14
  61 .22
  2^.31
  25.14
  34.58
  115.16
  20.83
  83.72
 " "^0.19
  51 .76
  11 .21
  17.55
   4.90
   2.89
   5".59"
  11 .68
  16.50
  56.67
  47.1?
  12.80
  11 .57
   4.95
   6.61
   6.61
   5.70
 _ _10.29_
  10.83
  10.83
  17.71
  17.06
  16.46
STANDARD "DEVIATIGN= 0.53439F + 02"
STANDARD DEVIATION= 0.39398E+02
NO. OF POINTS=   37
Y-INTERCEPT*  0.58677E+02
                                      TOTAL
5.85
5.10
6".' 20"' "
5.47
U.1'8
5.R2
5.72
7.20
5.96
5.45
6.00
6.05
4.81
6.C9
7.54"
7.79
3.20
4.16
0.76
C.54
" "1.08"
2.34
4.31
2.05
2.03
3.72
" 	 ""3709
1.44
1.62
1 .62
1.52
2.77
2.14
2.14
5.16
4.46
4.52
38.35
73.20
223.72"
196.85
50.66
39.83
176.86
68.42
" 28.27
30.59
40,58
121.21
25.64
89.81
37.73
59.55
14.41
21.71
5.66
3.43
"""6.67
14.02
20.89
58.72
49.20
16.52
14.66
6.39
d.23
8.23
7.22
13.06
12.97
12.97
22.87
21.52
20.98
                                      93
-------
                      Table  9.  CALIBRATION DATA FOR THE COLUMBUS AQMA





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0.25723£ + X>
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        SLG?z=  0.335^7:^^--              Y-T JT=-
-------
Table 10.  CALIBRATION DATA FOR THE DAYTON AQMA
REC
775.
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765.
763.
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-------
                                Table 11.  CALIBRATION DATA FOR THE MANSFIELD AQMA

        _R5_C_EPJCH_LgC4TI3\        ?B"*U':j         C^LC.  PT.       Ci!_:.  MrA           FOlAi.

        373.37     4513.52           1^.:,
        372T4045I.V.95	  "  ""=:."•..
        372.13     4513.Q;            33.^
        360.as     45,16.5-t            r-;.',r

^                X,«EV,i= O.I :35'.^*J>         '  "  S";,M^  P2vfIATU^= C.7^972£ + C
L J . 7 0
? . C 7
I 5 . -5
.• . -o
1.6»
"iTr^"' " ""
2 . C ' '
0 . _, c
11. 99
9 . I 3
17.S5
C.77
                   Cr-t-j rj - - -i— — —  _ -  — r
                   u<\.U'j.f^.- o.^i
                 SLOPE= 0.1 1-, 19 f-t-j
-------
                                  Table 12.  CALIBRATION DATA FOR THE TOLEDO AQMA
VO
RtCfc'PTOR LOCATia'V 0-j>5 = -W:D C iLC .
230
2S5
266
278
293
275
29C
.61
;TCT
.10
.75
.50
.02
.40
^603
" ' 4609
4599
460&
4613
4621
4612
.63
.20 	 '
.90
.43
.70
.33
.25
77.00
t> 3 . 0 1
71.:--
76-.-: :
55.0-
57. CO
73.00
287.10 4611. /3 /"3.f(L
293
283
293
293



.00
.20
.70
.30"



4613
"4620
4621
~ 4617
YMEA^=
C OR R , C
S LOPE =
.00
.30
.10
.20 •" -
~3Tl315f ^
0 . 6 3 7 5 0 5 H
OErP . = 0 . -
0.41i-3!>rH
77 .CO
bi.:*'
66.00
b4.C..
t-ol
*-07 3.'r ^ +-00
^" Vrf ^
3.
7".
tl •
23.
£T
> .
3 .
34.
	 	 	 '11 .
7 .
- /
*+ .
7 .
i. C~ •
ITA^O^ID
NO. Cr P
Y-I jTERu
PT. CALC. A^EJ
55
oO
JO
77
45
1 6
45
( 3^
t-2
c7
&*T
55
J
L! I
5 P
1
£L
1
1
1
1
3
3"
3
3
2
------ 4.
_-VI Af IJ.N=' 0.9
:VlATrOx4= 0.9
•*iTS— 12
T- C.6330^r:<-0
.2
. (_
. 0
. ^.
.P
* -
.4
. -
. 0
• —
. 5
r
. .-•
I -5

J
3
i
3
:>
<-
o
«i*
J
6
:j
3
2
72 1- +01 "
2 3 = * •,, \


TOTAL
9
9
t
23
7
4
37
13
1 j
o
-7
16



» ' J
.c, 7
.33
.r>
.i.7
.52
» J *
.56
. C 3
.'v.7
.7?
.57



-------
  o
  o
=>o
 UJo


 -g'
 UJ
 CO
 CD
            R = 0.146


          'KP = 66.2 + 0.7 TSP
                        calc.
   ^70. 00    90.00    HO. 00    130.00   150. 00    170.00   190.00  TlO. 00

                        CRLCULflTED         (UG/M3)



Figure  16.   TSP calibration for  the Akron/Canton AQMA with  fugitive

             dust  sources
                                 98
-------
                     R - 0.359

                   TSP = 54.0 + 0.09 TSPcal(,
 '120.00   140.00    160.00   180.00   200.00    220.00   240.00    280.00
                    CRLCULPTED           (UG/M3)
Figure  17.   TSP calibration for  the Toledo AQMA with fugitive
             dust sources
                              99
-------
Akron/Canton and Toledo AQMAs are plotted, and in Tables 13 and 14
the input data and some statistical parameters derived from the cali-
bration are tabulated.  In both cases, the correlation coefficients
are lower than when the model was run without fugitive sources, and
the slopes are very shallow.  These results indicate that the inclu-
sion of fugitive emissions causes the model to severly over calculate
the TSP levels and does not improve the correlation.

In order to improve the calibration, each monitor site should be ex-
amined to verify the coordinates, and the accuracy of the data.  Addi-
tionally, each site should be evaluated to ascertain whether it is
being strongly influenced by uninventoried fugitive sources.  The pre-
viously mentioned tasks were beyond the scope of the contract, but in
Figures 1 through 5 the location of the monitors is plotted along
with the observed air quality, and this data could be used as a starting
point in evaluating the observed air quality data.
                                  100
-------
Table 13.  CALIBRATION DATA  FOR THE AKRON/CANTON AQMA WITH FUGITIVE DUST SOURCES
RE
453
453
460
448
453
450
463
462
456
479
47 C
446
446
!_^
•
*
•
*
*
*
*
•
*
*
*
*
*
1
.*
9
)
1
0
9
f
£.
3
3
o
6
:. 4S4->.y9 7- .:>•*
H 45^1.7! u7.00
«O 'f IT . ( '-> j. •_ » ... .'
*» 4 5 -»• 7 . 5 > 1 0 3 . • > ">
/ 454'"«.59 ;:.0.u,,
7 ^ 5 -S 5 . j> : b^ . v "•
1 ^5'<2.yv 7ft. 'iw
6 <* 5 5 ; . '_ ) -/ S . -"i C
cr 4r>7 i .4 " •?•:.. ';">
0 '* 5 ! -j . r I ? 5 . > o
1 453 }.?_ 75.'",
7 45^.5^ o>..»--
0 ^5:">C .4 7 f> "; ,ul;
1 451^.^3 LW.v.-i,
A'C. PT. wALC.
1 1 . d t- 1 2 C .
7.1)5 lii. •
i^-.A3 177.
1 1 .^.5 1<_4.
!>.^3 114.
0 . 2 '3 13?.
c.5,. 121.
1J.17 1*17.
.-. .21 133.
<. :>.VM. 116.
.. 5 . v- 1 ri ^> .
1-+ .32 14-3 .
'f . :? :! *> 5 .
;•• . i v 90.
A-VcA
7v
v 7
53
7S
19
^3
^1
c C'
4S
S^t-
1
1
1
1
TOTAL
31.39
39.9?
35.69
^
17
1
]
1
1
2
1

3
?
5

39
3
4
1
5
1
9
?
2
7
1
C3 78
.90
.84
.23
.36
.74
.85
.1 "*
.7 ^
.£,7
.l
-------
Table 14.   CALIBRATION DATA FOR THE TOLEDO AQMA WITH FUGITIVE DUST  SOURCES
RECEPTOR LOCATION OBSERVED
280.61
286.50
266.10
278.75
298.50
275.02
290.40
287.10
283.00
283.20
293.70
293.80

4603.68
4609.20
4599.90
4604.48
4613.70
4621.55
4612.25
4611.75
4613.00
4620.30
4621.10
4617.20
XMEAN= 0.17024E+03
77.00
53.00
71.00
74.00
55.00
57.00
73.00
75.00
77.00
63.00
66.00
84.00

YMEAN= 0.68750E+02
CORR.COEFF. = 0.35858E+00
CALC. PT. CALC. AREA
8.55
7.80
2.30
23.77
5.45
3.16
34.45
11.73
7.02
4.87
7.44
12.55
STANDARD DEVIATION=
STANDARD DEVIATION^
NO. OF POINTS= 12
117.70
140.18
122.62
141.43
127.35
128.23
198.75
220.10
201.17
206.97
151.04
153.27
0.4C996E+02
0.98823E+01
TOTAL
126.25
147.98
124.92
165.20
131.80
13L.32
233.20
231.33
208.19
	 2_1L^S4
153.43
17C.82


SLOPE= 0.86436E-01
Y-INT£RCEPT= 0.54036E+02
-------
                              SECTION V
                           TSP AIR QUALITY

After each AQMA had been calibrated, the air quality was generated for
each AQMA, and plotted in Figures 18 to 23.  The receptor grid had a
5 km separation between receptors, and the grid completely encompassed
the AQMA.  Since there is some question as to the suitability of some
monitor data for calibration purposes, and OEPA is aware of some inventory
problems, the air quality values should not be looked upon as being quan-
titavely accurate, but rather as a display of the relative air quality
in various regions of each AQMA.

From Figures 18 to 23, OEPA and GCA developed a 2.5 km receptor grid
which encompassed the region in each AQMA which had the highest calculated
air quality values.  The dashed boxes in Figures 18 to 23 represent the
boundary of the region for which the 2.5 km grid was developed, and the
area source contribution to each receptor for the 2.5 km receptor grid
was then calculated.

When the Ohio Point Source Inventory for a region has been verified, the
point source contribution to the air quality can be calculated at each
receptor, and added to the area source contribution.  Once the total
calculated air quality is available, the model can be validated with the
monitor data, and the resulting calibration constants applied to the cal-
culated air quality to obtain the actual air quality for the region.
                                103
-------
4580
 4490
   430
                             KH (EB3TIMO)
                                                                 LEGEND
                                                                   SO.O
                                                                   (5.0
                                                                   70.0
                                                                   75.0
                                                                   80.0
                                                                   88.0
                                                              510
   Figure 18.   TSP  air  quality for  the Akron/Canton AQMA
                              104
-------
o
Ul
                                                                                                                LEGEND

                                                                                                               8-   M.O
                                                                                                               A-   tS.9
                                                                                                               +.   ro.0
                                                                                                               v»   75.0
                                                                                                               ;.   M.O
                                                                                                               4-   K.O

                                                                                                               T   IW-fl
                     4640.
                                                                                      I    »	1-
                                                               m  rarriM
                                                                                                              itt
                                        Figure 19.   TSP air quality  for the Cleveland  AQMA
-------
4480
   1
   i-»
   1
                   r/—
                                                                  o-
LEGEND
   (U0/N3)
   60.0
   65.0
   70.0
   75.0
   60.0
   85.0
4400.
   300
                                 •*•
                             KM   (EASTING)
                                                               380
            Figure 20.   TSP air quality for  the Columbus AQMA
                                  106
-------
4450
4300
   710
                            r

                                    KM  (EAST 1 Ml
                                                                                 LEGEND
                                                                                   80.0
                                                                                   65.0
                                                                                   70.0
                                                                                   75.0
                                                                                   00.0
                                                                                   0S. 0
000
               Figure  21.   TSP air  quality  for  the Dayton AQMA
-------
4550
   oc
   r>
4480.
   340
              1	1	H
                                                                  o-
                                                                  A"
                                                                  + "
                                                                  X"
LEGEND
    OJ8/M3)
•   60.0
<   65.0
>   70.0
   75.0
   80.0
   85.0
                             KH  (ERST ING)
                                                                00
             Figure 22.  TSP air quality for the Mansfield AQMA
                                   108
-------
4640
4580
                                            _J
                        o
  250
                         -I-
                          KM  (EMTIN8)
  LEGEND
    
-------
                             SECTION VI
                  PROJECTION OF EMISSION INVENTORY

INTRODUCTION

As part of EPA Air Quality Maintenance Planning, it is required that the
states predict future air quality to determine if air quality standards
will be maintained.  For planning purposes, it was decided to predict air
quality for the years 1980 and 1985.  OBERS projection data for the
various SMSAs in Ohio was utilized, and all projection data was normal-
ized to the base year 1974, since an emission inventory was available
for that year.

Table 15 lists the area source categories, and the parameter utilized
for the projection of emissions.  The growth factors for population,
commercial/institutional, and industrial area sources were developed from
OBERs data and are tabulated in Table 16.  Some categories were not
projected since growth in those fuel usages is not occurring, e.g.,
natural gas and residential heating with coal.  Since all residential
heating was projected to be oil or electricity, the growth factor for
residential distillate oil was adjusted by the inverse ratio of the
market held by oil and electricity in 1974.  Thus, in all counties the
rate of increase in distillate oil used for residential heating was sub-
stantially above the population growth rate.  The degree days utilized
to calculate the heating fuel requirements were adjusted to the 10-year
climatological average before the growth factors were applied.  Addi-
tionally, the fugitive sources were not projected, since there is some
question about their accuracy.

                                 110
-------
Table 15.  PROJECTION PARAMETER FOR AREA SOURCE CATEGORIES
Category
number
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
37
38
39
40

Major
classification
Residential fuel
Residential fuel
Residential fuel
Residential fuel
Residential fuel
Residential fuel
Comm'l & institl fuel
Comm'l & institl fuel
Comrn1' 1 & institl fuel
Goran' 1 & institl fuel
Comm"! & institl fuel
Comrn"! & institl fuel
Industrial fuel
Industrial fuel
Industrial fuel
Industrial fuel
Industrial fuel
Industrial fuel
Industrial fuel
Industrial fuel
On-site incineration
On-site incineration
On-site incineration
Open burning
Open burning
Open burning
Gasoline fuel
Gasoline fuel
Gasoline fuel
Diesel fuel
Diesel fuel
Diesel fuel
Aircraft

Aircraft

Aircraft

Vessels
Vessels
Vessels
Vessels
Evaporation

Minor
classification
Anthracite coal
Bituminous coal
Distillate oil
Residual oil
Natural gas
Wood
Anthracite coal
Bituminous coal
Distillate oil
Residual oil
Natural gas
Wood
Anthracite coal
Bituminous coal
Coke
Distillate oil
Residual oil
Natural gas
Wood
Process gas
Residential
Industrial
Comm'l & institl
Residential
Industrial
Comm'l & institl
Light vehicle
Heavy vehicle
Off highway
Heavy vehicle
Off highway
Rail locomotive
Military

Civil

Commercial

Anthracite coal
Diesel oil
Residual oil
Gasoline
Solvent
purchased
Projection
parameter
NPa
NP
Population
NP
NP
NP
C/I employment
C/I employment
C/I employment
C/I employment
NP
C/I employment
Industrial employment
Industrial employment
NP
Industrial employment
Industrial employment
NP
Industrial employment
Industrial employment
NP
NP
NP
NP
NP
NP
Average VMT growth
Average VMT growth
Average VMT growth
Average VMT growth
Average VMT growth
Population
Projected aircraft
operation
Projected aircraft
operation
Projected aircraft
operation
NP
Population
Population
NP
Population

                          111
-------
 Table 15 (continued).  PROJECTION PARAMETER FOR AREA SOURCE CATEGORIES
Category
number
41
42

43
44
45
46
47
48
49

50
51
52
53
54
Major
classification
Evaporation
Measured VEH miles

Measured VEH miles
Measured VEH miles
Measured VEH miles
Dirt roads traveled
Dirt airstrips
Construct land area
Rock handling &
storage
Forest fires
Slash burning
Frost control
Structure fires
Coal refuse burning
Minor
classification
Gas marketed
Limited access
roads
Rural roads
Suburban roads
Urban roads
-
-
-
-

Area-acres
Area-acres
Orchard heaters
No. year
Size of bank
Projection
parameter
Average VMT growth
Limited access road VMT

Rural road VMT
Suburban road VMT
Urban road VMT
NP
NP
NP
NP

NP
NP
NP
NP
NP
wP = No growth was projected for this category.
                                112
-------
Table 16.  GROWTH FACTORS FOR POPULATION, INDUSTRIAL AND
           COMMERCIAL/INSTITUTIONAL AREA SOURCES
SMSA
Akron
(Portage,
Summit)
Canton
(Stark)
Cincinnati
(Clermont ,
Hamilton,
Warren)
Cleveland
(Cuyahoga ,
Geauga, Lake)
Columbus
(Franklin)
Dayton
(Montgomery,
Greene)
Hamilton-Middleton
(Butler)
Lorain-Elyria
(Lorain)
Mansfield
(Richland)
Springfield
(Clark)
Steubenville
(Jefferson,
Columbiana)
Toledo
(Lucas, Wood)
Wheeling
(Belmont ,
Monroe)
1980
Population
1.04


1.02

1.05



1.05


1.13

1.07


1.07

1.05

1.07

1.01

0.97


1.06

0.97


Industrial
1.24


1.15

1.23



1.22


1.34

1.29


1.20

1.23

1.28

1.19

1.03


1.24

1.18


Commercial/
institutional
1.29


1.32

1.30



1.29


1.34

1.30


1.37

1.37

1.36

1.32

1.31


1.32

1.24


1985
Population
1.07


1.03

1.10



1.08


1.22

1.13


1.12

1.10

1.11

1.04

0.94


1.11

0.96


Industrial
1.39


1.26

1.41



1.36


1.61

1.47


1.34

1.41

1.43

1.35

1.05


1.43

1.30


Commercial/
institutional
1.53


1.58

1.56



1.52


1.66

1.57


1.71

1.69

1.64

1.59

1.55


1.60

1.44


                      113
-------
The growth factors for VMT were obtained from the Ohio Department of
Transportation, and are found in Table 17.  The growth factor for
aircraft operations was obtained from a study performed by the Ohio
Department of Transportation and the factors utilized for each AQMA
are tabulated in Table 18.

In Tables 19 and 20, the area source emissions for various categories are
tabulated for the two projection years, and in Figures 24 through 39 the
particulate area emission densities for 1980 and 1985 are plotted for
each AQMA..  Figures 40a to 40v display the 1980 total area emission rate
in tons/year for each grid square, and Figures 41a to 41v display the
1985 data.
                                 114
-------
 Table 17.  PROJECTION FACTORS FOR VMT
            AND VEHICULAR FUELS
Category
Gasoline and diesel
fuels
Limited access roads
Rural roads
Suburban roads
Urban roads
1980
1.14

1.28
1.12
1.08
1.08
1985
1.26

1.52
1.22
1.15
1.15
Table 18.  PROJECTED AIRCRAFT OPERATIONS
AQMA
Akron/Canton
Cincinnati
Cleveland
Columbus
Dayton
Mansfield
Steubenville
Toledo
1980
1.61a
1.28
1.68a
1.42
1.42
1.30
1.37b
1.37
1985
2.28a
1.55
1.99a
1.80
1.80
1.59
1.71b
1.73
       from the Lerder Study, ob-
 tained through Lake Area Trans-
 portation Authority.
  Average growth rate from the Ohio
 Department of Aviation.
                 115
-------
            Table  19.   PARTICULATE AREA  SOURCE EMISSIONS FOR 1980
Area source categories
Residential coal
Residential distillate oil
Residential natural gas
Commercial institutional
coal
Commercial institutional
distillate oil
Commercial institutional
residual oil
Commercial institutional
natural gas
Industrial coal
Industrial distillate oil
Industrial residual oil
Industrial natural gas
Incineration
Open burning
Off highway fuel usage
Aircraft operations
Vessel operations
Motor vehicle emissions
Railroads & miscellaneous
TOTAL3
Belmont
364
6
13
0
1
1
3
0
0
0
10
0
0
21
2
0
359
31
813
Butler
117
32
33
0
8
5
20
0
0
0
22
0
0
63
28
0
1,211
36
1,573
Clark
47
10
32
0
4
4
12
0
0
0
26
0
0
41
84
0
743
32
1,035
Clermont
74
29
4
0
1
0
2
0
0
0
8
0
0
27
5
0
583
11
743
Columbiana
343
9
19
0
3
2
8
0
0
0
13
0
0
29
11
0
517
26
979
Cuyahoga
219
37
410
0
48
45
177
0
0
0
420
0
0
432
84
67
5,402
36
7,376
Franklin
156
57
195
0
20
17
55
0
0
0
249
0
0
225
203
0
3,585
58
4,818
Geauga
72
22
3
0
1
1
4
0
0
0
5
0
0
17
6
0
326
27
484
Greene
23
17
19
0
1
1
3
0
0
0
14
0
0
33
11
0
588
8
717
Hamilton
326
41
165
0
33
23
99
0
0
0
250
0
0
239
55
6
3,581
49
4,867
Jefferson
295
8
14
0
2
2
7
0
0
0
12
0
0
26
5
0
444
29
843
Totals vary due to round-off.
-------
     Table 19  (continued).  PARTICULATE  AREA SOURCE  EMISSIONS FOR 1980
Area source categories
Residential coal
Residential distillate oil
Residential natural gas
Commercial institutional
coal
Commercial institutional
distillate oil
Commercial institutional
residual oil
Commercial institutional
natural gas
Industrial coal
Industrial distillate oil
Industrial residual oil
Industrial natural gas
Incineration
Open burning
Off highway fuel usage
Aircraft operations
Vessel operations
Motor vehicle emissions
Railroads & miscellaneous
TOTAL a
Lake
27
23
36
0
5
4
15
0
0
0
25
0
0
53
49
32
1,319
21
1,609
Lorain
65
12
57
0
10
8
26
0
0
0
37
0
0
70
67
0
1,198
42
1,592
Lucas
84
37
108
0
15
0
43
0
0
0
106
0
0
127
65
37
1,785
44
2,451
Monroe
27
1
3
0
0
0
0
0
0
0
0
0
0
4
1
0
64
7
108
Montgomery
83
29
126
0
25
22
67
0
0
0
126
0
0
157
99
0
2,246
37
3,016
Portage
143
19
18
0
2
2
6
0
0
0
12
0
0
34
3
0
666
37
941
Richland
79
13
24
0
6
5
0
0
0
0
26
0
0
34
41
0
721
35
984
Stark
314
24
81
0
14
12
40
0
0
0
57
0
0
100
103
0
1,444
49
2,238
Summit
115
29
128
0
20
17
55
0
0
0
111
0
0
145
180
0
2,312
46
3,157
Warren
51
17
7
0
1
1
2
0
0
0
4
0
0
23
9
0
674
14
801
Wood
39
11
18
0
3
3
9
0
0
0
3
0
0
26
20
0
460
41
631
Totals vary due to round-off.
-------
                                   Table 20.   PARTICULATE AREA  SOURCE EMISSIONS FOR 1985
00
Area source categories
Residential coal
Residential distillate oil
Residential natural gas
Commercial institutional
coal
Commercial institutional
distillate oil
Commercial institutional
residual oil
Commercial institutional
natural gas
Industrial coal
Industrial distillate oil
Industrial residual oil
Industrial natural gas
Incineration
Open burning
Off highway fuel usage
Aircraft operations
Vessel operations
Motor vehicle emissions
Railroads & miscellaneous
TOTAL3
Belmont
364
6
13
0
1
1
3
0
0
0
10
0
0
24
3
0
387
31
843
Butler
117
36
33
0
9
6
20
0
0
0
22
0
0
69
34
0
1,331
38
1,715
Clark
47
12
32
0
5
5
12
0
0
0
26
0
0
46
87
0
799
33
1,102
Clermont
74
30
4
0
1
1
2
0
0
0
8
0
0
30
6
0
643
11
810
Columbiana
343
8
19
0
3
3
8
0
0
0
13
0
0
32
15
0
557
25
1,024
Cuydhoga
219
50
410
0
57
53
177
0
0
0
420
0
0
476
96
68
6,078
37
8,142
Franklin
156
81
195
0
25
21
55
0
0
0
249
0
0
248
233
0
4,062
63
5,387
Geauga
72
23
3
0
1
1
4
0
0
0
5
0
0
19
8
0
355
27
517
Greene
23
19
19
0
1
1
3
0
0
0
14
0
0
37
14
0
631
8
769
Hamilton
326
53
165
0
39
27
99
0
0
0
250
0
0
264
65
6
4,079
51
5,425
Jefferson
295
7
14
0
3
2
7
0
0
0
12
0
0
28
6
0
478
28
881
                    Totals vary due to round-off.
-------
         Table 20 (continued).  PARTICULATE AREA SOURCE EMISSIONS FOR  1985
Area source categories
Residential coal
Residential distillate oil
Residential natural gas
Commercial institutional
coal
Commercial institutional
distillate oil
Commercial institutional
residual oil
Commercial institutional
natural gas
Industrial coal
Industrial distillate oil
Industrial residual oil
Industrial natural gas
Incineration
Open burning
Off highway fuel usage
Aircraft operations
Vessel operations
Motor vehicle emissions
Railroads & miscellaneous
TOTAL
Lake
27
26
36
0
6
5
15
0
0
0
25
0
0
58
57
33
1,482
22
1,791
Lorain
65
17
57
0
12
10
26
0
0
0
37
0
0
77
78
0
1,282
44
1,705
Lucas
84
46
108
0
18
0
43
0
0
0
106
0
0
141
74
39
2,027
46
2,732
Monroe
27
1
3
0
0
0
0
0
0
0
0
0
0
4
1
0
69
7
114
Montgomery
83
38
126
0
30
26
67
0
0
0
126
0
0
172
123
0
2,535
39
3,365
Portage
143
20
18
0
3
2
6
0
0
0
12
0
0
37
4
0
717
38
1,000
Richland
79
15
24
0
7
6
0
0
0
0
26
0
0
37
45
0
815
36
1,092
Stark
314
25
81
0
17
15
40
0
0
0
57
0
0
110
132
0
1,611
50
2,451
Summit
115
36
128
0
24
20
55
0
0
0
111
0
0
161
219
0
2,615
47
3,529
Warren
51
19
7
0
1
1
2
0
0
0
4
0
0
26
11
0
761
14
895
Wood
39
13
18
0
4
3
9
0
0
0
3
0
0
28
25
0
495
42
679
Totals vary due to round-off.
-------
4590 ,
                flKRQN/CflNTBN  1980  SCHLE  1 i  250000
                TSP EMISSION DENSITY F0R  RREfl SOURCES ONLY
  LEGEND
  [TBNS/TR/SO. KM)

0=  1-0
4=  5. 0
+ -  20.0
x=  40.0
4490 j	
   430
                                                           ,	1
                             KM  (EflSTING)
     Figure  24.   Particulate emission density  for the  Akron/
                    Canton AQMA (1980)
                                    120
-------
                 CINCINNATI flOMB 1980SCHIF I  . 250000
                 ISP EMISSION DENSITY FOR HRES SOUHCtS ONtT
                                              r
                                                               LE&END
                                                                  20.0
                                                                  40.0
                                    O
42U1] i
  680
                           KM  (Ffl-iTI-JG)
     Figure  25.   Particulate  emission  density  for  the
                    Cincinnati AQMA.  (1980)
                                    121
-------
             CLEVELBMD flQMfl 1980 SCBU l .  250000
             TSP EMISSION DENSITY FOR.RREfl SOURCES- ONLY
                        KM  (ERSTINfil
Figure  26.   Particulate emission  density  for  the
               Cleveland  AQMA.  (1980)
 LEGEND
  (Twa/m/SB
8.  1.0
A-  5.0
+•  20.0
x>  40.0
                             122
-------
4460 ,__
                                        -4	4—-
           COLUMBUS  flQMfl  1980   SCRLE  i •  250000
           TSP  EMISSION  DENSITY FOR  RREfl  SOURCES ONL
        LEGEND
         (TONS/TR/SO. KM)
           1. 0
        '"   "-' "
           ,:r: 0
   (Jb
4400	
   300
                         ~&	 --» --

                  o
                            KM   tERSTING)
360
               Figure 27.  Particulate emission density for the
                           Columbus AQMA (1980)
                                    123
-------
4450 .
                  MTT3N flQMfi   1980  SCHLE  i .-n
                  TSP  EMISSION DENSITY FOR  firtEFI SOURCES QNL-Y
                                           Cp   O
 LEGENtt
  {rm*s/™/5
3-   1.0
A-   5.0
+ •   20.0
x-   40.0
4380 i	,	,
  710

                                                               800
              Figure 28.  Particulate emission density for the
                           Dayton AQMA. (1980)
                                     124
-------
4550
           MfiN-SFIEL'D RQMfl 1980  SCflLE  1 i  250000.
           ISP EMISSION  DENSITY-FOR  RREfi  SOURCES ONL
  tb
  z
   E
   I—
   cc
         LEGEND
         (TONS/YB/SQ. KM)
       0=   i.o
       A.=   5.0.
       +-   20.0
       x-   40.0
4480.
   340
                           KM  (ERSTING)
400
               Figure 29.  Particulate emission density for  the
                           Mansfield AQMA (1980)
                                    125
-------
              S-T'EUBE'NVIL'LE  'issS  sc'nu  i . 250000'  "*  "~~
              TSP EMISSION  DENSITY FOR  RREfl SOURCES ONLY
                          O
                                       C2)
                                    Q
 L€CENO
  irot/m/
0-  1.0
»•  s. a
+•  ao. o
x-  «•«
                        KB (CIUTIHB1
Figure 30.  Particulate  emission density for  the
              Steubenville AQMA. (1980)
                         126
-------
4640 ,
4550J	
   250
             TOLEDO RQMfl     1980SCHLE  1 t  250000
             TSP  EMISSION DENSITY FOR  flREfl SOURCES ONLY
 LEGEND
 (TONS/ra/30. KM
=  1.0
-  5.0
=  20.0
=  40.0
                          KM  (ERSTING)
                                                        320
   Figure 31.   Particulate  emission  density for the
                 Toledo AQMA.  (1980)
                             127
-------
1590 ..
                 HKRON/fflNTCN  1985   scflLE  i i" jsooao
                 TSP EMISSION DENSITY FQR flREf) S3URCES  ONLY
  L6Gf Nil
  irONb/rR/SO.KM]
0=  !• °
i=  5. 0
+ =  20.0
x=  40.0
14SOI _
  430
                             KK  iFflSTING)
       Figure 32.   Particulate  emission density for  the
                     Akron/Canton AQMA  (1985)
                               128
-------
»IOO .	,	
                 CINCINNATI flBMH 198SSCBLE  1 • JSOOOO
                 TSP EMISSION OENSITT FOR  RREfl SOURCES ONLY
                                        a   R
                                     O
                           KK  (ERSTIND)
 LE&END
  ir0N3/rn/3a
-------
           CLEVELHND fla«fl-19re SCBLE i I-2SOOOO
           TSP- EM.ISSIOR- DENSITY FBR RREfl SOURCES
 LEGEND
  (T«8/nt/u.no
0-  1.0
A-  S.O
+-  ».g
X-  40.0
Figure  34.   Particulate emission density for the
               Cleveland AQMA  (1985)
                         130
-------
4460
        H	1	1	1-
           COLUMBUS flQMfl 19S5   SCRLE  i  i 250000
           TSP  EMISSION  DENSITY FOR  flREfl SOURCES  QNL
  OC
  O
4400 i	
   300
-I	1	1	(_
                          KM  (EflSTING)
                                     360
                                             LEGEND

                                             -   i, o
                                                b. 0
                                                20. 0
             Figure 35.  Particulate emission density  for the
                         Columbus AQMA. (1985)
                                131
-------
4380.
  710
                    DflrTQN flQMfl    1985  SCBLE »-« asooao
                    TSP EMISSION  DENSITY FOR.flREfl-SOURCES ONLY
  LEGEND
  (TONS/TR/SO. KNI
0-.  l.-O
A-  S.O
+-  20.0
x-  40.0
                                 KN  [ERST ING)
                                                                      800
             Figure 36.   Particulate emission density  for  the
                           Dayton AQMA. (1985)
                                     132
-------
4550
44'JQ L
   340
        _l	(_
                           H—	4-
            MflNSFIELO fiQMfl  1985 SCRLE   i-.. 250000.
            TSP EMISSION  DENSITY-FOB  RREfi- SOUflCES
                   D
                           KM  (EHSTING)
                                                            40C
B/S3. KH)
                                                                        1.0.
                                                                        S.-G
                                                                        .-., 3
             Figure 37.  Particulate emission density for the
                         Mansfield AQMA. (1985)
                                 133
-------
             ST'EUBE'NVILLE  'ises  KALE  i •
             TSP EMISSION DENSITY FOB  HflEH SOURCES ONLT-
                          O
                          O
 LEGEND
 (r>Ni/ni/»
3« -  1.0
,.-  6. a
h.  20.0
<-  40.0
                        KM (CRSTINB)
Figure  38.   Particulate  emission density  for  the
               Steubenville AQMA (1985)
                         134
-------
           TOLEDO flUMR     1985SCRLE  I i 250000
           TSP EMISSION DENSITY FOR flflEfl SOUflCES ONLY
 LEGEND
 (TON5/YR/3H.KMI
=  1.0
=  5.0
=  20. 0
=  40.0
Figure 39.   Particulate emission  density for  the
              Toledo AQMA (1985)
                       135
-------
4460

           BELMONT  COUNTY  80     SCflLE:   1  KM:  25000.0 KM
710
25




S10
38




310
50


no
SB
730.
26




530
25




330
24


130-
«1
7SO
41




550
se




350
22


150.
34


770 780
20 0


570
48




370
38


170.
30

790
ie
880
123


580
43
480
S4


380
34


4400
    470
                                  KM   (EflSTING)
                                            530
                  Figure 40a.
Particulate area grid emissions for
Belmont County in 1980
                                     136
-------

5
7*
o KM (NORTHI
BUTLER. COUNTY 80


800
38
.. — _l
510
31
14

828
0
528
15
o
i
110
12
	 1
t
SCflLE:

530
124
430.
20
85
230.
40
130
38
	 1 	 i
443
0
441
8
343
10
341.
18
444
10
442
11
344
25
342.
8
244)
17
143
a

144
0

650
22
550
54
450
20
350

250
153
85
	 1 	
154
10
1 KM:
760
31
660
88
560
18
460
360
28
280
33
183
1

564
250000
770
27
873
3
671
82
874
19
872
24
570
22
4r
370
1
270
24
o-79
	 1
174

680
31
580
It
480
21
380
18
280
28
183 184
o o
1 	 1
KM





_ 	 i... ,..,. 	
680
                               KM   (EflSTING)
740
              Figure 40b.  Particulate area  grid emissions for
                           Butler County  in  1980
                                 137
-------
4450
KM (NORTHING) c
in
CLRR
..,, 	 1 1
K CO
8*
210
48
UNIT
80 SCflLE: 1 KM: 250000 KM
420
39
320
22
220
20
	 1 	 1
21
230
25
540
21
440
20
340
24
240
86
1 1
SSO
42
4S3
0
24!1
363
71
3SI
32

1 	
4S4
12
452
35
3S4
62
3S2
32
SM
30
ff
3M
61
ISO
38
S70
1
37
46
SM
78
0
170
54
	 1 	 1 	 1
1 	 1
SM
23
4M
0
3M
1
2M
0
1 	 1

| 	
    740
                                  KM   (EflSTING)
                                             800
                  Figure 40c.
Particulate area grid emissions  for
Clark County  in 1980
                                     138
-------
 4360
4290
3
2
»— 1
x:
(-!
cc
O
-d.
53

0.
CLER.MONI COUNTY 80 SCflLE: 1 KM: 250000 KM





	 1 	 1 —

1014
40
1012
0
814
10
812
20
eu
812
714
e
S"


1120
IS
1020
14
920
18
820
13
720
15
no
14
620
14
420.
40

1130 1140
IB IB
1030 1040
IS 23
630
37
!o80
8°
230.
77
10SO
63
eso
73
BSO
37
4SO
31
250
ei



720 KM fEfiSTINm



770
           Figure 40d.  Particulate area grid emissions  for
                        Clermont County in 1980
                               139
-------



3
z
*— 1
3T
t—
cc
O
Z '
s:
*:•
4480.
COLUMBIflNfl COUNTY SOscflLE: i. KHI 250030






no
21
710
0
•10
510
22
720
47
S20
to

840
83
740
22
•SO
21
7SO
22
S40
48
MO
54
140
42

490 s
760
65
8°
MO.
»a
IN
44
4?
see
41
MO
SI
2W
30
180
24
I i
-------
4620
   cc
   D
4560

CUYRHGGfl


	 1 	 1
510
117
410
118
310
114
210
68


• • 	 1 	 —
COUNTY 80 SCflLE


621
35
423
42
421
40
323
18
&
221

622
SO
424
44
422
35
324
59
322
34
?
120
100
1 	
833
43
631
433
S3
431
50
333
3»
331

834
52
632
85
434
66
482.
47
334.
47
832
35
230
85
130
81
	 1 	
643 644
55 37
841 542
75 89
443 444.
86 48
441. 442
31 58
343 344.
52 70
341 342
80 39
240
118
140
87
883 664
34 74
661 852
88 41
453 454
71 30
461 452
73 31
383 384
67 27
361. 382.
49 34
280
100
150
: 1 KM:

663 664
45 112
661 682
131 112
683 884
103 87
681 882
70 33
463 484
65 66
461 462
42 182
388 384
38 37
361. 362
27 31
260
88
160
91
	 1 	 1 	 1 	

771
57
673
106
671
67
673
S7
871
38
473
18
471
168
373
82
871
30
250000

774.
56
772
59
674
72
872
55
674
72
672
29
474
18
472
122
374
48
372
27
881
71
768
45
761
3V
663
41
661
54
883
S3
661
27
463
33
481
64
383
41
881
44
662
47
784
37
782
82
664
33
662
43
684
28
682
27
484
28
482
32
384
27
IP
KM
761 762
28 ,8
660
129
S60
95
460
96
380
94


I 	 1 	 1 	 1 	
    410
                                   KM   (E-flSTING)
                                               470
                 Figure 40f.
Particulate area  grid emissions for
Cuyahoga County in 1980
                                     141
-------
4460
   Z ..
   oc
   (D
   Z
4400
    300
FRflNKLIN



•
•
710
123
810
60
510
54
4ia
"
310
47
COUNTY 80 scflLE:
&
720
78
620
61
520
50
420
59
320
152
110
151
830
48
730
134
•33
19
•31
18
533
18
531
21
433
44
431
28
834
33
832
46
534
37
582
18
434
72
432.
27
330
72
57«
743
21
741
25
•43
27
•41
34
543
32
541.
28
443
88
ff"
744.
41
742
36
•44
51
•42
67
544
111
542
52
444
33
442.
27
340
52
130
157
850
48
753
28
751
34
853
48
•51
88
553
42
551
75
8*
4SI
51
754
17
752
38
854
22
852
29
554
36
BS2
34
454
51
452
22
350
02
2SO
47
ISO
so
1 KM: 250000
8M
780
46
WO
62
583
20
581
52
!f
4(1
.32
58*
130
682
44
484
53
482
16
380
47
280
45
180
87
1 	 1 	 1 	 1_ 	 1 	 L 	 1 	

770
153
670
47
570
48
473 474
« 28
471 472
3. 20
370
31
270
47
L 	 1
•80
ss
580
48
ff
H°

KM






i 	 1 	
                                   KM   (EflSTING)
360
                   Figure 40g.  Particulate area  grid emissions for
                               Franklin County in 1980
                                     142
-------
4630
             GEflUGfl  COUNTY   80      SCflLE:   1  KMs  250000  KM
   cc
   D
                           510
                           410
                           ID
                           210
                           17
                                  520
                                  22
420
11
                                        730
                                        II
                                        890
                                        0
       530
       a
                                        330
                                     120
                                     20
             740
             169
750
10
                                                  540
                                                  32
                                                  I40
                140
                21
                                                               780
                                                               18
                             SOT
                             25
          180
          22
4570
    450
                                      KM    (EflSTING)
                                                  510
                    Figure 40h.
Particulate area grid emissions for
Geauga County in 1980
                                        143
-------
4430
           GREENE COUNTY   80    SCflLE:   1 KM:  250000 KM

504
0
502
404.
e40*
304
13
302.

eio
610
50
410
«4
910
16
WO
Si
520
13
420
IS
320
40
no
27
no
530
ea
430
17
m
640

440
28
340
130
27
350
g
ff"
150
1
160
98
I?
in i?o
0 11
4370
    740
                                  KM   (ERSTING)
800
                 Figure 40i.  Particulate area grid emissions for
                             Greene County in 1980
                                   144
-------
         4370
            o
            EC
            O
-p-
Ul
4320
    680
•






HflMI
500
83

LTON COUNTY 80 scflLE.- i KM: 250000 KM

410
307
310
87
210
68

320
SO
220
82

530
117
431
90
333
IS
331
IS
U9
231
44

9
334
38
332
31
&
232
26

641
16
543
28
541
28
443
27
441
26
343
29
341
42
I**
241.
33
842
544
37
542
28
444
32
442
28
344
28
342
28
244
35
242
41
140
83
651
40
553
2?
551
28
453
34
451.
31
353
32
351.
34
253
37
2SI
36
852
2fi
554
2S
552
2B
4S4
33
452
30
354
28
352
34
2S4
48
252.
58
ISO
tie
661
27
563
581
26
463
28
461
28
363
28
iT
263
80
261.
41
662
32
564
28
562
31
484
33
462.
31
384.
42
362.
42
si4
262.
IS
160
59
871
30
872
42
570
84
473
28
471.
31
373
35
371.
48
273
36
271
32
474
32
472.
37
374
28
372.
32
274.
28
272.
78
170
128
681
te
662 891
« 47
682 695
41 26
560 590
90 113
483
29
481
31
363
28
361
36
263.
IS
281.
27
183
29
161
26
490
83
390
32
8°
190

	 1 	 1 	 1 1 	 1 	 1 	 1 	 1 	
                                                 KM   (EflSTING)
                                                                                                 750
                     Figure 40j.  Particulate area grid emissions for Hamilton County in 1980
-------
4500
   z
   t—I

   :r
   i—
   QC
 4440

    500
JEFFERSON COUNTY 80 scflLE


•

	 t —

7U
8

620
34
(20
34
420
38
220
41
120
0
1, i.l
130
29
849
37
840
34
S40
21
440
48
S50
108
450
25
240
34
140
18
ISO
28
1 	 1 1
:- 1 KM: 250000 KM

880
28
780
42
880
44
S80
133
480
39
880
23

-


1 	 1 	 1 	
                             KM   (EflSTINO)
                                         550
            Figure 40k.
Particulate  area grid emissions for

Jefferson County in 1980
                               146
-------
)U
5
z .
1— «
31
H-
OC
CD
•z.
*— ^
x:
XL i
in
LflKE COUNTY" 80



311
31
213
56
211
se
113
JO

., -1— 1 	

532
24
430
421 422 S"
21 28
314 323 324
21 4S » 330
312 821 322
31 22 20
214
23 220 230
212 3" "
20
114
32 120 110
«; ««
	 1 i 	 1
SCRLE: 1 KM:- 250000 KM
7M
48
MO 870 WO
125 42 121
543 544
2 2 550 500
541 S42 M 4°
22 21 470
lja
440 450 480
56 33 83
340 360 380
45 S3 0
1 	 1 	 1 	 1 	 1 	 1 	 1 	
450
                               KM   (EflSTING)
510
              Figure 40.0.   Particulate area grid emissions for
                           Lake County in 1980
                                 147
-------
4610
      LORR.IN  COUNTY      80    SCRLE-J.   i  KM:  250000  KM
   cc
   o
4540
                                                   1082
                  710
                  46
                  11°
                             no
                             S2
                             7SO
                             45
                             no
                             33
                             830
                             43
                         320
                         45
                         120
                         48
                                  941
                                  44
                                  (43
                                  85
                                  (41
                                  28
  842
  48
                                     S4
  842.
  24
740
31
840
74
                                          8SO
                                          48
                                          78
                                        7sa
                                        781
                                        52
                                        853
                                        48
     861
     10
                                            784
                                            IS
        752
        S5
        8S4
        S3
852
IS
                                       440
                                       47
                                       240
                                       41
              880
              811
              880
              24
     780
     38
     8(0
     18
              880
              2S
                                                      1071
            870
            30
            870
            18
770
43
870
19
            S70
            28
                 380
                 42
       580
       13
    380
                                 KM    (EflSTING)
                                       430
              Figure 40m.   Particulate area  grid emissions for
                            Lorain County in  1980
                                   148
-------
4640
   Z ..
   cc
   0
4580
    250
LUCflS COUNTY" 80 SCflLE: 1 KM: 250000 KW



	 — i 	 1
710
8
SI
101
720
8
D
1
310
181
110
131
1 	
1 	 1
730
40
830
40
S30
43
740
4l
840
55
540
51
330
87
230
47
1 	 1

780
751 7S2 781 782 "
» » « '» 873
853 8S4 683 684 *"
28 56 58 22
851 852 881 882 871 872
31 38 S2 78 37 45
553 554 583 584 573 574
21 34 88 38 44 18 gK
551 552 581 S82 571 572 " '"
18 35 43 30 37 .6
450
78


1 	 1 	 _1 	 1 	 1 	 1 	 1 	 1 	
                                        KM   (ERSTING)

              Figure 40n.  Particulate area grid emissions  for Lucas County in 1980
                                                                                        320
-------
4420
     MONROE  COUNTY   80    SCRLE-.   i KM:  250000  KM
   cc
   E3
4370
no
s


S10
0

410
4


310
0
210
s




520
18





320
12




120
10


540
8





340
8




140
10




:;eo












MO
e


260
4





270
4






SOI
8










   470
                          KM   (EflSTING)
                                     520
           Figure 40o.
Particulate area grid emissions for
Monroe County in 1980
                            150
-------
4440
   ti>
   cc
   o
4380

_L 	 1 	 _1 	 _
MONTGOMERY COUNTY SOscflLE







710
3S
610
35
510
36
410
38
310
36
210
23
110
29
620
157
420
148
220
135
120 ISO
28 42

740
SI
640
51
543
23
541
443
13
441
IS
544
37
542.
23
444
39
442
20
340
39
240
72
140
40
,j 	 1_ 	 1 	 1 	 1 	 1 —
: 1 KM: 250000 KM
651.
11
750
112
650
88
553 554
32 40
SSI 552
53 82
453 4S4
61 SO
451. 452
28 21
350
86
260
71
150
36

760
41
660
48
583 584
25 20
581 562
38 37
463 464
52 77
461. 482.
20 52
383 384.
25 42
381. 362.
IP 38
280
57
180
48
770
61
670
82
S73
20
571
48
473
43
471
47
373
31
371.
27
270
55
17O
33
	 1 	 1 	 < 	 1 	 1 	
    700
                                   KM   (EflSTING)
760
                  Figure 40p.  Particulate area  grid emissions for

                               Montgomery County in 1980
                                     151
-------
4590


3
2
(M (NORTHI


n
PORTRGE COUNTY 80 SCflLE: 1- KM: 250000





	 1 1 	 1

SI 4
13
512
32
414
IS
412
0
	 1
310
24
710
33
•10
25
523 524
15 0
521 522
86 12
420
32
310
28
210
22
•20
23
720
23
820
533 534
0 11
531 532
26 29
430
38
320
21
220
21
	 1 	 1
730.
47
540
83
330
44
110.
45
740
4?
550
se
340
66
120
S7
1 1 	 1 1
1 	 1 	
KM



i — i 	
   450
                                  KM   (ERSTING)
                                              510
                  Figure 40q.
Particulate area grid emissions  for
Portage County in 1980
                                    152
-------
4550
                                                      	1	1	H	

                                                      1 KM:  250000  KM
             RICHLRND   COUNTY   80'    SCflLE:
2
I-H
n:
i—
cc
                             1010
                             910
                             23
                             BIO
                             20
                             710
                                510
                                40
                                       020
                                       41
                                       730
                                       50
                                    420
                                    18
                                           530
                                           45
                                       430
                                       18
                                           330
                                           19
                                                 740
                                                 S3
                                                 840
                                                 83
                                                S4S
                                                56
                                                541.
                                                ei
                                               544
                                               28
                                               542
                                               21
440
35
                                              340
                                              21
                                              130
                                                    S60
                                                    23
                                                               (80
              580
              125
                                                            360
                                                            42
                                                            «°
 4480
     340
                                     KM    (EflSTING)
                                                                                     400
                      Figure 40r.  Particulate area grid emissions  for
                                    Richland County in  1980
                                           153
-------
4550
   z
   I—I
   ±
   l-r-
   CC
   O
4490
    440
	 -,



	 1
STR.RK COUNTY
BIO
32
510
t
41 0
1
310
32
210
34
,8°
620 830
51 3f
S20 630
28 27
433 434
420 " '3
*" 431 432
43 21
320 330
37 48
e?°
80
840
28
541
27
443
47
441
20
D
444
22
442
44
340
33
1 	
SCflLE: 1
810
26
710
28
651
40
553
24
551
25
453
41
451
75
9
SS4
13
552
40
454
82
4S2
89
350
76
If
1 1 1 1 	

720
S«
880
27
S80
41
&
461
31
464
20
462
14
380
30
870
0
570
86
470
28
370
60
140
100
	 1 	

KM: 250000 KM
630
53
480
58
220
78
1 	 1 	 1
789
m
22
890
80
590
28
480
0
880.
0

                                   KM   (EflSTING)
                                             500
                   Figure 40s.
Particulate area  grid emissions for
Stark County in 1980
                                     154
-------
4590
   cc
   D
   Z
4520
I 1 i
SU'MMIT COUNT


	 1 	 1
710
111
610-
11
510
47
410
M
310
55
1 .1
•20
J8
520
40
420
J
-------
4400
   ci>
   cc
   o
4340

    710
NflRREN COUNTY










7JO
21










80

720
21
620
IS
no
0

420
34





320
16

220
25

123
0



121
7
SCflLE: 1 KM: 250000 KM

730
18
630
0
530
7

430
:a





330
34

If
133
0

134
0
Jw
740
27

750
0
540
34
440
18


340
18


460
0


360
17


140
42

760
28

770
0
660
132






360
143








160
91




	 1
-




"






I
1 	 	
                                   KM   (EflSTING)
77
                 Figure 40u.   Particulate area grid emissions for

                              Warren County in 1980
                                   156
-------
4620
   x:
   t—
   cc
4550
HOOD








	 1 	 1
COUNTY




610
21
310
27
no
3S
	 1 	 1
8



730
to
no
20
580
17
Ml
21
IS
25

0


640
10
740
11
640
23
640
66
9
I

SCflLE

0°
78
21
SSI
48
35
24
IS
23

•: 1-
1060
35
MO
g

0

D
0
1 	 1
KM: 250000
870
67
770
25
f?°
23
370
25
170
21
i 	 1 	 1
KM








i
    250
                                   KM   (EflSTING)
310
                    Figure 40v.  Particulate area  grid emissions for

                                Wood County in 1980
                                      157
-------
4460
            BELMONT  COUNTY  85     SCflLE:   1 KM:-  250000  KM
   cc
   O
   Z '
7ie
28




sio
41




310


110
28
730
27




530
28




330
25

ISO
44
750
42




550
57




350
23

150
37


770 7*0
21 a


570
47




370
38

170.
30

790
1?
«90
125


590
43
490
55


35


4400
    470
                                        -4-
                                  KM   (ERSTINO)
                                               53(
                Figure 41a.
Particulate area grid emissions  for
Belmont County in 1985
                                   158
-------
4400
   cc
   CD
4340
BUTLER COUNTY 85



	 1
600
38
1 	 1
510
4
31
18

620
0
520
16
D.
110.
142
i 	 1
SCflLE

530
136
430
21
330
84
230
43
ISO
41
	 1 	 1
443
0
441
343
11
341.
17
444
11
442
11
344
26
342
10
240
18
143
0

144
0

esa
24
5 SO.
80
450
21
350
44
250
47
153
72

154
10
1 	
1 KM: 250000
760
3«
860
87
580
20
460
1
36ft
30
280
42
163

164
0
770
28
673 674
1 1«
671 672.
91 25
570
23
470
43
370
1
270.
26
173 174
a 10

680
32
2s?"
480
23
380
20
290
32
183 184
3 0
	 1 	 1 	 1
KM


i i
    680
                                  KM    (ERSTING)
740
                 Figure 41b.   Particulate area grid emissions for

                              Butler County in 1985
                                    159
-------
4450
7!
i — i
±
1— '
OC
z:
n
CLflRK COUNTY

_ —i 	 j

310-
28
210.
52
85 SCflLE: 1 KM: 250000 KM
420
42
32ft
24
220
22
	 1 	 1
330
22
230
27
540
22
440
22
340
25
240.
101

550
47
4S3
0
451.
28
&
351
33

4S4
13
452.
37
364
66
352
33
560
31
460
24
380
64
ISO
41
570
1
37
50
SOT
ee
0
17O
58
1 	 1— 	 1 1
580
24
4M
3
38O
29O
0
	 1





l 	
    740
                                  KM   (ERSTING)
                                             800
                   Figure 41c.
Particulate area grid emissions for
Clark County  in 1985
                                      160
-------
 4360
4290
3
2
1 —
-------
4540
   3:
   t—
   cc
4480
           COLU'MB.IflNfl  COUNTY  85scfli_E:  i KM:  250000 KM
810
22


710.
D
0


510
23


728
48



520
43








640
as


740
24
860
22


750
23

540
SO



58
140
45




760
67



560
43


380
43
160
46




780
70



580
43



56
280 2W
31 147

180
IS
                                KM   (EfiSTING)
                                                                      550
                Figure 41e.
Particulate area grid emissions for

Columbiana County in 1985
                                 162
-------
4620-
   £C
   ED
4560
CUYRHOGfl

•


	 1 	 L
510
131
410
132
310
128
210
10J

COUNTY 85 SCRLE-: i


S21
39
423
46
421
44
323
21
321
31
^522
ss
424
48
3*?
324
68
322
37
220
134
120
117

533
47
531
86
433
64
431
54
333
38
331
34
534
SB
532.
81
434
71
1?
334
SI
332
39
230
108
130
101
	 1 	
543
60
541
eo
443
71
441.
35
343
57
341.
66
544.
41
542.
86
444.
S3
442.
83
344.
75
342
43
240
133
140
101
	 1 	
S53 554
39 80
SSI S52
73 45
453 454
77 34
451 452
78 34
353 354
73 31
951 352
54 37
2SO
113
ISO
106
863 864
52 120
661 661
133 120
563 S64
110 93
561 S62
78 37
463 4C4
70 ea
461 462
47 172
383 384
42 41
361 382
30 36
280-
103
160
104
	 1 	 1 	 1
KM:
771
62
679
113
871
72
573
82
S71
42
473
21
471
180
373
67
371
33
250000

774
81
772.
64
874
78
672.
60
574
77
572
30
474
21
472
130
374
54
373
31
881
77
763
48
761
41
663
45
611
58
583
58
581
31
483
36
481
68
3(3
45
381
48
882
52
7«4
41
789.
71
8*4
38
6*2
48
804
32
8*2
31
484
33
482
38
3(4
31
362
32
KM
781 782
32 21
690.
144
590
108
490
111
3*0
108
	 	 —L... 	 .-4_ 	 i




-
    410
                                   KM   (EflSTING)
                                               470
                 Figure 41f.
Particulate area  grid emissions for
Cuyahoga County in 1985
                                    163
-------
4460
o
7"
o KM (NORTHI
FRRNKLIN

	 1 	 1

710
144
810
70
510
S8
4.10-
80
sin.
52
COUNTY 85 SCflLE:
820
52
720
82
S20
68
528
56
420
86
320
176
110
175
890
53
730
151
ess
21
831
20
933
20
S31
23
433
48
431.
30
834
32
832
60
534
40
S32
20
434
77
432
30
330.
80
840
84
743
23
741
28
843
30
841
37
543
35
S41
32
443
70
441.
19
744
44
742
40
844
55
842
71
S44
118
S42
58
444
38
442.
30
340-
59
130
183
_.. 	 1 	 J 	
850
54
763
31
7St
37
863
52
8S1
73
5S3
45
551
80
4S3
94
451
55
7S4
19
7fi2
38
8S4
24
852
30
554
38
SS2
37
454.
55
452.
24
35O
103
250
34
ISO
58

1. KM:
880
70
780.
53
880
68
583
22
sei
56
483
52
481.
35
564
li.0
562
48
484
57
482
19
360.
55
280.
52
180
78
	 1 	
	 4
250000
770
179
670
54
570
55
473
35
471.
34
474
30
472
24
370
57
270
ss
— 	 1
880
84
580
54
480
56
380
72
	 1
KM


i 	 1
    300
                                  KM    (EflSTING)
                                              360
                 Figure 41g.
Particulate area grid emissions for
Franklin County in 1985
                                     164
-------
4630
             GEflUGfl  COUNTY    85      SCflLE:    1  KM:  250000 KM
:r
i—
cc
                            510
                            10
                            410
                            10
                            910
                            11
                            210
                            16
                                520
                                23
                                420
                                11
                                320
                                12
                                          no.
                                          11
                                          830
                                          0
530.
9
430
0
330
10
                                       120
                                       21
                                             740.
                                             184
              7SO
              11
                                                    540
                                                    33
                                                    340
                                                    23
                                                 140
                                                 2.3
                                                                  20
                                                              S80
                                                              27
                                                              sea
                                                              25
                        180
                        24
4570
     450
                                        KM   (EflSTING)
                                                                                   510
                     Figure 41h.
                                Particulate area grid emissions for
                                Geauga County  in 1985
                                           165
-------
4430
           GREENE  COUNTY    85     SCflLE:   1  KM: 250000 KM
   X
   M
   oc

   z

504
0
502
7
r
402
304
14
102
8

BID
U
510
84
410
46
310
17
620
54
520
14
420
18
320
45
110
28
630
0
530
37
430
18
330
113
840
16

440
31
340
1
130
28
350
0
250.
12
isa
0
4<0
41
280
25
160 170
a 12
4370
    740
                                  KM   (ERSTING)
                                             800
                 Figure 41i.
Particulate area grid emissions for

Greene County in 1985
                                    166
-------
4370
   C5
   cc
   o
4320

    680



	 1
HflMI
500-
108
	 , , .4
LTGN COUNTY 85 SCflLE: 1 KM: 250000 KM

410
35Q
310
88
210
88
	 1
320-
68
220
105

530
134
43
10
333
17
331
17
233
28
231
51

a
z
334
43
332
34
234
28
232
28

641
17
543
28
541
32
443
33
441
iS
343
33
341
45
243
37
241
36
642.
40
544
41
542
31
444
35
442
32
344
28
342
32
244
38
242
44
140
84
651
48
553
29
SSI
31
453
37
451
34
353
35
351
37
253
40
251
as
652
29
554
29
552
29
454
38
452
33
354
31
352
37
254
49
252
S3
ISO
135
661
30
563
29
561
32
463
31
461
31
363
31
361
53
263
83
261
44
662
36
564
32
562
34
484
38
462
34
364
45
362
43
284
38
262
17
160
87
871
34
872
48
570
94
473
31
471
5*
373
38
371
49
273
38
271
38
474
3S
472
43
374
32
372
35
274
32
272
81
170
148
661
S3
882 6»l
34 53
682 685
44 29
580 590
101 128
483
32
481
34
383
31
381
38
283
17
261
33
183
32
181
30
480
84
3*0
105
280
83
190
82
	 	 1 	 4 	 1 	 	 1 	 1 	

.1 — 	 J 	 1 	
                                        KM   (EflSTINS)
                                                                                        750
           Figure 41j.  Particulate area grid  emissions for Hamilton County  in 1985
-------
 4500
4440

KM (NORTHING').
0.
J'EFFERSON COUNTY 85


i
500

714
9
l
•26
36


620
38
426
40
220
«2
120
0


130
28
SCflLE: 1
S40
38
640
36
5*0
22
440
S3
24
37
140
18

1/M f C
650
112
4SO
27
3
ISO
28


860
28
760
43
660
47
sea
138
460
40
360
23

KM: 250000- KM
• •

• •
T. ._ 	 1 | 	 1
nCTTklOl 5
                                                                 550
          Figure 41k.
Particulate area  grid emissions for
Jefferson County  in  1985
                              168
-------
4650
   or
   o
4590
LflKE COUNTY 85


311.
33
213
58
211
58
113
22
	 1 	 1 	

532
25
430
421 422 S3
23 30
314 323 324
23 SO 20
312 321 322 **
33 24 22
214
25 220 230
212 *3 "
21
114
37 120 130
54 bO
SCflLE: 1 KM: 250000 KM
760
54
880 670 660
143 46 139
543 544
2 2 550 560
641 542 88 «
24 23 470
144
440. 450 460
80 43 72
340 350 360
51 61 0


	 1 	 1 	 1 	 1 	 1 	 1 	 , ,_| 	 	 U. 	 ..4.
    450
                                  KM   (EflSTING)
510
                 Figure 4U.   Particulate area grid emissions for

                              Lake County in 1985
                                    169
-------
4610-
      LORflIN  COUNTY
cb
2 ..
   
-------



ci
z .
KM (NORTHI

4580.
LUCflS COUNTY 85 SCflLE: 1 KM: 250000 KM




•
710
10
720
13
510
128
310
220
110
152

250
1
730
45
830
45
530
50
740
840
58
640
58
330
138
230
54


780
7S1 752 781 782 "'
33 33 ^o 21
853 854 863 884 "'
30 60 63 24
880
8S1 852 881 882 871 872 ""
33 41 55 83 40 S3 SM
553 554 583 584 573 574
23 3'' 73 *2 *6 2° 580 585
SSI SS2 561 582 571 572 ** "8
21 37 o2 33 40 20
450


• i i i t i
KMfCOQTTMfl)
                                                                             320
Figure 41n.   Particulate area  grid emissions for Lucas County in 1985
-------
4420
   oc
   CD
4370
     MONROE  COUNTY   85     SCflLE:   1  KM:  250000 KM
810
5


SIO
0

410
s


310
0
210
5




520
17





320
13




120
11


540
8





340
8




140
10




560
a











360
8


260
4





270
4






set
8










    470
                            KM   (ERSTING)
                                        520
           Figure 41o.
Particulate area grid emissions for

Monroe County in 1985
                             172
-------
V
KM (NORTHING-)
in
MONTGOMERY COUNTY 85sCfli_E


1. 	 4 	 .-1
710
42
610
40
510
41
410
45
310
41
210
34
110
34
620
181
420
188
220
155
120 130
34 48

740
57
640
57
543
21
541
9
443
14
441
If
544
40
542
25
444
42
442
21
340
44
240
70
140
45
: 1 KM: 250000 KM
651
13
750
133
650
75
5S3 554
35 43
551 552
57 88
453 454
65 84
451 452
30 23
350
110
2SO
78
150
41

760
47
660
54
563 564
27 22
561 562
42 39
463 464
56 62
461 462
22 55
883 364
28 45
361 362
18 38
260
63
160
S4
770
88
870
89
573
22
571
52
4*P
471
bO
373
34
371
28
270
82
170
4S
... _l 	 1_ _ 	 1_ .. — 1 	 1 	 1 	 1 	 1 	
700
                               KM   (ERSTINPr)
                                             760
                Figure 41p.
Particulate area  grid  emissions for
Montgomery County in 1985
                                   173
-------
4590
           PGRTRGE  COUNTY    85    SCflLE:   1  KM: 250000 KM
   X
   ^
   oc









514
It
512.
33
414.
16

412
0







•10
26


710
34
610
27

S29 524.
16 0
621 S22
88 13


420
34



310
30
210
23

820
2<


720
24
620
4

538 534
0 11
531 S32
27 30


430
43



320
23
220
23




730
SO




540
68








330
47




110
48


740
SI




550
59








34a
72




120
52
4530
    450
                                  KM   (EflSTING)
                                            510
                   Figure 41q.
Particulate area grid emissions for

Portage  County in 1985
                                     174
-------
4550
             RICHLRND  COUNTY  85     SCflLE:   1  KM:  250000 KM
z
»—t
ni
i—
cc
                             1010
                             1
                             910
                             21
                             aio
                             u
                             710
                             i.
                                 510
                                 44
                                       •20
                                       48
                                       720
                                       S3
                                    420
                                    20
                                           830
                                           26
                                           no
                                           46
430
20
                                           330
                                           20
          840
          42
          746
          62
       840
       89
                                                643
                                                se
                                                E41
                                                84
         644
         90
         S42
         22
440
37
       340
       23
                                              130
                                              1
       eso
       32
              sso
              25
880
22
              500
              147
                                                            350
                                                            48
                 150
                 78
4480
    340
                                        KM   (HOSTING)
                                              400
                     Figure 41r.  Particulate  area grid emissions for
                                   Richland County in  1985
                                          175
-------
4550
   Ct
   o
4490




STflRK COUNTY
610
36
510
410
310
36
210
3fl
110
40
no 830
57 41
620 530
31 30
433 434
8° K U
" 431 432
45 22
320 330
42 48
120
89
85
640
29
541
28
448
55
441
21
D
444
23
442
46
340
35
SCflLE: 1 KM: 250000 KM
BIO
23
710
33
650
42
S53
25
551
28
453
43
4S1
78
554
14
552
41
454
es
4S2
72
350
80
130
BS
L, 	 	 L_ 	 1 	 1 	

720
91
660
29
S8i
4<
463
34
461
33
3»
33
9
464
21
462
IS
0
870
0
570
123
470
28
370
69
140
:i3

	 1 	

880
66
460
es
220
88
763
761
23
680
83
580
28
490
9
360
0

	 1 	 	 	 1- - 	 — 1_ -. ,., —
    440
                                   KM   (E.RSTING)
500
                  Figure 41s.  Particulate area grid emissions for
                              Stark County in 1985
                                     176
-------
4590
4520


-^
JD
T
—t
r
r:
D
z
E:
t: •
3 .
SUMMIT COUNTY



. — -i 	 _i
710
128
BIO
13
ir
410
SO
aio
84
'
820
43
520
44
420
43
923 324
18 33
321 822
21 36
210
52
110
44
85 SCRLE: 1 KM: 250000 KM
1010
48
910
88
1020
90
820
SI
730
180
830
43
533
531
33
433
28
431
18
333
24
311
37
534
2\
532
37
434
72
432
58
334
50
332
20
220
45
120
«4
'
430
640
S3
543 544
21 54
541 S42
31 41
448 444
48 28
441 442
45 58
343 344
52 54
341 342
22 ie
230
49
130
47
1030
48
930
44
880
43
740
47
863
IB
851
21
SS3
34
SSI
18
453
24
4S1
44
363
78
351
18
864
18
862
S8
654
13
552
19
454
18
452
27
354
32
352
ie
240
45
140
183

1040
37
940
38
840
14
750
184
883
18
681
48
683
i
S61
27
480
380
4&










kMfCQCTTMr.1 i
                                                                              490
                  Figure 4lt.  Particulate area grid emissions  for
                              Summit County in 1985
                                     177
-------
4400
           WflRREN  COUNTY   85    SCflLE:   1  KM:  250000  KM
   CD
   z..
710
23

720
22
620
16
520
0
420
39
32O
17
220
28
123 124
0 8
730
20
630
0
530
430
20
330
38
230
40
133 134
0 0
132
0
740
30
750
0
540
38
440
340
21
460
0
350
19
140
48
760 770
29 0
560
149
8?
160
102
43401
    710
                                  KM   (EflSTING)
                                             770
                  Figure 41u.
Particulate area grid emissions for
Warren County in 1985
                                     178
-------
4620
   03
   CC
   O
4550
WOOD








	 1 	 (
COUNTY




S10
23
910
29
no
3«
	 1 	 1
e



790
890
22
590
IB
99
23
191
28
	 L
5


840
11
748
12
840
25
540
70
1
)
	 1
SCflLE

8SO
35
IV
23
551
50
351
26
ISC
26

: 1
1080
97
•80
1
I

)



	 1
KM: 250000
970
73
770
26
570
2S
970
170
23
	 L. 	 1
r • - — r — —
KM






•
•
	 1__ 	
                                   KM   (EflSTING)
                                                                            310
                  Figure 41v.  Particulate area  grid emissions for
                              Wood County in 1985
                                     179
-------
                              SECTION VII
                            RECOMMENDATIONS

Based on the results of this study,  a number of recommendations  can be
made to improve the procedures and data utilized to calculate the ambient
TSP air quality.  The first problem which must be attacked is the point
source inventory.  In terms of completeness, OEPA seems to have  included
a significant number of the small point sources, but the accuracy of the
data in the file is somewhat questionable.  It would be desirable to
verify all point sources in the file to insure that all data pertinent
to air quality modeling is correct.

The second problem which needs attention is the area source inventory.
It is desirable to have a small amount of area emissions to allocate
since area sources are allocated by a scheme whose accuracy is questionable.
For most counties, the major source of TSP area source emissions is motor
vehicles.  Under the CAASE program,  these emissions are allocated by popu-
lation or inverse population density.  It would be preferable to allocate
vehicle emissions to the grid square base on VMT in the grid square.  This
data may be available from the local transporation agencies in the form
vehicle mileage maps.  Additionally, an inventory of fugitive emissions
sources should be compliled and allocated to the appropriate grid square.
The major categories that should be included are:  dirt roads, construction,
land tilling, and paved roadway emissions.

After the emission inventory was updated, the TSP air quality monitors
would have to be evaluated with respect to the quality of the data, the
                                 180
-------
siting of the monitor, and the suitability of the monitors for model cali-
bration.  Before any air quality data is utilized for model calibration,
it is necessary that the data be verified to ascertain that no transcip-
tion errors have occurred in getting the air quality data into the SAROAD
system.  Additionally, site location should be checked for accuracy.
Each monitor site should be evaluated to determine whether it adequately
represents the ambient TSP level.  Because of poor siting, a monitor
might be either sheltered from sources, or in a "street canyon" environ-
ment where normal wind dispersion does not occur.  Additionally,  if a
monitor is near a large fugitive source, it may not be desirable to use
this station, since fugitive sources are included in area sources, and
as such are uniformly spread throughout the grid, not concentrated in
a small area.

The last problem which should be addressed is the ability of MCDM to
adequately predict TSP levels.  MCDM does not currently contain any
mechanism to handle washout, deposition, or settling.  Models which
take these mechanisms into account are being developed.  It is not
felt that the model limitations are currently the major problem since
good correlations have been reported with this model.  The major
sources of improvement that can be implemented at this time is a
complete and accurate emission inventory.
                                 181
-------
                               SECTION VIII

                                REFERENCES
 1.  Guidelines for Air Quality Maintenance Planning and Analysis,
     Volume 7:  Projecting County Emissions.  U.S. Environmental
     Protection Agency, Office of Air Quality Planning and Standards,
     Research Triangle Park, North Carolina.  January 1975.

 2.  Guide for Compiling a Comprehensive Emission Inventory (Second
     Edition).  U.S. Environmental Protection Agency, Office of Air
     Quality Planning and Standards, Research Triangle Park, North
     Carolina.  December 1974.

 3.  Guidelines for Air Quality Maintenance Planning and Analysis,
     Volume 8:  Computer-Assisted Area Source Emissions Gridding
     Procedure.  U.S. Environmental Protection Agency, Office of Air
     Quality Planning and Standards, Research Triangle Park, North
     Carolina.  September 1974.

 4.  User's Guide for the Climatological Dispersion Model.  National
     Environmental Research Center, Office of Research and Development,
     U.S. Environmental Protection Agency.  EPA-R4-73-024.  December 1973,

 5.  Mineral Industry Survey.   U.S. Department of the Interior, Bureau
     of Mines, Washington, D.C.  1974.

 6.  Highway Statistics.  U.S. Department of Transportation, Federal
     Highway Administration.  Washington, D.C.  1974.

 7.  Med-X Census Tape.

 8.  Detailed Housing Characteristics in Census of Housing 1970.  HC-B
     Series.   U.S. Department  of Commerce, Bureau of the Census,
     Washington,  D.C.  1970.

 9.  County Business Patterns.  U.S. Department of Commerce, Bureau of
     the Census,  Washington, D.C.   1973.

10.  Waterborne Commerce of the United States.  U.S.  Department of the
     Army, Corp.  of Engineers, New Orleans,  Louisiana.   1974.
                                 182
-------
11.  FAA Air Traffic Activity Fiscal Year 1975.  U.S. Department of
     Transportation, Federal Aviation Administration, Washington, D.C.

12.  Military Air Traffic Activity Report, Calendar Year 1974.  U.S.
     Department of Transportation, Federal Aviation Administration,
     Washington, D.C.

13.  Current Population Reports.  U.S. Department of Commerce, Bureau
     of the Census.  Series P-26.

14.  Cowherd, C. C., et al.  Emissions Inventory of Agricultural Tilling,
     Unpaved Roads and Airstrips,  and Construction Sites.   U.S.  Environ-
     mental Protection Agency, Office of Air Quality Planning and Standards,
     Research Triangle Park, North Carolina.  Report Number EPA-450/3-74-085.
     November 1974.

15.  Compilation of Air Pollutant  Emission Factors.  U.S.  Environmental
     Protection Agency.  Office of Air Quality Planning and Standards,
     Research Triangle Park, North Carolina.  February 1976.
                                183
-------
            APPENDIX A




PROGRAM "EXTRACT" AND SAMPLE OUTPUT
               184
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                            FORTRAN  IV  Gl   RELEASE  2.0
                                                                   MAIN
                                                                                     DATE  = 76295
                                                                                                                                 PAGE  0001
00
Ui
C
c
c
c
c
c
p
c
c
c
c
c
c

PROGRAM: EXTRACT
THIS PROGRAM EXTRACTS A NUMBER OF PARAMETER FKOM
SOURCE FILE, AND REFORMATS THE DATA FOR INPUT TO
ADDITIONALLY THE TOTAL FJcL 3JRNED BY THE POINT
BY FUEL AND BOILER TYPE.

THE NEDS POINT
COM AND MOf.
SOURCES IS PRINTET
FUEL TOTALS ARE FOR SCCI WHICH IS EXTERNAL COMBUSTION.
THE SCC III PUNCHED ON THE STRATEGY TAPE IS THAT
OF THE LAST CARD 6 rfHEN THERE ARE MULTIPLE CARD 6.
                             0001
                             0002
                             0003
                             0004

                             0005
 REAL*4 MTRCNV
 REAL*B DATA,CYCLE,CODE
 INTEGER SCCI,SCCII,SCCIII,SCCIV,PAGE
 DIMENSION DATA(7»,TFUEL<3,14),STATFt5),COUNTY<5),TFUEL2<3,14),
lPCTS02tl4),TEMPI 14,3 ) ,NAME8( 3,14), NAME! (3,91, ASHC3J
 DATA NAMEB/'ANTHS'RACIS'TE   •,'BITU','MINO','US  »,
                                                    ILLAS'TET-,
                                                  i'LIGNSTTE ','    S'RESlTr'DUAL'T1  01 L ' ,'DIST ', '
                                                  2'NATUS'RAL S'GAS • , •PROC','ESS  S'GAS  S'COKF.','
                                                  3'WOOD','/BARS'K   S'UNDES'FINES'D   ','BAGA•,'SSE
                                                  ^'SOLI'.'D WA'.'STE '.'LIOU'.'ID W•,'ASTE*,'OTHE•,
0006
-- 	



0007
0008
0009
O010
0011
0012

0013
0014
0015
0016

C
C
C
c
c
c
c
c


c
c
c


DATA NAMEI/'DIST'.TLLA'.'TE • , 'NATU', 'RAL f,'GAS ',
1'GASO', 'LINES' •, 'DIES', 'EL ',' ', 'RESI • , 'DUAL ', • OIL',
Z'JET ', 'FUELS' S''CRUO',»E OIS'L S'PROCS'cSS S'GAS S
3'OTHES'R_ S* '/
SET UP DEVICE NUMBERS.
(5) = CARD READER
(6) = LINE PRINTER
(71 = CARD PUNCH
(9) = TAPE WITH NEDS POINT SOURCE DATA
(4) = OUTPUT TAPE WITH DATA FOR STRATEGIES PROGRAM
IRD=5
IPR=6
IPU=7
ITPI=9
ITPO=4
ISMPT=8
DEFINE REQUIRED CONSTANTS.
PI =3. 141 59
MTRCNV=0.3043
SA=0.0
SIDE =0.0
-------
                         FORTRAN IV 61  RELEASE 2.0
                                                                 MAIN
                                                                                    DATE
                                                                                           76295
                                                                                                          14/54/27
                                                                                                                                PAGE  0002
I-"
CO
0017
0018
0019
0020
0021
0022
0023
0024
0025
0026
0027
0028
0029
0030
0031
0032
0033
0034
0035
0036
0037
0038
0039
0040
0041
0042
0043
0044
0045
0046

235 DO 111 1=1,14
PCTS02«i)i6.0
00 121 J=l,3
TFUELIJ, 11=0.0
TFU£L2(J,I)=0.0
121 CONTINUE
111 CONTINUE
ASH(1)=0.0
ASH(2I=0.0
ASH(3)=0.0
C
C SET COUNTERS AND FLAGS.
C
TS02=0.0
ES02=0.0
TPART=0.0
EPART=0.0
iCNT-0
ICNTS=0
PAGE = 1
LINE=0
IFLAG=0
IEOF=0
C
C READ THE STATE AND COUNTY
C AND LEVEL OF POLLUTANTS WH
C A POINT SOURCE. (TONS/DAY)
READ(IRD,10,END=245) STATE
10 FORMAT (10A4,4X,A6,2FiO.O)
IFIS02L.LE.O.O) GO TO 245

-
	
NAME, THE STATE COUNTY CODE
ICH MUST BE EXCEEDED ~TO BE CONSIOE'REO
.COUNTY, CODE, S02L.PARTL
WRITE(IPR.IOO) PAGE
100 FORMAT (1H1,//,T1 24, 'PAGE ',13)
WRITEdPR.ilO) C6UNTY,STATE,S02L.PARTL . . - _ ._
110 FORMAT t ///////////////, T50, 'FOR THE COUNTY OF ',5A4,
1//,T50,'IN THE STATE OF ', 5A4, /////, T35, • THIS IS A SUMMARY OF ALL
2SOURCeS POTENTIALLY EMITTING MORe THAN' , //, T38, F5 .0 , ' TONS QF S02
3 OR '.F5.0,' TONS OF PARTICULATES PER YEAR')
PAGE=PAGE+1
WRITEtiPR.lSO) PAGE
180 FORMAT ( 1H1 ,//,Tl 24, 'PAGE ' ,13, / ,T06, 'STATE' ,T13 , 'PLANT • ,T29, 'NAME
lADbRESS',T64, 'KM E',T71,'iCM N' ,T80, ' S02 ' ,T37, 'PART' , '
2T94,'HEIGHT',T104f 'EXIT' ,T112, 'DI AM • ,T1 18, 'TEMP • ,T1 9, 'EMIS' ,/,
3T06,tCOUNTY',T15,'ID',T78,
4T104, -M/SECST 111, 'METERS'
C
C READ THE STATE COUNTY AND
C
•TONS /YR',Ta6,'TONS/YR',T94, 'METERS',
,T120,'C',T20,'PT',/)
PLANT CODES, AND THE PLANT NAME.
-------
 FORTRAN  IV Gl  RELEASE  2.O
                                         MAIN
                                                           DATE
                                                                   76205
                                                                                                      PAGE  0003
  0047
  0048
  0049
  0050
  0051
  0052
  0053
  ~0054
  0055
  0056
  0057
  0058
  0059
  0060
  0061
	0062
  0063
  0064
 105 READ! ITPI, 20, END=205) DATA.ICRO
  20 FORMAT ( A6.3X , A4, 6X, 5A8 , 18X, I 1)
     IF(ICRD.NE.l) GO TO 185
     IF(DATA(1).NE.COOE1 GO TO 215
     REAO(ITPI,70) ICRO
     BACKSPACE ITPI
     IFCrCRD^NE^ll^q^ TO 115      __      __         _
     GO TO 105

     READ THE  COORDINATES, STACK  HEIGHT,  DIAMETER,  TEMPERATURE, FLOW
     RATE AND  PLUME HEIGHT FOR THE EMISSION  POINT.

 115 IC6=0        __              _  ___   ___  ___  ___
     DO 141 i=U4
     DO 151 J=l,3
     TEMPHI, J)=0.0
 151 CONTINUE
 141 CONTINUE
 275 READ(ITPI,70,END=205) ICRD        _                  _
---              ~ "     ~
  0065
  0066
     BACKSPACE ITPI
     READ (ITPI, 30, ENO=205) NPT , ISIC.IPP, X, Y.STHT ,DIAM ,TE*P,FLOW,PHT,
    1ICRD
  30 FORMAT ( 13X,I2,2X,I4,A2,F4.1,F5.1 ,F4.0,F3. 1 ,F4.0,F7.b,F4.0,T80, II )
     IF(ICRD.NE.2) GO TO  185
0067
0068
0069
0070
0071
0072
0073
0074

0075
C
C
c
c
c
c
c
~ c"""
c
c
c
c
IF THE STACK HEIGHT IS ZERO, USE THE PLUME HEIGHT FOR THE
STACK HEIGHT.
IF(STHT.LE.O.O) STHT=PHT
ICNT=ICNT*1
CONVERT MEASUREMENTS TO METRIC UNITS.
STHT=STHT*MTRCNV
DIAM=DIAM*MTRCNV
STVEL=0.0
IF(DIAM.LE.O.O) GO TO 125
STVEL=FLOW/
-------
                     FORTRAN IV Gl  RELCASE 2.0
                                                                               OAT? =
                                                                                                     14/54/27
                                                                                                                                ooc<-
oo
oo
                      0077
                      0078
                     0079
                     0080
                     0081
                     0032
                     0083
                     0084
                     0085
                     0086
                     0087
                     0088
                     0089
                     0090
                     0091

                     0092
                     0093
                     0094
                     0095

                     0096
                     0097
                     0098
                     0099
                     0100
                     0101
                     0102
                     01O3
                     0104
    40  FORMAT M7X,F5.0,T53,2F3.1 ,TaO,Il >
       IF(ICRD.Nr.3)  GO TO 185

       READ  THE SEASONAL OPERATING CYCLE AND  THE  YrARLY EMISSION OF
       PARTICIPATES AND S02 IN TONS/YEAR.

       READtTTPI,50,END=205) CYCLE, PART, S02 , ICRD
    50  FORMAT (17X , A8~, 5X ,F7 .0,1=7. 0, T80 ,11)
       PPART=PART/<( 100-CNTRLPJ/10C)
       PS02=S02/((100-CNTRLS)/100>
       IF(ICRD.NE.4)  GO TO 185
       TS02=TSO?»S02
          T = TPART+PART
C
C
C

C
C
C
CHECK IF THE EMMISSIONS  ARE  TO BE CONSIDERED A POINT  SOURCE.

IF1PSOZ.LT.S02L.AND.PPART.LT.PARTL) IFLAG=1

SKIP CARD 5.
  285 READ(ITPI,70,END=205)  ICRD
      IF(ICRD.E0.5.0R.ICRD.cQ.7l GO TO 235
      BACKSPACE  ITPI
      READ THE  SCC  CODES  FOR JHIS PROCESS, THE  ANNUAL  FUEL CONSUMPTION
      AND THE 'SULFUR  CONTENT OF THE" FUEL.              ~

  135 IC6=IC6+1
      READ(ITPI,60,END=205)  SCCI,SCCII,SCCIII,SCCIV,
     1FUEL,PS02,PASH,HTCAP,ICRD
   60_ f.9?MAT J_P"_ ,1 It 12 ,13 ,12 ,£7.0 ,7X, F3 .2 , F3 . 1 ,F5. 0,T80 ,1 1)
    "  IF(ICRb.NE.6) GO  TO 185    " "
      IFdC6.GT.3)  IC6=4
      IF(SCCI.E0.1.0R.SCCI.E0.3.AND.SCCII.E0.90)
      TEMPI(IC6,2i=FUEL
      TEM?1(IC6,3) = PS02
      IF(SCCI-2)255,265,255                           ~
  265 IFfSCCII.GT.3)  SCCII=1
      IFCSCCIII.GT.8)  SCCIII=9
      I Ft SCC II .EQ. LAND.SCCII I.GT. 2) SCCII I=SCCI 11 + 1
      IF(SCCII.E0.3)  SCCIII=4  "
 	           TFUEL2^SCCir,SCCIII)=TFUEL2fSCCII,SCCIII)+ FUEL
      GO TO 225     ""     ~    '
C
C     IF THE PROCESS  IS A  BOILER  OR INPROCESS FUcL, STORE  THE  FJEL,
C     SULFUR   AND ASH CONTENT.
C
-------
                     FORTRAN IV Gl   RELEASE 2.0
                                                            MAIN
                                                                               OATt = 762:9";
                                                                                                                          PAGE 0005
oo
VO
                      0105
                      0106
                      0107
                      0108
                      0109
                      oiio
                      0111
_
 215
_255_IFISCCI.GT.31 GO TO 225  ____
     IF(SCCI.EQ.3.ANO.SCCii.NE.90)
     IF(SCCII.~T.3) SCCII=2
     IFISCCIII.GT.13) SCCIII=14
     PCTS02(SCCIII»=PCTS02(SCCI!I )*FUEL*PS02
     IF(SCCIII.LE.3I ASHiSCCIII >=ASH t SCCI 1 1 ) +F(JcL*PASH
     TFUEL(SCCtI,SCCIII)=TFUEL(SCCII,SCCIII)+FUFL
                     0112
                     0113
                     0114
                     0115
                     0116
                     0117
                     0118
                     0119

                     0120
                     0121
                    J0122
                     0123~
                     0124
     CHECK THE FOLLOWING NEDS  CARDS,  AND DO THfc FOLLOWING,
        CARD 1, BACKSPACE AND  GO TO 105
        CARD 2, BACKSPACE AND  GO TO 115
        CARD 6, BACKSPACE AND  GO TO 135
        CARD _7,_SIUP	   	
        CARD 3,4,5 WILL PRODUCE  A DIAGNOSTIC".

 225 READCITPI,70,END=305>  ICRD
  70 FORMAT (T80,I1)
     IFtICRD.EO.7) GO TO 225
    _IF1IC_RD.E0.6_I_GO TO 195                  	  	
     GO TO" 295      "  ~~
 305 IEOF=1
                                            PUNCH THE DATA REQUIRED  FOR  COM AND AODM, PRINT THE  DATA AND
                                            GENERATE THE STRATEGY DATA  TAPE.
                     0125
                     0126
                     0127
                     PI28

                     0129
 295 IFTTFLAG.EQ.O) GO TO T7~5
     IFISp2.GT.O.O.OR.PART.GT.O.p)_                         	
    1HRITE(ISMPT,220) DATA(i ) ,DA~fA("2 ) ,NPT,X, Y,S02,PART
 220 FORMAT (A6.2X,A4.2X,I4.2X,F7,1,FS.1,2F8.0)
     GO TO 155
 175 ES02=ES02+502		
     EPART^EPART+PART
     WRITE (IPR. 130 I (DATA(I>^I = 1,2),NPT, (DATA (I j, 1=3,7 ),X,Y,SJ32, PART,
    iSTHftSTVEi.,DIAM,TEMPK,IC6
 130 FORMAT ( T06,A6,1X,A4 ,I4,2X,5A8, F6 .1 ,F7. 1 ,2F*f . 0,F7. 1, 3F8. 1,13 1
                                            CONVERT ANNUAL EMISSIONS  TO GMS/SEC
                     0130
                     0131
                     0132
                         _
                     0134
     PART=PART*0.028792
     502=502*0.028792
 	WRITE_(IPUj_I20» X,^r,SIDE,S02,PART1STHT,DIAM,STVEUTEMPK,SA,
    IDATACZT "
 120 FORMAT (F6.1,2F7.1,2F8.3,F7.1.F5.1.F7.1,F7.1,FS.O,4X.A4.1HP1
     HR ITE"(IPU,900) (DATA(T),I=1,2),NPT,(DATA(I),I=3,75
 900 FORMAT ( TO6,A6• 1 X_tA4, 14,2X.5A8J
     iCNTS=iCNTS+l
     L|NE=LINf+l	
     IFILiNE.LT.50J GO TO 145         '
-------
FORTRAN IV 31  RELEASE  2.0
                                        MAIN
                                                           DAT?
                                                                  76295
                                                                                                      PAGE OOOb
 0135
 Ol36
 0137
 0138
 0139
 0140
 0141
 01.42
 0143
 0144
 0145
 0146
J>147
 0148
 0149
 0150
 0151
 0152
 0153
 0154
 0155
0156
0157
0158
0159
0160
0161
0162
0163
0164
0165
     PArJE=PA&F+l               _
     WRITE(IPR,180)  PAGE
     LINE=0
145  CONTINUE
155  IFLAG=0
     IF(IEOF.EO.l) GO  TO  205
195  .BACKSPACE  ITPI                   	
     IFIICRD.E0.6) GO  TO  135
     IFIICRD.GT.2J GO  TO  165
     IFHCRD-11105,105,115
185  BACKSPACE  ITPI
165  READ(ITPI,80,END=205)  DATA
 30  FORMAT (JAB)	                 _  _   _           	
     WRltE	
     WRITE (I PR, 150) TCNTTS02L, PARTL", ICNTS         =
150  FORMAT { /,T40,"TOTAL  EMISSION POINTS ON THE TAPE',15,//,
   1T40,»TOTAL SOURCES OF  S02 GREAtER  THAN •,F5.1,i  TONS/YEARS
   1» AND>,/.T49,'TSP SOURCES GREATER  THAN »,P5.t,'  TONS/YEAR IS «,I4,
   2//I
    CALCULATE THE AVERAGE "SULFUR  CONTENT FOR EACH FUEL

    DO 131 1=1,14
    TT=TFUEL(l,I)+TFUEL(i:,I)+TFUEL(3,I)
    IFITT.LE.0.0) GO TO  131                        "
    PC1S02(I )=PCTSp2(I)/TT	
    IF(f".LE.3) ASH(i)=ASH(i)/TT
131 CONTINUE
    PCTS  =ES02*100.0/TS02
    PCTPAR=EPART*lpp.O/TPART         	
  """WRrfE("lPR,19bl~T"S02,TPARf,"ES02~iPCTS"  ,EPART ,PCTPAR
19^0 ^QRMAT JJ^OjJjgT A L S02 EMISSIONS =',F9.0,' TONS/YRS//, 	
   1T40,'"TOTAL TS P EMISSIONS  =',F9.O,» TONS/YR1,//
   2T40,'S02 EMISSIONS FROM THE SELECTED POINTS IS',F9.0,'  TONS/YR',/,
   3f40",'PERCENT OF TOTAL S02 EMISSIONS • ,F6. 1 ,«?•,//,
   4T40,'TSP EMISSIONS FROM THE SELECTED  POINTS IS',F9.0,'  TONS/YR1,/,
   5T40,'PERCENT OF TOTAL TSP EMISSION*,F6.1,•*',//)
-------
FORTRAN IV 
-------
                                                                                                                                             PAGc   1
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-------
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-------
                              TGTi,!. ; .ISjIJ'v PuINTS JN T.-K T.'.° .

                              TOTiL SOURCES 0?  3'J<.  ^£iTL-( TH->
                                                                                     T5,"«S/r;A<
                                                                                     T J.vi./Vc: AK
                                           TOTAL  TSP z.HSCIONS
                                                   Or TOTAL  3
                                                                    i^<5i.5.  T .)*<;/,•:>

                                                                    11:10.  Tn L./Y
                                                                                    IS   12749.  TQ.-.1S/Y.-*
                                           TS?  MISSIONS FS9M  TH:  SELECT tit) .MINTS IS   11090,  TO.MS/YK
                                           PEKCEVT UF TOTAL  TSP  EMISSION  9?.-i^
VO
	FUEL	

      ANTHRACITE
      BITUMINOUS
                   RESIDUAL OIL
                  __OirriLL.4TI	
                   NATURAL GAS
                  _PAQCESS 5Ai_
                   CO*E
                   UNDEFINED
                 	BASAiSc	
                   SOLID  WASTC
                   LIQUID KASTc
                   OTHER
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	FL.ECJ.RK AL  jENEKATIGM
                                                                              ^MO
                                                                                     INDUSTRIAL
                                                                                                           CQXNtERoIAL  INSTITUTIONAL
1
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9
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0.6 9.5
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0.3
0.0
0^_G
0.0
0,0
0.0
0. 0
f . 0
u. n
0.0
Q
7169L.
0.

401.
Itl J.
0,
— o.
0 »_
0.
0.
0 .
V. .
0.
0,
3->1910.
0.
3571.
771u.
^Jt3.
^Cj3Q .
0.
0 .
r.
0,
0.
c ,
o.
0, s
f ^3000.
0^_
256.
0.
0.
0. . ....
0.
0. 	
0.
0.
0.
0.
0.
                      FUcL

                   DISTILLATE
                   NATURAL JiAj	
                   SASOLIMt
                   .O.IcSEL
                   RtSIOJAL  TIL

                   csuo:-  JIL
                                                   57(,7.
                                                      0.
                                                      o.
                                                      0 .
                                                      0.
                                                      0..
                                                                       SU^NcD BY INTfcPN«L  COMBUSTION

                                                                                     INDUSTRIAL
                                                  o.
                                                  o.
 COMMERCIAL  INSTITUTIONAL

                0.
	O.	
                                                  0.
                                                 .0.
                                                  0.
                0.
                0.
                0.
                *•' •
                0.
-------
                APPENDIX B




PROGRAM LISTING AND SAMPLE OUTPUT OF "ALLO"
                  196
-------
iROOO
9(7000'0*
1717000
£17000
2tiOOO
017000
6£000
9£000
«000
t7£000
££000
2£000
11000
09000
82000
/2000
92000
              172000
              £2000
   12000
   02000
   61000
   91000
   ilOOO
   91000
   SIOOO
   (71000
   £1000
   21000
   IIOOO
   01000
   60000
   90000
   iOOOO
   90000
   "50000
   170000
   £0000
I7»*?0000
   IOOOO
                 •/'o'oid'5'6i'0'oid<6Si',i[iJ  3iMlwntiq,'o£i'/'0'Ol
                     , '<76t ' , iSMi/i3rtM)3i vii'
                     i9f]MO'S7c)d;iO'S7')NO'd9:iA 'as
              m OH • 31 in*' i iino'3-nioo' iwii
                      (o'ni -in' <« vs/ 'o'o t d^'xg'27 '/ 'o'o i .-)
                                                                                'o i
                                                                                l"i7,'y£LI
                                                                                )  17 -din 012
                                                                                   -mvoii
                                                                                   din •••
                                                                                         on
                        'niO«'31IOd' t
                                                   Ij-UN7'19I  ( 0 I I '<)« I ) 07

                                                      n SllNO i>a SIBiui
                               ' .annw,
                                                         i»«ini.»Ni'9i7i'/'o*oH'iiiui'9sit7
                                                                     V'O'Old' , 1703, '
                                                  i ' 1 'n •)' |OVM IIMH TMSnOM  "
                      '973M '1IOWMI
                                                                                         o??
                                                ' uos'i»o3S'jziss«MAi'ciQ  (o^^'>^dI ) ma*
                                               f 0*0! d'i'XI ' t 'f J'Xl '0*5d'Xti«ft» •?«)  iWNHOd 0?I
                                                                 3MI90 SUNH
                                                                                      dO
                                                    JO
                                                                                  r , 'hhlff
                                             V/'O'OId'i  = 1N3WAU1HW3  T«IMlSn(lMl  1»lOl,i
                           'o»i//'o'oi J'l  =
                                       NOISSI'^9
                                                                            i 'osi'//'o»?i
                                                                                         002
                                               (O'Ot
                                                                  HI 09  (0'0'03'dOdS) Jl
                                                                                         OOt
                                                                           (00 t '
                                                                     ONV
                                                                                    IV jd

                                                                                     ONV
                             '3003
                                                           i 19Nl/«i03
                                                        d')O3 3171S  Jd3
                                                                                   i=f)dl
                                    ' 1U37N I '

                                S7  BOO  13AJ1  17
                                                                      ' II OH I '^
                                                                      (£) 3171S
                                                                                    17 9
                                                                                               6100

                                                                                               v 10 r>


                                                                                               91(10
                                                                                            SI uO
                                                                                            17100
                                                                                            5" I 00
                                                                                            2 Hi')
                                                                                            I 100
                                                                                            OIoo
                                                                                            60DO
                                                                                            BO no

                                                                                            /LOOO
                                                                                            9000
                                                                                            ^000
                                                                                            nOOO
                                                                                            tooo

                                                                                            2000
                                                                                            1000
1000 3'J*d
                       90/9£/Ol
                                                                                     0V
                                                                                                     A I
-------
                      FORTRAN  IV  tl   RFLEASf  ?."
                                                              MA jr.
                                                                                DATE  =  76266
                                                                                                      I0/36/06
                                                                                                                            PAGF  0002
VO
00
                        OU20
                        0021
                       0023
                       0024
0025
0026
0027
0028
0029
nn3o
oo3i
0032
0033
                        0035
                        00 ih
                        0037
                        0038
                        0039
                        OOUO
                                             3T30, 'RESIDUAL UIL ' , T M , F 1 0. 0 , T93, F 1 0 . 0 , /, T 30 , ' M TIJRAL  GAS1,
                                             UTU9,Fin.0,T71,F10.Q,T93,F10.Q,//,T«9,'PAILRGADS',FIO.O.
                                             5//.TUO,'VESSELS',F10.0,' DISTILLATE'.T75,F1U.O, • RESIDUAL',//,
                                             6T2U,'GASCL1ME ON HIGHWAY',F10.0,'  (1000  GAL)',10x,
                                             7'OFF  HIGHWAY',F10.0,'  (1000 GAL)',//,T2«,'0 IESEL UN HIGHWAY',
                                             8F10.0,1  (1000 GAL)',12X,'OFF HIGHnAY',F10.0 , '  (1000 GAL)1,//)

                                              CALCULATE  LIGHT AND  HEAVY GASOtlNE  USAGE.
           T^Vl «0.1 1/8. »
         (lPk,320)  SGASLtSGASh.STMVT
J20 ffjRMAT  (TbO, 'LIGHT vECHJCLt S ' ,f 1 0 . 0 , '  (luOO  GAL)1,//
   1150,'HtAVT  VEChlCLES'fFlO.Of'  (1000  GAl)',/,
   2TbO, 'TOTAL  STATE GAS VMT'.FIO.O,1  (100U  MI)',/)

    CALCULATE STATE HEATING FUEL AM)  SUBTRACT  FRO"' STATE  FUEL TOTAL,

    CALL  HEATNGtDO,SSIZE»SCOAL. 1»C()AL)
    ANTHR=ANTHk.[OAL
    IF(ANTHR.Ll.O.O) BITMRC. = Bnt*HC + AUTHR
    CALL  HEATNG(OD»SSIZE. SOIL, U, OIL)
                                              CALL HEATNG(DO,SSIZF.SGAS,3,GAS)
                                              CALL  HFATMG(OU.SSIZFrSftOOO,6,*\'OOD)
                                              ivHITE (IPW.300)
                                          300 FORN'AT (  I, TiV, 'RESIDENTIAL AkF.A FUEL")
                                                   (IPk,
-------
FOft TRfl J I V Gl  RFL E «St
                                       MAIM
                                                          DATE s 762f>»-
                                                                                10/36/06
                                                                                                     PAGE 0003
 UOU 1

 OOU2
 OOU J
 UOJU
 0015
 U016
 0017
 ooua
 0019
 0050
 0051
 005?
 0053
 0054

 0055
 0056
 0057
 005B
 0059
 0060
 0061
 0062
 00e3
 0061
 0065
 0067
 00t>8
 01)69
 0070
 0071
 0072
 0073
 0071
    RtAIJX IfcD, luO) ISTX,ICMYX,tJACnL,CIHCOL,CliJOIL,CIROIL,CI&AS,lCM2,
   1 11. A COL . INnCOL, INDOH ,INRU1L,INGAS
1UO FORMAT  ( A2, A1,1X,5F 10.0,/2X,AU,1X,5F1 0.0)
    *I<1 rf. ( ]PH,270)
tic KIRKAT  (//fT35,'COMMERCIAL/INSTITUTIONAL POINT SOURCE FUELS')
    .',MTE(IPR,230) CIACfiL,CIRCDL,CIOOIL,CIROIL.C!GAS,ZERO

280 HiR WAT  (//,Til.'INDUSTRIAL  POINT SOURCE  FUELS')
    KKiTt (iPR,23O iNAcoL, INBCCIL, IWDOIL, INROIL, IN&AS,ZERO

    CALCULATE COUNTY  HEATING FUEL.

    CALL  HEMNG(Oli.CS!ZE,CCOAL,l,COAL)
    CALI  m
?«»
 CALL  HEAING(OD,CS1ZE,C*OOC,6,WOUD)
 if.Hl It ( IRR.210) CriUNTY
 FORMAT  (]H1,//,TJb,'AREA EMISSION  INVENTORY  FOR ',SA4,
1          /,T15,'RESIDENTIAL AREA FUELS')
 1"RITE(IPR,230) COAL,ZERO,OIL , ZE RO, GAS, WOOD

 CALCULATE  THE COMMERCIAL/INSTITUTIONAL  FUELS FOR AREA SOURCES,

 JF (AivTHR.LT ,0.0)  ANTHR = 0,0
 &ATKiC = Cf lt"P/SCIEMP
    COQH=RATIOC*OOILRC-C100IL
    uklTfc(JPK,250)
?50 FORMAT  (//,T10, 'COMMRCIAL/1NSTITUTUINAL AREA FUELS')
    "•KITE (I PR, 230)  CANTh,tbITUM,CDOIL,CROIL,CNtAS,ZtRO
jjn FORMAT  ( /,T16,'Af.TH  COAL ' ,F 1 0 . 0, '  (10 TONS ) ' , / , T15, ' U1FIJM COAL ' »
   IFlo.O,' (10 TONS)',/,Til,'DISTILLATE  OIL',F10.0,'  (10000  GAL)1,/,
   2 Hi, 'RFSIOUAL  OIL'.FIO.O,1  (10000  GAL )',/, T11,'NATURAL GAS',
   3Fin,0,' (10 MILLTOlJ LU  FT) ' ,/,T5t, ' wOuD ' , F ) 0.0, '  flOO  TUNS)1,/)

    CALCULATE INDUSTRIAL.  AREA  FUFLS.
    ]RI1UV=
    luoii ='•
    nf-I Tt ( JP»
c>60 FllRfc A T ( // , 115
    wHTfc ( IRh,230)
         U10I*bI I";
         I H'I'UUH I-INDf'lL
00096
00097
00098
00099
00100
00101
00102
00103
00101
00105
00106
00107
00106
00109
00110
00111
00112
001 13
00111
00115
001 16
00117
001 18
00119
00120
                         ;AL  ARF A  FUELS' )
                ZFPfj, JHITIJM, inOlL, 1P01L,INGAS,ZFRO
00122
00123
00121
00125
00126
00127
0012P
00129
00130
00131
00132
00133
00131
00135
00136
001 37
00138
00139
00)10
00111
00112
OOH3
-------
               OSIOO
               bUOO
               (UtOO
               iitOO
               9ilOO
               SilOO
              901  '11  '19
iM jMnS i 'Ot7i' //!  UAHIJ-J  OIS
  1'JAIOS (OIJ •'idl) HIM''.
                         (i(SNOij  i'il'H't
                                              0*9?=10S  (0*00noOOl'19*dOd3)dl

   tilOO                  0'9*1(JS (0'000009'i VdQdO'aNv'O'00000 I* lO'dUd")) JI
   OitOO                                                              O'isTOS
   69100

   i9IOO
   99100                                                     t//',fli000i),t7
8»*99tOO      '0'OTd'iJ.wA 1» iOi i '9ni//' , (1»9 0001)  , ' 0 ' 0 I d ' , HO IH :HQi'«90'i?
-------
        10 Z
It  n  It    •— '
   » *-    t/1 »—

-------
                                                        AiJf.i [MISSION  INVENTORY  FOR  OHIO

                                                             TOTAL POPULATli^  z   107«}OOD,

                                                   TOTAL C'jwf RLiAL/IIJSTITUT IONAL  EV'PIOYME^T  s

                                                        TOTAL INDUSTRIAL  EMPLOYMENT  *    I59U9UO.

                                                            AUTOMOBILE REGISTRATION  58}72«1.

                                                              TRUCK  REGISTRATION   H?07U.?.
                                                             THERE. fttRf- 5b?a. OEGHEE  DAYS  IN

                                                             THE AVERAGE HOUSING UNIT  HAD  S.J  ROOMS

                                              THE MJ«"titR Of- HnuSING UNITS HEATING  AITH VARIOUS FUELS IS.
                                                                  COAL
                                                                   OIL   «67?65.
                                                           NATURAL GAS  i?61il77.
N5
O

ANTHRACITE COAL
hITUMINOuS COAL
DISTILLATE OIL
RESiniiAL OIL
NAHiKAL GAS
RESIDENTIAL COMMER/IN
ion?.
11 JOOO.
77J01?.
5212.
«3b80. 19250.
                                                   VESSELS
                                                            RAILROADS    1U981.

                                                               1117. OIS1ILLATE
                                   GASOLINE  fiN HIGHAAY  i|77J^a7, (1000 GAL)

                                   DIfSEL ON HIGHWAY   55J151. (1000 GAL)
                                                                                                          INDUSTRIAL
                                                                                                           112b«00.
                                                                                                             2«578.
                      1JJ6.  RESIDUAL

               OFF  HIGHWAY    1J7168.  (1000 GAL)

               OFF  HIGHWAY    10J69B.  (1000 GAL)
                                                             LIGHT VECHICLES  «0607b'9.  (1000  GAL)
                                                             HEAVY VfCHICLES   812b88.  (1000  GAL)
                                                             TOTAL STATE GAS VMT 620S2208.  (1000  «I)
                                                             RESIDENTIAL AREA FUEL
                                                         ANTH COAL
                                                        BITUM COAL
                                                    DISTILLS1E OIL
                                                      CfcSIDUAL OIL
                                                       NATURAL GAS
                                                              WOOD
7089J, (10 TONS!
    0. (10 TONS)
51425. (10000 GAL)
    0. (10000 GAL)
«02bl. (10 MILLION  CU  FT)
  819. (100 TONS)
-------
          AREA EMISSION INVENTORY FOH

               TOTAL POPULATION *     8
-------
                                                           c

                                                           o

                                                           c;
                                                                                                                                                          •-*"£!     O —
                                                                      5            no
                                                                      CD C1 O O O  O
                                                                      O E» »-i >-* I»  J>
                                                                             ""
                                      5
                                      O
              n n    -.
            IOC    2
              on
   
o     o o
    i o o —t —t    ~n
-r -* o  o C O    ~
Or-        a ^    n
2- r- ci ^ c
                                                                                                                                   CO
000000
O     00
    i O O  —4 —1
-* — C o  O C
or-        z ^
^ *~ o T>  cn a>
-------
      APPENDIX C




NEDS AREA SOURCE FORMS
         205
-------
Slate
I
1
2
£
County
3

4
f
5
H
e,

AQCR
7
/
8
*
9
1
                                                              NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                               ENVIRONMENTAL PROTECTION AGENCY
                                                                     OFFICE OF AIR PROGRAMS
         MEA SOURCE
         Input Forei
                              NO
                                                                                                    Mane of Paso*
                                                                                                           For*
i/.
Year
of
tecocd
10
;
11
It
Participate
12

13

14

15

16

SIP EMI.
S02
17

18

19

20

SION ESTIMA
NO,
2*22
1
23

24

ESdtftoiK/rl
HC
25

26

27

28

29

CO
30

31

32

33

34

SULF
Audi.
Coal
35
^
*
1
URCO
Bin».
Coal
J7
i?i
38
)
UTENTW
Oisi. (Raid
Oil ] Oil
39
^i
40kl|42
M*
ASH CON
Antt.
Coal
43
1
|44
Y,
45
h
TENT (*)
Bite.
Coal
46
/
47
.

34

35
d>
AntH-Coal
tnl tt
HI WB%
36

37

38

39

40

4'
i
Bitura Coal


42

43

44

45

46

47
t>
Coke


48

49

50

51
d
Dist. Oil


52

53

54




5jj{56

/ / r /"' 	 —
OPEN BURNING GASOLINE FUEL
Residential
10* tons
25

26

27

28

29

30

Industrial
Uptons
31

32

33

34

35

36
S
ConsTI Institl.
lO^lons
J7

38

39

40

41

Ligfil Vehicle
10^ Gals.
42

43

44
3
45
X>
46
<»
47
S
48
r
Heavy Vehicle
103 Gals.
49

50

51
5
52
S
S3
S
54
^

55

iM
Resid. Oil


5?

58

59

60

61
d
NaLGas


67

63

64
A
65

64
4
6S

VESSE
Diesel Oil
10/1 Gals.
79

30


31

37
i
LS
Resid. Oil
104 Gals.
33

34

35

%

37
/>
Gasoline
103 Gals
38

39

40

41
9,
EVAPORATI
Solvent Rirchased
tons yr
47

43

44

45
1
46
i
47
4
i*
Gasoline Marketed
105 Gals.
48

49

W
\
si
(l
fi?
A
Limited Access Road
10* Hies
S3

54

Sfi

Sfi

S7

58

MEASURED VEH
Rwal Roads
10< Miles
5<)|

60
;
61
7
67
A

63
2.
64
"
7T

74

75

76

77

i
S
78
4

79
A
cd
80
5

COMMENTS
19.

"

1?

1?

14

15

16

«

18

19

20

71

22

23

74

75

2$

27

78

79

V

31

"7

33

M

V>

V>

37

38

39

40

41

4?

«3

44

45

46

47

Mttft
r
M

SI

52

S3

5«SS
1
S6

S7

S8

SS

60

61

67

63

64

6S

66

67

68

i69

70

71

77

73

74

75

76

77

s
•s
78



7»
A

cd
*9
t
      EPA (OURI 219
         i'72
-------
K>
O
        Year
        ol
       ?ecoid
       loTTi
Pailiculale
           12 13 14 15,16
                         SIP EMISSION ESTIMATES (10? loni/yrj
         IZJjii
S02
                          19
                            20
                    NO,
                               21
                                 22
                                   2324
                              HC
                                       2526 :
           AntK
          101 to",
                         COIfWERCIAL AND IHS1ITUTIOKAL FUEL
                  Dist Oil
                  104 G»ls.
                Resid CM
                10* Gi'»
                    njj^jn3M.j":iin?
               ON SITE INCINERATION
Na! Gas
107 Fl3
                                                                NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                 ENVIRONMENTAL PROTECTION AGENCY
                                                                      OFFICE OF AIR PROGRAMS
                                                                                                        AREA SOURCE
                                                                                                        Input Form
                                                                                                             Date __£
                                                                                                                                   7 7
                                                                                                                                       fQPV AcrRBVEO
                                                                                                                                       OWE KO 1iE ^3595
                                                                                                       Name o! Peisor
0
32 [33134
i 1
SULFUR COi
Anth JBitum.
Coal f Cos!
35
ix,
36 B7
r?K
38
,8
KTEKT
Oist
Oil
39|40
L§fcL
(V
Resid
Oil
Lj|i2
7J§j
ASH CON
Art*.
Coal
43
!
44
Vi
f»5
|fc
PENT (%)
BiUiffl.
Coal
46

47
Yl
48
i?i
Anth Cos!
10' tons
49

50

51

52

53
jU
Biturmn Coal
101 torn
>?«iiE§6
11'
57
1
58
^
59
^
RESIOEN1
Dist. Oil
l04Gal.
60

61
A
62
^
63
V
64
y
riAL FUEL'
Resid. Oil
104 Gal.
65

66

67

68
(6
Nat. Gas
10' fL3
69

70

^71
I,
72
H
73
<^
Wood
lO'tons
74

75

76

77
ft
i
78
A

79
A
cd
80.
1
 »ood
lO^tcns
Ml
Coal
MIS
]S|
1
40J41
\&
Bllurn Coal
1C; Ions
42
43!«
1
SipIE

  Coke
  101 Ions
4iBT49^0T51
                                                                             a:iy »u ai
                                                                             tfp
                                                                                     INDUSTRIAL FUEL
                                                                                       Disi. Oil     Resn) Oil
                                                            10« Gals
104 Gals.
                                                                        52]s354TS"5a"57J 58[59! 601 el
                                                                        m±@inm
                                         Kal Gas
                                         107 Ft 3
                                                                                                                       62
                                                                                                                                    Wood  Process Gas
10? tons
                                                                                                                                  67
                                                                                                                                      69,
1071(3
                                                                                                                                         70
                                                                                                                                               73
                                                                                                                                                   75 7£
                 j »i« •
                   i
                               Cwnm. ItBl
                                                     OPth BUPKING
   1D^ toft;    J   1C2 tons_   J
'SfficdjIS
                                                     Cor-ra'l-lmtit!
                                                       !0^ twit
         GASOLINE FUfL
Light Vehicle |  Heavy Vehick
  103 Gals      103 Gals
                                                                            42J43 44J45
                                                                                Oft Hiwsy
                                                                                103 Gals
                                                                   Heavy Vehicle
                                                                    103 Gals.
                 DIESEL FUEL
                      Off Hiway
                      104 Gals
                                                                                                                 3|5
                                                                                                                                      697071
          Rail Locomotive
            104 Gals.
             T
                                                                                                                                             72
                                                                                                                      m
                                                                                                                                                       77
                                                                                                                                                            79,
                                                                                                                                                              so
                                                                                                                                                              CO
                  AIRCRAFT
                   Ci»M
       LTOCYC 1C?| LTD CYC 10'
                 Commeicta!
                 LTO CYC 101
                 -™»	_y f ,_,,„_-
                wbiizzjjjze
                "  LlSTT
                                                            FOREST WilDFIRES
                                                                              MAIKAClDeURIVInlC
                                                                             (Slash'Pificnbec! Bu'nmj)
                                                                                                              AGRICULTURAL FIELD
                                                                                                                   BURMS1G
                                                                                                                                 FROST CONTROL
                                                                                                                                                STRUCTURE
cres
65

Orchard
Kralpis
66J6?
1
68

69

K;?
IT?

71

72

HKti
73

74

75

76J77
I
O
78
A

79
A
cd
80
5
        COMMENTS
       10
         11
              U
                    16
                                               B23
                                      a»'3ir?l33b«:


piij


39

«0

41

42

43

44

45 46


I47

48(49
F
50J51J52,
! 1


Is7s3ss
! 1
Sfi

57158
1
1<)


1 i
63164' 6S
1 i
B667
I
68

6S

70

71

727374
I I
75J76J77
JJJ
S
a
78



79
A

cd
80
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       EPA IOUR 219
         3/72
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                                                     NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                      ENVIRONMENTAL PROTECTION AGENCY
                                                          OFFICE OF AIR PROGRAMS
                                                                  AREA SOURCE
                                                                  Input Form
                                                                      Date
FC>W APPROVED
OVBSO I58RCB95
                   COKSERCIAL AND INSTITUTIONAI FUE
                                                                     ! Vef.ic!<. |  Heavy
                                                                       GaU     I03 feK.
3map\«!isbjmi^'43f'U^
:.L li.LFU li.L J.rli/Jlfekl J a-.Uuli
                                                                                                            FROST COfSTROL
                                                                                                              102
                                                                                                             Orchaft.'
                                                                                                      ..,. .fc.v.(  Htatefj
                                                                                                      Butned I GpeieTmg
                                                                                             8J 5^f 0; 61 IwSeSJMjssl&

    COKE NTS

    10! 11
           IS,
             is


   EPA IOURI 2IS
                                     T±l ±t tttDiLQiT n
                                                                                                               i±
        so:
        3
-------
                                                                                                                                                             t£. s~*-ri^.s"
                                                                    NATIONAL EMISSIONS DATA SYSTEM i
                                                                     'ENVIRONMENTAL PROTECTION AGENCY
                                                                           OFFICE OF AIR PROGRAMS
AREA SOURCE         FORM APPROVED
Input Form     .      oi.'fc no us RCS9S
     Date  F**- 7 7
                                                                                                              Naw of Pt'son
                                                                                                              Completing Form
Year
ol
?ecoid
10
7
n
k
Paniculate
1?

13

14

15 16
I
SIP EMI:
17

18

19

20

SION ESTIMA'
HO,
^I^H
JLi-
24

ES(102toiK/yr)
HC
25

7.6

27

28

7.9

CO
SFSiBi
±ixt
SULFUR CO
Anth JBitum
Coal ] Coal
35
X
36 R7
m
38


56

Aa«
^7

BUKNSNIj
•""*
58 59 60



61

62

Tons/Acres
Burned
fa1

64

65

Orchlid „ ...
Heateri
Operating
661

67

68

63;

ua^y MCCD
OayvrVear
70

71

72



F,,,*".
73l74'7S

1
7fc

77

c
I
78
A


79
A

Cd
80
5

COMMENTS
lO'll
1
>1?

13

14

IS

1fi

17

18

19

?t)

7t

n

n

?«

7S

76

77

7P»«
1
^0

',1

-7

33

34

3*.

V

37

38

w

40

41

47

43

44

4S

*fi

47

48j49
1
sn
U
S1

5?'S3
!
M

SS

SR

S7

58

5<>

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(Cl!fi7
1
fi3

64
_J
65

fif

67

68
_J
S9

70

71

77

73

74

75

76

77

g
X.
78



79
A

cd
80
b
      EPA I OUR) 2ig
-------
to
Stale
1
                                                              NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                               'ENVIRONMENTAL PROTECTION AGENCY
                                                                    OFFICE OF AIR PROGRAMS
                                                                                                                      AREA SOURCE
                                                                                                                      Inp^t Form
                                                                                                                           Date
                                       FOfVAJ'fFiOVFD
                                       OV5 KO 156 F.3095
             County    AQCR
            liddi"
                                                                                                    Nan« o! Ptfson
        Yea»
        of
       10
            Participate
           12
             13
               14
                         SIP EMISSION ESTIMATES (18* trWjr)
                 S02
                              21
                                NO,

                                2/23
                                                    cc
                               fEk^H/2-?. Jo[''iB'>l^E


c
•'J33J34
i 1
SULFUR CONTE NT (V
ftn'h.
Coal
3S
•v,
36
1
Biturn.
Coal
37
c?.
38

Oisl
Oil
39
NI
40
l|j?
Resx)
Oil
n
^
42
V
ASH CONTENT (V
Antti
Coal
43
I
44
Yi
45
fc
Bitum
Coal
46
/
47
*?*
48
,J

Antti Coil

49

50 yJ52l53
-M
RESIDENTIAL FUEL .

10' iom
54'55
|
5657
^i. '
58
7
59
<^
Dist Oil
104 Gal.
601

61J62
7
63
(^
64
ST;
Restd. Oil
104 Gal.
65166
1
67

68
^
Nit. GK
107 ft-3
69

70

71
?
72
LT
73
0"
Wood
JO^tons
TTTs"!^
1 i PS
&
^
78
/5


^9
A

cd
30
1
                         COHWERCIAL AND INSTITU7IOKM FUEl
       —r"": "t J™j—-•—• J-—-»—«-i- *""—T- •"'
       10 11 12 13 14 ISilfr;1>i16 19
                                                                                GASOLINE FUEt
                                                                            ti'cte |  Heavi VcV'cJe
                                                                         101 Ga's      ID3 fis
       ioii, laiSTi; is^yi?jic.j
                             LI 0 CYC 101    lO'tou   10< Gal»     184 Cats.
                     -rt Ta f-vi i  i
                     _j._L.-i-.jL(Li ___ i.  i
                                            I^T^ r-r i»  -r -\~T~T* ; •T"i-~z--f~t,—\ nr/x/
                                           .WKI . L_J. j>-i j ..j j ,.^fc ; .1. j -.i3-i  i . i.j.ii/JU-i
                                                   ijT.lhnj  j
                                                                      FORCSTWIIDFIRES


                                                                      efK Burned
            ijyiaj?IiiI3?l3lii^KI^lz7H^l^31f2fclM]3lS
                                                                                 MANAGED BUflNING
                                                                                ISlKh.-Pfticiibei) Buininjl
                                                                        Toni/Kies j             [Tom/Acm]
                                                                          Bufned I  Acres Bu.r-sd     Butned
  AGRICULTURAL FIELD
       6URMNG
            Tons'Acres
              Burned
                                                                                                                             FROST CONTROL
                                                                       il]i2T«lMl4^46]^8T«i}» SIJBzIsats^TsS 56j57]5?b9l60''6lJ'62
                                                                       ±l±n:ftfL..±i±Jli:1±i: aJ
                                                                                                                                1 72
                                                                                                               }—^...-^.A^ L.—i_J!L_,i—LUO,.^—*™™j_^a~.-4-,:j._
                                                                                                              _iiJiLixLi.xninirBL'
   Fi.«/yfJ.   -gj

73'7lT75T7t3l7'7t7flp":!
                                                80*
                                                 5!

,.~^—~,~~—.  —^—j.
57l58l_59J60l_61 62 63JI
•irtrm
                                                                                                                                 T	1—T~
                                                                                                                                 t PQ 7n 7
                                                                                                                           '66 67168 G9 70 71
                                                                                                                                        72 73174 75
                                                                                                                                                     78
-------
to
                                                            NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                             'ENVIRONMENTAL PROTECTION AGENCY
                                                                  OFFICE OF AIR PROGRAMS
A1A SOURCE
Input Form
ot.'s NO is.8 MC95
6
Y
I
fee
10
T'

10

Ste
t
:ar
1
ord
11
4
3
/
County
[4~Rr
&
W
\ AQCR
«J7
R
/I?
Participate
12

13

14 1

An*.
101 IP-.S
ITT

12

13

14J1
r/
ONS
Residential
10 ' tans
TO
fl
u


Military
LTO CYC 10?
10

11

12
I
13
(o
$
516

<»
V

SIPE
S02
17

18

19
Ml
»

com
1C' tons
5^16
iMsm
_

01



SION ESTIMA
HC,
2i

22

-
IERCIAI AND
Oist Oil
10* Gals.
20
TE INCINERATION
10? tons
5J16
171

F'l
19

AIRCRAFT
Civil
LTO CYC 10 1
14 1

5 16
I M
[M Roads
Trawled
Id' Vehicle milts
10

11

12

13
5
14 1
* /
516
|^l
17
I
18
Co
19
I
y>

21
22
7
lO^tt
21

22
23
:£_
Irs
ns
23

1!
NS
J
L&
.
24

Cotwwtcial
LTO CYC 10 1
20

21

' Dirt
Airstrips
LTO CYCLES
17

18

19

zobi
6
22

23
24
$
ES(l«Zlom/Vii
HC


TITU1 IONS'. FUEL
UJesi'.' Oil
10' GJ'.S.
fHftl1
Resifcntial
25J26J27 28 2sE
J T 1"
Cent Die
125 2SJ27 28 29*31
r r IE
CO
T" r- 1
w
Nat Gas
107 F(3
S
iw
OPE
In
1C
) 31 |w
VESSJ
stIOil
GaU.
^31 32
rp "?
\
Coffifmttiosi Misceflane«es
Acns Wind Ergewi
22

23
/
2<
/
25262728 29j3j
f 0 ST
331B2
!




SULFUR
Anth.JBiti
Coal j Co
35
M,
I Wood
llO'tons
LjL
KBURt-
dustna
' Ions
".
LS
33


33



P
36 B7
nh.
CONTENT (V ASH CONTI
jm Qist Resid Anth
al 0>l Oil Coal
38 39
af ^
40 J1
L^«>
AnBi Coal
10 * tons
36'37i33l39
_j_
(ING
C
35

36 37
"§
Reski. Oi
10* Gals.
34
35
fjjfl
36 37
S Li
Land Trilinf
103 Aun
34J

35

36 37
/ (2
4041
LUJ^
onm'l-lnstiH.
Id2 tons
i
Gssi
103 (
38 39

40 41

jline
ials.
40 41
tf
42 43 44 45 4
.H7Z,i._
BI u"i Coa
1C' Ions
42]43T44T45T4
LT' T
-NT (V
Bil»* An* Coal
Coal 10' lorn
6 47
It

6|47
l<*
48 49 5a
,?
Coke
101 Ions
<2JS2J50
51


i
fl
53
d
Hint of Person
Completinj Pong
Bitumin Coal
10' lorn
5455


56
9.
— »7
INDUSTRIAL FU
Dist. Oil
10* Gals
iiizl


54!

GWOLINE FUEi,
Li|W Vehicle I Heavy Vehicle
103 Gals, 1 IS5 Gals.
f^4«Tl5]4
^2iZL__--
647
/ 9
EVAPORATI
tons yr
I47T43 44f«5'4
ix"fi"&>t;
6 47
i y
FOREST WILDFIRES
Tons/acres
Acits Burned Burned
38 3JJ

40 41

4^43 44 45 4

•6 47

MJ,?1
b.
\j?
JK
Gasoline (to),
105 Gals
48 49 50
' S* r-^
i-o jr
51
V
52
/
•ltd
52
J
S3
5
54
/


Isd
6)
57
&
:L
57

58 5
5? o


960
,


V
RESIDEN
Dist. Oil
10* Gal.
61
/
Resid. Oil
10* Gals.
58 E

^ioTsi
\t
Oft Hi*ay-
ID3 Gals
D5

56
5.
57
/
issls
4s
Limltd Access Road
10* Mile:.
53^54
T^a
55
1
5S
^
MAWAGtO BURNING
[Slash/Prncribed Burmnt)
IT em/ Acres
Acres Bu
64
3
. C
•f -/
^Cc*
^
DAL FUEL'
Resid. Oil
ID* Gal.
65

66

Nat. Gas
1C7 Ft .3
62

63
j?
64
•V
65
A
Heavy Vehicle
103 Gals.
51

62

63
?
f
MEASURED VE(
Rural Roads
10* Miles
glee7 61
My
62
fl
AGRICULTURAL
BURNING
Ann Burned
57

5gf c

fl
61

62

63
^
64
V
55
6t
7
DIE
66
r
67

69
(?5

69

Wood
10? tons
^67

69

69



Wood
10Z tons
74


74

75
76


75

77
K

76'77

Rail Locomotive
104 Gals.
72

73

74
t£
75
ff
76
f

s
I
77
°?
Urban Roads
K)4 Miles
71 72
T
TROL
70

71

72

73
3
74
7
75
/
76
•/
77

STRUCTURE
FIRES
firf l/> ear
73 74


75

76

77

§
78
r4
i
78
A
|
7D

^9
A,

79
A

'9
4 A
O
2§
O
78
A

— •

75
A
cd
SL
1
cd
80
2
Cd
80
3
cd
f
cd
SO
5


COMMENTS
10

11

^2

1?

14

15

16

17

18

19

?ft

71

22

n

74

7=i

2fi

77

2»



TflO
Li

31

~?

•n

34

•w

Tfi

37

'«

V»

40

41

4?

ifi44


4S

4fi

47

48(49
r
snsi
— i —
S753

J
S4

•i",

Sfi

57

Sfi

SI

M

6^62


6?

B4

6S

S6

67

i§8_69 70



71

7771


74

7S

?f

77

s
£
78



79
A

Cd
BO
6
     EP» lOURl 219
-------
ro
i—'
10
                                                                     NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                      ENVIRONMENTAL PROTECTION AGENCY
                                                                            OFFICE OF AIR PROGRAMS
                                                                                                                           AREA SOURCE         f0(w t
                                                                                                                           Input Form            OVB so iss RCCSS
                                                                                                                                 Date c/^ 77
                                                                                               Name o! Person                  -.
                                                                                               Complehnj Fora	V  LJrvtCt-^.	
        Year
        of
       It cord
             Participate
           JLLLL-JL
          S02
                            19
                               ?0
     NO,
•tSdOZtMs/yf)
HC
W42§
CO
%hlfj?l33r34
3.TTJL
SULF
Antti
Coal
^fe
URCO
Bitum.
Coal
37
T
38
0
NTEMT
Disl
Oil
33
N
40
(V
Resid
Oil
11
ft
42

Bitomm Co*!
10' loni
M5J5
V
57154
v^>
59
J-
RESIOEN
Disl. Oil
10' Gal.
60J61
\<
62
i
63
•>
64

73
V
Wood
10? tons
74

7576,

77
s*
1
7?
A

79
A
cd
30
1
                           COKWERCIAL AND INSTITUTIONAL FUEL
             7c!?il«T7?T2^H?6T2»;.
                                                                                                4B«b051b2 53M 5E.5S575K596061
                                                                                                            DIESEL FUEL
                                                                                                                OH Hix
                                                                                                                lfl*G»ls.
                                                                                 GASOLINE FUEL
                                                                           Vehicle    Heavy Vehitk
                ON SITE INCINE.RATION
                                                      Heavy Vehicle
                                                       103 Gals.
                                                             ^sTT5
       LTOCVC 10?
       10 11
            12 i 3
  AIRCRAFT
   Ct»i(
LTD CYC 10"'
                                                         VESSELS
 Comntfitial   I    'c«t    Diesel 0«
 LTClCYClOl    ID'tons   locals

2(4 2l! ?7l?3.24!?5T26l27l
                                 Fftsid. Oil
                 •li2ZL?3k?*!25 26!27J23 29 30i3lh2^34!3M36l3/iJ.
                 .mk±l3^ndlbiiittt"
                                                                                                                             BEftSURCD VEHICLE KILES
Gasoline  J  Sciter1 fvchased I Gasoline MarkeS
                                                                                                                                          Suburban Roads
                                                                                                                                            10* Miles
                                                             FOREST WILDFIRES
                                                                l.«l TAing
                                                                103 tvn
                                                                                                   MANAGFO BURNING
                                                                                                  (Stash Treiaibei! Burninjl
                                                                             Acnif
                                                                  3
                                                                    3637f
                                                      3L
                                                                           39
                                                                              40
                                                                                41
                                                                                  42
                                                                                     43
                                                                                           Butned
                                                                                          45
                                                                                            46147
                                                                                                  ACIK Bumefi
                                                                               48
                                                                     9k)j51
                                    [Tons/Aci
                                     Buii.nl

                                  53;54f5^
                                                                                         AGRICULTURAL FIELD
                                                                                              BURNING

                                                                                        Acm Buined
                                                                                                                                             FROST CONTROL
                                                                                                                                                             STRUCTURE
                                                                                                     57 58 59 60 61 62

S/Ac.H
urned
"771
64

65

Operati
66

67

68

I
r69

L
70

71

72

fIRES
73

74

75

76
77

C
O
O
7

Sfl

sq

fiO


6"V62


F3


64J65,
1
fif

B7

68-6?
1
70

71

72


73

74

75

76

77

i
g
78


79
A
cd
BO
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-------
NATIONAL EMISSIONS DATA SYSTEM i
 ENVIRONMENTAL PROTECTION AGENCY
       OFFICE OF AIR PROGRAMS
                                                                                                                              Input
                                                                                                                                                FORM APPROVED
                                                                                                                                                (WE NO !5E R03S5
                                                                                                                                  Date
                                        Name of Person
                                        Conpletint Form
                                                                                                                         \f>
Year
ol
Record
10
7
n
LI


Part
12

13

culate
^

15'l6
!
Sir EMISSION ESTIMATES (IO* tom/yr)

S02
17

18

19

2C


NO,
'T!

22

23

24


HC
25

26

27

— If- -
28i29
!


CO
30

31

37

33

34

SULFUR CONTENT (V
Anth tBiton.
Coal J Coal
35
"Vti
36B7
"I l^
|38
(i
Dist
Oil
saUo
«4P
Resid
Oil
n
!$
42
*
ASH CONTENT (t)
Anth.
Coal
43
/
44
y.
45
C
Bituffl.
Coal
46

47
7,
48:
1

Anth CoJt
ID' tons
49

SO

S1

57

53
/
RESIDENTIAL FUEL

10' ton
rS4

5<

S6

57

INDUSTRIAL FU
Disl Oil
IO4 Gals
52

53

M

GASOLINE FUEL
Heavy Vehicte
103 Ga's.
45

50

51
-------
                                                                      NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                       'ENVIRONMENTAL PROTECTION AGENCY
                                                                              OFFICE OF AIR PROGRAMS
                                                                                                                       Name o! Pwson
                                                                                                                       Cociplelmf Form
                                                                                                                     AREA SOURCE
                                                                                                                     Input Form
                                                                                                                           Date
                                                                                                                          FORM APPROVED
                                                                                                                          OVBI.O 158 R::35
                                                                                                             y.
Year
of
Record
10
1
11
H
SIP EMISSION ESTIMATES (102 tOEK/yr!

Patticulate
12

13

14

islie
1

$02
^7

18

19

20


NO,
21

22

23J24
1

HC
25J26
1
27

28

29



CO
30

31

32J33
~~1 —
34

SULFUR CONTENT (V
Anth.
Coal
35
»,
36
ll
Bitum.
Coal
n
I,
38
d
0ist.
Oil
39
Si
40
k3
Resid
Oil
11
Si
42
1
ASH CONTENT (%)
Anth.
Coal
43

44
st. Oil
ID4 Gal.
60

61
/
62
ij
63
r
••>
64
1
Resid. Oil
104 Gal.
65

66

67

68
0

Nat. Gas
I07 It.3
69

70

71
3
72
6
73
f

Wood
lO^tons
74!

75

76

77
J,

fe
5
7S
A



79
A


cd
3Q
1

Anth.
Id' tons
iohi
_L
12

13

14

com
Bifamin.
10 1 tons
wTieTiTTiij

19
*>
ERCIAL AND INS
Dist. Oil
104 Gals.
20

ON SITE INCINERATION
Residential j Industrial
101 tons j 10? tons
10
11
pd
13
1*
Tm
J9BO
21

22,23

7
24
1
Comm. Inst
102 tons
21

22

23

24

TITUTIONAL FUE
Resid Oil
10* Gals
t25 ?§i

2.
7RI79
/'
.
Nat Gas
107 Ft'
30

Residential
25J26
J
27

28J29
|
30

31

3?m
^
Wood
I02|anj
34J35
Ifli
Antti. Coai
K)1 torts
361

OPEN BURNING
Industrial
10Z tons
311

3?l33T34'35
i 1 T
36
37

38

Count
10
37
a
38
39

•I-
2to
— 1
39
TOJ41
w
nstitl
ns
40 41

47

Biti)"! Coal
10 1 tons
43


42

43

44

45

46

47
i
Coke
101 tons
48

T-
Li|hl Vehicle
103 Gals
44
r
45
9
46
V
4748
ak*
49 50


GASOL
Hea
10
49

h
51
iri
f
NF
'11
—
INDUSTRIAL FU
Disl.Oil
104 Gals.
52

53

54

FUEL
ehicle
als.
b
V
53
9
54
<;
551

56
fl
:L
57

Resid Oil
10* Gals.
58!

59

Off Hiwaj
103 Gals
55

56

S/fl

60' 61
If*

BO

62

Nat. Gas
10' Ft*
63

64
^
65
7

6f
f
f
DIE
Heavy Vehicle
103 Gals.
61
62
63
Csl
64
7
55|66
w
Wood Process Gas
10Z tons 107 It3
67

SEL
68

69 70 71172
0
FUEl
Off Hiway
10* Gals.
5768,


69'70'71
JU^li
73
_te

74


75

76

/
Rail Locomotive
104 Gals.
^2

73

3
y
ffl
77]

I
77
7"
i
x>
«t
78
ft
Jl
S
^OJ

79
A

cd
80
*l
CO
                                                                                                                                      KEASUREO VEHICLE MILES
  Dirt Roa&
   Tr»«ii,1
lO^Vrhicle miles
 lo

              15
                 16
                       Diti
                     An Strips
                    LTO CYCLES
Cmstruttrcn
  Acres
                   v
                      18
                        19
                           20 21 22
                                   23
                                      2
                                        25
                                           26
                                              27
H(Ke!Uneotft
Wind Erosios
                                                                                 FOREST WHOFIRES
                                                23
                 29T;»l3T
H
                                                           32
            L«nl Tilhnt
                                                                                                        MANAGED BURNING
                                                                                                       (Stash/Prescnbed Bufning)
                                                             33
                                                                34 3S
                                                                   37J3¥l39|4o|Tlf42]43|44 jjlAefoJA^pigjSO 51
AGRICUITURAI FIEin
      BURNING
             Tom/Acres
                   ,aH                      Tons/Kire!               ITtini/AcrBJ Aael Burned
                         j     Acrei Burnei        Burntij |  Acres Burnet?   	I  Burned J	   	
                   ]3i3H7l38T39T4olTi]42l43 44 45T46T47 ^sffeo BflsTlHsils^setsTlsslsglebTeTfez
                                                                                                                        J_L_DI1JIL
                                                                                                             Burned
                                                                                                                                             63
                                                                                                                                               64
FROSTCONTROl
   102
 Orchard
 H»ten
                                                                                                                     Operating
COMMENTS
10

11

1?

13

14

IS

1fi

1T

1R

1S

70|

7^

77

73

?«

2S

76

27T28T29
J I "
30

31

"7

33

34

3S

%

37

3R

39

«n

41

47

43

44

4S

4A47
I
48j49
r
50151
i

•I
STS4
j
S5

56J57JS£
II
59

60

tf>67
|
«3

64^65
1


67

68

6970
1
71

72 73


74

75


[76


77

—
78


,11
biH;
L*l.!!
EPA (OUR! itfl
   3/72
-------
                                                      NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                       ENVIRONMENTAL PROTECTION AGENCY
                                                            OFFICE OF AIR PROGRAMS
Name ol Person
Comntetini Fora
AREA SOURCE
Input Form
Pate f~*o- ~,

(CP" AF?nCV£0
c'.-.. NO i5SR::9i
>7

Yeai
ol
Record
10
2
u
M


Paniculate
12

13

14

15

' }
SIP EMISSION ESTIMATES (102 toro/Vr)


16


S02
V

18

19

20


NO,
^1

22

23J24


HC
25

26

27

28

29


CO
30

31|32
I
33

34

SULFUR CONTENT (W
Artlh.
Coal
35
§i
W
1
Bitim.
Coal
V
3.
ptR
,/
Dist. [Resid
Oil 1 Oil
^9

45
•?
46

47

48
J._
51
0
INDUSTRIAL FU
Dist Oil
104 Gals
52

53

54

GASOLINE FUEL
Heavy Vehicle
103 Gals.
49

60
C
51
52
'I1

r
M
/
55

56
*
:L
57

Resid. Oil
104 Gals
58

59

60161
M
OK Hioay
103 Gals
55

56
1
57
/
58
V>
59
>•?
60
>'
Nat. Gas
1C7 Ft3
67

63
,
65! 6f
W
DIE
Heavy Vehicle
103 Gals.
61

62
3
63
7
64
7
25L66
Wood
102 tons
^67

6£

69
(^
Process Gas
It)7 ft3
70

71

SEL FUEL
OH Hiway
104 Gals.
5768
69
T
^
72

73
0

74

75 76

Rail Locomotive
ID4 GalJ.
7?

73

74

7576
*\\
It

jpop Code
77
1
C
.2
o
7B
A
1
70
f-

/a
A

19
A,
cd
80
2
cd
GO
3
Military
LTD CYC 10 2
10

11

17
I
13

AIRCRAFT
Cml
|LTO CYC 10.1
14

1S

16
a
17

18

19
1
CoBrneicial
LTOCYClOl
70

71t 77


73
\
74
A
CM!
101 ton
75

76

77

7R
^
VESSE
Dies? I Oil
K)4 Gals.
79

30

31
Jy
3'
'•f
LS
Resid. Oil
104 Gals.
^

34

35

36

37

Gasoline
103 Gals.
3fl

39

40

41
t
EVAPORATI
Solvent ftrchased
tons yr
47

43

44
'f
flS
J
4S

47

)N
Gasoline Marketed
105 Gals
W

49
^,
*n
' i
si
f.
5?
/
Limted Access Road
104Miles
S^
al'
55
T
56
(/
S7
p
SR
8
KrEASURED VEf
Rural Roads
Id4 Kiles
s^'eo'ei
^isK
67
V
6?
(V
64

ICLE KILES
Suburban Roads
104 Miles
6S

66

67

6P

69

70

Urban Roads
li)4 Wiles
.. 7?

73
J
74'75 76
5!i.!V
77
^
o
"
78
I/T

79
A
cd
80.
4J
                                                                                                                   FROST CONTROL

Dm Roads
Trinled
103 Vehicle mi K
10

11

17
^
13
3
14
?
IS
/
16
(7<
' Dirt
An Strips
LTO CYCLES
17

1R

19 70


71
ti
FOREST WILDFIRES MANAGED 6JRNING AGRICULTURAL FIELD
Construction
Acrei
77

73

74
fi
75
If
76
s-
77
(t.
MncctEjncOHi
Wind Erostoti
7R

79

30 31


37

Land TrJIrng
103 Acres
33

34

35

3fi
1
37
7
Acres Burnett
3B

3<»

40

41

47

43

44

Tom/Kin
Burned
45

46

47

(Slash/described Burrunj)
(Tons/Acres
Acres Buinerf 1 Suined
4fi

49

SO 51

57

53*54
1
55! 56
1
Acres Burned
571

58

59

60

61

67

in2 STRUCTURE
'" HRF<
Tons/Awes
Burned
6364


65

Orchard
Heaters
Operating
66167
I
6B

69

Days/Fired
Dayvyt"
70

71

n

Fires/yeai
73^74 75
t-
Ib

77

o
/B
ft

79
A
cd
SU
5

COMMENTS
10,11


^17

13

14

IS

16

17

1R

19

70

71

n

73

74

n

Tfi

77

LZ2

7<»

30

31

'?

T»

34

3S

2L

37

3«

^9

40

41

47

43

44

4S

4fi

47

ARI49
r
so

SI

5?

S3

S4

SS

Sfi

S7

SR

S9

60

6-1



^

«3

64

6S

66

67

6«



69

70

71

77

73

74

/b

Ik

n

i
•X
78



7S
A

cd
80
6
EPA I OUR) 219
  3/72
-------
                                                                NATIONAL EMISSIONS DATA SYSTEM (NEOS)
                                                                 'ENVIRONMENTAL PROTECTION AGENCY
                                                                        OFFICE OF AIR PROGRAMS
                                                                                                                          AREA SOURCE         fo«v APPSOVEO
                                                                                                                          Input Form            OVSKO iis R;;s5
                                                                                                                               Date  f***- 77
                                                                                                            Name of Person
                                                                                                            Complctint Fora
tea
ol
^eccxd
10
/
11
H


Participate
12

13

14

15 16
1
SIP EMISSION ESTIMATES (10' um/yi)

»2
17

18

13

20


NO,
21

22

2324
|

HC
25

26

27JM29
I |


CO
30
31

32 33
j
34

SULFUR CONTENT (V
AMh
Coal
3pJE
§il
Bitem.
Cut
J7
A
38
n
Dist.
Oil
39
^
40
.d
Resid
Oil
i1
A
42
7
ASH CONTENT (%)
Antti.
Coal
43
(
44
7,
45
fc
Bitun.
Coal
46
/
47
1,
48
Ifr

An* Coal
101 lorn
49

50

51

52

5:
0
RESIDENTIAL FUEL'

10l low
«' 55
I
56!57|58
SH?
59
v?
Out. Oil I Resid. Oil
104 Gal. 1 Id' Gal.
W

61

62
e
63
7
64J65J66
1 |
67

68
*»

Nat. Gas
1C7 tt.3
69

70

71
a
72
t,
73
V

Wood
ID7 tons
74

75

76

77
JL

%
2
7R
f\


?=)
A.

cd
ten
1
 Wihbij
LTD CYC 102
joTnlilTis
             AIRCRAFT
              Civil
           LTD CYC 10 1
          14
             15
16J17!l_BJ19
           LTOCYClOl
                           T~*
                                    VESSELS
 Coat
10' to
                                 iftrh;
 Diesel Oil
  I Gals.
9j3;nh?
±L
Rtsid. Oil
Iff4 Gals_
 'Jaslsj
Dirt Roads
Traveled
103 Vehicle miles
10

11

12
it
13
(l
14
\V
15

16
f
' Dirt
Ail Strips
LTO CYCLES
IT1

18
9-
19
,f
20
0
71

Coastrnctton
Acm
22

23

24

I25
7
26
$
27
f
Wind Erouoa
ID'S Acres
28

29J30!31
I I
32

33

                                                          Land Ttttinf
Grsoltra:
103 Gals
                                                                           41
                                                                   EVAPORATION
                                                                 UfM FVchased
                                                                                  tons
                                      j^jssf^Rslw
                                      ~^tm
                                                                                         47
Gasoline Marketed
   105 Gals
                                                                                             IMS
                                                                                                 50
                                                                                                   51
                                                                                                      52
Lmited Access Road
   1C' Miles
                                   i
              5?5S^ jTJSg^g^eT
                                                                                                          KASURED VEHICLE KSILES
                                                                                                        Rical Roads
Seburtan Roads
  10< Miles
                                                                          FOREST KUOFIRES
                                                                                              MANAGED BURNING
                                                                                             ISIash/Pittcnbed BurmniJ
Actes Burned
3940

41

42

43

44

Tons/acies
Burned
45

46

<7

[Tons/Acres] AJ
Acres Burned | („,„,,) |
48

4S

50 51 15215Y575E
_zCQ±
56^57
i
                                                                             AGRICULTURAL FIELD
                                                                                  BURNING
                                                                                jraed     fTons/Acres'
                                                                                          Burned
                                                                                        fiye^e?
                                                                                                                         FROST CONTROL
                                                                                                                            10?
                                                                                                                          Orcharl
                                                                                                                                          Hulers
                                                                                                                                         Operating
                                                                                                                                            6¥69
                                                                                                                                  Oays/yeaf
                                                                                                                                                 70
                                                                                                                                                   71
                                                                                                                                                     72
                                                                                    STRUCTURE
                                                                                      FIRES

                                                                                      Fires/yeai
                                                                                                                                                76J77 78

                                                                                                                                                JJffl
                                                                                                                                                                      79
                                                                                                                                                                         CU

COWSENTS
10

11

1J

1?

14

15

16

17

18

19

7«

71

77

23

r?4bs
r
26

77

28


t
34
35

36

37

38

3*

40

41

42

43

44

45

46

47

48i49
I
50

51

52,5354
1 1
g's6

57|58
1
59

60

£1

62

63

6465
1
66

67

68

6970
1
71

72

73

74

75

76

77

g
2
78



79
A

cd
BO

EPA 1DURI 219
-------
Slate
1
4
2
6
County
3
-J
4
^
S
V
r,
^
AQCR
7
I
8
7
?
t-
-*-
                                                                NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                'ENVIRONMENTAL PROTECTION AGENCY
                                                                      OFFICE OF AIR PROGRAMS
AREA SOURCE
Input Form
FQCMAtFfiOVfO
ovsso U8 r;;ss
                                                                                                       Name ol Peison
                                                                                                       Completing form
Yea
ol
Record
10
7
11
Li.
Particulate
12

13

14

15

16

SIP EMI
S02
17

18

19

20

SION ESI IMA
NO,
21

22

23

24

ES (10? toiit/yr)
HC
75

26

27

28

29

CO
30

31

32

33

34

SULFUR CO
Anth.lBihm
Coal 1 Coal
35
ft.
36 b7
,113,
38
/
1TENT
Disl.
Oil
39
rf\
40
(,
W
Resid,
Oil
11
^
42
,1
ASH CON
Antti.
Coal
43
1
44
V,
45

Anth. Coal
uUons
36

OPEN BURNING
Industrial
10^ tons
3ll

32

33

34

35

36
^
37

3fl

39

Cofnm'l-
10zlo
37

38
39
40

41
rV
1 — Ig-
Inslitl.
as
40
i
«
10* tons
4743

44

45

46

47
<>
Coke
10 ' tons
48

Lt|M Vehicle
10* Gals.
4243
44
?
ks
7*
46
£?
47
->
48
49

50


51

INDUSTRIAL FU
D'Sl Oil
104 Gals.
57

53

54

/
GASOLINE FUEL
Heavy Vehicle
103 Gals.
4?

50

fy
b
b
S3
9
5-1
(•S
RS

56

EL
Resid. Oil
104 Gals.
57*58


59

60

OflHmay
103 Gals.
&51

56

57
58
Jfy
59
-7
60
j
61
-^
Nat. Gas
1C7 Ft .5
6?

63

64
r
65
y
6f
X
DIE
Heavy Vehicle
. ID5 Gals.
61

62
63
6
64
fo
65
>
66
/
Wood
10* tons
67

6J

69
&
Process Gas
107 1(3
70

71

SEL FUEL
OH Hiway
10< Gals.
5768


69
?
?
72

73
t

7<

7576
1
Rail Locomotive
104 Gals.
72

73

74
1
75
*>
n
°**
77

I
77
S
S
§
78
A
S
5
70
A

79
A

79
A
Cd
80
2
cd
CO
3
to
Milibiy
LTO CYC 10 2
10

11

12

13
M
AIRCRAFT
Civil
LTO CYC 10 1
14

4s

16
H
17
1
IB
S
19
ft
Comwdjl
LTO CYC 10 1
20

21

??

23
V
?4
5J
CM)
111 tons
?R

2K|27
1


VESSE
Diesel Oil
10* Gals.
79

30)31
ik
37
If
LS
Rtjtd. Oil
104 Gals.
^33

34

35


36

37
?f
Casohne
103 Gals
38

39

40

41
EVAPORATI
Solvent Purchased
Ions yf
42J 43(47
^~TT"
45
A
4f
X?
47
"7"
lo
3S
Gaso!ineM2iKeteil
IDS Gals.
4fl

49

W
^
51
r
52
<;
Limled Access Ron)
104 Miles
53J54
k
55
J?
56
5
•S7
?r
5fl
V
MEASURED VEt
Rural Roads
ID4 Mites
591 60
b.
61162
m
T
61
ii
fi4
5
ICLE KILES
Sitjfban Roads
ID4 Miles
65

66

S7

68

69

70

Uiban Roads
Vf. Miles
71J72
1 -
73
')
74
KA

75
b
76
ci
77
V
1
«
78
f

79
A
cd
SO
"I


D«rt Roadt * ' Qttt
Traveled 1 A^ Strips
I03VehKlem.l« | LTO CYCLES
10

11

1?
J.
13
n
14
f
15
0
16H7
f^l
1«

It

70

71
i
FOREST WILDF.RES MANAGED BURMttC «"KH!:T_U_B*l.rlllD «•» "^0°^"
PAfKtriwf AH
Acm
77

73

74
J.
75
£
Tfi
7
77
1
MooHwran
Wind ErmiM
103Ac,ei
7«

29 3031


•)
37
7
Land Ttflmf
1fl3 Acies
33

34

35

36

37

(Sbsh/Prescrfbfd Surninf)
Acres Bernetf
W

'«

40

41

47

43

44

Toni/aciei
Burned
45

46

47

Acres Burned
4ft

49

5061

57

53

Torts/Acres
Burned
54

5S56
1
UUHrlinU
Acres Burned
57

58

59

60

61

62

rom/Acin
Burned
63

64

65

Orchard n lr.
Heaters
Operating
66

b7

68

b9


70

71

72



73


Fins/veai
74

75

76

77

S
'u
•C
78
A


7S
A

cd
ao
5


COMMENTS
in

11

1?

13

14

15

16

17

IB

IS

70

71

77

73

74

75

Tfi

77

?«!

79

30

i21j

"7

33

34

,35

3fi

37

3R

r>

40

41

47

43

44

45

46

47

4fii4
-------
S!a!e
1
1
2
t
County
TT7
?,k
s
f
c
5
AQCR
7
1
8
7
9
f
                                                                NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                 'ENVIRONMENTAL PROTECTION AGENCY
                                                                       OFFICE OF AIR PROGRAMS
AREA SOURCE
Input Form
     Date F-JJ
FOKV APPROVED
OWE HO 155 R039S
                                                                                                        Naw of Person
                                                                                                        Completmj Fom
Yu
of
?ecod
10
/
11
4-
SIP EMISSION ESTIMATES (1<£ iDiu/yr)

Participate
12

13

14

15|16
I

soz
17

18

19

2C


HO,
21

22

23

24


HC
25

26

27

28

29


CO
30T

31

32

33

34

SULFUR CONTENT (*)
Antti.
Coil
35
^
36
,/
Bitum.
Coal
57
f*
38
Jf
Oist.
Oil
39
^
40
J
Resid
Oil
11
/,
42
V
ASH CONTENT (I)
Anltj.
Coal
43
/
44
y,
45
Jo
Bittm.
Coal
46
/
47
3,
48
h
RESIDENTIAL FUEL
An* Coil
101 ion
49

50

51

5?

5'
%

10' tow
54! 55

56

5758
It!/
59
r?
Dist. Oil
104 Gal.
60

fi1

6?
7
63
&.
64
£
Risk). Oil
10* Gal.
65

66

67

6R
*
Nat. GK
107ft.3
69

70
/
71
f>
7?
2.
7?
7

Wood
ID2 tons
74

7SJ76
_i_
T7
75
S
*J

com
Bituroin.
101 tons
15

ON SIT
Residential
K^tons
11

12|

13

14

15

16

17

18

19
&
ERCIAL AND INS
Dist Oil
104 Gals.
20

: INCINERATION
Industrial
W2tons
16

17

18

19

20

21

22
/
23
I
24
/
Comm. Ins!
102 tons
21

22

23

?4

TITUTIONAL FUE
Resid Oil
104 Gals.
25

26

27
/
28
U
29
4
L
Nat. Gas
107 Ft3
30

Residential
lO^tons
25
26

27
28

29

30

31
i
32
A
33
V
Wood
34j

35
^
Antti.Coal
W'lons
36

. -f—
OPEN BURNING
Industrial
102 tons
31

32

33

34

35,
36
5
37

38

39

40


41
t
1
Comm'l- Instill.
ID2 tons
57

38

39

40

41

Bitum Coal
IQl tons
47

4344

45

46

47
t
Coke
10 ' tons
4 a1

LijM Vehicle
10-1 Gals.
42

43 44
1 b
45
o/
46
V
47

48
49150


51
7 58


59

60:61
/
OH Hi*ay
103 Gals
is

57
2
58

59
t
60
1
NaL Gas
107 Ft .3
67

63

64
7
65
•»
Heavy Vehicle
Id3 Gals.
61

6?

63
i
64
i
65.
1
Rf
f
DIE
66
-S-
Wood
102 Ions
67

6fl

69
A
Process Gas
107 It 3
7071

SEL FUEL
Off Hiway
104 Gals.
3768

69
a,
70i71
Tp
77

71
^

74

75 76l77i


1 	 y^ 	 , 	 , 	
Rail Locomotive
104 Gals.
77

73

74
3
75
S
7fi


8
I
77

1
<
78
A
j
7R
A

79
A

79
A
cd
80
7
rrl
r,o
3
00
AIRCRAFT VESSELS EVAPORATION
•ihUry
LTOCYC10?
10

11

12

13
To
Civil
LTD CYC 10 1
14

hs

16
M
17
^
18
1
19
1
Comwfcia!
LTD CYC 10 1
2C

2122
iU
23
»t
24
'
Coil
IQl tons
25

26

27

28
*
Diesel Oil I Resid. Oil
104 Gals. 1 10* Gals.
29

30

31

3? 33

Solvent Rjrcnased
tons yr
4?

43

44


as
V
46
^
47
T~
1
Gasoline Marketed
irjSGals.
4R

49
/
W
J.
S1
j
5?
<—
KASUREO VEHICLE MILES
Limited Access Road
104 Miles
STJS4
I
55

Sfi

57

58

Rural Roads
10' Miles
59 eo'ei
1
JL
6?
*
fr>
?
64
y
Suburban Roads
104 Miles
6SJ

66

67

6R

69

71

Urban Roads
10< Miles
71 J72,
!/
73
rS
74

7S
?
76
7
77
7
o
T3
«r
7B
A

79
t\
cd
Rf)
4

Dirt Roads
Tmeled
103 Vehicle mi K
10

11

12
>
13
H
14
7
15
^
16
i
Dirt
Air Strips
LTO CYCLES
17

18

19

20

21
$
FOREST WILDFIRES MANAGED BURNING AGRICULTURAL FIELD 102 STRUCTURE
Construction
Am
22

23

24
/
25
7
26
V
27
0
Moceltantous
Wiml EIOSW.
28

29

30

31

32

Land Trftinf
IfP Acres
15

34

35
^
36
T
37
A
(Slash/Prescribed Surnmo]
Acres Burned
pi"

39

40

41

47

43

44

Tons/acres
Burned
I45

46

47

Acres Bufned
48

49

5051

57

S3

Burned
S?

SP1

Sfi

BURNING
Acres Burned
S7i Sfi
1
59

60'61
|
62

Tens/ Acres
Burned
63

64

65

Orchard flRES
Healers
Operating
6?

67

68J69
|
Oays/Fired
Days/year
170

71

72

Fires/year
73^74 75
I

76

77


e
78
4


79
A

cd
80
5
COWENTS
10J11
1
1?

13

14

15

16

17

18

19

70

71

72

73

74

75

76

77

7R

79

30

31

'7

33

34

V>

3fi

37

3fl

3S

40

41

47

43

44

45

46

47

48 (4<)
r
SO

51

57

53

54

55

56

57

58

59

60

F"l

67

63

64

65

66

67

6fl

— i
69

70

71

77

73

74

75

76

77

i
78


^79
A
cd
BO
6
     EPA IOOR) 219
        3/72
-------
      State
            County
                i
AQCR
                                                                NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                 ENVIRONMENTAL PROTECTION1 AGENCY
                                                                       OFFICE OF AIR PROGRAMS
                                                                                                                AREA SOURCE
                                                                                                                (nput Form
                                              FORM APPRO VfO
                                              OWE 1,0 156 RC:9
Name of Person
Completing Font
Year
at
iecord
10
7
11
H
SIP EMISSION ESTIMATES (It? ton/yr)

Participate
17

13

14

15

16


S02
'i?

18

19

70


NO,
?J22
I
23

24


HC
75

26

77

78

29


CO
ffl

31 1?

:,-,

34

SULFUR CONTENT (X)
Afrth.JBitum.
Coal 1 Coal
3S
\
TfifO
m
-y,
,4
Disl I Resid
Oil I Oil
ttUo 111
PJi^U
47
,«
ASH CONTENT (t)


Anft.
Coal
43


44
u
45
vi
Bitwn.
Coal
46
1
47
7,
4S
^
RESIDENTIAL FUEL' _ t
Antt Cut
10' tont
49

SO

S1

57

5"
rf

10' ton
S4

ss

S6

S7
^
5SJ59
& hi.
Disl. Oil
1C4 Gal.
60

61 67
^«
63
•7
64
1
ResK). Oil
JO* Gal.
65*66
1
67

68
t/
Nat. Gas
lfl'ft.3
69

70
r±
71
^
7?
*>
73

food
ID7 tons
74

75

76

"
d
S
a
78
^


79
A.

id
Bp
1
Anth.
101 tons
10 11


10


17

13

14
t>
COW
Bituain.
lotions
IS

ON SIT
Residential
lo'tons
Ti1

17

13

14

15|

16

17

1R

19
/
ERCIAL AND WS
Dist. Oil
70

I — I — . — ,f .
-. INCINERATION
Industrial
10? tans
Is1

IT1

18

19

?0

7177
/
(
73

64
5
6fl
y
DIE
6566
tf'f
Wood
10' tons
^67

68

69
0
Process Gas
W7 «3
70

71

SELFUEL
OH Kiway
10< Gals.
5768

6D
if
ft?
72

73
<2>

74

7576
I
Rail Locomotive
IB* Gals.
72

73
74
J
7<.b&
°M<9
77|

S
I
77
T1
1
7«
^
g
7B
#

79
A

79
A
cd
BO
2
cd
GO
3
to
Military
LTO CYC 10?
10

11

17
S
13

«S
78


«
A
cd
?5,
*



Oirt RMih " Dirt
Traveled
10? Vehicle mitts
to

11

17
4
13
2
14
1
15
4
16

Airstrips
LTO CYCLES
17

IB

19

70

71



FROST CONTROL

FOREST WiLOFIRES MANAGED BURNING *GRICU.L.LU.R*L-FIEL° «* fm«
Cwnractiw
Hem
77

73

74
J
7S
7
26]27
T|r
MaceNanenK
WwdE.BOM
78

79

30

31

37

Land Tillinf,
103 Acrn
33

34

35
r?
36
*
37
,f
(Stah/Pftscrtbed Burning)
Aae.B««4
W

39

40

41

47

43

44

Tin/ton !
Burned I Aim Burned
4S

46

474R
I
49

WS1

S?

S3

rom/Acin
Burwd
^54

5S

5E


Acre! Burned
^758

59:6061

	 I

67

Toni/Acra
Burned
S3

64

bb

Orchard
Hiarnl
Operating
66

bl

68

by

.
Days/year
70

71

n



/3


*"*"
f74

75

76

77



78
A


79
A

cd
80
b

COMENTS
10 11


1?

13

14

IS

16

17

18

19

iTO

71

,77

71

74

7S

7S

77

7R

79

PS

31

~7

33

34

V,

K)

^7

[2

TS

40

41

47

43

44

4S

4f,

47

411 (49
r
so

SI

S7

S3

S4

sslsfi
I
S7

Sft

S9

60

61!

67

63

64

6S

66

67

6R

69

70

71

7?

73

74


fb


/t>


77

s
i
78



79
A

cd
80
6
     EPA (Our,, 21(
        1/72
-------
                                                               NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                ENVIRONMENTAL PROTECTION AGENCY
                                                                     OFFICE OF AIR PROGRAMS
AREA SOURCE
Input Form
     Date
                           OVB HO 158 ROQ95
                                                                                                      Name o! Person
                                                                                                      Completing Form
v.
Year
ol
Record
10
/
11
If


Participate
12

13

14

15

16

SIP EMISSION ESTIMATES (IB* tons/yd

S02
17

18

19

20


NO,
21

22

23

24


HC
25

26

27

28

29



CO
30

31

32

33

34

SULFUR CONTENT (%)
Anth.
Coal
35
^
36
/
Bitum.
Coal
37
•>,
38
J
Dist.
on
39
^
40
r*1
Resid
Oil
11
^
42
^
ASM CONTENT (»)
AnbY
Coal
43
/
44
V,
45
v>
Bilun
Coal
46
1
47
LA
48
H.

Anth CM!
IQl torn
49

50

51

57

5?
^
RESIDENTIAL FUEl!

10' tons
54

55(56

57
i
5f
J
59
9.
Dist. Oil
104 Gal.
601

61

67
/
63
1
64
1
Resid. Oil
104 Gal.
6S,

66

67

6ft
$.

Nat. Gas
107(L3
69

70

71

77
,t
71
V

Wood
ID2 Ions
7?

75

76

77
fi

g
S
7fl
ft



79
0


Cd
fin
1
Antti.
lO'lms
10


10

11

12

13

14
i
COW
Bitumia.
lO'tons
15

ON SIT
Residential
W'tons
11

12

13

14

15

16

17

18

19
0
ERCIAL AND INS
Dist. Oil
104 Gals.
20

'. INCINERATION
Industrial
Batons
16

17

18

19

20

21

22

23

i24
TITUTIONAL FUE
Resid Oil
10* Gals.
^126
#i 1
Comn. Insl.
lO^tons
21

22

23

24

27

2ff

29
0
L
Nat. Gas
107 Ft'
30

Residential
2526

27

28

29

30

31

32

33
i
food
II&OIM
34

35
0
Anth Coal
W'tons
36

OPEN BURNING
Industrial
31

32

33

34

35

36

37

38

39

40

41
0
r
Comm'l Instill.
Uptons
37

38

39

ft
Bitum Coal
1C1 tons
42

43


42

43

44

45

46

47
^
Coke
10 ' Ions
48

LuM Vehicle
10s Gals.
l«

45
7
46
47 48
3|CiV
49

50

51
d>
INDUSTRIAL FU
Dist Oil
104 Gals.
52

53

54

GASOLINE FUEL
Heavy Vehicle
10* Gals.
$9
50
51
1 !
52
"R
53
54
s
55

56
0
:L
Resid Oil
104 Gals.
57

58

59

OH H'may
ID3 Gals
55

56

57

58
'ol
59
•ft,
eo'ei
U

60
3
Nat. Gas
107 Ft .3
i?

63

64

65

66
^
DIE
Heavy Vehicle
lu^Gals.
61

62163
1
64
J>
H
66
^1?
Wood Process Gas
10? tons] 107lt3
67 68

69(70
A
SEL FUEL
OH Hioay
104 Gals.
6768

69*70
I'l
71


£
72

73

MattllMMM
IIP Acm
28

29

3031
I
32

Iwd Trllin«
ItBAcrn
33

34

35

36
it
37
7
(Srash/Preicribed Burrtrng)
Acres Barrud
38

39

40

41

42

43

44

To«/Krn
Burned
45

46

47

Acres Burned
48

49

5051

52

53

BURNING
Tons/Acres Actes Burned
Burned |
^4

55

56)57
1
58

59

60

61

62

ToiK/Acrn
Burned
631

64

65

0,ch«d . ... . FIR«
Nelten
Operitin|
66

67

68

69

iHyyHrea
70

71

72

Fire*",
7374

75

76

77


_
78
A


79
A

cd
80
5

COHKNTS
10J11
1
'?

1J

14

15

16

17

18

19

20

21

22

23

24

75

?6

77

n

29

TO

31

rj

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48)49
r
50

51

57

S3

54

55

56

57

58

59

60

6167
i
63

64

65

66

67

68

69

70

71

77

73

74

75

76

77

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78



[79
A

cd
80
6
     EPA IOURI 2I«
-------
                                                         NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                           ENVIRONMENTAL PROTECTION AGENCY
                                                                OFFICE OF AIR PROGRAMS
AREA SOURCE       fORMAfrmmc
Input Form          owe so iss r.;'M
     Date L^LJLZ	
                                                                                                Name ot Person
                                                                                                Completinf Fora
Year
ol
Record
10
7
11
y


Particular
12

13

14

15

16

SIP EMISSION ESTIMATES (10* to«/yt)


17

JU2
1Bi

19


2C



21

HO,
22

2324
I

HC
25

26

27

28

29



CO
sol

31

32
33

34

SULFUR CORTEKT (4)
Antti
Coal
35
®t
36
/
Bitun.
Coal
37
f
38
A
Orel.
Oil


40
el
Resid
Oil
n
N
42
J
ASH CONTENT (i)
Ante.
Coal
43
I
44
Ij
45
,fe
Bihw.
Coal
46
I
47
Jtj
48
A

An* Cwl
ID1 lorn
49

50

51

52

53
0
RESIDENTIAL FUEL'

18' u«
54J 5J
1
56

571 5S
-m
59
d
Dist. Oil
10* Gat.
6?

61
/
6?
J
63
i
64
t?
Resid. Oil
lO4^!.
65

66

67

68
i

Nat. Gas
107 ft.3
R9

70
£
71

7?
A
73


Wood
10? tons
74^

75

7fi

77
A

6
s
7«
f



79
A


cd
RO
1
And).
Ifll tons
lohi
1

10

12

13

14
it
COW
Bitumii).
Id'toos
15

ON SIT
Residential
101 tons
11

12

13

14

15

16

17

18

19

ERCIAL AND INS
Out Oil
104 Gals.
20

• INCINERATION
hdusb-ial
16

17

[18
19

20

21
I
22
1
COTOI.
Id7!
21

22

23
/
24
7
lust.
MIS
23

24

TITUTIONftL FUE
Resid. Oil
10' Gi's.
25

26
i
27
3
28
1?
29
£
L
Nat GK
107 Ft3
30J31
113
Residential
lO^tons
25

26

27

28

29

30

32
•}
33
A
Wood
3<

35

Anth. Coal
361

f
OPEN BURNING
Industrial
31

32

33

34

35

36
??
37

38

39

40

41
i
1
ConWI-lnsliN.
37
38

39

40

11

B'lum Coal
10 1 tons
47

43

44

45

46

47
6
Coke
101 tons
4R1

LifM Vehicle
103 Gals.
42

43
44
*
45
1
46
N
47
-7
48
ti
49


51
7

6B

69

70

Urban Roads
]0< Miles
71

77
rj-
73
i
74
S
75!76
*i! '
77
S
g
78
A

71
A
cd
R(?
4


0«lRoj(h
Tiwried
1fr> Vrinde-miltt
10

11

12
^
13
/
14
J
1b
t
IS
?>
Orrt
Airstrips
LTO crats
17

18

19

20

21
t

Fnnsr rniumni

FOREST WILDFIRES MANAGED BURNING AGRICULTURAL FIELD 1fl2 STRUCTURE
CMntrutHHI
Ant
22

23

24
7
•&
f
2fc
r^
27
t
MttcdUMttis
•T.WlEfKWO
1«3Aa«
28

29

30

31

J2

Lind T)hn|
tO^Acm
33

34

35
^
36
1
37
y
Actcs Burned
%ta
|
40

41

42

43

44

ToiH/Kf«
Burned
45

46

47

(Stah/PfelCfibrd Bur
Acre Bui ncd
4ft

49

SO 51

5?

53

Ring)
Teru/Acm
SHIM!
S4

S^

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BURNING
AcnsSuiiwd
571

58(59
1
6061


16?

Tons,'Aere
Buiud
63

64 6S


Oichird
H«m>
Operating
te

67

RR

69

0»yl/Futd
Daytfveai
70

71

7?

FIRES
Fiin/yMi
7374

75

76

77

o
T3
<
78
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71
A
cd
RO
5
CONVENTS
10

11

'?

1?

14

15

16

17

IB

19

70

71

22

n

74

«

7f>

77

7*

79

30

31

*?

31

34

W

V>

37

18

19

1°

41

4?

43

44

45

46

47

48

49

SO

51

57

S3

S4

55

.«

S7

S8

59

RO

*1

fi?

63

6«

.i£

66

67

«R

69

70

71

7?

73

74

7«.

76

77

f
1
7fi


(79
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(W1
6
EPA IOUR1 219
  vn
-------
                                                               NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                               'ENVIRONMENTAL PROTECTION AGENCY
                                                                     OFFICE OF AIR PROGRAMS
AREA SOUBCf
Input Form
     Oats
FORMAPPBOVSt
OMSliO IWRG043
                                                                                                      Na« of Person
                                                                                                      Completing Fora
Ye*
of
Record
in
J
11
a
Sir EMISSION ESTIMATES (10? Hmt/yr)

Participate
17

13

14

isllfi
1

soz
17

1R

19

7(1


NO,
71

77

71

74


HC
7S

76

77

78

79



CO
m

11

17

VI

14

SULFUR CONTENT (V
AntUBitu*.
Coil ] Coal
IS
^1
*b7
,ito
i«
iK1
Oist. I Resid
Oil I Oil
39J40 llJ42
^LjRiiq
ASH CONTENT (X)
Anti.
Coal
41
/
44
V,
45

Disl. Oil
10* Gat.
60

61
'
6?
01
63
t>

64
y
Resid. Oil
10* G»!.
65

66

67

68
'A

Mat Gas
U'fLJ
69

70

71
J
72
,4
73
i

Wood
10? tons
74

75

76

77
•»

.fc
<
78
ft



79
A


CO
PP
LJU
Arrdt.
10 hi


in

—
17

11

14
it
COM
Bitumin.
10'lons
IS

ON SIT
Residential
101 torts
11

17

11

14

IS

16

17

18

19

ERCIAL AND INS
Dist. Oil
10* Gals.
70

' 1 • y • •
E INCINERATION
Industrial
Batons
liiS

IT1

1R

19

70

71

77
/
73
">
74
fj
Conm. InsL
Melons
71

77

73

?4

riTUTIONAL FUE
Resid Oil
10* Gals.
^

Tfi

77

7R
^
79
1
.
Nat. Gas
Kl

Residential
10? tons
75

76

77

28

29

30

11
/
17
t
T
j/
Wood
Uftons
14

IS
t
Anth. Coal 1 Bitum. Coal
K)l tons 1 101 Ions
16

OPEN BURNING
Industrial
U)2 Ions
311

32

33

34

35

36
^
17

Kl

n

40

4142
7

bl

54

GASOLINE FUEL
Li|M Vehicle 1 Heavy Vehicle
ID3 Gals. | ID3 Gals.
42

43

44
^
7
46
47
r?-
48S49
%
50
f
51
5
57
r
S3
>}
54
' i
55

5fi
1*
EL
Resid. Oil
10* Gals.
157

bS

M

bO

OH Hiway
103 Gals.
55

56

57
'
58
C>
59
60
^
b1
i
NaLGas
107Ft.3
67

63

64
,1
65
i

6(
.-^
DIE
Heavy Vehicle
. IB3 Gals.
61

62
63
y
64
o!
6S66J
j\y
Wood
10* Ions
67

6£

6S


76

Rail Locomotive
10* G»ls.
172

7X74
U
75
<,
7«
^
77

1
f
77
6
1
S
78
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5
70
A

79
A

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cd
HO
2
cd
00
3
ro
ro
AIRCRAFT
Military
LTD CYC 10 2
in


11


17


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ILTO CYC ioi
14


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119

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^TOCYClfll
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71


77


7.1


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7S


76


1ZZ

78179
tt
i30

31

3?33

6?
3
6?
(A
64
(/
Suburban Roads
• 10* Miles
6*!r>6

67

6tl

69

70

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71/2
1
10<
173
f
Mil
74
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es
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ii
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LTD CYCLES
17
tf
COmENTS
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17

14

ir

16

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18

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24
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76
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78 79

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11

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7
%
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17
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19

40

41

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4S

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47

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71

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77

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AGRICULTURAL
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Burned
63


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57 58 59 60 6"l 62

SI

6465


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66*67


68

69

S3SK?
70

71

72

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73'7475



76

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69

70

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5
78


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-------
                                                                                                                                           f -f..
NATIONAL EMISSIONS DATA SYSTEM (NEDS)
 ENVIRONMENTAL PROTECTION AGENCY
       OFFICE OF AIR PROGRAMS
                                                                                                                             AREA SOURCE
                                                                                                                             Input Form
                                                                                                                                 Date
FOPV APPROVED
OVE NO IBS nc..9S
                                                                                                  Name ol Person
                                                                                                  CompMint Fonn
Yea
ol
Record
10

11
W
Sir EMISSION ESTIMATES (IS* ton/yr)

Participate
I?

13

14

15J16
|

S02
17

18

19

20


NO,
21

22

23

24


HC
25

26

27

28

29



CO
30

31J32
LJU
33

34

SULFUR CONTENT (V
Anttt. iBitum.
Coal 1 Coal
35
S~

4f
UllJ
38
ij.1
Dist
Oil
39
LJfll
40
LSI
Restf
Oil
I1|42
LkU.
ASH CONTENT (%)
AnBi.
Coal
£

44
L-»
«
LsJ
Bitun
Coal
46

«
L&ji
48
LL

Antt CM!
10' torn
4V

so

si

s?

si
at
|UI


10' tons
54
LJ
55J56
LJ — 1
S7
L£J
sast

RESIDENTIAL FUEL
Cist. Oil
104 Gal.
fin

fii

fi?
LJ

63
uU
64
W
in
Resid. Oil
Nr'Gal.
IfiS

fifi

67

6ft
r^

Nal.Cn
107ft.3
69

70

717?
~LfG
1 *rl 7 1
73
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10
74

^tt
75

«J
76


fn



<
78
A




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i

Antti.
lO'tons
10J1
JI
r
14
f/
COM
Bitumin.
101 tons
15
1 ' ' ' 7" '
ON SIT
Residential
ID1 tons
10 Tl1
12
13
14
15
1b
I/
—
19
rf
ERCIAL AND INSTITUTIONAL FUE
Dist. Oil I Resid. Or!
10* Gals. 1 10* Gals.
-
\ INCINERATION
kidustiial
Uptons
16
17
18
19
20

ll

IT
' -i i • p
Coim. teL
10* tons
21
22

23
24

1 ??
a
L
Nat. Gas
W7 Ft3
30
Residential
25
26
27

£§
29
30
7T
i!
it
ij
Wood
l^ton;
34
JS
rf
ft nth- Coal
Kl'tons
36
1 1 y • -f • '
OPEN BURNING
Industrial
Unions
31
32
33
34
35
36
J.
ii



d
Comm-l-hislH.
lO^tons
37
38
39
40
41
Bitum Coal
Id' Ions





Id
Coke
101 tons



INDUSTRIAL FUI
Dist. Oil
10« Gals.



1 — 1 	 ...7 ,
GASOLINE FUEL
Liflit Vehicle I Heavy Vehicle
103Gals. 1 lo'Gals.
42
*A
44
f-
45
46
47
ft
*
50
i
51
r
5?
<•
S3
/f
54
Ml
*

55
JK ^u i « i a. a_ -L *» — t • *i K p. —
£
:L
Resid. Oil
10' Gals.



OH H'may
103 Gals
56
1 " "»• '
57
1


59 BO
•7\rt

$
Nat. Gas
1C7 Ft3
ft? C? CA CC Cf


,f
^
Heavy Vehicle
. 103 Gals.
61
62
\f\
63
(\ a\ —
64
•3


3
DIE
1?
Wood
10? Ions
£7 Kt AQ


?
Process Gas
107«3
70 7l'77 71


SELFUEL
OH H'may
10* Gals.
5768

tftftf


V
74



76

Rail Locomotive
104 Gals.
IT?
73
7475

76
77-

S
6
a.
77
7H

S
g
7B
A

A

79
A,
cd
RO

cd
CO
3

AIRCRAFT VESSELS
Military
LTOCYClfjZ
10

11

12

13
DJ
Crtil
jLTOCYC H)l
14

15

16
Li]
17
oJ
18
LJJ
19
ua
Comercial
LTOCYCMl
20

21

22
L4J
23
liLl
24
Li]
~CMl
25

26

27J28
[_m
Diesel Oil
10* Gals.
29

30

31

32
[jfej
Resid. Oil
ID4 Gals.
33

34

3S

36.

37
¥
EVAPORATII
Gasoline
103 Gals.
38

n
LJ
40

£
7*
SoNent Purchased
tons yr
42

43

,44


46

47
M
Gasoline Marketed
48
49
SO
51
8
KASURED VEHICLE MILES
Lioiled Access Road
10
)

27
/

WMEtKKW
28 29

.W

<1
<<>

Lxid T
,17
7
FOREST WILDFI
Ac»HB>tMd
}8 39

«>

II

-------
      SUte
            County

                                                                NATIONAL EMISSIONS DATA SYSTEM (NEDSj
                                                                 'ENVIRONMENTAL PROTECTION AGENCY
                                                                       OFFICE OF AIR PROGRAMS
                                                                                                               AREA SOURCE
                                                                                                               Input Form
                                                                                                                    Dale
OWE M3 ISkRCJSS
AQCR
                                                                                                         Name of Peisott
                                                                                                         Cottipletinj Form
                                                                                                      jr.
Year
o(
tecwd
10
/
11
*


Participate
1Z

13

14

1516
I
Sir EMISSION ESTIMATES (1C? loru/y,)

SOz
17

18

19

2C


"Ox
21

22

23

24


HC
25

26

27

28

29



CO
30

31

32

33

34

SULFUR CONTENT (V
Antti iBitan.
Coal I Coil
35
^
J6B7
,?h
38
tt
Dill.
Oil
33
A
40
N
Resid
Oil
I1J42
fa
ASH CONTENT (»)
Ant*.
Coil
43J44
/IK,
45
,v
Bitum.
Coal
46

47
;,
48
,7

Anft Cut
1C' tons
49

50

51

5?

51
6
RESIDENTIAL FUEL

tD1 tons
54,1 V
\
S6
,V
57
4
5f
t
59
^
Cist Oil
10* Gal.
6ft

fi1
/
6?
(l
63
}
64
*
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65;66
!
B7

6R
P

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107tt.3
6?

70
J
71
T
7?
J.
73
?

Wood
10? tons
74

75

76

77


Resid. Oil
10' Gals.
us

OflHmay
lO^Gals
5455
3
56

57
1
59


5859
m

1 9

60
y
NaLGss
107 Ft.3
67

61
1
64
i
65
V
Heavy Vehicle
103 Gals.
61

62
63
64
/7|(f
66
6f

A

7j
A
it
Rf!
2
cd
00
3
K)
Military
LTD CYC 102
10

11

12
5
13
4
AIRCRAFT
Civil
LTD CYC 10 1
14

15

16
4
17
4
18
$
19
J
CoBnefciil
LTOCYClOl
20

21i22
ll^r
23
I
24l
,V
Co»l
10? torn
25

26

27^28
U
VESSE
Diesel Oil
104 Gals.
29

30


31

37
d>
LS
Resid. Oil
104 Gals.
33J34|35
1 1
36

37
X
Gasoline
IB3 Gals
IS

3940
i
41
(I
EVAPORATI
Solvent Ftiichased
tons yi
7?"

43

44
/
/ ' r
45 4F
^k
47
7
3N
Gasoline Marketed
105 Gals.
4R

49
/
VI
1
51
/
5?
rS,
Limited Access Road
CT3
K
55
/
5C
~l
57
?
5ff
5"
MEASURED VEr
Rural Roads
ID4 Miles
59!60!61
I ilv
67
3^
6->
«.
64
»
ICLE MILES
Suburban Roads
ID4 Miles
esTee's?
I

6R69



7n

Urban Roads
10* Miles
71
-H
7?

73
^
74
/
75 '?6
(, j-
77
i
I
7P

79
TrTfe
i


Dm Roads
TirnM
10

11

12
i,
13
•*
14
^
15
0
16
^
Dirt
Airstrips
LTD CYCLES
17

18

19
*}
20
sf
21
q.
FOREST WILDFIRES MANAGED BURNING AGRICULTURAL flEtO ,o2 STRUCTURE
Construction
Acm
72

23

24
^
25
.^
26
8
27
0
Mactftum
WndEtosi
1"3»ue
28

29

30
Mrs
•*
1
31

52

land T«ing
10' Acres
33

34 35
u
36
le
37
(,
Acres Boinerl
38

3»

40

41

42

43

44

Tns/acres
Burned
45

46

47

(Slash/Prescnbed Burning)
ram/Acres
Burnett
48

49

5051

5?

53'54

55

5fi

BURNING
Acres Birrned
"571

58|59'60!61
1 1 1
67

Tons/ Acm
Burned
fe

64

65

Orchard
Htiteri
Operating
66] 67

6R69


OHI/FUFI)
70

71

7?

HHti
fires/yeji
73I741

75

76

77

1
78
fi

79
A
cd
SO
S
COMMENTS
10

11

1?

1?

14

15

16

17

18

19

70

71

2?

73

74

7S

76

77

Tfl

79

3011
1
-1

33

34

35

36

37

3ft

39

40

41

47

43

44

45

46

47

48i49
r
50

51

57 !53
I
54

55J56
1
57

5R

59

60

6"ll62


61

64

65

66

67

68

6s!?0
1
71

7?

71

74

7S

7*

77

S
n
78



7<»
A

cd
80
6
     EPA IOORI 219
-------
                                                                                                                                                         ,y
                                                               NATIONAL EMISSIONS DATA SYSTEM (NEDS)
                                                                ENVIRONMENTAL PROTECTION AGENCY
                                                                      OFFICE OF AIR PROGRAMS
AREA SOURCE
Input Form
     Date
FORM APPROVE i
owe HO ibi>f»osr
                                                                                                       Naie of Perses
                                                                                                       Completing Fern
Yeai
o!
tecord
10
7
11
*/
Partial*
12

13

14

15

16

SIP EMI
S02
17

is! 19
1
20

SIGN ESTIMA
NO,
21

22

73

24

ES(10?toni/vr}
HC
75

26

27

28

29

CO
3?

31

32

33

34

SULFUR CO
AitHi.JBifwi.
cut j coal
3S
V-
36 B7
ib.
38
£
(TENT
Dist.
Oil
39
*
40
,»
w
Resid
Oil
Ill42
4l
ASH CON
Antts.
Coal
43
1
44
I
45
,b
rENT (V
Bitun.
Coal
46
/
47
4.
48
**
An* Co*
tgl torn
49

50

51

52

5,1
6
Bitumm Coal
10' ton
5*Js^56
ll,
57
4
56
f
59

RESIDEK1
Dist. Oil
10* Gal.
60

61 6?
l!,f
63
X
64
*
IAL FUEL'
Rrsid. Oil
ID4 Gal.
'es1

66

67

68
01
Nat. Gas
1 107tt.3
691

70
J
71
H
72
/
«
7
WOOD
ID? tons
74

75

76

"
0
i
I
78
A

79
A
cd
30
1

10


10

Antti.
I0' tons
TT
L_
17

13

14
ff
COM
Bitumin.
10.' tons
15

f
ON SIT
Residential
lO'lons
rr^

U

13

14j15
16

17

18

19
rt
ERCIAL AND INS
Dist. Oil
10* Gals.
70

r
-. INCINERATION
kidustrial
If/ tons
16
17

IB

19

20

21
77
23'?4
\\S\3\1
Comm Inst.
ID2 tons
71

22

73

?4

TITUTIONAL FUE
Resid. Oil
10' Gals.
75

Tfi

77
^
78
/
79
d
L
Nat, Gas
107 Ft3
3(1
/
Residential
^tons
2?

26

27

28

29

30

31
J_
37
lw
DIE
Hezvy Vehicle
103 Gals.
61

62
63
JL\I
64
i
35! 66
i IV
Wood Process Gas
10* tons j 107«3
67 68

69|70 71
4>\
i
SEL FUEL
OH Hiway
10* Gals.
5768

691 70, 7V
72|73

0

74

75

76

Rail Ucomotive
104 Gals.
7?

7J

74,
3
75
S
7S
^
77

*
I
77
4
||
78 79
xHA
I
S
7D
/h

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A
cd
80
2
cd
CO
3
ro
to
military
LTD CYC 10 2
10
11
— L_
17
*
13
<*
AIRCRAFT
Civil
LTD CYC 10 1
14

IS
\
1fi
->
17
a
in
H
is
A
Commercial
LTD CYC 10 1
70

71

77
n
73

VESSE
Diesel Oil
10< Gals.
?9

30

31

37
*
LS
Restf. Oil
U4 Gals.
33

34

3S

36
'
37
i
Gasoline
103 Gals.
38
1
33

40

41
4
EVAPORATI
Solvent ftichased
tons yt
47

43

44
V
«S
y
46
2
47
/
)N
Gasoline Marketed
WSCals.
4P

4<)
A
w
*>
S1
5
S7
X
Lm/ted Access Road
10*Kiles
S3JS4
/b
55

56
V
S7
f
SR
V
MEASURED VEt
Rural Roads
10* Miles
59J60'61
1^1 <9
67
*L
6?
ci
64
-?
ICLE MILES
Suburban Roads
ID4 Miles
65^66


67

6R

69

70

U'ten Roads
10< Miles
71

77
/
73
•^
74
<*
75
 1 LTD CYCLES
10

11

17
?
13
y
14
V
15J1&I17
ty\
IB

19

70

71
d
ComtTuctioa
Acns
77

73

74
?
7S
7
76
f
77
r*
MocelUnnwi
Wind Eiosioii
IIP Aon
"TR

79

3031


[37

Lwd Tilling
103 Acres
33

34

3S

36
,?
37
7
FOREST WIIOFI
Acres Burned
3B

39

40

41

47

43

44

RES
Tons/Kin
Burned
4S

46

47

. MANAGED BURN)
(Slash 'Pinciibed Bur
Acres Buined
48

49

ISO SI

S7

S3

NG
nmo)
Tonv'Acin
Bu.nH
S4

f>*.

S6

AGRICULTURAL
BURNING
Add Bui 1*4
'S7

58] 59 60 61
T"


67

FIELD
Tons/Acret
Buined
S3

64

65

FROST CON
102
Of child
Heatefs
Qpetating
66

67

68

69

TROL
Ojys/F"Ml
Oavvyeii
70

n

12

SIRUCTURi
fIRES
foes/yeai
73'74l75
I
7b

77

c
s
78
4

/9
A
cd
80
5


CONVENTS
10

11

1?

13,

14J1S

16

17

18

1<>

70

71

7?

73

74

75

76

77

7H1

79

3(1

31

-7

33

34

3S

36

37

3«

39

40

41

47

43

44

4S

46

I47

48j49
r
so

S1

S7

53(54


SS

S6

57

S8

S9

60

fi'l
L_J


IM

*3

64

65

M>

67

68,69
1
70

71

7273174

1
75

76

77

i
2
78



79
A

cd
80
6
      EP» IOUBI 219
-------
     State
         County
                                                NATIONAL EMISSIONS DATA SYSTEM (NEDS)

                                                 ENVIRONMENTAL PROTECTION AGENCY

                                                     OFFICE OF AIR PROGRAMS
Name of Person
Completing Fora
i/. a
AREA SOURCE
Input Form
Date FJA-
rV-*-^
FORM APPROVED
owe no is8r.c:35
7?

Year
ol
Record
10
)
11
*H
SIP EMISSION ESTIMATES (1«2 tom/yf)
Participate
12

13

14

1b

16

S02
17

18

13

20

NO,
21

22

23

24

HC
25

26

27

28

29

CO
30

31

32

33

34

SULFUR CONTENT (%)
Anlh.lBihim.
Coal 1 Coal
r
\
pep?
-r|,|
38
£
Dist.
OH
39
A
40
1
Resid
Oil
11
&
4?
>1
ASH CONTENT (t)
Antti.
Coal
43
i
(4
H,
45
*!
Bituin.
Coal
*4fi
/
47
?<
4R
4
RESIDENTIAL FUEL
An It Coil
Id1 lont
149

v>

S!

«Ui
1^

S4

Bitumm Coal
1C1 un
~3

58

57 Ufl
y|«o
59
rJ
Dist. Oil
104 Gal.
fin1

61
/
6?
a
6-«
s
fi4
/

65

Resid. Oil
104 Gal.
'fifi

67

BR
t
Nat. Gas
ID7 ft.3
69

,70

7l!?2!73
/My
Wood
Nitons
74

75

76

77
r
i
Z
78
rf

79
..A
cd
§0,
.1
Anth.
101 tors
10


10
11

12

13

14
CP
COW*
Bitumin.
10 1 tons
15

ON SIT
Residential
10 ' tons
11

12

^

!'•'
15

16

17

18
19
P
ERCIAL AND INS
Dist. Oil
1C4 Gals.
2f7

'. INCINERATION
Industrial
10* tons
16

17

18

19

»

21

22

23
<>
24
/
Comm. Inst.
lO^tons
21

22

23

24

TITUTIONAL FUE
Resid Oil
10s Gals.
25

26

27

28
/
29
U
L
Nat
107
3CJ31

Residential
lu^tons
25
26

27

28

29

30

Gas
Ft3
r3l
i
OPE
In
10
31

32


33
y
KB
dus
2I
33
Wood
102tods
34

35
d
10
36 37

r
URNING
trill
X1S
34

*
36
^
Bi.
llo
3«
_L
Coal
ns
391

40

41
0
Comm'l- Instill.
102 tons
37
38

,h
41

Bituir Coal
10 ' tons
42

4.3 4


42
«4
4 4S

46

47
i
Coke
10' tons
48,49150

Li{M Vehicle
101 Gals.
4l4l
|3|«?
46
J"
47 48
A
G


SI
6
INDUSTRIAL
Dist. Oil
104 Gals.
5?

53,54


GASOLINE FUEL
Hea»y Vehicle
103 Gals.
43

50

51 52
£•3
53
71
W
7
FU
55156
\

55
EL
S7

Resid Oil
10' Gals.
5K

5P

60'61
<*
On Hmay
103 Gals
56
57
/
T
59
/
60
^
Nat. Gas
107 Ft 3
fi?

63

64

fS
7
Heavy Vetiicte
103 Gals.
61

6?
6.3
5
6J
ffl
fif
3
DIE
66
7
Wood
102 tons
67i 68' 69

W
Process Gas
107 It3
70

71

SEL FUEL
Off HI way
104 Gals.
57

68J69
70
r^
9
7?

71
(f

74

75

76

—7 	 "—
Rail Locomotive
104 Gals.
7?

73

74

7S
^
7fi

77

8
&.
77
rzT
i
7R
rt
J
7fl


7H
A

7,
A
cd
pn
2
cd
52
3
N>
to
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                    ?M? |






/•••-•Jl:
-------
N'
s:
       Slate
             CoiMty
       JLL2.-ll«-UU
               AQCR
                       4J
                                                               NATIONAL EMISSIONS DATA SYSTEM, (NEDS)
                                                                ENVIRONMENTAL PROTECTION AGENCY
                                                                     OFFICE OF AIR PROGRAMS
                                                                                                                         AREA SOURCE
                                                                                                                         Input Font
                                                                                                                              Date
                                                                                                fORV APPROVED
                                                                                                OVB KO i;s R;:S
                                                                                               Naie of Person
                                                                                               Complelinj Fofm	
       Year i
        of
      focco'dj^ Participate   j    S02
                   SIP EMISSION ESTIMATES (10* tonsM)

                           NO,   I     KC
      !l°' 1^4l£M1^6J^^9"R2li22r23T2''f25!2bi2"']28l23 30^3
      fawiTjzrtTi i~TTi  IM  >1 TT• -J-
      „,. ,-v1-"!—••—I—i—I—,—I—I—1—I—I—L..ju_>-.  !—LJ__S_L.
;                   COMMERCIAL AND INSTITUTIONAL FUEL
,     *"&    I    Bitumin.   |  D's! Oil   j   Reiid Oil
!    1C1 ton-;   j    101 tons   ]  jn< Gals   I   10- Gals
    CO
sobilSIsalM
           SULFUR CONTENT (V
Anth
Coal
ssbe
Bilum
 Coal

t3?|38
                                                          m
 Oisi
 °'L
39J40
  i
                       Rtsid
 V/i I
j]l«
tai
                  «H CONTENT (%)
      Anlh.
      Coal
                                                                      «W4
                            HTET
                                                                           45
Bituw.
Coal
                                                                             46
Id1 tons
Bitumin toji     ">" ""
 _lCltOT3l_ 1Q< Gal.

J64
RCSK) Oil
104 Gal
^Mfcki
Nat. Gas
107 fl.3
l69
zt™
70

71
A
72(73
?k
Wood
ID^tons
!74

75 76
	 L
77
3
O
^J
<£
78
/?

*79
.ft
1
C<
3?
JL
                                                  Hai Gas
                                                                             Bituii Coal
                                                                             10'1 tons
                                               INDUSTRIAL ruf:
                                        Cokf   j   Oisl Oi;  ;  Resid Oil  j   Na! G '&i?t izZJ28J2lM3lb^
  1  ]~t  '-j-^-L--1' -51  uj  :.i  ^LJJ  t  i,jj;j%! ;.n ]j  rt5!.vl2i'/ki.j  i^siJid  11^!M[iiila^idi;i^iJ:mitMai
                                                   VESSEL*
                                                  sr! 9:1 '
                                                                                                           KASUREO
                                         1C- ton;
                                                                                                                           i  Sisbwten Koaui   i   Uiba-.Road-
      luXil, I2^L«J1 i]l.dl Zj^4«|24^12j ?» 2.^
                 '  Dirt     |
                 Av Sfri?i    (
                                            j Wmd £
                                            1  lOiA
                                                                       FOREi. IP.lLljrIRC
                                        MA.'.-'itstO PURNlf"
                                       ISi55^ ' '(escnb*d burnittf]

                                 Burnet' i  Acres Z.
-------
                 APPENDIX D




EMISSION SOURCES FOR THE AKRON/CANTON AQMA
                   228
-------
                                                           vtwsiON  76130,
N)
SUUXCE INPul
ID
P 5001
P 5002
P 5006
P 5010
P 501 1
P 5013
P 5013
P 5013
P 5014
P 5015
P 5016
P 5018
P 5018
P 5018
P 5001
P 5001
P 5002
P 5003
P 5003
P 5037
P 5004
P 5004
P 5004
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5038
f 5039
P 5006
P 5007
P 5007
P 500/
P 5007
P 5008
P 5008
P 5008
P 5008
P 5008
P 5008
P 5008
P 5008
P 5008
P 5009
P 5042
P 5042
P 5010
X(K^)
496.30
475.70
469.70
498.50
470.60
470.80
470,60
470. 60
4/7,60
475,90
479,40
496.40
496,40
496.50
472, 10
472,10
478,90
457,70
457,70
450,10
463.20
463.20
463,20
472.60
472.80
472,80
4/2.80
472.60
472.80
472.60
4/2.60
451 .80
475.50
456.50
472.20
4/2.20
472.20
472,20
464,80
464.60
454,80
464.80
464, 8U
464.60
464,60
464 .60
464,60
463. 70
454, 9u
454.90
470,20
Y (KM) TX(M)
4550
4566
4576
4568
4558
4555
4555
4555
4567
4572
4555
4564
4564
4564
4521
4521
4525
4515
4515
4516
4514
4514
4514
4527
4527
4527
4527
4527
4527
4527
4527
4519
4519
4510
4516
4516
4516
"516
4513
4513
4513
4513
4513
4513
4513
4513
4513
"523
4511
451 1
4514
.20
.20
.90
.90
.70
.40
.40
.40
.50
. 10
.20
.30
.30
,20
.00
.00
.•JO
.00
.00
.70
.50
.50
.50
.60
.60
.60
.60
.60
.60
,6U
.60
.00
.70
,00
.50
.50
.50
• So
.40
.40
."0
.40
.40
.40
.40
,4U
.40
,80
.00
. 00
.50
0.0
0,0
0,0
0,0
0,0
0.0
0.0
0.0
0,0
0,0
o.o
0,0
0.0
0.0
o.o
0.0
0,0
0.0
0.0
0,0
0,0
0,0
0.0
0,0
0,0
0.0
0.0
O.u
0.0
o.o
o.o
0.0
0,0
0.0
0,0
0.0
0.0
0,0
0,0
0,0
0.0
O.U
0,0
0,0
0,0
0.0
0.0
0 , U
0.0
0,0
O.'J
S02(G/StC)
0,0
0,0
0.0
o.o
0,0
1 .497
0.800
0.606
0.0
0.0
0,0
0.0
0.0
0.0
0.0
0,0
4,204
12.496
16.642
0,0
27,813
0.921
0.921
0,0
0,0
0,0
0.0
92,509
30.836
30,836
30,836
0,0
0,0
0.0
8,465
7,515
24,444
24,444
9,242
2,822
4.117
3.973
1 ,843
11.027
18, 744
60.895
52.805
0,0
2.332
2,332
0.720
TSP (G/stc )
0,115
1,123
4,031
6,449
1 .209
0.664
0.432
0.432
4.405
0,864
4,895
0,029
0.066
0.606
0, 144
0.144
1 .180
15.980
21.277
0,029
0.115
0.202
0.202
0.029
1.468
1 .468
1 .466
190.459
317,432
31 7.432
317,432
2.447
1 ,006
100,7/2
1,065
6.392
3.023
3.1 10
0.893
0.259
0.403
0.3/4
0,029
0,893
0,0
0,0
0,518
0.317
0.0
0.0
1.353
HS(K )
12,20
21.30
15.80
6.10
14.60
36.10
61.60
61 .60
7.60
6,10
1 1,30
13,70
b,10
8.80
15.20
15.20
35.10
61.00
61.00
4. JO
62.50
62,50
02,50
23,80
26.20
25.90
21.90
28,00
27.40
27,40
28,00
12.20
11,60
15.20
21.30
21.30
21.30
21.30
55,50
45, 70
51.80
51 .80
15,20
30.50
12.80
54.90
45, 70
14,30
9.10
9.10
4.00
D(M)
0.0
1.80
0.80
0,80
1.20
2.40
2.90
2,90
2,10
0,60
1.20
1.30
0,50
0,30
1,20
1,20
1.80
4.90
4.90
0,0
3.00
3,00
3.00
0,60
1 .40
0.70
2.00
5,50
2.50
2.50
1 .80
0,0
3,80
,20
,50
,50
,50
.50
3.10
1 .60
2.10
1. 70
0,80
1 .40
1 .20
O.eO
1 .00
1 ,80
0.50
0.50
O.bO
VS(f /SfcC)
0.0
0.90
8.00
21.70
10,10
4.80
1.70
1,70
6.90
22.60
0,0
16, /O
20.60
14,20
12,90
12,90
0,50
0.0
0.0
0.0
0.60
0.60
0.60
4,90
9.00
24.70
5,20
4.30
5.90
5.90
19,20
0.0
0.0
21,80
11.10
11.10
11.10
0.0
4.20
9.20
3.00
7.60
16.60
17.20
0.80
4.70
42.50
?.fcO
22.00
22.00
12.30
TSCOC)
10.00
148,90
121.10
87,80
148,90
260,00
260.00
260,00
148,90
146,90
-17.80
21.10
26.70
232,20
67,80
67,80
204,40
190.60
190.60
-1 7.80
37,80
37.80
37.80
23,90
23.90
43,30
37,80
204.40
648,90
648.90
3/1,10
21.10
93,30
93,30
260,00
27tO.OO
2760.00
260.00
315.60
471.10
200.00
42o. /O
282.20
282.20
2/6.70
593.30
338^.20
75.00
252.20
232.20
65.60
SACM««2/SEC)
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
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
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
-------
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05*17 1 50
os'oiso
OS'OISO
00*0150
OO'iOSO
OP* 1150
on'oiso
OB'2I50
OB' 21 SO
Of 'f ISO
Of *f ISO
OS '690
OS V90
OS'/90
04' I/"
06't/o
09'IiO
Oc;459tj
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02*900
Oi *ObO
09* IbO
09* IbO
00 * 060
no'Obo
o o ' n 6 o
no'060
00*060
O9'?60
02'/SO
02VSO
02VSO
no" 690
00'690
Oi'9/0
Oi *9iO
Oi'9iO
Oi *9iO
Oi '9iO
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Oi'9/0
Oi'9iO
Oi'9iO
Oi'9/0
0 i " 9 i 0
Oi *9iO
Oi"9iO
Oi'9iO
Oi'9/0
Oi'9iO
Oi'9iO
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00*990
05*950
06*990
00'990
00'090
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920S d
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1205 d
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b!OS d
BIOS d
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9IOS d
910S d
9IOS d
9IOS d
9bOS d
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SIOS d
StOS d
sons d
sons d
OIOS d
oios d
OIOS d
oios d
OIOS d
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OIOS d
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OIOS d
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OIOS d
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2105 d
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2IOS d
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I 105 d
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-------
vtKSIUN 761JO»   RUN
SOURCE INPUT
10
P 5026
P 5026
P 5026
P 5026
H 5026
P 5026
P 5026
P 5026
P 5026
P 5026
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5054
P 5054
P 5054
P 5054
P 5054
H 5054
P 5054
P 5054
P 5079
P 5079
P 5079
P 5030
P 503U
P 5030
P 5080
P 5080
P 5031
P 5095
P 5082
P 5083
ft 5033
P 5033
P 5033
XUM)
466,50
466,50
466,50
466.50
466,50
466,50
466,50
466.40
466.40
466,50
470,70
470,70
470,70
470,70
470.70
470.70
470,70
470.70
470.70
470.70
470,70
470,70
4/0,70
470.70
470,70
470. 70
470.70
470.70
474. BO
474. bO
474,80
474,60
474,80
474.80
474.80
474.80
469,50
469.50
459.50
471.70
471.70
471, 70
468.60
468,60
455. JO
455.30
455.30
455.90
455.00
455.00
455.00
»(*M) rxlM) SU2(G/SfcU
4513.80
4513.80
4513.60
4513.80
4513,80
4513.80
4513.60
4514,00
4514.00
4513,80
4517.00
4517,00
4517.00
4517,00
4517.00
4517,00
4517.00
4517,00
451 7,00
4517.00
4517.00
451 7.00
451 7,00
4517.00
451 7.00
451 7.00
4517.00
451 7.00
4514,00
4514,00
4514.00
4514.00
4514.00
4514.00
4514.00
4514.00
4501.70
4501,70
4501 , 70
4534.50
4534.50
4534.50
4531.50
4531 .40
4521.00
4515. 6U
4514. 50
4513, 8u
4513.30
4513. 3u
4513.30
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
0,0
0.0
0.0
0.0
0,0
0.0
0,0
0,0
0.0
0,0
y.o
0.0
0.0
0.0
0.0
0.0
0.0
o.o
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,u
o.o
0.0
0.0
0,0
0.0
0.0
0.0
0,0
0.0
0.0
0.0
0.0
2.505
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
2.505
2,505
0 ,066
0.0
0,0
0.0
0.086
0,086
0,0
0.0
0,0
0,0
0.0
3.110
3.110
6.219
0,0
0,0
0,0
o.o
0,0
0,0
10.106
10. 106
10,106
TSPtG/SEC)
0,173
0.374
0,173
1.756
1.765
0.374
0.115
0,029
0.056
0,029
0.0
10.451
113.613
1,209
1.209
1 .209
1.209
1,209
1.209
10.451
10.451
10.451
10.451
113.613
113,613
113.613
0,0
0.0
0.950
0.058
0,058
0.0«6
0.950
0,950
0.029
0,066
0.029
0,029
0.777
0,317
0.317
4.290
2,591
5,470
0,086
0.720
12.784
0.029
5,528
7.227
7.227
HS(y )
27.40
27.40
27.40
27.40
27.40
27,40
27,40
18.60
18,60
16,20
70,10
15,20
15,20
30,50
30.50
30,50
30.50
30,50
30.50
15.20
15,20
15.20
15.20
15.20
15.20
15.20
70.10
70,10
H.OO
15.20
15.20
15.20
11, 00
11.00
0.0
15.20
15.20
15.20
15.20
45.70
45.70
45. 70
15,20
15.20
15.20
IB. 30
3.70
7.60
89,90
89,90
89,90
0(M)
1 .20
1.20
1.20
1.20
1.20
1.20
1.20
0.0
0,0
0.0
2.10
0,0
0.0
0,0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
o.o
0.0
0.0
0,0
0,0
2,10
2.10
1 .40
0.0
0.0
0.0
1 .40
1 .40
0,0
0,0
0 ,60
0.60
0.0
1.50
1 .50
1.50
0.0
0.0
1,20
0.50
0 .0
0.0
5,70
5. 70
5.70
VSCf/StC) TS(OC)
20.20
20.20
20,20
20,20
20.20
20.20
20.20
0.0
0,0
0.0
1.50
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
1.50
1.50
6.60
0,0
0.0
0.0
0.70
6,60
0.0
0.0
16,20
16.20
0.0
1.00
1 .00
1 .80
0.0
0.0
12,30
Ib.UO
0.0
0.0
0,60
0.60
0.60
37.
37,
37.
37.
37,
37,
37,
21,
21,
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221.
121.
121.
93,
93.
93.
93,
93.
93.
121.
121.
121.
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121.
121.
121.
221.
221.
315.
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315.
315.
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10.
10.
10,
190.
190.
190.
10,
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•17.
243.
243,
243.
80
60
60
80
80
80
80
10
10
80
10
10
10
30
30
30
30
30
30
10
10
10
10
10
10
10
10
10
60
80
80
ao
60
60
80
80
00
00
00
60
60
60
00
80
30
10
80
80
30
30
30
SA(M*«2/SEC)
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
0.0
0.0
0.0
0.0
0.0
0.0
o.o
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
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
-------
                                                                         76130,
ro
OJ
fO
SOURCE INPUl
10
P 5033
P 5033
P 5033
P 5053
P 508/
P 5035
P 5036
P 5U89
P 5001
P 5001
P 5004
P bib?
P bib?
P 5157
P bOlO
P 5012
P bOld
P 5012
P 5012
P 5012
p 5024
P 5160
P blbl
P blbl
P blbl
P blbl
P blbl
P 5025
P 5027
P 5027
P 5028
P 5028
P 5028
p b028
P b028
P b028
P b030
P b030
P 5030
P b030
P b030
P 5030
P bOiu
P 5030
P bo32
P 50314
P bl)34
P b034
P 5034
P bOib
P b03fa
X(KM)
455.00
abb. 00
abb. 00
abb. 00
abb.ao
463,50
466,10
178.20
a63.60
463.80
aba. oo
ab3.«0
a63.ao
463.40
Ubl ,80
452.90
452,90
152,90
452.90
452,90
asa.bo
458,00
457,80
ab7.80
ab7.80
ab7.80
457.80
459, 10
ab6.80
ab8.80
456.60
456,60
456,60
4bfa.60
abb.bO
abb.fcC
aba. 10
aba. uo
45U.40
151.50
151,10
454.40
454.40
iba.io
aba, 10
455. bO
155. bo
155. bO
45fa.OO
458.40
158.40
YU*)
4513,30
451 J. 30
1513.30
1513.30
4bO /.OO
4525.10
1521,90
1502,30
1540, bO
4510, bO
45b5.80
45b2, 10
45b2. 10
15fa2,10
15/7.50
1570.50
4570,50
4570.50
15/0,50
4570.50
4543.20
4b4/,bO
Iblfa.bO
154b,bO
4b4fa.bO
454b.bC
Iblb.bO
a551 ,80
a551 .80
a5bl .80
4b48.50
4546.50
4b48.50
4b48.bO
4548.50
454b,50
4543,50
4543.50
4543. bo
4b43.50
4b43.50
4543.50
4543.50
4543.50
4543.40
454b . / 0
454b. /U
4 5 4 b . / 0
454/.00
4548. bO
4548, bO
UIM)
o.o
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
o.o
0.0
0.0
0,0
0,0
0,0
0,0
0.0
0,0
0.0
0,0
o.o
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0,0
0,0
0,0
0,0
0,0
0.0
0.0
0.0
0.0
0.0
0,0
o.o
0 .0
0.0
0.0
0.0
0.0
0.0
0,0
0.0
0.0
0.0
0,0
S02(G/StC)
10,10b
lO.lOfa
lO.lOfa
13,bVO
0,0
0.0
0, 77/
0,0
1 ,9b8
1.958
0,0
l,29b
1.958
1 ,296
25,999
b,5b5
b.5bb
b.5fa5
1.123
1,123
0,0
0.0
0.0
0.0
0,0
0.0
0,0
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167. 148
19fa.3bl
7,400
7,400
8,8fa8
7,975
28,b4B
29.368
33.fa67
33,b87
33,fa8/
33. b8/
0.0
0,0
0.0
0,0
bO.096
b2.977
88,b79
b4,20b
0.0
0,0
0.0
TSP(U/StC)
7.22/
7.22/
7.227
11 .89]
0.1 73
4.031
O.bOb
0.115
0.173
0,173
0,115
0.173
0,259
0.173
8, /24
fa. 133
b. 133
b.133
O.bb2
0,bb2
0,202
0,058
1 .037
0,288
0.432
0.489
0, 144
0,115
13,100
1,411
3,772
3,772
1,520
1,088
5. /30
5,871
12,870
12.870
12,870
12.8/0
0. /20
0.1/3
1.555
0.9/9
4 , 0 b 0
b.Ob?
8 . 494
fa. Ibl
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0,08b
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HS(*M
89,90
89.90
89.90
7e.20
0.0
lb,20
53.30
15.20
50,30
50.30
12,20
21 .30
21.30
21,30
53.30
11.00
1 1 .00
11.00
9. 10
9,10
3.00
/.OO
8.80
9,80
b.40
fa. 70
b.50
5.50
83,80
83.80
b3.30
53.30
53,30
53.30
53,30
53.30
53.30
b3.30
b3. 30
53.30
0,0
8,20
14.30
18.30
38. 10
7o.20
/b.20
7fa.20
36.60
26.80
24.40
D(M)
5.70
5.70
5.70
3.10
0,0
1 .40
2.40
0,0
1 .20
1,20
0,0
1 , 10
1 .40
1,10
3.00
1.50
1,50
1 .10
O.bO
0,60
1.10
0.90
1 .60
1 ,00
1 ,00
0.90
0.50
0.90
3,40
3.40
3.00
3.00
3.00
3.00
3,00
3,00
1.10
1,10
1.10
1 . 10
0.0
0,20
O.bO
3,10
I. 50
4,90
4 .90
4 ,90
3.00
I ,20
I .20
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O.bO
0,60
O.faO
0.30
0.0
10.20
2,50
0.0
0.80
0.80
0.0
5.30
1,80
5,30
2.20
11 .30
11.30
6.70
a2,90
42.90
0.50
5.80
7.90
5.60
8,40
17.20
14.00
42.90
10.90
10.90
b.40
6,40
6.30
6,30
5.80
5.80
11.40
11.40
1 1 .40
11,40
0.0
11.00
6.10
0,50
1 1 .60
1 .80
3.00
2.60
1.10
6.50
12.90
TS(OC)
24J.30
243.30
213.30
21.10
-17.80
S3. 30
1 /6, 70
-17.80
260,00
260.00
-1 /,80
193.30
232,20
193.30
260.00
315, bO
315.60
304.40
204.40
204,10
26.70
S3. 30
21.10
21.10
21.10
-1 /.80
21,10
148.90
1 94 ,aO
172.80
2/9,10
2?9.40
241 . 10
241 . 10
204,40
2C4.40
343,30
343.30
343.30
343,30
-17.80
21,10
46.10
93.30
198.90
25&, 10
235,60
233,90
34.40
17b, 70
1 76. 70
SA(M*2/SEC)
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
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
0.0
0.0
0.0
0.0
0,0
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0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
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O'O
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O'O
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0*0
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00'59
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                                                   234
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                                            l/ERSIUN 7bl30,  KUN
SUUHCt
   ID
0 5580
0 5580
0 5580
0 5580
0 bbbO
0 b580
0 bbbO
0 bb80
0 5b«0
0 bb80
0 bbBO
0 b580
0 5580
0 5580
0 5560
0 5580
  5580
  5580
  5580
0 5580
0 5580
0 5580
0 558y
0 5580
0 5580
0 bbSO
0 5580
0 5580
0 5580
0 5580
0 5580
0 5b80
0 6400
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0
0
0
0
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X(KM)
480.00
490,00
470,00
47b.OO
470.00
47b,00
480,00
490.00
4b7.50
4b7,50
470.00
475.00
4b7.50
4fa7.50
470,00
472.50
470, 00
473.50
475.00
477,50
475.00
477,50
480,00
490,00
470.00
475.00
470,00
475.00
480,00
490,00
470,00
a 75,00
445. 00
U50.00
4faO.OO
a7o,oo
445.00
480,00
445. 00
450.00
455.00
4bO ,00
4b5, 00
470,00
475.00
490,00
445. 00
450.00
455.00
457.50
455,00
r (KM)
4535,00
4535.00
4540,00
4540,00
4545.00
4545.00
4545,00
4545.00
4550.00
4552.50
4550,00
4550,00
4555.00
4557.50
4555,00
4555.00
4557.50
4557.50
4555,00
4555,00
4557.50
4557.50
4555,00
4555.00
45bO.OO
45bO.OO
4565,00
45b5,00
45o5,00
«5b5.00
4570,00
4570.00
4500,00
4500.00
4500.00
4500.00
4505,00
4505,00
4510.00
a510,00
a5lo,00
4510.00
4510.00
4510,00
4510.00
4510.00
4515,00
4515.00
4515.00
4515,00
451 7.50
TX(M) SU2(G/SEC)
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1COOO.OO
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5000.00
5000,00
5000,00
10000,00
10000,00
2500,00
3500.00
5000,00
5000.00
3500,00
3500,00
2500,00
2500,00
3500.00
2500.00
3500.00
2500.00
2500.00
3500,00
10000.00
10000,00
5000.00
5000,00
5000,00
5000,00
! 0000,00
10000,00
5000,00
5000,00
5000.00
10000 ,00
10000,00
10000,00
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5000.00
5000 .00
5000,00
5000 .00
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2500.00
2 5 0 0 . 0 r<
1.410
1,253
0,b45
0. 729
1.381
0, 75b
I,b55
1.170
0,030
0, 799
1.693
0.695
1 ,806
0.610
3,936
0,48b
0,346
0,030
1,433
1 ,651
0.0
0,3b8
3,217
3,480
0.574
0,011
1.745
0,883
1 .913
1 ,434
1.021
0,820
0.817
2,458
1 ,841
2.323
1 ,070
1.919
0,910
0.942
3. 719
5.963
b,977
0,935
0.925
0.0
0 ,038
5. 109
4,571
1 ,809
2.774
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1 . 180
1.487
0.565
0.556
0,74b
0.565
1.165
1.713
0.009
0.404
0,865
1.014
0,854
0,357
1. 753
0.330
0.387
0.009
0,700
0.775
0,0
0,278
1 .680
1.U7B
0.653
0.048
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0.599
1,252
1.235
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0.594
0,854
1,537
1.U71
2.458
0.830
1 .87B
0. 772
0.895
1 .219
1 .239
3. 108
0.951
1 ,434
0 .0
0,017
1 .979
1 .203
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0.817
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10.00
10.00
10.00
10,00
10,00
10.00
10.00
10.00
10,00
10,00
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10.00
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10,00
10,00
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10.00
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10,00
10,00
10,00
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10,00
10,00
10.00
10,00
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10.00
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10,00
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10.00
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10.00
10,00
10.00
10,00
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10.00
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0.0
0,0
0.0
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0.0
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0.0
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-------
                                                                        VtHSION  76130,   HUN
to
Go
SOURCt IIVPuT
ID
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 65UO
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
x(KM)
447.50
445,00
447,50
450.00
452.50
450,00
452.50
455.00
457.50
455,00
457,50
460,00
462.50
460 ,00
462,50
465,00
440 , 00
445,00
450. 00
452,50
450,00
452.50
455.00
457.50
455.00
457.50
460.00
462.50
460.00
462.50
465.00
440.00
445. 00
450,00
452,50
450. 00
452.50
455.00
457,50
455.00
457.50
460. OU
462,50
460,00
462.50
405.00
465. 00
440,00
445, 00
450,00
455,00
Y (KM)
4540,00
4542.50
4542.50
4540.00
4540,00
4542,50
4542,50
4540.00
4540,00
4542,50
4542.50
4540.00
4540,00
4542,50
4542, 5u
4540,00
4545,00
4545,00
4545.00
4545.00
4547,50
4547,50
4545,00
4545,00
4547,50
4547,50
4545.00
4545,00
4547.50
4547,50
4545, Ov
4550.00
4550,00
4550,00
4550,00
4552.50
4552,50
4550 ,00
4550,00
4552.50
4552.50
4550,00
455U.OO
4552.50
4552.50
4550. OU
4552.50
4555.00
4555.00
4555,00
4555.00
IX(M) S021G/SEL) tSP((i/SLC) HS(f} D(M)
2500.00
2500.00
2500.00
2500.00
2500.00
2500,00
2500.00
2500.00
2500.00
2500,00
2500, UO
2500.00
2500.00
2500.00
2500.00
5000,00
5000,00
5000,00
2500,00
2500.00
2500,00
2500.00
2500.00
2500.00
2500.00
2500. UO
2500.00
2500.00
2500,00
2500,00
5000.00
5000.00
5000.00
2500,00
2500.00
2500,00
2500.00
2500, UO
2500.00
C500.00
2500.00
£500.00
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2500.00
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1
0
0
1
0
0
2
0
0
2
2
0
0
1
1
1
0
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2
0
3
1
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2
1
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0
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0
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1
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.517
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1 .940
0.389
0,720
1.058
0,454
0.568
1,324
0,525
0.447
1,583
1,336
0.388
0.423
1.369
0. 791
1.014
1,026
0.938
0.425
1.452
0,616
1,818
1 ,204
1 ,519
1,322
0,675
1 ,094
0,651
0. 745
0.403
0,948
1,111
0.961
0.621
0,923
0,066
0,433
0. 75!
1 .020
0,491
1 ,336
0.394
0.517
0,640
0.433
0.538
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0.255
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1 .233
10.00
10.00
10.00
10,00
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0.0
0.0
0.0
0 .0
0.0
0 ,U
0.0
o.u
0.0
0 .0
u , 0
0.0
0.0
0,0
0 ,0
0,0
II , u
VSIW/SEC)
0,0
o.o
0.0
0.0
0.0
0.0
o.o
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
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
0.0
0.0
o.O
0.0
0,0
0,0
0.0
0.0
TS(CC)
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
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
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
S4(M«»2/SFC)
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
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0,0
o.O
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
0.0
o.o
o.o
0.0
-------
                                                     COM!  vLfcSlUN 7bl JO.
                                                                           HUN
to
u>
00
suuHCt INPUT
ID
0 b500
0 bSOO
0 b500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
0 6500
1 6500
1 6500
1 6500
1 6500
x CKMJ r (KM
460
4b2
4faO
4b2
465
465
440
450
460
465
460
465
450
455
460
4b5
450
455
4bO
4b5
,00
.50
.00
.50
,00
,00
.00
,00
.00
.00
.00
,00
.00
.00
,00
,00
.00
.00
.00
,00
4555, 00
4555,00
4557,50
4557. 50
4555.00
4557.50
45bO, 00
4560,00
4560, 00
4560,00
4565,00
4565,00
4570.00
4570.00
4570,00
4570.00
4575,00
4575.00
4575,00
4575,00
IX(M) SU2(S/S£C) TS^(U/StCJ
2500
2500
2500
2500
2500
2500
10000
10000
5000
5000
5000
5000
5000
5000
5(JOO
5000
5000
5000
5000
5000
.00
.00
.00
,00
.00
.00
,00
.00
.00
.00
,00
,00
,00
.00
,00
.00
.00
,00
,00
.00
0.635
1 .086
0 i 3B2
0.500
0.447
0 , 295
1.463
1 ,692
0, 780
1 ,545
0.885
0. 1«2
0. 7e8
1,142
0.763
0, 7e3
1 . 22B
0.917
0.697
0.697
0,484
1 .083
0.394
0,432
0,953
0.408
2,b03
3,204
0.9B1
3.263
0.935
0,273
1 ,369
1, 100
0,923
0,923
1 ,092
1 .822
0.95«
0,924
MS (I*)
10.00
10,00
10,00
10,00
10.00
10.00
10,00
10,00
10,00
10,00
10,00
10,00
10.00
10,00
10.00
10,00
10.00
10,00
10,00
10,00
U(M )
0,0
0,0
o.o
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
VS(MXStC)
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
0.0
0,0
TSCOC)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0,0
0.0
0.0
0,0
0,0
0.0
0.0
0.0
SA(M»*2/SEC)
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
0.0
0.0
                   173 ARtA SOUKCLCS).
                                              284  PuIi>lT  SUURCtCSJ.
-------
               APPENDIX E




EMISSION SOURCES FOR THE CLEVELAND AQMA
                 239
-------
                                                     CD»I  VthSlUN  76130.   HUN
            SGUHCt INPUT
•P-
O
10
P 5144
P 5001
P 5001
P 5147
P 5147
P 5147
P 5002
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P S003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5150
P 5152
P 5152
P 5152
P 5153
P 5153
P 5006
P 5006
P 5006
P 500o
P 5006
P 5006
P 5009
P 5009
P 5009
P 5009
P 5009
P 5014
P 5014
P 5156
P 501o
P 5016
P 5016
P SOle
P 5016
X(KM)
446.30
443.90
443,90
436.10
438. 10
438. 10
442,30
443.60
443.60
443.60
443.60
443.60
443.60
443.60
443.60
443.60
443,60
443,60
443.00
442.60
443,00
442.40
442,40
442.90
442.80
443,40
442.00
446.50
446.50
446,50
443,70
443.70
445,20
445.20
445.20
445.20
445.20
445.20
444.50
444,50
444. 5U
444,50
444.50
443.30
443,30
441,40
442,40
442.40
442.40
442.40
442.40
Y (KM)
4590,30
4586,80
4566,80
4590.20
4590.20
4590.20
4588.70
4591 .50
4591.50
4591,50
4591,50
4591 ,50
4591,50
4591 .50
4591,50
4591.50
4591.50
4591.50
4590,60
4590.20
4590.80
4590.00
4590,00
4590,80
4590.20
4591 .30
4591,10
4595.30
4595,30
4595.30
4587.50
4587.50
4597.60
4597,60
4597,60
4597,60
4597,60
4597.60
4591 ,40
4591 ,40
4591,40
4591 ,40
4591 .40
4592.20
4592.20
4593.50
4593.70
4593,70
4593.70
4593. 70
4593. 70
TXCM)
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
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.o
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
0.0
0.0
0.0
0.0
0.0
SU2(&/StU
0,0
0.0
0.0
0.0
0.0
0.0
0.0
4.031
4.031
4.031
4,031
4,031
4,031
8.666
8,695
10.595
9.962
18,628
0,0
0.0
0,0
3,858
3,426
0,0
0,0
0,0
0,0
1.756
1,756
1.756
0.0
0.0
1 14.247
60,175
60.175
60.924
60.175
60.924
2.908
54.503
0,0
0,0
0.0
2,562
2,562
0.0
12.006
12,006
12,00c
12,006
12,006
TSP(C,/SEU
0.058
0,576
0,576
0,086
0,259
0.086
0,979
0.662
0,662
0.662
0,662
0,662
0.662
1.526
1 .411
1.728
1.641
3.052
34.666
30,059
0,576
2,303
1,728
142.3/6
10,460
12,582
0,230
0.0
0,0
0,0
0, 144
0, 144
28,167
4,549
4.520
5.758
33.917
46, 06/
1 .008
0.0
2.505
0,662
0.173
1 ,008
0.230
1 . 152
1, 756
1 . 756
1.756
1.756
1. '56
MS(W)
7,90
9,10
7,90
8.50
12.80
7.90
0.0
45.70
45. 70
45.70
45.70
45.70
45.70
45,70
45,70
25.90
25.90
38.10
19,80
50.00
42,70
61,00
76,20
45,70
0.0
0.0
9.40
48.80
48,80
48.80
15.20
15.20
49, 70
52. 7U
52. 70
52, 70
52.70
52. 70
15.20
61 ,00
9.10
24,40
13.70
30,50
30.50
33.50
95. 70
95. 70
95, 70
95. 70
95. 70
DIM)
0. 70
0,90
0.90
0,90
0.0
1 .00
0.0
2.10
2.10
2.10
2,10
2,10
2.10
2,10
2.10
2.10
2.10
3.00
0.80
3,70
2,60
3.00
3.40
3.00
0,0
0.0
4.40
2.30
2,30
2,30
1 ,30
1,30
2,60
2,60
2,60
2,60
2.60
2.60
1 .20
1.40
0.30
1,20
0,90
0,90
0,90
1,70
3.70
3. 70
3,70
3.7U
3,70
VSC^/StC)
5,60
4312,00
4312,00
10,30
0.0
4.60
0.0
1.90
1.90
1.90
1.90
1.90
1.90
4,00
4,10
5.00
5.00
4.30
51.70
1.90
12,50
10,30
6,80
18,10
0,0
0,0
0,70
27.60
27.60
27.60
7.20
7,2u
17.50
10.90
10,90
10,90
10.90
10.90
10,50
11.50
19.20
6,70
1.00
26.40
26,40
1 .60
9.30
9,30
9.30
9,30
9,30
TSCOC)
54,40
1204.40
1204.40
93.30
21,10
21.10
-17,80
204,40
204.40
204,40
204,40
204.40
204,40
204,40
204.40
204.40
204,40
260,00
54.40
260.00
76,70
315,60
315,60
126,70
-17,80
-17.80
704,40
315,60
315.60
315,60
65.60
65,60
160,00
176,70
176.70
176,70
176.70
176. 70
171,10
eo.oo
21,10
343,30
148.90
65.60
65.60
10,00
30U.40
304, 40
304,40
304,40
304 ,40
SA(M**2/StU
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
0.0
0.0
0.0
0.0
0,0
0,0
0,0
0,0
0,0
9.0
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
o.u
0.0
0.0
0.0
0.0
0,0
0.0
o.o
0.0
-------
                                                                                  IVZ
                                                                                                                                                         o

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-------
VtfcSlUN 76JJO,  RUN
SOUKCt INPUT
10
P 5140
P 5140
P 5140
P 5001
P 5002
P 5002
P 5001
P 5001
P 5001
P 5019
P 5019
P 5002
P 5002
P 5003
P 5003
P 5004
P 5004
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5006
P 5006
P 5006
P 5006
P 5006
P 5017
P 500?
P 5007
P 5007
P 5009
P 5012
P 5012
P 5012
P 5012
X (KM)
456,00
458.00
458.00
496.60
482.50
482.50
477,20
477,20
477.20
480.10
480.40
482.90
482.90
476,80
476,60
463.00
463.00
478.30
478.30
478.30
4/8,30
478.30
4/8,30
478.30
478.30
478.30
478,30
4/8,30
478.30
478.30
47ft, JO
4/6,30
478.30
478.30
478.30
478.80
478,90
476,40
476.40
4/6.40
476,40
4/6.40
467.40
479.00
479,00
4/9,00
480,60
uo3,UO
4e3. Ou
463.00
463.00
Y (KM)
4588,90
4588,90
4568.90
4613,80
4603.70
4603.70
4616,30
4618.30
4618.30
4623,60
4623.60
4624.50
4624,50
4622.30
4622.30
4612.30
4612.80
4622,80
4622.80
4622.80
4622.80
4622,80
4622.80
4622.80
4622,80
4622,80
4622.60
4622.80
4622,80
4622.80
4622.60
4622.80
4622.80
4622.80
4622,80
4622,60
4622.90
4621.90
4621.90
4621.90
4621,90
4621 .90
4621 ,80
4619.20
4619.20
4619,20
4621 ,50
4 6 1 3 . 2 0
J613.2U
461 3.20
461 3.20
1 X (M)
o.o
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
o.o
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
u.u
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
0,0
S02(G/StC)
2,822
2,303
2.822
0,0
6,910
2.850
0,0
0.0
1.958
30,779
30,779
6,436
2/.S99
0,0
0.0
0.0
0.0
204.538
224.261
233,618
242. 94/
67,834
6/.S34
67,834
2.131
2.131
5.960
5.960
0.0
0.0
0,0
0,0
0.0
0,0
U.O
0.0
2.850
17.592
1 7,592
0,0
0,0
u , 0
0.0
6.593
13.561
123.892
0,05b
51 7,392
51 7.392
517.392
8/9. /6B
TSP(li/StC)
4,232
3,455
4.2)2
0.259
1.296
0.518
0.374
0.3/4
0.0
37.084
3/.084
2.649
5,067
0,144
0,173
0,115
0.115
7.667
8,378
13,100
18,168
22,467
22.487
22.467
0.144
0.144
0,576
0.576
0,893
4,895
l.OOb
1 ,468
4. /79
5,566
8,033
0,202
5.902
2.246
2,246
0.202
0,056
0.202
0.058
1 .699
0.489
4,117
4.952
22.3/1
22.371
22.3/1
53,294
MS(V)
30.90
36,90
36.90
4.60
50,30
50,30
13,10
13.10
»,50
52, 70
52.70
54,30
54.30
12,80
11,00
20.10
20.10
53,60
53,60
49,10
53,90
68.60
66.60
66.60
15.50
18,30
15,80
15.80
4/.20
22.90
16.20
13,40
15,20
18.30
24. 70
18.30
ol .00
50.30
50.30
6.10
16.30
26.80
8,80
/6.20
76,20
/a. 20
12,20
91,40
91.40
91.40
91,40
0(P)
2,40
2.4U
2.40
0,90
1 ,40
1 .40
0,10
0,10
0,60
2.40
2.40
3.40
3,40
0.50
0.50
1.00
1.20
4,30
4.30
2,40
4,60
3,60
3,80
1.60
1.50
2.00
1.20
1.20
1.30
0,60
O.bO
0,90
0,90
0,40
1,60
5.10
2.40
3.20
3.20
0.40
0.20
0.60
1,50
3,00
3.00
3.00
2.70
4,90
4 ,90
4.9U
5.50
vS(»/StCJ
1.90
1.90
1 .90
7.20
19,20
19.20
0.0
0.0
15,00
12.60
12.60
10,10
10.10
36,00
21.00
15.20
15.50
9,70
9,70
16,70
5.90
3,50
3.50
5.50
22.50
0.0
29.30
29.30
12,80
29.30
15,50
17,00
21.90
11.10
7,40
1,10
1.30
17.60
17.60
13.90
6.10
12,50
13.50
15.10
15.10
15.10
3.00
9.6U
9.bO
9. tU
11.60
TS(OC)
315,60
315,60
315,60
132,20
260,00
260,00
648.90
648.90
815.60
204,40
204,40
287.60
287,60
15.60
48.90
121,10
93,30
185,00
185,00
176.70
176.70
315.60
315,60
315.60
315.60
315.60
343,30
343.30
31,10
46,10
11,10
76, 70
76,10
30,60
64,40
93.30
121.10
2tO.OO
260,00
10.00
10,00
10.00
121,10
167, 80.
187,80
167.80
82.20
127, dC
12/.80
127,80
1 12.80
SA (y*«
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
o.o
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
w.o
0.0
0,0
0.0
0.0
0.0
0.0
0.0
u.o
0.0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0,0
-------
                                                                     IU»»1  VtKSluN  76130,    HUN
to
•P-
OJ
SOURCE IfiPUT
10
P 5222
P 5222
P 5222
P 5098
P 5098
P 509B
P 5098
P 5098
P 5096
P 5098
P 5098
P 5098
P 5098
P 5096
P 5098
P 5098
P 5098
P 5098
P 5098
P 5098
P 5098
P 5098
P 5098
P 5098
P 5098
P 5096
P 5098
P 5099
P 5099
P 5099
P 5099
P 5099
P 5099
P 5099
P 5099
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
P 5100
XIC.M) Y(KK) IXt*) S02(G/StC)
446,60
446,60
446,80
430.70
430.70
430. 7U
430.70
430.70
430.80
430.80
430.60
430,80
430,80
430.80
430.80
430,60
430.80
430,80
430,60
430.60
430.80
430.80
430.60
430,60
430,60
430.80
430.80
431.30
431.30
431.30
431.30
451.30
431.30
431.30
431.30
431,40
431,40
431.40
431 .40
431.40
431.40
431,40
431.40
431.40
431 .40
431 ,40
431.40
431 ,40
431.40
431.40
431.40
4571 .00
4571 .00
4571 ,00
4583,80
4583,80
4583.80
4583.80
4583.80
4584.20
4584,20
4584.20
4584.20
4584,20
4584,20
4564,20
4584,20
4584,20
4584.20
4584.20
4584.20
4584.20
4584.20
4584,20
4584,20
4584,20
4564.20
4584,20
4585.20
4585,20
4585,20
4585,20
4585,20
4585,20
4585.20
4585,20
4584,50
4584,50
4584,50
4584,50
4584,50
4584. 5U
4584. 5U
4564.50
4584,50
4584.80
4584. 70
4584.50
4584. 6u
4584.50
4584, 4U
4584,30
0.0
0,0
0.0
0.0
0,0
0,0
0,0
0.0
0.0
0.0
o.o
0.0
0.0
0.0
0.0
o.o
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
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
5.384
5.384
2.303
33.341
55.569
55.569
55,569
55,569
0.0
0.0
u.O
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
0.0
0,0
0,0
0.0
0.0
0.0
0.0
0,0
0,0
0.0
0,0
o.o
0,0
0.0
0 ,U
5.355
4.806
8,062
7.515
4.808
1 .428
6 , 766
TSP(S/StC)
1 .362
1.382
0,576
37,746
62,939
62,939
62.939
9,444
0,893
0,893
0.893
0.693
0,893
0,893
0,374
0.432
0.432
0.432
0.432
0.432
0.432
0.432
0. 144
0. 144
0,115
0.066
0.066
0.921
0,633
0.633
0, 777
0.921
0.921
0,921
0.202
0.489
0.403
0. 144
0.288
0.058
0.058
0. 144
0.144
0. 144
1.123
1 .OOb
1.699
1 .564
1 .006
0.317
0,268
HSt^J
53.80
43.80
33,80
41,80
41.80
41,80
41,80
41,80
10,10
10,10
10.10
10,10
10,10
10,10
10.10
10,10
10.10
10.10
10,10
10.10
10,10
10,10
10.10
10,10
10,10
1 0 1 10
10.10
9.10
10.10
lu.io
10,10
10.10
10,10
10,10
10.10
14,90
14,90
14.90
14.90
14.60
14.60
14,fcO
14.60
20.10
49.60
39.60
39.60
49.60
49.60
49.60
39,oO
0(K)
2.30
2.30
2.30
4,60
4,60
4.60
4,60
4,60
1.10
1 ,00
1.10
1.10
0,90
1.00
0,60
0,80
0,90
0,70
0,90
0.90
0.80
0,80
0,90
0,90
1.10
0.70
0.50
0.90
.00
.10
.10
.10
.10
.10
0.90
1.20
1.20
1.20
1.20
1.30
1.30
1.30
1.30
1.20
1.70
1.70
1. 10
1.70
1.70
3.40
3,40
xstu
0,20
0.20
0.20
6.10
6.10
6.10
6.10
6.10
14.20
14.80
14.20
14.20
15,40
14,80
13.30
13.30
13.50
13.40
13.50
13.50
13,30
13.30
13.50
13.50
14,20
14.70
16,00
26,80
15.80
14.20
14.20
14.20
14.20
14.20
20.20
53.10
70,70
53,10
97,50
48, 10
48. 10
48,10
48,10
43,90
16,60
17,10
lb.40
16.60
15,40
6,30
19.20
TSCUC)
l?b. 70
176.70
1?6. 70
2S3.30
293.30
293,30
293.30
293.30
21.10
21,10
21,10
21,10
21.10
21.10
21.10
21,10
21,10
21.10
21.10
21.10
21,10
21.10
21.10
21,10
21,10
21,10
21.10
21,10
21,10
21,10
21,10
21,10
21,10
21,10
21,10
21,10
21,10
21,10
21.10
el. 10
21,10
21.10
21.10
21,10
73.90
73,90
73,90
73.90
73.90
71,10
160,00
SA(K«*2/StC)
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
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
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
-------
                                                                                                                                                        o
                                                                                                  iu^u'u^                                             c.
    ^>.*'
OOOOOOOOOO1 0-O-O-l/1t/'-C'u"u^traiu'ijitj'^\/iuiu"irt/i\/iiji^ui4J'ui
      ctcr>cca;cxa)O;CECECtO)CcaccT ccajoacDODCDctttJO'ocODCBaicEosoacPttOscxiacosoPCtcrociac acajODoioctxa'OE'
OC^C'CJO^CiC'C'OC'OC'OCJOOOC'OOCJCOOOiOOOO O- d>«

ococ occooc^ococDOCt-ooooooooocoocoooooccooc oooc:ooooc3crc;3:    f*
                                                                                                                                                     —    c;
                                                                                                                                                            I
                                                                                                                                                           »—

                                                                                                                                                     OOC-fctC:OOOC>'^'O«DC>OOOC>OC>C>OC'C>OCDOOOC)OOrr'
                                       c  t                                                                                                          o    —
                                       at  (x                                                                                                          •*-    o
*— O*-OC'OOO>-*OO^^-r:«—  ^-OOL»JOOCOOOCOOOC'— OCOOOOOOOOOOO*— «-»OO*-^-OO'-*     X
..„...*.„.....„..  .........................*...  .....ivv»«c*-* v*« o o o o *" o •-•  off-rvj rv ^ ivifctfvO'0*'O"^4O3 iv •-••^4i/ii/iO3orv*—v.     ?
ofvr\,^oco5^f\ji^tviLro3-c^c^ofvjf\;»jifc»-fcr\jfV(\;rui^-(ur»—  i/ic\Hv^w^o=(j>ooo-^-^iv^ooDfwu^^-'^J-«J'^J^'C:— •— «-*fvo>— *-o^5O- o-^oooo-ooooooooo^-ooot— *-ooo»~»— os*~i
 OO  OOO OOCDOCD OdOOOOiOOO O^OOOCJOiOOOCDOOOOOOOOOOOOOCSOOOOO'OO— •
 oooooooooooooooo'Oooooooooocooooooc'OOOOoooocaoooooejooT
-------
« QOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOO
*•»••»»»»••••»••*••••*•*"•»•""••"«»•
a.oOOOOOOOOOOOO>OOOOOOOOOOOOC*OOOOOOOOO
                                                                                                               OOOOOOOOOOC3OO

^tOOOOOOOOOOOOOOOOOOOOOOOCiOOOOOOOOOOOO'OOO
                                                                                                                           OOOOOOOOOOO
-~*OOOOOOOOOOO.r>OO OOOOOiOOOOOOOOOOOOOOOOO  ^OOOO OOOOO



O r\J ^J *\J AJ fV <^J fy "* »- -HI O -^ •-* •-* «-**-«'^"-^OOO o-f*1r^lrO'*lf\lrVI--«~^O''li-H>^lOOOOOO^H£>O'\J«''— O
— 'OOOOOOOOOOOOOOOO OOOOOO'OOOOOOOOOOOOOOCJOOOOOO
3t'Mruo<^or^s-i/^;*'*ii=iuP^tno»'t*too ^ J^F ^«jfOL/>tjnino"--(7i — » 'u nj ry "xi f*i o 0^5

-/i O o-- — — iniT'O'^-^r'Mooi^-'xi'MfMnj'Xjao-* — r\jr\jr\iryc>oi/iin55LA^J>cr'\jf\>'\j'\('fc---«^-oc
                                                                          ''
                                                                                                                                              O  OOOO
                                                                                                            —•o-*co-"'\jai*ri--*-o-c
X.OO-OT
XOOOOOOOOOOOOOOOOOOOOOOO-OOOOOOOOOOOOOOC3OOOOOOOOOOOOO
   OOOOOOOOOOOOOOOO
   OOOOOOOOOOOOOOOOOQOOOOO
s:  ».



                                                                  245
-------
vfcKblfjN  76130,   RUN
SUUHCt INPUT
10
P 5067
P 5193
P 5193
P 5193
P 5193
P 5194
P 5068
P 5068
P 5068
P 5071
P 5071
P 5071
P 5071
P 5071
P 5071
P 5197
P 5200
P 5201
P 5202
P 5204
P 5205
P S205
P 5205
P 5205
P 5206
P 5207
P 5074
P 5074
P 5079
P 5079
P 5079
P 50/9
P 5079
P 5079
P 5211
P 5211
P 5212
P 5212
P 5213
P 5271
P 5085
P 5085
P 5085
P 5260
P 5260
P 5067
P 5087
P 5087
P S08/
P 5089
P 5091
K (K.M)
436.10
450.60
450.60
450,60
450.60
438.50
450.80
450,80
450.60
440.20
440.20
440.20
440,20
440.20
440.20
444.80
442.30
443,20
443.20
446,20
443,20
443.20
443. 20
443.20
444.40
446.40
443,50
443.50
449.20
449,20
449.20
449.20
449.20
449,20
440,20
440,20
442,80
442,80
443.60
443,80
452,30
452,30
452,30
446.20
446.20
453.60
453.60
453,60
453,60
455,10
458,40
Y (KM)
4591 ,60
4598.70
4598,70
4598.70
4598.70
4589.70
4600.00
4600.00
4600,00
4593.30
4593.30
4593.30
4593.30
4593.30
4593,30
4590,40
4589, 70
4592,40
4592,40
4592,70
4592,40
4592,40
4592.40
4592.40
4590.40
4593.50
4594.00
4594,00
4595,00
4595,00
4595,01)
4595,00
4595.00
4595,00
4593,80
4593,80
<4590.90
4590,90
4591 ,00
4591.50
4600,10
46UO, 1 0
4600, 10
4594,00
4594,60
4579.30
4579.30
4579.30
4579.30
4580. 10
4534 , MU
IX I*) SU2CG/SEC)
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
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
u.o
o.o
0.0
0.0
0.0
0,0
0.0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
u.w
0.0
0.0
0,0
0,0
0.0
o.o
0.0
9,501
23.667
9,501
9.904
9,904
9,904
9,904
9,904
9,904
0,0
0.0
0,0
0.0
0.0
0,0
0,0
0.0
0,0
0,0
0.0
7,716
7.716
15.029
15.029
15,029
15,029
15,029
15,029
0,0
0,0
0.0
0.0
0,0
0.0
2,591
2,591
2,59]
1.152
1,152
0.0
0,0
0.0
0.0
0.0
0,0
TSP(6/SfcC)
1,987
0,893
0,979
1.123
0.749
0.058
0.058
0.547
0.518
14.742
14.742
14.742
14.742
14.742
14,742
1,785
0.432
0.202
0,173
0.029
0,115
0,115
0.115
0.115
0.086
1,564
3.541
3,541
7,371
7,371
7.371
7,371
7.371
7.371
8,839
0.893
6.392
4.549
0.144
0.086
1.411
1.411
1.411
0.346
0.346
0.202
0.029
0.029
0.576
0,115
0.230
HSCl*)
42.70
0.0
0.0
0.0
91,40
16.20
4?. 20
47.20
47,20
69.50
69,50
69,50
69.50
69,50
09,50
0.0
0.0
13,70
10.70
0,60
13,40
13.40
13,40
13,40
21.30
7,30
24,40
24,40
5S.50
58,50
59,10
59,10
59,10
59,10
13.70
13,70
19,80
19.80
12.20
/.60
53,30
53.30
53,30
52,40
52.40
/.90
4.30
4,60
8,50
15.20
12.20
D(M)
0,0
0.0
0.0
o.o
0.0
0,60
3, SO
3. JO
3,30
2.70
2.70
2.70
2.70
2.70
2.70
0.0
0,0
0,60
O.JO
0,50
0,40
0,40
0,40
0,40
0,70
0,70
2.30
2.30
4.10
4.10
3.30
3.30
3,30
3.30
0,80
1,40
1.20
1.20
0,90
0,70
3.00
i.OO
3.00
1.20
1.20
0,30
0.90
0,0
0,50
0.10
1,20
VS(MXSEC)
0.0
0.0
0.0
0.0
0.0
18.80
1,30
1,30
1.30
4.10
4.10
4.10
4.10
4.10
4.10
0.0
0.0
5,70
32.30
18.90
"£,90
42.90
42.90
42.90
19.70
11 .80
1,50
1.50
0.20
0.20
1,40
1 ,40
1,40
1.40
12.40
12.90
14.60
li.30
19.60
30.60
0.20
0,20
0,20
1,20
1.20
31.10
20.2U
0,0
25.40
35.90
23,30
TS(OC)
537.80
-17.80
-17.80
-17,80
-17,80
76,70
260.00
260.00
260,00
248,90
248,90
248,96
248.90
248,90
248,90
15.60
15.60
148.90
176.70
10,00
426.70
426,70
426,70
426.70
52.20
10,00
204.40
204.40
341.70
341.70
371,10
3/1.10
371.10
371.10
93,30
37.80
72.20
66,70
121,10
3/.80
260,00
26U.OO
260.00
315.60
315.60
10.00
23.90
21.10
10.00
10.00
/6./0
SA ("**
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
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
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
-------
                                                         VEKS10N 76130»   HUN
N)
•P-
SUUriCt 1MPUT
10
r> sm
P 5174
P 5171
P 5174
P 5174
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5044
P 5176
P 5176
P 5177
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 51)50
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
X(KM)
446.20
427,60
427,80
427, 6U
427.80
44}, BO
445,30
443.30
443.30
443,30
443.30
443.30
443.30
443.30
443.80
4i43,30
443,30
441,50
441,50
436.30
443.70
443,70
443, 7u
443,70
443.70
443.70
443.70
443,70
444,70
444,20
444.20
443.70
443,70
444,40
444 . 7u
444, 40
444,40
uuu.au
444,40
444,50
444,50
444, 50
444,50
444,50
444,50
444,50
444,50
444,50
444,50
444,50
444,60
T (KM)
4594
4584
4584
4584
4584
4587
4587
4567
4587
4587
4587
4587
4587
4567
4587
4587
4587
4594
4594
4591
4590
4590
4590
4590
4590
4590
4590
4590
4591
4590
4590
4590
4590
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
4591
.20
,70
.70
.70
.70
.30
.30
.30
.30
.30
.30
,3u
.30
.30
.30
.30
.30
.00
,00
.60
.90
.90
.90
.90
.90
.90
.90
.90
.80
.40
.40
.90
.90
.20
.80
.20
.30
.20
.20
.30
.30
.30
.30
.30
.40
.40
.40
.40
,«0
.40
.40
1XIMJ
0.0
0,0
o.u
0,0
0,0
0,0
0.0
0.0
0.0
0,0
0.0
0,0
0,0
o.u
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
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
0,0
S02CG/SEC)
0.720
9.617
9,61 /
1.037
5.039
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
7,659
7.659
7,659
75.118
10.077
87.067
2.620
2,620
0,259
32.218
32,218
2,620
2,620
0.0
0.0
0.0
0.0
19. 780
12,928
12,697
12.697
12.69?
12.697
12.697
4.117
4.117
5. 125
5.125
5. 125
5.125
5.125
isPCG/seo
0.317
7,457
7.457
0.0
0.0
1.382
1 .871
0.374
0,374
0.230
0.230
0,374
0,374
0.547
0.058
0.461
0,029
0,029
0.029
0.835
0,058
0,058
0.058
6,852
6,046
1 ,46B
0,749
0.605
112,116
16,815
16.815
0,864
0,864
0.029
8,091
0.288
0,029
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
HS(f )
18.30
16. eo
16.80
16.80
18.30
23,80
13.40
13,40
10,70
14,00
14.00
14,60
12.20
16.20
',00
6.10
9.10
7.90
7,90
45.70
50.60
44,20
4«,20
66,60
37,50
68.60
41.10
37.80
38,10
76,20
76.20
5i,60
5?. 60
23.20
35,40
25, 9U
23.20
45. 70
45. 70
53.30
53,30
53,30
53,30
53,30
38.10
38, 10
45, 70
45. 70
45. 70
45, 70
45, 70
0(M)
1.20
1.40
1,«0
1,40
1 ,10
0.90
0,60
0,80
0.60
0,80
0.60
0,80
0,80
0.70
0,20
1.70
1.20
0.70
0.70
1,10
3.10
3.10
3.10
3.30
3,«0
2,70
2,90
2,60
1.80
3,00
3.00
3.40
3.40
1.50
1,50
2,00
0,50
2.10
2.10
1.90
1 .90
1,90
1.90
1.90
1.50
1.50
1,50
1 ,50
1.50
1,50
1,50
VSl^/StC)
2,80
6. 80
8,80
11.00
29.20
0.0
35.80
4.30
7.30
9.30
9.30
4.70
4,70
7,30
21,00
2.20
8.00
2.40
1.80
8,40
11.20
11.20
11,20
9,50
9,30
12,30
8,80
8,70
27.00
5,90
5.90
8,00
6.00
15.50
21.10
10.40
129.40
5.80
4.30
5,70
5.70
5.70
5,70
5.70
4.40
4.UQ
5,00
5,0u
5.00
5.00
5.00
TS10CJ
193,30
232,20
232.20
235.00
221,10
-17.80
260,00
232,20
232.20
60,00
60.00
21.10
21,10
232.20
26,70
676,70
462,20
15,60
15.60
10,00
232.20
232,20
232,20
167,80
287.80
646,90
315,60
315,60
204,40
962,20
9B«e,2U
315.60
398.90
30, OC
21.10
36,70
30,00
648,90
760,00
871,10
871,10
871,10
871.10
871,10
871.10
871,10
871,10
871.10
871.10
871,10
8 71 . 10
SA(N>**2/StC)
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
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
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
o.o
-------
                                                        VtHSION  76130,
                                                                         RUM
00
SOURCE IiiPuI
10
P 5050
P 5050
P 505U
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5050
P 5051
P 5051
P 5051
P 5051
P 5051
P 50S1
P 5051
P 5051
P 5051
P 505"
P 5 J8<4
P 5184
P 5184
P 5184
P 5185
P SIBfa
P 5166
P 5186
P 518?
P 5187
P 5058
P 5190
P 5060
P 5060
P 50feO
X IK
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
444
443
444
444
444
444
443
443
443
443
443
443
443
443
443
419
442
442
442
442
446
435
433
433
454
454
444
434
443
443
443
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.60
,60
.70
.70
.70
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.70
,70
.70
.70
.70
.60
.60
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.60
.60
.40
,60
.60
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,iiO
, 70
.30
.50
.40
.20
.50
.50
.50
.50
.50
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.60
.70
.50
.-70
.10
.10
, 10
, 10
.20
.90
.90
.90
,20
.20
.20
.00
.90
.90
.90
t ( K W0
4591 ,40
4591 ,40
459J.60
4591 .80
4591 ,80
4591,60
4591,80
459] ,OU
4591.00
4591.00
4591 .00
4591,40
4591,40
4591,40
4591,40
u591 ,40
4591,20
4591,50
4591,50
4591 ,50
4591.20
4590,90
4591 .70
4591.10
4591.70
4591.10
4592. 8C
4592,80
4592.80
4592.80
4592. 80
4592, 6C
4592.70
4592,80
4592. 8C
u s y i & Q
459 i 1 40
4593, 10
4593,40
4593,40
4596,00
4589,50
4589, it'
4589,50
4589,90
4589,90
4S93.00
4589,90
4592.30
4592.30
4592,30
I X iW)
0.0
O.U
0,0
0,0
0,0
O.U
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
0.0
0,0
0,0
0,0
0.0
0,0
0,0
O.U
0,0
0.0
0.0
0 , 0
o.c
0,0
0.0
U.O
0,0
O.V)
0.0
0.0
0,0
0.0
0.0
0,0
0.0
0.0
0.0
S02((./b£U
5,125
4,981
4,549
4.549
4,549
4,549
0.0
28,677
26,949
26,949
26.949
7,256
7.256
7.256
7.256
7,256
0,0
2.678
2.676
2.676
0,0
2,620
0,0
0,0
0.0
0.0
2,879
2 , 8 7 s
2 ,B 7<*
2,87<-
2 08'9
£,?!*!
2,6.;r
2,620
O.C
v , U
o.o
0.0
0.0
U i 0
0,093
0,0
O.u
0,0
0.0
O.U
O.U
0,0
2,82c
2,e2c!
2.822
ISPCli/SfcC)
0.0
0.0
2,793
2. 793
2,793
2,793
42.324
14.972
14.079
14.079
14,079
0.0
0.0
0.0
0.0
0.0
0,115
0,0
0,0
0.0
0,374
0.691
3,138
13,619
1.130
2.10?
0 ,80c
o.eoo
0 , 60fe
0,606
o.eot
0.6Gb
0,403
1 .094
b 0
1 •> I . ' 0
121,10
121,10
18 s 30
16.30
121.10
15.0'J
154,40
154,40
154S40
SA(W»*2/SEC)
0,0
0,0
0.0
0.0
o.o
0,0
0.0
0.0
0.0
0.0
0,0
0.0
o.o
0.0
0.0
0.0
8.0
0.0
0.0
0.0
0.0
0.0
0.0
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0.0
0.0
0,0
0.0
0,0
0.0
0,0
0,0
0,0
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0,0
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0,0
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3 , f
0,0
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0,0
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-------
761.40,    HUN
SQuRCfc INPUT
10
H 5120
P 5120
P 5120
V 5120
P 5120
P 5120
P 5211
P 5242
P 5122
P 5122
P 5122
P 5123
P 5123
P 5123
P 5123
P 5123
P 5245
P 5246
P 5130
P 51iO
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5249
P 5131
P 5250
P 5251
P 5251
P 5251
P 5251
P 5251
P 5132
P 5132
P 5132
P 5132
P 5135
P 5135
P 5254
P 5273
P 5138
P 5136
P 5138
P 5140
*(***) rlKMj IX(Mj SU2(G/S£C)
446,90
446.90
446,90
446,90
446.90
446,90
447,00
450,90
447.80
447.80
447.60
435.00
435,00
435.00
435,00
435.00
451.90
427.90
444,70
443.60
451,90
451.90
451 .90
451.90
451.90
451.90
451,90
451,90
451,90
451.90
451.90
451.90
436.50
456.20
456,60
456.80
456.60
456.80
456,80
435,40
435.40
435.40
435.4o
43«.60
434.60
461.90
455.60
456. 10
4b6, 10
456. 10
458.00
4585.30
"585.30
4585.30
4585.30
4585.30
4585,30
4585,50
4585.60
4580.90
4580,90
4580,90
4591 ,10
4591, 10
4591.10
4591 , 10
4591.10
4564.50
4580,30
4588.30
4588.30
4585.20
4585.20
4585,20
4565,20
4585.20
4585.20
4585.20
4585,20
4585,20
4585.20
4565.20
4565,20
4573,20
4560.10
4579,40
4579,40
4579,40
4579.40
4579.40
4585.00
4585.00
4585.00
4565.00
4585.50
4585,50
4581 .60
4599.00
45* 7 .90
4577.90
4577.90
4586,90
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
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
0.0
0.0
0.0
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0.0
0,0
0.0
0.0
0,0
0.0
0.0
0.0
0,0
0.0
0,0
18
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
3
109
0
0
0
0
0
0
0
0
0
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0
0
0
0
0
0
0
0
0
3
3
2
2
0
0
0
0
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2
,456
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.0
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. 735
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.319
.319
.319
.303
TSP(G/S£C)
1 ,466
0.259
0.259
0,259
0.259
0.317
2.447
1.037
2,994
1.296
2.706
0,461
0.461
0.230
0,230
0.288
0.086
0,921
3,138
5,787
1.555
2.591
2.591
0,029
2.591
2,591
0.029
0.893
2.591
1 .440
1.497
0.317
0,202
0,202
0,058
0,056
0,058
0.259
0,086
5.039
5.039
2.59J
2,591
7,860
7.660
0,34b
0.115
0,5 7b
0,57b
0.576
3.455
MSI")
21.30
19.80
19.80
19.80
19.80
13,70
14,00
8,50
0.0
18.30
22,90
30.50
30.50
30,50
30,50
30.50
0.0
0.0
45.70
45,70
9,80
9,80
9,80
9.80
9.80
9.60
9.80
9,80
9.80
9.80
11,00
4,60
6.10
10.70
10,10
10,10
10.10
10,10
10,10
27.40
27.40
27,40
27,40
32.90
32,90
0,10
6.10
23,80
23.60
23.80
30.90
0(M)
0,50
0,90
0,90
0.90
0.90
0,40
1.20
4.10
0.0
0.90
2.70
2.40
2.40
2,40
2,40
2,40
0,0
0.0
1,50
1,70
0.60
0,60
0 ,60
0,60
0.60
0.60
0,60
0,60
0,60
0.60
1 .80
0.90
1.50
1,20
1 .20
1 .20
1.20
1.20
0,80
2.20
2,20
2,20
2,20
2,60
2,60
0 .50
0.0
1 .40
1,40
1 ,40
2,40
VSCK/StC)
5.10
5.70
5.70
5.70
5.70
9.10
1,40
2.10
0.0
67,50
7.00
8,40
6,40
8,40
6.40
8,40
0.0
0,0
2,80
11,00
19.40
19,40
11.70
19,40
19.40
11.70
11.70
11,70
11.70
3,90
1,00
60.60
10.30
20.20
18.80
18,80
26,80
26.80
6.10
6.00
6.00
6,00
4. 70
0.0
0.0
23,00
0,0
7.00
7,00
7,00
1.90
IS(OC)
93,30
6V. 20
62.20
62.20
82.20
£1,10
982.20
121.10
-17.60
128,90
141.70
426,70
426.70
426,70
426,70
426,70
21.10
•1 7,80
343.30
21.10
676.70
676.70
67b.70
676,70
676,70
676,70
676.70
676. 70
676,70
676.70
815.60
10,00
65,60
148,90
371,10
371,10
626,70
626.70
48,90
176,70
1 76.70
176,70
315,60
537.80
537,80
65,60
10,00
196,10
196, 10
196, 10
315,60
SA(/»»*2/SEC)
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
0.0
0.0
0,0
0,0
0.0
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0.0
0.0
0,0
0.0
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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
0.0
0.0
0.0
0.0
-------
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437,50
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440,00
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440.00
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447,50
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450.00
452.50
450.00
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455.00
457,50
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420.00
425.00
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430.00
432.50
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2500.00
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               APPENDIX F




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P 5034
P 5034
P 5035
P 5035
P 5035
P 5036
P 5036
P 5036
P 5036
P 5036
X(*M)
322.60
321.20
330.60
329. 10
320,50
324,50
324,50
329, 70
329,70
329,70
33/.50
337.50
337.50
337.50
334.20
334.20
334.20
325.00
325.00
325.00
325.00
335.00
Y(KM)
4429.50
4430, 70
4441 .20
4426.20
4425.00
4425.00
4425.00
4425,00
4425,00
4425,00
4428.00
4420.00
4428.00
4426,00
4424,60
4424,60
4424,60
4425.00
4425.00
4425,00
4425,00
4444,60
rx(M)
0.0
0,0
0.0
0,0
0,0
0,0
u.o
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
SU2CG/SEU
0
0
0
3
12
12
12
6
6
6
5
4
7
1 1
4
4
4
6
6
4
4
0
.0
.0
.0
,945
.562
.582
,582
. 795
.795
,795
.211
.405
,947
.085
,060
,060
.060
, 190
.190
,11?
.117
.0
ISP(tXStC)
23.034
5.758
1 .756
1,236
7.947
7.947
7.947
2.186
2.188
2.188
0.115
0.115
0,202
0,286
0,633
0,633
0,633
3.916
3,916
2.591
2.591
5.960
HS(C)
0.0
0.0
21,30
30.50
61.00
61.00
61 ,00
47.20
4/.20
47.20
22.60
22.60
22,60
22,60
SS.10
38.10
38.10
68,60
68,60
66.60
18.30
12.20
D(M)
0.0
0.0
1 ,70
1 ,60
2.40
2,40
2.40
2,10
2,10
2.10
2,10
2.10
2.10
2.10
1 .50
1.50
1.50
2.40
2.40
2.40
1 ,50
2,40
vSfV./StL )
0.0
0.0
6.60
0.0
0,0
0,0
0.0
195,40
195,40
195.40
4,90
4,90
4.90
9.90
2.80
2.80
2.80
0,0
0.0
0.0
0.0
6.90
TS(OC)
-17
-17
65
176
287
287
287
260
260
260
182
182
182
182
260
260
260
260
260
260
260
<<3
,ao
.60
.60
,70
.80
,80
.80
.00
.00
,00
.20
.20
.20
,20
,00
,00
.00
,00
.00
,00
.00
.30
SA(M*»2/StC)
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
0.0
0,0
0.0
0.0
-------
CUM] VERSION 761JO,  RUM
souKCt INPUT
10
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
X(KM)
310.00
320.00
330.00
335,00
330,00
335.00
340.00
310.00
315.00
320.00
325.00
330.00
335.00
340.00
445.00
310,00
315,00
320,00
322.50
320.00
322.50
325". 00
327.50
325,00
327,50
330.00
332.50
430,00
332.50
335.00
347.50
435.00
337.50
340,00
342.50
340,00
342.50
345.00
310.00
315.00
320,00
322,50
320,00
322,50
325,00
327.50
325.00
427.50
330.00
332,50
330.00
Y(IW 1X(M) SU21G/SEU
4405,00
4405,00
4405.00
4405.00
4410.00
4410.00
4410.00
44J5.00
4415.00
4415.00
4415,00
4415,00
4415,00
4415.00
4415.00
4420.00
4420.00
4420.00
4420.00
4422.50
4422.50
4420,00
4420,00
4422.50
4422.50
4420,00
4420.00
4422,50
4422.50
4420,00
4420.00
4422.50
4422.50
4420.00
4420.00
4422.50
4422,50
4420.00
4425.00
4425.00
4425.00
44^5,00
4427.50
4427.50
4425.00
4425.00
4427.50
4427.50
4425.00
4425,00
4427.50
10000,
10000.
5000.
5000.
5000,
5000.
5000.
5000.
5000.
5000.
5000,
5000.
5000,
5000,
5000,
5000,
5000,
2500,
2500,
2500.
2500.
2500.
2500.
2500.
2500.
2500.
2500.
2500.
2500.
2500,
2500,
2500,
2500,
2500,
2500.
2500.
2500.
5UOO,
5000,
5000.
2500.
2500.
2500.
2500.
2500.
2500.
2500,
2500,
2500.
2500.
2500.
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
OU
00
00
00
00
00
00
00
00
00
2.162
2.120
0.917
0.610
0.839
0.746
0,739
0,681
1,457
1.614
0.999
1,895
0,666
0,930
0,776
0.661
1.243
0,657
0,669
1, 184
1,978
0.348
0,686
1.741
0,934
1.383
0.537
2.427
1 ,3b4
0.769
0.418
1.312
1,416
0. 740
0.271
0, 794
0,656
0,966
0.755
0.972
0,510
0,401
0.382
0,987
0.784
1.559
0,924
2.941
2.735
2, 703
1 .052
ISPCG/StC)
3.495
4,626
1.201
1,551
1.119
1.075
1.108
1.190
3.493
1,809
1.271
2.253
1.102
1.227
1.426
1 .190
1.443
0. 706
0,684
1.144
1.866
0.424
0.684
1.704
0.636
1.756
0.554
2.279
1.326
0.823
u.395
1,249
1.372
0,792
0,474
0,832
0,708
1.246
1,392
1 .202
0.526
0.439
0.434
0.936
0,734
1.356
0.814
2.905
2.426
2,604
1 .279
MS If)
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10,00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10.00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10.00
10,00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
D(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
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
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
vs(M/sto
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
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
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
TS(OC)
0.0
0.0
0,0
0.0
0.0
0.0
0.0
0,0
0,0
0.0
o.o
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
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
0.0
0,0
0.0
0,0
SA(M**2/SEC)
0.0
0.0
0,0
0,0
0,0
0.0
0.0
0.0
0,0
0.0
0.0
o.o
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
o.o
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
0.0
0.0
-------
                                                           vtHSIUN  76130i   NUN
K)
ON
O
SUUKCt INF
10
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
0 2220
'U!
XtKM)
332,50
335.00
337.50
335.00
337,50
340,00
345,00
310.00
315,00
320,00
322.50
320,00
322.50
325.00
327.50
325,00
327,50
330,00
332.50
330,00
332.50
335.00
340.00
345,00
310.00
315.00
320,00
325.00
327,50
325,00
327,50
330.00
332,50
330.00
332,50
335.00
340.00
315,00
320,00
325,00
330.00
335.00

r (KM)
4427.50
4425,00
4.425.00
44^7,50
4427,50
4425.00
4425.00
4430, 00
4430.00
4430 . 00
4430,00
4432.50
4432.50
4430.00
4u30.00
4432,50
4432,50
4430,00
4430.00
4432.50
4432.50
44.JO.OO
4430.00
4430. 00
4435,00
4435.00
4435.00
4435.00
4435.00
4437.50
4437.50
443^. iJO
4 4 3 5 , 0 0
4437.50
4437.50
4435.00
4435.00
4440, 00
4440.00
4440.00
4U40.00
4J40.00



IX(f) S02(G/StU
2500
2500
2500
2500
2500
5000
5000
5000
5000
2500
2500
2500
2500
2500
2500
2500
2500
2500
2500
2500
2500
5000
5000
5000
5000
5000
5000
2500
2500
2500
2500
2500
250u
2500
2500
5000
10000
5000
5000
5000
5000
5000
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
,00
.00
.00
,00
,00
.00
,00
.00
.00
.00
.00
,00
,00
,00
,00
.00
.00
,00
.00
.00
.00
,00
.00
,00
,00
0,882
1 .454
1.151
0,447
0 , 999
0.913
0. 726
0. 755
1.295
0.417
1 .206
0,406
0,701
0,932
1.915
0 ,664
1,385
1,837
0,663
1.254
0.529
1 ,268
0.839
0,710
1 .440
0 ,93b
1 ,270
0 .649
1 .005
0.473
1 ,066
0,»28
0,928
0.674
0.239
0,794
2,112
0.686
0 . 7«e
1 .161
0,854
1 .307

ISPlU/StU
0,927
1.330
1 . 144
0.484
3.093
1,161
1,092
1 ,392
1 .494
0,4«3
1.189
0.475
0.759
O.S73
1,726
0,685
1.309
1,773
0.704
1,247
0.555
1 .538
1 .139
1,281
2.641
1.812
3.290
0.639
0.931
0.5H
1 .046
0.873
0.926
0.727
0.396
1.111
3.551
1 .063
1,095
1.395
1 .156
1 ,54t-

HSU*)
10,00
10.00
10,00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10.00
10.00
10,00
10,00
10,00
10,00
10,00
10,00
10,00
10.00
10.00
10,00
10.00
10,00
10.00
10,00
10.00
10.00
10,00
10,00
10,00
lo.oo
10.00
10,00
10.00
10.00
10.00
10.00
10.00
10.00


DCM)
0
0
0
u
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
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
.0
.0
.0
.0
.0
.0
.0
.0

VS(MXbEC)
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
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
0.0
0.0
0.0
0.0
0.0
0.0

TSCUC)
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
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
o.o
0,0
0.0
0,0
0,0
0.0
0.0
0.0
0.0
0,0
0.0

S*(f **2/SEC)
0.0
o.O
0.0
0.0
0,0
0,0
0.0
0,0
0.0
0.0
0.0
o.o
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
O.o
o.o
0.0
0.0
0.0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.o
                      93  4HtA  SOUKCfcCS).
                                                73 P01M SOUKCt (SJ .
-------
             APPENDIX G




EMISSION SOURCES FOR THE DAYTON AQMA
              261
-------
                                                     CDM1 VEWS10N  76130,   HUN
1x3
SOURCE INPUT
10
P 5001
P 5001
P 5003
P 5003
P 5003
P 5003
P 5004
P 5005
P 5005
P 5006
P 5006
P 5011
P 5012
P 5013
P 5014
P 5008
P 5008
P 5008
P 5008
P 5001
P 5001
P 5001
P 5001
P 5001
P 5001
P 5011
P 5011
P 5026
P 5026
P 5012
P 5013
P 5002
P 5002
P 5002
P 5002
P 5002
P 5002
P 5003
P 5003
P 5003
P 50U3
P 5003
P 5003
P 5003
P 5004
P 5004
P 5005
P 5005
P 5005
P 5005
P 5005
X(KW) YCM^J
753.00
753,00
772.60
772,80
7/2,80
772.80
776.20
773.80
773.80
772.80
772.60
762,00
771.40
754.00
779.60
769.20
769,20
769.20
769.20
755.00
755.70
755.70
755.70
755.70
755.70
762.50
762.50
763. 70
765,70
766.80
753.00
756,00
756,00
756,60
756.50
756.50
756.50
748.70
748.70
748.70
748, /O
748,70
748,70
748. 70
749,90
749.90
753. UO
753.70
753.70
753,70
753. 70
4424
4424
4424
4424
4424
4424
4402
4423
4423
4424
4424
4420
4429
4416
4426
4424
4424
4424
4424
4411
4411
4411
4411
4411
4411
4397
4397
4394
4394
4409
4414
4413
4413
4413
4413
4413
4413
4408
4408
4406
4406
4406
4406
4406
4406
4406
4411
4411
441 1
4411
441 1
.00
,00
.50
.50
.50
.50
.40
.20
.20
,20
.20
.40
.10
.00
,70 '
.00
.00
.00
.00
,00
,70
.70
.70
.70
.70
.40
.40
.50
,50
.90
.00
,00
.00
,60
.60
.60
,60
,60
,80
.80
,80
,80
.60
.80
.90
.90
.UO
.60
,00
.60
.00
TX(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
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
0.0
0.0
0.0
0,0
0.0
0,0
0.0
0.0
0.0
0.0
o.o
0.0
0.0
0.0
0,0
SU2CG/SEU
0.0
0,0
0. 749
0,749
0. 749
15,375
0.0
0,0
0.0
0,0
0.0
0,0
0.0
0.0
0,0
13.388
15,548
28,706
59.196
0,0
9.329
6,651
10.509
9.242
16,152
0,0
0,0
8. 724
8, 724
0, 720
0,0
0,0
0,0
20,673
20,673
20,673
20.673
3,167
1,152
1,209
3,658
3.887
7,659
7,400
4,866
56.432
0.403
2.562
6.U18
7,313
8,866
TSP(G/StU
1.209
2,015
0.516
0.518
0,518
10,221
2,073
1.612
1,814
1,037
1.037
55.050
50.530
2.620
22.659
10.365
12.035
46,643
93,833
1.440
29,800
21,248
33,629
28,706
5,154
0.086
0.202
0.259
0,259
0.259
0,058
4,664
0,547
1,037
1.037
1.037
1.037
9.069
2.073
3,484
1 1.085
11.200
22,026
21.246
5, 125
7.428
1.238
1.065
17,822
21.594
26.230
H3CI")
30,50
6,10
71,60
71 ,60
71 ,60
62,50
12.20
20,10
21.30
12,20
12.20
7.90
10.70
12.20
7,90
39,60
39,60
83,80
83.80
20,70
58,50
58.50
58,50
58,50
43,00
4.00
0.0
24,40
24,40
38,10
9,10
8.50
9.10
24,40
24,40
24.40
24.40
19,20
18,90
18.90
16,90
18.90
1 7.40
17,40
15.20
15,20
(3.50
27,40
25,90
25,90
25.90
1)(M)
0.20
0,0
3,40
3,40
3,40
4.90
1.20
1.80
3, 70
1 ,80
1 ,80
1.50
1 .80
2.10
1 ,50
3.00
3.00
4.60
4,60
0,50
4,40
4,40
4,40
4,40
2.30
0,50
0,0
1,20
1.20
2,10
1.70
0,20
0,30
5,00
5,00
5,00
5.00
1.80
2,40
2.40
2.40
2.40
,80
,80
,20
.20
. 10
.10
.40
,40
1 ,40
VS(MXSEC)
0.0
0.0
8,00
8.00
8,00
1.10
0.0
0,0
0.0
0.0
0.0
9,80
3,60
2.60
5.70
7,80
7.80
6,40
6,40
27,30
8,90
0.10
0.10
8.90
12.30
0,0
0.0
6.10
6.10
0.10
5.10
72. dO
30.30
2.10
2.10
2,10
2,10
1.50
2,40
2.40
2,40
2.40
0.50
0.50
0,80
o.eo
0.0
1,60
1.20
1.70
1,70
IS(OC)
-17,80
37,80
287.80
287,80
287,80
218,30
-1 7,80
-17,80
-17,80
454,40
454,40
71,10
71.10
76. 70
75.00
226, 70
204,40
157,80
157.80
65,60
176,70
1 76,70
1 76, 70
176, 70
148,90
-17.80
-17,80
260,00
260,00
276,70
54,40
21.10
-17.80
148,90
148,90
148.90
148,90
248,90
182,20
162,20
237,80
237,80
232,80
197,20
175.00
141,70
-17,30
2b«,90
279,40
1.70
279,40
SA(M**2/SEC)
0.0
0.0
0.0
0,0
0.0
0,0
0.0
0.0
o.o
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
o.o
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
o.o
0.0
0,0
0.0
0.0
0.0
0.0
-------
CO*I VERSION 76130,
SOUKCt INPUT
ID
P 5006
P 5006
P 5006
P 5006
P 5007
P 5007
P 5008
P 5009
P 5018
P 5010
P 5010
P 5010
P 5045
P 5046
P 5046
P 5046
P 5046
P 5001
P 5001
P 5002
P 5002
P 5002
P 5002
P 5003
P 5003
P 5003
P 5004
P 5004
P 5004
P 5004
P 5004
P 5007
P 5007
P 5007
P 5007
P 5007
P 5007
P 5007
P 5007
P 5007
P 5050
P 5050
P 5051
P 5051
P 5008
P 5008
P 5008
P 5008
P 5009
P 5009
P 5009
X(KM) Y(KM)
752.20
752.20
752,20
752.20
754.20
754.20
757.50
781.20
760,50
759.60
759.80
759.80
721.00
737,00
737,00
737,00
737.00
741.50
741.50
740.30
740.30
740.30
740,30
739,00
739.00
739,00
742,00
742.00
742.00
742,00
742.00
740,00
741.00
741.00
/41.00
741.00
741.00
741 .00
741,00
741.00
741.00
741.00
744.00
744.00
739,70
739.70
739.70
739.00
743,00
743.00
743.00
4409
4409
4409
4409
4410
4410
4398
4402
4398
4408
4408
4408
4412
4403
4403
4403
4403
4404
4404
4403
4403
4403
4403
4401
4401
4401
441 1
4411
4411
4411
4411
4405
4405
4405
4405
4405
4405
4405
4405
4405
4407
4407
4404
4404
4403
4403
4403
4403
4406
4406
4406
.30
.30
.30
.30
.70
.70
,00
.70
.20
.20
.20
.20
.00
,00
.00
.00
,00
,80
.80
.90
.90
.90
.90
.70
.70
,00
.00
.00
.00
.00
.00
.00
.00
,00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.00
.80
.80
.80
.00
.00
.00
.Oil
1X(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
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
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
S02CG/SEC)
1.41 1
1,411
1,411
1,411
1.180
5.327
0,0
0.0
0,0
1,756
0,0
0.0
0,0
0,0
0,0
0,0
0,0
8,522
8,522
4.376
2.620
8,292
27.122
3.225
3,225
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
0,0
0,1 //
4.405
4,405
0.0
0.0
0.0
0.0
TSPCG/StC)
1.497
1.497
1.497
1 .497
1.670
10.192
0.173
39.647
0.086
0.115
2.937
0.144
2.303
1.411
0,317
0,777
0.346
1.871
2,505
1.411
1.584
5.364
1.555
2.044
2,044
0.173
0.058
0.144
0,086
0.058
0.086
0.403
0.029
0.230
0.720
0.058
0.058
0.115
0.115
0.029
1.037
0.749
0.317
0,029
0.115
0.691
0.691
0.086
0.403
0.259
0.029
H3(l»)
12.20
12,20
12.20
12,20
20,70
9.10
9,10
6,10
8.50
37.50
19,80
18,90
10.70
1 1 .60
32,00
10,70
9,80
31.70
31,70
48.80
48,80
48, 80
48,80
26.50
26,50
6,70
6,10
6.10
6,10
4,60
4,6.0
25,00
13,70
14,60
13.70
15,20
15.20
17.10
15.20
16.80
27.40
12.20
7,60
4.00
21.30
21.30
21.30
12.20
6.40
15.20
12.20
D(M)
1.20
.20
.20
.20
0,90
.20
.50
0,0
0.90
3.20
2,30
1,60
0,90
1.70
1.10
2,80
1.10
2.40
2.40
2.40
2.40
3.00
3,00
1.70
1.70
0.80
0.80
0.90
0.90
0.40
0,80
0,90
0.60
1,70
1 .00
0.70
0,70
1.20
1.20
1.10
1 ,20
1.30
1.20
0.60
1.70
1 , 70
1.70
0.80
1 .50
0.0
0.90
VS(K/StC)
0,60
O.fcO
0.60
0,60
0,50
0.80
0,70
0.0
0,0
0,10
18.90
14.00
0,90
6,60
18.50
6,50
15.00
11.10
11.10
11.10
11.10
14.70
14.70
5.00
5.00
11.80
21.60
29.60
20,20
74,10
29,80
100.60
21.70
12.40
20.20
21,40
21.40
21.50
21 .50
1 7.00
2,00
1,20
25,60
30.70
14,50
14.50
14.50
70.40
13,70
0.0
0.0
ISCOC)
271.10
271.10
271.10
271.10
260,00
271,10
65.60
10.00
190,60
287,80
267.80
287.80
10.00
23,90
82.20
23.90
23.90
232,20
232.20
232.20
232,20
1«0,60
190.60
154.40
154,40
35,00
30.00
28,90
28.90
23.90
28.30
237,80
20.00
20,00
20.00
20,00
21.10
20,00
65,60
21.10
871,10
35.00
21,10
10.00
204.40
204,40
204,40
37.80
65.60
-17.80
60,00
Sfl(M**2/SEC)
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
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
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
-------
                                                         vtkSIUN 76130,  HUN
to
SOuRCt INPUT
10
P 5053
P 5053
P 5053
P 5010
P 5010
P 5054
P 5011
P 5011
P 5062
P 5063
P 501i
P 5013
P 5013
P 5065
P 5065
P 5019
H 5019
P 5019
P 5019
P 5022
P 5024
P 5024
P 5097
P 5097
P 5097
P 5097
P 5097
P 5097
P 5097
P 5097
P 5097
H 5098
P 5099
P 5099
P 5073
P 5074
P 5074
P 50/4
P 5074
P 5074
P 5074
P 5075
P 5077
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
P 5027
X(KM)
737,00
737,00
737.00
744,20
744.20
738.00
741,00
741 ,00
740,00
740.00
738.00
738.00
738,00
741.00
741,00
736.60
736.60
736.60
736.00
736.00
743.60
743.80
742,00
742.00
742,00
742,00
742.00
742,00
742.00
742,00
742,00
/42.00
742.00
742,00
7«3.00
743.00
743,00
743.00
743.00
743.00
743.00
743.00
733.00
739,10
739,10
739,10
739. 10
739.10
739. 10
739. 10
739.10
V (KM)
4405,
4405,
4405.
4399,
4399,
4404.
4404.
4404.
4404,
4404.
4401.
4401 .
4401.
4402.
4402.
4403,
4403,
4403.
4401.
4401,
4402,
4402.
4411,
4411.
4411.
4411.
4411.
4411,
4411,
4411.
4411.
4411 .
4411.
4411.
4406,
4406.
4406.
4406.
4406,
4406.
4406,
4406.
4391.
4401 .
4401.
4401.
4401 .
4401 .
1401 ,
4401 .
4401 .
00
00
00
80
80
00
00
00
00
00
00
00
00
00
00
20
20
20
00
00
20
20
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
10
10
10
10
10
10
10
10
TX(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
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
o.o
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
S02(6/SEC)
0.0
0.0
0.0
1.209
1,209
0,0
0.0
0.0
0,0
0.0
0.0
0.0
0.0
0,0
0,0
4.607
4,751
7,659
0,0
0,0
1,555
10.221
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
0,0
0.0
0.0
44.887
44.887
56.461
44.887
44. 867
93. 77o
0.777
0.777
TSP((i/SfcC)
0.029
0.173
0.403
0.230
0.230
0.259
0.058
0.086
0.202
0.202
2.735
0.230
0.086
0. 144
0.749
0.346
0,346
1.411
0.086
0.086
1.152
7,544
0,086
0.835
0.230
0.864
0.864
0.115
0.317
4.578
0.317
0.029
0.346
0.058
0.230
5.960
0.173
0. 086
0.029
1,123
0.777
1 .180
0,029
67.805
103.162
17.765
84.850
84,850
58.390
0.1/3
0.175
HS(k)
22.30
10,10
8.50
18.30
18.30
9.10
25,90
16,80
12.20
19.50
14,60
9.40
10.10
8,20
9.80
53,30
53.30
53.30
18,30
9.10
53,30
5i,30
0,60
13,70
15.80
18.60
18,60
1.50
13. 70
13.70
15.20
1 7.70
13. 70
0.90
7.90
7.90
10.10
10.10
9.10
9.80
10.70
9.10
4.60
93,60
93.60
93.60
93.60
93, bO
93,60
0. 10
o, 10
U(M)
0.50
1.10
0,40
1,60
1.60
1.80
4,90
9.80
O.bO
4.60
6.10
1.00
1,00
0,80
O.bO
2,70
2,70
2.70
0,20
0,30
2.00
2.00
0.90
0.50
0,0
2.70
2.70
0.40
0,60
0,60
0,60
0.30
0.40
0.40
0.50
1.50
0.50
0.70
0,40
1.10
0.90
0.60
0.60
4,90
4.90
4,90
4,90
4,90
4.90
0,80
0,80
VS(M/S£C)
10.70
7.00
19.10
2,90
2.90
4.30
0.10
0.10
32.30
0.10
1,50
24,60
14.80
18.10
138.70
6.10
6.10
4.60
231.40
15.50
4.00
4.00
7.00
65.70
0.0
2.20
2.20
18.00
0.0
5.20
3.30
10,60
6.30
31.00
12.30
11.30
0.0
1 1 .60
49.1 0
15.50
3.20
9.70
29,10
12.60
12.60
12.60
12,60
12.60
12.60
24,90
24.90
TS(OC)
21,10
21,10
21,10
233.30
235,30
57,20
54.40
23,90
98.90
-17,80
46.10
32.20
37.80
20,00
37,80
162.80
162.80
162.80
40,60
20.00
287,80
287,80
26. 70
48.90
65.60
93.30
93,30
48.90
48.90
48.90
71.10
43,30
21.10
-17,80
23.90
482.20
21.10
23.90
23.90
29.40
21.10
23,90
21,10
210,00
210,00
210.00
210.00
210,00
132.20
381. 10
381.10
SA(M*«2/StC)
0.0
0.0
o.o
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
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
0.0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0,0
0.0
0.0
-------
          SUuHCt  INPUT
                                                         VtHSIlM  76130,
to
ID
P 5027
P 5027
P 5080
P 5031
P 5031
P 5031
P 5031
P 5033
P 5034
P 5034
P 5036
P 5036
P 5038
P 5038
P 5039
P 50J9
P 5039
P 5039
P 5086
P 5040
P 5040
P 5089
P 5090
P 5091
P 5041
P 5041
P 5041
P 5041
P 5041
P 5041
P 5041
X(KM)
739.10
739.10
738.00
738.10
738,10
738.10
738.10
738,00
738.70
738,70
739,00
739.00
736,90
736.90
735,40
735.40
735,40
735,00
741.00
741.40
741.00
734.00
733.00
736.00
732.50
732,50
732, SO
732.50
732.50
732.50
732.50
Y (KM) TX(M)
4401
4401
4396
4397
4397
4397
4397
4401
4399
4399
4420
4420
4394
4394
4394
4394
4394
4394
4415
4413
4413
4395
4395
4395
4386
4386
4386
4386
4386
4386
4386
.10
.10
.00
.10
.10
.10
. 10
.00
.90
.90
.00
.00
.80
.80
.50
.50
.50
.00
.00
.JO
.30
.00
,00
.00
.60
,60
.60
.60
.60
.60
.60
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
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
S02(G/SEC)
0.777
0,777
0.0
4,463
4.463
4.463
4,463
0.0
1,785
1.785
0,0
0,0
9,213
13,820
15,807
0,835
0.835
0.0
0,0
2,246
2,246
0.0
0.0
0.0
75.291
65.099
71,404
85,253
67.517
55,367
1,209
TSPtG/SEC)
0.173
0,173
0,029
0,516
0,374
0,461
0.403
0,317
10.048
10.048
0,058
0.115
0.288
0.461
3.225
1.209
1,209
0,086
0.835
4,060
5.384
0.288
0,346
7,198
0.403
0.144
0,950
2.044
0.518
0,346
0.346
HS(K)
6,10
6.10
7.90
61.00
61 ,00
61.00
61.00
13,10
57,00
57.00
2.10
4.30
30.50
36,60
67.10
67,10
67,10
6.10
12,20
57,00
57,00
9,10
13,70
9,10
76,20
76.20
76,20
76.20
/6.20
76,20
12.20
t>(»)
0.80
0.80
4,60
3,00
3.00
3.00
3.00
1.20
2,40
2,40
2.40
4,00
1.80
2.60
3.00
3.00
3.00
0.90
1 ,60
2,40
2.40
2.10
0.80
0.0
4,20
4.20
4,20
4,20
4.20
4.20
4.30
VSCM/SEC)
24,90
24,90
0.20
3.70
2,90
3.20
3.10
15.80
4.00
4,00
8,60
6.60
9.80
6,40
3,60
3.60
3.60
0.40
4.00
4.00
4,00
3.20
45.90
0.0
15,90
15.90
15,40
15,40
15,40
15.40
26.60
TSCQC)
381 ,10
381,10
21,10
176,70
176, 70
176,70
176,70
•17,80
76, 70
76,70
26,70
26,70
1/1 .10
160,00
182.20
182,20
182,20
37,80
652,20
76.70
Ib, tO
54,40
2.20
148.90
153.30
153,30
151,70
151. 10
151,70
151 , 70
445,00
SA(M»*2/SfcC)
0,0
0.0
0,0
0,0
0,0
0.0
0.0
o.o
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
0,0
0,0
0.0
0,0
0.0
-------
                                                   CDM1  VERSION 76130,  HUN
ro
SUUHCE INPUT
ID
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 1260
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 25HO
0 2580
0 2580
0 2580
0 2580
« (KM)
770.00
780.00
750.00
755.00
760.00
765,00
790.00
750.00
755.00
760.00
765.00
770,00
772.50
770.00
772.50
775.00
780.00
790,00
755.00
765,00
770,00
772.50
770.00
772.50
775.00
790,00
765.00
770.00
775.00
780.00
/85.00
790.00
750.00
760,00
770,00
775.00
780,00
770,00
775,00
747.50
747,50
750,00
755,00
760,00
765.00
7 70. UO
747.50
747,50
750,00
755.00
7&0.00
YCKM)
4410.00
4410.00
4415.00
4415.00
4115,00
1415,00
4415,00
4420.00
4420.00
4420.00
4420.00
4420.00
4420.00
4422.50
4422.50
4420.00
4420.00
4420.00
4125.00
1425.00
4425,00
4425,00
4427.50
4427.50
4425.00
4425,00
4430,00
4430.00
4430,00
4430,00
4430.00
4430.00
1385.00
4385.00
4385.00
1385.00
4385.00
4390.00
4390.00
4395,00
4397,50
1395.00
U395.00
1395.00
1395.00
4395.00
4400. OU
4402.50
4400.00
4400, UO
4400. OU
!X(M) SU2C&/SEC)
10000
10000
5000
5000
5000
5000
5000
5000
5000
5000
5000
2500
2500
2500
2500
5000
10000
5000
10000
5000
2500
2500
250U
2500
5000
5000
5000
5000
5000
5000
5000
5000
10UOO
1COOO
5000
5000
5000
5000
10000
2500
2500
5000
5UOO
5000
5000
5UOO
2500
t500
5000
buOO
5000
.00
.00
.00
.00
,00
.00
.00
,00
.00
,00
.00
,00
,00
.00
.00
,00
.00
,00
.00
.00
.00
.00
,UO
.00
.00
,00
.00
.00
.00
,00
,00
.00
.00
.00
.00
.00
,00
,uo
,00
.00
.00
.00
.00
,00
.00
.00
,OU
.00
.00
.00
.00
0.781
1,041
1.263
0,449
0,653
0.817
0.029
0,668
0.396
0,491
1.236
0,882
0.883
2,102
2,35b
1,810
0,784
0,048
0,728
0.441
0,725
1,038
0,029
0.315
0.600
0.0
0.431
0.652
0.7/7
0,057
0,956
0.349
0.655
0.637
0.0
0.0
0.214
0.210
0.507
0,163
0,328
0,393
0,433
3,008
0 ,044
0,016
0.133
0,117
1.169
0.343
0.349
TSPCG/SEC}
1.015
1.414
1.314
0.537
0,680
2,704
0.013
1.070
0.582
0.555
1.329
0.847
0.847
2.008
1.848
1,640
1.200
0,021
1 .028
0.531
0,667
0.947
0.013
0.322
0,700
0,0
0.545
1.057
0,790
0.025
2.033
0.564
0.705
0.710
0,0
0.0
0.295
0.299
0.620
0, 188
0.344
0.433
0.969
2,653
0.019
O.OOb
0,161
0, 119
1.167
0.386
0.162
HS(W)
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10,00
10,00
10.00
10,00
10.00
10,00
10.00
10.00
10.00
10,00
10,00
10,00
10.00
10,00
10.00
10.00
10.00
10,00
10.00
10.00
lu.oo
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
IMM)
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
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
0,0
0.0
0.0
0.0
0,0
0 .0
0,0
0.0
0,0
0.0
0.0
0.0
o.o
u.o
0,0
VSCM/StC)
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
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
0.0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
u.u
0,0
0.0
0.0
U.O
TS(OC)
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
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
o.o
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
u.O
0.0
3A(M*«2/SEC)
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
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
0,0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
-------
                                                                          CU*I   VtHSIUN   76130,   HUN
O-i
-J
souHCt INPUT
10
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 2580
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
X(KM)
765.00
775.00
747,50
747,50
750.00
755.00
760.00
750.00
755.00
760,00
765.00
715.00
720.00
725.00
730,00
735.00
740,00
745.00
715.00
720.00
730.00
735.00
740.00
745.00
715.00
730.00
735.00
740,00
742,50
740,00
742.50
745.00
745.00
715.00
720.00
730.00
732.50
/30.00
732,50
735,00
737.50
M5.01
737.50
740.00
742.50
740.00
742.50
745,00
745.00
715.00
/30.00
r(KM) Tx(M) S02(G/StC)
4400.00
4400.00
4405,00
440/.5G
4405,00
4405.00
4405.00
4410.00
4410.00
4410.00
4410.00
4385.00
4385,00
4385,00
4385,00
4385.00
4385.00
4385.00
4390,00
4390,00
4390,00
4390.00
4390,00
4390.00
4395,00
4395.00
4395,00
4395.00
4395,00
4397.50
4397.50
4395.00
4397,50
4400,00
4400.00
4400.00
4400.00
4402.50
4402.50
4400.00
4400.00
4402.50
4402,50
4400,00
4400.00
4402.50
4402,50
4400.00
4402,50
4405.00
4405.00
10000.00
10000.00
2500.00
2500,00
5000.00
5000,00
5000.00
5000.00
5000.00
5000.00
5000.00
5000.00
5000.00
5000.00
5000,00
5000.00
5000.00
5000.00
5000.00
10000.00
5000.00
5000.00
5000,00
5000,00
5000,00
5000.00
5000.00
2500,00
2500.00
2500.00
25UO.OO
2500.00
2500,00
5000.00
10000.00
2500.00
2500.00
2500,00
2500,00
2500,00
2500.00
2500.00
2500,00
2500,00
2500.00
2500,00
2500,00
2500.00
2500.00
5000.00
2500,00
0, 728
0.535
0,156
0,015
1 .934
0.301
1.080
1.092
1.379
0.0
0,595
0.296
0.296
0.604
0,b42
0.396
3.897
0,406
0,296
1,574
1.310
1.159
0.874
0.832
0.406
0,506
1 .645
0.265
0,678
0.468
1.881
0.476
0.586
0.401
1.777
0,219
0.321
0.176
0.709
0,512
0,426
1 .241
1.285
1.246
1.037
1.237
1 .581
0,954
0.884
0,407
0.064
ISPCG/SfcC)
0. IbO
0,980
0,179
0,007
1.772
0.344
2.276
1,105
1.353
0.0
0,863
0,677
0,677
1.023
0.944
0.636
1.690
0.907
0.677
3,336
1.812
1.788
1.410
1,372
0,843
0,965
3.346
0,408
0.933
0,654
1.263
0.691
0,803
0.892
3.467
0,362
0,495
0,310
1.010
0./13
0.535
1 .690
1.613
0.764
1.355
1 .41 /
2.033
1,222
1.122
0.644
0.173
HS(f )
10,00
10,00
10.00
10.00
10,00
10.00
10,00
10.00
10.00
10,00
10,00
10,00
10.00
10.00
10.00
10,00
10,00
10.00
10,00
10.00
10.00
10.00
10,00
10,00
10.00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10,00
10,00
10.00
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10.00
10.00
10,00
10.00
10.00
10.00
10.00
D(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
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
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
VS(MXStC)
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
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
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
TS(OC)
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
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
0,0
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
SA(M«*2/SfcC)
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
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
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
-------
                                                  COM! VERSIGK  76130,   HUN
to
a^
CO
SOUHLE INPUT
ID
0 4500
0 «500
0 4500
o 4500
0 4500
0 4500
0 "500
0 1*500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
0 4500
X(KH)
732. SC
730.00
75Z.bO
735.00
737.50
735.00
737.50
7UO.OO
7^2,50
740.00
743.50
745.00
745.00
7J5.00
720.00
730.00
735.00
740.00
745.00
715,00
730.00
735,00
740.00
745.00
735,00
YIKM)
4405.00
4407.50
4407,50
4405.00
4405.00
4407.50
4407,50
4405.00
4405,00
4407.50
4407,50
4405.00
4407.50
4410,00
4410.00
4410.00
4410.00
4410.00
4410.00
4415,00
4415.00
4415.00
4415,00
4415,00
4420.00
TX(K) S02(&/SfcC)
2500
2500
2500
2500
2500
2500
2500
2500
2500
2500
2500
2500
3500
5000
10000
5000
5000
5UOO
5000
5000
5UOO
5000
5000
5000
2500
,00
,00
,00
.00
.00
,00
.00
.00
.00
.00
.00
.00
,00
.00
.00
,00
.00
,00
.00
,00
,00
.00
.00
.00
.00
0.425
0.341
0,700
1.066
1.719
0,608
0.767
0,947
0,780
0,486
0,345
0.940
0.371
0.414
1.96/
1.260
1,119
0,766
0,977
0.414
0,740
1.911
0.569
0.946
0.-148
TSP(G/SfcC)
0.579
0.495
0,973
1.397
2,178
0.636
1,036
1,055
3,139
0.647
0.507
1.271
0.512
0.851
3.751
1.431
1,706
1,183
1.565
0.851
1.248
2.514
0.988
1.527
0.272
HS(IK)
10,00
10,00
10.00
10.00
10,00
10.00
10.00
10.00
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10.00
10.00
10,00
10.00
10.00
10.00
10.00
10,00
10.00
10.00
U(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
0.0
0.0
0.0
0.0
0.0
0,0
0.0
VS(M/SEC)
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
Q.O
0.0
0.0
0,0
0,0
0.0
0,0
0.0
TSCQC)
0.0
o.o
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
0.0
0.0
0,0
o.o
0.0
SAC***2/SfcC)
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
0.0
0.0
0.0
0.0
0.0
0.0
0.0
                  127 AREA  SOUKCE(S).
                                            184  POINT  SOUHCttSJ.
-------
               APPENDIX H




EMISSION SOURCES FOR THE MANSFIELD AQMA
                  269
-------
VEHS10N 76130>  HUN
SOUHCt INPUT
10
P 5011
P 5011
P bOOl
P 5001
P 5001
P 5002
P 5003
P b003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5003
P 5004
P 5004
P 5005
P 5005
P 5005
P 5005
P 5005
P 5005
P 5006
P S006
P 5006
P 5006
P 5006
P 5009
P 5009
P 5009
P 5010
P 5010
P 5010
P 5010
X(KM)
374,20
374.20
364.80
364,80
364.60
372.50
371,50
370.90
370,90
371.20
371.20
371.20
i/1. 20
371.20
373.20
373.20
372.30
372. JO
372.30
372.10
372. JO
372.30
372,90
372.90
372,90
372,90
371,20
373,20
373,20
373,20
360,40
360.40
360.40
360.40
Y(K
4520
4520
4514
4514
4514
4514
4515
4516
4516
4516
4516
4516
4516
4516
4513
4513
4514
4514
4514
4514
4514
4514
4513
4513
4513
4513
4513
4515
4515
4515
4526
4526
4526
4526
M)
.90
.90
.40
.40
.40
.40
.60
.60
,60
.20
.20
,20
.20
.20
.50
.50
.40
.40
.40
,40
.40
,40
,20
.20
.20
.20
.70
.90
.90
.90
.60
.60
.60
.60
1 X
-------
                                                     COMI  vtHSION  76130,   KUN
ro
•-j
sound. INCUT
ID
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
9 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 5740
0 57HO
0 5740
0 5740
0 5740
0 5740
0 5710
0 5740
0 5740
1 5740
X( KM)
365.00
375.00
365,00
370.00
375,00
360.00
365,00
370.00
355.00
365.00
370.00
372.50
370.00
372,50
375.00
380,00
365.00
370.00
375.00
380.00
355.00
360.00
370.00
355.00
355,00
360.00
370.00
355.00
Y(KM) 1X(K) S021G/SEC)
4490,00
4490.00
4500.00
4500.00
4500,00
4505.00
4505.00
4505.00
4510.00
4510.00
4510.00
4510.00
4512,50
4512,50
4510.00
4510.00
4515.00
4515.00
4515,00
4515.00
4520.00
4520,00
4520.00
4525.00
4530.00
4530,00
4530.00
4535.00
10000
10000
5000
50UO
10000
5000
5000
5000
10000
SOOO
2500
2500
2500
2500
5000
5000
5000
5000
5000
5000
5000
10000
10000
5000
5000
10000
10000
5000
,00
.00
,00
.00
.00
.00
.00
.00
,00
,00
.00
.00
.00
,00
,00
,00
.00
.00
.00
.00
.00
,00
,00
.00
,00
,00
,00
.00
0.071
0,947
0.602
0.797
0.933
0.384
0,608
1,441
1.313
2.029
2.903
0,905
2.642
1.285
0,895
1.348
0.957
1.141
1.193
0.378
0.094
2.019
0.760
0.658
0.415
0.9J6
0,748
0,078
TSP(U/SEC)
0.031
1.564
0,473
0.553
1.011
0.4J3
0.476
0.932
1.009
1.216
1.660
0,563
1.511
0.759
0,606
2.640
0.649
1.649
0.790
0.458
0.041
1.318
1.236
0.517
0,543
0.985
0.884
0.034
HS(M
10,00
10,00
10.00
10,00
10.00
10,00
10,00
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10,00
DIM)
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
0.0
0.0
0.0
0,0
0.0
0,0
0,0
0,0
0.0
0.0
VSCM/SEC)
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
0.0
0,0
0,0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
TS(OC)
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
0.0
0.0
0.0
0.0
0.0
0,0
0.0
o.o
0.0
o.o
SA(K««2/SEC)
0.0
o.o
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
0.0
0.0
0.0
0.0
0.0
0.0
0,0
0.0
                    28  AHEA SCUKCMS).
34 POINT SOURCE(S),
-------
             APPENDIX I




EMISSION SOURCES FOR THE TOLEDO AQMA
               272
-------
                                                     (.0*1  vEKSIUN /6130.   HUN
N)
SUUKCE INPUT
10 XIKM)
P
P
P
\>
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
P
5001
5002
5063
5063
5063
5003
5003
5003
5003
5003
5003
5003
5003
5006
5006
5008
5008
5008
5009
5009
5011
501 1
501 1
501 1
5011
501 1
501 1
501 1
501 1
5011
5011
5011
5011
5011
5011
5011
501 1
501 1
501 1
5063
5063
5012
5012
5012
5012
5012
5012
5012
5012
5012
5012
273.60
273.50
266.90
266.90
266.90
292.20
292,20
292.20
292.20
292,20
292.20
292.20
292.20
283,90
263,90
288.20
268,20
288,20
286,80
288,80
293.10
293.10
293, 10
293.10
293. 10
293. 10
293.10
293.10
293.10
293.10
293, 10
293, 10
293,10
293.10
293,10
293,10
293.10
293.10
29i,10
290.10
290, 10
285.80
285.60
285,80
285.60
285. BO
285,60
285,80
2o5.60
265.60
285.80
r (KM)
4600.00
4600 ,00
4599, /O
4599. 70
4599,70
4615,60
4615,60
4615,60
4615,60
4615.60
4615,60
4615,60
4615,60
4616,50
4616,50
4615,20
4615.20
4615.20
4620.80
4620,80
4616.40
4616,40
4616,40
4616.40
4616.40
4616,40
4616.40
4616,40
461 6.40
4616.40
4616.40
4fc 10,40
4616.40
4616.40
4616,40
4616,40
4616.40
4616,40
4616,40
4618.50
4618,50
4620,50
4620,50
4b20.50
4 6 2 d . 5 U
4620 .50
4620 ,50
4620.50
4620.50
4620.50
4620 ,50
TXIH) SQ2(G/StC)
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
0,0
o.o
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
0,0
0,0
0.0
o.o
o.o
0.0
0.0
o.o
0,0
0.0
0.0
0.0
0.0
1 , '56
0,0
1.987
1 ,987
1 .987
0.0
0,0
0.0
0.0
0,0
0,0
0.0
0,0
0, 749
0,749
0,979
0,979
0.979
1 ,094
1 .236
2. 764
2. 764
2,764
2,764
9.041
9.041
20.010
2. 793
9.962
2,822
7.68/
11,3/3
5.586
3,253
1 ,956
1. 756
10,020
44,061
10,941
0,0
0.0
1.411
1 .41 1
1.411
0.0
0,0
0.0
0.0
0.0
0.0
0,0
lSP(G/StC)
0.662
4.031
0,288
0.268
0.288
0.346
0. 144
0.173
0,115
0,605
0.662
0,662
0.346
0,115
0.115
0.115
0.115
0,115
1.641
1,871
0.259
0.259
0.259
0.259
1,008
1 .008
2.217
0.259
0,749
0.058
0.516
0.691
0.7/7
0.202
0,115
0,086
0.029
5.327
0.0
0.230
0.202
0.202
0.202
0.202
0.08b
0.432
0.921
0 ,864
1 .296
o, m
\ .296
HS(yj
27,10
7,00
13.70
13.70
13. /O
15.20
15.20
15.20
6.10
9.10
38.00
38,00
38,00
53,30
53,50
45,10
45, 10
45.10
15,20
15,20
6l ,00
61,00
61.00
61,00
18.30
18. JO
45,70
45.70
43.60
27.10
45. 70
31,70
49,40
25,60
25.60
25.30
22.30
49,40
30,50
20,10
8.20
12,20
12.20
12.20
10.40
12,20
12,50
31,40
32.90
-S2.30
33.50
D(M)
1 .00
0 ,60
0,60
0,60
0.60
0.0
0,0
0,0
0,0
0.0
0,0
0,0
0.0
1 .80
0.0
1 ,80
1 ,80
1 ,80
0,90
0,80
3,40
3,40
3,40
3.40
1.40
1 ,40
2,40
2.40
1 ,90
1 .00
2,40
2,40
2,40
1 ,60
1 .60
1 , 40
1 ,40
2,40
0,80
1 ,20
1 ,20
1 .00
1 .00
1 .00
u , 1 o
5.2ii
1.10
0, 30
0 ,30
u .80
0. 30
VSlM/StC)
14,60
23.60
5.30
5.30
5.30
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
9,70
12.70
2,30
2,30
2.30
2.30
9.10
9.10
14,10
14.10
9,50
6.50
3,30
8.40
3.10
7,20
4.30
4.70
2.50
9,90
2.80
10.60
14.90
3,00
3,00
3.00
21.20
0.10
15,90
16.70
19,40
2.40
11,00
rscou
880,60
32,20
260.00
260,00
260,00
21,10
21 .10
21,10
10.00
10.00
22,20
22,20
22,20
-17,80
-17,80
204,40
204,40
204,40
32ft, 70
292.20
287,80
287,80
287.80
287,80
237,80
237,80
460,00
460,00
548,90
371 .10
426, 70
565.60
248.90
4/6,70
476,70
454,40
482,20
246.90
537,80
537,80
442,80
232,20
232.20
232.20
274.00
37. HO
57.20
32.20
2b. 70
37.80
2B.70
bA(K»«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
o.o
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
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
0.0
0,0
-------
O'O
O'O
•I' (I
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
Q'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
o'o
O'O
O'O
O'O
O'O
0*0
O'O
O'O
O'O
O'O
Of
Oft
Oh
OP
09
09
oo
0?
09
01
01
00
09
OP
08
Oft
08
00
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Oh
Oft
09
Of
01
00
Ob
01
Ot
09
08
02
0?
02
0?
0?
0?
OP
Oft
Oft
Oft
08
08
09
OP
00
09
0?
09
'f65
'6if
*8ftS
'625
' 59?
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' lOSM C13S/3)dSL CHS/9)
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
o* o
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n' o
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
o'o
O'O
O'O
O'O
O'O
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O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
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o'o
O'O
O'O
o'o
O'O
O'O
09' I I9h
0 P ' I I 9 P
08" t I9ft
0 » " 1 I 9 P
08' t 1 9ft
09' I I 9ft
r>9* 1190
09' It 9ft
08' I I9ft
Q 8 ' U o p
ilH' I 19h
09' 1 I9P
OH" I I9p
08' 1 19ft
OL '9I9P
oi '91 9ft
06*1 I9ft
Oh' I t 9ft
O/ '9I9P
O/ '9I9P
O/ '9I9ft
O/ '9I9P
Oi '9I9P
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Of St9ft
Of ??9ft
00' 1 19P
Oft'9I9P
Ob'f I9P
Ob'f I9P
Ob'f 19(7
Ob'f- I9ft
06*f I9ft
Of ft!9ft
Of PI9P
Of ft! 9ft
Of PI9P
Of 'ftI9t7
Of Pl9h
Of 1? I 9ft
Of 'PI9P
Of ft!9ft
Of 'PI9P
Oi'609P
OL *609ft
O/ ' h09P
01 '9I9P
01 '9I9h
05* 0?9ft
05' 0?9P
05*0?9P
f /VX) A

05
05
05
OS
OS
OS
05
05
OS
OS-
OS
OS
OS
OS
06
06
Oft
Oft
06
06
Oh
Ob
Oh
06
06
Oft
01
Oi
01
01
Ot
01
Ot
OS
05
05
05
OS
05
OS
05
OS
05
0?
02,
0?
05
OS
09
09
09
(

' Ifa?
Mb?
'16?
'16?
' 16?
'16?
* 16?
Mb?
' 16?
M6?
* 16?
'16?
* t6?
M6?
*f 6?
•?62
*69?
'6fl?
*f 6?
' f 6?
*f 62
*f6?
*fb?
*f6?
'?62
'69?
'59?
*16?
'69?
'6B?
*692
'68?
*6B?
*06?
'06?.
•06?
'06?
*06?
'06?
•062
'06?
'06?
*062
'?82
•292
•282
'06?
' "6?
*59?
"S8?
'S82
W*) t
in,
?90S d
?°OS ri
?905 d
?905 d
2905 d
?905 d
?90S d
?90S d
2905 d
?905 d
?905 d
?905 d
?90S d
2905 d
2205 d
2205 d
1205 d
I?OS d
0?05 d
0205 d
0?05 d
0?05 d
0?05 d
0?OS d
9«05 d
i90S d
9905 d
5905 d
9105 d
9105 d
8105 d
8105 d
8105 d
itOS d
/105 d
ilOS d
/I 05 d
/JOS d
itOS d
ilOS d
itOS d
ilOS d
itOS d
PtOS d
PI05 d
ftlOS d
P90S d
P905 d
2105 d
2105 d
2105 d
01
HM unnns
r-
CNl
-------
                                                            vtKSlON  76130,   RON
to
~J
Ui
SOUKCt INPUT
10
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5062
P 5024
P 5024
P 5024
P 5025
P 5025
P 5025
P 5033
P 5035
P 5035
P 5035
P 5035
P 5035
P 5035
P 5035
P 5036
P 5036
P 5036
P 5036
P 5036
P 5036
P 5036
P 5036
P 5037
P 5037
P 5039
P 5040
P 5041
P 5042
P 5069
P 5044
X(KM)
291,50
291.50
291. SO
291.50
291,50
291.50
291,50
291.50
291,50
291.50
291.50
291.50
291,50
291.50
291,50
291.50
291.50
291.50
291,50
291,50
291.50
283.10
283.10
283,10
289.30
289.30
289.30
283.10
292.60
292.60
292.80
292,80
292.80
292.80
292,60
286.70
286.70
286,70
286.70
286.70
286.70
286.70
286, 70
290,00
290.00
289.10
277.90
2/8.50
282. 10
286,50
293,00
Y(KM) TX(M)
4611.
4611.
4611.
4611,
4611 .
4611.
4611.
4611.
461 1,
4611,
4611,
4611.
4611,
4611.
4011.
4611.
4611.
4611.
4611.
4611,
4611.
4610,
4610,
4610.
4611,
4611.
4611.
4614.
4616.
4616.
4616.
4616.
4616.
4616.
4616,
461 7.
461 7,
4617.
461 7.
4bl7.
4ol7.
461 7.
461 7.
4620,
4620.
461 7.
4016.
4612.
4615,
4612,
4612.
80
80
80
80
80
80
80
80
80
80
80
80
80
80
80
60
80
80
80
80
60
60
60
60
20
20
20
30
10
10
10
10
10
10
10
60
60
60
60
60
6U
60
60
50
50
70
00
90
10
90
10
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
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
0.0
0,0
0.0
0.0
0,0
o.o
0.0
o.o
0.0
0.0
0.0
0.0
0,0
0.0
0.0
S02«,/SEC)
14,482
8.321
1.843
3,052
22.774
4.895
67,746
9,904
9,904
3,369
6,248
10,855
10.855
13.763
21 .047
7,831
5.758
25,769
6,305
10,308
10,306
5.240
10,480
10,480
0,0
0,0
0,0
0.0
2.706
2, 706
2.706
0.0
0,0
H.131
0.0
3,513
3.513
1 ,094
1 ,094
1 ,094
1 .094
1 .094
1 .094
0,749
0. 749
0.0
0.0
0.0
2. 793
0.0
1 ,468
TSP(G/StC;
0.202
0.115
0.029
0.029
0.346
0.058
1.065
0.144
0,144
0,029
0.173
0.518
0,518
0,489
0.777
0.288
0.259
2,505
0.086
0.893
0.893
1.382
2.764
2.764
10.797
0,518
1.065
0.547
0,489
0.469
0.469
10.365
11,862
1 1 .085
3.1 JO
0.317
0.317
0.086
0.086
0.086
0,086
0.086
0.086
0.058
0.056
20.414
0 .086
5,874
0.432
0.374
0.202
»S(f)
36.60
27,40
24.10
14,30
27.40
27,40
31. 70
42.70
42.70
42. 70
42,70
42.70
42,70
53,30
53.30
42,70
42,70
30,50
10.70
76,20
76,20
27,40
27,40
27,40
9,10
6.10
30.50
19,80
36,60
36,60
36.60
61 .00
48.80
61.00
15,20
68.60
68.60
62,50
62.50
62.50
62.50
62,50
62,50
65.50
65.50
9.10
6.10
9,10
1 « . 1 0
24,40
9.60
D
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-------
                                                    COM!  VtHSION 76130,
                                                                          HUN
                  INPUT
to
>~i
00

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
0
0
0
0
0
0
u
0
0
0
0
0
0
0
0
ID
3720
3720
3720
3720
3/20
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3/20
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3720
3/20
3720
3720
3720
3720
3720
3720
3/20
3720
3720
3720
3720
3720
7560
7580
7580
7580
7580
*. (KM)
260.00
270,00
260.00
2/0.00
280.00
260.00
270.00
2/5.00
280.00
282.50
280.00
282.50
285.00
287.50
285.00
287,50
290,00
292.50
290,00
292.50
295.00
300.00
310.00
270.00
275.00
280,00
282.50
280.00
282.50
285.00
287.50
285.00
267,50
290.00
292.50
290.00
295.00
260.00
265,00
270.00
275.00
280.00
262.50
285.00
287.50
295.00
260.00
270.00
280.00
290.00
2eO.OO
YIKM)
1590,00
1595,00
1600.00
1600.00
1605.00
1610,00
1610.00
1610,00
1610,00
1610,00
1612,50
1612.50
1610.00
1610,00
1612.50
1612. 5u
4610.00
1610.00
1612, 5u
1612,50
1610.00
1610.00
1610.00
1615,00
1615.00
1615,00
1615,00
1617,50
1617.50
4615.00
1615.00
1617,50
1617.50
1615.00
1615,00
1617.50
1615.00
1620.00
1620.00
1620.00
1620.00
1620,00
1620.00
1620.00
1620.00
1620.00
4560.00
4560.00
4560.0U
1560.00
4570. OU
I X (M)
10000.00
5000,00
10000,00
10000.00
5000,00
10000,00
5000.00
5000.00
2500.00
2bOO.OO
2500.00
2500.00
2500,00
2500,00
2500.00
2500.00
2500,00
2500.00
2500.00
2500.00
5000.00
10000.00
5000,00
5000,00
5000,00
2500.00
2500. OU
2500.00
2500.00
2500,00
2500,00
2500.00
2500,00
2500,00
2500,00
5000.00
5000.00
5000.00
5000.00
5000.00
5000.00
2500.00
2500,00
2500,00
2500.00
5000.00
10000.00
10000,00
10000. OU
10000.00
10000. OU
,/stu
1.797
0. 756
2.169
2.181
3.181
1.591
0.780
1,811
0.119
1.J82
0.780
1.177
2,116
1,170
3.119
1.110
1.636
0.398
2.115
0.536
0.822
3.087
1 .787
0.837
1,973
1.258
1.781
1.119
2,521
2.33?
3,560
3,213
I .866
I. 829
2.156
2,793
2.502
0.085
0,085
0.7/2
1.1/6
1, 197
1.221
0,8/6
0,983
1 ,522
0,651
1,051
0.619
0.619
0,565
TSP(l»/StC)
3.050
1.116
1.528
2.816
2.099
2,566
1.037
1,330
0,161
0.925
0.559
0,912
1.169
0.810
2.100
1.658
0.991
0,135
1.170
0.161
1,026
3.880
2.569
0,963
1.131
0.820
1.037
0,731
1,511
1,392
2.119
1.599
0.859
3.928
1.126
i .615
3.110
0. 190
0.190
0.958
1.031
0,989
0,611
0,601
1 .263
1 .916
0.905
0.833
0.613
0.561
0.705
HS(I» )
10.00
10,00
10.00
10.00
10,00
10.00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10,00
10.00
10.00
10.00
10,00
10,00
10.00
10,00
10,00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10,00
10,00
10,00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
10.00
DC*}
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
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
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
VS(MXStC)
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
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
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.o
0.0
0,0
0.0
0.0
0.0
0.0
rscoo
0.0
0,0
0.0
0.0
0.0
0.0
0.0
o.o
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
0.0
0,0
0.0
0.0
0.0
0.0
0.0
0.0
0,0
0.0
o.o
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
SA(M**2/SfcC)
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
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
0.0
0.0
0.0
0.0
0.0
0,0
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
0.0
-------
'(S)33*nOS iNtOH
0*0
0*0
0*0
0*0
0*0
0*0
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
0*0
0*0
(33S/?»»W)»S
O'O
O'O
O'O
0*0
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
0*0
O'O
O'O
O'O
O'O
O'O
(30)Si
O'O
0*0
O'O
O'O
O'O
O'O
O'O
0*0
O'O
O'O
O'O
O'O
0*0
0*0
O'O
O'O
O'O
O'O
O'O
(338/rtlSA
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
0*0
0*0
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
O'O
(H)Q
OO'OI
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00*01
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085/
OBS/
OBS/
09S/
01
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         IW03
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