EPA 904/9-77- 014
GREENVILLE, SOUTH CAROLINA
AIR QUALITY MAINTENANCE
PLANNING AND ANALYSIS
JUNE 1977
FINAL REPORT
SB
r
^ '
U.S. ENVIRONMENTAL PROTECTION AGENCY
REGION IV
ATLANTA,GEORGIA 30309
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EPA 904/9-77-014
3 * -i *-•*'. 8
(ieorgia J0J85
' ;Vi *
GREENVILLE, SOUTH CAROLINA
AIR QUALITY MAINTENANCE PLANNING
AND ANALYSIS
BASELINE AND PROJECTION YEARS ANALYSIS
BOA CONTRACT 68-02-1380 TO NO. 12
U. S. Environmental Protection Agency
South Carolina Department of Health
and Environmental Control
Bureau of Air Quality
Submitted by
ENGINEERING-SCIENCE, INC.
7903 Westpark Drive
McLean, Virginia 22101
FINAL REPORT
Submitted to
Region IV
and
June 1977
i
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This air pollution report is issued by Region IV, 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 Techni-
cal Information Service, 5285 Port Royal Road, Springfield, Virginia
22151.
This report was furnished to the Environmental Protection Agency
by Engineering-Science, McLean, Virginia in fulfillment of EPA Contract
68-02-1380, Task Order No. 12. This report has been reviewed by Region
IV, EPA and approved for publication. Approval does not signify that
the contents necessarily reflect the views and policies of the Environ-
mental Protection Agency, nor does mention of trade names or commercial
products constitute endorsement or recommendation for use.
Region IV Publication No. EPA 904/9-77-014.
ii
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BIBLIOGRAPHIC DATA 1. Report No. 2.
SHEET EPA 904/9-77-014
3. Recipient's Accession No.
4. Title and Subtitle
GREENVILLE, S. C. AIR QUALITY MAINTENANCE PLANNING
AND ANALYSIS, BASELINE AND PROJECTION YEARS ANALYSIS
5. Report Date
June 1977
6.
7. Author(s)
J. Kenneth Allison
8. Performing Organization Rept.
No.
9. Performing Organization Name and Address
ENGINEERING-SCIENCE
7903 Westpark Drive
McLean, Virginia 22101
10. Project/Task/Work Unit No.
Task Order No. 12
11. Contract/Grant No.
68-02-1380
12. Sponsoring Organization Name and Address
Environmental Protection Agency, Region IV,
Atlanta, Georgia and South Carolina Department of
Health and Environmental Control
13. Type of Report & Period
Covered
Final
14.
15. Supplementary Notes
16. Abstracts
This report gives the results of the work done by Engineering-Science in support
of the air quality maintenance analysis for the Greenville, South Carolina Air
Quality Maintenance Area. The work was divided into two phases: the establish-
ment of the source-receptor relationship through utilization of the Air Quality
Display Model for the 1974 baseline year. Inputs to the model included the
area source emission invent.ory conducted by Engineering-Science under another
contract, the point source inventory and air quality data provided by the S. C.
Department of Health and Environmental Control and Meteorological data from the
National Climatic Center. With the established source-receptor relationship
projected air quality was calculated using projected emission inventories.
Particulate matter only was considered. The work was accomplished in accord-
ance with procedures outlined with the Guidelines for Air Quality Maintenance
Planning and Analysis.
17. Key Words and Document Analysis. 17a. Descriptors
Air Pollution
Air Quality Maintenance
Suspended Particulates
Air Quality Modeling
17b. Identifiers/Open-Ended Terms
17c. COSATI Field/Group
18. Availability Statement
19.. Security Class (This
Report)
UNCLASSIFIED
21. No. of Pages
200
20. Security Class (This
Page
Unclassified
22. Price
form NTIS-88 iRSv. 10-73) ENDORSED BY ANSI AND UNESCO. THIS FORM MAY BE REPRODUCED uicomm-dc »ae#-P74
ill
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TABLE OF CONTENTS
Page
CHAPTER I
INTRODUCTION
1-1
CHAPTER II
DATA SOURCES AND GRID SYSTEM
II-l
CHAPTER III
BASELINE YEAR ANALYSIS AND MODEL CALIBRATION
III-l
CHAPTER IV
PLANNING YEARS ANALYSIS
IV-1
CHAPTER V
CONCLUSIONS AND RECOMMENDATIONS
V-l
APPENDIX A
BASELINE YEAR CALIBRATION AND ANALYSIS COMPUTER PRINTOUTS
APPENDIX B
BASELINE YEAR AREA SOURCE COMPUTER PRINTOUTS
APPENDIX C
1975 ANALYSIS COMPUTER PRINTOUTS
APPENDIX D
1980 ANALYSIS COMPUTER PRINTOUTS
APPENDIX E
1985 ANALYSIS COMPUTER PRINTOUTS
TABLE III-l
1974 COMPARISON OF OBSERVED CONCENTRATION AND CALCULATED
CONCENTRATION VALUES RESULTING FROM UNPAVED ROADS ALONE III-6
TABLE III-2
1974 COMPARISON OF OBSERVED CONCENTRATION AND CALCULATED
CONCENTRATION VALUES RESULTING FROM UNPAVED ROADS ALONE III-7
TABLE III-3
AQDM STATISTICS RESULTING FROM SEVERAL VALUES OF THE
PAVED ROAD EMISSION FACTOR III-8
TABLE III-4
1974 OBSERVED VALUES OF STANDARD GEOMETRIC DEVIATION 111-10
LIST OF TABLES
iv
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TABLE OF CONTENTS (Cont'd)
Page
TABLE IV-1 3
PREDICTED CONCENTRATION AT FIVE MAXIMUM RECEPTORS (yg/m )
IV-1
TABLE V-l -
ANNUAL ARITHMETIC MEAN CONCENTRATION (yg/m )
V-l
TABLE V-2
WIND SPEED - STABILITY DISTRIBUTION (%)
V-4
LIST OF FIGURES
FIGURE II-l
GREENVILLE AIR QUALITY MONITORING STATIONS II-3
FIGURE II-2
GREENVILLE AQDM ANALYSIS GRID SYSTEM II-4
FIGURE II-3
GREENVILLE AQDM ANALYSIS GRID SYSTEM INSET II-5
FIGURE III-l -
TOTAL CONCENTRATION FIELD ANNUAL ARITHMETIC MEAN (yg/m ) III-2
FIGURE III-2
CALCULATED VS OBSERVED ANNUAL ARITHMETIC MEAN III-3
FIGURE III-3 .
AREA SOURCES CONCENTRATION FIELD ANNUAL ARITHMETIC MEAN
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CHAPTER I
INTRODUCTION
Engineering-Science, under contract to the Environmental Protection
Agency, Region IV, (EPA) is assisting the South Carolina Department of Health and
Environmental Control in the analysis of current and projected air quality.
Two air quality maintenance areas (AQMA) are involved, both identified for total
suspended particulate (TSP) matter only. This report addresses the Greenville
AQMA. A companion report is available for the Charleston AQMA.
Air quality maintenance planning and analysis is composed of two
parts:
o The analysis phase in which it is determined whether or not air
quality standards have been attained and will be maintained through-
out an appropriate planning period. By the use of atmospheric
dispersion models with current and projected air pollutant emission
inventories and representative meteorological data, estimates of
the resulting air quality can be made.
o A planning phase in which, if indicated by the analysis, a plan
is developed involving various control strategies to reduce emissions
by a sufficient amount to attain and maintain standards. If a revision
of the State Implementation Plan is required, the procedures out-
lined in 40 CFR 51 Subpart D must be followed.
This report documents the results of the dispersion modeling for the
Greenville AQMA analysis phase for the baseline year 1974 and the projection
years 1975, 1980, and 1985. If it is determined by the EPA Administrator, after
review of this and other reports of the analysis, that a maintenance plan is
required, Engineering-Science will assist the State, as requested, in develop-
ing such a plan under this same contract.
Chapter II of this report describes the grid system and summarizes the
data sources which were utilized in the dispersion model. Chapter III is
the analysis of the 1974 baseline year air quality including the model
calibration results. Chapter IV summarizes the dispersion model projected
air quality for 1975, 1980, and 1985. Chapter V compares the 1975
projected air quality as estimated by the model with actual measured air
quality and contains the conclusions and recommendations reached by the
1-1
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authors of the report. These conclusions and recommendations should not
be construed as representing those of the Department of Health and Environ-
mental Control.
1-2
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CHAPTER II
DATA SOURCES AND GRID SYSTEM
The Air Quality Display Model (AQDM) modified to use the Briggs plume
rise equation is an approved climatological model for determining the re-
lationship between sources of air pollution and the resulting air quality.
Based on the Gaussian dispersion of airborne material, AQDM calculates
the contribution of all point and area sources at each receptor in a field
of receptors for each of 576 meteorological conditions. These are then
summed in accordance with the frequency of occurence of each condition.
An important advantage of AQDM over other available climatological models
is its inclusion of a source contribution file. This computer code allows the
operator to determine the source of the contaminant for selected receptors.
A disadvantage of AQDM is its inability to estimate concentrations for any
period other than annual average concentrations.
Data inputs to AQDM include the emission inventory, meteorological data,
and for calibration purposes, air quality data. These are discussed below.
POINT SOURCE EMISSION INVENTORIES
The 1974 inventory was provided by the Department of Health and Environ-
mental Control in the form of magnetic tape and updated National Emission
Data System (NEDS) forms. The NEDS forms were verified, checked and corrected
before entry into the Emission Inventory System (EIS) maintained by Engineering-
Science for the Department. After all corrected entries were made a printout
of the EIS master file was forwarded to the Department for final approval.
Projected point source inventories were provided by the Department in
the form of AQDM load sheets listing source strength, stack parameters and
location.
AREA SOURCE EMISSION INVENTORIES
Both baseline year and projected area source emission inventories for
27 source categories allocated to subcounty areas were provided by Engineering-
Science under another EPA contract in the form of AQDM load sheets. The
data and methodologies for compiling the inventories were reviewed and approved
by the Department. A report of the area source emission inventory project is
available.
II-l
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METEOROLOGICAL DATA
The required three way joint frequency distribution of wind direction, wind
speed and stability (STAR program) was obtained from the National Climatic Center
by the EPA. Data for the Greenville-Spartanburg Jet Port were used: 1974 data
for the baseline year analysis, 1975 data for the 1975 projection year and
the five year period, 1963 to 1967, for the 1980 and 1985 projection years.
AIR QUALITY DATA
For the baseline year model run air quality data are required in order that
the regression line relating observed and calculated air quality may be de-
termined for use in the planning years analyses. These data, 1974 annual
arithmetic mean concentrations, for nine monitoring stations were provided
by the Department. The locations of the stations are shown in Figure II-l.
Two of the monitoring stations deserve comment. Station No. 1, at the
dog pound, is located in an area subject to local sources of fugitive dust
from truck traffic which cannot be successfully handled by the model. On
the other hand, the Tigerville Station No. 9 is located outside the area
of influence of most sources to measure background concentration. All other
stations are considered to be representative of the general urban air quality
at their locations.
AQDM AREA SOURCE GRID SYSTEM
The AQDM considers each area source as a virtual point source located upwind
at a sufficient distance such that the crosswind width of the point source plume
at the downwind edge of the grid is equivalent to the crosswind dimension of the
grid. Inputs for area sources include the source strength and height and
the area and centroid location of the grid area. It is not necessary that the
areas be square. However, internally, the computer program considers each
area to be square.
The grid system used in this application was based on census tracts. This
is preferable to introducing an artificial square grid system since census tracts
are generally the smallest area for which data are available.
The grid used for the Greenville AQDM analysis is shown in Figures II-2 and
II-3.
II-2
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FIGURE II-l
GREENVILLE AIR QUALITY MONITORING STATIONS
3872
3870
3868
3866
3864
5 3862
S 3860
Sj 3858
3856
3854
3852
3850
3848
3846
3844
364 366 368 370 372 374 376 378 380 382 384 386 388 390 392 394
HORIZONTAL (km)
<¦
Gr
City
>er
Han
©Nor
Mf
ris
3-
1
arke
W&i
> A
¦4,1 V
og Pi
und
a*.
dgef
Drlv
eld
t
<1
©
©
Curb
V N
arke-
nH.
F«r1s
Ro
ad
o Out
e Po\
rer
II-3
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figure n-2
GREENVILLE AQDM ANALYSIS GRID SYSTEM
II-4
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FIGURE H-3
GREENVILLE AQDM ANALYSIS GRID SYSTEM
INSET
11-5
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CHAPTER III
BASE-LINE YEAR ANALYSIS AND MODEL CALIBRATION
Figure III-l shows the results of the base-line year AQDM model analysis.
The isopleths are lines of equal annual arithmetic mean TSP concentration
3
(yg/m ). The regression equation which relates observed to calculated values
is expressed as
Y - 29.4 + 1.0486 X
where Y is the observed value and X is the calculated value. The Y intercept
may be considered as a measure of general TSP background concentration resulting
from distant sources. The value of 29.4 agrees quite closely with the measured
value at the Tigerville background station. The slope of near unity suggests
that no systematic error has occurred in either the observed or calculated values,
and more important, that a change in calculated values, in response to a projected
emission inventory, would result in a corresponding and equal change in ob-
served values.
Figure III-2 shows the XY plot of the values for the nine monitoring stations
and the resulting regression line. The correlation coefficient between Y and X
is 0.720. A correlation coefficient as low as 0.666 would indicate, with 95%
confidence, that the relationship is not due to chance alone. The complete
computer run is attached as Appendix A.
In an attempt to achieve a better understanding of source category contri-
butions to the concentration field several diagnostic model runs were made.
Figure III-3 shows the concentration field for all area sources alone. As can
be seen, area source contributions account for by far the greater amount of the
total field. For instance at receptor 372 horizontal, 3,856 vertical the
3 3
calculated concentration of 60 ug/m is composed of 30 yg/m area sources,
3 3
29 yg/m background sources and, consequently, 1 yg/m from point sources. It
is only near the receptor at 370 horizontal, 3860 vertical that point sources
contribute significantly to degraded air quality. At that receptor the cal-
3 3 3
culated value of 64 yg/m is composed of 29 yg/m background, 17 yg/m from
3
area sources, and 18 yg/m from point sources. The computer run for area sources
only is attached as Appendix B.
III-l
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FIGURE III-l
TOTAL CONCENTRATION FIELD ANNUAL
ARITHMETIC MEAN (ug/m3)
Horizontal (km)
III-2
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FIGURE III-2
CALCULATED VS OBSERVED ANNUAL ARITHMETIC MEAN
III-3
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FIGURE III-3
AREA SOURCES CONCENTRATION FIELD ANNUAL ARITHMETIC MEAfl (*g/m3)
Horizontal (km)
III-4
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Because of the Importance of the area source contributions and the major
contributions of paved and unpaved roads two additional diagnostic runs were
made for these two categories. Unpaved roads account for 65% (8,563 tons/year)
of total area source emissions. However, because of the spatial distribution
of the source, a flat concentration field (i.e. a small concentration gradient)
results from this source alone. Table III-l compares observed concentration
values with calculated values from unpaved road emissions. It is apparent that
manipulation of the emissions from unpaved roads would only affect the Y inter-
cept. A reduction in emissions of 50% would result in a reduction in concentra-
3
tion of approximately 3 yg/m throughout the study area.
Initially, emissions from paved roads were calculated using an emission
factor of 1.75 g/VMT for days in. which no rain occurred. Emissions were
assumed to be zero on the 120 days reporting rain. Using this factor (total
emissions of 1465.5 tons/year) the following statistics were obtained from
the model run:
Y intercept: 23.4
Slope: 1.4082
Coefficient: 0.718
Confidence level: 0.666
The resulting values at the monitoring stations are shown in Table III-2.
Although the model did, in fact, calibrate, the slope of the regression
line was not considered acceptable. In an attempt to improve the model output
successive runs were made in which the emission factor for paved roads was
increased by integer multiples of the original emission factor.^ The
resulting statistics are shown in Table III-3. Subjectively, considering all
statistics, it was determined that an emission factor twice the original value
or 3.50 g/VMT appeared most appropriate. This is the value used in the Appendix
A and B model runs.
^ It is noted that this procedure did not require computer assistance. The
total calculated concentration at each monitoring station was increased
by incremental values of the paved road contributions given in Table III-2.
The regression statistics were then computed with a programmable desk
calculator.
III-5
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No.
1
2
3
4
5
6
7
8
9
(1)
TABLE III-l
1974 COMPARISON OF OBSERVED CONCENTRATION AND CALCULATED
CONCENTRATION VALUES RESULTING FROM UNPAVED ROADS ALONE
Station
Concentration (yg/m )
Name
Dog Pound
Curb Market
Sedgefield
W. Farris
Parker W & S
Norris Mfg.
Simpsonville
Greer
Tigerville
Observed
69
67
41
44
58
46
48
52
30
Calculated
(1)
7
7
6
7
7
6
7
5
6
Background concentration of 29 yg/m is not included.
II1-6
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No.
1
2
3
4
5
6
7
8
9
(1)
TABLE III-2
1974 COMPARISON OF OBSERVED CONCENTRATION AND CALCULATED
CONCENTRATION VALUES RESULTING FROM PAVED ROADS ALONE
3
Station Concentration (yg/m )
Name
Observed
Calculated
Dog Pound
69
5
Curb Market
67
10
Sedgefield
41
4
W. Farris
44
5
Parker W & S
58
4
Norris Mfg.
46
2
Simpsonville
48
1
Greer
52
3
Tigerville
30
1
3
Background concentration of 29 yg/m is not included.
1II-7
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TABLE III-3
AQDM STATISTICS RESULTING FROM SEVERAL
VALUES OF THE PAVED ROAD EMISSION FACTOR
Emission
Y
Correlation
Confidence
Factor
Intercept
Slope
Coefficient
Level
1.75
23.4
1.4082
0.718
0.666
3.50
29.4
1.0486
0.720
0.666
5.25
32.8
0.7619
0.694
0.666
7.00
33.9
0.6118
0.692
0.666
8.75
34.7
0.5109
0.690
0.666
III-8
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The AQDM calculates annual arithmetic mean concentrations. Ambient air
quality standards for particulate matter are based on annual geometric mean
concentrations. Larsen^ has suggested that the annual geometric mean con-
centration,
exp (0.5 In Sg)
M is the annual arithmetic mean concentration and Sg is the standard geometric
deviation of the log-normally distributed samples. Values of Sg are available
for the nine monitoring stations and are given in Table III-4. In selecting a
value to be used in the equation above, 1.55 was used for the Greenville urban,
area and 1.65 outside this area. The resulting annual geometric mean concen-
tration field is shown in Figure III-4.
Ambient air quality standards also apply to 24—hour concentrations, not
to be exceeded more than once per year. Larson has further suggested a method
of estimating the second highest 24-hour concentration value from annual average
data. The second highest concentration,
C - MgSgZ
where z » 2.62 is a statistical parameter which defines the frequency of the
second highest value in a log-normally distributed sample of 365. Using a
geometric mean of 58 from Figure III-4 and the urban geometric deviation, C
3 3
is found to be 183 yg/m . This is to be compared with a value of 159 ug/m ,
the second highest observed concentration in 1974.
A Mathematical Model for Relating Air Quality Measurements to Air Quality
Standards, EPA, AP-89, 1971.
III-9
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TABLE III-4
1974 OBSERVED VALUES OF STANDARD
GEOMETRIC DEVIATION
Station 2
No. Name Sg (ug/m )
1 Dog Pound 1.6
2 Curb Market 1.57
3 Sedgefield 1.6
4 W. Farris 1.5
5 Parker W & S 1.5
6 Norris Mfg. 1.5
7 Simpsonville 1.60
8 Greer 1.71
9 Tigerville lt8
111-10
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FIGURE 111—4
TOTAL CONCENTRATION FIELD ANNUAL
GEOMETRIC MEAN (ug/m3)
HORIZONTAL (km)
III-ll
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CHAPTER IV
PLANNING YEARS ANALYSIS
Figures IV-1 through IV-3 show the results of the planning years AQDM
analyses. For these results inputs into the model included a slope of 1.0
3
and background concentrations of 29.0 ng/m . Computer printouts are contained
in Appendices C through E. Table IV-1 summarizes the model predicted concentra-
tions at the five receptors with maximum values.
Although maximum concentrations predicted by the model show little change
over the decade, the areas impacted by moderate concentrations increase over
3
the years. For instance, note the increase in area enclosed by the 52 yg/m
isopleth between 1980 and 1985. The results for 1975 are discussed more fully
in Chapter V.
TABLE IV-1
PREDICTED CONCENTRATION AT FIVE
MAXIMUM
RECEPTORS
Year
Receptor
1974
1975
1980
1985
54
64
65
60
63
67
60
63
59
61
33
58
60
61
64
68
56
59
54
56
83
55
58
53
55
IV-1
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FIGURE IV-1
TOTAL CONCENTRATION FIELD ANNUAL
ARITHMETIC MEAN (ug/m3)
YEAR 1975
Horizontal (km)
IV-2
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FIGURE IV—2
£
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FIGURE IV-3
TOTAL CONCENTRATION FIELD ANNUAL
ARITHMETIC MEAN (ug/m3)
YEAR 1985
Horizontal (km)
IV-4
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CHAPTER V
CONCLUSIONS AND RECOMMENDATIONS
1975 AIR QUALITY DATA
Air quality data reported for 1975 showed a significant reduction in
concentration over that for 1974. Only two stations reported an increase.
3
At Station No. 1, the dog pound, concentrations increased by 8 yg/m . As
discussed earlier, it is believed that this station is influenced to a sub-
stantial degree by extremely local sources of dust and does not represent
the general urban air quality. The concentration at Station No. 4 increased
3
by 1 pg/m . Annual arithmetic means for the monitoring network are
summarized in Table V-l. An 8% improvement in air quality was observed
3
from 1974 to 1975. If the 1974 background of 29 pg/m and an assumed 1975
3
background of 27 pg/m (Tigersville data) are removed, an improvement of
9% is observed.
TABLE V-l
ANNUAL ARITHMETIC MEAN CONCENTRATION (ue/m3)
Station Annual Mean
No.
Name
1974
1975
1
Dog Pound
69
77
2
Curb Market
67
57
3
Sedge Field
41
40
4
W. Farris
44
45
5
Parker W & S
58
50
6
Morris Mfg.
46
42
7
Simpsonville
48
42
8
Greer
52
46
9
Tigerville
30
27
Average
51
47
Average w/o No. 1
48
44
Average w/o Background
22
20
V-l
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Figure V-l is a plot of the 1974 and 1975 monitoring data. A correlation
coefficient between the two data sets of 0.96 was calculated, with a slope of
0.75 and an intercept of 7.6. Station No. 1 is excluded for the reason cited
above. The slope of 0.75 reflects the improvement in observed air quality
shown in Table V-l. The high correlation coefficient indicates that the
improvement occurred throughout the area monitored by the network.
Concentrations predicted by the model for 1975, based on projected emissions,
showed a nearly uniform increase of 4% in concentration. The regression line
between 1975 and 1974 model calculated concentrations is shown on Figure V-l.
The regression statistics were calculated to be: intercept, -1.5, slope, 1.08
and correlation coefficient, 0.99. The 1975 projected point source and area
source emission inventories were less than 1% greater than the 1974 inventories.
The 4% increase in calculated concentrations, with only a 1% increase in
emissions, can be explained only by a significant difference in meteorological
conditions between 1974 and 1975. Since the increase was uniform (as shown
by the high correlation coefficient), wind direction differences were not
important. The difference must result from changed wind speed and stability.
Table V-2 shows the joint wind speed - stability distributions for 1974,
1975, and the average 1963 - 1967 period. Mean wind speeds for the three
distributions are:
o 1974: 6.1 knots
o 1975: 5.5 knots
o 1963 - 1967: 6.5 knots.
It appears that 1975 was an anomalous year with wind speed 15% less than
average and 10% less than 1974. Furthermore, 1975 had a larger percentage of
stable conditions as would be expected with lower wind speeds. Because of
this the model calculated increase in concentration would be greater than that
due to increased emissions alone; and more important, had 1975 not been an
anomalous year with respect to wind speed, observed concentrations would
likely have been less.^ The improvement in air quality between 1974 and 1975
might have been 10% greater had the average wind speed for 1975 not been 10%
less than that for 1974.
^ This conclusion is based on the classical interpretation of the relationship
of mean wind speed to concentrations. It is to be noted that large in-
creases in wind speed may increase source strength from blowing dust and
thus increase concentration.
V-2
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FIGURE V-l
COMPARISON OF 1974 AND 1975
OBSERVED ARITHMETIC MEANS SOLID LINE
AND CALCULATED ARITHMETIC MEANS DASHED LINE
80
70
60
50
40
~
\/
b /
*7
N*
/
/
/,
30
20
10
V
/
/
/
10 20 30 40
50
60 70
1974 Concentration (pg/m )
V-3
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TABLE V-2
WIND SPEED - STABILITY DISTRIBUTIONS (%)
Stability
Class
0-3
4-6
1974
Wind Speed
7-10
Class
11-16
(Knots)
17-21
721
Total
A
0.3
0.6
0
0
0
0
0.9
B
2.5
5.0
2.0
0
0
0
9.5
C
1.2
4.7
5.4
1.0
0
0
12.3
D
4.7
10.5
14.6
9.4
0.5
0.1
39.8
E
14.0
19.0
4.5
0
0
0
37.5
Total
22.7
39.8
26.5
1975
10.4
0.5
0.1
100.0
A
0.8
1.1
0
0
0
0
1.9
B
3.8
5.4
1.8
0
0
0
11.0
C
1.2
4.0
5.5
0.3
0
0
11.0
D
4.6
12.8
12.7
6.4
0.8
0.1
37.4
E
17.6
17.5
3.6
0
0
0
38.7
Total
28.0
40.8
23.6
1963 - 1967
6.7
0.8
0.1
100.0
A
0.3
0.8
0
0
0
0
1.1
B
2.3
4.1
2.0
0
0
0
8.4
C
0.9
4.6
6.1
1.0
0
0
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D
3.5
10.0
13.9
10.4
1.3
0.3
39.4
E
11.3
21.5
5.7
0
0
0
38.5
Total
18.3
41.0
27.7
11.4
1.3
0.3
100.0
-------�
COMPARISON OF 1975 OBSERVED AND CALCULATED CONCENTRATIONS
It has been shown that a significant improvement in air quality was
observed between 1974 and 1975. On the other hand, the model predicts for 1975
a very small degradation of air quality after the wind speed difference is removed.
The discrepancy could be caused by several factors:
o Inherent weaknesses in the model.
o Errors in the empirical method of estimating the paved road emission
factor in the baseline year analysis.
o Other anomalous meteorological conditions, increased 1975 precipitation,
for instance.
o Overestimation of projected 1975 emissions as compared to 1974.
It is difficult to determine which of these or other causes resulted
in the over-prediction. However, the magnitude of the over-prediction
certainly tends to point the finger at the 1975 emission inventory. It could
be that rather than expansion, recession in the local economy was experienced.
Such would be manifested not only in reduced emissions from point sources
but in all emissions that depend upon general human activity and movement.
CONCLUSIONS
1. The dispersion model, calibrated to the 1974 source—receptor relation-
ship, substantially over-predicted the 1975 concentration.
2. Maximum annual arithmetic means predicted by the model and maximum
annual geometric means estimated by the relationship,
exp (0.5 In 1.55)
are as follows:
AAM AGM
1974 64 58
1975 65 59
1980 61 55
1985 64 58
V-5
-------�
3. Second highest 24-hour concentrations estimated by the relationship,
C = Mg (0.55)2*62
are as follows:
1974
183
1975
186
1980
173
1985
183
4. Annual average ambient air quality standards, both primary and
secondary, have been attained and will be maintained throughout the general
Greenville urban area without revision of the State Implementation Plan.
5. Primary 24-hour standards have been attained and will be maintained
throughout the general Greenville urban area without revision of the State
Implementation Plan.
6. Secondary 24-hour standards have been attained, and, in view of the over
prediction of the model, will be maintained throughout the general Greenville
urban area without revision of the State Implementation Plan.
7. Although primary standards have been attained, neither the secondary
24-hour standard nor the secondary annual average standard has been attained
in a small, localized area near the Greenville dog pound. This area is not
representative of the Greenville urban environment to which the general
population may be exposed. Unless localized reduction of fugitive dust
emissions is accomplished, secondary standards will not be attained or
maintained in this area.
RECOMMENDATIONS
1. That the area be dedesignated as an AQMA.
2. That the State Implementation Plan not be revised at this time.
3. That an investigation be conducted to determine the differences in
economic indicators between 1974 and 1975 in order to better understand the
reason for the 1974 to 1975 air quality improvements. Candidate indicators
might include:
o Industrial production data
o Local employment
o County gasoline tax
V- 6
-------�
o Sales tax
o Traffic counts
4. That both air quality and economic indicators be tracked in the future
to determine a viable relationship for projecting air quality.
5. That fugitive sources near the dog pound be inventoried on a micro-
scale basis for possible corrective action.
V-7
-------�
APPENDIX A
BASELINE YEAR CALIBRATION AND
ANALYSIS COMPUTER PRINTOUTS
-------�
AQDM PUN -BASE YEAR- FtM GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
SQUFCE DATA
ANNUAL
SOURCE
STACK
DATA
1 SOURCE
SntRCE
LOCATION
SOURCE AREA I
EMISSION RATE
1 NUMBER
SOURCE 10.
(KILOMETERS )
SQUARE 1
(TONS/OAY)
HT 01 AM
VEL
TEMP |
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3869.4 I
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387.6
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374.7
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TRACT 29.00
379.1
3850.1 1
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1 10.0 0.0
0.0
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TRACT 30.00
385.3
3645.7 I
133.00
0. 0 2. 301
1 10.0 0.0
0.0
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38I*Z
3 836.1 L
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TRACT 32.00
377.1
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1 10.0 0.0
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372.0
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368.9
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366.9
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62.10
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L La*Q 0*Q_
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-------�
AODM PUN -BASE YEAR- FOR GREENVILLE COUNTY,
METEOROLOGICAL INPUT DATA FOR ANNUAL
SOUTH CAROLINA
3/17/76
MIXING CEPTH = 950. METERS
AMBIENT TEMPERATURE = 62. DEGREES,FAHRENHEIT
AMBIENT P*ESSU*E = 1000. MILLIBARS
STABILITY CLASS I
V.INOSPEED CLASS
DIRECTION
1
2
3
4
5
1
N
.00009
.00034
.0
.0
.0
.0
KNE
.0
.0
.0
.0
.0
.0
KE
.00062
.00069
.0
.0
.0
.0
EHE
.00044
. 0
.0
.0
.0
.0
E
.00044
.0
.0
.0
.0
.0
fSE
.00009
.00034
.0
. 0
.0
.0
SE
.0
.0
.0
.0
.0
.0
SSE
.00009
.00034
.0
.0
.0
. 0
S
.00039
.00034
.0
.0
.0
.0
SSW
.00009
.00034
.0
.0
.0
.0
sw
.0J037
.00137
.0
.0
.0
.0
kSW
.00028
.00103
.0
.u
.0
.0
k
.U0019
.00069
.0
.0
.0
.0
kNW
.00044
.0
.0
.0
.0
.0
NW
.00009
.00034
.0
.0
.0
.0
f>NW
.00009
.00034
.0
.0
.0
. 0
-------�
AQOM RUN -BASE YEAR- FOR GREENVILLE COUNTY, SOUTH CAROLINA
METECROL3GICAL INPUT DATA FOR AMNUAL
3/17/76
.ITY CLASS 2
MINDS PEED
CLASS
1 CIRtCTION
1
2
3
4
5
1
N
.00259
.0C582
.00240
.0
.0
.0
mi
•00360
.00445
.03137
.0
.0
.0
HP
.00167
.00308
.00034 .
.0
.0
.0
ENE
.00051
.00206
.00069
.0
.0
.0
E
.00303
.00685
.00103
.0
.0
.0
FSE
.00046
.00137
.0
.0
.0
.0
.00124
.00206
.0
.0
.0
.0
SS?
.00051
.00206
.0
.0
.0
.0
s
.00182
. 00514
.002 74
.0
.0
.0
SSH
.00124
.00206
.00206
.0
.0
.0
SH
.00182
.00514
.00377
.0
.0
.0
WSH
.00133
.00343
.00137
.0
.0
.0
K
.30138
.00411
.00274
.0
.0
.0
ViNM
.00083
.00137
.00034
.0
.0
.0
NH
.30151
.00069
.0
.0
.0
.0
ItfW
.30115
.00069
.00069
.0
.0
.0
-------�
AQDM RUN -BASE YEAH- FOR GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
METEOROL3GICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 3
WINOSPEED CLASS
CIRECT ION
I
2
3
4
5
6
N
.00150
.00479
.00651
.00034
.0
.0
KNE
.00062
.00308
.00343
.00069
.0
. 0
NE
.00148
. 00445
.0044 5
.0
.0
.0
ENE
.00017
.00206
.00445
.0
.0
.0
E
,00219
•0C411
.00206
. 0
.0
.0
ESE
.00011
.00137
.00034
.0
.0
.0
SE
.oooae
.00171
.00069
.0
.0
.0
SSE
.00020
.00240
.00137
.0
.0
.0
<
.30331
.00377
.004 79
.00034
.0
.0
SSW
.00060
.00274
. 00206
.00034
.0
.0
SH
.00127
.00651
.00993
.00377
.0
.0
I«SW
.0009*
.00240
.00548
.00 240
.0
.0
H
.00096
.00274
.00514
.00171
.0
.0
KNW
.00014
.00171
.0
.0
.0
.0
KU
.00057
.00240
.00206
.00034
.0
. 0
NNU
.00040
. 00034
.00137
.0
.0
.0
-------�
AgOM RUN -BASE YEAR- FOR GREENVILLE COUNTY. SOUTH CAROLINA 3/17/76
HETECROLQSI CAL INPUT DATA FOR ANNUAL
1TY CLASS 4
HINDSPEED
CLASS
I DIRECTION
1
2
3
4
5
6
*
.00452
.01062
.01130
.00856
.0
.0
NNE
.00470
.00925
.02192
.00891
.0
.0
HE
. 002 70
.00925
.01678
.00753
.0
.00034
ENE
.00180
.00617
.00582
.00343
.0
.0
F
.00490
.00856
.00479
.00034
.0
.0
ese
.00108
.00171
.00034
.00069
.0
.0
SE
.00351
.00445
.00137
.0
.0
.0
SSE
.00209
.00548
.00206
.00034
.0
.0
S
.00463
.01130
.01199
.00445
.0
.0
SSM
.00158
.00479
.01027
.00651
.00069
.0
SM
.30412
.01301
.02877
.02569
.00206
.00034
HSH
.00202
.0C993
.01884
.01199
. 001 03
.00034
M
.003 46
.00411
.00685
.00822
.00137
.0
WMM
.00102
.00137
.00034
.00137
.0
.0
NH
.00244
•0C274
.00069
.00103
.0
.0
NNH
.00193
.00206
.00411
.00479
.0
.0
-------�
ACDM RUN -BASE YEAR- FGR GREENVILLE COUNTY. SOUTH CAROLINA 3/17/76
METECPOLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 5
VINDSPEED CLASS
DIRECTION
1
2
3
4
5
(
K
.0 3068
.04281
.008 56
.0
.0
.0
NNE
.01552
. 01884
. 00343
.0
.0
.0
ME
.00960
.01301
.00171
.0
.0
.0
ENE
.00239
.00240
.00069
.0
.0
.0
E
.00642
.00445
.03034
.0
.0
.0
es;
.00307
.00171
.00034
.0
.0
.0
SE
.00415
.00411
.0
.0
.0
.0
SSE
.00601
.00617
.0
.0
.0
.0
S
.01127*
.01438
.00137
.0
.0
.0
SSH
.01100
.01336
.00240
.0
.0
.0
sw
.01344
.01918
.00651
.0
.0
.0
WSM
.00596
.01404
.00582
.0
.0
.0
W
.00736
.01438
.00582
.0
.0
.0
WNH
.00331
.00582
.00069
.0
.0
.0
MM
.00356
. 00514
.002 06
.0
.0
.0
NNW
.00634
.01062
.03514
.0
.0
.0
-------�
CALIBRATION FOR GREENVILLE COUNTY, SOUTH CAROLINA
i/17/76
REGRESSION PARAMETERS FOR CALCULATED I X-A XI SI VS. OBSERVES (Y-mXISI CONCENTRATICNS
POLLUIANT Y-I&TEPCEPT SLOPE KEGPESSION COEFFICIENTS
> _ltllCe.QCa&!li/CUa_KEIEEJL_ -»LiH£UIE.D_ _a*_CCHIU_i.E¥EL_
I
PARTICULATES 29.4 I.C486 0.720 0.666
PARTICULATES FACTCR NCT WRITTEN TO FILE
-------�
CALIBRATION FOR GREENVILLE CUJNTY, SOUTH CAROLINA 3/17/76
L £LQ&aEUILUii_lifiI£__ 1
I PARTICULATE I RECEPTOR. LOCATION | PARTICULATE CONCENTRATI CN |
I MONITORING I (KILOMETERS) 1 IMICROGRAMS/CU. METER) |
1 SIAIiatl 1 tHRHQLlTAL ^EEIlLaL 1 OBSERVED £AL£ULAI£D L
I 1 | 371.1 | 3857. b | ^69. | 25. I
I 2 I 372. 5 1 3057.5 I 67. | 39. |
1 2 1 12I#JJ 1 lQ5.a-.Z_ L 41* L 21* 1
I 4 I 372.A | 3854.3 I 44. I 23. |
I 5 | 370.3 | 3859 .3 | 58. | 22. I
L t i 1 1 ^ 1 L£* L
I 7 | 384.3 | 3844 ¦£> I 48. I 12. I
I 8 | 387. 8 | 3866.7 | 52. I 15. I
1 2 I 111x3 i Ifiaa^L L 1Q* 1 HI* 1
-------�
3/17/76
I
1 - EJEL££IDB_I£'jl£IdI£MICL'_Ca.I4. ;
I I t
I RECEPTOR | RECEPTCR L GC AT ION | EXPECTED ARI THMtTI C MEAN
1 1
I I (KILOMETERS) | (MICROGRAMS/CU. HcTtR?
I 1 UQE1L *E£I i SQ2 £AfiLL£LiLAl.ES__
II I I I
I I I 377.0 | 3659.7 I
I 2 I 377.0 | 3861.7 I
I a l aia-.a—i__aa52ai i_.
I 4 I 379.0 I 3861.7 |
I 5 I 371.1 | 3857.8 I
1 & 1 1—
I 7 | 375.9 1 3880.1 |
0.
1 M.
0.
1 ai.
Qa
¦I
3
1
1
1
1
J
j
1
1
0.
1 47.
0.
1 £6.
Q^_
L Zlm..
0.
I 40.
Q«._
1
1
1
—1
1
l
1
1
1
-------�
CALIBRATION FOR CRFCNVILLE COUNTV, SOUTH CAROLINA 3/17/7o
SOURCE CONIRIBUTIONS TO FIVE SELECTED RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1
1
SOURCE I RECEPTOR
1
.X JL
r i o.rr-"
I_
1 QiQ55A__
1
2 1 0.26 *
i_
1 e*1332__
1
3 1 0.41 X
1_
i Q^ZQ'Jh—
1
4 | 0.14 X
i_
1
1
5 1 O.OL X
1-
1 fl^QG55__
1
6 I 0.01 x
i_
i Q«.QflS5—
1
7 I 0.37 *
1
. 1 0. 1888
1
a I o.o? t
1
1 U..flfl33„
1
9 I 0.01 X
1.
I fl._IMS.4__
1
10 I 0.04 %
1-
-1 D»Dii)2
1
11 I 0.09 X
1_
L
1
12 1 0.01 X
1_
L QtflJ331__
1
13 I 0.01 X
L_
_ _ L_ _
1
14 | 0.00 X
i.
i Q^QQOi—
1
15 | 0.01 X
1_
] fl._fl02.B__
1
16 I 0.00 X
L_
1 fliflfllU _
1
17 I O.Ot t
L
L Q^QQlt
1
IB 1 0.03 X
1
i _
1
19 I 0.00 X
1
.1 0.0010
1
20 I 0.02 X
1.
1 _Q.-CD.B-Z
1
21 I 0.01 X
1
L
RECEPTOR I
C 1
RECEPTOR 1
ft 1
RECEPIJk |
RECEPTOR I
— — — — .iilj.
0.09 X I
0.21 X 1
j
O.Oo X |
0. l3"?~|
Q«£4SB__J
0*U15__1
0*u^2!i i_
tt*Q426__i
0.25 * I
0.50 X 1
0.17 X 1
0.26 X i
Q»QOtI L_
Q*12Z2__i
0.39 X 1
0.78 X 1
0.26 X I
0.42 X 1
0*21.6.5 I
0*4120
Q*LJ.i.tl.__.L_
tt*2J.6B__L
0.13 X 1
0.26 X I
0.0* X |
0.14 X 1
fl..flI34__l_
Q*li2Q 1
0*0.215 1_
-------�
CALIBRATION FOR GREENVILLE CCUNTV, SOUTH CAROLINA 3/17/7o
SOURCE CONTRIBUTIONS TO FIVE SELECTED FECEPTGRS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOlftCE
1
L_.
*
M
W
22
23
24
25
26*
~27~
~2fT
~29~
0.02 J I
a*ooai L-
o.oi x i
0*0062 L.
30
31
32
33
34
~35~
36
37
38
39
40
41
_42*
RECEPTOR I
I L.
0.01 X I
0*0051 L.
RECEPTOP
5
RECEPTOR
6
0.00 X I
-0.001.B__1..
I
0.00 X I
0*0012 L-
0.00 X I
__o*ooia__i.
0.00 * I
_0*0Qlfi__l_
0.01 % |
_a*oooi L.
0.01 I I
„fl*0042_l_
0.00 X I
__o*OQ2a—L_
0.00 X I
„0*0021__L_
0.00 * t
_QtQ02a L-
0.00 X |
—0*JM25 L_.
0.01 X |
—0*00:31—1_.
0.00 * |
0*fl010__l
0.00 X |
0*0fll2 L
0.00 X |
—..0*0012 L_
0.00 X I
o*fli)ia__i_
0.01 * |
0*i)fi.31 L_
0.00 X I
0*0002 1_
0.00 t |
0*0002 1
0.00 X I
0*000% 1
0.00 X
-0*0224-
0.31 X I
_o*0ms L
0.01 X |
,_fl*fl042 l_
0.00 X I
_0*0£13 l_.
0.00 X |
__.Q»D.C14 l_
0.00 X I
0*0414 t-
0.00 X I
0*0.024 J
0.01 X |
stasia u.
0.01 * i
a*ooaa__i_.
0.01 x 1
0*0Qlfl__i_
0.01 x 1
_o*ooia__i.
0.00 x 1
_0*0Q1I L.
0.00 x 1
-0*0012—1-
0.00 * I
.0*0012 L.
0.00 * I
0*0012-1-
0.05 * I
0261 1-
0.01 t I
_a*0043_JL-
0.01 I I
-0*004.3 L-
0.01 * I
_a*QQ20 L_
0.00 X |
0*000^—1.
0.00 X I
0*0005—1.
0.00 i |
0*OM5 l_
0.01 X I
.0*0020 1-
0.01 X I
.0*0042—1-
0.00 X I
0*004.5 1-
0.02 X |
—fl*J)J)&fi__ 1_
0.00 X |
—0*0015—1_
0.00 X I
0*0015 L_
0.00 X |
—0*0025 L_
0.00 t |
0*0012 L
0.00 X I
0*0012 L
0.00 X I
0*0015-
recepiok
2
O.Ou X
0*0111.
0.01 i
—0*ju2<..
O.Oi. X
0*0uib.
O.Ou 4
0*O-U.t.
O.iiu !t
0*tui:».
O.Ou X
0*oxii.
O.Oi i
0*Olil_
O.xi %
0. Ou «
0*lul2.
0.Ou «
0*Jul2_
0.01 *
Q*0ul2_
I
_i_.
I
_1_.
I
I
_1_.
I
_1_.
I
_1_
I
_1_
I
_1_
I
_1_
I
.1
I
i„
I
.1—
0.00 X I
0*0025 L
u .00 x I
11*0015 I !
0.00 x I
_fl*0£13 l_
0.05 X I
—0*026 J 1_
0.00 X I
_0*0£2i L_.
0.00 X I
,J)*0£2i L_.
0.01 X |
_O*0044„1^.
0.0 1 X i
_0*Q044„1_.
•0.00 x I
.0*0026 l_
O.Uj
0*011
0.0* X
O*01uu-.
O.Ji *
0*Ou2*_.
O.Ji X
0*Uu24_.
O.Ui X
0*0»iafl_.
O.Oi. *
a*Ou.i.U.-.
O.Oi 4
U*iiuii_
I
-1_
I
-1-
I
.1_
I
.1_.
I
-1_.
I
J_.
I
I
.1—.
I
.1_
I
-1_
RECEPTOR I
—tt 1
0.00 X |
—o*ooii__1
0.00 % 1
—0*0016—1
0.00 X I
0*0026—1
0.00 X I
o*oooa__i
0.00 X I
0*0012—1
0.00 X I
j*oai2—1
0.00 X I
0*0012—1
0.01 X I
0*0011—1
0.00 X |.
Q*OQO£__1
0.00 X I
0*000.6—J
0.00 % |
4*0006—J
0.00 X |
0*0004—i
0.00 X I
0*0004—1
0.00 X I
0*0004—1
0.00 X I
0*0004—1
0.01 X I
0*0021—1
0.00 X I
—0*0010—1
0.00 X I
—0*0010—1
0.00 X I
0*001.2—1
0.00 X I
—0*0012—L
0.03 < I
—Q.0010—1
-------�
CALIBRATION FOR GREEMVILLE CCLNTY, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE SELECTED RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR I RECEPTOR I RECEPUK I RECEPTOR I
L L i 1 5 I f> L I i a 1
I 43 I 0.01 X I 0.00 Z | 0.00 X I O.Ji t I 0.00 X I
L L Q*QQ4J-_1 QxQDJ5__l I a*QtlLa__l
t 44 | 0.02 % I 0.09 * I 0.33 X | 0.01 X I 0.03 % |
I 1 (1..QQ2I—1 Hm.Dk32 1 11^0145 I
I 45 | 0.02 X I 0.08 X I 0.03 X I O.Ji i | 0.03 X I
L 1 Q^aaaj—L Q*fl4I2__J. I H^UuiC—i
I 46 | 0.01 X I 0.00 X | 0.01 X I O.JJ X I 0.00 X |
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1 L Q.«Qi)22 L Q*.Q04fl L fl*fl.03.5 I fl«.JJilb__J. Q^QQ4a__i
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L_ L Q»Q124__L Q^DQa5_l I Q«.QQa.5. 1
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I L Q*ail5Q__i fljifliij I fl*flflj£__l Q^aZXQ—i
I 57 | 0.04 X I 0.08 X I 0.06 X I 0.4U * I 0.12 X I
i L Q-Q2Q5—L Q»Q43fl__l Q+Q3&2 L fl..ltUi—1 fl^flfifl5__i
I 58 I 0.01 X I 0.01 X I 0.01 X I J.lu % I 0.02 X I
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-------�
CALIBRATION FOR GREENVILLE CCUNTY, SOUTH CAROLINA 3/l//7o
SOURCE CONTRIBUTIONS TO FIVE SELECTED RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PEP CUBIC METER
*
£
I SOURCE
i
RECEPTOR I
I t
RECEPTOR |
^ £
RECEPTOR I
RECEfUK |
RECEPTOR 1
1 64
0.29 X |
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0.41 « I
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0.12 X 1
1
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1 65
0.86 X |
0.31 X 1
0.38 X |
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0.37 X 1
1 . L.
am.4113 L_
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1 66
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0.04 X I
0.05 t 1
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-------�
CALIBRATION FOR GREENVILLE CCUNTY, SOUTH CAROLINA 3/ 17/ 7o
SOURCE CONIR IBUT IHNS TO FIVE SELECTED RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1
SOURCE
1
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-------�
CALIBRATION FOR GREENVILLE CCUNTV, SOUTH CAROLINA 3/17/76
SOURCE CONIRIBUTIONS TO FIVE SELECTED FECEPTORS
annual particulates
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR | RECEPTOR | RECEPTuk | RECEPTOR |
I ~io6~ | o.67~i | I q.2*~"~i 3.u6~i i
J J L*4242__l Qx25a&__J 2-U.iIt._i i}*44B4__l
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1 : 1 .Uai42_i 1*124S__1 L*392fi L il^Jsau—l fl*23Ii>__i
I 108 | 6.47 X | _ 2.19 X | 4. 70 * I 1.7b ~ I 1.78 t I
J 1 3*22fl4__l 1»U12_1 2*S122__i il*Zi32__i a.226S__i
I 109 | 3.87 X I 1.06 t I 2.43 * I l.Ot, « | 0.93 * I
1 1 1..424Q 1 Q^iUSi 1 L*31Q4__J U*4.B6J__J
I 110 | 1.32 X I 0.65 X I 1.23 X I O.Si i | 0.57 X I
i i_ Q*625.1 1 fl*1524__l I a*2uuS__l 3*236.1—1
I 111 -I 1.55 X I 1.11 X | 3.96 t I 0.7u 4 I 1.02 X I
J J aaaas—L a*6L2i__L lani-i a* J 1 L Q*24&3„1 Q*2 044—1 a*J.U21—i 0*2353—1
' I 113 I 2.86 X I 0.94 X I 1.36 X I 0.9> 4 | 0.81 X I
Cj J i i*4ifca_i. 3*5213—1 a*Z34Z__1 2*4233—1
I 114 I 11.59 X I 1.46 X I 2.58 X I 1.9s 1 I 1.36 1 I
J 1 5*2Q22 L Q*al4i__l L*12aZ—1 Q*ZiuJ 1 13*2136—1
I 115 I ¦ 1.34 X I 0.49 X | 0.74 X I 0.67 I I 0.47 X I
1 1 Q*6fi3e L fl*223fl—1 0*4335—] 3*2u 1 3*2423—1
I 116 I 1.97 X I 0.64 X I 1.16 X I 1.04 !» I 0.63 X I
1 i l*3Qia__1 3*3542—1 £1*6223—1 3*4-l*k„ L 3*3225 1
I 117 | 2.36 X I 1.58 X I 2.71 X I 1.44 * I 1.61 X I
1 1 1*2334 1 3*8224 1 L*4kU—J 3*Sji4—I 0*ii3fl3—1
I 118 I 0.98 X I 2.32 X I 0.77 X I 0.5o « I 2.31 t I
J 1 Q..42Z5 I 1*22Q4__1 3*4164—J 3* * I 3.00 X I
J 1 1*13£2—1 1*8642 I 1*2226 1 3*Si.iu_1 1*5641—1
I 120 I 1.10 X I 1.17 X | 2.26 X I 0.3O * I 1.04 X I
1 1 3*5628 1 3*6518—1 L*2ii3 J Q*
-------�
CALIBRATION FOR CREENVILLE CCUNTY, SOUTH CAROLINA 3/17/zo
SOURCE CONTRIBUTIONS TO FIVE SEIECTFO RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1
1
SOUSCF
RECEPTOR
RECTPTOR I
RECEPTOR 1 HECEPIj^
ti A t
PECEPTUR |
1.
1
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1^6433..
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l»162£i_-l U1~U.1_
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1
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0.37 I I
0.38 X I 0.4V «,
0.41 X 1
1_
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1
?29
I .69 X
1.00 X |
1.34 X | 2.5j *
1.06 X 1
1
0*55$3__1
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1
130
2.38 X
1.22 X 1
1 .60 X | 2.2o
1.25 X 1
1_
£*.bl3it . 1
0.8611 1 . o.yi/i
a^512__L
1
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1_
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1
"132
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0.69 Z 1
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£..35.23—1
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1
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1_
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1
134
2.62 X
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2.60 X 1 2.flu *
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1
135
0.89 t
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0.88 X | 0.7i «.
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1
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1
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1.37 X I O.Si i
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1
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1.9 1 S |
1.74 X | 4.24 i
2.32 X 1
1_.
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1
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0.85 X I 1.41 „
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i_.
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D-.4.iaO__l
a*6262__L
1
140
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4 .60 X 1
4.38 X 1 10.4* «
5.74 X 1
i_.
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2 *.2212 i
1
141
7.03 *
7.21 X I
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J
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1
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1.59 X I
1 .63 X 1 2.64 4
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1-
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Q m.bkl2~
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0.68 X 1 l.J/ *
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1
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1
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100.0 X
100.1 X I
100.1 X 1 100.J *
100.0 X 1
1—
1
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55^6210 1
53^au32_ _i 4.Q..2L Inn—.
L 52*!1222__i
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AQOf RUN -BASE YEAR- FOB GREENVILLE COUNT*, SOUTH CAROLINA 3/17/76
INPUT REGRESSION PARAMETERS ARF:
EQLLUIiUI— X=1LILE£E£I SLQEE-
PARTICULATES 29.0 1.0000
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AOt'H RUIJ -BASfc YlAR- FO^ GRScNVlLLE CCUNTY, SOUTH CAROLINA 3/17/76
I _ ... . b C»;PTijS_£3tJC!;tJl34II0U_DAIA
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I 4 I 364.0 I 3850.0 I 0. I 42.
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I 7 I 364.0 I 3856.0 I 0. I 41.
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I 10 I 364.0 I 3862.0 I 0. I 40.
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if I 13 I 364.0 I 3868.0 I 0. I 38.
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I 16 I 366.0 I 3844.0 I 0. I *4.
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I 40 . ._ I 368.0 . J _31)62.Q 1 Q. i 43.
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AODH HUN -BA
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VlAK- F.:k GREHNVILLE COUNTY, SOUTH CAROLINA 3/17/76
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AOT;M RUN -8^S- Y.AR- ^
SrillP.C' LUNTRI BUT IONS I c
ANNUAL PAMICUUT:S
MICRUGRAMS P.:R CUBIC Kc T'
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NVILLS CCUNTY. SOUTH CAROLINA 3/17/76
M^XTPUP RECEPTORS
ClPTCS
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AODM FUN -BASC Y.A-.- r ¦ R GRirN VI Lit CCUNTY. SOUTH CAKL'LIM 3/i.7/T6
snuHcr contributions i'j nv: maximum receptors
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MIC RTGSAMS PfcP. CUBIC !< T: k
I SOURCP I R:.tr-?T r. I R-CFPTCH I RECEFT'Jft I RfcCcPTOS I REC6PTOR I
I _ I >4.. 1 bl 1 33 1 6£ 1 33 1
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»OCf RUN -B4S- Y- AK- f- f. GR. NVILL"? COUMTV, SOUTH CAROLINA
SOIJRCL CONTRIBUTIONS T FIV^ MAXIMUM RECEPTORS
ANNUAL PARTICULM 3
Mir.SijGkAMS P':R CUBiC V f «
1 SJURCt
1 k
1
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AQDM run -BASE YEAR- FGR GREENVILLE CCUNTY, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO HVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PCR CUBIC HIT'R
SOURCE
RELtPTUK
RCCEPTOR 1 RECEPTOR
RECEPTOR
RECEPTOR 1
34
61 1 33
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64
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0.16 X 1
0.049J—
0.0565 1 D.J3328
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66
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0.03 X 1
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0.0300
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68
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AOOM fcUN -BAS? Y'A:*- HjR GR,:i.NVILLE COUNTY. SOUTH CAROLINA
SOURCE CutmiBUTiUNS I .J FIVH MAXIKUM RECEPTORS
1NNUAL PA'TIfULAT :S
MICROGRAMS P.~R CUBIC KtTtR
3/17/76
S'lURCt
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AOCM RUN -BASc YCAR- FCP. GRANVILLE COUNTY, SOUTH CAPQLINA 3/17/76
SOUACE CONTRIBUTIONS If F IV 7 MAXJFOM RSCfcPTORS
ANNUAL PARTICULATES
MICROGRAMS Pt:R CUBIC Hf-Tl H
SOURCE
PEC.7PT0P
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54
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0.9* X 1 0.41 X
1.05 X
1.91 X I
_ _0« 3004 —
0.56311 J_ 0..2394 _
0.5B55
1*Q41Q__1
~U4~
0. 79 *
1.63 X 1 1.03 X
1.59 X
2.20 X I
... ,0.500 I...
0.9225 1 0. 6023
11. £35 9
1.2032 1
~115
0.20 *
0.50 X 1 0.41 X
0.48 X
0.64 X I
Q.177(1
0.2922 1 0.236fl__
0.2603
Q*3522__i
116
0.37 %
0.66 1 I 0.71 X
C. 72 X
1.09 X I
0.232i> —
Q.3944__l Q..413i_
0.4022
0.5922 1
II 7
0.95 i
1.67 t 1 1.68 X
1.61 %
1.92 X 1
0.6U67_.
0.2996 i 0.2UQ3—
0.8955
1*Q46B 1
lie
1.17 *
1.09 1 1 1.23 X
1.70 X
1.20 X I
0.7-<73—
0.6554__1 0.2142—
0.9433
0.6565 1
119
1. 70 Z
3.08 J 1 3.28 X
2.90 X
2.59 X 1
. 1.0J-I4__
l.aiSi i l^auai—
1.6094
1..415Q—1
120
0.59 *
1.33 * 1 1.33 X
1.13 X
1.25 X I
. 0,3121 .
fl.295.Su_l 0.7261
0.6293—
0..6S13 1
121
2.57 r.
1.05 1 1 1.62 %
1.68 X
1.12 X I
1.63,23 ._
0.6314 1 0.«9452__
o.aai3__
0.6123 1
122
5.77 %
2.54 X 1 2.07 X
3.06 X
2.01 X 1
... . 3. 6 Jti 6 ...
1.5241—1 1.2033
1.62B2—
1.U920 1
123
J. a. t
4.67 X 1 4.40 X
5.51 X
5.94 X i
_ 2.441 1
2.29 2 5 1 2.5662
3.0585
3.2423 1
124
0.08 I
0.16 X 1 0.12 X
0.16 X
0.22 X 1
.0. 05 30 ^ .
0.0923 1 0.D692
0.0flfi4__
Q.12U3 1
125
0. I V t
0.21 X 1 0.23 X
0.22 X
0.28 X I
0.Q921 -
_ . 0.1247 1 0.1312
0.1224
0.1539 i
"126
- 1
0.21 *
0.28 X 1 0.28 X
0.34 X
0.40 X |
. 0.1320--
0.1661 1 0.1641__
1 0.1915—
1 0.2211 1
-------�
AQCH RUN —BASH VHAR- FDR GRANVILLE CGUNTV. SOUTH CAROLlhA 3/17/76
SOURCE CONTRIBUTIONS Tf FIVC MAXIMUM RECEPTORS
ANMUAL PARTICULATES
MICROGRAMS PER CUBIC MSTfR
SOURCE
1 RhCfcPTCO
R'rCFPTOR 1
RECEPTOR
RECSPTOK I RECEPTOR I
54
61 1—
33
68- __1 83 1
127*
0.94 X
1.59 X 1
, 1.32 *
1.72 X 1 2.21 X I
9*5950—
Q*9531 1—
0*2690—
0*9544 1 1*2048—1
128
0.25 *
0.29 X 1
0.23 *
0.36 X 1 0.39 X 1
_ _9»1579__
0*1142—i—
0.1341—
Q * 1333 1. —0*2130 i
129
0.65 X
0.91 * 1
1.03 X
0.99 X 1 1.15 X 1
— 0.4153 _
0*5462—1—
0*5296
0*5422—1 0*6302—1
130
0.74 t
1.11 * 1
1. 08 %
1.24 X I 1.56 X 1
0*46 76 —
0.6624 1—
0*6299—
0*6883—1 0*8525—1
~ ~131
0.85 X
1.08 X 1
1.09 *
1.27 X 1 1.47 * 1
_._Q*5377 __
„flii6426_ I_.
0*6335
0*2062—1 0*8030—1
132
0.42 *
0.53 X 1
0.51 X
0.64 X 1 0.74 X 1
0..2&-75. ...
0*320A i
0*2926 _
0*3550—1 0*4029—1
133
1.05 *
1.32 X 1
1.35 *
1.47 * 1 1.61 X 1
0* 6!jB0—
10*2881—1 0.28Q2—
0*8182—1 o*eaia__ 1
1.26 I
1.85 1 I
1.57 X
2.02 X 1 2.13 X 1
.0,0000-..
__ _1*HD4—1~
J0*2142 -
-1*1242 1 1*1653—1
135
0.35 %
0.60 * I
0.49 X
0.63 X 1 0.79 X I
136 ~
_.0*2250. _
0.17 X
0*3588 1—
0.28 X 1
0*2860
1.16 X
0*3526—1 0*4338—J
0.29 X 1 0.30 X I
0.1060 —
0*1693—1—
0*6258
0*1592—1 0*1613—1
137~
0.94 X
1.16 X 1
1.57 *
1.36 t I 1.13 X I
Q.5994
0*6951—i—
0.3161
0.2524—1 0*6162—1
" "lia
G. 9-* t
1.41 * 1
2.30 X
1.69 X 1 1.19 X I
_„Q«5965„.
0*84.51 1—
1*3.423
Q*9393—1 0*6515—1
" "*139
0. 89 X
0.69 J I
0. 71 X
0.83 X 1 0.60 X |
_ .0.5637—
D*4115—1—
0*4158
£*4631 1 0*3223—1
140
3. 69 I
3.40 X 1
3.94 *
4.12 X 1 3.76 X 1
—2* 3447„
5.49 X
2*0384 1
2.22J3-
2*2862—1 2*0518—1
iiii ~
5.50 * I
5.66 X
6.57 X 1 6.26 X 1
3*4895
3*2935 I—
__3*25£4__J
3*6485—1 3*4123—L
1. 21 *
1.23 X I
1.58 X
1.42 X 1 1.32 X I
0.2676--
0.39 Z
0*133 6 1
0.51 % 1
0*3225
_ £*2914 1 0*2209—1
143"
0.45 X
0.58 X t 0.65 X I
_ 0.2456—
0.08 *
_ _Q*QS29 —
0.0 X
0*30BO 1
0*2535
0*3213—1 11*3523 -1
144
BACK-
0.11 X 1
0.06.66 1
0.0 X 1
0.12 X
—0*D686__1
0.0 X
0.12 X 1 0.15 X 1
0*8620 i 0*0802 1
0.0 X 1 0.0 X 1
. GRCUND .
TOTAL
D*
100-.1 *
...63*6626 —
Q. 1—
100.1 * 1
__Q*
100.1 X
fl* 1 0* 1
100.1 X 1 100.1 X 1
59*9668—1—
.58*3119 i
55*5839—1 54*6462—1
-------�
AQDM RUN -BASE YEAR- FOR GREEWILLE COUNTY, SOUTH CAROLINA 3/17/76
I
1 E£CE£ID£_ICi)C£tJIB£IICti_CAIA
1
1 RECEPTOR
RECEPTOR
LCCATION
EXPECTED
ARITHMETIC MEAN 1
L MJ.SflE.fi
1 KI10METERSI
1MICR0GRAMS/CU. METER) 1
HflR I1
VERT
SO?
PARTICIPATES 1
1 1
380.0
3 844. 0
0.
1 1
1 43. 1
1 2
3BO.O
3846.0
0.
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I 3
380.(1
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1 4
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I 5
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0.
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0.,
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I 7
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0.
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0.
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0.
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1 10
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1 25
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1 31
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1 37
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3fl£2^fl 1
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AQDM RUN -BASE YEAR- FOR GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
1
1
RECEPTOR CPNCENTRAT ICK
CATA
1 1
I RECEPTOR I
1
RECEPTOR LOCATION |
EXPECTED
ARITHMETIC MEAN I
1 NUMBER
1
1
1
(KI LOHETPR SI 1
(MICROGRAHS/CU. HETERI |
I
HQR11 VFP T 1
. SO 2
PARTICIPATES 1
1 41
1
1
1 1
384.0 I 3664.0 I
0.
1 1
1 44. |
1 42
- 1
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1
384.0 1 3868.0 I
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0.
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. L 41. 1
1 46
1
386.0 1 3844.0 |
0.
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0.
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1 48
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0.
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1 49
1
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0.
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1 52
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1 5*
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1 55
1
386.0 1 3862.0 |
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1
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1 58
1
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1 59
1
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0.
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3 £6.0 J__i£ 1Zm.Q J
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1 61
1
388.0 1 3844.0 |
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|
388.0 1 3854.0 1
0.
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1
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0.
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1 68
1
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0.
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J 63
_ (
iaa»Q i _ia6
-------�
AQOM RUN -BASE YE AC- FOR GREENVILLE CCUKTY, SOUTH CAROLINA 3/17/76
I
I RECEPTOR I RECFPTOR LOCATION I EXPECTED ARITHMETIC MEAN
1 NUMBER—l. L
| | (KILOM5TERSI I t MICROGRAMS/CU. METERI
1 i U0B1Z. liERL 1 SQ2 £AB.II£1UIES__
I I I I I
J at 1 32Q..Q J 3£i4*..Q 1 Q± i
I 82 I 390.0 I 3856. 0 I 0. I 40.
| 83 I 390.0 I 3858.0 I 0. I 40.
l fli i 32Q^Q__i__aa6aiQ i a«. L m*
| 85 I 390.0 I 3862.0 I 0. I 41.
| 86 I 390.0 I 3864.0 I 3. I 41.
i 62 L 2311 *.1) 1 1 Q«. 1 41.
| 88 I 390.0 I 3868.0 I 0. I 42.
j 89 I 390.0 I 3870. 0 I 0. I 40.
i aa X aaQ»a__L__3ai2^ii I a. i
| 91 I 392.0 I 3P44. 0 | 0. I 37.
I 92 I 392.0 I 3846.0 I 0. I 37.
Jf" J 23 L 3S2-.0__l__3i4flifl 1 a* 1 3fi«
I 94 I 392.0 I 3850.0 I 0. I 36.
M I 95 I 392.0 I 3852.0 I 0. I 38.
J 26 L 122*11—.1 3flM.O 1 Q*. J. 35.
I 97 I 392.0 | 3856.0 I 0. I 39.
I 98 I 392.0 I 3e58.0 | 0. I 39.
J 33 I 322.11 1 3il6QiQ i Q. L 33..
I 100 I 392.0 | 3862.0 | 0. I 40.
I 101 I 392.0 I 3864.0 | 0. I 40.
1 1Q2 1 332 *.£! 1 3£ 16..Q J_ 2.. 1 4Q *
I 103 I 392.0 I 3868.0 I 0. I 40.
I 104 I 392.0 I 3870. 0 | 0. I 40.
J 105 i 322.11—1 3B22^Q i fl. 1 35.
I 106 I 394.0 I 3844. 0 | 0. I 36.
I 107 I 394.0 I 3846.0 I 0. I 37.
1 108 ' 1 234..Q—l__iasa..Q 1 a* 1 3Z-
I 109 I 394.0 | 3850.0 | 0. I 37.
I 110 I 394.0 | 3e52.0 I 0. I 37.
L ill L 324.0 1 3A54.0 J £. 1 3(U
I 112 I 394.0 t 3e56.0 | 0. I 38.
I 113 I 394.0 I 3e58.0 I 0. I 38.
1 114 1 124*Q__1 IQtiCMl J U» L Jfl.
I 115 I 394.0 | 3862. 0 | 0. I 39.
t 116 I 394.0 I 3864.0 | 0. I 39.
1 11J 1 334.Q__l__2fi4k.il 1 i. 1 32*
I 118 I 394.0 I 3868.0 I 0. I 39.
I 119 I 394.0 I 3870.0 | 0. I 39.
J 12Q 1 39iJ.0__l__3fl22xi> 1 Jj. 1 ZS*
-------�
AODM PUN -BASE YEAR- FOR GREENVILLE COLNTV, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MXIMUH PECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
SOURCE I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR I
J ifl i 2 J 2 1 11 L A i
1 I o.ll * I 0.14 X | 0.14 X I 0.09 * I 0.1U I
1 fl*fl-532—1 0*0626—1 0*0611—1 0.0423 1 0.0fr38 1
2 I 0.26 X I 0.29 X | 0.31 X I 0.23 X I 0. 31 * I
1 OUlfl£__l Q*13Q5—1 Q^l-_i £*ocq.2 i o*ooi)6—l
15 I 0.01 X I 0.01 X I 0.01 X I 0.01 X I 0.01 X I
l o.aaao—l a*0Q46 L q*qo3.5__j 0*0026 i o*oo4i—J
16 | 0.00 XI 0.00 X I 0.00 X I 0.00 X I 0.00 X I
i Q.QQQ1 1 0*0001 1 0*0001—1 0*0001—1 0*0001—1
17 | 0.01 XI 0.01 X I 0.01 X I 0.01 X I 0.01 X I
1 0*0031 1 0*flfljS2_1 0.003il—J fl*002B I 0*0O4J~ 1
18 | 0.00 X | 0.00 X I 0.00 X I 0.00 X I 0.00 X I
1 Q.dQlt—1 0*0012 L CUQD12__i 0*0015_1 0*O01S__1
19 I 0.00 * I 0.00 X I 0.00 I I 0.00 1 I 0.00 X I
L Q*QiU6__l 0*0011 I U*0012__J 0*0015—1 0*0012 I
20 | 0.01 X | 0.01 X | 0.01 X I 0.02 X I 0.01 X I
1 Q.OQM 1 0*00.55—1 0*0O5J 1 0*0068—1 0*0051—1
21 I 0.03 X I 0.01 X I 0.02 X I 0.02 * I 0.02 X I
1 0*0J32__1 0*0063 1 0*0106 L 0*0021—1 0*QaZa__l
-------�
AQDM RUN -BASE YEAR- FOR GREEKVILLE CCLNTV. SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
HICR05RAMS PER CUBIC METER
1
SOURCE
1 RECEPTOR I
RECE PTOP |
RECEPTOR 1
RECEPTOR I
RECEPTOR I
1 10 1
7 1
9 1
ii_ _ J
a_ _ 1
1
rsj
rvj
1 0.03 X 1
0.01 t 1
0.02 X 1
0.02 X I
0.02 X 1
1
L a*ai32__L_
QiQQfiJ 1-
Q».Q1Q6 i_
__o._Qaz.a__ J.
1
23
1 0.05 X 1
0. 03 X I
0.34 X 1
0.04 t I
0.03 X 1
1,
1 0 .0239 _ L
a*.ni2£ l.
_ XU.i>lf>2 L
1
24
1 0.02 X 1
0.02 * 1
0.32 X 1
0.02 X |
0.02 X 1
1
1 . 0.QQ96 L
Q.QQ9B 1-
O.O104__1_
.0«.fl.flJ£ 1
__Q^0LQa__l
1
25
I 0.01 t I
0.01 t 1
0.31 X I
0.01 X 1
0.01 X 1
1
_ i a^Qaau 1_
O.OQ.3J L.
0*0.0.33 l_
£..D£24_1__
__fl^QQ12 1
1
26
1 0.01 * 1
0.01 X I
0.01 X 1
0.01 x I
0.01 X 1
1
1 0.0031 1
Q*QQ4Q L.
0.0034 1
O.OCPf 1
o^oQia l
1
27
1 0.01 X 1
0.01 * 1
0.01 X 1
0.01 I |
0.01 X 1
1
| 0.0031 1
0.0040 1
0.0034 1
0. 0 C? "a 1
Q^QUia i
1
28
1 0.01 * 1
0.01 I |
0.01 X 1
0.01 1 |
0.01 X 1
1 a^QQil__L_
l-
. .0.0057 1
0«.0fl4
__Q._QQfc3 1
1
29
1 0.02 X 1
0. 02 X 1
0.02 X I
0.02 f |
0.02 X 1
1 0.0082 1
Pt0107 1
1_
1
30
1 0.01 t 1
0.02 t |
0.01 X |
0.01 I I
0.02 X 1
li 155 1
1
41
1 0.03 X 1
0. 03 X |
0.03 X 1
0.02 X 1
0.03 X 1
1
1 0.0134 1
0»iU35 1.
0.015O J
CU01 07 i
Qt.Ql.55 1
1
42
1 0.02 X 1
0.02 X I
0.02 X I
0.01 X I
0.02 X 1
1_.
1 Q»QQ(11 1
Q-QV95 i_
0-.fl.Cfi2 t__
__Q^flQS4__i
-------�
AOOM RUN -BASE YEAR- FOR GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
1
RECEPTOR I
RECEPTOR
RECEPTOR 1 RECEPTOR I
RECEPTOR 1
I
in 1
I
9 1 . ..11. 1
8 1
1 43
1
0.02 X 1
0.02 X
0.02 XI 0.01 X I
0.02 X I
t-
Q»QOBL L_
Qm.QQH2.
Q* 0025—J QaOC34—1
I 44
1
0.02 X 1
0.01 X
0.01 X 1 0.02 X I
0.01 X I
|
:Q*Q
-------�
AODM RUN -BASE YEAR- FOR GREENVILLE COUNTY. SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METFR
1 SOURCE
RECEPTOR
i n
RECEPTOR I
RECEPTOR | RECEPTOR |
RECEPTOR |
1 " 64
__.__.Li/
0.22 X
0. 19 * |
2. Ill 1
0.22 X I 0.21 X |
0. 21 X I
QiQSSfc
flAQfl61__J_
0*Q2&3__J Q^Q259 1
Q«Q235 1
1 55
0.66 X
0.57 X |
0.65 XI 0.64 X |
0.62 X I
Q..2SB8
Q»25flfl 1_
Q.224 8 1 0.?B76 1
Q*2.BQ5 1
1 66
0.09 *
0.07 X |
0.09 X 1 o.oe X |
0.08 X I
L
Q..Q352
a.3iaa_j_
fuaiai__j Q_.Q321_.L__
__Q*Q36fi__l
1 67
0.02 X
0.01 I I
0.01 X I 0.02 X I
0.01 X |
Q.-QQ22
Q*.DQ21 l_
0.QQ59 1 0.0072 1
0ȣ}Q24 1
1 68~
0.23 X
0.17 % |
0.23 XI 0. 18 X I
0.20 X I
J
QilQ4l_
£.fl221___l_
Q^lQlti—J Q..Q222 i
Q*Q222 1
1 69
0.10 X
0.07 X I
0.10 X | 0.07 X |
0.09 X |
Q..Q442 _j
i_
_Q..(1431 1 0.0 336 1
Qm.032J.__l
1 70
0.10 X
0.07 X |
0.10 X I 0.07 X I
0.09 X |
Q«.Q442__
£UQ112__1_
tK!14.2i.__J Q*Q336__1__
Q*Q321 1
1 71
0.55 X
0.18 X I
0.49 X| 0.52 X I
0. 30 X |
1
0*24f°__J
J_
0*2232. 1 0.2 322 1
Q*1364__l
1 72
0.00 X
0.01 X |
0.01 X | 0.00 X I
0.01 X |
J
fl*.fl.012__
a*.QQ22__i _Q«.QQ12 L
__Q»QQ2fl__l
1 73
0.00 %
0.01 X |
0.01 X | 0.00 X I
0.01 X |
fl*fl.Q12__
Q..flQ3S__l_
£UQQ2.3__1 Q»QQ12_i__
Q&QQ22 1
1 74
0.01 *
0.02 X |
0.01 X I 0.01 X I
0.02 X |
1
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, fl*flQ2&__l_
Q^QQ41__J Qi.QQ21 J
QxflilU i
1 75~
0.00 x
0.01 X |
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0.01 X |
i
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a^j3ii4i_j_
QxQQ23__J Q*QQ12_1__
Q.&QD23—1
1 76~
0.00 X
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0.00 X |
fl.-flQaa__.i_
QiQQQ.5—J a*Q QQ 5__1__
__fl*QQQ5__l
1 __
0.0! *
0.00 X |
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0.00 X I
j.
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flxflfllt__i_
Q*QQ2B__1 Q*(1Q52__1__
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1 78~
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0.00 X |
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QiflQlfi i
0«.Qfl2J I 0. 0056 1
U»QQl.i__i
1 79
0.03 X
0.J1 X |
0.02 X | 0.04 % I
0.01 X |
c^aiaz
0.0043 1
O.flflXB 1 0. 0166 1
U»QQ43__1
1 80
0.00 X
0.00 X I
3.DO X | 0.00 X I
0.00 X I
1
fl.*QJ)Q5_
0.QQQ2 L_
Q«.Qflfl5__J J3x J__
Q*QQQ4 L
1 81
0.00 X
0.00 X |
0.00 X | 0.00 1 1
0.00 X |
C-.Q0Q5_
Q*Q0Q2__1_
fl»Qflfl.5__J
Q»QQQ4 1
1 82
0. 1 0 X
0. 03 X |
0.10 X | 0.09 X 1
0.07 X I
J _ ¦ _
fl*Q442__
fl^J154__i_
1 0.04C7 1
fl*.Q3.2Q L
1 83
0.03 *
a. 03 x |
0.02 X | 0.09 X |
0.03 X |
.Q*Qi42_
Q..Q123 L_
Q.0fl24__i i)»fl423_l__
fla.QJ-32 1
1 84
0.00 x
0.00 X |
0.00 X | 0.00 I I
0.00 X I
1 — _
1 ..(UQQQ* L_ Q^QQQ5 i
flxflflfl4__l flxflflX14_i__
Q«.QQQi 1
-------�
AQDN BON -BASf YEAP- FOR GREENVILLE COLNTV, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
RECEPTOR 1
RECEPTOR 1
j
1
85
0.00 X 1
0.00 X 1
1
q*ooo4 l_
0*0005—1
I
86
0.01 X 1
0.01 X 1
1
0*004L L_
0*0054—1
1
87
0.01 « 1
0.00 X I
J
a^aos.6 i_
0*0022—1
1
88
0.02 X 1
0.03 X I
1
i__ 0*QQ11_ 1_
0*0114—1
1
89
0.02 X 1
0.03 X 1
1
o»Qia«i__l_
0*0154—1
1
90
0.00 t I
0.00 X 1
i__ 0*Q0Q2 l_
0*0001—1
1
91
0.01 X 1
0.01 X I
0*0022__1_
___o*ooiz—1
1
92
0.01 X I
0.00 X 1
1
Q*QOfcQ—1-
0*0020—1
1
93
0.10 X |
0.14 X 1
J
CUQ417 1
0*Q&11 1
1
94
0.17 x I
0.28 X 1
1
0*0Z£l1 1_
o*i2ai_1
1
95
0.17 X I
0.28 X 1
|
C,Q26i 1_
Q.12B3 ..1
1
96
0.27 X I
0.26 X 1
1
. _0*120&__1_
o*iiai—1
1
97
0.94 X I
0.51 X 1
0*4254 i_
0*2120 1
1
98
1.97 X 1
1.25 X 1
1
_0*fl242 _1_
0*5615.-1
1
99
0.61 X I
0.51 X 1
o*2zaL„i_
0*2120—1
1
100 "
0.B2 X 1
0.77 X 1
0*1102 _i_
. —0*1400 1.
1
101
0.61 X 1
0.56 X 1
1
— Q«.2Z21 _i_
Q*256>2—1
1
102
0.40 t I
0.29 X 1
o*ia4i__l_
0*1102—1
1
103
0.36 X 1
0.23 X I
-
0*1621 1-
Q*lQ4fl—1
1
104
0.24 X 1
0.18 X 1
1
a«.oflii~i
\
105
0.22 X 1
0.12 X 1
1
1 0*02111 1_
0*0521—1
RECEPTOR I RECEPTOR
a L 11
0.00 X | 0.00 X
0*&QQ4_I 0*0004 i.
0.01 X | 0.01 X
Q*OOfcO—] fl*fl£2.fi—I-
0.01 X | 0.01 X
o*oo5a_J o*oflSJ.
0.02 X I 0.02 I
0*Q02Q_] Q*Q01t L
0.03 X I 0.02 «
0*0113 I fl*fll2S.fi—1
0.00 i I 0.00 X
o*ooo2__l 0*01102—1-
0.01 X I 0.01 *
0*QQ14__1 0*flM4_
0.0 1 * | 0.01 *
0*QQ6J L 0*fl£5J—i-
0. 12 X I 0.11 X
0*Q521__J fl*fl£15„1
0.20 * | 0.14 *
L-.Q22U—J 0*fl&5X.
0.20 X | 0. 14 X
.0*0220—1 1
0.27 J | 0.25 X
1215 L 0*1125—1-.
0.92 X I 1.01 *
—U*415fl__l 0-.4A3J5.
1.95 X | 2. OS X
a+32.3i I—
0.57 * 1 0.46 X
0»25flfl__L
0.86 X I
-0*2flA5_
0.90 %
U3B3D—1 Oii-fliC 1-
0.62 X I 0.65 X
Qt2ai4__l 0*2214 L-
0.39 X I 0.43 X
..—0*1242—1 0*1216.
0.31 X I 0.37 X
o*ii2&__J tt.«i 661—J—
0.22 X I 0.27 X
0*1015__J 0*12QA__
0.19 X I 0.22 X
o*aa&i„l Q*Q2flfi_l.
RECEPTOR
a
0.00 X
11*0005
0.01 X
0*0061
0.01 X
.0*0045—.
0.02 X
0*010.5—
0.03 X
0*0111—
0.00 X
4*0002—
0.01 X
Q+QQiJ
0.01 X
0*0041—
0.13 X
suosas—
0.24 X
0*1033
0.24 X
0*1.03.3
0.27 X
0*1221
0.90 X
0*4fl56—
1.78 X
__0*M2£—
0.65 X
a+232S)~
0.71 X
_Q*1212 L
0.54 X
0*2423
0. 37 X
.fl*lA2A—
0.33 X
0*1423
0. 24 X
0*1044—
0. 18 X
0*Qfi23 1
-------�
AO DM HUM -BASE YEAR- FOR GREENVILLE COLNTY, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXICUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR | RECEPTOR I RECEPTOR I RECEPTOR 1
1 1 10 L 1 1 3 J 11 1 B 1
I 106 I 0.52 XI 0.26 < I 0.43 X I 0.51 X I 0.44 X I
J 1 Q*23Z3__L Q*11Z2_1 0*1256 I £1*22.8.5—1 fl*136fl„1
I 107 I 2.02 XI 0. 78 X | 1.56 t I 2.12 X I 1.07 X I
1 1 0*2.1.26 L fl*354fl_1 Q_.IQfi.3__l fl*353£__i 0*4803—1
I 108 I 4.62 X I 2. 03 X I 4.41 X I *.34 * I 3.17 X I
1 i 2*1024 L 0*2222—1 U28flZ__J 1*3566—1 1*4253—1
I 109 | 2.87 % I 2.28 X I 3.58 X I 2.13 X I 3.41 X I
1 1 1*3032—1 L*0360 i l*616J__i £*3531—1 1*5363—1
I 110 | 0.98 X I 1.61 X I 1.42 X I 0.84 X I 1.48 X I
J 1 _Q*44541 D*Z30a L Q*62a6_J fl*3ZJ£_1 0*6653__1
I 111 I 1.31 X I 1.83 X I 1.72 1 I 1.06 X I 1.67 X I
i 1 o*5262__l 0*8122 i o*4Z5a_i a*Z52i_1
I 112 I 0.43 X I 0.37 X I 0.32 X I 0.68 X I 0.34 X I
1 1 0*iSJl„1 0*1682—1 Q*L443 J 0*1035—1 0*1513—1
I 113 I 2.07 X I 1.20 X I 1.18 X I 2.56 X I 1.02 X I
1 1 0*3402 1 0*54Z5_1 0*5338—1 1*1512—1 0*4581—1
I 114 | 4.89 X | 4.60 X I 3.61 X I 4.5 5 X | 2.09 X I
J 1 2*2221 1 L*62i6__i L*6.2ai—J 2*0523—1 U.2408 L
I 115 I 2.00 X I 6.42 X I 2.76 X I 1.69 X I 3.89 X I
1 1 0..2J.13 1 2*2200—1 L*244a__1 0*1611—J—__1*152.3__1
I 116 I 2.16 X I 3.47 X I 2.62 X I 1.91 J I 3.17 X I
i 1 0*3£i3__l i«_5ZS2 I 1*182Z J 0*8522—J 1*4262—1
I 117 I 2.26 X I 3.20 X I 2.69 X I 2.13 J I 3.10 X I
J 1 1*02J6 1 l*455fl_1 U2L5Q L 0*25a8—J L*3252_1
I 118 I 0.78 X I 0.67 X I 0.78 X I 0.76 » I 0.66 X I
1 J 0*3562—1 0*3034—1 (2*3514 i 0*2442—1 0*2284—1
I 119 I 1.85 X I 1.64 X I 1.98 X I 2.04 % I 2.10 X I
J 1 C*.B420—1 0*Z440—1 0*8221—1 0*2126—L 0*2446—1
I 120 I 1.07 X I 1.25 X I 1.18 X i 0.86 1 I 1.14 X I
J 1 0*4f65 1 0*568 Z__l 12*224 Z I 0*1326—1 a*511Z_l
I 121 I 1.24 X I 0.69 X I 1.07 X I 1.36 t | 1.04 X I
1 1 0*5622 1 0*3152—1 0*4*48 I 0*6142— 1 Q*4ZQ0 1
I 122 I 2.17 X I 1.15 X I 1.81 X I 2.61 1 I 1.40 X I
J 1 0*2858 1 0*5233 I 0*8158 1 1*1162—L 0*6105 L
I 123 I 10.26 X I 9.71 X I 10.28 X I 10.78 * I 10.15 X I
L 1 4*665Z_1 i*412Z I 4*6415—J 4*85Z2__1 4*5.IL6_1
I 124 I 0.67 X I 0.68 X I 0.73 X I 0.64 t | 0.72 X I
I L 0*303J 1 Q«. 3flJ5_.il 0*3281 J Q*28a3_1 0*3.211—L
I 125 I 0.84 I I 1.02 X I 1.18 X I 0.99 X I 1.16 X I
I 1 0*3811—1 0*463J„ 1 0*5313 I 0*4455—1 0*5222—1
I 126 I 1.09 X I 1.48 X I 1.22 X I 0.97 X I 1.47 X I
1 1 0*4352—1 0*61.46—1 0*5513 I 0*4365—1 0*6.6X8—1.
-------�
AQDH RUN -BASE YEAR- FOR GREENVILLE CCLMY, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIWP FECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE 1
RECEPTOR I
RECEPTOR I
RECEPTOR I
RECEPTOR |
RECEPTOR 1
1 1
10 . ..... 1
7 1
9 1
11 1.
8 1
1 127 I
6. 63 X 1
4.65 X 1
4.51 X 1
6.72 * |
4.75 X 1
. a*ai&3—1_
2*1162 1
2*0323 1_
3*0224 1
2*1406 1
1 120 I
0.32 * 1
0.33 X 1
0.35 X 1
0.26 X 1
0.34 X 1
L L_.
0*1422—L.
11*4521 1..
0*2520 1-
0*1125 i
0*1515 1
I 129 |
2.00 X I
4.23 X I
1.96 % I
2.48 % |
2.83 X 1
L 1
Q*mi—L.
1*2224 1_.
0*0023—1-
1*1102 i
,__l*2Z3a__l
1 130 I
3.50 X 1
4.72 I I
3.98 X 1
3.23 * |
4.64 X t
1*5215—L.
2*1451 1—
1*2326—L_
1*4546 1
2.*0fll2—1
1 131 1
3.05 * 1
3.21 * I
3.22 X 1
3.01 X I
3.32 X 1
1 1
1,3853 _L.
1*4525 1_.
1*452.0—L_
1*352.1 I
1*4230 1
1 132 t
1.47 * 1
1.60 t I
1.54 X I
1.44 * I
1.59 X 1
a*6625__L.
Q*2255_1 0*6340—L
0*6503 1
0*1155 L
1 133 1
2.71 * 1
3. 09 t 1
2.88 X I
2.68 * |
3.02 X I
1 1
1.2314 L
1*4320 1
1*2331 L_
1*2£52 1
1*3613—1
1 134 I
3.15 * 1
3.80 X |
3.52 X 1
3.12 * |
3.73 X 1
1.4514 L
1.7268 1
1*500.6 L-
l*4C£f.,J„
L*6fl05 1
1 135 1
1.03 X I
1.58 X 1
1.25 X 1
0.90 « )
1.42 X 1
0*4622 L_
11*2161 L
0*5633 L_
0.4055 1
0*63Za_l
1 136 |
0.29 * 1
0. 36 * |
0.35 * 1
0.25 * |
0.38 X I-
1 1
a*i3i3 L_
0*1633 1„
0*1506 1-
0*1121 1__
_Q*1IL3 1
1 137 |
1.09 * I
1.07 X I
1.15 X 1
1.14 * |
1.22 X 1
1 1
0.4973 1
0*4852_ I
0*5123 L_
-0.5126 1
__0*5426 1
1 138 1
1.8B X |
1.25 X | 1.70 X I
2.25 X 1
1.47 X 1
1 1
&*&522 1
0*5205 1„
0*2623 1_
1*0125 I
0*6613—1
1 139 I
0.48 X I
0.35 % I
0.43 X I
0.6 0 t |
0.39 X 1
L L_.
(1*2125—L_
0*1524 1
0*1335—L_
0*2605 1
„ 0*L26.fe—1
1 140 I
3.47 * 1
3. 47 * I
3.51 * 1
3.44 t |
3.47 X 1
1 1
1.5773 .1
1.5797 1
1*5056 !_
1*5516 1
1*5621 I
1 141 1
7.90 X I
7.60 X |
8.00 X 1
8.09 * |
7.94 X 1
1 1
¦*.5923 1
.3.4558 1
3.6089 1
. 3*6441 1__
1*5164 i
1 142 I
1.16 * 1
1.39 ( |
1.2 7 X 1
1.13 X I
1.35 X 1
i l._.
Q*52&6—1—
0*6304—1
0*5212—L.
D*5114 1
0*6022 L
1 143 I
1.27 * 1
1. 66 X |
1.50 X 1
1.27 % |
1.61 X 1
i__ _ 1—
_Q*526Q—1—
0*2564 1
0*6264—1_
0*5232 l__
0*2252—1
1 144 I
0.43 X I
0. 55 * |
0.52 X 1
0.47 X I
0.62 X 1
1 I
a*ia4a L_
0*2502 1
0*2331—J—
C*212S L
—0*2230—1
1 BACK- |
0.0 X I
0. 0 X I
0.0 X 1
0.0 X I
0.0 X 1
1 r.RntiN'n I
Q. . 1 .
0. 1
o. ..1
0. 1
0* 1
1 TOTAL I
100.0 « 1
100.0* |
100.0 X 1
100.0 X 1
100.0 X 1
1- -l._
_45*4fl52—1—
45*4605 1 45*1361)—J—
—45*021S__1—
_45*026A—1
-------�
APPENDIX B
BASELINE YEAR AREA SOURCE COMPUTER PRINTOUTS
-------�
SOURCE DATA
AQOM RIM -BASS YCAR- FOR GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
SOURCF
NUMBER
SOURCE 13.
1 TRACT 1.00
2 TRACT 2.00
3 TB4CI—3.QQ—.
4 TRACT 4.00
5 TRACT 5.00
iaftCI._6.QQ—
7 TRACT T.00
8 TRACT a.oo
9 I8ACI 9.QQ—
10 TRACT 10.00
11 TRACT 11.00
12 I8ftCI.12.QU.
13 TRACT 13.00
14 TRACT 14.00
... .15 lR6CI.li.Q0.
16 TRACT 16.00
17 TRACT 17.00
. ..,18 IB4CI.18.QL_
19 TRACT 16.02
20 TRACT 19.00
21 U4Cl.ZQ.0Q.
22 TRACT 21.01
23 TRACT 21.02
...24 I84CI_21.Q3_
25 TRACT 22.00
26 TRACT 23.00
.. 27- T%ACI.24.00.
28 TRACT 25.01
29 TRACT 25.02
.30 IB&CI-25.Q3.
31 TRACT 26.00
¦ 32 TRACT 27.00
.,33 TBACT-28.0Q.
34 TRACT 29.00
35 TRACT 30.00
ia&ci.auaa.
37 TRACT 32.00
38 TRACT 33.00
.39 I84CI.14.QQ.
40 TRACT 35.00
41 TRACT 36.00
...42 U4CI.3Z.0Q-
43 TRACT 38.00
44 TRACT 39.00
... 45 I8ACI.4Q.aa.
46 TRACT 41.00
47 TRACT 232.0
..48 I84CI.233.Q_
I
I SOURCE LOCATION
I IKILOMETERSI
.1-UDRU3MI6L-1—VESIUftL-.
I 372.9 I 3857.8
I 372.3 I 3857.2
.1 313.5—1 3B55.Z
I 371.9 I 385b.0
I 371.1 I 3855.8
-I 311.1 1 3&56*fl__
I 370.7 I 3857.4
I 369.6 t 3857.0
.1 an.i i. 3B5a*3—
I 372.0 I 3858.3
I 373.8 I 3860.1
-I 3Zi.B i 31154.4-
I 375.4 I 3856.5
I 374.0 I 3853.6
..1 312. B—1 3B53.Q-,
I 375.5 I 3363.5
I 376.3 I 3862.0
..1 azz.t i aasa.z_
( 378.6 t 3856.4
I 376.8 I 3853.8
-.1 312.5 I 384B.2.
I 369.0 I 3856.3
I 369.2 I 3854.0
—I 3Z1.1 L 3852.2.
I 368.8 I 3858.6
I 370.6 I 3861.2
_-l 383.4 1 3884.2.
I 385.9 I 3869.4
I 307.6 I 3867.0
,„l 386.5 1 3864.0.
I 381.8 I 3865.9
I 374.7 I 3866.9
1 — 385.0 1 3854.6.
t 379.1 I 3850.1
I 385.3 I 3845.7
— I 381. Z—1 3836.1.
I 377.1 I 3827.4
I 372.0 I 3840.3
1 3Z4.3 1 3845.8.
I 368.9 I 3847.9
I 366.9 I 3852.9
-.1 365.2—1 3862.2.
I 369.3 | 3flo5.9
I 368.6 I 3873.2
-.1 3Z0.2 1 3886*2.
I 357.1 I 3886.7
I 392.4 I 3864.8
-.1 382.3 — 1 3B6Z*4_
SOURCE AREA
SQUARE
KILQHEI£aS_.
1.60
1.00
3.60
1.70
1.20
l.QQ
1.60
o.eo
0.20
I.60
6.30
6.QQ
4.60
4.70
6.2Q—
7.70
5.80
,1Z*2Q
II.00
14.80
.2Q.3U
4.60
a.80
Z*2Q
8.20
16.00
.226*10
17.70
5.00
-25*50-
81.60
44.30
,1QQ*5Q-
44.30
133.00
104.20-
223.80
115.00
-12.00-
16.20
21.90
._42*3Q_
29.20
118.80
260*10.
210.30
62.10
—L . L.2Q L
ANNUAL SOURCE
EMISSION RATE
(TONS/OAYI
_S32 E&ai
0.0 0.151
0.0 0.339
-0.0 Q.QB5
0.0 0.151
0.0 0.124
_Q.Q Q.QB3
ST4CK OATA
0.0
0.0
0.077
0.062
_Q.U Q.Q43
0.0 0.090
0.0 0.278
-Q.Q : Q*52Z
0.0 0.343
0.0 0.193
—0.0 Q*2Z1
0.0 0.088
0.0 0.227
—q.q o.5aa__
0.0 0.277
0.0 0.394
Q.Q Q*hZ3_.
0.0 0.202
0.0 0.497
0.0 0*232..
0.0 0.338
0.0 0.603
Q.Q 4.524-
0.0 0.130
0.0 0.269
—Q.Q 0*134.
0.0 1.125
0.0 0.108
—Q.Q -1*524.
0.0 1.162
0.0 2.301
Q.Q 1.341-
0.0 2.586
0.0 1.772
0.0 Q.35Q.
0.0 0.Q99
0.0 0.361
—Q.Q 1.QZ2,
O.O 0.266
0.0 2.445
Q.Q- 5*415.
0.0 2.049
0.0 0.866
Q.O Q*16fi_.
I
I
I HT DIAM
.1 1EI1-1EI1—
I 10.0 0.0
I 10.0 0.0
¦ 1—1Q.Q—0*Q—
I 10.0 0.0
t 10.0 o.o
-I—IQ.Q—Q*Q-
I 10.0 0.0
I 10.0 0.0
-1--IQ.Q—U*Q_
| 10.0 0.0
| 10.0 0.0
-U-1Q.Q—Q*Q_
| 10.0 0.0
i 10.0 0.0
„1--1Q.Q—a*Q-
| 10.0 0.0
i 10.0 0.0
—1_-1Q.Q--Q.Q-
| 10.0 o.o
| 10.0 0.0
1_.1Q*Q—0*Q.
| 10.0 0.0
| 10.0 0.0
1--LQ.Q—Q.Q
| 10.0 0.0
I 10.0 0.0
1—10*0—0*0
| 10.0 0.0
j 10.0 0.0
L 1Q*Q Q*Q
| 10.0 0.0
| 10.0 0.0
1—10.0—0*0
| 10.0 0.0
| 10.0 0.0
L--1Q.Q Q*0
| 10.0 0.0
| 10.0 0.0
1 10.0 Q*Q.
| 10.0 0.0
| 10.0 0.0
1 1Q.Q Q*Q
| 10.0 0.0
| 10.0 0.0
i 1Q*Q Q*Q
| 10.0 0.0
| 10.0 0.0
1.-1Q.Q—0*0.
V:L TEMP |
tE£Sl__lQfcG.Ell
0.0 0. I
0.0 0. I
—Q.Q Q»_l
0.0 0. |
0.0 0. |
—Q.Q Q*_ I
0.0 0. |
0.0 0. |
—a.Q a._i
0.0 0. |
0.0 0. |
Q.Q Q._t
0.0 0. I
0.0 0. |
a.Q q*_i
0.0 0. |
0.0 o. t
—Q*Q Q*_l
0.0 0. |
0.0 0. I
Q.Q Q*_ I
0.0 0. |
0.0 0. |
Q*tt Q._l
0.0 0. t
0.0 0. I
Q.Q Q._ I
0.0 0. I
0.0 0. |
Q.a q*_i
0.0 0. |
0.0 0. I
' Q.Q Q..I
0.0 0. |
0.0 0. |
Q.Q Q._l
0.0 0. I
0.0 0. 1
Q.a a.-1
0.0 0. I
0.0 0. I
Q.Q Q.-l
0.0 0. |
0.0 0. |
a.Q a*_ i
0.0 0. I
0.0 0. |
—_Q*Q Q..I
-------�
AODH RUN -BASE YEAR- FOR GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
HiTTORUOGICAL INPUT OATA FOR ANNUAL
MIXING DEPTH * 950. METERS
AMBIENT TEMPERATURE * 62. OEGREES,FAHRENHEIT
AMBIENT PRESSURE * 1000. MILLIBARS
STABILITY CLASS 1
WINDSPEED CLASS
DIRECTION
1
2
3
4
5
N
.00009
.00034
.0
.0
.0
.0
N1E
.0
.0
.0
.0
.0
.0
NE
.00062
.00069
.0
.0
.0
.0
£NC
• 00044
.0
.0
.0
.0'
.0
E
.00044
.0
.0
.0
.0
.0
est
.00009
.00034
.0
.0
.0
.0
SE
. 0
.0
.0
.0
.0
.0
SSE
.00009
.00034
.0
.0
.0
.0
S
.00009
.00034
.0
.0
.0
.0
ssw.
. 00009
.00034
.0
.0
.0
.0
sw
.00037
.00137
.0
.0
.0
.0
HSW
•0002B
.00103
.0
.0
.0
.0
M
.00019
.00069
.0
.0
.0
.0
WNW
.00044
.0
.0
.0
.0
.0
NW
.00009
.00034
.0
.0
.0
.0
NNW
.00009
.00034
.0
.0
.0
.0
-------�
AODM RON -BASE YEAR- FOR GREENVILLE COUNTV, S3JTH CAROLINA 3/17/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 2
HINDSPEED CLASS
DIRECTION
I
2
3
4
5
6
N
.00259
.00582
.00240
.0
.0
.0
NNE
.00360
.00445
.00137
.0
.0
.0
HE
.00167
.00308
,00034
.0
.0
.0
fcNC
.00051
.00206
.00069
.0
.0
.0
C
.00303
.00685
.00103
.0
.0
.0
fiSE
.00046
.00137
.0
.0
.0
.0
SC
.00124
.00206
.0
.0
.0
.0
SSt
.00051
.00206
.0
.0
.0
.0
S
.00182
.00514
.00274
.0
.0
.0
SSW
.00124
.00206
.00206
.0
.0
.0
SW
.00182
.00514
.00377
.0
.0
.0
wsw
.00133
.00343
.00137
.0
.0
.0
w
.00138
.00411
.00274
.0
.0
.0
WNW
.00083
.00137
.00034
.0
.0
.0
NM
.00151
.00069
.0
.0
.0
.0
NNW
.00115
.00069
.00069
.0
.0
.0
-------�
AQDM RUN -BASE YtAR- FOR GREENVILLE COUNTY,
METEOROLOGICAL INPUT DATA FOR ANNUAL
SOUTH CAROLINA
3/17/76
WINOSPEED
CLASS
DIRECTION
1
2
3
4
5
(
N
.00150
.00479
.00651
.00034
.0
.0
NNT
.00062
.00308
.00343
.00069
.0
.0
.00148
.00445
.00445
.0
.0
.0
cNE
.00017
.00206
.00445
.0
.0
.0
i!
.00219
.00411
.00206
.0
.0
.0
ESL
.00011
.00137
.00034
.0
.0
.0
SE
.00086
.00171
.00069
.0
.0
.0
SSfc
.00020
.00240
.00137
.0
.0
.0
s
.00031
.00377
..00479
.00034
.0
.0
SSW
.00060
.002 74
.00206
.00034
.0
.0
sw
.00127
.00651
.00993
.00377
.0
.0
MSU
.00094
.00240
.00548
.00240
.0
.0
W
.00096
.00274
.00514
.00171
.0
.0
WNM
.00014
.00171
.0
.0
.0
.0
NW
.00057
.00240
.00206
.00034
.0
.0
NNW
.00040
.00034
.00137
.0
.0
.0
-------�
AQDM RON -BASE YEAR- FOR GREENVILLE COUNTYt SOUTH CAROLINA 3/17/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 4
MINOSPEED
CLASS
OIRUCTION
1
2
3
4
5
6
N
.00452
.01062
.01130
.00856
.0
.0
NNt
.00470
.00925
.02192
.00891
.0
.0
NE
.00270
.00925
.01678
.00753
.0
.00034
INE
.00180
.00617
.00582
.00343
.0
.0
(5
.00498
.00856
.00479
.00034
.0
.0
2SE
.00108
.00171
.00034
.00069
.0
.0
SE
.00351
.00445
.00137
.0
.0
.0
SSt
.00209
.00548
.00206
.00034
.0
.0
S
.00463
.01130
.01199
.00445
.0
.0
SSM
.00158
.00479
.01027
.00651
.00069
.0
SW
.00412
.01301
.02877
.02569
.00206
.00034
HSW
.00202
.00993
.01884
.01199
.00103
.00034
H
.00346
.00411
.00685
.00822
.00137
.0
WMW
.00102
.00137
.00034
.00137
.0
NW
.00244
.00274
.00069
.00103
.0
.0
NNW
.00193
.00206
.00411
.00479
.0
.0
-------�
AQDM RUN -BASE YEAR- FOA GREENVILLE COUNTY. SOUTH CAROLINA
METEOROLOGICAL INPUT DATA FOR ANNUAL
3/17/76
-ITY CLASS 5
WINDSPEED
CLASS
1 DIRECTION
1
2
3
4
5
N
.03068
.04281
.00856
.0
.0
.0
NNE
.01552
.01884
.00343
.0
.0
.0
HE
.00960
.01301
.00171
.0
.0
.0
SNE
.00239
.00240
.00069
.0
.0
.0
E
.00642
.00445
.00034
.0
.0
.0
• GSC
.00307
.00171
.00034
.0
.0
.0
SE
.00415
.00411
.0
.0
.0
.0
SSE
.00601
.00617
.0
.0
.0
.0
S
.01127
.01438
.00137
.0
.0
.0
SSW
.01100
.01336
.00240
.0
.0
.0
SW
.01344
.01918
.00651
.0
.0
.0
HSW
.00596
.01404
.00582
.0
.0
.0
H
.00736
.01438
.00582
.0
.0
.0
HNW
.00331
.005 82
.00069 -
.0
.0
.0
NW
.00356
.00514
.00206
.0
.0
.0
HNW
.00634
.01062
.00514
.0
.0
.0
-------�
AQON RUN -6ASE YEAR- FOR GREENVILLE COUNTY, SOUTH CAROLINA 3/17/76
INPUT REGRESSION PARAMETERS ARE:
EOLLUIANI— IzlCJICBCEEI _ SLOPE
PARTICULATES 0.0 1.0000
-------�
AQD'1 RUN -dASE YEAR- FOR bRFCNV IL LE COLNTV, SOUTH CAROLINA J/17/76
1
1 1 "
Bt££EIUE-££!U£ItiIE£IiCN-
¦
Q&IA
1 RECEPTOR 1
RECEPTOR
ICC IT ION |
EXPECTED'
AR ITHMcTIL MEAN 1
i _aimEB.__i _
(KILUMfTEPS) 1
( M ICRQGRAHS/CU. ^tTcRI 1
1 1
brHiz j.
i£EI 1
|
—S.Q2
E^LlCULfclES—1
1 1
1 1 1
364.0
3t!4'. .0 |
0.
i 12. !
1 2 1
364.0
3846.0 I
0.
1 l2 . 1
1 3.1
264*11 _
2U4a*Q 1 _
il*
_i Um 1
1 4 1
364 .0
3U50.0 1
0.
1 12. 1
1 5 I
364.0
3852.0 I
0.
1 u. 1
J h 1—
__2f>4*Q__
1
—lit
1 7 I
364.0
3856.0 1
0.
1 il. 1
1 8 1
364. 0
3858.0 1
0.
1 il* 1
^ j
264*a__
_3dil)*i) 1
d*
1 10 |
364.0
3S62.0 I
a.
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1 11 1
364.0
3B64.0 I
0.
1 Mm I
1 U 1__
-_2£i4.*a_-
__la66»C i
_a*
_J_ 1
1 13 1
364.0
31U8.0 1
0.
1 I
1 14 I
364.0
38 70.0 1
0.
1 V. 1
L L5 J
34. 1
1 i a 1_
__2£f!*0_-
_2B IZt-'l _i
J«L
_ J j ¦ 1
1 31 1
368.0
3844.0 1
0.
1 la. 1
1 32 1
368.0
3846.0 1
0.
1 it> • I
I 12 1
26S*Q
__1
—il*
_1 l.u* !
1 34 I
368. 0
3e50.0 1
0.
1 !*• 1
1 35 I
368 .0
3852.0 1
a.
1 17. 1
1 16 1__
2b8*U
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1 -37 I
368 .0
3856.0 |
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0.
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-_36a*U__i
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-------�
AQDH RUN -dASE YEAR- FOR GREEMMLIE CCUNTV, SOUTH CAROLINA -»/I7/76
I
i tLCEEIUE-CtUCtaXBAIICfc-CAIA
RECEPTOR
41
JtZ.
43
44
45-
46
. i&
49
50
52
53
_44_
55
56
_5.1_
58
59
-fill-
61
62
ta_
64
65
k4_
67
68
62-
70
71
12_
73
74
I5_
76
77
1 ia_
I - 79
L ao_
RECEPTOR LOCATION
IKILOMETE
-bOBIZ
I
368.0 I
Ifidi-U—l.
368.0 |
368.0 |
36B..U L.
370.0 I
370.0 I
313*11— L.
RSI
_VEEI.
370.0 I
370.0 I
aiQ^O__l_
370.0 I
370.0 I
32fl-.fl_.L_
370.0 I
370.0 |
azfl»a„L
370.0 I
370.0 t
32Q.Q i.
3e«4.o
,aa
3868.0
3870.0
-352 2..D—
3 844.0
3 £46. 0
3 850. 0
3852.0
_3fl54*fl 1__
3856.0
3 858.0
-3 ££fl.i.fi-.
I
-1
372.0 I
372.0 I
3I2-.0__L.
372.0 I
372.0 I
_3Z2*tt__i.
372.0 I
372.0 I
312*1) 1.
37 2.0 I
372.0 I
3Z2*fl__L.
372.0 I
372.0 I
_322-.U_-L
.374.0 I
374.0 I
_3I4^fl__i.
374.0 I
_3 J4-.U I.
j BC2 .0
38C4.0
3868.0
38T0.0
3844.0
3 846.0
—3ili£«.0—
3850.0
38 S2.0
._3U54»Q_.
38J6.0
3858.0
3862 .0
3Ht4. 0
3 8(8.C
3M70.0
._iB22*0_.
3U44.0
3 846.0
._3i5Sti.il 1_
3850.0 |
i_
EXPECTEO ARITHMtJIL rtEAN
(MICROGRAMS/CJ. rtfclcR)
_SQ2 EAaiiCljU4l£S_
0.
_a*.
0.
0.
-U.
0.
0.
_a.
o.
o. I i-o.
—Q.*. -a*—
o.
o.
1
13.
1
1
.
12.
1
11.
_1__
_
1
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1
17.
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1
18.
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a.. L
o. I
o. I
a*. i
<•2.
19.
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13.
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18.
18 .
i*..
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3.
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0.
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-------�
T
O
AQDM RUN -ttASE YEAR- FOR GREEKVlllE CCI.NTY, SOUTH CAROLINA J/17/76
JEC.EEIUB_£OU££UIB.&IiCh_D&I&.
RECEPTCR
J iHU!iflEa_-
fli
82
S3
—a 4
85
H 6
—az
88
89
2Q
91
92
J ii_—
94
95
at
97
98
J 22
100
101
112
10 3
104
J 1Q5
1J6
107
iaa
109
no
in
112
113
114
115
116
112
lie
119
12Q 1
RECEPTOR LCCAT1PM
IKUOMFT
-UOEIZ
I
374.0
374.0
374.0
374.0
374.0
374.0
-324..Q
376.0
376.0
_316*Q__
376. 0
376.0
_22fc..Q__
376.0
376.0
-21UQ
376.0
376.0
_3Z£*Q
376. 0
376.0
378.0
378.0
_32fl*U
3 78. 0
378.0
_na«Q__i_
378.0
378.0
378.0
378.0
_32a^Q_
378.0
378.0
_i2a*a__i
ERS >
lf£SI
_3J!54..0
3856.0
3858.0
3 862.0
3 864. 0
3068.0
3870.0
3844.0
3846.0
3H50.0
3852.0
_3U54*fl
3856.0
3858.0
3U62.0
3 8t4. 0
3868. 0
3870.0
-Mil*!}
3844.0
3 846.0
3 350.0
3H52.0
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3 856.0
3 858.0
_22ta^
38t2.0
3 864.0
-3M6+SI
3868.0
3 P 70.0
_idI2*Q 1
EXPECTED ARITHMETIC. MEAN
"~rMTcROGRAMs7cu7^tTcR7__
__iQ2_ EflBliliUUilfS.
I
Qj i t,i*
-------�
AODM RUN -oASE VFAP- FOR CP EEhVI LLC CCUMY, SOUTH CAROLINA 3/17/76
SOURCE CONTR IBUT IONS TO FIVE MAXIMUM RECEPTORS
annual particulates
MICROGRAMS PER CUBIC MET ER
I SOURCE I RECEPTOR I RECEPTOR I RECEPTOR I RECEPIJR T RECEPTOR f
1 1 fcZ 1 62 1 B3 J £6 I 65 1
I 1 I 2.^ X I 2.42 X I 4.63 * I 2.70 X I 1.61 X I
J 1 Q.ai52__L 13*4162 1 1.1335 I i3.SJia2__l 0.3243 1
I 2 I 16.44 T t 12.62 X I 7.88 X | 7.94 X I 5.18 * I
i L 4*2Q5_J fi.263fl__l
4
1
15.?4 * 1
2.45 X I
2.29 X I
4.0t> X |
2.82 X I
—
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_4*fc35i__i__
—Q.6252 1
—13.5.635 J
fl.9UWfc 1
_fl.6151__l
5
1
3.95 % 1
2. 18 X 1
1.53 X 1
2.29 X 1
1.69 X I
_l __1»123U 1
Q.55.J55fl_l_
fl.-Xmi.__J fl.llaU 1
._fl.flaai__l
10
1
1.7? X I
10.76 X I
1.03 X 1
1.61 X 1
1.16 X I
1
„Q.52I2_ L_
2*2422__1_
13.2542 l_
fl.35a4.__l
0.2535 1
11
1
2.21 X I
2.79 X 1
3.43 X I
2.61 X 1
2.14 X I
__L__
Q«f>53il i_
13*211fl_l_
Q.B.42B 1
_fl.5fau2__l__
-_0.46fi4__l
12
t
3.33 I I
3.07 X 1
17.10 X 1
4.5 C X I
4.63 X 1
1
__Q.aaJa__L_
Q.ia23_l_
4*21328 L_
1.13Ulil__l„
_l.fllfla__l
13
1
1.39 * I
1.25 X I
2.39 X 1
2.13 * 1
2.68 X 1
—
L Q.415i__L_
13.3124 . I_
_ 0.5a24__l_
fl.5121__l__
. „fl.5jS64__l
14
1
0. 82 X 1
0.7)1 X 1
1.29 X |
1.59 X I
2.35 X I
1
0*2435__L.
C.2flfl0 l_
<1.3JQ2__1_
fl.3a2.B__l__
—0.5131 1
15
I
1.47 % 1
1.26 X I
1.67 X 1
5.4* X |
6.51 X 1
)
0.4SOQ 1_
0.-32Q1 1
_ 0.4114 _l
1.4214 1
16
1
0.45 I |
0.53 X 1
0.73 X I
0.5* 1 |
0.45 t I
1—
t
Q.1352 L_
Q.1352__l_
l*lj32 l_
0.112i> 1—
__fl.fl23.3__l
1/
1
0. 9 7 % |
1.10 X I
1.98 X 1
1.2b X |
1.26 X 1
_____
—1
__Q.23U5__L_
u.2m__i_
_ U.4B82 1
_ fl.2oal__l__
13.2260 1
18
1
1.69 i |
1.66 X I
2.29 X 1
2.5., X I
2.64 X I
1
0.51344 _L_
13.4234 i_
_ tt.5643 1
C. 5d 1, 7 1 ..
0.5758 1
19
1
0.51 % |
0.50 X I
0.67 t I
0.74 X 1
0.92 X I
—I—
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U.12B2 1_
13.1652 L_
fl.lt>JJ__l__
—0.2001 i
20 '
1
0.68 X 1
0.75 X 1
1.14 X I
1.15 X 1
I.44 X 1
—
__l__
__Q.2U15 1
. QU222__i_
fl.2jU13 1
. £.25aii_ 1__
0.3151 I
21
1
1.73 X 1
1.68 X I
2.00 t I
2.7o * I
2.37 X 1
1—
_ _ _ _ —
—L
__Q.515tt 1
U*42flU—i-
a»42ill__l_
0.ui'iJ4—1—
—0.5121 1
-------�
AQDM PUN -oASE YFAR- FOB CREFNVILIE COINTY, SOUTH CAROLINA J/17/76
SOURCE CONTRIBUTIONS TO FIVE KAXICUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE
22
7
IM
23
~24~
~25~
~26~
~27~
~Z8~
~29~
30
~ir
~32~
"15"
~34~
~35~
~36~
~37~
~38~
~39~
"?0~
41
J
42
RECEPTOR
fcl_:
1.13 X
u»aiaz__
3.19 *
12x2522—
1.38 %
1.09 X
(U225fl—
2.64 X
QxZBfcS—
4.84 X
ix4416__
0.16 X
QxQ482—
0.22 X
L 0xQ64i„
0.29 *
1 Q«.aB&2„
1.65 X
.1 Qx4Sifl—
0.30 X
1 0iQfi32__
0.94 X
1 0x2818—
1.15 X
1 Qx241fl_
1.12 X
1 Qx3342__
0.55 *
UxlfiSl—
1.36 *
Dxfti)£i2
1.92 X
V x5I3tf__
0.62 X
flxli52__
0.29 X
DxflflZZ--
1.20 X
flx25fll__
1.4t * „
.1 flx4J61„i_
PFCfPTOP
—fe6
1.77 %
<1x45(18—
3.02 *
0xZ6S2__
1.18 *
JJxllQQfl
1.75 *
.—UxiiW—
3.1« *
OxSiifc—
5.73 t
18—
0.17 *
Q*a422-_
0.23 *
Qx!2S8i—
0.36 *
0»a21i__
t. 79 5!
Qxiifc2„
0.37 %
1.03 *
a*2&2a„
1.29 {
0x3282—
1.32 *
0x3325—
0.67 %
Qxl$22—
1.53 X
0x3213
2.11 X
i)*SUi
0.66 t
0x1685
0.30 *
QxU2(i4
1.42 *
.__0x362Q
1.76 Z
0x44112—1
RECEPTOR
6.1
1.25 %
Ux3022_
2.70 *
0xi63fi_
1.30 X
0x3125_
1.17 X
Qx2fl21_
2.09 X
0x5145_
6.1 8 X
lx520fi_
0.23 X
Qx05&4_
0.29 X
1+.1112-
0.42 X
ttxlQil-
2.30 X
a*i&aa_.
0.41 t
0x0222-.
1.20 i
0x2258_.
1.63 X
0x3228...
1.53 X
CU1266-.
0.77 X
0x1820—
1.68 X
0x4135_
2.22 X
_—0x54!i5_.
0.83 X
0x2035_
0.31 «
1.18 %
Qx2822_
1.24 t
RECEPTuk
66
0. ti'j %
0xlb32_
3.39 X
Q+lUit4_
2.2b *
Oxlu2li_
1.4*. %
£U.U11_
3. 3* *
J OxZ->ii2_
6.31> X
lxi-U2_
0.21 *
Q^J_<2J_
0.31 X
QxU£idi._
0.4c X
2.21 X
Qx45»ilS_.
C. 3V X
0 xU-fcl2_.
1. 31. *
ilxiu(i5_.
1. 60 X
J Oxi-Sat-
L.5J *
0x34J4_.
0.73 X
uuiab-
1.87 X
_J 0x4 Jill-
2.74 4
Qxil-Ui4_.
0. 9u X
0x2iJ3_.
C.4 7 X
Oxlllili-.
1. 4t 4
0xJ^12_.
1.90 X
I RECEPTOR
.1 65
I 0.99 X
0x2161
2. 74 X
flxassA—
6.62 X
1x4*62-.
1.59 X
Uxjwfca-.
3.22 X
„_flxI02S__
6.35 X
lx3£2I—J
0.20 X
0x044£—
0.39 X
Wi5i..
0.48 2
flxlU55„J
2.27 X
QxA35fl—J
0.38.X
DxflB22__J
1.58 X
0x3441—
1. 77 *
0x332.0-
1.51 %
0xi22fi—J
0.74 %
—OxlflliJ—
1.94 %
i1*4231—
2. 94 t
—0xfc414—J
1.03 X
13x2243—J
0.58 X
0x1224—J
1.20 X
Qx2&22—
1.95 X
flx42&3—1
-------�
AQOC RON -t»ASE YEAR- FOR GREENVILLE COUNTY. SOUTH CAROLINA 3/17/76
SOURCE CQNI R1BUT ICNS TO FIVE MAXIMUM RECEPTORS
ANNUAL P»RTICULATfS
MICROGRAMS PEP CUBIC METER
1 SOURCE
1
RECEPTI1R
1
RECEPTOR
1 RECEPTOR I RECEPTJK
l RECEPTOR
i
1
61
.i_.
ta
J. ai !____&& —
.1 fci_
i
1
*3
1
0.71 *
1
0.87 X
1 0.62 X 1 0.9i *
1 0.94 X
i
J
^ __ .r
fl*2124_.
Q..221.2__l _ Q^iulit
-i fl«.2Q53
i
1
44
1
3.53 t
1
4.29 *
1 3.91 X 1 4.fab i
1 4.70 X
i
i__
____
-1-
.UQ51'i_.
US9Z2-.
-i a»2622__J i.aian_
-1 UQ2Ifl_
.i
1
1
5.70 *
1
6.84 %
1 6.51 * 1 7.4«« *
1 7.48 i
i
1_.
1 T ,
-i-
_1..{iS25
1
L«.142B_
-1- U6Q21 i_
-J 1*M&3_
_L
1
46
1
1.28 *
1
1.48 *
1 1.37 I 1 1.74 2
1 1.81 X
i
i
I
1
Q. 3762
_j o^aaai i Q^i.naa
_i a*aa5fi_
_i
1
47
I
0.53 X
1
0.60 *
1 0.67 X t 0.7u t
1 0.77 X
i
1_.
--i-
_1_
U.a535_
-1 Q*16S2__1
-1 Q&lfcfil-
_i
1
4S
i
0.12 I
1
0.13 <
1 0.15 X 1 0.1b X
1 0.20 X
i
1
— L
1_
fl*W2JB_
_1 Q^aizfl—J
_i
-------�
AQOM RUN -BASE YtiAR- FUR GR^'tNVI L Li COUNTY. SOUTH CAROLINA 3/17/76
RECEPTOR
-..UUH8ER-.
BtCfceiL'B-CJWC£UIBAIlUU_OAIA
RL-CfcPTGK LOCATION I EXPECTED ARITHMETIC MEAN
I KlLOMETERS»
IM1CROGRAMS/CU. MET3R)
UQaiZ- .
Vl8I _ 1
SU2
_£ABI1CULAI£S 1
1 1
380.0 1
3844.0 |
0. 1
13. I
2 1
380.0 1
3846.0 I
0. 1
14. |
3 1
.___3ao.o__i
—3848*1}—.1
Q* i
14* 1
4 1
380.0 1
3850.0 |
0. 1
14. I
5 1
380.0 1
3852.0 I
0. 1
14. I
. . 2 . 0 |
0. |
15. I
26 1
382.0 1
3864.0 I
0. 1
14. I
21 L
382.0—1
3866.0 i
0. i
14* 1
28 1
382.0 1
386B.0 |
0. 1
13. |
29 1
382.0 1
3870.0 I
0. 1
12. I
— 30 L
3a2.Q__l.
—3312.Q i
i
11* 1
31 1
384.0 1
3844.0 I
0. ~|
12. I
32 1
384.0 1
3846.0 I
0. 1
12. I
-.-33 1
384.0 1
..3848.0 1
; a. i
12* 1
34 1
384.0 1
3U50.0 I
0. 1
12. I
35 1
384.0 I
3852.0 |
0. 1
13. I
-.-36 L
384.Q —1
—3B54*Q_—i
a* i
13* 1
37 1
384.0 1
3856.0 I
0. 1
1J. 1
38 1
384.0 1
3858.0 I
o. 1
14. I
...39 I
384.0—1
__38uQ*0 1
a* i
14* 1
— 4Q I
—...384.Q — 1
—3862.Q 1
0. i
14* 1
-------�
AODM RUN -BASE VEAft- FOR GRStNVILLG COUNTY, SOUTH CAROLINA 3/17/76
-&£C£EIQ&-CQUC£UIEAIiQU.
I
RCCHPTJR I Rf-CEPTOR LOCATION I
—NUHBEa.-i. i
QAIA
EXPECTED ARITHMETIC MEAN
41
42
43
44
45
4b
47
40
49
50
L 51
52
53
L 54
55
56
51-..-
58
59
60
61
62
63—
64
65
66
67
68
69
70
71
L 22..
73
74
15..
76
77
Z8_.
79
I 80...
(KILOMETERS) I
.ttuaiz y&ai i
l I
384.0 I 3864.0 I
_3&4.a__L__3a66»Q.__l
384.0 I 3868.0 I
384.0 I 3870.0 I
_3a4*u__i__aazz*o i—
3B6.0 I 3844.0 I
386.0 I 3846.0 I
._aa6»o__i__3B4a«Q l—
386.0 I 3850.0 I
386.0 I 3852.0 I
__aa&»o__l__aa54«o l
386.0 I 3856.0 I
386.0 I 3858.0 I
386.0 1 336Q*Q 1__
386.0 I 3862.0 I
386.0 I 3864.0- I
__ltt6^Q„l__aa66«0 1__
386.0 I 3868.0 I
386.0 I 3870.0 I
JB&.Q 1 3322*0 1
3BS.0 I 3844.0 I
388.0 I 3846.0 I
.__3aa«o__i__3fl4a«o_—i—
388.0 I 3850.0 I
388.0 I 3852.0 I
__aaa*a__ i.__aas4*Q J...
388.0 I 3856.0 I
388.0 I 3858.0 I
...368»0„l.__aa6Qa0 i_.
388.0 I 3862.0 I
388.0 I 3864.0 I
.-_3aa.Q~ 1—3866*0 L_.
388.0 I 3868.0 I
388.0 I 3870.0 I
..388*0—l__3aiZ*Q i-
390.0 I 3844.0 I
390.0 I 3846.0 I
390.0--1 384&*l) 1_.
390.0 I 3850.0 I
__330«Q__l__2aS2*Q 1-
IMICROGRAHS/CU. 1ETER)
_*U2 EA&T1CULAIES-
0.
—0.
0.
0.
—Q*_
0.
o.
—0*.
0.
0.
—tt*.
0.
0.
—a*
o.
o.
Q*
0.
0.
—a.
o.
o.
Q.
o.
o.
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o.
o.
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o.
0.
0.
0.
0.
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0.
0.
Q,
0.
0*
1
14.
13*
13.
12.
11*
11.
11.
11*
12.
12.
12*
13.
13.
11*__
13.
13.
13*„
12.
12.
1 11*
10.
10.
1 UU-
11.
11.
—11*-.
12.
12.
___U*_.
12.
13.
14*.
13.
11.
L 11*.
9.
9.
1 2*.
I 9.
1 1Q*.
-------�
AODM RUN -BASE YEAR- FOR GRE'tNVI LLc COUNTY, SOUTH CAROLINA 3/17/76
I
1 &LCcEIua_CQ(JLti!SIHAnQN_DAIA
KECRPTOR
—NUH8EB.,-
1 ReCCPTD*
LOCATION
EXPECTED ARITHMETIC MEAN 1
1 (KILOMl
TTRS)
(MICROGRAMS/CU. ME TER) )
1 HOBIZ
¦ |
vasi
_ SQ2 EAatlCULAIES— 1
1 1
81
1 390.0 1
—2854.Q
q. i ia. i
82
t 390.0
3856.0
0. | 11. |
83
1 390.0
3858.0
0. 1 11. 1
84
I 39Q.0
--3360.0
. Q * 1 11. 1
85
1 390.0
3862.0
0. I 11. I
86
1 390.0
3864.0
0. | 11. |
87.
L 39Q.Q
3U66.U
0 . J 11. I
8H
1 390.0
3868.0
0. | 12. 1
89
1 390.0
3870.0
0. I 11. 1
90
L 39Q.Q
__33Z2»Q
Q«. 1 ia* 1
91
1 392.0
3844.0
0. 18. 1
92
1 39 2.0
3846.0
0. | 8. I
93
L 392.Q
__3a4a»Q
Qil_ J 2 ^ |
94
1 392.0
3850.0
o. i a. |
95
1 392.0
3852.0
0. 19. 1
96
1 392.Q —
_ 33514*0
Q. __1 9» 1
97
1 392.0
3356.0
0. I 10. 1
98
1 392.0
3858.0
0. | 10. 1
99
1 392.0
--aaaovo
Q. 1 1Q. |
100
1 392.0
3862.0
0. | 10. |
101
1 392.0
3864.0
0. | 10. 1
IQ2
1 392.Q
3866.Q
Q. 1 1Q. 1
103
1 392.0
3868.0
0. I 11. 1
104
1 392.0
3870.0
0. | 10. 1
-..105
L 322.Q
3822.0
Q. i ia. I
106
1 394.0
3844.0.
0. I 7. 1
107
1 394.0
3846.0
0. | 7. 1
1Q8
1 394.Q
.-3348.0
Q. 1 3* 1
109
1 394.0
3850.0
0.1 8. 1
110
1 394.0
3852.0
0. 18. 1
III
L 394.0
_ 38S4.Q
Q. i a. I
112
1 394.0
3856.0
0. 19. I
113
1 394.0
3858.0
0. 1 9. I
1X4
I 394.0—
—380Q.0
Qa I 2* 1
115
1 394.0
3862.0
0. I 9. 1
116
1 394.0
3864.0
0. 1 9.1
-111
1 394.Q
__3866.ll
0. 1 1Q. 1
118
1 394.0
3868.0
0. I 10. 1
119
1 394.0
3870.0
0. | 9. I
...120
1 394.Q__i
-3872.0_
1 „ Q»_ . _i 2. 1
-------�
AODM RUN -BASE Y5AR- FOR GREENVILLE COUNTY. SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULA TCS
MICROGRAMS PER CUBIC MiT.'R
SOURCE
--
RECEPTOR
I
I
L_.
I
L__
I
,L_.
I
.1.
I
_1_
I
I
-1.
I
.1.
I
-i
I
_1
I
-1
I
I
-1
I
„1
I
— 1
I
.1
I
— 1
RECEPTOR I
—1ft 1-
0.99 X I
0*1541 i
2.09 X I
0*3242—1..
0.65 X I
—Q*1Q02„1_.
0.87 X I
0*1344—1.
0.65 * I
0*1012—1.
0.43 X I
0*0662—1.
0.3b X I
0*Q582 1.
0.25 X I
0*0394—1.
0.23 X |
0*0356—1.
0.55 * I
Q*QS60 i.
2.15 X I
0*1332—1
4.91 X I
0*2612 1
3.05 X I
0*4224 i
1.04 * I
0*1614 1
1.39 X I
0*2160 i
0.46 X I
0*0214 1
2.20 X I
0*3406 i
5.19 * 1
Q*aQ51__1
2.13 X I
ff*3302—1
2.29 X I
C*3 555—1
2.40 X I
___0*3223—1
RECEPTOR
3
0.98 X
Q*i4a&__
2.07 X
0*3142—
0.61 X
0*0325
0.91 X
Q*1330_.
0.66 X
0*10Qb_.
0.41 X
0*0623.
0.33 X
0*0433.
0.24 X
Q*Qi62.
0.20 X
Q*03oa.
0.46 x
0*0692.
1.66 X
0*2524.
4.68 X
0*210a.
3.80 X
Q*5ZZfl.
1.50 x
<2*2282.
1.82 X
£1*2112
0.34 X
0*0516
1.26 X
Q*12QS
3.83 X
—0*5813
2.93 X
—0*4443
2.78 X
Q*422Z
2.8b X
.,0*4342
I RECEPTOR | Ri
1 11 1
I 1.07 X I
1 0*1.612..1
I 2.17 X |
.1 0*2294 1
I 0.49 X |
.1 0*0243 i
I 0.96 % |
.1 0*1451 1
I 0.69 X I
_1 0*1033 1
I 0.45 X I
_i 0*06B3 1
I 0.39 X I
_1 0*0532 1
I 0.28 X I
_i 0*0422 1
I 0.23 X i
_I 0*0352 1
I 0.54 X I
-_J 0*0815—1—
I 2.24 X i
-_i 0*3400 1_.
I 4.60 X I
_i fi*63Z5 1__.
I 2.26 X I
„i 0*3413 1
I 0.89 X
„J 0*1344—1—
I 1.12 X I
__1 0*169 (i 1
I 0.73 % I
__i o*iiaa_.i__
I 2.71 * I
_i o*4io6__i_.
1 4.63 X I
__i 0*2316 1
I 1.79 X I
_1 0*2215—1—.
i 2.02 X I
_1 0*3063 I
I 2.26 X I
.1 0*3418—1..
•CEPTOR |
-8 1
0.95 X t
.3*1443..!
1.89 X I
.0*2856.-1
0.69 X t
-9*1033 1
0.76 X 1
.0*1143 1
0.57 X |
-0*QB64 1
0.39 X I
-0*0596 1
0.35 X |
.-0*0532 1
0.25 X |
.-0*0329—1
0.19 x I
0*0233 1
0.46 X I
—0*0632 1
1.13 X I
—Q*12Q9L—i
3.35 X I
0*5022—1
3.61 X I
—0*54fil._l
1.57 X t
Q*23ZU 1
1.77 X I
-0*2626.-1
0.36 X I
—0*0538—1
1.08 X I
__0*1&30._1
2.21 X I
-0*3348—1
4.12 X I
-0*6236—1
3.35 X I
—0*5028—1
3.28 X I
—Q*4265__l
4
i"
8
9
10
"li"
12
"li"
14
15
16
~17~
18
*19~
20
2l~
0.54 X
—0*0440..
1.32 X
0*2Q55_.
0.54 X
__.0*0440.
0.81 X
0*1260.
0.60 X
U*0'i28_
0.30 X
0*0424_
0.24 X
Q.03ZZ,
0.19 X
Q*03Q3.
0.12 X
0.0190.
0.27 X
0*0424.
0.82 X
0*1285.
2.14 X
Q.3342
2.41 X
0.3Z51
1.70 X
0»2o44
1.94 %
0.3016
0.39 *
0*0609
1.27 X
0*1983
3.80 X
0.5922.
6.78 X
1*0523
3.67 X
0*5214.
3.33 X
0*5271.
„ 1
t
-1
I
-1
I
-L
I
.1
-------�
AODM RUN —BASE YEAR- FOB GRij'iNVI LLE COUNTY, SOUTH CAROLINA 3/17/7 b
SOURCE CONTRIBUTIONS TU FIV<= MAXIMUM RcCEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC McTf-R
I SOURCE I RECEPTOP. I RECEPTOR I RECEPTOR | RECEPTOR I RECEPTOR .1
I.— I I 1 ID 1 —2 1 11 i a 1
I 22 I 0.71 X I 0.83 X I 0.83 X I 0.81 X | 0.70 X I
L L Q*1Q99 1 0.1291 1 0*1256—1 Q*1221__l Q*UL&2—1
i 23 I 1.73 X I 1.97 I | 2.10 % I 2.16 X I 2.22 X I
I 1 Q.26S4—1 0.3051 1 0*3189—1 Q*32Z8__1 0*3362—1
I 24 I 1.32 X I 1.14 t I 1.26 X I 0.92 X I 1.20 * I
L L Q.2059 1 Q *.1Z63 1 0*1911—1 Q*13a2__l; 0*1121—1
I 25 I 0.73 X I 1.31 X I 1.14 % I 1.44 X I 1.11 X I
L L Q.1144 1__ 0.2 03 J 1 0JI33..1 0*2189—1 0*16Z3—1
I 26 I 1.22 X I 2.30 X I 1.92 X I 2.77 * I 1.48 X I
1 1 Q*1B92 L 0*35Z2 1 0*2316—1 0*4196—1 0*2244—1
I 27 I 10.25 X I 10.90 X I 10.92 X I 11.43 X I 10.75 X I
1 i 1.5278 L 1.6204 1 1*6589—1 1*2318—1 1*6268—1
I 28 I 0.71 X I 0.71 X I 0.77 X I 0.68 X I 0.76 X I
I — -1 0*1113—1 0*1100 1 0*11Z3 i 0*1028—l_—_Q*115a—l
W I 29 I 1.08 % I 0.89 % I 1.25 X I 1.05 X I 1.23 X t
i 1- 1- Q«16Z9__L 0*1381 1 0*1901—1 fl*1588—1 0*1853—1
00 I 30 I 1.57 X I 1.16 X I 1.30 X I 1.03 X | 1.56 X I
I— — L CU2443__L 0*1224—1 0*1923—1 0*1556—1 Q*2155„1
I 31 I 4.92 * | 7.04 * | 4.79 * | 7.12 * t 5.03 X I
I L Q.Z662 1 1*0221 1 0*2281—1 1*0293—1 0*2618—1
I 32 I 0.35 X I 0.35 X I 0.37 X I 0.28 X I 0.36 X I
I L O.Q551 L 0*0535 1 0*0561—1 0*0420—1 0*0533—1
I 33 I 4.47 X I 2.13 X I 2.08 X I 2.63 X I 2.99 X I
L I 0*6961 L 0*3300 1 0*3153—1 0*3382—1 0.4533—1
I 34 I 4.99 X I 3.72 X I 4.23 X I 3.42 X I 4.91 X I
I L Q.ZZ69 1 Q*5Z66__1 0*6425—1 0*5136—1 0*2428—1
I 35 I 3.39 X I 3.24 * | 3.42 * I 3.19 * I 3.51 * I
V 1 0.52&5: L 0*5012 1 0*5123 1 0*4838—1 0*5313—1
I 36 I 1.69 X I 1.56 X I 1.63 X I 1.53 X I 1.68 X I
i I Q.26Z.Z 1 0*2426 1 11.2433—1 0*2313—1 0*2546—1
I 37 I 3.27 X I 2.88 X I 3.06 X I 2.84 X I 3.20 X I
I L 0*5025 1 Q*4462—1 0*4643—1 0*4290—1 0*4844—1
I 38 I 4.01 % I 3.39 X I 3.74 X I 3.31 X I 3.95 X I
I I 0.6252 1 0*5259 1 Q.56Z0—1 0*5014—1 0.52B0—1
I 39 I 1.66 X I 1.10 X I 1.33 X I 0.95 X I 1.50 X I
L L 0.2523 1 0.1ZQ2—1 0*2013—1 0*1446—1 Q*22ZQ—1
I 40 I 0.38 X I 0.31 X I 0.37 X I 0.2b X I 0.40 X I
I 1 0.0591 1 0*Q4Z6 1 Q*Q56Z__ 1 0*0399—1 0*0610—1
I 41 I 1.13 X I 1.16 X I 1.22 X I 1.21 X I 1.29 X I
1 — 1 0.1Z5Z 1 0.1802 1 0*1351—1 0*lfi2Z—1 0*1956—1
t 42 I 1.33 X I 1.99 X I 1.81 X I 2.38 X I 1.56 X I
I 1 0*20bb__L 0*3090—1 Q*2Z44—1 0*3611—1 0*2363—1
-------�
AODM RUN -BASE YEAR- FOR GRtCNVILLE COUNTY, SOUTH CAROLINA 3/17/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RtCEPTORS
ANNUAL PARTICULATES
MICROGRAMS PfcR CUBIC MKTtiR
SOURCE
RECrPTOR 1 Rt
A3
Z J.
0. 37~X 1
0.0510 .1 „
44
3.67 X t
Q.5/20 _1
45
8.03 X t
1*2513 -1
46
1.46 X t
Q.22B3 1
47
1.76 X 1
- --0*2732 .1
48
0.58 X 1
Q.02QU—1
~8ACK-
0.0 X 1
_ _eaouno„
Q* 1
TOTAL
100.0 X 1
1—-.15*5046 1
O.S1 X
3.69 X I
8.39 X
1.23 %
1.35 X I
.0*2082 1
0.45 X I
0.0
100.0 X I
RfcCtPTOR
0.46~X~
Q*0622_,
3.73 *
Q*5662_
8.49 X
1*2B93_
1.34 X
0*2043-
1.59 X
Q*241fl
0.55 X
0*0333
0.0 X
0*
100.0 X
15*1350
I RECEPT3R
1 11
I 0.63 X
.1 0*0259.
I 3.65 X
.1 Q*55il
I 8.57 *
_i 1*2231-.
I 1.20 X
_1 0*1823.
I 1.35 X
_i 0*2045
I 0.50 X
_1 0*0252
I 0.0 X
_1 0*
I 100.0 X
15*15a4
| RECEPTOR |
.1 a 1
I 0.42 x I
_1 0*06.22—1
I 3.67 X |
_1 a*5552__l
I 8.41 x I
.1 1*2121—1
I 1-43 X I
.1 0*2161—1
I 1.71 X I
_J Q*25a2„1
I 0.66 X I
,_1 Q*Q223 1
I 0.0 X I
,_1 52* 1
I 100.0 X I
15*13. BO 1
-------�
APPENDIX C
1Q75 ANALYSIS COMPUTER PRINTOUTS
-------�
AODM RUN -YEAR 1975- FOR CREtNVlLLE COUNTY, SOUTH CAROLINA 10/Zl/7b
SOURCE CATA
1
ANNUAL
SOURCE
/ STACK OAT A
1
snimc.F
SOURCE
LCCATION
SOURCE AREA
1 EMISSION RATE
1
1
NtlHHFR
SOURCF 10.
(KilOMETERS1
SQUARE
1 ITONS/OAVI
1 MT 01AH VEL
TEMP
1
.
_
DfiJZCaiAL_J vrRTir.AL
.KILCHETtFS 1 SQ2
-EABI
1 L£I1_1£I1 IEES1
10£G*E1
1
1
1200 3 1
368.8
3849.0
0.0
1 0.0
0.071
1 25.0 1.6 90.0
225.
1
2
1200 7 I
J68.4
3848.6
0.0
1 0.0
0.077
1 20.0 0.0 0.0
77.
1.
.120Q„7_2
_A6JJ..4_
3fl4il*6
_0*Q ...
i -CUQ
0*121
.1 20*0 o*o u*a__
iz*_
1
4
1200 7 3
3*0.4
3848.6
0.0
1 0.0
0.041
1 20.0 0.0 0.0
77.
1
5
1200 R 1
375.8
3862.7
0.0
1 0.030
0.003
1 21.0 2.2 45.0
450.
i
6 12U0 fl_ 2
3862.Z.. ...
0.0
i 0*Q30 __
0*003
1 21*0 2*2 45*0_
450*-
i
7
1200 B 3
375.8
3862.7
0.0
1 0.005
0.047
1 40.0 2.3 17.4
378.
i
H
1200 9 1
369.7
3860.8
0.0
1 0.323
0.033
1 75.0 5.0 40.0
360.
i
9
-1200 9_2
369*2
.3£6Q»a_
0.0
i_ 0*123
...0.036 ..
1_ 25*0 0*0 40*0
__36Q*_
i
10
1200 9 3
369.7
3860.8
0.0
1 0.6 27
0.063
1 65.0 5.0 48.4
360.
i
11
1200 13 1
381.3
3864.3
0.0
1 0.030
0.033
1 50.0 3.5 35.0
415.
»
12
-12U3 14-l
J- 3a 54.6... .
0.0
L_ _0*Qli __Q*QQ&_
.1-150*0—2*0 40*0—
—4&Q*_
i
11
1200 14 2
170.0
3854.6
0.0
1 0.033
0.008
1 150.0 7.0 40.0
460.
i
14
1200 15 1
3(0.7
3850.6
0.0
1 0.027
0.003
1 210.0 11.0 40.0
410.
i.
15
_.1200__16..1
368*1)
.1—
-3042*6
Q.Q..
,i_ _o*oo3_
0*003
-1 32*0 2*0 35*0—
325*-
i
16
12«<0 17 I
363.3
3876.8
0.0
1 0.011
0.003
1 200.0 5.0 40.0
460.
i
17
1200 19 2
372.8
3845.2
0.0
1 0.0
0.003
1 30.0 0.0 0.0
80.
i
I ft
„1200 2.Q-1
331.ll 1_
386b.3
0.0
.1_ 0*016
0*005
-1-115*0 4*5 30*0
425*_
i
19
1200 20 2
387.6
3866.3
0.0
1 0.014
0.005
1 115.0 4.5 30.0
425.
\
70
1200 ?1 I
310.6
3855.8
0.0
1 0.0
0.003
1 45.0 2.7 10.8
1000.
i
21
_ 120Q_..22..1
3JJ2.6
3864.6
0.0
1 0.123
0.011
1 ?QO*Q 4*Q _3Q*Q_.
4QQ*_
i
77
1200 22 2
382.6
3864.6
0.0
1 0.123
0.011
1 200.0 4.0 30.0
400.
23
1200 22 3
382.6
3864.6
0.0
I 0.071
0.008
1 50.0 3.5 30.0
450.
i-
,7!*
1200 23.1
-189*7
3869.3
0.0
1 0.047
0.016
1 100.0 4.0 7.8
500*_
i
25
1700 23 2
389.7
3869.3
0.0
t 0.008
0.005
1 100.0 4.0 7.8
500.
7b
1200 24 I
383.0
3845.6
0.0
1 0.058
0.003
1 45.0 1.5 10.0
450.
_..?7
12UQ 24.2
AB3.V)
1_
3B45.6-
0.0,..
I _Q*U5fi
0*003
_1—45*0—1*5 L0*0_
450*_
7R
1200 24 3
3R3.0
3845.6
0.0
1 0.071
0.005
1 45.0 1.5 10.0
450.
1
29
1200 24 4
3«3.0
3845.6
0.0
1 0.101
0.008
1 45.0 2.0 10.0
450.
1.
30
1200 25-1
3fll*3
3854.2
0.0
1 0.200
0.014
1 61*0 4*0 43*4_
450*-
1
31
1200 25 2
381.3
3854.2
0.0
1 0.200
0.014
1 61.0 4.0 43.4
450.
1
32
1200 25 3
381.3
3854.2
0.0
1 0.2 00
0.014
1 61.0 4.0 43.4
450.
I
1
. 43
1200 25-4
381*3
3BS4.2
0.0
1 . 0.036
0.003 _
1 50.0 1.8 50.1 500.
34
1200 25 5
381.3
3854.2
0.0
t 0.036 0.003
1 50.0 1.8 50.1
500.
1
35
12U0 25 6
381.3
3854.2
0.0
1 0.036
0.003
1 50.0 1.8 50.1
500.
1
...36-,.
1200 25-Z
3fll»3_
1
3054*2
0*Q_
—1 o*ai&
0*003
—1—50*0—1*8 5Q*1_
500*-
1
37
1200 2510
381.3
3854.2
0.0
1 0.0
0.019
1 10.0 0.0 0.0
77.
I
3R
1200 26 I
384.8
3865.3
0.0
1 0.003
0.003
1 37.0 2.3 8.0
310.
1
39„
1200 . 26 2
33'jmB-
—i 3fl65*3_
_0*Q
_1 0*003
0*003
—1—31*0—2*3 tt*Q_
ua*_
t
40
1200 26 3
384.8
3865.3
0.0
1 0.008
0.005
1 37.0 3.7 10.2
310.
1
41
1200 26 4
384.8
3865.3
0.0
1 0.008
0.005
1 37.0 3.7 10.2
310.
t.
.42,.
1200 26_6_
3fl't.fl
3862*3
0*0 i 0*003
0*003 i__flfl*0 3*5 USt-
6fi5*_
1
43
1200 26 7
384.8
3865.3
0.0
1 0.003
0.003
1 80.0 3.5 2.6
685.
1
44
1200 27 2
371.2
3856.4
0.0
1 0.0 22
0.003
1 1.5.0 1.6 30.0
450.
1
.... 45 —
1200 27_3
3Zl*2-
__1
3fl56*4
L. -0*0 _
i_ _0*Q22__
0*003-
1—15*0—1*6 30*0 500*-
1
46
1200 28 1
372. 1
3856.3
0.0
1 0.090
0.008
I 125.0 8.0 30.0
500.
1
47
1200 29 I
'363.1
3876.5
0.0
1 0.082
0.005
1 65.0 2.0 40.0
500.
1
4i»...
1200—2S..2
363»1_
__1
3826*5..
0*0—
—1 0*255—
0*012 1 66*0 3*0 40*0—
5QQ*_
1
49
1200 30 1
390.5
3838.8
0.0
1 0.005
0.003
1 60.0 2.0 30.0
450.
1
5U
1200 32 1
377.8
3864.0
0.0
1 0.044
0.003
1 31.0 3.8 40.0
75.
1
5.1 _
_ 1200 34-1
3J4*iL
___i
- 3il4li*3
1- 0*0
—I 0*025
0*003 1 20*0 2*0 50*0-
400*-
1
52
1200 35 1
374.8
3844.4
0.0
1 0.027
0.005
I 62.0 3.1 10.0
400.
1
53
1200 38 2
366.1
3840.0
0.0
1 0.0
0.019
1 50.0 10.0 2.1
80.
-------�
AQOM HUN -YEAH 1975- FOR GREENVILLE COUNTV, SOUTH CAROLINA 10/21/76
SOURCE CATA
1
ANNUAL SOURCE
STACK DATA
snuitr.F
SOURCE LCCATION
I SOURCE AREA
EMISSION RATE
NUMHFR
SOURCF IU.
(KILOMETERS)
1
SQUARE
( TONS/OAYI
HT DIAH VEL
TEMP I
H0R1ZCNTAL 1 V F RT I f.AI
1 K II OMETERS
S02 PART
LEI1_1£I1 IEES1
_10£G,E.l 1
1
~1200 3 1
368.8 1 3849.0
1
0.0
0.0 0.071
25.0 1.6 90.0
225. 1
2
1200 7 1
368.4 I 3848.6
1
0.0
0.0 0.077
20.0 0.0 0.0
77. I
. ... 3.
120Q. .1 2
_ J.6fl «.4_ !_ 3848,6
1
0.0
0.0 0.121
20.0 0<0 U>0
77. 1
4
1200 7 3
368.4 1 3848.6
1
0.0
0.0 0.041
20.0 0.0 0.0
77. I
5
1200 8 1
375.8 1 3862.7
1
0.0
0.030 0.003
21.0 2.2 45.0
450. |
6 120i) fl_2
375.8 1 38*7-7
1
_ Q,0 _
0.030 0.003
21.0 2,£ 45.0
450, 1
.7
1200 B 3
375.8 1 3862.7
1
0.0
0.005 0.047
40.0 2.3 17.4
378. I
8
1200 9 1
369.7 I 3860.8
1
0.0
0.323 0.033
75.0 5.0 40.0
360. I
9
1200 3_2
_3*i3,2_ J 3860,fl_.
0.0
0.323 0.036 1 95.0 8.0 40.0
360. 1
10
1200 9 3
369.7 1 3860.8
1
0.0
0.627 0.063
65.0 5.0 48.4
360. |
11
1200 13 1
3U1.3 1 3864.3
1
0.0
0.030 0.033
50.0 3.5 35.0
415. I
. . 12 J2U4--U-1
370.0 1 3854.6
1
0.0
0,03.3 0,0Qfi
-150,0—1,0 4Q,0_
46tt,_l
13
1200 14 2
370.0 I 3854.6
1
0.0
0.033 0.008
150.0 7.0 40.0
460. 1
14
1200 15 1
37C.7 1 3850.6
1
0.0
0.027 0.003
210.0 11.0 40.0
410. 1
... .15.
...WOO—i*..l
36fl.ll 1 3Bi2.fi
1 __
0.0
0.003 0.003
32,0 2,0 35,0
375. 1
16
1200 17 1
363.8 1 3876.8
1
0.0
0.011 0.003
200.0 5.0 40.0
460. |
17
1200 19 2
372.8 I 3845.2
1
0.0
0.0 0.003
30.0 0.0 0.0
80. 1
IR
— 1200—2Q_1
3>Ji.6 . .. 1 3fi6b,3
1
0,0—
1- -0,016 0,005
-115,0 4,5 30,0_
425,_l
19
1200 20 2
387.6 I 3866.3
1
0.0
0.014 0.005
115.0 4.5 30.0
425. I
20
1200 71 1
370.6 I 3855.8
1
0.0
0.0 0.003
45.0 2.7 10.8
1000. I
21
_12Q0_..22..1
352.6 L 3864,6-
1
0.0
_. 0.123 0.011
1-200,0—4,0 3Q,Q_
40Q,_I
72
1200 22 2
302.6 1 3864.6
1
0.0
0.123 0.011
200.0 4.0 30.0
400. |
23
1200 22 3
382.6 1 3864.6
1
0.0
0.071 0.008
50.0 3.5 30.0
450. I
2.4
—1200 23-1
189,1 i_ 3863,3
__J
Q,Q
0,041 0,016
1_100,Q__4,Q 1,8 sail,-1
25
1200 23 2
389.7 I 3869.3
1
0.0
0.008 0.005
100.0 4.0 7.8
500. |
26
1200 24 1
303.0 1 3845.6
1
0.0
0.058 0.003
45.0 1.5 10.0
450. I
.27
.J2UQ _2A-2
3J)3»U J 3U45,ft
1
0.0
Q,Q58_ 0,002
45.0 1.5 LO.O
450. 1
28
1200 24 3
383.0 I 3845.6
1
0.0
0.071 0.005
45.0 1.5 10.0
450. |
29
1200 24 4
3*3.0 1 3845.6
1
0.0
0.101 0.008
45.0 2.0 10.0
450. I
30 1200 25.1
3fll,3 J JB54,2 J
0,0
0,200 0,014
—61,0—4,0 43,4.
450,-1
31
1200 25 2
381.3 1 3854.2
1
0.0
0.200 0.014
61.0 4.0 43.4
450. |
32
1200 25 3
381.3 1 3854.2
1
0.0
0.200 0.014
61.0 4.0 43.4
450. 1
... 43
_ 1200—25. 4
-101,3 I 3854,2
1
_il,Q
fl,U36 0,003
—50,0—1,8 5 Oil-
50Q,_I
34
1200 25 5
381.3 1 3854.2
1
0.0
0.036 0.003
SO.0 1.8 50.1
500. I
35
1200 25 6
381.3 t 3854.2
1
0.0
0.036 0.003
50.0 1.8 50.1
500. 1
36
.1200....25.1
— 351-3.,,.1 , . 3854,2—
-J
0,0
0,036 0,QQi
—50,0—1,8 50.1 .
500,-1
37
1200 2510
381.3 1 3854.2
1
0.0
0.0 0.019
10.0 0.0 0.0
77. I
38
1200 26 1
384.8 1 3865.3
1
0.0
0.003 0.003
37.0 2.3 8.0
310. I
39
. 1200 . 26 2
_-.3M.il 1 _ 3845, 3
1
_fl,Q_
O.OOJ 0.003
—31,0—2,3 8,0 212,-1
40
1200 26 3
384.8 1 3865.3
1
0.0
o.ooa 0.005
37.0 3.7 10.2
310. I
41
1200 26 4
384.8 1 3865.3
1
0.0
0.008 0.005
37.0 3.7 10.2
310. I
.42,
..1200—26-6
384 *8 J 3865,3
_J
0,0
Q,QOi 0,003
80,0—3,5 2,6-
685,-1
41
1200 26 7
384.8 1 3865.3
1
0.0
0.003 0.003
80.0 3.5 2.6
685. 1
44
1200 27 2
371.2 1 3856.4
1
0.0
0.022 0.003
1.5.0 1.6 30.0
450. I
. 45
_1200 2J._3
311-2 i 3 B56,4—
_1
a,o
- _Q,Q22 0,003-
... 15,Q__l,fc 30,0_
500,-1
46
1200 28 1
372.1 1 3856.3
1
0.0
0.090 0.008
125.0 8.0 30.0
500. 1
47
1200 29 1
'363.1 1 3876.5
1
0.0
0.082 0.005
65.0 2.0 40.0
500. i
4JJ
.1200 2S..2
363,1 1 38J6,5
ii,fl
0,255 0x013
—66,0—.3,0 4fi,Q_
500,-1
49
1200 30 1
390.5 1 3838.8
_l
0.0
0.005 0.003
60.0 2.0 30.0
450. 1
50
1200 32 I
37T.B 1 3864.0
1
0.0
0.044 0.003
31.0 3.8 40.0
75. 1
. 5.1
.1200 3A_1
3 1 3846,3
1
0.0
n.n?5 n.ooi
20,0—2,0 50,0_
400,-1
52
1200 35 1
374.8 1 3844.4
1
0.0
0.027 0.005
62.0 3.1 10.0
400. 1
53
12JO 38 2
366.1 1 3840.8
1
0.0
0.0 0.019
50.0 10.0 2.1
80. 1
-------�
.5.4 —-
55
56
. 5.7...
SH
59
. 60...
(•I
62
... 63
64
65
... *6---
67
tfl
. .. 69. _ .
70
7 1
72....
73
74
. 7.5 . _
76
77
.70.....
79
AO
Rl ....
B2
83
. 84
85
86
.87
pa
fly
vo... _
'H
92
. .93
94
95
96. _
97
98
. 99.
IOJ
101
10? _
103
104
105......
106
107
I'l 8
109
110
11.1
11?
113
11*
1200 39-1 1
1?00 39 2
1200 44 1
12,'IQ S5_l
1200 45 2
45 3
45_4
46 I
46 2
S6..3
46 4
1200
.1200-
1200
1200
. J 200.
1200
1200 46 5
1200 46_6
1200 48 1
1200 56 1
1200-_.56.-2
1200 56 3
1200 57 1
12C0 5-8-1
1200 58 2
1200 59 1
.. 1?00__59_2
1200 60 1
1200 62 1
. 1200. 62.2
12()0 62 3
1200 64 1
„120Q 64. 2
1200 66 1
1200 68 1
.1200 _£9.1
1200 69 2
1200 70 1
._1200__Jl..l
1200 72 I
1200 73 I
.J2U0 13-2
1200 74 I
12 00 C5 1
.2060... Q9_2
0200 04 1
0200 04 2
0200 _ lib . 3
hvFW SOURCE I
Nf W SnURCF 2
. Hew.S0UflCE_3__
TPACT 1.00
TRACT
TRACT.
TRACT
TRACT
2.00
3.0Q..
4.00
5.00
..THAC.T__6.fll3
TRACT 7.00
TKACT 8.00
...T8 ACJ..._9»Q0_
TRACT 10.00
TRACT 11.00
.TP ACT.12.00
TRACT 13.00
TRACT 14.00
.TRACT. 15.Q0
—325*11
375.8
367.6
-_366*4
366.4
366.4
—3£1>.4
3/7.1
377.1
—322*1
377.1
377.1
322.1
372.9
385.0
—3115*0
385.0
370.4
3ill*l
381. 1
3 74.2
—32.4.2
357.4
371.2
321 *2
371.2
360.7
—3tBj.Z
369.9
378.3
—-3JJ.9.5
389.5
374.0
__3I0.Z___
373.7
175.5
3Z5.5
174.3
371.1
—40Q.JJ
365.5
36 5.5
—365.5
375.8
375.8
...325 .a
372.9
3 72.3
-323.5
371.9
371. I
._321.1
370.7
369.6
-1STl.l
372.0
373.8
—324.B
375.4
374.0
—322*8 1
.31143*2
3843.7
3857.1
-3a21*
-------�
I IIS TRACT 16.00 I 375.5 I 3863.5 I 7.70 I 0.0 0.095 I 10.0 0.0 0.0 0. I
I 116 TRACT 17.00 I 376.3 I 3862.0 I 5.80 I 0.0 0.235 I 10.0 0.0 0.0 0. I
(.117 1BAC1.18.U1 1 3II*i J i UU2Q i 0*11 C«.Wfl J 1Q*£1 0*Q (Ml Q*_t
I I IB TRACT IB.02 t 378.6 t 3656.4 I 11.00 I 0.0 0.334 t 10.0 0.0 0.0 0. I
I U1 TRACT 19.00 t 3f6.8 I 3653.8 I 14.80 1 0.0 0.423 t LO.O 0.0 0.0 0. I
I » ?0 lSACI_20.0a 1_.._3J2*5 1 3jS4B*2 1 20*20 I 2*0 JUQt i__lQ*0__fl*J> 0*Q 0*_1
I 121 TP ACT 21.01 I 369.0 I 3856.3 I 4.60 I 0.0 0.209 I 10.0 0.0 0.0 0. I
» 1?? TRACT 21.02 t 369.2 t 3H54.0 i 8.80 \ 0.0 0.503 I 10.0 0.0 0.0 0. I
I . 123 T«ACT_2WQ3 1 311*1 JL 3852*2 I I*3fl 1 Q*Q : Q*252 J Lfl*a__0*Q H*Q Q*_l
I 174 TRACT 22.00 I 168.8 I 3U58.6 t 8.Z0 t 0.0 0.376 1 10.0 0.0 0.0 0. I
\ 175 TRACT 23.00 t 370.6 t 3861.2 I 16.00 I 0.0 0.625 I 10.Q 0.0 0.0 0. I
( . 126 TRAC1- 2S.Q0 1 1 ia&A*2 i___Z£&*3Q 1 &*(1 __4*5aZ J UKQ S*Q Q*fi fl*_l
t 127 TRACT 25.01 1 385.9 I 3869.4 \ 17.70 I 0.0 0.143 I 10.0 0.0 0.0 0. I
I 17A TRACT 25.02 I 387.6 I 3867.0 I 5.00 I 0.0 0.321 I 10.0 0.0 0.0 0. I
I 129 -.JBACI_25.03 L 1 3064*0 i 25*50 I U*tt Q*134 t- 10.0 0.0 «L*ft £*_l
I 130 TRACT 26.00 I 381.8 I 3060.9 I 81.bO 1 0.0 1.064 I 10.0 0.0 0.0 0. t
I 131 TRACT 27.00 I 374.7 t 3666.9 I . 44.30 I 0.0 0.109 ( 10.0 0.0 O.J 0. t
I. „ 13? JR4Cl_2B«aO 1 bB5*Q 1 3ai4*& i 100*50 I Q*0 1*511 1__10»Q__Q*Q Q*Q Q*_l
I 133 TRACT 29.00 1 379.1 I 3850.1 I 44.30 ) 0.0 1.155 I 10.0 0.0 0.0 0. 1
I 134 TRACT 30.00 t 385.3 t 3845.7 I 133.00 I 0.0 2.264 I 10.0 0.0 0.0 0. |
I 135 IBAfcI_31*QB 1 3B1*1 1 .Jfliti*! J 104*20 i Q*d l*i4Q J 1U*Q Q*Q Q*Q fi*_t
I IA6 TRACT 32.00 I 377.1 I 3827.4 I 223.80 I 0.0 2.580 I 10.0 0.0 0.0 0. I
I 137 TRACT 33.00 t 372.0 I 3840.3 | 115.00 I 0.0 1.758 t 10.0 0.0 0.0 0. |
I . 138 TRACI_34*U0 1 3Z4J 1 2345*fl 1 L2.J3Q 1 3*0 0*362 J 1Q*Q 0*0 2«.Q fi*_l
I 139 TRACT 35.00 I 368.9 I 3847.9 I 16.20 I 0.0 0.10S I 10.0 0.0 0.0 0. I
I 140 TRACT 36.00 I 366.9 I 3852.9 I 21.90 I 0.0 0.401 I 10.0 0.0 0.0 0. I
I 141 TRACI..37»QQ _1 365*2 J 2li6Z*a 1 43*30 i Q*U UU4 J—1£UQ—Q*Q Q»0 Q*_l
I 142 TRACT 38.00 I 369.3 I 3865.9 t 29.20 I 0.0 0.293 I 10.0 0.0 0.0 0. I
I 143 TRACT 39.00 I 368.6 I 3U73.2 I 118.80 I 0.0 2.404 I 10.0 0.0 0.0 0. I
I .144 ,TBACT_40.Q0 1 330*2 J 3886*2 i 2fc0.2Q i 0*11 5*413 <1*0. fl*_l
I 145 TRACT 41.00 I 357.1 I 3886.7 I 210.30 I 0.0 2.049 I 10.0 0.0 0.0 0. t
t 146 TRACT 232.0 I 392.4 I 3864.8 I 62,10 ( 0.0 0.648 I 10.0 0.0 0.0 0. I
I... l*j TRAC.T..233«0. 1 JjB3*3 1 3il6Z*4 1 1*20 L Q*0 0*11A i—10.0—£>*£ 0*0 B*_l
-------�
AQDM RUN -YEAH 197b- FOR GRfcENVILLE COUNTY, SOUTH CAROLINA 10/21/76
PET E0R0LC1G1CAL INPUT OATA FUR ANNUAL
MIXING DEPTH = 950. METERS
AMBIENT TEMPERATURE = 62. DEGREES.FAHRENHEIT
AMBIENT PRESSURE = 1000. MILLIBARS
STABILITY CLASS 1
WINDSPEED CLASS
DIRECT ICN
1
2
3
4
5
1
N
.00040
.00137
.0
.0
.0
.0
NNE
.00075
.00103
.0
.0
.0
.0
NE
.00075
.00103
.0
.0
.0
.0
ENE
.00044
.0
.0
.0
.0
.0
E
.00105
.00205
.0
.0
.0
.0
ESF
.00044
.0
.0
.0
.0
.0
SE
.00044
.0
.0
.0
.0
.0
SSE
.00010
.00034
.0
.0
.0
.0
S
.00228
.00171
.0
.0
.0
.0
SSM
.00010
.00034
.0
.0
.0
.0
sw
.00030
.00103"
.0
.0
.0
.0
wsw
.00044
.0
.0
.0
.0
.0
M
.00061
.00205
.0
.0
.0
.0
UNW
.0
.0
.0
.0
.0
.0
NW
.00010
.00034
.0
.0
.0
.0
NNW
.0
.0
.0
.0
.0
.0
-------�
AQDM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
CETEORQLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 2
WIND SPEED CLASS
D1KECTICN
1
2
3
4
5
N
.006 54
.00479
.00068
.0
.0
NNE
.00068
.00205
.00137
.0
.0
NE
•00297
.00445
.00068
.0
.0
ENE
.00146
.00205
.0
.0
.0
E
.00336
.00719
.00034
.0
.0
ESE
.00259
.00171
.00034
.0
.0
SE
.00156
.00274
.00034
.0
.0
SSE
.00273
.00274
.00171
.0
.0
S
.00248
.00651
.00240
.0
.0
SSM
.00303
.00205
.00068
.0
.0
SU
.00219
.00445
.00377
.0
.0
WSW
.00073
.00240
.00274
.0
.0
M
.00307
.00514
.00171
.0
.0
MNW
.00141
.00171
.0
.0
.0
NM
.00137
.00137
.00034
.0
.0
NNW
.00151
.00240
.00068
.0
.0
6
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
AOOM RUN -YEAR 1975- FOR GREENV1LLE COUNTY, SOUTH CAROLINA 10/21/76
PET SEROLOGICAL INPUT DATA FOR ANNUAL
0
1
ON
STABILITY CLASS 3
WIND DIRECTION 1 2
N .00306 .00445
NNE *00153 .00479
NE .00068 .00445
ENE .00005 .00034
E •0304 7 .00308
ESE .00026 .00171
SE .00076 .00240
SSE .00076 .00240
S .00103 .00411
SSW .00126 .00308
SW .00032 .00205
XSh .00037 .00240
U .00037 .00240
WNW .00016 .00103
NW .00005 .00034
NNW .00050 .00068
WINUSPFED CLASS
3
.00479
.00411
.00342
.00479
.00377
.00068
.00068
.00034
.00377
.00582
.01199
.00342
.00377
.00103
.00068
.00205
4
.00103
.0
.0
.0
.0
.0
.0
. 0
.0
.0
.00103
.00068
.00034
.0
.0
.0
5
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.00034
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
AQUM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
CETEOROLCGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 4
MINOSPEED CLASS
DIRECTICN
1
2
3
4
5
6
N
.00659
.02089
.00685
.00651
.00137
.0
NNE
.00*71
.01610
.02603
.00445
.0
.0
NE
.00402
.01404
.02055
.00548
.0
.0
ENE
.00247
.00616
.00753
.00068
.0
.0
E
.0036b
.COB90
.00377
.00103
.0
.0
ESE
.00134
.00377
.00137
.00034 .
.0
.0
SE
.00236
.00274
.00205
.0
.0
.0
SSE
.00134
.00377
.00103
.00068
.0
.0
S
.00371
.00925
.00822
.0037 7
.0
.0
ssw
.00243
.00856
.01096
.00479
.00034
.00034
SH
.00284
.01404
.01986
.01678
.00240
.0
wsw
.00149
.00479
.00959
.00890
.00171
.0
w
.00297
.00685
.00616
.00308
.00205
.00068
UNH
.00231
.00240
.0
.00034
.0
.0
NU
.00109
.00205
.00034
.00171
.0
.0
HNH
.00256
.00411
.00308
.00582
.0
.0
-------�
AQDM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 5
WINOSPEEU CLASS
DIRECTICN
i
2
3
4
5
N
.03632
.03904
.01062
.0
.0
.0
NNE
*01643
.02569
.00342
.0
.0
.0
NE
.00320
.00856
.00240
.0
.0
.0
ENfc
.00371
.00274
.00034
.0
.0
.0
E
.00778
.00411
.0
.0
.0
.0
est
.00310
.00274
.0
.0
.0
.0
SE
.00611
.00274
.0
.0
.0
.0
SSE
.00490
.00411
.0
.0
.0
.0
S
.01774
.01541
.0
.0
.0
.0
SSW
.01433
.00890
.00171
.0
.0
.0
su
.01598
.01986
.00582
.0
.0
.0
WSH
.01080
.00959
.00205
.0
.0
.0
M
.01406
.01404
.00205
.0
.0
.0
WNh
.00391
.00342
.00034
. 0
.0
.0
NU
.00915
. .00582
.00171
.0
.0
.0
NNW
.00816
.00822
•0051*
.0
.0
.0
-------�
AtCH BUN -YEAH 1975- FOR GREENVILLE COUNT*. SOUTH CAROLINA 10/21/76
INPUT REGRESSION PARAMETERS ARTS
PCLLUIAKI— fcJtlTEECEEl _Si.QHE_
PARTICULATES 0.0 1.0000
-------�
AQDM RUM -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
1
1
8ECEPID8 £ENC£NJ RAI1DN
DATA
1
1 RECEPTOR
RECEPTOR
1
LOCATION 1
EXPECT EO
ARITHHET IC MEAN 1
1 NUMBER
1
(KILOMETERS) 1
(M ICROCRAMS/CU. METER! 1
dUBIZ__
_y£Bi 1
1 1
S02
EMIlLULAIf S__ 1
1 1
364.0
1 3 844.0 1
0.
1 43. 1
1 2
364.0
t 3646.0 I
0.
1 43. 1
1 3
364.0
1 3848.0 1
0.
1 43. 1
1 4
-364.0
1 3850.0 1
0.
1 42. 1
1 5
364.0
1 3852.0 1
0.
1 42. 1
1 6
364.0
1 3 8 54 . 0 1
0.
| 4?. 1
1 7
364.0
1 3856.0 I
0.
1 42. 1
1 8
364.0
1 3858.0 1
0.
I 4L. 1
1 9
364.0
1 3 860.0 1
0.
1 41.. 1
1 10
364.0
1 3 862.0 I
0.
i 41. 1
1 U
364.0
1 3 864.0 I
0.
1 40. 1
1 12
364.0
1 3B66.0 1
0.
1 40. 1
1 13
364.0
1 3868.0 1
0.
t 39. 1
1 14
364.0
I 3870.0 I
0.
1 39. 1
1 15
364.0
1 38 72.0 1
0.
| 39. 1
1 16
366.0
1 3844.0 1
0.
1 45. 1
1 17
366.0
1 3E46.0 1
0.
1 45. 1
1 18
366.0
1 3848.0 1
0.
1 45. 1
1 19
366.0
1 3 850.0 1
0.
1 45. 1
1 20
366.0
1 3852.0 1
0.
1 45. 1
1 21
366.0
1 3 854.0 l_
0.
1 45. 1
1 22
366.0
I 3856.0 I
0.
1 44. 1
1 23
366.0
I 3858.0 I
0.
1 43. 1
1 24
366.0 L 1BAQ..Q 1
0.
1 43. 1
1 25
366.0
1 3 8 62 . 0 |
0.
1 42. 1
1 26
366.0
1 3664.0 I
0.
1 42. 1
1 27
366.0
1 3866.0. L
0.
1 41. 1
1 28
366.0
I 3868.0 1
0.
1 40. I
1 29
366.0
1 3870.0 1
0.
1 41. 1
1 30
366.0
0.
I 40. 1
1 31
368.0
1 3844.0 1
0.
1 48. 1
1 32
368.0
1 3646. 0 1
0.
1 50. 1
1 33
J 1
Qi-
1 &Q* i
1 34
368.0
I 3850.0 I
0.
1 50. 1
1 35
368.0
t 3852.0 I
0.
1 49. 1
1 36
368.0
i_ I
0.
1 50. 1
1 37
368.0
I 3856.0 1
0.
1 48. 1
1 38
368.0
I 3858.0 i
0.
1 48. 1
1 39
368.0
1 i__
0.
1 45. 1
J 4fl__
.. 36fl*0_.
1_ 3£(tZM.Q -I—
. Q-~
. 1 . .44. ... 1
-------�
AQDH RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
I 1
» RECEPTOR 1
J MWa£B L
I I
_1.
JlfitEEIflR-IUISCEtllBAJlfltLDAIA
RECEPTOR LOCATION
?
IKILOHETERS1 I
bUBU *£BX 1-
\
368.0 I 3864.0 I
JfiBifl 1
368.0 I 3868.0
36B.0 I 3870.0
I M2£>.Q-
370.0 I 3644.0
370.0 I 3646.0
J
370.0 1 3850.0
370.0 1
31
370.0 I
370.O \
iza*Q—l
3 852.0
3B56.0
3858.0
3 662 .0
370.0 I
370.0 I 3864.0
.310*0 J 1UMI..Q—
370.0 I 3868.0
370.0 I 3670.0
JlflJJ L—341Z^Q~.
372.0 I 3844.0
372.0 I 3e46.0
372 .0 -—J 3fl&tl*.fl—
372.0 I 3850.0
372.0 I 3852.0
372.0 I 3856.0
| 3858.0
3 862.0
I
I 3664.0
ZLZ*Q J—3fl6fc»Q-
372.0 I 3868.0
372.0 I 3870.0
.31Z*.fi_l~3fiJZ*0
374.0 I 3844.0
. 374.0 I 3846.0
I 2Zfua__i_3ii4iua—
| 374.0 I 3850.0
i H4-.Q—J—aaai*a—
EXPECTED ARITHMETIC MEAN |
I
(H1CR0GRAHS/CU. METER) I
SQi EABII£UUI£i__ I
I t
0. I 44. I
a. J 43* I
0. I 42. I
0. I 42. 1
Q, 1 4U I
0. 1 50. I
0. 1 50. t
ft* 1 51, I
0. I 53. I
0. t 53. I
Q. 1 54.. I
0. I 55. I
0. I 53. I
Q* 1 65. I
0. I 48. I
O. t 45. 1
a, 1 &A* I
I
I
I
0.
0.
0.
0.
_a*_
o.
o.
_a.
o.
o.
_a«.-
o.
o.
_Q*-
0.
0.
0.
0.
_Q«
0.
_Q*.
44.
43.
-42.
50.
51.
54.
56.
63.
59.
50.
47.
-45
44.
44.
_41x.
51.
51.
-52...
52.
-52*.
I
I
-------�
AQDM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
1
1
RECEPTOR CGNCFNTRAT fOM
^5
1 RECEPTOR
1
RECEPTOR LOCATION 1
EXPECTED
ARITHMETIC MEAN 1
L NUMBER
1
(KILOMETERS 1 1
(MICROGRAMS/CU. METER! 1
1
HOR11
VFRT 1
S02
PART 1 Ctll AT FS 1
1
J SI
1
1
-if.54.fi 1__
1 1
1 .55. ._ 1
1 82
374.0 |
3856.0 I
0.
1 54. I
1 S3
374.0 1
3B58.0 I
0.
1 58. 1
1 .84
114 .Q 1 i_
0.
_1 53* 1
I as
374.0 |
3662. 0 1
0.
1 49. I
1 86
374.0 I
3e64.0 I
0.
1 48. 1
1 87 .
374.0 1
3866.0 1
0.
1 46. 1
1 88
374.0 I
3868.0 1
0.
1 45. I
1 89
374.0 |
3870.0 I
0.
1 44. I
1 90
3X4-.fi I_
38 72.0 1
0.
1 43. 1
1 91
376.0 |
3844 . 0 |
0.
1 48. 1
1 92
376.0 I
3846.0 1
0.
1 49. I
1 93
376.0 1
3848.0 1
0.
1 49. 1
I 94
376.0 |
3850.0 1
0.
1 50. 1
1 95
3 76.0 I
3852.0 1
0.
1 51. I
1 96
376.0 1
3854.0 1
0.
1 57. 1
1 97
376.0 I
3856.0 1
0.
1 55. 1
1 98
376.0 I
3858.0 I
0.
1 54. 1
I 99
376.0 1 3fl60.(l 1
0.
1 53. 1
1 100
376.0 |
3862.0 |
0.
i 5Z. 1
1 101
376.0 |
3e64.0 I
0.
1 49. I
1 in?
376.0 1
3(166.0 |
0.
1 47. 1
1 103
376.0 |
3868.0 |
0.
1 45. I
1 104
376.0 I
3870.0 I
0.
1 45. 1
1 105
376.0 1
3872.0 1
a.
1 45. 1
1 106
378.0 1
3844.0 I
0.
1 46. I
1 107
378.0 |
3E46.0 |
0.
1 47. 1
1 108
378.0 1 3P4B.0 1
0.
1 48. 1
1 109
378.0 |
3850.0 |
0.
1 48. 1
1 110
378.0 I
3852.0 1
0.
1 49. 1
1 111
378.0 1
3854.0 1
0.
1 49. 1
1 112
378.0 1
3856.0 I
0.
1 50. I
1 113
378.0 I
3858.0 I
0.
1 51. 1
1 114
318.0 1
3860.0 1
0.
1 . 51. 1
1 115
378.0 1
3862.0 1
0.
1 49. 1
1 116
378.0 I
3E64.0 I
0.
1 49. I
1 117
37B.0 1
iQ
-------�
AOOM RUN -YEAR 1975- FOR GREENVILLE COtMTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAX IHUH RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE
J
RECEPTOR
54-
RECEPTUR
U
I RECEPTOR | RECEPTOR | RECEPTOR |
.1 11 1 bfl 1 fll 1
0.10 X
Juat&tL.
0.13 X
jLaiiiaa.
O. B6 X
-0.5202-
0.11 *
_H.Qfi.a3_
0.11 * I
0.10 X I
0.16 X
0.14 X i
_a*oa54__L
0.21 *
_a.ii42_
6.61 X
_1.4Z14-
10.39 X
_fc*2511.
I 0.11 X |
.1 O.Q643_i__
I 0.17 * 1
_i o^uua L
0.12 * I
0.0620 1
0.19 X I
_aas»fl4_i
0.06 X I O.OT X I 3.52 X I 0.06 X I 0.06 X I
a o»oiaa—i tutt4S5_j 2^iia? I o.oi42_i o.ai£:i__i
I 0.00 X 1 O.OO X | 0.00 X | 0.00 X 1 0.01 X )
-1 0.00011—l 0*0021 i 0.0003 l o.o 024 l fl*M3a_l
0.00 X
_Q.OOQfl.
0.00 X
-0*0021.
0.00 X
-0.0002.
0.00 X I 0.01 X
_O»0Q24_i Q*0D33_
0.04 XI 0.10 X I 0.05 X I 0.10 X I 0.22 X I
-0*0252 J (UQ&bQ i 0.0249 I 0*0614 U 0.12fl0__l
0.02 X t 0.01 X t 0.01 X I 0.01 X I 0.00 X |
.0*0114 1 o.ao52__i a.anaa_j 0.0044 L 0.0020 t
0.00 x
.0*0011.
0.00 x
.0*0020.
0.01 x
_(uaoi4.
0.00 x
-0.0014.
0.00 x 1
_fl.0009__l
10
0.03 X
-agouti.
0.01 X
-0.0024.
0.02 X
_o.aj.aa_
J.
0.01 x
-0.0023,
0.01 X
.0.0035.
II
12
13
U
0.01 X I 0.01 X t 0.01 X t
J 0*0052_1 0.0066—1_
0.00 X I 0.00 X I 0.00 X I 0.00 X I
.0.0010 I 0.0018 I O.Q01J J 0.0011_1_.
0.00 X I 0.00 X I 0.00 X I 0.00 X I
15
16
17
0.02 X I
0.003JJ 1
0.00 X I
-0.0015 1
0.00 X I
tUQQlQ—J 0.QU1& J 0.0011 J O.OOll J 0. 0015—1
0.00 X I 0.00 X I 0.00 X I 0.00 XI 0.00 X I
Q.QQ01—J 0.0001 1 O.OOOJ I Q.Qflfll_J 0.0001—1
18
0.00 X I 0.00 X I
J Q.QC1J I Q.0U2Q J
I 0.00 X I 0.00 X I
O.QCOJ 1 a»ooai__i_
I 0.00 X I 0.00 X I
J. Q.Q014—L 0.0026 L.
| 0.00 X I 0.00 X I
0.01 X |
0.00 X I
0.00 X I 0.00 X
.0.0001—J 0.0001-
0.00 X I
0.00
0.00 X
_L
.0*0002 L Q.QQ01__1__
0.00 X I 0.00 X |
Q.Q002 J 0.0001 1
0.01 X I 0.02 X |
Q.Q062 I O*012U L
0.00 X I 0.00 X |
0.01
0*0052—
0.00 X I
0.00 X I
0.00 X I
0.0015 i
0.00 X I
_0.0001__1
0. 00 X I
__1
0. 00 X I
_C*OQ04—1
0.00 X I
0.0004—1
0.01 X I
!.00I5__1
0.00 X I
0*0036I.. 0*0012 I O.OOOB ] Q.Q010_J 0*0015 I
-------�
AQDM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
J
n
i-*
4S
SOURCE
22
23
24
25
~26~
~iT
28
29
30
31
J
32
33
34
35
36
37
38
39
40
41
42
RECEPTOR |
54 |
0.00 X
-0*0026.
0.00 X
-2*0001-
0.00 X
-2*2012 1
0.00 %
-Q*Q002_
0.00 X
_Q*QQQ5
0.00 Z
_2*2Q25__
0.00 X
_2*0£02—
0.00 t
_0*QQ14__
0.00 X
_0*0005
0.00 X
_Q*2005__
O.OO X
_0*0005__
0.00 X
_fl*0022_
0.00 X
_S*0002_
0.00 X
_0*0002_
0.00 X
-0*0002-
0.01 X
.2*203J_
0.00 X
-fl*0006_
0.00 X
-2*2026
0.00
.0*2022.
0.00 X
.0*0002.
RECEPTOR
6Z
0.00 X
0*2012__
0.00 X
0*2015.
6.00 X
0*0012_
0.00 X
jB*l>005_
0.00 X
fl.OOOI.
0.00 X
fl*202I__
0.00 X
2*0011
0.00 X
Q*D<3ia__
0.00 X
0*0011
0.00 X
0*0011
0.00 X
0*0011
0.00 X
0*0005-
0.00 X
0*0005-
0.00 X
-0*0006 1.
0.00 X
C*0005
0.01 X
Q.00S1
0.00 X
o*ooou
0.00 X
o*oooa
0.00 X
0*0012
0.00 X
0*0012
RECEPTOR
aa
RECEPTOR
tft_
RECEPTOR
aa_
0.00 t | O.OO X I 0.00 X
_0*00 Qfl I Q.0010._J 0*0015.
0.00 X I 0.00 X I 0.00 X
-2* OflU I 0*0012 1 0*0012—1
0.00 X
Q*ooai_i
0.00 X
0*0002 I a*0206_J 0*0001 1
0.00 X I 0.00 X I 0.00 X
o*oaii_j o*ooiq_i q*qou.i
0.00 X I 0.00 X | 0.00 X
0*0512.1 L_ 0*0016 L 0*0010 I
0.00 X I 0.00 X | 0.00 X
0*0001 J Q*QQ06 J 0*0001
0.00 X I 0.00 X | 0.00 X
0*0001 1 0*0006 J 0*0002 I
0.00 X | 0.00 X I 0.00 X
0*0002 J 0*QQQ6 i 2*0002 I
0.00 X I 0.00 X I 0.00 X
J 0*0003 J 11*0004.
0.00 X
-0*OOO5__J 0*0002
0.00 X
-0*0002-
0.00 X
-0*0002-
I 0.00 X I 0.00 X
J 0*0002 1 0*0004 L
I 0.00 X I 0.00 X
J 2*2222 1 0*0004.
0.00 X | 0.00 X I 0.00 X
_0*Q0Q2 J 0*0002 L_ 0*0004.
0.01 X
-0*0022
0.00 X
_fl*Q005_
0.00 X
0005-
0.00 X
-0*0002-
0.01 X I
-0*0042—1-
0.00 X I
-0*0007 1-
0.01 X
—0*0062
0.00 X
0*0023
0.00 X
0.0009
0.00 X
—0*00011—1
0.00 X
2*0025.
0.00 X I 0.00 X
Q*QQ02—J 0*0002
0.00 X I 0.00 X
0*0012 I 0*2015 L
0.00 X I 0.00 X
0*2212 J 2*2215—
0.00 X | 0.00 X
0*0001 I 2*2202—1
-------�
AO DM RUN -YEAR 19/5- FOR GREENVILLE COUNTV, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUDIC METER
1 SOURCE
L_
I RECEPTOR
-1 54
RECEPTOR
a.
RECEPTOR
33
I RECEPTOR I
.J bS i.
RECEPTOR
ai
43
44
45
0.00 X
-0*0006-
53
0.01 X
_Q*QQ4Q_
O.oi t
-0*0040-
0.00 X 1
_2*Qoaa__l_
0.02 x i
0.00
_a.£
0.01
X I 0.03 * t
Q.Q1Q0—J 0*0043_J 0*0183 L
0.01 *
-0*0034.
46 I 0.00 X I 0.00 X I
1 0.0004 L Q*QQQQ l_.
47 I 0.00 X I 0.00 X I
L 0*0006 L 0*0004—L_.
48 I 0.00 X I 0.00 t I
i 0*Q0ZQ 1 0*0015—J—
49 | 0.00 X I O.OO X t
i 0*0001 1 0*0001—1.
0.01 X I 0.03 X
.0*0043—J 0*0183
0.00 X I 0.00 X
0.00 * I
1*0003—J 0*0004—
0.01 X | 0.00
.0*0021 1 0*00.
0.00 X I 0.00
0.00 X I 0.00 X I
0002—1 0*0003 1
0.02 X I
.Q*QQ23 L
0.02 X I
0*0012 I
0.00 X I
.Q*Q0Z4 L
0.00 X I
.0*0004 1
0.00 X I
0.00
50 | 0.00 X I
1 0*0012 L_
51 I 0.00 X I
L 0*0003 L-
52 I 0.00 X I
I 0.0014 I
0.00 X I
0*0026 1 0*0015.
I
0.01 X I
0.00 X I
0*000(1 1_
o.oo x I
0*0026 l_
0.01 X I
0*0016—J 0*0014 L
0.00 X I 0.00 X I
0*0001 J 0*0001 1 0*0001—1
0.00 X I 0.00 X I 0.01 X I
—0*0013—J 0*0043—1
0.00 X
0*0001.
0.00 X
0*0011
0.04 X
0.00 X I
0*0005—1—
0.00 X I
J*Q024—I—
0.01 X I
0.00 X I
_o*oaoa_i
0.01 X I
-0*0034 L
0.01 X I
54
..i.
1
0.01 X 1
0.02 X I
0.01 X
1 0.02 X 1
0.03 X 1
1
0.0059 1
0*0100 _L
0.00B2
1 11.0100 1
0*11141 1
55
1
0.00 X I
0.01 X I
0.01 X
1 0.01 X 1
0.01 X t
—0*0020 L_
0*0040 L
0*0030—
.1 0*0.040 1—
Q*0Q21 1
56
1
0.02 X I
0.01 X 1
0.01 X
1 0.01 X 1
0.01 X 1
1
0.0103 1
, 0.003L. J_
0.0070
_1__ 0.0059 1_
_ 0.0040 1
57
1
0.04 X I
0.02 X 1
0.05 X
1 0.02 X 1
0.02 X I
1
0*02X5 J
_0*0152 .L
.. 0.0204.
-1 —0.0139—1—
--0.Q114. . L
58
59
60
61
62
63
0.01 X
-0*0054-
O.OL X I
-0*0010—L
0.00 X
-0*0032-
0.01 X
-0*0041-
0.01 X I
.0*0038 L
I 0.01 X I 0.01 X I
1 0*0045 I 0*0031—1-
I 0.01 X I 0.01 X I
1 0*0044—J 0*0040—1.
I 0.01 X I 0.00 X I
0.01 X I
-0*0035 L.
0.01 X I
-0*0022 L.
0.05 X I
-0*0333—J
0.00 X
J3*0021 J
0.01 X I
.0*0041 I
0.02 X |
-0*0114 1
0. 06 X I
_0*0333—1 QmQ222—I 0*0414—L
.0*0040—J 0*0013—J
0.00 X I 0.01 X I
-0*0023 I 0*0042—1
0.01 X I 0.02 X I
.0*0064—1 fl*OUfl—-L
0.04 X I 0.07 X I
0.00 X I
-0*0024 L
0.01 X i
-0*0032 L
0.00 X I
-0*0012—1
o.oi X I
-0*0056—1
0.03 X I
-0*0151 L
0.10 X I
_fl*0542—1
-------�
AQOM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR | RECEPTOR | RECEPTOR | RECEPTOR I
i 1 54 L feZ 1 U 1 t>S i A3 I
I 64 I 0.04 X I 0.05 * I 0.03 X I 0.06 X I 0.08 X I
1 1 Q*Q2&3 J O.Q3.34 I Q*Q34t>—l D«J!453_J
I 65 I 0.13 X I 0.16 X | 0.09 X I 0.18 X I 0.24 % I
i L_ QxQflitt—l U*1Q02__1 Q-.Q55.S_J
I 66 I 0.02 X I 0.02 * I 0.01 X I 0.02 X | 0.03 X I
i 1 Q*Q1U I U*Q131 I fl*Q023 J 0.0180 I
I 67 I 0.01 X I 0.02 I | 0.00 % I 0.03 X I 0.01 X I
J L 5__J 0*00.82 I
I 69 | 0.00 X I 0.01 X I 0.00 X I 0.01 X | 0.01 X I
J J Q+QQZi I Q*QQ35 1 Q*Q02S__J
I 70 | 0.00 X I 0.01 X I 0.00 X | 0.01 X I 0.01 X I
J 1 0*QQ25 1 U*QQ35 1 Q*0fl2il L D*QQ35__1 0.0043 I
I 71 I 5.46 X I 0.37 X I 0.31 X I 0.46 X I 0.23 X I
J 1 3*5522 I 0*2314__J Q*lfiia__J £*2£.B£__i fl*13fl2__J
I 72 I 0.00 X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
J I 2*0Q02 L 0*0QQ3 J 0*0004 J
I 73 I 0.00 X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
J 1 0*0002 1 U*QQQ3 L fi*000:S__l 0_.fl.Q0.2__l D*0003__l
I 74 I 0.00 X | 0.01 X I 0.00 X I 0.00 X I 0.01 X I
J 1 0*0011 L 0*QQ32 i Q*OQlfl__i Q.DQ22—1 0*S041__1
I 75 I O.OO X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
J —1 0*0006 I 0*0011 I Q*OOOJ 1 £*Q010__J 0*0013 I
I 76 I 0.00 X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
1 1 0*0003—1 0*QQQ3 1 0*0CQ3__J £*0002__1 J*0P02__i
I 77 I 0.02 t I 0.01 X I 0.00 X I 0.01 % I 0.00 X I
J 1 0*0.141—I 0*0052—I 0*0022 J fi*fl063__J 0*0016 ]
I 78 I 0.02 X I 0.01 X I 0.00 X I 0.01 X I 0.00 X I
J i Q*0135 L Q*QQ51 J 0*0022__1 fi*00£J__l 0.0018 I
79 I 0.05 X I 0.02 X I 0.01 X I 0.03 X I 0.01 X I
J Q*Q324 1 0*Q142__i 0*Q0£5__J fl*01fl5__l 0.0049 I
80 I 0.00 X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
I 0*0005 I 11*0001 I 0*0002 1 .Q*0003__l 0.0002 I
81 I 0.00 X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
I Q*QQQ5 I Q*QQQ1 1 Q*0QQ2_1 0.0003 I Q.ooo? I
82 I 20.33 X I 0.05 X I 0.07 X I 0.09 X I 0.03 X I
1 13*210_Z—J 0*0342—I 0*0322 1 0*0514__J O*0U2__l
83 I 0.00 X I 0.00 X | 0.00 X I 0.00 X I 0.01 X I
1 0*0012 J Q*Q023__] Q*0014__J Q*001S__1 1MJD3J_1
84 I 0.00 X | 0.00 X I 0.00 X I 0.00 X I 0.00 X I
1 0*QQQ1 L Q*QQQ1 J Q*QQQ1__1 0*Qflfll I Q*QOQJ 1
-------�
AQDM RUN -YEAR 1975- FOR GHfENV1LLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
SOURCE
85
86
87
88
89
90
91
0
1
92
93
94
95
96
97
98
99
100
101
102
103
104
105
RECEPTOR
54
0.00 X
-OxQQQi.
0.00 X
_O*Q0Q3_
0.01 X
-0*0020.
0.00 X
.0*0030-
0.00 X
-0*0015.
0.00 X
_O*Q002.
0.00 X
_0*flO22.
0.03 X
-0*0125-
0.02 X
-0*0116-
0.02 *
.0x0100.
0.02
.a
QQ22.
0.04 X
_Q*0252_
0.01 X
.0*0050.
0.01 X
-0*0050.
0.02 X
_O*012Q_
0.26 X
-0*1660-
0.52 X
-0*3404-
0.09 X
-O*055fl_
0.30
Ji
1235-
0. 29 X
.0*1213.
0.29 X
-0*1055-
RECEPTOR
62
0.00 X
_Q*QQU1_
0.00 X
_fl*00fl2_
0.01 X
_0* 0053-
0.01 X
_0*0054_
0.00 X
_Q*002fl_
0.00 X
-0*0003-
0.00 X
_0*0022_1.
0.02 X
-0*0100-
0.02 X
_0*0141_
0.02 X
_0*O110_
0.02 X
-0*0102-
0.04 X
_0*Q2B.3_
0.02 X
_0*002fl_
0.02 X
-0x0020.
0.03 X
_0*0204_
1.57 X
.0*32011-
7.76 i
_4 *2044-
U. 24 X
J1.154J-
8.09 X
-5*1022-
1.94 X
-1*2263.
1.38 X
-0*0230-
_1
RECEPTOR I RECEPTOR I RECEPTOR
-33 1 flfl J 03
0.00 X |
_Q,QDQ1 1_
0.00 X I
0.0009 I
0.00 X I
0.0001 I
0.00 X I
—0*0006—1.
0.00 X
.0*000
0.00 X
.0*0016.
0.01 X I 0.01 X I 0.00 X
.0*0043—I 0*0060—1 0.0024--!
0.01 X I 0.01 X I 0.01 X
-0*003.6 I Q*004fl--I 0.QQ59
0.01 X I 0.01 X I
-0*0032—1 0*0030—L
0.00 X I 0.00 X I
-0*fi004_J 0*0004—1.
0.00 X | 0.01 X I
0.01 X I
-.0*0.03.9 1-
0.03 X I
0.04 X
1 Q*0220.
0.04 X
-O.02.L9_
0.02 X
-0*0026-
0.09 X I
-fl*05i
0.01 X I
.0*0023—1.
0.02 X I
1*0113—L
I 0.02 X I
J 0*0102—1.
I 0.02 X I
J 0*0101 1_
0.01 X
-0*0048 I
0.00 X
-0*0006 L
0.01 X
-0*0032 L
0.01 X
.0*0036.
0.01 x I
-0*0022—1.
0.04 X I
0.02 X "l
.0*0022 L
0.02 X
-0*0138 L
0.02 X
-0*0022 I
0.02 X
-0*0022.
0.02 X
-0*0022-
0.04 X
-0*0250 L
0.03 X
-0*0145.
0.59 X
-0*3563-
0.04 X I
*0205 1.
1.15 X I
0*6212 i.
0.03 X
-0*0145.
0.12 X
-11*0211.
0.34 X I
-0*2020 L
0.37 X I
-0*2234 L
0.25 X I
-0*1400 L
5.44 X I
-3*1052—L
0.24 X I
.0*1320.
1.14 X I
-0*6662—1-
1.02 X I
-0*5222—1-
1.58 X I
-0x2250—1.
0.05 X
-0*0302 I
2.16 X
-1*2463 L
2.97 X
-1*211.1 I
0.48 X
-0*2202.
0.97 X
—0*5563—
0.63 X
—0*3652.
0.55 X
—0*31111 t
-------�
AQOM RUN -YEAR 1975- TOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TU FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC KETFR
I SOURCE I RECEPTOR 1 RECEPTOR | RECEPTOR I RECEPTOR | RECEPTOR I
J 1 54 L 62 1 aa I ua 1 aj i
I 106 | 0.31 * I 0.52 * | 0.20 * I L.01 * | 0.35 X I
J 1 Q*1222—I Q*131U i 0*1221 J Q..52ZB J
I 107 | 0.29 X I 0.21 * | 0.18 * I 0.41 * | 0.16 X I
J 1 0*11325—i Q .1.1215 1 Q*lfl6a__l 0*2335 I 0.Q937 I
I 108 I 0.20 * I 0.36 * | 0.11 * I 0.77 * I 0.21 * I
J 1 0*12£1—1 0*22QQ 1 Q*Q6Z3__i 0*4505_J 0.1232 I
I 109 | 0.22 X I 1.04 t | 0.21 * I 5.55 % | 0.53 * I
J J 0*1452 i (1*6521 I QU2il2_J 3*2400 L 0*302.8—1
I 110 | 0.46 X I 1.17 X I 0.44 X I 1.33 X I 1.73 X I
J L Q*2222__l 0*2416 L 2*2632 I fl_.iZ6.5__i 0*3323—1
I 111 I 0.60 X I 1.70 X I 0.60 X i 1.45 X I 8.44 X I
J 1 n*3fl2a_i uflzaa l_ a*i5a4_J 0*3422 t 4*^562—i
I 112 I 0.30 X | 0.70 X I 0.39 X I 0.60 X I 1.10 X I
J L 0*1264 1 0*4.422 J 0.2353 1 0*3420 I. 0.6304 I
I 113 | 0.17 X I 0.42 X I 0.29 X I 0.37 X I 0.66 X I
J 1 Q*1122 1 ii*2648__l 0*1232_J 0*2161_1 0.3012 I
I 114 | 0.34 X I 0.79 X I 0.53 X I 0.64 X I 0.85 * |
J 1 0*2201—1 0*5023 I 0*2143 I 0*326J3__J 0*4316—1
I 115 | 0.12 X I 0.25 X I 0.11 X I 0.26 X I 0.38 X I
1 1 Q*QiJ04 1 0*1563 1 0*0643—J fl*1522_J 0*212.0—1
I 116 | 0.26 X I 0.48 X I 0.20 X I 0.47 X I 0.94 X I
J 1 0*1622__i 0*3002—1 0*1212 J 0*2246—J 0*5421—1
I 117 I 0.51 X I 0.91 X I 0.54 X I 0.84 % | 1.15 X I
1 1 0*3304—i 0*5262 1 0*32311 J 0*4312 I 0*.6.533—1
I US I 0.20 X I 0.30 X I 0.21 X I 0.29 X I 0.36 X I
J 1 0*1203—1 0*1226—1 Q *1234 I 0*1623—1 0*2.033—1
I 119 | 0.21 X I 0.36 X I 0.34 X I 0.36 X I 0.55 X I
i 1 0*1332—1 0*2222 J 0.2054 I 0*2126 I 0*3123-1
I 120 I 0.60 X I 0.96 X | 0.87 X I 0.68 X I 1.02 X I
J 1 0*3.£6.9 1 0*6022 I 0*524fl I 0*516.5—1 O*A023__1
I 121 I 0.72 X I 0.62 i | 0.71 X I 0.83 X I 0.59 X I
1 J fl*4£4U—I 0*3336—1 0*4233 1 0*4.S52_-1 0*3412—1
I 122 I 1.04 X I 1.62 X | 1.81 X I 1.42 X I 1.22 X I
J 1 0*626fl I 1*0223—1 l*0flfl5 J 0.8335 I 0*7050 -I
I 123 | 0.38 X I 0.76 X I 0.73 X I 0.63 X I 0.66 X I
J 1 0*2464 1 0*42211—1 0*4321—1 fl*3662__l 0*3.622—1
I 124 | 1.60 X I 0.72 X I 1.01 X I 0.96 X I 0.67 X I
J 1 1*1)362—L 0*4561—I 0*6022 1 Q*563fl__J 0*1862—1
I 125 | 3.51 X I 1.53 X I 1.17 X I 1.71 X I 1.15 X I
J 1 2*22B2—1 0*3642—1 Q*2Q62__J 1*Q013_J 0*664.5—1
I 126 I 2.12 X I 2.42 X | 2.25 X I 2.64 X I 2.83 X I
1 1 1*3242— i 1*5321 1 1.3572 I l*5462__J 1*6221—1
-------�
AQDM RUN -VEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS. PER CUBIC METER
SOURCE
127
128
133
134
J
135
136
137
RECEPTOR
54
0.04 X
_Q*Q221_
0.10 X
-0* 0631-
o.il %
_0*Q244_
0.46 X
_Q*2SQ6
0.14 X
_Q*Q311__
0.3B *
.0*2452.
0.41 %
_fl*265fl_
0.47 X
_0*30I4_.
0.23 X
-fl*151fl_
0.65 X
-0*4212-
0.77 *
_0*5.C36_
RECEPTOR
_62.
0.07 X
_fl*0442-
0.10 %
_Q*0603_.L
0.12 5
_0*O261__
0.72 *
45110.
0.16 X
..0*0335.
0.47 *
RECEPTOR 1 RECEPTOR | RECEPTOR
11 J 6B I 83
Q*23i2__
0.57 *
0*35112
0.56 %
0«3522__
0.28 X
Q*1232__
0.75 X
Q.4Ii2__
1.04 *
-0*6552-
0.05 X I 0.07 X | 0.09 X
jusau—l o*aa2a_i 0*0539.
0.09 X I 0.10 « I 0.12 X
_CU.Q5.I2_J Q.Q6Q1 I 0.0702
0.11 * ) 0.15 t | 0.17 X
0*062a_J 0*0&22 J 0.0959
0.73 X
.a~&2fe&.
0. IB X
.0*1044.
I
0.94 X
_a*5325__l
0.20 X
_0*1131
0.48 X I 0.48 X | 0.53 X
_0*2fl22 I 0.2793 I 0.3071
0.52 X I 0.59 X | 0.74 X
_0*3 litt 1 Q>3467 I 0.4278 1
0.56 X I 0.61 X | 0.70 X
-0*3331 J Q*3521_J 0*4212
0.27 X I 0.30 X | 0.35 X
0*1626—J 0.17B2 I 0.7009
0.73 X | 0.78 X | 0.85 X
.Q*4323__J 0.4587 I 0.4899
0.84 X
_S*5061.
1.06 X
_0*62X!2-
1.09 X
-£*6222-
138
139
0.21 X
.fl*13fl£_
0. 12
0.0751
0.34 %
—0*2152 L.
0.17 X
_fl*im
0.27 X I 0.34 X I 0.43 X
0*1532—J .0*1222 I 0*2499 I
0.68 X I 0.17 X I 0.16 X
,__0*4S31_J Q*fl362_J 0*0235.
142
143
144
145
146
0.62 X
_fl*4£2i)__
0.69 X
-12*4460 L
0.60 X
-0*3fl24.
2.20 X
-1*4224-
3.28 X
-2*1222-
0.78 X
-0*5041-
0.69 X
Q*4334_
0.93 X
0*5fl53_
0.44 X
—0.225J-
0.74 t
J*4342.
0.21 X
.0*1356.
1.91 x
-_J*203fl_
3.06 X
1*3330-
0.73 X
-_U*461B_
0.23 X
-0*1456-
0.98 X I
_0*5222 I
1.38 X I 1.02 X
_0*fl315—I 0*5262
0.44 X I 0.49 X
-0*2632—J 0*2*30.
2.14 X I 2.14 X
-1.2B21 I
3.09 X I 3.39 X
_l*A5fl2__J 1*2B32.
0.90 X I 0.79 X
-0*5414 J 0*4.603
0.18 X I 0.25 X
-0*1056 I 0*1.463
I
0.60 X
_fl*3ifl2 I
0.73 X
.0*4200 I
I 0.36 X
_J 0*206J L
I 1.95 X
3.21 X
l*84a2 I
0.72 X
Q*4111_l
0.27 X
0.
*1543.
147
0.05 X
.0*0320.
0.05 X
_fl*.Q223_
0.04 X I
-0*0264 J
0.06
-------�
AQDM RUN -YEAR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
to
O
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR | RECEPTOR I RECEPTOR | RECEPTOR I RECEPTOR |
I 1 S4 L 61 1 13 1 £D 1 A3 1
I BACK- | 44.62 * | 45.89 I I 48.17 * | 49.54 X I 50.37 X I
i—£B01itlQ—1 22, 1 2SU L 22* 1 23* 1 23* I
I TOTAL I 100.0 X | 100.0 X I 100.0 X I 100.0 X I 100.0 * I
J L &5»Q2fl5—L Silw.2l5.fi J 6fl«.2304 ...J. 58,5593 I 5i»5M3_l
-------�
ACOM RUN
-YFAR 1975-
FDR GREENVILLE COUNTY. SUUTH CAROLINA
10/21/76
I RECEPIOB_CQU£EtLLBill£iUJMA
I I I
I RECEPTOR I RECEPTOR ICCATIGN I EXPECTEO ARITHMETIC MEAN
I . NUHWER I _1
I I tKILOMETERS) I IMICROGRAMS/CU. METER!
.1 1 BOJU Z V£JU 1 SD2 EABIltilLAIfiS—
I I I I I
I 1 I 380.0 I 3844.0 I 0. | 46.
I 7 I 3U0.0 I 3846.0 | 0. | 46.
J 3 1 3BD»i) 1 384i»..l> I Q, J 41.
t 4 t 380.0 I 3850.0 | 0. | 47.
t 5 I 380.0 I 3852*0 1 0. | 47.
I fc 1 38 Q. Q.._l I Q, J 41*.
t 7 I 380.0 I 3856.0 I 0. \ 48.
I A I 380.0 t 3858.0 t 0. | 48.
I S 1 3QD>n._l_306Q*Q I Q, J 4CU
I 10 i 380.0 I 3862.0 I 0. | 48.
I 11 I 380.0 I 3864.0 I 0. | 47.
I 12 1 3flQ, Q i 3866,1) L Q, 1 it*
I 13 I 380.0 t 3868.0 I 0. | 45.
I 14 I 380.0 I 3870.0 I 0. | 45.
I 1 J5 i 330.0 l_3fl3Z,0 1 Q-. 1 41*
tO I 16 t 382.0 I 3844.0 t 0. I 45.
•"* I 17 I 382.0 I 3846.0 I 0. | 45.
I J » 1 382* Q 1 3048*0 1 Q, 1 45*
I 19 I 382.0 I 3950.0 I 0. I 46.
I 20 I 382.0 I 3852.0 I 0. | 4b.
.1 21 1 3R2.Q i 3854..U I CU 1 46*
I 22 I 382.0 I 3856.0 I 0. I 47.
I 23 I 382.U I 3058.0 I 0. | 47.
I _ 24 I 382,0—1 3860.Q J Q, J 4Z*
I 75 I 382.0 I 3062.0 i 0. I 47.
I 26 I 382.0 I 3864.0 I 0. I 46.
I 27 I 382*11 J _3
-------�
AODM HUM -YEAR 1975-
FOR GREENVILLE COUNTY, SOUTH CAROLINA
10/21/76
IS E C ££J 0B_£ QUI E.M J 11 dLiifil A
RECEPTOR
RECEPTCR
LCCATICN
1
1
EXPECTEO
ARITHMETIC MEAN
NlJ/< ()£«-_
1
I KILOMETERS)
1
tMICROGRAMS/CU. METER)
UtlMi
VEfil i
i
S02
PART 1CUI ATES
|
41
304.0
3864.0
I
1
0.
1 46.
_
384* Q I }i)£fc*0
_1_ _
_a*_ _
, 1
43
384.0
3868.0
1
0.
1 45.
44
384.0
31)70.0
t
0.
1 44.
45
384.0
3fl22*fl
Q*
1 43.
46
386.0
3844.0
~l
0.
1 43.
47
386.0
3846.0
1
0.
1 43.
4/1
3a6*U__
_3J4B*0_
1
a*_
1 ,.4i...
49
386.0
3850.0
1
0.
1 44.
SO
386.0
3852.0
1
0.
1 44.
51
.31) 6* Q
3854.0
Q*
1 _ 4.4*
52
386.0
3856.0
1
0.
1 45.
53
3H6.0
3858.0
1
0.
1 45.
„ .54..
381>.0_
33£0*Q__
_1
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1 45.
55
386.0
3862.0
1
0.
1 45.
56
316.0
3864.0
1
0.
1 46.
57
ja&>.o
31)66*1)
a.
1 46.
5R
31)6.0
3368.0
"l
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1 45.
59
386.0
38 70.0
1
0.
1 44.
6(1
3a.fc*Q__
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61
308.0
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1
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1
0.
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63
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64
388.0
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0.
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65
388.0
3852.0
1
0.
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1_ 43 *_
67
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1
0.
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3858.0
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3.360., l)
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1 44.
70
388.0
3862.0
1
0.
1 44.
71
388.0
3864.0
1
0.
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_ 72
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1
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. .1 .. _46*__ _
73
38 8.0
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1
0.
1 46.
74
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3 8 70.0
1
0.
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76
390.0
384'.0
I
0 .
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77
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1
0.
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..... 7H
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—31)48 • U
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79
390.0 1
3850.0
1
0.
1 41.
ho .
39U*U__i
__31i52*Q__
_J
_ a* .
i-_. 41*-
-------�
ACDP PUN -VfcAR 1975- FOB GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
I I
.1 B£CE£ICB-£CMC£UBiI10H .DAIA I
II I I
I RECEPTOR I RECEPTOR ICCATICN I EXPECTED ARITHMETIC MEAN I
». ..hUUBEB I 1 I
I I (KILOMETERS! I (MICROGRAMS/CU. METER! 1
I - I HQBli ItEBI L SU2 EABUt*iLAI£S__ I
I I I I I I
I SSI X 390.0—1 3514,0 1 0* 1 42, I
I B2 I 390.0 t 3856.0 I 0. I 43. I
I 83 I 390.0 I 3358.0 I 0. I 43. 1
I 84 J 390*0. _J__384Q*Q 1 Q, i 41* I
I 85 I 390.0 I 3862.0 I 0. I 43. I
I -86 I 390.0 I 3964.0 I 0. I 43. j
J—jh l 390*q_j—sabb+a l a, l 4i* I
I 88 I 390.0 I 3868.0 I 0. t 44. t
I 89 I 390.0 I 3870.0 I 0. I 42. I
J 90 i 32v)*U_J._3flZ2*Q 1 £U J 42* I
I 91 | 392.0 I 3844.0 I 0. I 39. I
I 9? I 392.0 I 3346.0 I 0. 1 t
_ .1 .93 i 392.0 i—3B4J)*Q I Q* J 4d* I
Y I 94 I 392.0 I 3853.0 I 0. I 40. I
IO I 95 I 392.0 I 3852.0 I 0. I 40. |
U> I .96 J 3*32*0 L 335i*Q 1 0* J 41* I
I 97 I 392.0 I 3856.0 I 0. I 41. |
I 93 I 392.0 I 3858.0 I 0. I 41. |
J 99 J 392.0 -I—3B&Q*Q I Q* J 42* I
I 100 I 392.0 I 3862.0 I 0. I 42. I
I 101 I 392.0 I 3864.0 I 0. I 42. |
J 101 J J92*Q_l_3fl£fc*fl J O. J 42* 1
I 103 I 392.0 I 38o8.0 I 0. I 42. I
I 104 I 392.0 I 3870.0 I 0. I 41. I
I JOS 1 392*0—I—3:172*1) 1 Q, 1 41* 1
I 106 I 394.0 I 3844.0 I 0. I 38. I
I IC 7 I 394.0 I 3846.0 I 0. I 38. I
I 108 J 324*0 1—3Q4fl*A I Q* 1 12* I
I 109 I 394.0 I 3850.0 I 0. I 39. I
I 110 I 394.0 I 3352.0 I 0. I 39. I
.! . _ U I. J 394*0. 1 3fl54*Q J 0* J 4Q* 1
I 112 I 394.0 I 3856.0 I 0. I 40. |
I 113 I 394.0 I 3858.0 I 0. I 40. I
I _ 114 .. .. I 394*0 1 iBbOm.0 I Q* 1 40* 1
I 115 I 394.0 I 3862.0 I 0. I 41. I
I 116 1 394.0 I 3364.0 I 0. I 41. I
.1 UI 1 394*0 1 3866*1) I Q* J 41* 1
I 118 I 394.0 I 3868.0 I 0. I 41. I
I U9 I 394.0 I 3870.0 I 0. I 40. I
I .... 120 J 394* U 1—3tJ22*U 1 Q* 1 4ft* 1
-------�
AOrM RIIN -YEAR 1975- FCR GREENVILLE CCONTV, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXINUM RECEPTORS
ANNUAL PARTICULATES
MCRCGRAMS PFR CUBIC KHW
SOURCE
RECEPTMR
RECEPTOR I
in 1
RECEPTOR
g
RECEPTOR
RECEPTOR I
11 1
i
j
o.io Y~~
.ill. J.
0.09 * 1
0.10 *
0.10 X
o.os x l
,
i).U4Ct__
tua43.1__.l__
2
0. 10 J
0.10 t 1
0. 11 X
0.11 X
o.oo % |
Q.i)42!i__
0.0454 1
Q^QSIU
0.0519
QjD4i)2 1
3
o.u. S
0.15 * 1
0. 17 %
0.17 X
0.13 X 1
J.OZZJ _
U..02JL4_J
QjfliU.6
4
0.05 %
O.OS * 1
0.06 X
O.Ob X
0.05 X I
J.0263
0.U242 1
0.0276
0,0277
0.0214 1
5
0.00 *
0.00 X 1
0.00 X
0.00 X
0.00 % 1
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6
0.00 C
0.00 X 1
0.00 i
0.00 X
0.00 X 1
.
i). QJU.f
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£UQQ2J. 1
7
0. 07 i.
0.16 I |
0.08 %
0.08 X
0.18 X 1
O.Oi22
0^0X65 J
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0.0843 1
a
0.00 %
0.01 X 1
0.00 X
0.01 X
0.01 « 1
,
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9
0.00 *
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0.00 1 I
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0.00 %
0.00 X
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-------�
ACI1H RUN — YEAR 1975- F0(< GREENVI LLE CCUNTY, SOUTH CAROLINA 10/21/76
SntlPCF CHNTR IBUT IHNS Tl) HVE MAX 1HUH RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUUir. HETtR
SOIiRCF I KFCrPTOP I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR |
11
0.01 % 1
0.01 X 1
0.01 X I 0.01 X 1
0.01 X 1
_ 0.0021! t
0.Q05J J
_fl.l)Q32 1 fl.QQi.4__i
_Q.QQ33 L
73
0.01 X 1
0.02 X \
0.01 X 1 0.02 X I
0.01 X 1
, ,
0.Q054 i
__Q.QC.EA—1 Q.QQli2 t Q.QQaO 1
Q.QQ56 1
24
0.01 X \
0.01 x 1
0.01 % 1 0.01 X 1
0.01 X I
-0.0040 1
0.003.6 1
—Q.QQ33 J Q.QQ1B L—
—0.0523 L
0,0(1 I 1
0.00 X 1
0.00 X 1 0.00 X t
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_
0.0012—i_
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0.00 X \ 0.00 X 1
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. -0.0013 1
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27
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0*uai5 1
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0.0033—1 Q.QQ32 L_
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31
0.01 X 1
0.00 X 1
0.01 X I 0.00 X 1
0.00 X 1
0.0031—1.
0.00.1.2 i_
-0.QQ24 1 -0.0022 J
Q.QS114—i
32
0.01 t 1
0.00 X 1
0.01 X I 0.00 X I
0.00 X 1
... Q.0Q31 1.
1_
0.0024 J 0.0022—1.
O.flilli I
33
0.00 « I
0.00 * 1
0.00 X I 0.00 X 1
0.00 X 1
Q.0022...1
fi.ooio__i_
Q.QQ14 L 0.0013 L.
Q.flQDB 1
"" 3\
0.00 % 1
0.00 x 1
0.00 X 1 0.00 X I
0.00 X 1
. . 0.0022 1
o.qoiq—1—
-0.0014 _i_ 0.0013 _i.
Q.aufla—l
35"
0.00 T I
0.00 X 1
0.00 X I 0.00 X 1
0.00 X 1
. .0.0022—l.
Q.aoid—i-
__ 0.0014—1 o.flflia L
Q*aaoa__l
36
0.00 > 1
0.00 X 1
0.00 x l 0.00 x 1
0.00 X 1
. ...
0,0022... L.
O.OOJO 1_
0.0014 1_ _0.Q013 1
D.aaoa__i
0. 11 * 1
0.04 X 1
0.05 X t 0.05 X I
0.03 X 1
0.0534- _i_
_0.013Z_1
_ -0.0234 -1 0.0222—1.
Q.Ulc2__l
38
0.01 * 1
0.01 * 1
0.01 X I 0.01 X I
0.01 X 1
0.0032—i
O.i)0.2£__l_
_ 0.0033 1 0.0022—L
0.UQ22—1
39
0.01 X 1
q.01 x 1
0.01 X 1 0.01 * 1
0.01 X 1
Q.0032 1
o.ao.z.6—1
0.0033—1 0.0022—I.
Q.QQ22 I
«0
0.01 T i
0.01 '( 1
0.01 X 1 0.01 X I
0.01 X 1
0.0052.. I
0.0D.41—i_
Q.flQ53—1 0.0043 L
Q.0il43__l
"* Vi
0.01 * 1
0.01 % 1
0.01 X 1 0.01 X 1
0.01 X I
0*0052 1
0.004.1 1
0.0053 1_ -0.0043 I.
Q.Q043—1
42
0.01 i 1
0.01 X 1
0.01 X | 0.01 X I
0.01 X 1
0.0032 — J.
0.002.5—1_
0.0032 1 0.01)26—1.
0.UQ2Z I
-------�
ACfiM PUN -YEAR 197b— FCR GREENVILLE CCUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS 10 IIV6 MAX ICUC RECEPTORS
ANNUAI PARTICULATES
MICROGRAMS PER CUMIC METER
SOURCE
RECEPTOR
RECEPTOR 1 RECEPTOR
1 RECEPTOR I
RECEPTOR |
in 1 fl
_1 .9. 1
11 . _ _1
43
0.01 X
0.01 t 1 0.01 X
1 0.01 X 1
0.01 X I
a*oo32_
0.0(125 1 0*I!Q32_
J -0.0026 L_
0*0Q22__1
44
0.01 %
0.01 X I 0.01 X
t 0.00 X 1
0.01 X I
fl.002B__
lKilfl26__J QmMQZI-
_J 0*0021 L_
0*0021—1
45
0.01 *
0.01 X 1 0.01 X
1 0.00 X 1
0.01 X 1
_Q.DQ2H_
0.0026 1 0.0027
1 0.0021 1
0.0027 1
46
o.oo *:
0.00 X 1 0.00 X
1 0.00 X 1
0.00 X I
D.OUOb
O.OOOB 1 0.0006
_1_ -U..QQQ& L
_ Q.Q009. .. 1
47
0.00 t
0.00 X 1 0.00 X
1 0.00 X 1
0.00 X I
fl..0002__
0.0002 1 0-0002.1. 0.000? 1
Q^a(lQ2 1
4R
0.00 %
0.00 X 1 0.00 X
1 0.00 X 1
0.00 X I
o.on 09
0.0003 1 0.0008
1 0.0008 1
0.QQ09 1
40
0.00 t
0.00 X 1 0.00 X
1 0.00 x 1
0.00 X 1
_ 0.0002
0.0001 1 0.0001
_l 0.0001 I
0.0001 1
50
0.01 *
0.01 t 1 0.01 X
1 0.01 X I
0.04 X |
fl».0Q41__
Q,00;.3_. 1,. 0. 0033
_1 0*0032 l_
Q*ttlZ&__l
51
o.oo t.
0.00 X 1 0.00 X
1 0.00 X I
0.00 X 1
... ...a,anas
_ -O.OiJCS.O.flOOfi
_1 Q*QQ05 L.
Q*QQQ4 1
5?
0.01 *
0.00 X 1 0.01 X
1 0.01 X |
0.00 X |
..
0. 0032
Qi0fl2fl_
l_. 0.0026 1
_ 0*QQ22_ 1
51
0.07 X
0.01 X 1 0.02 X
1 0.02 X I
0.01 X 1
0.0096
0*0.0 2 J I
_1 0*00Za__i_
54
0.03 *
0.03 X 1 0.03 X
1 0.03 X 1
0.02 X 1
0.0163 ...
... 0.01<1 ..1 0*1)142
1_ .0.0133... 1.
0*011J 1
55
0.02 *
0.01 X 1 0.01 X
1 0.01 X 1
0.01 X 1
I). 0079 _
0.0059 1 0.0071 1 0.0064 1
, 0^9054 1
56
0.00 *
0.00 X 1 0.00 X
1 0.00 X 1
0.00 X 1
0»flOJfl. ..
.... 0.0014 1 .0.0020
J Q^OOlfl L.
0.0017 1
57
0.01 *
0.01 X 1 0.01 X
1 0.01 X I
0.01 X 1
o^ooto.
O.DOii) L 0*1)052-
1 _ 0*0052. i_
0*QQ5fl 1
5fl
0.00 *
0.00 X 1 0.00 X
1 0.00 X 1
0.00 X 1
...
O.0OU_..
0 . 001 1__J Q*£01Q_
_1 0*0010 l_
0..QQ11 -1
59
U.OO *
0.00 X 1 0.00 X
1 0,00 X 1
0.00 X I
D. .O014. .
0.0X31 A 1 0*0Q13_
_1 0*0013__i_
0*QQ14—1
60
0.00 %
0.00 t 1 0.00 X
1 0.00 X 1
0.00 X 1
0.0012...
0.0012 1 0.0012_
..1. 0.0012 1
0.0010 .. 1
61
0.01 *
0.01 % 1 0.01 X
1 0.01 X I
0.01 X I
0.1)0.44...
D*il05J 1 0*D Q4Z_
-J 0*01)49 L_
Q*QQ4fi—1
6?
0.03 *
0.03 1 1 0.03 X
1 0.03 X 1
0.03 X 1
. .. 0.0122...
... -0*0142 1 fl»DUl_
1 0,111 J() 1
0.0135 1
63
0.09 r
0.10 X 1 0.10 X
1 0.10 X I
0.10 X 1
,
. -Q.0429. _
0* i)4SJi__ J 0*045 2_
i_ _0*0iU3 l_
Q*Q4Z3__1
-------�
ACDM (.UN — YEAH 197S- KIR GREENVILLE CCUNTV, SOUTH CAROLINA 10/21/76
SIH.RCE r.nNTRlhUridNS lfi FIVE MAXICUP RECEPTORS
ANNUM PARTICULATES
KIf.POGRAMS PER CUHIC ML TEH
I Sr.UIvCE I RECEPTDK I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR I
I I 7 1 1Q J fl 1 3 L 1J 1
64
1
0.1)7 5. 1
0.09 X |
0.08 * 1 0.09 X I
0.08 X 1
J
L__
0*Q413 I .
._0*flifti 1__ 0*0405 L
Q*0a24__l
65
1
0.22 % 1
0.26 % 1
0.24 * I 0.2b X I
0.25 X 1
a. L07t__ l_
QU2ifl_l
__0*114fl J _0*1214
-ll*llfll 1
66
1
0.01 T. |
0.03 X 1
0.03 t 1 0.03 X
0.03 X 1
Q.Q140 1
0.0163 1
0.0150 1 0.015R
0*0153 I
~ 67
1
0.00 X 1
0.01 * 1
0.00 % I 0.01 X
0.01 X 1
J
0.0014 _i_
0.0036 1
O.OOll I 0.0027
_Q*0Q2fc_ 1
6R
1
o.or * i
0.06 X 1
0.07 * 1 0.07 C
1
0.06 X 1
1 .
_0.t>321 L
_ 0.0275 1
0.034? 1 0.0339
1
11.0264 _1
69
1
0.03 ».
0.02 X 1
0.03 % 1 0.03 X
1
0.0 2 X 1
J
0.0136 .
_o*ain_i q*jQ145 i
_Q*Q112__1
70
1
0.03 T.
0.02 X 1
0.03 X 1 0.03 X
1
0.02 X 1
i
O.QUt _
0*0111 i_
0*.0145_J 0*11144 L
0*0112 1
71
1
0.08 i
0.24 X I
0.13 X 1 0.23 *
1
0.19 X 1
1 —
0.0363
0*11.3.0 1_
_ flJliQfc J 0*1072
1
0*0304. 1
72
1
0.00 4.
0.00 X 1
0.00 X 1 0.00 X
1
0.00 X 1
1-
__0.U011
_Q*0001 1
Q*flflll3__l 0*ilflQfl L
Q*QQO£—1
73
|
0.00 *
0.00 t 1
0.00 X 1 0.00 X
1
0.00 % 1
1 __
__0..UO12__
0*QilflJ—1_
11*01)09—1 0*0008-.
Q*QQQ6 1
74"
1
0.01 S
0.00 t 1
0.01 X 1 0.01 X
1
0.00 X 1
1. -
... 0.Q039
0*0X12.4—1_
Q*00.30 I 0*0026 L
_Q*0022__1
75
1
0.00 *
0.00 X 1
0.00 3! 1 0.00 X
1
0.00 X 1
l__
__0.0ai4__
_ _0*Q00J l_
o*jioio i o*ooaa
1
o*uuaz 1
76
1
O.OD *
0.00 X 1
0.00 X 1 0.00 X
1
0.00 X 1
1._
__a.ooui__
0*QH02—1_
.0*11001—J 3*00U2_
_1_
J1*Q002—1
77
1
0.00 -i
0.00 X 1
0.00 % 1 0.00 %
1
0.00 X 1
1. -
U.00Q5„_
0*j]iUZ 1_
11*0003 L -0*01)03
1
0*01116—1
" 7H
|
0.00 *
0.00 X 1
0.00 % 1 0.00 X
1
0.00 X 1
-....
.. D.JD05 .
o*aoi<>—1_
o*iiiiQ5 i n*oiiaa_.
-J—
__ 0*0016—1
1
0.00 t
0.01 % 1
0.00 S 1 0.01 X
1
0.01 X 1
..._l -
__1). 001 J
0*tfil46__l_
0*1)012—1 i)*JU24_.
-1—
__fl*ilQ45—1
no
1
0.00 X
0.00 t 1
0.00 t 1 0.00 X
1
0.00 % 1
_ J _
.D.0J01-,
0.3001 1
o*jiaoi 1 o*ooai_.
-1—
.0*03112 I
HI
1
0.00 X
0.00 X 1
0.00 X 1 0.00 I
1
0.00 X 1
__O.OJ01
Q^iiOOJ 1
__ii*fliMi l o*Oiiai_.
-1_
0*0002 1
B?
1
0.01 t
0.04 % 1
0.03 i 1 0.05 X
1
0.03 X 1
— 1 .
U.UQ
-------�
»cr>f BUN -YF AR 1975- FOR GREENVILLE COUNTY, SOUTH CAROLINA
10/21/76
SOURCE CfNTRIBUTIONS TO
ANNUAI PAKTICULATFS
MICROGRAMS PER CUBIC MET
I SCURCF
85
to
00
Hb
87
HH
R9
90
91
9?
93
94
95~
96
97"
9H
99
100
101
107
103
104
105
RECEPTOR
0.00 *
0.00 %
fl^QQlS
0.00 z
.—O.OOCS—,
0.01 z
D.flQSJi
0.01 %
d.OQil
0. 00 X
0.00 3
D.UQ14
0. 00 'i
O.DQaa__
0.06
U.U2Z3
0. 03 X
Q» QX 3 J
0. 03 X
0.U136
0. 07 %
fl.tf352__J
0.03 X
O.J3162
0.0 3 i
___fl.01f.2__
0.07 S
Q •0335
0.22 %
Q.1084
0.49 %
fl.. 23 lb
0.21 X
0. 32 f.
11.15 71
O. 24 %
0. 1163_
0. 14 Z
Q£»ZK__1__
IVE MAXIKUf RECEPTORS
RICEPTCR
Ifl
0.00 X
XjJ£JD1 I
O.OJ t
D.0£13_
0.00 %
Q*Q02J
0.0 1 1
Q.ucJjj__J_.
0.01 1
QmQLHi
0.00 i
—O.Q£X:4
0.00 X
o.m %
D.dCii_l.
O.OJ t
0^0164
0.02 %
D.fl£S4
0.02 (
—
0.05 1
0.02.4.4
0.03 %
0-0121
0.03 t
0.0121
0.05 i
—a.02iiS
n. 33 %
0.1i££
0.62 %
0.23i2__.
0.22 X
0.103A
0.28 I
-_0 .136£
0.2 I %
-_0.1.0.2 f>__
0. 16 1
—0.0J46__1__
RECEPTOR
B
0.00 %
0.0Q0J J
0.00 %
fl.0Q15_
0.00 %
0.jM21_
0.01 <
fl»D044_
0.01 X
QxDQ4J_J_
0.00 %
iM}J)a5
0.00 %
C..A013
0.00 t
Q^iiQia
0.05 *
0.0Zil
0.03 X
Q.0121
0.03 X
Q*.ai2i}—
0.07 X
U.0312
0.03 X
0.0146--
0.03 X
U.fllifi
0.06 '{
0»J33Q3_
0.38 %
fi.11113
0.66 X
11.3123
0.23 X
0.111&
0.28 X
0.1319 I.
0.21 X
0.C99A
0. 17 X
Q.QZ23.
RECEPTOR |
a 1.
0.00 % |
._£jQ1M1 1_
0.00 X I
_Q-.fliii2__.i_
0.01 % 1
_fl.Qll2Z__l_
0.01 % |
0.01 % |
_0iCi)32 L_
0.00 X I
GjkQQQl l_
0.00 X I
£.*0012 L_
0.01 % I
Q.QUAQ i_
0.04 X I
0j.02QZ__.i_
0.02 X I
0..010Z I
0.02 X I
fljQlQt L
0.06 X I
O^Zfc L_
O.OJ X I
QiQllZ 1_
O.OJ X I
0J.0132__1_
0.06 X t
D..Q2Z4 1_
0.35 X I
0..1&B2 l_.
0.64 x 1
flJ.3Q65__l_.
0.20 X I
0-0232__l_.
0.30 X I
!1^143a__l_
0.22 % |
QJ1042__1_.
0.16 I |
RECEPTOR
11
0.00 *
C..QQQ1—
0.00 X
0..QQQ2
0.00 X
—Q..QQ21 I
0.01 X
Q..QQ33—
0.0 I X
Q-.QQ33—
0.00 X
0..QQQ4
0.00 X
Q..QQ12—
0.00 X
Q.QQ21—
0.04 %
0.0106—
0.02 *
Q.QQSit-
0.02 X
Q.Q.Q33 I
0.05 X
Q.Q216—
0.02 X
QjiQIIQ—
0.02 X
Q.Q11Q—
0.05 *
Q.Q228—
0.36 X
0.1624
0.64 %
—Q.1QQ2—
0.17 X
_Q*Qia5__i
0.32 X
_Q..1423__1
0.22 X
—Q.1Q52—
0.16 X
Q^l2Z63 1
-------�
ACDM RUN -YFAR 1975- FOR GREENVILLE COUNTY, SOUTH CARCLINA 10/21/76
SOLRCF CONTRIBUTIONS 10 FIVE MAX I CUM RECEPTORS
ANMIAI PARTICULATES
HICSOGRAMS PER CUBIC METER
1 SOURCE
1 RFCEPTOK \
RECEI'TCR 1 RECEPTOR 1
RECEPTUR 1
RECEPTOR 1
.1 „
1 7 1
10 1
8 1
9 1
11 1
1
ioT"
1 0.10 * 1
0.13 X 1
0.14 * 1
0.12 X 1
0.13 X 1
1
- - J 0.0429
_iKU6l)3 i_
0*0623 1_
U.0566 1
0.0536—1
1
tor
1 0.07 * 1
0.08 * I
0.09 X 1
0.08 X 1
0.08 X 1
1 ..
.... 1 0*0350 1
0.0353—1
0*0416 L.
0*0361 1—
0.03fi9—1
1
ICR-
1 0.05 X 1
0.09 X 1
0.09 * 1
0.08 X 1
0.08 X 1
l._
_ 1 0*0253 _t
tKU403 J
0*0410 L_
0.0335 L_
0.03flfl—1
1
101
1 0.12 X 1
0.20 X I
0.20 I 1
0.19 X 1
0.19 X 1
1-
1
_ I 0*0525 1
0.0970 1
0*0346 1-
0.08R1 1
Q. Oil 21 1
no"
1 0.36 * 1
0.78 X I
0.48 X 1
0.66 X 1
0.77 * 1
l-
I 0*1Z56__1_
J*3240 1_
0*2221 J_
-0.3134 1_
0.3652—1
1
in
1 0.96 * 1
1.77 i I
1.36 X 1
1.72 X 1
1.64 X 1
1 41*4620 1
0.8440 1
Q*i>434 1
O.ttlbO 1
0*2232 1
1
112~
1 0.98 t 1
1.10 X |
1.29 X 1
1.32 X 1
0.84 X 1
1
1 0.4162 i.
0*5236 I
0*6164 1 0.6208—1.
0.3253—1
1
113
1 0.62 % 1
0.39 X |
0.54 * 1
0.54 X 1
0.33 X 1
I.
1 0*3005—1.
11*11142 1
0*2531 1
0.2544—1.
0.1526—1
1
"l U
1 0.72 t 1
0.51 % 1
0.62 * 1
0.65 X 1
0.42 X 1
1-
1 0*3461—1.
0*2452 1
0*2365—1
0.3026—1.
0*1264 1
1
"lib"
1 0.17 J. 1
0.20 I 1
0.16 % 1
0.15 X 1
0.28 X 1
l_
J o*oai6—1.
-0*0251 1
0*024Q 1
. O.0Z2B— JL
0*1323—1
|
116
1 0.53 31 1
0.83 X 1
0.46 X 1
0.53 X 1
0.94 X 1
I
1 U. 2540 1
0.397 7 1
0.2171 1
0.2500 I
0.4461 1
1
117
1 1.72 * 1
2.09 1 I
1.03 X 1
1.51 X 1
1.93 X 1
J.
1
1 0. B33JB 1
0.99 7 1 1
0.4907 1
0.7176 1
0*2122_ 1
lii"
1 2.89 * 1
0.93 * 1
1.68 X 1
1.21 X 1
0.80 X 1
|
1 1.33BS—1
_0* 445.4 1_.
_ 0*11000 i
0.5166 1
0.3263—1
1
119
1 1.36 * 1
0.91 * 1
1.24 X 1
1.06 X 1
0.81 X 1
.1.
I 0.659.7 I.
0*4362—1_.
0*5323—J
0.5023—1.
0*3326 1
1
120
1 1.22 « 1
0.92 * 1
1.13 X I
1.06 X I
0.86 X 1
1
1 _fl.58B9 _i
_0.<>322—1
0*5612—J
-0.5020 1
... 0.4Q21—1
1
121
1 0.30 * 1
0.30 * 1
0.28 X 1
0.31 X 1
0.28 X 1
I
. . 1 0.1454_ L.
0*1423 1__
0*1352—J
__ 0.142A I.
0.1325 _1
1
122
1 0.68 % 1
0.68 X I
0.80 X 1
0.73 t 1
0.74 X I
J
..... 1 0. 32(12 1
... 0*3233 1
0*3814 1
_ _0.3466 1.
Q.3515—1
1
123
1 0.50 I 1
0.42 C 1
0.43 X 1
0.46 X 1
0.34 X 1
1 .
.... 1 0.2422—1.
0*2013 L
0*2052—i
0.2164 L.
Q.1614—1
1
124
l 0.34 * 1
0.54 < 1
0.50 X I
0.50 X I
0.56 X 1
.1
1 0.1666. -1-
0.2603—1__
0*2360 i
0.232 fl 1.
0.2652—1
1
125
1 0.55 * 1
0.93 1 I
0.64 X 1
0.80 X 1
1.04 X 1
1
- 1 0.2656—L
Q*ijiJ I
0*3063—1
0.3B0Z L.
0.4225—1
1
126
1 3.66 * 1
3.89 % 1
3.77 X 1
3.85 X 1
4.03 X 1
1
... 1 1. J6D2 1
... 1*0603- 1__
1*2263—1
1.0282—1.
1.2052—1
-------�
AGPM PUN -YFAR 1975- FOR GREENVILLE CCUNTY, SOUTH CAROLINA 10/21/76
SOljRCF CHNTRIBUT 1jOJ__
J).£206_l H.2243—1 0.6Q25—1
1 134
1. 19 *
1.16 «
1.22 X 1 1.20 X 1 1.14 X 1
.1 .
0.5XZI—
0.554Z-
0.5.802—J B.52Q4—1 Q.5325 i
1 135
0.60 %
0.57 *
0.59 X I 0.5a X 1 0.55 X 1
1
0.2378—
0.2214
11.2302 i _0.2 Jl»0 _L _ Q.2616 _1
1 136
1.24 *
1.12 <
1.21 X | 1.17 X 1 1.10 X 1
J __ _.
0.5223
fl.5J£.2_
0.5254 l___ 0.5543 1 11.5135 1
1 137
1.45 %
1.27 t
1.42 X 1 1 .37 X 1 1 .23 X 1
1...
0.2033
Q.tl)62
il.£23£!__l 0.6492 1 0.51122—1
1 13H
0.63 %
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0.57 X I 0.51 X 1 0.38 X 1
1... __
Q.3032
11.2063—
JQ.22Q2 1 0.2435—1 0.1226—1
1 139
0.14 %
0.12 *
0.15 X I 0.14 X 1 0.10 X I
1 _
0. 06B5
O.Q 562—
l).020B 1 0.0663 _1 il.0426 _1
1 140
0.47 X
0.45 X
0.51 X I 0.47 X I 0.46 X i
I
1K226U—
Q.214U—
0.2450 1 11.2252 _1 _fl.2162 1
1 141
0.61 Z
O.b T I
0.69 X I 0.79 i 1 0.98 X 1
1 . .
0.2255
0.4152_
£.3303 J 0.37513 1 0.4642—1
1 142
0. 18 X
0.24 %
0.20 X I 0.22 i 1 0.28 X 1
1
-0.0H65
Q.1142
11.11242 I 0.1026 1 3.1341) J
1 143
1.44 *
1.51 *
1.43 t I 1.48 X 1 1.48 X 1
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0.2215—1
11.6810—1 0.2J5ti 1 Q.2016 1
1 144
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3. 15 X 1 3.20 X 1 3.26 X I
1.4629-
1,.541J4_.
1.4205—1 L.5222 1 1.5412—1
1 145
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0.54 X
0.CO X 1 0.57 X 1 0.53 X 1
1 .
0.2965
ll.2611J_l
0.2B50 i_ 0.2232 1 Q.2522 _i
1 14b
0. 52 *
0.42 X
0.51 X I 0.49 x 1 0.44 X 1
1
0.2505—1
0.2Q23
0.2413—L fl.,2320—1 Q.2Q60—i
1 14/
o. in t
0.14 i
0. 19 X I 0.16 X 1 0.17 X 1
1 .
.0.0(166 L
0.0663
0.0914—1 0.0265—1 Q.QI2I—i
-------�
ACRF BUN -YEAR 117 5- FOP GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCF CONTRIBUTIONS TO FIVF MAXIKUP RECEPTORS
ANMIAl PARTICULATES
PICSOGRAKS PER CUBIC METER
SOURCF 1
RECEPTOR
1 RECI PTOR
1
RECEPTOR 1
RECEPTOR
1
RECEPTOR I
J_
3 _ _
1 lo
1
._ B_ 1
a_
1
11 1
BACK- 1
59.97 *
1 60.66 %
1
60.88 X 1
61.01 %
i
61.30 % |
. £RCU«J), J
.23* _ _
.1 29.
1
29*_ i
29.
I
29. 1
TOTAL 1
100.0 *
1 100.0 %
1
100.0 X 1
100.0 X
1
100.0 X 1
i_
__.4B,366l_
-1 iJ-tlJLIS-
-1_
._4I.tfi.362 1 42^5266-.
-------�
APPENDIX D
1980 ANALYSIS COMPUTER PRINTOUTS
-------�
SOURCE DATA
AQOM RUN -YEAR 1980- FflR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/16
1
1
ANNUAL
SOURCE
STACK
OATA
1
1 SOURCE
1
SCURCE
LOCATICN
1 SOURCE AREA
1
EMISSION RATE
1
1
1 NUMBER
SOURCE
10.
1
(KILOMETERS)
1
SQUARE
1
1TONS/DAY)
1 HT DIAM
VEL
TEMP I
1 HORIZONTAL 1 VERTICAL
1 Kl LflMFTFRS
1
SO 2
PART
1 (F T 1 (FT1
IFPSI (CEn.FII
t 1
1200
3 1
1
368.8
1
3849.0
1
0.0
1
0.0
0.071
I 25.0 1.6
90.0
225. I
1 2
1200
7 I
1
366.4
1
3848.6
1
0.0
I
0.0
0.089
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0.0
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I_2_
1
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1
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1
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1
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\
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\
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1
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8 1
1
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|
3862.7
1
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1 6
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8,2
1
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1
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1
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0.003
1 ?l.O 2.?
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8 3
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1
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1
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»
0.005
0.033
1 40.0 2.3
17.4
378. 1
1 e
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S I
1
36S.7
1
386C.8
1
0.0
1
0.3 23
0.033
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1
369.7
1
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9 3
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I
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1
0.0
»
0.627
0.063
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48.4
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1 11
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13 I
1
381.3
1
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0.0
1
0. 030
0.050
1 50.0 3.5
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1 12
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I
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1
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i
3854.6
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0.0
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0.033
0.008
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1 14
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15 1
1
37C.7
1
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0.0
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L.—15...
- _12M_
\h \
1
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_ J 3B42*tt_
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0.0
1
0.003
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17 1
1
363.8
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1 17
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L ...18,,
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1
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\
3866.3
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0.0
1
0.016
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1 115.0 4.5
30.0
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1 19
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20 2
1
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1
3866.3
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1
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21 I
1
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23
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25
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28
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31
32
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35
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46
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49
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52
53
37
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23
40
41
4 2
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.1200,
22
22
.23.
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1200
-1200-
1200
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23
24
.24.
1200
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24
24
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382.6
362.6
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1200
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25
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389.T
363.0
_3fl3*0_
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26 1
301.3
381.3
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26
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26
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364. 8
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384.8
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384.8
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3864.6
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3869.3
3645.6
_3B45*6_
3645.6
3845.6
_3fl54*2_
3854.2
3854.2
_3354*2_
3854.2
3854.2
_3U54*2_
3854.2
3865.3
_3fl65*2_
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3665.3
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3865.3
3856.4
_3S56*4_
0.0
0.0
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0.123
0.071
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0.0
0.0
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o.o
_Q*0_
0.008
0.058
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0.011
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50.0
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4.0
3.5
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0.071
0.101
-0*220.
0.005
0.003
-0*003-
0.0
0.0
-0*0-
0.0
0.0
_o*o_
0.200
0.200
-Q^Q26_
0.005
0.008
-0*014.
100.0
45.0
S5*0_
0.0
0.0
_0*0_
0.036
0.036
_0*Q26_
0.014
0.014
-0*
0.003
0.003
.0*002-
45.0
45.0
-61*0-
4.0
1.5
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30.0
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1.5
2.0
4.0
7.8
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10.0
10.0
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500.
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61.0
61.0
50.0
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0.0
0.0
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0.0
0.003
0.008
0.008
-0*002-
0.022
0.003
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37. C
4.0
4.0
1.8"
1.8
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I
I
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43.4
43.4
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450.
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0.0
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30
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3.7
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1.6
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10.2 310. |
10.2 310. I
_2*6 6tL5*_ I
2.6
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0.090
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0.003
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I 125.0 8.0 30.0
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I
I
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0.0
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3.1
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2.1
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80.
-------�
1 54 1200
39 1
.1 215*2 1_
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o
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0.088
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J £&_.
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0160
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0. 0
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NFW SOURCE 5
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1 101
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1 104
TRACT
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TRACT
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TRACT
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0.0
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1 10.0
0.0
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0.
1 108
¦TRACT
7. 00
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1 . 60 1
0.0
0.074
J 10.0 0.0
0.0
0.
1 109
TRACT
8.00
369.6 1
3857.0 |
0.80 I
0.0
0.059
1 10.0
0.0
0.0
0.
1 110
TRACT
9. CO
371.1 1
3856.3 I
0.90 1
0.0
0.050
1 10.0
0.0
0.0
0.
1 111
—T1ACI 10.00
212mQ~ 1 _
3B5C..3 1_
1.60 1
_ 0.0
0.103
1 10.0
0.0
0.0
0.
1 112
TRACT
11.00
373.8 1
3860.1 I
6.30 I
0.0
0.306
1 10.0
0.0
0.0
0.
I 113
TRACT
12.00
374.8 I
385H.4 I
6.00 |
0.0
0. 596
1 10.0
0.0
0.0
0.
1 114
xatci.
13»QQ_
. . .375.4... 1..
1_
..... 4.6Q___L
0.0
. 0.375 1_.10.0_
.Q^Q
0.0
0.
-------�
I 115 TRACT 14.00 I 374.0 I 3853.6 I 4.70 | 0.0 0.203 I 10.0 0.0 0.0 0. I
I 116 TRACT 15.00 I 372.8 I 3853.0 I 6.20 t 0.0 0.307 I 10.0 0.0 0.0 0. I
1__11J IEACI_1£*£0 I 33.5*5 1 3563^5 1 1*20 I 0*0 0*128 i 10.0..C.O fl*fl 0*_ I
I 118 TRACT 17.00 I 376.3 | 3362.0 I 5.BO I 0.0 0.255 I 10.0 0.0 0.0 0. I
I 119 TRACT 18.CI I 371.1 | 3659.7 I 17.20 I 0.0 0.722 I 10.0 0.0 0.0 0. |
J—L2Q IHACl_la*02 1 316*6 i 3556*4 ,1 li.oo I o.o Q*312 J 1Q*Q 0*0 0*0 a*_ I
I 121 TRACT 19.C0 I 376.8 I 3853.S I 14.80 I 0.0 0.510 I 10.0 0.0 0.0 0. I
I 122 TRACT 20.00 I 372.5 I 3e46.9 1 20.90 I 0.0 0.761 I 10.0 0.0 0.0 0. I
1 123 I£4CI_2i*01 J ifcS*Q 1 3856,1 J 4*60 J 0*0 0*210 I lfl.Q. SMi 0*0 0*_l
I 124 TRACT 21.02 I 369.2 I 3854.0 I 8.80 I 0.0 0.516 I 10.0 0.0 0.0 0. |
I 125 TRACT 21.03 1 371.1 | 3852.2 | 7.90 1 0.0 0.304 I 10.0 0.0 0.0 0. I
1 126 IBACI_22*Qfl__ I 361*8 1 3858.6 I B.20 L Q*Q 0*146 I--1Q*Q 0*0 Q*fl 0*_l
I 127 TRACT 23.00 1 37C.6 I 3861.2 I 16.00 I 0.0 0.692 I 10.0 0.0 0.0 0. 1
I 128 TRACT 24.00 I 3B3.4 | 3864.2 I 226.30 1 0.0 4.596 1 10.0 C.O 0.0 0. I
1 123 IEAC1_25»Q1 1 105*1 1 3fi6S*& L 12*2Q J 2*0 11*1 i8 J 10.0 Q*Q 0*0 Q*_l
I 130 TRACT 25.02 I 381.6 I 3867.0 I 5.00 I 0.0 0.320 I 10.0 0.0 0.0 0. \
I 131 THACT 25.03 I 36t.5 t 2864.0 1 25.50 1 0.0 0.358 1 10.0 0.0 0.0 0. !
J 112 IBACI_26*00 1 3fll*B I 3B65*9 1 81.60 I 0.0 U14J J LO*Q—Q*Q Q*2 Q*_l
I 133 TRACT 27.00 I 374.7 I 3866.9 I 44.30 I 0; 0 0.126 | 10.0 0.0 0.0 0. I
1 134 TRACT 28.00 I 385.0 I 3854.6 I 100.50 I 0.0 1.986 I 10.0 C.O 0.0 0. I
J 115 lEAtX_22*aa 1 32S*1 1 3fl5Q*l J 44.30 I 0*0 1*313 J 10.0 0*0 0*Q 0*_l
I 136 TRACT 30.00 I 385.3 I 3845.7 | 133.00 1 0.0 2.279 I 10.0 0.0 0.0 0. I
I 137 TRACT 31.00 I 387.7 I 3836.1 I 104.20 I 0.0 1.337 t 10.0 0.0 0.0 0. I
J LIB I6Afcl_12*0P._ J 113*1 I 3827.4 I 223.80 1 0*0 2*513 J 10*0 0*0 0*0 0*_l
1 139 TRACT 33.00 I 372.0 I 384C.3 I 115.00 I 0.0 1.754 t 10.0 0.0 0.0 0. I
1 140 TRACT 34.00 I 374.3 | 3845.8 | 19.CO 1 0.0 0.391 I 10.0 0.0 0.0 0. I
J—141 lBSCX_35*0a J 36B*2 1 3flS2*2 1_ 16*20 1 0*0 fl*151 1—10*9 0*0 0*0 2*_l
I 142 TRACT 36.00 I 366.9 | 3852.9 I 21.90 I 0.0 0.425 1 10.0 0.0 0.0 0. I
I 143 TRACT 31.CO I 365.2 I 3862.9 | 49.30 I 0.0 1.101 I 10.0 0.0 C.C 0. I
J 144 TRACI_1B»0Q I 3&S*3 J 3fl65*3 I 29.20 I o.o 0*312 J 10*0—0*0 0*0 £l*_l
1 145 TRACT 39.00 I 366.6 I 3873.2 | 118.80 ! 0.0 2.397 I 10.0 0.0 0.0 0. I
I 146 TRACT 40.00 I 37C.2 I 3666.2 I 260.70 I 0.0 5.411 I 10.0 0.0 0.0 0. I
J 142 IBJLI_41*QQ 1 153*1 1 3886.7 I 210.30 J Q*Q 2*1151 J 10*0...0.0 0*0 Q*_ I
I 148 TRACT 232.0 I 392.4 I 3et4.8 I 62.10 I 0.0 1.018 I 10.0 0.0 0.0 0. I
I 149 TRACT 233.0 I 385.3 I 3867.4 I 7.90 I 0.0 0.184 I 10.0 C.C 0.0 0. I
J 150 0*153 L fi*Q 1 fl*0 J SUA L 0*0 2*0 1 QjQ 0*0 0*0 0*_1
] 151 0.304 I C.O I 0.0 I 0.0 I 0.0 0.0 | 0.0 0.0 0.0 0. I
I 152 0.087 I C.O | C.O I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
J 153 0*11 B i 0*0 1 0*0 J 0*0 J 0*0 0*0 1 Q*Q_0*0 0*0 0*_l
I 154 0.149 | C.O I 0.0 I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
I 155 0.100 | C.O | 0.0 I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. |
1—156 0*025 I £*0 L 0*0 I Q*Q i 0*0 0*5 J 0*0—0*0 0*0 Q*_l
I 157 0.059 I 0.0 I C.O | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. |
I 158 0.050 | C.O | C.O j 0.0 I 0.0 0.0 I 0.0 C.O C.O 0. I
J—152 0*103 I 0*0 I £*0 J 0*0 I 0*0 Q*Q J 0*0 0*0 0*0 Q*_l
I 160 0.306 I C.O | 0.0 I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
I 161 0.596 I C.O | C.O I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 C. I
J 162 0*375-.: I £*Q i 0*0 J 0*0 J 0*0 Q*fl I Q*i!_fl*Q 0*0 0*_l
I 163 0.203 | C.O I C.O I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
I 164 C.307 I C.O I C.O I 0.0 I 0.0 0.0 I 0.0 0.0 O.C 0. 1
J—165 0*128 I £*0 I £*o i Q*Q 1 0*0 0*0 J 0*0—0*0 0*0 fl*_l
I 166 0.255 I C.O I 0.0 | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. |
I 167 0.722 I C.O I C.O I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
J—Ufi 0*312 J 0*0 i 0*0 J 0*0 1 0*0 0*0 J 0*0—0*0 0*0 &*_l
I 169 0.510 | C.O | 0.0 | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
I 17C 0.781 | C.O | C.O I O.C I 0.0 0.0 I 0.0 0.0 0.0 0. I
J 121 0.210 J £*Q 1 0*0 L 0.0 I o.o 0*0 J 0*0 0*0 0*0 0*_l
I 172 0.516 1 C.O I C.O | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
I 173 0.304 I C.O I C.O I 0.0 I 0.0 0.0 I 0.0 C.C 0.0 0. I
J 124 0*146 I 0*0 1 0*0 1 0*0 i 0*0 0*0 J 0*0—0*0 0*0 A*_l
I 175 0.692 I C.O I 0.0 | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0. I
-------�
I 176 4.596 I C.O I C.O I O.O I 0.0 0.0 | 0.0 0.0 0.0 0.
J 111— Q+lSii J £mG J QaQ 1 Q-tfl 1 QiQ IUQ J o.o o.o o.n Q^_
I 178 0.320 I C.O I C.O I 0.0 I 0.0 0.0 | 0.0 0.0 0.0 0.
I 17S 0.358 I C.O I C.O | 0.0 I 0.0 0.0 I 0.0 0.0 O.C 0.
J IBS L UQ I C«.2 1 1 2*_2 !UQ 1 2..2 Q..Q QA_
I 181 0.126 I 0.0 I 0.0 | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
I 102 l.set I C.O I C.O I 0.0 | 0.0 0.0 I 0.0 C.C C.C 0.
J 1B3 1^312 J E..Q J i 2*2 L 0-.D J Q*Q 2*fl Q^Q o»_
0 I 184 2.279 I C.O I C.O | 0.0 I 0.0 0.0 | 0.0 0.0 0.0 0.
1 I 185 1.337 I C.O I C.O | O.C I 0.0 0.0 I 0.0 0.0 0.0 0.
J 154 2.iS2a 1 £»Q I r__C«Q 1 cue J Q^Q Q*C I o.o O.O Om.Q Q*_
I 187 1.754 I 0.0 I 0.0 I 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
I iee o.3<3i l c.o l c.o | o.o | o.o o.o | o.c c.c o.o o.
J IBS fi.»15.3 I 1 QxQ J SUA 1 0*2 (UQ J 2 ..2 2*2 SUQ Q«._
I 190 0.425 I C.O I 0.0 | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
I 191 1.101 I C.O I C.O I 0.0 I 0.0 0.0 I 0.0 0.0 O.C 0.
1 122 0..21Z 1 Q*Q 1 Q*£ L 0.0 I o.o Q«.Q I 0.0 £UQ Q*_
I 193 2.397 I C.O I 0.0 | 0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
I 194 5.411 | C.O I C.O | 0.0 | 0.0 0.0 I 0.0 0.0 0.0 0.
J—125 2-.C53 I £«fl L 2*0 J Q»fl J 0*2 £Ufl J 0.0 0-0 2*2 Q*_
I 196 1.018 I C.O I 0.0 | 0.0 | 0.0 0.0 I 0.0 0.0 0.0 0.
1—131 1 S^D I £+Q L Q*B 1 SUS3 Q-.U I 0.0 0.0 0.0 Q^_
-------�
ACOH RUN -YEAR 1980- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
HETEORCLOGICAL INPUT DATA FOR ANNUAL
MIXING DEPTH = 950. METERS
AMBIENT TEMPERATURE = 62. DEGREES,FAHRENHEIT
AMBIEN1 PRESSURE « 1000. MILLIBARS
STABILITY CLASS 1
MINDSPEED CLASS
C1RECTIQN
1
2
3
4
5
6
N
.00023
.00034
.0
.0
.0
.0
KNE
.00010
.00030
.0
.0
.0
.0
KE
.00009
.00068
.0
.0
.0
.0
ENF.
.00024
.00053
.0
.0
.0
.0
E
.00092
.00095
.0
.0
.0
.0
ESE
.00023
.00030
.0
.0
.0
.0
SE
.00015
.00042
.0
.0
.0
.0
SSE
.00011
.00034
-0
.0
.0
.0
S
.00016
.00053
.0
.0
.0
.0
SSU
.00015
.00034
.0
.0
.0
.0
SH
.00027
.00087
.0
.0
.0
.0
KSW
.00024
.00046
.0
.0
.0
.0
M
.00021
*00065
.0
.0
.0
.0
kNH
.00024
.00042
.0
.0
.0
.0
NU
.00024
.00053
.0
• o
.0
.0
NNW
.00015
•00C3Q
.0
.0
.0
.0
-------�
AQDM RUN -YEAR 1980- FOR GREENVILLE COUNTY, SOUTH CAROLINA
10/21/76
METEOROLOGICAL INPUT OATA FOR ANNUAL
STABILITY CLASS 2
WINDSPEED CLASS
DIRECTION
1
2
3
4
5
6
N
• 00208
.00312
.00114
.0
.0
.0
KNE
.00151
.00255
.00129
.0
.0
.0
NE
.00164
.00399
.00167
.0
.0
.0
ENE
.00162
.00357
.00160
.0
.0
.0
E
.00207
•0C396
.00126
.0
.0
.0
ESE
.00116
.00270
.00114
.0
.0
.0
SE
.00116
.00148
.00038
.0
.0
.0
SSE
.00119
.00129
.00053
.0
.0
.0
S
.00161
.00202
.00103
.0
.0
.0
SSW
.00104
.00270
.00141
.0
.0
.0
SW
.00126
.00319
.00221
.0
.0
.0
MSH
.00125
.00300
.00240
.0
.0
.0
k
.00139
.00240
.00114
.0
.0
.0
VNW
.00108
-00145
.00087
.0
.0
.0
KW
.00168
.00190
.00084
.0
.0
.0
NNH
.00144
.00164
.00068
.0
.0
.0
-------�
ACOM RUN -YEAR 1980- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
HETFORCLOGICAL INPUT OATA FOR ANNUAL
MY CLASS J
HINOSPEEO
CLASS
1 DIRECTION
1
2
3
4
5
(
N
.00074
.00357
.00319
.00068
.00011
.0
NNE
.00082
.00365
.00373
.00080
.0
.0
NE
.00088
.00437
.00840
.00118
.0
.0
ENE
.00057
.00319
.00578
.00087
.0
.0
E
.00066
.00365
.00300
.00011
.0
.0
ESE
.00045
.00186
.00160
.00004
.0
.0
SE
.00046
.00209
.00061
.0
.0
.0
SSE
.00031
.00129
•00C84
.00004
.0
.0
S
.00059
.00266
.00266
.0
.0
.0
ssw
.00063
.00262
.00407
.00057
.0
.0
su ¦
.00068
.00316
.00734
.00183
.00019
.0
HSH
. .00035
.00388
.00898
.00164
.00011
.0
H
.00066
.00369
.00441
.00076
.00004
.0
WNM
.00061
.00198
.00186
.00027
.0
.0
KM
.00047
.00240
.00186
.00019
.0
.0
NNW
.00040
.00164
.00278
.00065
.0
.0
-------�
ACDM RUN -YEAR 1980- FOR GREENVILLE COUNTY, SOUTH CAROLINA
10/21/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 4
WINOSPEEO CLASS
DIRECTION
1
2
3
4
5
6
N
.00287
.00753
.00647
.00898
.00133
.00004
NNE
.00288
.01053
.01343
.C0719
.00057
.00004
NE
.00388
.01757
.03183
.01970
.00114
.00038
ENE
.00207
.0C898
.01221
.00628
.00019
.0
E
.00320
.00624
.00582
.00118
.00004
.0
ESE
.00167
.00407
.00179
.00030
.0
.0
SE
.0015'!
.00304
.00095
.00011
.0
.0
SSE
.00177
.00297'
.00164
.00049
.0
.0
S
.00244
.00692
.00589
.00137
.00049
.00011
SSM
.00180
.00555
.00955
.00445
.00049
.00019
sw
.00233
.00780
.02035
.01829
.C0259
.00027
hSW
.00227
.00612
.01616
.01886
.00243
•0C091
w
.00166
.00517
.00658
.00639
.00091
.00038
hNW
.00150
.00316
.00167
.00209
.00061
.00004
NW
.00149
.00285
.00243
.00190
.00038
.00004
NNW
.00131
.00194
.00255
.00666
.00152
.00011
-------�
ACDM RUN -YEAR 1980- FOR GREENVILLE COUNTY,
METEOROLOGICAL INPUT OAT * FOR ANNUAL
SOUTH CAROLINA 10/21/76
STABILITY CLASS 5
HINDSPEED CLASS
DIRECTION
1
2
3
4
5
6
K
.01603
.02769
.00715
.0
.0
.0
KNE
.01028
.02683
.00719
.0
.0
.0
NE
.00810
.02362
.00635
.0
.0
.0
ENE
.00383
.00829
.00183
.0
.0
.0
E
.00415
.00677
.00027
.0
.0
.0
ESE
.003 9?
.00388
.00004
.0
.0
.0
SE
.00451
.00396
.0
.0
.0
.0
SSE
.00344
.00399
.00023
.0
.0
.0
S
.00694
.01046
.00099
.0
.0
.0
SSW
.00570
.01053
.00179
.0
.0
.0
sw
.00765
.01867
.00753
.0
.0
.0
wsw
.00764
.01852
.01015
.0
.0
.0
u
.00746
.01746
.00574
.0
.0
.0
hNW
.00577
.00905
.00148
.0
.0
.0
^W
.00776
.01034
.00164
.0
.0
.0
NNW
.00953
.01335
.00434
.0
.0
.0
-------�
A COM RUN -YEAR 1980- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
INPUT REGRESSION PARAMETERS ARE:
EClU!mi__ Jf=JM£BILEEI SLOPE
PARTICULATES 0.0 1.0000
-------�
AQDM HUN -VEAR 1980- FOR GRfENVILLE COUNT*, SOUTH CAROLINA 10/21/76
J S£CER.TQB-J£MC£UXBAUCA-CAIA
I RECEPTOR | RECEPTOR LCCMION I EXPECTEO ARITHMETIC MEAN
L
I I (KILOMETERS) I (MICRCGRAMS/CU. METER!
1 1 BOBii *£RI L SH2 £4BIl£lLAiEi
I I I I I
I 1 I 364.0 I 3844.0 I 0. I 42.
I 2 I 364.0 I 3846.0 | 0. | 42.
J 3 J 16i.Q L_3f4fl»Q I Q* L_ 42*
I 4 | 364.0 t 3650.0 1 0. I 42.
I 5 | 364.0 I 3€52.0 | 0. | 42.
J (i 1 lii4-.D-_l_a£SA«Q I Q* I 41.
I 7 I 364.0 I 3656.0 | 0. I 41.
1 8 1 364.0 I 3(58.0 | 0. I 40.
J 9 I 344*1! I 3161M1 I Q« I 40.
f 10 | 364.0 I 3662.0 I O. I 39.
I 11 I 364.0 | 3(64.0 1 0. I 39.
J 12 1 I—3£i£*fl I Qj L_ 3fl*
V I 13 1 364.0 I 3£6a.O I 0. I 37.
j_» I 14 I 364.0 I 3(70.0 | 0. | 37.
1 15 i 364*0 I 3£Ji..O I Qi L 31*
I 16 | 366.0 | 3644.0 | 0. I 43.
I 17 I 366.0 | 3646.0 | 0. I 44.
J IB i 3.66*fl I 3f4fi«Jl 1 Q* 1 44.
I 19 I 366.0 I 3E50.0 I 0. | 44.
I 20 | 366.C I 3(52.0 I 0. I 44.
J 21 i 366*Q—1 3£54»fl 1 Q, J 44.
I 22 I 366.0 I 3656.0 I 0. I 42.
I 23 | 366.0 I 2658.0 I 0. I 41.
J 24 I 366*fl_J i a* I 41.
I 25 | 366.0 I 3662.0 I 0. I 40.
I 26 | 366.0 I 3664.0 I a. I 40.
i 21 L 366* fl I 3 £66*1) I Q*. L_ 32.
( 28 ( 366.0 I 3C6B.0 1 0. I 38.
I 29 | 366.0 t 3(70.0 I 0. I 36.
1 3Q 1 3&6*Q—J 3£J2*Q 1 0. I 3B.
I 31 I 368.0 | 3644.0 I 0. I 45.
I 32 I 368.0 I 3646.0 I 0. I 46.
J 33 1 3Sfl*l) I 3 £40^0 1 0* 1 61*
I 34 | 368.0 I 3650.0 I 0. I 47.
I 35 | 368.C I 3(52.0 I 0. I 47.
1 36 1 I 3£5i*Q L Q* I 4fi.
I 37 | 368.0 I 3656.0 I 0. I 46.
I 38 | 368.0 I 3(58.0 I 0. I 45.
i 33 1 36fl*fl I 3fi6Q*fl 1 0* I 42.
1 4fl 1 3£S*Q I 3££2*JB I Q* I 4i.
-------�
ACOP RON -YEAR 1980-
FOR GR E6NVI LLP COUNTY, SOUTH CAROLINA
10/21/76
I
1
I I I
I RECEPTOR I RECEFTOR LCCmON I EXPECTED ARITHMETIC MEAN
1 MiilBEE J 1
I I (KILOMETERS) I (MICROGRAMS/CU. METER)
J J HHB1Z ifBI i .S£I2 mUlULAIiS—
I I I I I
I 41 I 368.0 I 3664.0 I 0. | 11.
1 42 1 3fi8„Q_l _3£££>.fi J Q. J 4£.
I 43 I 368.0 I 3 668.0 I 0. | 39.
1 44 I 368.0 t 3670.0 I 0. | 39.
1 45 1 3££.fl__J 3£22.Q J Q. J ISm
I 46 I 370.0 | 3644.0 I 0. I 45.
| 47 I 370.0 I 3 £46.0 I 0. I 46.
J 40 1 322.fi L_3£4fl..i} 1 Q. I 41.
I 49 I 370.0 I 3850.0 I 0. | 49.
I 50 I 370.0 I 3652.0 I 0. | 49.
1 51 1 1ZQ.Q I 3fi54.fi i ; fi. 1 51*
I 52 | 370.0 I 3 f56.0 I 0. | 52.
y I 53 I 370.0 I 3658.0 I 0. I 49.
M J 14 1 .222x0 J 3f£fi.fi l Q. 1 fifi.
K> | 55 I 370.0 I 3862.0 I 0. | 44.
I 56 | 370.0 | 3664.0 I 0. | 41.
1 52 1 32fl.fl_l_3££4.fi 1 Q. 1 4Q.
I 58 I 370.0 | 3668.0 I 0. I 40.
I 59 I 370.0 | 3670.0 I 0. | 39.
1 6Q i 32fl.Q__J 3f22.fi 1 0. J 3&.
I 61 I 372.0 I 3844.0 I 0. I 46.
I 62 I 372.0 I 3E46.0 I 0. | 46.
J !il i 3J2.fi I 3£4fl.O i Q. 1 4fl.
I 64 I 372.0 I 3650.0 I 0. | 49.
I 65 I 372.0 I 3652.0 I 0. | 51.
J &6 1 31Z.fi J 3 £54.0 i Q. 1 51.
I 67 I 372.0 I 3656.0 | 0. | 59.
I 68 I 372.0 I 3658.0 I 0. | 54.
1 63 1 3I2.Q I 3£4CM1 1 CU 1 41.
I 70 I 372.0 I 3662.0 I 0. | 45.
I 71 I 372.0 I 3664.0 I 0. I 42.
1 22 I 3Z2.fi I 3£.£&.fi 1 fi. 1 4JL.
I 73 I 372.0 I 3668.0 I 0. I 40.
I 74 I 372.0 I 3670.0 I 0. | 40.
J 25 1 322.fi i 3£ LM) 1 Q. L 33.
I 76 I 374.0 I 3e44.0 I 0. | 46.
I 77 t 374.0 I 3646.0 ( 0. | 46.
1 13 1 324.Q L_3£4fl.fl 1 Q. L 42.
I 79 I 374.0 I 3650.0 I 0. | 48.
I 324.fi I 3ii2.fi I fl. L 4J.
-------�
AODK RUN -YEAR 1980- FOR GREENVILL E CCUKTY, SOUTH CAROLINA 10/21/76
1
1
RECEPTOR CCNCFNTRATION
DATA
1
1 RECEPTOR
RECEPTOR
1
LOCATION 1
EXPECTED
ARITHMETIC MEAN |
1 NUMBER _
1
(KILGNETERS1 1
IM1CR0GRAMS/CU. METER) 1
1
HflR T 7
VPRT 1
S02
PARTICULATES I
1
1 81
1 1
374-0 1 3 854-0 1
n.
I 1
1 51. 1
1 82
374.0
1 3656.0 I
0.
1 SI. (
1 83
374.0
1 3C58.0 1
0.
1 53. 1
1 84
__ 3J4..C
1 3E60.0 _1_ .....
0.
1 49. 1
1 8»
374.0
1 3662.0 I
0.
1 45. I
I 86
374.0
1 3 E£4.0 1
0.
1 43. 1
1 87
3 74 .0
1 3£66.0 1 .
0.
1 41. 1
1 88
374.0
1 3E6B.0 I
0.
1 41. 1
) 89
374.0
1 3E70.0 1
0.
1 40. 1
1 <10
374.0
1 3872.0 1
0.
1 40. 1
1 91
376.0
I 3844.0 1
0.
1 44. I
1 92
376.0
1 3646.0 1
0.
1 45. I
1 93
376.0
1 3848.0 1
0.
1 45. 1
1 94
376.0
t 3850.0 1
0.
1 47. I
1 95
376.0
1 3 f52.0 1
0.
1 48. 1
1 96
376.0 I 3 854.0 1
_ 0.
1 49. 1
t 97
376.0
I 3856.0 1
0.
} 50. 1
1 98
376.0
1 3858.0 1
0.
1 50. 1
1 99
376.0 .
1 3E60.0 1. _
r- -.0*
1 48. 1
1 100
376.0
I 3 f 62.0 I
0.
1 47. |
1 101
376.0
1 3(64.0 1
0.
f 44. I
1 10?
376.0
1 3 £66.0 1
0.
I 47. 1
1 103
376.0
1 3E68.0 1
0.
1 41. t
1 104
376.0
I 3C70.0 1
0.
1 4C. 1
1 105
376.0
1 3 £ 72.0 I
0.
1 42. 1
1 106
378.0
1 3e44.0 1
0.
1 44. i
1 107
378.0
1 3E46.0 1
0.
1 44. 1
1_ 1CU
378.0
1 3P48.0 1
0.
1 45. 1
1 109
378.0
1 3E50.0 1
0.
1 46. 1
1 110
378.C
1 3 f52.0 I
0.
1 46. 1
1 111
378.0
1 3 854.0 1
0.
1 47. 1
1 112
378.0
I 3E56.0 |
0.
1 47. 1
1 113
378.0
I 3E58.0 1
0.
t 48. 1
1 J14
378.0
1 3E60.0 1
0. _
1 47. 1
1 115
378.0
1 3e62.0 I
0.
1 45. 1
1 116
378.0
I 3E64.0 I
0.
t 44. 1
1 '17
37p.O
| 3F66.Q 1
0.
1 43. 1
1 118
378.0
1 3E68.0 |
0.
1 41. 1
1 119
378.0
1 3E70.0 I
0.
1 40. 1
i 12Q
. . . 328.0. .1.. 3C72.Q. 1 ..
Qm
-,J SI. 1
-------�
ACDM RUN —YEAR 1980- FOR C- R E ENV ILIE CCUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METFR
SOURCE
10
11
13
14
15
16
17
18
19
20
21
RECEPTOR
33
1.21 X
0x23£4_l.
8.02 X
12.61 X
2x4524 L_.
4.32 %
2.1*254 L.
0.00 %
Q*Q£Q2.
o.oo s
-HxO£122 L
0.03 X
-Qx01fl2_.
0.01 X
J2xlJ£32_
o.oc %
J2x0021
o.oi x
_Qxl3££3_
0.02 %
J)x0122__
0.00 *
.-CiD£DB l_.
0.00 X
QxllCQfl
c. oc *
12xQfiQ3__
0.00 t
____12xQQ25
0.00 *
OxQQQl
0.00 *
0xQ017 1.
O.OC *
OxQQQ4_.
O.CC X
Q.DCQA-
O.Ol *
13xQQ36_
0.00 *
1 QxQQll 1
RECEPTOR
54
0.0.5 *
__0x032$ L
0.07 X
__0xl3323
0.11 i
-_fl.fli.2fl
0.04 *
QxQ21.5
0.00 x
0x121315
0.00 %
0x0015
0.04 X
Qx0262__
0.02 X
£xl31Jfl__
0.00 %
OxDDi5-_
0.04 X
0*221£
0.02 X
11x13023__
0.00 X
0x01205
0.00 X
CxOOOS
0.00 X
OxHOQQ
0.00 X
o.oo x
OxQOOl
0.00 X
s*QQan
o.oo' x
0x01303-
0.00 X
0x2003_l
O.Dl x
0x01334—
0.00 X
OxQ13132__l
RECEPTOR
62
0.08 X
Oxl346Q_
0.10 X
Qx05fll_
0.16 X
13xl!215_
0.05 X
Qxfl3J4_
0.00 X
J3xS024_
0.00 X
.0x01324
0.07 X
Qx0435__l
0.01 X
0.13045
0.00 X
0x12024
0.02 X
0x0021
0.04 X
£x0213S__
0.00 X
ji^aazi.
o.oo %
-SL*QQU-
0.00 X
£xQflfll_
0.00 t
0x00.11_
0.00 X
OxQflflfi-
0.00 *
flxflJUJ-
0.00 X
!M2Qfl5_
0.00 X
Qx00fl5_
0.03 *
IMilSSL
0.00 X
-_a.DCJ.fl_
RECEPTOR
6.8
0.07 X
12x0355
0.08 X
0x0412
0. 12 X
-_13xQ£59_
0.04 X
._Bx022i„
0.01 x
0x0034 L.
0.01 X
„ Ox0034.
0.11 X
-_Qxl)53fi_
0.01 X
0.00 X
__12x 121325 I.
0.02 %
—JJxfllUS.
RECEPTOR I
A3 1
0.07 X I
13*11321 1
0.09 X I
Oxflififl I
0.14 X I
0xQ26fl I
0.05 X I
I 0x13263 I
0.01 X I
_JxQ035 L
0.01 X I
_OxflQ35_l
0.13 X I
_J)xS662__i
0.04 X
-DxflXefl-.
0.00 X
_£x0£12_.
0.00 X
_OxJ21312
0.00 t
_flxfl££l
o.oo X
-flxflS-CS—
0.00 X
-UxCiaji
0.00 X
-UxfiJli
0.00 X
.0x1111114 L_.
0.00 X
-UxflUUi.
0.02 X
SUQQ&5
0.00 X
-0x0016 J
0.01 x I
0x13032 L
0.00 X |
13x1312113 1
0.01 X I
0x3X166 L
0.-05 X I
0x13226 L
0.00 % I
0x1301.5 I
0.00 X I
.0x1301.5 I
0.00 X |
.flxUMi I
0.00 X I
.flxHQQfl I
0.00 X
OxflOQl I
0.00 X I
0x111112 I
0.00 X t
0x0006 I
0.00 X I
.0x13.0124) I
0.01 X I
12x131162 1
0.00 X I
0x131)23 1
-------�
ACCM RUN -YEAR 1980- FOB GREENVILLE CCUMY, SOOTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECFPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
SOURCE
22
23~
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
0.00 X
1 CUflCXL-
0.00 t
RECEPTOR
33_
0.00 X
OsJlDZb I
0.00 *
JUflCQfl
0.00 X
Q.QCQi.
0.00 X
Q.QC02-
0.00 X
RECEPTOR I
54 1.
0.00 X |
1 Q«-2QG2 1.
0.00 X I
0.00 I |
o.oo x i
0.00 X |
S>±nQQi I
RECFPTOR | RECEPTOR
ill 1 63
0.00 X I 0.00 X
Q-.02J.Ji_J
0.00 X I 0.00 X
Q-tQQ2fi I Oafl025_
0.01 X | 0.01 X
1-
0.00 X I
I_
0.00 X I
_fl-.QQ2.fl_
0.00 X
_Q^QM3_
0.00 X
-Q+Q212.
0.00 X
_Q.QCJ2_
0.00 X
-Q*.Q£J.2
0.00 X
_!UQgQ5—
0.00 X
: L
o.oo x
o.oo x |
SM)C0S__1.
0.00 X I
c^aafli J.
o.oo x i
_U«.CQ11 J.
0.00 X I
Q+QOSli 1 -
0.00 X I
C»QQQ4 i.
0.00 X I
£»QQQ4 L
0.00 X I
OaOflDJ l_
0.00 X
-J^DCQ5_
0.01 X
0.00 X
0.00 X I
o.oo x |
0.0005 I n.onns
o.oo x | o.oo x
0.00 X
Q-.Q014
0.00 X I
Q_. QQ1Q
0.00 X I
Q
0.00 X I
0.00 X |
QxQSQS 1
0.00 X |
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0.00 X
3£.
0.00 X
0.00 X
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0.00 X
0.00 X
ji+acisL.
0.00 X
JQ-.JJ.C1I_
0.00 X
-Qiflflll.
0.00 X
0.00 X I
DiQOCJ 1.
0.01 x I
0.00 % |
Q+QQQ1 1.
0.00 % |
0.00 X I
DiJ3D12 I.
0.00 X |
D-.M12 l_
0.00 X |
O+0QS3J 1.
JM2DQ5 J Q+Q0Q3
0.00 X I 0.00 X
Q-.BQQ5 J Q*.QQQ3
0.00 X I 0.00 X
C-.-Q0Q5 J BxflOCJ
0.01 X | 0.01 X
c.aM2_
0.00 X I
iKJQUX4_l
0.00 X | O.OO X
Q*QQ14 J Q+QQ12-
0.00 X I 0.00 X
0-.QQ23 J a*Qfll3_
0.00 X I
RECEPTOR
52
0.00 X I
-0.0023.. I
0.01 X I
-0,QQ35 I
0.01 X 1
0.00 X I
-IUMJJ I
0.00 X I
L
0.00 X I
JJ-UJM15—L
0.00 X I
0jlSQQ2—1
0.00 X I
JMJflli I
0.00 X I
J —I
0.00 x l
cuaasu—L
0.00 x 1
ttaJJflfiJ 1
0.00 x 1
flfla—L
0.00 x 1
£*QQQ4 L
0.00 X I
-SUQQQ4 I
0.00 X I
_C...flflfli t
0.01 X I
.S1+JW13 L
0.00 X I
-Qj.QQli> L
0.00 X I
-fl.DQlfi L
0.00 X I
I Q-.SQ2ii I
0.00 X t 0.00 X I
—D^ttO 23_1 fl^Qllia I 0.0026 I
0.00 X I 0.00 X I 0.00 X I
—Q-.CQ13—J Q+QQ12 I J3-.fiQl.fi_l
-------�
ACDH RUN -YEAR 1980- FOR GREEMI L L E CCUKTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR
1 1 21
A3
44
45
46
47
48
49
50
51
52
53
58
59
60
61
1„
I
I
62
63
0.00 X |
L-
o.oi x I
QxQQ32 L.
0.01 X I
Q..QQ32 L
0.00 X I
Q-.Q2M i-
0.00 X |
S*Q£S6 I.
o.oo x l
CUQQZ2 I.
0.00 X I
O^QCflJ 1.
0.00 9! I
Qj>QS115 I.
0.00 X |
I.
0.00 * I
Q^Q£I2 l_
0.03 X I
0.02 * I
fl^J3£S3_l_
0.01 X I
o.oi X I
Q^QB3£__L_
o.oi x |
tuasfla i_
o.oo x i
Q*QQ12 l_.
0.00 X I
_L_
0.00 X I
fl*9Q26__l_.
0.00 X I
Q+SQ2Q L_.
0.01 % I
0.03 X I
fl^uias i_.
PECFPTOR I
54 J_.
0.00 X I
O.OO X I
£J*.QQ2I 1
0.00 % I
—
0.00 % t
9*OQ133 I
0.00 X I
I
0.00 X |
3*M24 l__
0.00 % 1
0.00 % I
Q«UQ!2 1
0.00 X I
Q+SQQZ l„
0.00 X I
£*21)1)3 L
0.01 % |
fl^QQ54__i_.
O.OI X I
0*M42 1
0.00 X |
RECEPTOR
62
0.00 X
_Q_.Qfii.4_
0.03 X
0.03 X
J2+Q112-
0.00 X
QjJififlfi
0.00 X
flaflfll35__
0.00 X
__D-.flA.ia
0.00 X
2*2221
0.0 1 X
2*2232
0.00 X
0.00 %
_Q*J2£15_
0.01 X
.2*2262.
—0*2223 l_.
o.oi % I
Q+QQ1Q L.
0.02 X |
—2*21.11 l_.
0.00 X |
—2*2212—1__
0.00 % 1
2*2223 L.
0.01 X |
Q*S>Q3$__J_-
0.01 X I
0.02 X |
—D*2122 l_.
0.06 X I
—Q.«4>35£__i_.
0.00 X
-SMMU1-
0.00 X
-S}*QQ1 L
0.02 X I
0.02 X I
2*D291_
0.00 X I
__2*2223 L
0.00 X I
__2*2225_1
o.oo x I
Oaflflla L
0.00 X I
„Q*i2001 L
0.01 X I
0*2045—1
0.00 X I
__2*Q225 L
0.00 X I
0.01 X I
0*0053 I
0.02 X I
fl.aQJ.M 1
0.01 X I
2*2252 L
0.01 X I
2*13225 1
0.01 X I
__2*2Qfi3__l
0.06 X
_0*032fl_l
0.00 X I
0*0210 1
0.00 X 1
0*0012 I
0.00 X I
0*2022 1
0.01 X I
—0*0040 I
0.02 X I
0*2100 1
0.07 X I
__0*03fl3_l
-------�
AQCM RUN -YEAR I960- FOR GREENVILLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIKUP RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE
1
64
66
SI
82
RECEPTOR
_5i.
65
70
~71~
72
73
74
75
76
77
78
79
BO
83
84
0.03 X I
_Q*Q1&Q 1-
o.ca x I
_Q,Q422__1.
o.oi X |
Q..QQ&A 1—
o.o? x |
Q,Q126 L_.
0.01 X I
0,QQA6 I
0.01 X |
0_.QC6i_.-i_
0.21 * |
0,1252 L_.
0.00 X I
S,Q£Q£ I
O.OC X I
0,0005 L
0.00 X I
_£UJ)jCZ2 L.
RECEPTOR
54
0.05 %
0,0300.
0.15 *
0,0924-
0.02 X
—0,0120-
0.02 %
_-Q,Q03fl.
0.01 %
Q^QQifi.
0.01 X
Q.iQQ49.
6.89 %
4,1051.
0.00 X
Q+QQM.
0.00 X
0,0002.
RECEPTOR
til
I
I
I
-i.
0.04 X
SU£26
0-13 *
0,0222-
0.02 X
¦JMUQiu.
0.03 X
_Q,Q122-
o.oi x
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0.00 X
ji^acoi.
O.OO X I
_Q,££C3 L
0.00 X
_0,Oflll_
0.00 1
-0,0005.
0.02 X
0.02 X | 0.02 X
J £,£113 [ C.&123 L
0.03 X | 0.04 t
0,0166 1 Q*fli2.L5 L
0.01 X | 0.01 X
I
0.39 X
0,2281.
0.00 X
£,000.3-
0.00 t
o,oim.
0.00 X
Q,Q£10-
0.00 X
JMJ012.
0.00 <
.a+QQQb.
0.00 X
ji+aaz.
0.01 x i
J},££52—JL
0.02 %
_Q,Q14Q.
0.02 X
-Q-.flJ.35.
0.00 X I
_Q,£££2 i.
0.06 %
-£,0334.
0.00 X I
-Q*J)CQ2 I
0.04 X I
L
o.oo x I
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0.00 X
__£,0££4.
0.00 X
£,0Q04.
18.31 X
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0.00 1
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0.00 X
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0.01 X
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0.01 X
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0.00 X I
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0.00 X
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0.00 X
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0.00 X
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0.00 X
-D^QflQl-
0.02 X
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0.00 X
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0.00 X
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0.07 r
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0.00 X
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0.00 X
--Q^QQQl-
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RECEPTOR 1 RECEPTOR
fifl l_ A3
0.05 X |
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0.16 X |
_Q,££4fl L
0.06 X
JUS323 I
O.ia X
.0,0362.
0.02 X
-£,0£J3_
0.63 X
.. £, 3363
0.00 X
_£,£££2
0.00 X
_£,Qfl£2
o.oo X I
_£»Qfll6 i
0.00 X I
.£,0002 1
o.oo x I
0.02 X
_£,£!££_
0.34 X
C,12fl3 1
0.00 X |
,_£.Qflfl3 L
0.00 X I
Q,MQ3_1
o.oo x
.0,0020 L
0.00 X I
IM3CQ9 I
_ . . 0.00 X |
.0003 L_ £,0Q£3 L
0.01 X I
..£,00411 1_
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_£,Q£4i I—
0.03 X )
..£,0138 I
0.00 X I
O.OO X
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0.00 X I
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0.01 X
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0.00 X
._0,£££3 I £.*0002—I
0.00 X I 0.00 X I
_fl,Q0£3_J £,£002—L
0.13 X f 0.06 X |
..0,0623 X £,£234-1
0.01 X I 0.01 X I
_£,Q035 1 0,0041 1
0.00 X I 0.00 X I
¦J 0.0001 I 0.0001 I
0.00 X I 0.00 X
.1 0,0001 1 Q,QQQ1_
-------�
AQDM RUN -VEAR 1980- FOR GPEEKVILLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIEUTIONS TO FIVE MAX IHUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
1 RECEPTOR |
fECEPTOR
RECEPTOR
1
RECEPTOR |
RECEPTOR 1
_1_ L
54 ...
67
I
68 1
B3 1
1 85
1 0.00 X |
0.00 X
0.00 X
0.00 X I
0.00 X |
1 O.OClf. 1
0.001 I
0.0006 1
0.0012 1
1 86
1 0.00 * |
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0.01 *
0.01 t |
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1
1 0.0027 1
0.0073
0-0055
0.0076 1
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0.01 x I
1 B7
1 0.01 X |
0.00 *
0.00 *
0.00 X |
1 0.QQ36 1
__ Q*Q£Z3
0.0025 1
0.0029 1
1 88
1 0.01 X 1
0.00 X
0.00 X
0.00 X |
0.01 X I
1 0.0036 1
0.0013
0.002?
0.0023 1
0.0033 1
1 89
1 0.00 X |
0.00 X
0.00 *
0.00 X I
0.00 X f
1_ _ 0.0005 1
C*AQQ2 _
C.0003
0.0003 1
Qxflflfli L
0.00 X I
1 90
1 O.OC t I
0.00 X
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0.00 X |
1
1 0.0013 1
0.0024
0.0019
0.0021 1
0.0020 1
1 91
1 0.00 X |
0.03 %
0.01 %
0.02 t |
0.01 t |
1 _
1 0.0C25 1
0.0152
0.0070
Q.0105 1
0.0045 1
1 92
1 0.04 t I
0.03 *
0.04 X
0.03 X |
0.04 X I
1 _ .
J_ 0.022 7 1
0.0171
0.0216
0.0183 1
0.0218 1
1 93
1 0.03 X |
0.01 X
0.01 X
0.01 X |
0.01 X I
1
1 0.0152 1
C.0065
0.0079
0.0071 1
0.0070 1
1 94
1 0.02 X I
0.01 X
0.01 X
0.01 I |
0.01 X |
l_ 0.0151 1
O.0Q65
0.0078
0.0071 1
0.0070 1
1 95
1 0.06 X |
0.03 *
0.03 *
0.03 X |
0.03 X I
1
1 0.0392 1
0.0169
0.020?
0.0184 1
0.0182 1
1 9b
1 0.01 % |
0.01 *
0.01 *
0.01 X |
0.02 X |
J 97
1 i
1 0.01 X |
~Q*.ss$.a__
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0.01 X
SUQQ15 1
0.01 X 1
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0.02 X 1
1
1 0.SD90 1 ...
-Q+QQili-
0.0076
0.0075 1
0.0102 1
1 98
1 0.03 % |
0.02 *
0.03 X
0.03 * |
0.04 X |
J
1 99
_1 Q*Q1BB 1_
1 0.00 X I
C_.QJ.QQ
0.01 t
0.01 %
fl*QI55__l_
0.02 * I
0*0212 I
0.02 X I
1
1 0.0025 1
0.0037
0.0C64
0.0093 1
0.0096 1
1 100
1 0.00 % |
0.00 X
0.00 X
0.00 X I
0.00 X I
1
1 0.0005 1
0.0003
0.0006
0.0003 1
0.0004 |
1 101
1 0.00 * |
0.00 X
0.00 %
0.00 X 1
0.00 X I
I. 0.0005 1
._IM)QQJ
0.0006
0.0003 1
CMKJQ5—1
2.15 X |
1 102
1 0.22 X I
0.25 *
1.39 I
1.21 * 1
1
l_. 0.1359 I.,
0.1503
0.0150
0.6514 1
1.1473 1
1 103
1 0.50 X I
0.48 %
6.53 *
3.93 * I
2.86 X I
1 0.3041 1 _.
.-£*ZQ2S} .
3.8285
,, 7,1110 ,. 1
lxi2£5 L
0.36 X I
1 104
1 0.14 X 1
0.08 X
0.2 7 t
0.19 * I
1 0.0830 1
0.1573
0.1035 1
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0.98 X 1
1 105
1 0.35 « 1
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8.53 *
0.92 X I
1
—1 Q*21U„_L
5,DflQS__
2Q5 1
-------�
AQOK RUN -YEAR 1980- FOR GREENVILLE CCUMV, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTICKS TO FIVE MAX IHUM RECFPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
SOURCE
lot-
RECEPTOR
33-
0.33 * I
,a*2QZl L
I PECEPTOR I
_L 54 1.
0.24 % I
.0*1422 l
RECEPTOR
hi
2.31 *
.JL.35AL
RECEPTCR
£lB
0.86
.£*.4
5SS_
RECEPTOR
83
0.69 X
0*3fiB4_
107
108
109
110
"TIT
O.V<5 15 I 0.22 * | 1.39 J | 1.37 *
0*1126—1 0*1226 L 0*fll53__J C.7324
0.12 X I 0.21 X I 0.45 X I 0.93 X
0*0256—I Q*1222 J Q*2fi5£ I C*.4SM_
0.11 X I 0.20 X I 0.25 X I 0.45 X
0*Q4B5_J Q*_lllfl 1 Q*1434__J D.2^.37
0.08 % | 0.17 X I 0.31 X I 0.95 X
0*0462—I 0*1024—1
0.17 X I 0.24 X I 0.82 X I 5.45 X
U*11J56 I 0*1418 I 0.4B1B L 2*224 5_
0.62 X
.11*3202.
0.35 X
_fl*iBss-
0.18 %
0.24 X
.0*1255-
0.63 X
-0*3342-
114
115
0.39 * I
.0*2343 1
0.66 X I
.0*4146 L_
0.51 X I
-fl*3108__l_.
0.36 X |
.0*2319 L_.
0.58 X I
_0*3462_1.
0.65 % I
£*33113 L
1.08 X |
.0*63116 L
0.31 X 1
1.
2.04 X
.1*138.4-
1.41 X
-fi*25211_
0.14 X I
_Q*0fll2__l.
0.90 X
.0*5232_
1.85 X
-£*3S11-
0.34 X |
.0*1385 L
63 X
3364.
1.49 X
J1.2230 I
8.22 X
_4i3-S3J_
0.27 X
0.93 X
^4344-
0.41 t
_D*2123_
116
117
0.70 X
.12*4 230-
0.12 X I
.fl«D233__i.
0.25 X
_Q*X5 li-
ne
nr
0.23 X
-11*1322..
0.59 X
.11*3461-
0.28 X
.£*1668.
0.44 X
-£*23211-
0.35
.a
0.58 X
.11*3022-
lii3.
120
121
*TI5~
0.22 X I 0.38 X I 0.57 X | 0.71 X
.11*1364 L 0*224fl__l 0*3366 J O*310JL
0.67 X | 0.60 X I 1.16 X I 1.13 X
_fl*4£85__J 0*358fl_l £*iiMS I Q.6C6B
0.34 X I 0.23 X 1 0.39 X I 0.33 X
_Q*2£52—L 0*13.41—1 0.2304 I n. 178?
123
0.55 X I
.Q*335J—L
1.05 X I
_0*63S4__J
0.42 % I
.0*2525.
0.25 X I
.0*1494 1-
0.42 X I
.0*2433 I.
124
125
126
1.28 % I
.0*2253—1.
o.ec x |
_Q*4.fifi2__l-
0.47 X I
-0*2813—1-
0.44 X I
0*256S—L
0.67 X I
C*333fi„-L
0.39 X
.£*21112 I
0.94 X
*5111!3 I
1.48 X
fl*2JBU_
0.42 X
0*
0.39 X
.£*21112.
0.60 X
-0*32115-
>2240-
0.55 X I
.0*3342 I
0.67 X I
0.28 X |
0*1655 L
1.17 X I
._Q*fi323__l_
0.65 * I 0.76 X
—£*32.115—J Q*4£S1_
1.41 X I 1.10 X
OJ244—I 0*5511-
0.61 X I 0.47 X
0.51 X
£*2213 I
0.69 X
£*32.03.
0.66 X
-0*3.861-
0.94 X
_£*5£31_
0.58 *
0*3081
1.05 X
fl*561£ I
0.53 X
£*2£fll 1
0.65 X
0*3445-
-------�
ACDH RUN —YEAR 1980- FOR GREENVILLE COUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVF MAX I HUH RECEPTORS
AfcNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
1 RECEPTOR |
RECEPTOR I
RECEPTOR
RECEPTOR
RECEPTOR I
1 33 i_
54 _ l_
62 .
68
83 1
1 127
1 0.82 X I
3.44 * |
1.28 *
1.54 X
1.18 X |
1
L Q*5CQ6__i_
2.0479 1
...0.7515..
... .0.6256..
fl*62X6_l
1 128
1 1.72 * I
1.93 % |
2.02 *
2.27 X
2.32 X 1
¦L_
_1 __l..Q4iD_ i_
1*1526_1_
1*1826
1.2171
1*2365 I
1 129
1 0.07 X |
0.08 * I
0.11 %
0.11 X
0.14 X 1
1_ _Q*QS41_ I_
0.0453 1
0.0655
0.0604
0.0766 1
1 130
1 0.16 X I
0.14 * I
0.18 *
0. 19 X
0.23 X 1
I
i Q..QS69 1
Q*QQ31 i_
QjtlQ6.fi J Q*liLU_
0.121-B I
1 131
1 0.10 X I
0.15 * I
0.21 X
0.24 X
0.27 X 1
1 QUC22 1_
C*Q211Q L
Q-tl21.fi J Q*1263_
£*1442 I
1 132
1 0.65 * 1
0.64 X 1
0.86 X
0.89 X
1.04 X |
1 0.3958 1
__ Q.3A23 1_
0*5035
0.4776
0.5574 1
1 133
1 0.10 X I
0.15 X I
0.14 X
0.17 X
0.17 X 1
i
1 0.0620 1
__Q«Q222__1_
0.0837
0.0922
C.0932 1
1 134
1 0.78 X |
0.50 % I
0.69 X
0.67 *
0.75 X 1
1
1_. 13.4730 1
__Q*3QQQ__.i_
0.4040
0.3573
C.4016 1
1 135
1 0.70 * I
0.41 * |
0.56 X
0.56 X
0.64 X I
J_ _
1 .0.4250 1
0.2432 1
0.3255
0.3020
0.3403 1
1 136
1 0.56 X I
0.42 % |
0.49 %
0.53 X
0.57 X 1
1 _ 0.3403 1
0.2526 1
0.2874
0.2839
0.3035 1
1 137
1 0.24 X 1
0.20 X 1
0.23 %
0.25 X
0.26 X |
J D*14£4 _i_
0.117(1 1
0.1352
0.1334
0.1410 1
1 138
1 0.4£ * 1
0.40 X I
0.45 %
0.47 *
0.50 X I
1
0.2602 1
0.2652
0.2547
(1.267T 1
1 139
1 0.55 * |
0.47 * |
0.63 X
0.65 X
0.66 X I
.1...
_l Q.3 324.._1..
Q*2222 i_.
Q*3212
£.«3463__
£*3516 i
1 140
1 0.27 * 1
0. 15 X |
0.23 X
0.23 *
0.27 X 1
1
_l _0.1tl0 1
fl*Q£23 J
0.1348
0.1212
0.1443 1
1 141
1 0.78 ? 1
0.10 X I
0.15 X
0. 14 X
0.15 X I
1 .0.4745 1
0.0569 1
0.0899
0.0775
0.0778 1
1 142
1 0.77 * 1
0.45 X I
0.62 %
0.62 X
0.54 X I
1
1 Q*46fl4__l_.
Q*26fiQ _1
-0*3661
0.3138 I 0.2882 1
1 143
1 0.88 X 1
0.74 * |
0.85 X
0.9e X
0.80 X |
1
1 0.5370 1
C.4407 1
Q*4353 .
0.5268
0.4242 1
1 144
1 0.28 X 1
0.52 X |
0.35 X
0.42 X
0.33 X |
1
1 0.1726 1
_fl*31)24 _1__
0.2061..
0.2262
0.1785. 1
1 145
1 1.32 X I
1.72 X I
1.40 *
1.65 X
1.54 X I
1
_ l_. -0.8C2Q 1 _
.. 1.0270 1
0.8195 .
0.8842
0.8196 1
1 146
1 1.94 * 1
2.42 I |
2.16 X
2.46 X
2.31 % I
1
1 1.1774 1 ..
l*iilfl__l_.
1*2682
1*32£5
1*2311 I
1 147
1 0.62 % 1
0.66 * I
0.62 X
0.68 X
0.65 X 1
1
_i ll-3.7fi(i _1_.
Q*3331 I
...0*3633... L C*3£31. ..
0.3472 1
-------�
ACDC RUN -YEAR 1980- FOR GREENVILLE CCUKTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUH RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
1
| RECEPTOR
1 : _33._ ...
FECEPTOR
_54
1
-i_.
1
RECEPTOR
67
\ RECEPTCR |
1 68 1
RECEPTOR t
83 1 •
1 148
I 0.33
*
0.31
X
O.A I
X
1 0.41
t 1
0.46
* 1
I- 0.2C00
.... 0.1821
1
0.2388
J 0.2212 1_
1 0.10 * |
1 0.0510 1
12.2423 L
0.11 S I
0.0994 1
1 149
1
1 0.08 X
1 Q.Q4B0
0.07 X
^0.0428
1
1
0.09 X
0.0531
1 150
1 0.0
, l_ 0.0
X
0.0
Q
X
1
1
0.0
0.0
X
1 0.0
1 0.0
* 1
1
0.0
o.o
X \
I 151
1
I 0.0
1 D.Q
X
0.0
D.A_
X
I
1
0.0
Q.Q
X
1 0.0
1 0.0
* 1
0.0
0.0
% 1
1
1 152
I 0.0
.1 _ D.Q_
X
0.0
X
I
1
0.0
0.0
X
I 0.0
1 0.0
X |
1
0.0
0.0
* 1
1
1 153
1 0.0
1 _0.Q
t
0.0
Q.fl
X
1
1
0.0
_ Q.Q
X
1 0.0
I o.a
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1
0.0
p.o
f 1
1
1 154
1 0.0
1 0.0
X
0.0
Q.Q_
X
1
1
0.0
Q.Q_
X
1 0.0
1 0.0
X |
1
0.0
0.0
X 1
1 155
1
1 0.0
1 0.0
X
0.0
0.0
X
1
1
0.0
_Q*Q_
t
1 0.0
1 0.0
X t
1
0.0
0.0
* 1
1
1 156
1
1 0.0
1 0.0
X
0.0
Q*fl_
X
1
1
0.0
0.0
X
I 0.0
1 0.0
t 1
1
0.0
0.0
* t
1
1 157
1 0.0
1 0.0
X
0.0
o.a
X
1
1
0.0
Q.JL
X
I 0.0
1 0.0
t 1
1
0.0
a.a
X 1
1
1 158
1
1 0.0
1 0.0
X
0.0
Q.Q
X
1
1
0.0
Q.Q.
X
I 0.0
1 0.0
X I
1
0.0
a.o
X 1
1
1 159
1 0.0
1 0.0
X
0.0
. _q.o
X
1
1
0.0
0.0
X
1 0.0
1 0.0
* 1
0.0
p.o
X I
1
1 160
I 0.0
j 0.0.
X
0.0
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X
1
1
0.0
_Q.|}_
X
I 0.0
. 1 _ . 0.0
t 1
0.0
0.0
X 1
1
1 161
1
1 0.0
1 0.0
X
0.0
Q*fl_
X
1
1
0.0
0.0
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1 0.0
1 0.0
* 1
0.0
0.0
t 1
1
1 162
1
I 0.0
i o.a
X
0.0
Q.0
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1
1
0.0
0.0_
X
I 0.0
1 0.0
* 1
1
0.0
0.0
t 1
1
1 163
1
1 0.0
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0.0
Q.Q
*
1
1
0.0
0.0
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1 0.0
1 0.0
X 1
1
0.0
0.0
X 1
1
1 164
1 0.0
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0.0
X
1
0.0
X
1 0.0
X I
0.0
% 1
1
1 0.0
ii.Q
1
0.0
-l 0.0„
1
O.Q L
1 165
1
I 0.0
1 0.0
X
0.0
Q.Q_.
X
1
1
0.0
Q.£_
X
1 0.0
1 0.0
X 1
]
0.0
0.0
% 1
1
1 166
t 0.0
1 o.p
X
0.0
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X
1
1
0.0
0.0 .
X
1 0.0
1 0.0
* 1
1
0.0
n.o
X 1
1
1 167
1
1 0.0
1 0.0
X
0.0
JJ.O
X
1
1
0.0
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t
I 0.0
1 n.o
X 1
1
0.0
0.0
X 1
1
1 168
1
1 0.0
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X
0.0
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%
1
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X
I 0.0
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* 1
1
0.0
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1
-------�
AQDM RUN -YEAR 1980- FOR GREEMMLLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
| SOURCE
1 RECEPTOR
1 fECEPTOR
1
RECEPTOR
1 RECEPTOR
| RECEPTOR
1
1
1 _ 33
1 54
1
61
1 6fl
I ...83..
1
1 169
1
1 0.0
1 0.0
X
1 0.0
1 0.0
%
1
1
0.0
£L.il_
x
1 0.0
1 0.0
t
0.0
0.0
X
1
1
1 170
1 0.0
X
1 0.0
i
1
0.0
*
1 0.0
X
0.0
X
1
1
1 0.0
1 0.0
1 0.0
0.0
_1
1
1 171
1 0.0
X
1 0.0
X
0.0
*
1 0.0
X
0.0
X
1
1. 0.0
I p.o
0.0
1 0.0
0.0
1
1 172
1
1 0.0
1 0.0
X
1 0.0
1 0.0
X
1
1
0.0
X
1 0.0
1 0.0
X
0.0
0.0
X
1
1
1 173
1 0.0
_1 Q^Q_.
X
1 0.0
1 0.0
X
1
0.0
X
1 0.0
1 0.0
X
0.0
. 0.0.
X
1
1 174
1
1 0.0
1 0.0
X
1 0.0
1 0.0
X
1
1
0.0
QjQ
%
1 0.0
1 0.0
X
0.0
%
1
1 175
I 0.0
1. 0.0
X
1 0.0
I p.o
X
1
0.0
0.0
t
1 0.0
1 0.0
X
0.0
X- QmQ-
X
1
1 176
1 0.0
X
1 0.0
X
1
0 .0
X
1 0.0
X
0.0
X
1
1. 0.0
1 0.0
1
_fl.Q
1 0.0
0.0
1
1 177
1
1 0.0
I 0.0
X
1 0.0
1 0-0
X
ocJ
oo
1
*
1 0.0
1 0.0
X
0.0
i_ _Q»Q.
X
1
1 176
1 0.0
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X
1 0.0
1 0.0
*
1
0 O
1
*
1 0.0
1 0.0
X
0.0
0.0.
X
1
1
1 179
1
1 0.0
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1 0.0
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I
1
1 1
1 o a
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1 !
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1 0.0
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X
0.0
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1
1
1 ISO
1
' 1 0.0
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%
1
0.0
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1 0.0
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0.0
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1
1
1 181
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1 0.0
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X
1
0.0
t
| 0.0
1 0.0
X
0.0
£!,Q_
X
1
1 182
1 0.0
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1 (1.(1
X
1
1
0.0
0.0
t
I 0.0
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X
0.0
C*J1_
X
1
1 183
1 0.0
1 0.0
X
1 0.0
1 0.0
X
1
0.0
t
1 0.0
1 0.0
X
0.0
0.0
X
1
1
1 184
1 0.0
1 0.0
X
1 0.0
1 0.0
X
1
0.0
X
I 0.0
1 0.0
X
0.0
... 0.0
X
1
1
1 185
1 0.0
1 0.0
X
1 0.0
1
X
1
0.0
Q..Q
X
1 0.0
1 0.0
X
0.0
L
X
1
1 186
1
1 0.0
1 _ 0.0
X
1 0.0
1 ... 0.0
X
1
1
0.0
(ML.
t
1 0.0
1 0.0
X
0.0
X
1
1 187
1
1 0.0
1 0.0
X
1 0.0
1 0.0
X
1
1
0.0
X
1 0.0
> OnO
X
0.0
0.0
X
1
1
1 188
1
1 0.0
1 0.0
X
t 0.0
¦ 0.0
X
1
1
0.0
O.Q
X
1 0.0
1 0.0
1
0.0
0.0-
X
1
1 189
i-_
1 0.0
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X
1 0.0
1
X
I
I !
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1
1
-------�
AQDH RUK -YEAR 1980- FOR GREENVILLE CCUMV, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE HAXIKUK RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
1
RECEPTOR
I RECEPTOR
I RECEPTOR |
RECEPTOR
RECEPTOR I
I
._1_
1
22
_L 54
_i 61
1
_ 60
83 1
1 190
0.0
X
1 0.0 %
I 0.0
* 1
0.0
X
0.0 X ¦ 1
1
1
Q*Q_
J 0.Q
. ) . __ Q-.Q
. 1
0.0
0.0 1
1 191
1
0.0
X
1 0.0 *
1 0.0
X I
0.0
X
0.0 X 1
1
2..Q_
.1 Q»U
_i Q_»Q_
1
0.
-------�
AQDM RUN -YEAR 1980- FOR GREENVILLE CCUNTY, SOOTH CAROLINA 10/21/76
I
I RECEPTOR I RECEPTOR LOCATION I EXPECTED ARITHMETIC MEAN
1 tSUMBEB 1 L
I I (KILOHETERSI I (MICROGRAMS/CU. KETER)
1 1 HOB li 1 SQ2 PARTICULATES
I I I I I
I 1 I 300.0 I 3644.0 I 0. | 13.
I 2 I 380.0 I 3646.0 I 0. | 44.
1 3 1 338*12—L_3£43*Q 1 fl* 1 44*
I 4 I 380.0 I 3650.0 I 0. | 45.
I 5 I 3R0.0 I 3652.0 | 0. | 45.
J 4 1 33fl*a__l_3£54*Q 1 IK 1 45*
I 7 I 380.0 I 3 856.0 I 0. | 46.
I 8 I 380.0 1 3e5Q.O | 0. | 45.
J 2 i 33Q*fl L_3£ii)*i! J 0*. 1 45*
I 10 I 380.0 I 3C62.0 I 0. I 44.
I 11 I 380.0 | 3664.0 I 0. I 44.
1 12 1 330*0 1 3£££t*0 1 Q. L 42*
0 I 13 | 380.0 | 3668.0 I 0. I 41.
1 I 14 I 380.0 | 3670.0 I 0. | 41.
^ i 15 i 330*0 J _3£22*0 1 0* 1 33*
I 16 I 382.0 I 3844.0 | 0. | 42.
I 17 I 382.0 1 3E46.0 I 0. | 42.
1 13 1 332*0 1 3£43*0 1 Q* 1 43*
I 19 I 382.0 I 3e50.0 1 0. | 44.
I 20 | 382.0 I 3 6 52.0 I 0. I 44.
1 21 i 332*0 L_3£54*0 1 Q* L 44*
I 22 I 382.0 | 3856.0 I 0. | 44.
I 23 I 382.0 I 3E58.0 | 0. | 44.
1 24 1 .322*0 L 3£60*0 i 0* i 44*
I 25 f 382.0 I 3E62.0 I 0. I 44.
I 26 I 38?.0 I 3664.0 I 0. | 43.
1 22 1 332*Q L__3££6*fl 1 0* I 42*
t 28 I 382.0 I 3868.0 | 0. I 41.
I 29 | 382.0 I 3870.0 I 0. | 40.
1 3fl 1 302*0—I_3fiI2*0 1 Q* L 33*
I 31 I 384.0 I 3644.0 I 0. I 42.
I 32 I 384.0 I 3646.0 I 0. | 42.
J 33 1 33i*£—J 3£4J}*£ 1 Q* 1 42*
I 34 I 384.0 I 3650.0 I 0. I 43.
I 35 I 384.0 I 3652.0 I 0. | 43.
1 36 1 3Q4*0_l__3£54*fl 1 0* L 43*
I 37 I 384.0 I 3656.0 | 0. I 43.
I 38 I 384.0 I 3658.0 | 0. | 44.
J 39 1 354*0 1 3£60*fl 1 Q* L 43*
1 40 i 334*0—J 3££2*0 1 fl* I 43*
-------�
ACCf RUN -YEAR 1980- FOR GREENVILLE CCUMY. SOUTH CAROLINA 10/21/76
(
J
RFCEPTflR
irtjCfNifiMJcfc
n^TA
1
1 RECEPTOR
1
RECEPTOR LCCITIGN 1
EXPECTED
ARITHMETIC MEAN I
1 K'UMRFR
1
1
(KILOMETERS) I
(MICROGRAMS/CU. METER 1 1
HORIZ
VERT 1
S02
PART 1CUIATFS 1
1
1 41
384.0
1
1
1
3864.0 I
0.
1 1
1 43. 1
1 42
384.0
1
.3£M*Q 1
0.
1 43. 1
1 43
384.0
1
3668.0 |
0.
1 41. I
1 44
384.0
I
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0.
1 40. 1
1 45
384.0
3E72.0 1
0.
1 39. 1
1 46
386.0
1
3£44.0 1
0.
1 41. I
1 47
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1
3E46.0 |
0.
1 41. 1
1 48
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1
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0.
1 41. 1
I 49
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1
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0.
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1 50
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1
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1 51
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1
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0.
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1 52
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1 53
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1
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1 . 54
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1 55
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1 56
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1
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1
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1
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i 60
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1
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1 61
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1
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1 62
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1
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0.
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1 40. 1
1 64
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1
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1 65
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1
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1
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1
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1 3672.0 1
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1 76
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1
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1 77
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1
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1 78
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1 79
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1
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1 39. 1
1 80
390..Q i J fix!.. A __1
_
1
-------�
AQOM RUN —YEAR 1980- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
RECEPTOR
RECEPTOR LOCATION
(KILOMETER SI
1 HORIZ
_ VERT.
sn?
E£BII£ULflXES 1
1
1 HI
1 1
1 ?9QrQ 1
_3 £54.0
40. 1
1 82
1 390.0 1
3856.0
0.
41. 1
1 S3
I 390.0 1
3658.0
0.
41. 1
1 84
| 390.0 1
-3££O>0_
fix
41. I
1 85
1 390.0 1
3662.0
0.
41. 1
1 86
I 390.0 1
3 664.0
0.
«1. 1
1 87
1 390.0 1
_3f66.D
01
41. 1
1 88
1 390.0 I
3 £68.0
0.
41. |
1 89
I 390.0 1
3E70.0
0.
39. 1
1 90 .
1 390.0 1
.3£J2jJQ
0.
39. 1
1 91
1 392.0 1
3£44•0
0.
38. I
1 92
1 392.C 1
3646.0
0.
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1 93
| 392.0 1
_3S4fl*.Q
3P. 1
1 . 94
1 392.0 1
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0.
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1 95
1 392.0 1
3852.0
0.
39. |
1 94
_1 322*Q L_
.3£54.0
Qj_
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1 97
1 392.0 1
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0.
39. I
1 98
1 392.0 1
3658.0
0.
40. I
1 22
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Q*
40 1
1 100
I 392.0 1
3E62.0
n.
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1 101
1 392.0 1
3t£4. C
0.
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1 392.0 1
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n.
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1 LQ5
1 332-» .Q I
. _ . !_ Q > — - —
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1 106
1 394.0 1
3 644.0
0.
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1 107
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0.
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i_ -
1 324..Q__JL_
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£>*.
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1 109
1 394.0 1
3 £50.0
0.
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1 110
1 394.0 1
3652.0
0.
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1 111
_1 324*0 I
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Q* __
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1 112
1 394.0 1
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0.
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1 113
I 394.0 I
3658.0
0.
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1 114
1 394.0 J _
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0.
39. 1
1 115
1 394.0 I
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0.
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1 116
1 394.0 1
3664.0
0.
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1_ 117
_1 324*0 1
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0.
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1 118
1 394.0 1
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n.
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0.
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J 121)
_1 324*0 J
-3£12*Q i
38. 1
FXPFCTEO ARITHMETIC MEAN
(M ICROCRAMS/CU. METER)
-------�
ACDM RUN -YEAR 1980- FOR GREENVILLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR | RECEPTOR I RECEPTOR I RECEPTOR |
J 1 1 L 5 1 & J & 1 3 L
I 1 I 0.09 * I 0.10 X I 0.09 * | 0.08 * | 0.07 X I
1 1 fi*S40a_l Q*Q442__ 1 fl^Q3fca_l Q.032B I
I 2 I 0.11 X I 0.12 X | 0.11 X I 0.10 X I 0.09 X I
1 J Q_.fl424 i (M1513.-J XKQMfc I 0.0399 I
I 3 | 0.1? X 1 0.19 X I 0.1B * I 0.16 X I 0.14 * I
1 i Q*Q22I L Q*QU42__i 0.0701 1 n.C6?7 I
I 4 | 0.06 X I O.Ob t I 0.06 X I 0.05 X t 0.0$ X I
1 1 Q..fl2fi2__l JM)230__i 0*fl2ZZ_l 0.0240 1 0.0715 I
I 5 I 0.00 X I 0.00 X I 0.00 X I 0.00 X | 0.00 X I
J 1 Q*Q£Q2 L OiQQQfi—i J n.OOlQ I O.Opl? J.
I 6 | 0.00 X I 0.00 X | 0.00 X I 0.00 X I 0.00 X (
1 1 fl*C£22__l 0»DQ0£i__l S>*.unul l_ Q^QfliO I Q+M12 I
I 7 | 0.05 X I 0.04 X | 0.05 t I 0.06 X I 0.07 X I
J 1 fl*fl2£8__l Q*QUl~l fl_.02Qfc_l Q+Q 213 L Q*.Q32i> I
I B | 0.00 X | 0.00 x | 0.00 X I 0.00 * I 0.01 X I
1 1 D..1JQ1S—1 Q*01112—i Qj.QQ13 J H.flJL22_J fl*P032_ I
I 9 | 0.00 X I 0.00 X | 0.00 X I 0.00 * I 0.00 X I
1 1 £,QOQD__i CUQQQS_J C.OOia I
I 10 | 0.01 X I 0.00 X I 0.01 % I 0.01 X I 0.01 X I
J 1 Q*M25__i 0»flfl22__l O.QQ25__J L I
I 11 I 0.07 X I 0.04 X I 0.05 t I 0.09 X I 0.14 * I
1 1 Q*023B I 0*0132—1 IM1234_i__ 0*W&4_J 0.0606 t
I 12 I 0.00 X I 0.00 X I 0.00 % I 0.00 X I 0.00 X I
1 i Q+QQQk 1 Q±QQQA J 0.0007 I 0.0007 I
I 13 I 0.00 X I 0.00 X I 0.00 T I 0.00 X I 0.00 X I
I 1 fi*QQQ6 L CUQQ!U__i QiQQQi J D^flM3_i _0..fl01!2 I
I 14 | 0.00 % I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
i 1 0*0002 J Q*Q0Q1 I Q+QQQ2—1 0-.0002 L C*OOi!J__l
I 15 | 0.00 X | 0.00 % | 0.00 % I 0.00 1! I 0.00 X I
1 1 0*0011 J 0*0015—J Q*flQ14__J JMULlfl—J. C.0008 I
I 16 I 0.00 X I 0.00 X I 0.00 X I 0.00 X t 0.00 X t
1 i S*QCOO L 0*Q00Q J fl*DflQi) J 0*0000 L
I 17 I 0.00 X I 0.01 X I 0.00 X I 0.00 X I 0.00 X I
1 i 0*flfll4__J 0*002.3—1 Q*0013__J L.... 0^SSQ3—1
I 18 | 0.00 X t 0.00 X I 0.00 X I 0.00 X I 0.00 X I
1 1 Q*QQQ{i i 0*2001—] fl*Q«U2 I fl*l)fll3__A
I 19 I 0.00 X I 0.00 X I 0.00 X | 0.00 X I 0.00 X I
1 1 fl«CDQ2 I 0*Q0Q6 1 0*0002 J 0*0012—1 SU0D13 L
I 20 | 0.00 X I 0.00 X I 0.00 X I 0.01 X I 0.00 X |
1 1 0*0020—1 Q*QQ12 i 0*0012-1- 0*0023—1 0*0022 L
I 21 | 0.00 X I 0.00 X I 0.00 X I 0.01 X I 0.01 X I
i 1 0*0C2Q L Q*0Q12 1 0*0016__J Q*002£ I 0*0045 L
-------�
AQCM RUN -YE*R 1980- FOR GREEMMLIE CCUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAX I HUM RECEPTORS
ANNUAL
PARTICULARS
MICROGRAMS PER CUBIC METER
1 SOURCE
1 RECEPTOR |
RECEPTOR |
RECEPTOR I
RECEPTOR
1 RECEPTOR |
1 22
1 0.00 X I
0.00 * |
0.00 X t
a_ —
0.01 X
1- —2.. 1
1 0.01 X |
1
1 Q*flfl2fl__l—
Q..QQ13 l_
fl^QU25__
1 fl^aais I
1 23
1 0.01 X I
0.01 X 1
0.01 X I
C.01 X
1 0.02 X |
1
1 1
__fl*QQ3i__J_
Q.lQQ3I 1_
q-.qq5.s_
1 Q-.QQ2Q I
1 24
1 0.01 X 1
0.01 % I
0.01 X |
0.01 X
1 0.02 X I
1 O.OC54 1.
Q..QQ42 _J_
0.00/r7 1
__ Q-.QQ£1
1 0.0068 1
1 25
1 0.00 X I
0.00 * |
0.00 X 1
0.00 X
1 0.00 X I
1 O.OC17 1
1_
0.0015 1
0.0019
1 ... Q..Q021 1
1 26
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0.00 X 1
0.00 X 1
0.00 X
1 0.00 X I
1
i l—
QxDQll l_
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1 .-Q.QQQfl L
1 27
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0.00 X 1
0.00 X
1 0.00 X 1
1
1 0.0C09 1
Q..QQlfl J
Q-.QQQ3_
I Q-.flflfl.B_l
1 28
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0.00 X
1 0.00 X 1
1
I Q*fl£15 1
QiQQla [_
—Q.QQ16._J._
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1_ Qj.flQlJ L
1 29
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1
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J JM3A2Q I
I 30
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0.03 X 1
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0.00 X
1 0.00 X I
I o.on?3 l
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0.0017 .
1 0.0015 1
1 31
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0.02 X 1
0.00 X
1 0.00 X I
1 0.0C23 1
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fl-.QC.12__
1 fl^fla.15 I
1 32
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0.03 5 1
0.02 X |
0.00 X
1 0.00 X I
1
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. Q^fli5U _J_
0.0110 1
_ A-.QAIJ -
1 0.001"; I
1 33
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1
1 0.0C19 1 .
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1 34
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1 35
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1
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1
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1 0.0009 1
1 37
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1
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1 38
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1
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1 39
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0.01 X
1 0.01 X 1
i C^QC2£ 1
_ Q*0Q2Q i_
.... 0.0073 1
_ fl-.Qfl.35
1 .0.0044 1
1 40
1 0.01 % I
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0.01 X I
0.01 X
1 0.02 X 1
J
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1 41
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1 0.0046 |
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-------�
ACOM RUN -VFAR 1980- FOR GREENVILLE CCLNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVt MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS
PER
CUBIC METER
1 SOURCE
1
RECEPTOR 1
RECEPTOR 1
RECEPTOR 1
RECEPTOR 1
RECEPTOR 1
i
|
7 1
5 1_.
. _& 1
8 1
...9. ..1
1
43
1
0.01 X 1
0.00 X |
0.01 X 1
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0.01 x t
1
|
0*0023 I
0.0020 1
0.0021 1
O.OS35 1...
-.0.0043 1
1
44
1
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0.00 X I
0.00 % 1
0.01 X 1
0.01 X |
\
\
0.0021. i
i_
DjJ&Qltl 1_
S.tSfl23—1—
0^2025 I
1
45
1
0.00 X 1
0.00 X 1
0.00 X 1
0.01 X 1
0.01 X 1
1 .
1 ..
Q.Q021—i_
O^QQIJ—l_
SUSSUi 1 0*.2£2h—I—
—SUMI25 I
1
46
1
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0.00 X I
0.00 X 1
1
i -
Q.QCQ5 l_
(UQQQ2 i_
. .. .0.0003. . 1..
0 , Q 0 Q R 1
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1
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1
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AUDI"! RUN -YEAR 1180- FOR GREENVILLE COUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRI OUT IONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
| SOURCF I RECEPTOR I PECFPTOR I RECEPTOR I RECEPTOR | RECEPTOR I
1 1 Z 1 5 1 6 1 a J 3 1
| ~ 64 I 0.06 * I 0.05 * | 0.05 t | 0.06 * I 0.07 * I
J [ Q*Q252 L fl-.fl21.l_l Q+Q2M I B*Q2U I I
f 65 I 0.16 * I 0.11 * I 0.15 * I C.16 * 1 0.20 * 1
I 1 f). 0 750 I QxQ63Q__ 1 Q-.flfl26_l JM!214_1
66 I 0.02 X I 0.02 X I 0.02 * I 0.02 X I 0.03 * I
1 1 fl.Qlflfl I fl*QQHA—1 Oaflfl21_J fl^flllfl I G*Q1Z2 .1
| 67 I 0.06 * I 0.05 X I 0.06 X | 0.08 * I 0.10 X I
1 __ _ 1 Q«.Q292 l_ QxQ222__l Q-.Q25D 1 fl^fllfii L L
68 I 0.02 * I 0.02 * I 0.02 * | 0.03 X | 0.04 X I
X 1 Q*Q10fl L_ QaQflflS—1 Q-i£)Q22 1 Q^fllJi_J D^D1M_1
|" 69 I 0.03 X I 0.01 t I 0.03 * I 0.04 X | 0.05 * I
i 1 Q*Q14f> L Q..Q115 1 Q-.Q125 i fl-.Ql.S2 I !M)22S__1
| 70 I 0.13 * I 0.13 S I 0.14 * | 0.17 * | 0.22 * I
J 1 Q.Q£QQ 1 Q.Q569—I fl^C61J__J Q*Q14J—1 IL.fl3fi.3_l
|" 71 | 0.00 * I 0.00 X I 0.00 1 | 0.00 X I 0.00 X I
i 1 Q.QCOa_J 0*01)14 1 Q.»flflil J fl^fl£DJ_l 4*SW£5—J
|~ 72 | 0.00 X I 0.00 X I 0.00 t | 0.00 X 1 0.00 X I
I I iiflflflfi I QaDQIS 1 QiUUll J Q^QQQl—1 —L
| 73 I 0.01 X I 0.01 X I 0.01 % | 0.00 X I 0.00 X I
1 1 Qxfl£21__1 Q*0Q4J__1 Q..QQ32 J fl.»fl£JI_i 0-.flflli_l
| 74 I 0.00 X I 0.01 X I 0.00 X I 0.00 X I 0.00 X I
1 1 Q^flfllJ L_ 0^1)226 1 fl-.2fllfl 1 QjiQfiflS J U^flflflJ_l
| 75 I 0.00 X I 0.00 X I 0.00 X | 0.00 X I 0.00 X I
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| 76 I 0.00 X I 0.00 % I 0.00 X I O.OO X I 0.00 X I
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I 78 I 0.01 X I 0.00 X I 0.00 X | 0.01 X I 0.01 X I
1 L Q*J}Q25 L_ Q*QQ2l 1 JM)Q22__J !UQQ25—i £-.&Q3:Z_l
|~ 79 I 0.00 X I 0.00 X I 0.00 X I 0.00 X I 0.00 X I
1 1 fljuQCQl I Q*QQQfl__l B^QQQl 1 fl^flfifll—I 2_.<:Qfl2 1
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1 1 Q*QQ 01 1 Q-.QQQQ I 0-.QQQ1 J Q-.Q2Q1 I £-.££1)2 I
|" al I 0.02 X I 0.02 X I 0.02 X | 0.03 X I 0.04 X I
1 1 Q*fllfl.fl_l C.Q1Q3 J Q-.D11J J C^fllSli—J £U01B.3_1
| 82 I 0.01 X I 0.01 X I 0.01 X I 0.01 X I 0.01 X I
1 1 0.0032 I Q+QQZ1—1 QmQQ2J 1 Q*QQ33 I C^l)fli2_l
| 83 I 0.00 X I 0.00 X I 0.00 X I . 0.00 X I 0.00 X I
J 1 fl^flflfll I Q*QQQ2—1 U-.QAQ2 I C-.fl0fll_l C-.flflQl_l
I ft4 I 0.00 X I 0.00 X I 0.00 X | O.OO X I 0.00 X I
1 I Q.QQQ1 I Q*flflQ2__l Q-.QQQ2 1 £^flflCl__l Q-.QQ01—I
-------�
ACOM PUN -YEAR 1980- FOR GREENVILLE CCUKTY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIeUTfOfcS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE
85
86
87
88
89
~90~
91
92
95
96
97
98
99
100
101
102
105
RECEPTOR 1
I 1.
0.00 * I
Q*Q£22 1
0.00 X I
Q.QC13 L_.
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-------�
ACDM. RUN -YEAR 1980- FOR GREENVILLE CCLMV, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
1 RECEPTOR I
RECEPTOR I RECEPTOR I
RECEPTCR |
RECEPTOR I
1
1 7 1
5 16 1
a 1
9 1
1
106
1 0.26 X 1
0.17 X 1 0.19 * |
0.26 X 1
0.27 X 1
t
1 0.1189 1
0.0783 1 0.0850 1
0.1150 1
0.1213 1
1
107
1 0.14 X |
0.10 X I 0.11 % I
0.17 X 1
0.18 X I
1
1 <1.06?*. 1
0.0431 1 0.0513 1
0.0769 1
0.087.2 1
1
108
1 0.09 X I
0.07 Z 1 0.08 X |
0.12 * I
0.12 X |
_i Q.ifl314__1__
0.0299 1 0.0379 1
0.0549 1
0.0536 1
1
109
1 0.07 X I
0.05 X 1 0.06 t I
0.09 t 1
0.09 t |
1
1 0.C317 1
0.0216 1 0.0265 1
0.0381 1
0.0390 1
1
110
1 0.06 t |
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0.08 X 1
0.09 X |
i _ 0.0273 1
0.0210 1 0.0226 1
0.0367 1
0.0390 1
1
111
1 0.14 % |
0.11 X 1 0.12 X 1
0.20 X 1
0.21 X I
1
1 0.0641 1
0.048? 1 0.0577 1
0.0913 1
0.0916 1
1
112
1 0.46 * 1
0.35 X I 0.44 X )
0.55 t |
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1 0.2095 1
0. 1581 1 (Ip 1977 1
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1
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1 0.4740 1
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1
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1 0.58 % |
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0.1828 1 0.2314 1
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1
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1 1.06 * |
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-------�
ACOf RUN -YEAR 1980- FOR GREENVILLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVf KAXIKUH RECEPTORS
AMiUAL PARTICULATES
MICROGRAMS PER CUBIC METER
133
134
135
136
757"
138
139
140
141
142
143
144
~145~
146
147
RECEPTOR | fECEPTOR 1
O.mT I *1.hT|"
0*3U5__1 Q*2S3& 1_.
2.63 * I 2.50 * I
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Q*21Q0 L_ 0*1222 1—
0.58 * I 0.55 X I
0*214&_i Q*2S3Q__1_.
1.43 X I 1.26 X I
0*65*3 I 0*5fifil__l_.
0.13 * I 0.12 * I
Q* 05 2fi I 0*0550 I__
1.89 X I 2.16 X I
Q*9i43 I C*32Q4__1_.
1.2B X I 3.76 X |
Q*Safifl__] l*£34$„J„
0.83 * | 0.71 * I
Q*3fll4_l Q*31JB2 1
0.39 * I 0.43 * I
0*1223 i 0*1343—1—
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Q*lSfl£ 1 0*2252 i
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0*5B36 L 0*5230 J
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PECEPTOP I
b L_.
0.64 X I
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2.59 X I
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B L. 2 L
0.76 t I 0.89 X I
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2.30 X I 2.43 X I
.1*0324 J 1*££36 J
0.63 t I 0.64 X 1
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0*2034—1
0.79 X I
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0.26 X I
0*1122 L
1.39 X I
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2.53 X I
.1*1262 L
0.63 X I
_0*2J26 L
-------�
ACOP RUN -YEAR 1980- FOR GREENVILLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RFCFPTORS
AfvNUAL PARTICULATES
MICRCGRAMS PER CUBIC METER
I SOURCE I RECFPTOR I RECEPTOR | RECEPTOR | RECEPTOR I RECEPTOR I
1 1 1 1 5 1 6 _L a J 3 I
I 148 I 0.82 X | 0.10 X I 0.8T % | 0.80 X I 0.76 X I
1 1 Q*3J55_i 1 0.3573 I 0.319ft 1
I 149 I 0.24 * I 0.19 * I 0.21 % I 0.29 * | 0.26 * I
1 1 Q»11Q3 1 1 Q*Q2£i2__l 0*1236 L C.ll ?2,_ I
I 150 I 0.0 T| 0.0 X | 0.0 % I 0.0 * I 0.0 X I
1 1 Q*Q I 0_.fi J Q_.fi J fi..fl 1 IM! 1
I 151 I 0.0 X | 0.0 X I 0.0 * I 0.0 X | 0.0 X |
1 1 fl.Q 1 Q*Q 1 Q-.Q J Q+Q 1 fi_.fi 1
I 152 I 0.0 X | 0.0 X I 0.0 X I 0.0 X I 0.0 X I
1 1 QjlQ I Q*Q 1 Q..f! J £*.Q 1 fi_.fi I
I 153 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
1 1 Q*Q L Q..Q A Q..Q J DjiQ 1 fi_.fi 1
I 154 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
1 _L fi-iQ L Q..U J Q_»Q 1 fi_.fi 1 fi_.fi 1
I 155 I 0.0 X I 0.0 X I 0.0 X I 0.0 % I 0.0 X I
1 1 Q_.fi 1 Q-.Q J QJ1 J fl_.fi 1 fi_.fi L
I 156 I 0.0 ?| O.n * I 0.0 * I 0.0 X I 0.0 X I
1 1 fi^fl 1 Q-.Q J Q»Q 1 fi_.fi 1 fl_.fi L
I 157 I 0.0 X I 0.0 x I 0.0 X I 0.0 X I 0.0 X I
1 I 1 Q-.Q i Q-.Q 1 O.Q I C.O I
I 158 I 0.0 XI 0.0 X I 0.0 X I 0.0 XI 0.0 X I
1 1 Q.fi L_ fl^Q i Q„Q 1 fi_.fi L Qj.0 L
I 159 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
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I 160 I 0.0 X I 0.0 X I 0.0 X | 0.0 X I 0.0 X I
1 1 Q..Q 1 C..Q i Q..Q I Q_.fi J fi_.fi I
I 161 I 0.0 X I 0.0 X I 0.0 X | 0.0 X I 0.0 X I
i 1 fi*fi I Q..Q 1 QjlQ 1 fi-.fi L QjtQ 1
I 162 I 0.0 X I 0.0 X I 0.0 X | 0.0 X I 0.0 X I
1 1 fixfi 1 fi»fi J Q..Q J fi_.fi i fi_.fi L
I 163 I 0.0 XI 0.0 X I 0.0 X| 0.0 X I 0.0 X I
1 1 fi.fi I Q-.fi J UiQ 1 £U£) I ij.il I
I 164 I 0.0 X I 0.0 X I 0.0 X | 0.0 X I 0.0 X I
1 L fi*fi I Q*fi J fi_.fi 1 IKfl 1 fl*fi I
I 165 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
1 i fi.fi L Q..fl J Q*Q J fi_.fi J fi_.fi I
I 166 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
1 1 Q*fi 1 Q_.fi i Q..Q J fi_.fi I fi_.fi I
1 167 | 0.0 X I 0.0 X I 0.0 T | 0.0 X I 0.0 X I
1 1 fi_.fi 1 fl*fi 1 Q_.fi 1 Q_«fl J fi_.fi L
I 168 I 0.0 X I 0.0 X I 0.0 * | 0.0 * I 0.0 X I
1 1 fi_.fi 1 !M! J Q..Q 1 fl_.fi J D^D L
-------�
ACOP RUM —YEAR 1980- FOR GREENVILLE CCUMY# SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIKUM RECEPTORS
ANNUAL PARTICULATES
"ICROGRAHS PER CUBIC METER
I SOURCE I RECEPTOR | fECEPTOR I PECFPTOR I RECEPTOR I RECEPTOR I
I 169 I 0.0 i | 0.0 1 | 0.0 X 1 0.0 * | 0.0 5 I
J 1 Q* Q J 0.D i 0*0 J 0*0 I 0*0 L
I 170 | 0.0 X I 0.0 X I 0.0 * I 0.0 * | 0.0 * I
J 1 O.Q 1 fl-.fi J Q*fl i 0*0 J Q*fl I
I 171 I 0.0 X I 0.0 * | 0.0 * I 0.0 X | 0.0 X I
1 L 0*Q L 0*0 i Ql,0 1 J 0*0 1
I 172 I 0.0 X I . 0.0 X I 0.0 X I 0.0 X I 0.0 X I
J 1 0*0 i 0*0 1 0.0 I 0.0 t 0*0 I
I 173 I 0.0 X f 0.0 X I 0.0 X I 0.0 X I 0.0 * I
J i 0* 0 I 0*0 i 0*0 1 0*0 J 0*11 L
I 174 I 0.0 X I 0.0 X| 0.0 x | 0.0 X I 0.0 X I
i i 11* Q J 11*11 J 11*0 1 0*0 1 0*0 I
I 175 I 0.0 X 1 0.0 XI 0.0 X I 0.0 X t 0.0 X I
1 1 0*0 L_ 0*0 J 0*0 1 0*0 L_ 0*11 L
I 17b | 0.0 X I 0.0 X | 0.0 X I 0.0 X I 0.0 X I
i 1 0*D I 0*11 1 0*0 1 0*0 1 0*0 I
I 177 I 0.0 X I 0.0 XI 0.0 X | 0.0 X I 0.0 X I
l L 0*0 I fl*o 1 a*fi i c*Q l 0*11 L
I 178 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
J 1 0*5 I 0*0 J 0*0 1 0*0 I 0*0 1
I 179 I 0.0 X I 0.0 X I 0.0 X| 0.0 X I 0.0 X I
J I 11*0 I 0*0 i O.Q 1 0*0 J 0*11 L
I 180 I 0.0 X I 0.0 X I 0.0 X| 0.0 X I 0.0 X I
i I 0*11 L 0*0 J 0*11 1 11*0 I 11*0 I
I 181 | 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
J I 11*11 I 0*0 J 0*0 J 11*0 J 0*0 L
I 182 I 0.0 X I 0.0 X I 0.0 X I 0.0 X I 0.0 X I
i i c*c : i o*o j o*o i :_c*q i c*o l
I 183 I 0.0 X I 0.0 t I 0.0 X I 0.0 X I 0.0 X I
i I 0*0 L_ 0*0 J 0*0 1 0*0 J 0*0 L
I 184 I • 0.0 X I 0.0 t I 0.0 % I 0.0 X I 0.0 X I
1 i 0*1) J 0*1) J 0*0 J 0*0 t 0*11 L
I 185 I. 0.0 X I 0.0 % | 0.0 X | 0.0 X I 0.0 X I
i 1 0*0 I 11*11 J 0*0 1 11*0 I 0*11 1
I 186 | 0.0 X I 0.0 X | 0.0 X | 0.0 X I 0.0 X I
1 t 0*11 1 0*11 J 0*0 1 0*0 1 11*0 1
I 187 | 0.0 X I 0.0 t I 0.0 X | 0.0 X I 0.0 X I
J 1 0*0 I 0*0 J 0*0 1 0*0 1 0.0 L
I 188 | 0.0 X I 0.0 t I 0.0 X | 0.0 X I 0.0 X I
i 1 0*11 1 0*0 1 0*11 1 0*0 i 11*0 1
I 189 I 0.0 X | 0.0 X| 0.0 X | 0.0 X I 0.0 X I
J i 0*0 L 0*0 J 0*0 1 0*0 J 0*0 I
-------�
ACCM RUN -YEAR 1980- FCR GREEKVILLE CCUMY, SOUTH CAROLINA 10/21/76
SOURCE CONTR1EUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
KICPfJGRAMS PER CUBIC METER
1 SOURCE
1
RECEPTOR
1
FECEPTOR
1
RECEPTOR I
RECEPTOR
RECEPTOR
1
_JL.
I
._L__
5
&
1
fl
_ _ 2
1
1 190
1
0.0
X
1
0.0
*
1
0.0
X 1
0.0
0.0
X
1
1
0.0
1
0.0
1
0.0
0.0
1
1 191
1
0.0
X
1
0.0
X
1
0.0
* 1
0.0
*
0.0
X
1
1
. QjQ_.
1
0.0
1
0.0
0.0
0.0
1 192
1
0.0
X
1
0.0
X
1
0.0
* 1
0.0
X
0.0
X
1
1
J2.«Q
1
0.0
1
0.0
1
0.0
0.0
1 193
1
0.0
%
1
0.0
X
1
0.0
X 1
0.0
X
0.0
X
1
_1_.
Q-.Q-.
Qm.Q
._J__
_ Q-.Q
1
Q*fl_
L
1 194
1
0.0
X
1
0.0
X
1
0.0
X 1
0.0
X
0.0
X
1
-I-.
Q*Q_
Q^fl
1
QiQ
1
¦
_
1
1 195
1
0.0
X
1
0.0
X
1
0 .0
X 1
0.0
X
0.0
X
1
1
D^Q
1
... g.o
1
0.0
0.0
0.0
1
1 196
1
0.0
X
1
0.0
X
1
0.0
X I
0.0
X
0.0
X
1
1
Q^Q
1
0.0
1
cue
1
0.0
0.0
1
1 197
1
0.0
x
1
0.0
X
1
0.0
X 1
0.0
X
0.0
X
1
~L_.
QaQ_.
1
0.0
1
Q+Q-.
_
1 BACK-
1
63.37
X
1
64. 41
X
1
64.48
X 1
64.71
X
65.04
X
1
1 GROUND
1
29.
1
_i3*_
1
29.
1
23*
29.
1
1 TOTAL
1
100.0
X
1
100.0
X
1
100.0
X I
100.0
X
100.0
X
1
i
1
45*0223.
1
_4Aa2Jt55 1_
SSi5913.
1
-------�
APPENDIX E
1985 ANALYSIS COMPUTER PRINTOUTS
-------�
AtiDM RUN -YEtR i985- FOR GKECNItlLLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CATA
ANNUAL SOURCE
1 STACK
DATA
SOURCF
SUUUCF LOCATION
SOURCE AREA
EMISSION RATE
1
MIMBFR
SOIIRCF in.
(KILOMETERS)
SQUARE
(TONS/DAY)
1 HT DIAM
VEL
TEMP |
. ... ,
.... _ _
_bDIU.ZGai.AL_ I
—ttlBIlCAl
_K 1LJDMEIERS
SU2 . . _ PART
.1 iEIl._i.fIl
1E&51
(DEC.Ell
1
1200 3 1
368.0
3849.0
0.0
0.0 0.071
1 25.0 1.6
90.0
225. I
2
1200 7 I
36(1.4
3848.6
0.0
0.0 0.103
1 20.0 0.0
0.0
77. I
. . .. 3
.12i>!> ?_2
369.4
_ 3fl4fl.ii _1
0.0
0.0 0.162
1 20,Q Q,0
0.0
zz._ |
4
1200 7 3
368 .4
3848.6
0.0
0.0 0.056
1 20.0 0.0
0.0
77. 1
5
1200 8 I
375.8
3862.7
0.0
0.030 0.003
1 21.0 2.2
45.0
450. I
-------�
54
1200—3a_l
1 32!i*D_
55
1200 39 2
3/5.8
56
1200 44 1
367.6
. . 5.7 12JQ 45_1
36u*4_
58
1200 45 2
366.4
59
1200 45 3
366.4
..... .60. .
1200—.45_4
3u&*4-
61
1200 46 1
3/7.1
62
0190 46 2
3J/.1
1200._S6_3
321*1_
64
1200 46 4
37 7.1
t6._l
3b9*'i_
8?
1200 68 1
3/)). 3
83
1200 69 1
389.5
. 84.
1200 fc9 .2
38'J.5_
85
1200 70 I
3/4. U
86
1200 71 1
370.7
,.87_.
1200—12.1
37 J*7_
88
1200 73 1
375.5
89
1200 73 2
375.5
. .90. _
_„_1200_._J.'»..l
324.3_
91
1200 05 1
3/1.1
9?
2060 09 2
400.0
9 3
. _C2D0.-_Q4_l
36i*5_
94
0200 04 2
365. 5
95
0200 04 3
365.5
..96
NEh .SntlRf.F._.l.._
3/5..U..
<57
NEW SOUPCE 2
375.8
98
NEk SOURCE 3
375. 0
99.
Mt':W SllURr.E_.4__
.... 325*L_
100
Nf-ta SOURCE 5
301.3
101
NF* SOURCE 6
381.3
.102 ,
NEW S0UKCE..7..-
3B3*0_
103
Ntli SOURCE R
3b3.0
104
NFk SOURCE 9
383.0
105...
hFM_SQUBC£_l —
3£3.0_
106
TRACT 1.00
372.9
107
TRACT 2.00
3/2.3
108 _
.TRACT... 3.00
323.5_.
109
TRACT 4.00
371.9
110
TRACT 5.00
3/1.1
111 .
TPACJ_6.Q0.__
371.1
112
TRACT 7.00
3/0.7
113
TRACT 8.JO
369.6
114
__.T.BACT.-9.0Q__._
1 311*1-
__1.
-_1
..._J
__J
-31143-7
3843.7
3857.1
-3U21*fc
3871.0
31171.6
aa2.u&
3873.2
3873.2
31113*2
3873.2
3873.2
3az3*i
3867.0
3867.0
3££>2*0
3860.7
3848.4
3ll4a*4
3845.5
3845.5
3826*4
3862.4
3862.4
3862*4
3857.9
3857.9
3352*2
3864.3
3840.0
3840*0
3855.1
3859.4
3A44-3
3845.9
3845.9
3826*4
3859.9
3870.4
3ii3*i*o
3839.0
3839.0
31)43*2
3843.7
3343.7
3062*3
3854.2
3854.2
301)1*0
3861.0
3861.0
3B£1.0
3857.8
3857.2
3055*2.
3856.0
3855.8
3B56*B.
3857.4
3857.0
3asa*a
0.007
0.019
0*066—
0.055
O. 165
.0*022
0.051
0.019
.-0*012
0.177
0.003
_Q*DQi__
0.005
0.005
0*025
0.005
0.005
0*016.
0.003
0.003
-0*034.
0.003
0.003
_Q*002_
0.003
0.003
_o*ooa_.
0.025
0.003
_o*oofl_
0.003
0.699
_0*211
0.270
0.699
0*020
0.090
0.184
-0*008
0.003
0.003
-0*205—
0.205
0.205
_0*Q52—
0.158
0.345
-0*121
0. 174
0. 139
-0*145—
0.074
0.065
0*056—
1—20*0—5*0 20*0 34fl*_
70.0 5.0 18.0 621.
18.0 1.0 39.0 490.
_42.J)__4*0 36*0 440*.
160.0 8.0 10.0 357.
160.0 8.0 10.0 357.
-40*0—3*0 20*0 15*.
20.0 0.0 0.0 77.
ZO.O 0.0 0.0 77.
Z0*0__Q*0 Q*Q 22*.
20.0 0.0 0.0 77.
20.0 0.0 0.0 77.
J 20*0 0*0 0*0 22*.
40.0 0.0 0.0 90.
'40.0 0.0 0.0 80.
40*0 0*0 0*0 82*_
39.0 2.8 59.8 77.
36.0 2.7 26.4 300.
32*0 2*2 26*4 3Q0*_
27.0 1.3 20.0 375.
58.0 2.2 30.0 450.
—56*0—8*0 40*0 250*.
30.0 2.3 43.5 350.
30.0 2.5 43.5 350.
30.0 4.0 40.9
70.0 6.0 20.0
45.0 1.7 35.0
25*0—1*8 30*0—
40.0 3.8 50.0
80.0 3.0 49.9
fcfuO—3*0 15*0
75.0 3.0 5.0
150.0 7.5 20.0
_213*0 8*0 12*2—
213.0 8.0 39.9
213.0 8.0 39.9
20*0 4*2 18*0—
70.0 4.9 18.0
70.0 4.9 20.0
—22*2__2*0 6.0*0
49.9 1.6 50.2
49.9 1.6 50.2
-142*2 4*2 22*0
149.9 4.9 27.8
149.9 4.9 27.8
J 15*1—4*3 15*1
10.0 0.0 0.0
10.0 0.0 0.0
J 10*0—0*0 0*0-
10.0 0.0 0.0
10.0 0.0 0.0
J 10*0 0*0 0*0
10.0 0.0 0.0
10.0 0.0 0.0
J io*o a*o a*a__
-------�
115
TRACT 10.00
31P..0
3858.3
1 1.6 0 1
0.0
0.123
1 10.0
0.0
0.0
0. 1
11*
TRACT 11.03
373.(1
3860.1
1 6.30 1
0.0
0.307
1 10.0
0.0
0.0
0. 1
117
T8ACJ-J2.0O
374.11
-Jil5fi.4
1 6.00 1
-O.Q
_ Q.64B
„i lfi.Q
.0,0
0.0
0. i
118
TRACT 13.00
375.4
3856.5
1 4.60 I
0.0
0. 399
1 10.0
0.0
0.0
0. 1
1 19
TRACT 14.00
374.0
3853.6
1 4.70 I
0.0
0.207
I 10.0
0.0
0.0
0. 1
120
TPflCT.15.aQ
3J2.fi
_2853,0_
_i 1 _
_o.a
0.331
—1 _10.Q
.Q.Q _.
0.0
_u,_l
Ul
TRACT 16.00
375.5
3863.5
1 7.70 1
0.0
0.135
I 10.0
0.0
0.0
0. 1
122
TRACT 17.00
3 76.3
3862.0
1 5.80 I
0.0
0.254
I 10.0
0.0
0.0
0. 1
123...
TRACI_a8.01
37Z.1
- 3l3S2.1_
J .. -17.20.. .1 __
_Q.a._ _
_ __0.7it&_
1 1Q.Q
.0.0 Q.Q
Q._l
1?^
TRACT 18.02
378.6
3856.4
1 11.00 1
0.0
0.469
1 10.0
0.0
0.0
0. 1
1 25
TRACT 19.00
476.8
3853.8
1 14.80 1
0.0
0.60U
1 10.0
0.0
0.0
0. 1
. J 26
IRACI-2Q.QQ _
_ 372,5_
_
1 20,90 1
o.a
o.aii_
| 10.0
.0.0
0.0
0. 1
127
TRACT 21.01
369.0
3856.3
1 4.60 I
0.0
0.194
I 10.0
0.0
0.0
0. 1
128
TRACT 21.02
3(9.2
3054.0
1 8.80 1
0.0
0.546
1 10.0
0.0
0.0
0. 1
. 129_
.TRACT 21.Q3 _
311.1
31152.2
1 7.90 1
Q.Q __
Q.35B-
i 1Q.D
0.0
0.0
0. 1
130
TRACT 22.00
368.8
3858.6
1 8.20 1
0.0
0.338
1 10.0
0.0
0.0
0. 1
131
TRACT 73.00
370.6
3861.2
1 16.00 I
0.0
0.677
1 10.0
0.0
0.0
0. 1
.... 132 .
IB ACJ._24«UQ
3B3.4 —
3Ua4.2__
1 .226.30 1
Q,a
_ _ 4.526
1 _1Q,Q
-Q.Q
-Q.Q
0,-1
133
TRACT 25.01
3br>.9
3H69.4
1 17.70 1
0.0
0.168
1 10.0
0.0
0.0
0. 1
1 31
TRACT 25.02
3C 7.6
38b7.0
1 5.00 1
0.0
0.351
1 10.0
0.0
0.0
0. 1
. 135
TRACI.25.03
336,5
3B&4.Q„
-1 25,50...-l..„
Q.Q
0.4Q2
1—10.0 0.0
O.Q _
_ 0. 1
136
TRACT 26.00
381.8
3865.9
1 81.60 1
0.0
1.414
1 10.0
0.0
0.0
0. 1
1 37
TRACT 27.00
374.7
3U66.9
1 44.30 1
0.0
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1 10.0
0.0
0.0
0. 1
... 138.
,TBACT .20.00
3J35.0
1 100.50 __1
_Q.Q
2,330
J 10.0-
_Q.fi
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.. Q._ 1
139
TRACT 29.00
179.1
3U50.1
t 44.30 t
0.0
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1 10.0
0.0
0.0
0. 1
140
TRACT 30.00
385. 3
3845.7
1 133.00 1
0.0
2.306
1 10.0
0.0
0.0
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.. 141-
TBAci-3i.oa
3B7.7
3036.1_
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.-Q.Q
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-O.Q
_0.0_
. ..-Q.-l
142
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377.1
3827.4
t 223.80 1
0.0
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1 10.0
0.0
0.0
0. 1
143
TRACT 33.00
372 .0
3840.3
1 115.00 1
0.0
1.745
1 10.0
0.0
0.0
0. 1
_ J44_
JFACI-.3ft.Q0
324.3
3B45.a_.
._1 19.00 1
.-0.0
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0.0 .
._ Q._l
145
TRACT 35.00
368.9
3847.9
1 16.20 1
0.0
0.186
1 10.0
0.0
0.0
0. 1
146
TRACT 36.00
366.9
3852.9
1 21.90 1
0.0
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0.0
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IBACI 31.QQ
3f>5,2_ .
3B£2.3_.
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369.3
3865.9
1 29.20 I
0.0
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1 10.0
0.0
0.0
0. 1
149
TRACT 39.00
3fc<1.6
3873.2
1 118.80 1
0.0
2.405
1 10.0
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150.
IRACT.40.liJ
370.2
3Qflfc.2_-
—1 260.70 1
. O.Q _.
5,411...
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0.0 _
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0._l
151
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357.1
3886.7
1 210.30 1
0.0
2.062
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0.0
0.0
0. 1
15?
TRACT 232.0
392.4
3864.8
1 62.10 1
0.0
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1 10.0
0.0
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153
... TRACT. 233*0- -
- __3fi9,3
3fi67.fi
1 7.90 1 .
0.0
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1. 10.0
0,0 _
0.0
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...0.127
o.a
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_i 0.0 1
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„_0...l
157
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ft. 145 , .
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160
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16 1
• 0.0^5
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1 0.0
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162.
Q*Q»b
o.u
0.0-
-1- 0.0 _ 1.
_0.0
£.0
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.0,0
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_ _Q._I
163
0.123
o.o
0.0
1 0.0 1
0.0
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1 0.0
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164
0.307
0.0
0.0
( 0.0 (
0.0
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1 0.0
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. 16b.
0.6411
... 0.0
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_I 0,0 i
-Q.Q
0.0
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.0,0
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Q._l
166
0.3'»9
0.0
0.0
1 0.0 1
0.0
0.0
1 0.0
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0.0
0. 1
167
0.207
0.0
0.0
1 0.0 1
0.0
0.0
1 o.o
0.0
0.0
0. 1
168..
... 0.331
0.0
Q.O
-1 Q.Q i
Q.Q
0,0 _ _
__] O.Q-
.0,0
-0.0
Q.-l
169
0. 135
0.0
0.0
1 0.0 1
0.0
0.0
1 0.0
0.0
0.0
0. 1
170
0.254
0.0
0.0
1 0.0 I
0.0
0.0
1 0.0
0.0
0.0
0. 1
171
.... 0,766 .
J.O
Q.Q
l o,a _ _i_
-0.0
Q.Q
__J 0.0-
.0,0
Q.Q
0.-1
17?
0.469
0.0
0.0
1 0.0 1
0.0
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1 0.0
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0. 1
173
C.6C8
0.0
0.0
1 0.0 I
0.0
0.0
1 0.0
0.0
0.0
0. 1
174
0.874
__ Q.Q 1
0.0
1 0.0 1
-Q.Q
Q.Q
1 O.fl
.0.13 _
-0.0
__ Q.-l
175
0.194
0.0 1
0.0
1 0.0 1
0.0
0.0
I 0.0
0.0
0.0
0. 1
-------�
176
1 77 ....
178
17*)
181
182
18.3
184
1 K5
186
137
188
18.9
190
191
19?._ ...
193
194
195.. _.
196
197
198.
199
POO
?01.
0.646
. 0. J5B ._
0.338
C.677
.0,M96.
0. 168
0.351
. 0.402 .
1.414
0.145
..Z..33.8
I .579
2. 306
.1.339
2. 578
1.745
.0.41,7.-
0. 186
0.46?
-1.091 ...
0.350
2.405
5-.411....
2.06?
1. 195
0.196. .
J—
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
_JK Q 1 D..Q Q..U i U*Q Q»Q D*Q Q*_
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
-0-.Q i 0*0 Q.m.0. J 0*Q__tUQ 0*2 0*_
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
._fl*i) 1 0*Q 0*Q 1 0*U__fl*Q Q*Q 0*_
0.0 t 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I O.O 0.0 I 0.0 0.0 0.0 0.
_0*Q 1 Q*Q 0*Q 1 0*fl__fl*ll 0*Q Q*-
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
_fl*0 i 0*Q Q*Q i Q*Q__Q*2 0*0 Q*_
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
_fl*i1 1 0*Q 0*0 1 0*fl__fl»fl 0*0 Q*_
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
—0*0 i 0*0 Q*Q 1 0*Q__0*fi 0*0 0*_
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
,_fi*D 1 0*0 11*0 J 0*0 0*0 0x0 Q*_
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
0.0 I 0.0 0.0 I 0.0 0.0 0.0 0.
_0*fl i 0*0 0*0 ! 0*fl__0*fi Q*fl Da-
-------�
AQOM RUN -YEAR 1985- FOR GREENVILLE COUNTY, SOUTH CAROLINA
FETEOROLOGICAL INPUT DATA FOR ANNUAL
10/21/76
MIXING OEPTH « 950. METERS
AMBIENT TEMPERATURE = 62. DEGREES.FAHRENHEIT
AMBIENT PRESSURE » 1000. MILLIBARS
STABILITY CLASS I
HINOSPEEO CLASS
DIRECT ItN
1
2
3
4
5
<
N
• 00023
.00034
.0
.0
.0
.0
NNE
.00010
.00030
.0
.0
.0
.0
NE
.00009
.00068
.0
.0
.0
.0
ENE
.00024
.00053
.0
.0
.0
.0
E
.00052
.00095
.0
.0
.0
.0
ese
.00023
.00030
.0
.0
.0
.0
SE
.00015
.00042
.0
.0
.0
.0
SSE
.00011
.00034
.0
.0
.0
.0
S
.00016
.000 53
.0
.0
.0
.0
SSW
.00015
.00034
.0
.0
.0
.0
su
.00Oil
.00087
.0
.0
.0
.0
wsw
.00024
.00046
.0
.0
.0
.0
H
.00021
.00065
.0
.0
.0
.0
WNH
.00024
.00042
.0
.0
.0
.0
NW
.00024
.00053
.0
.0
.0
.0
NNH
.00015
.00030
.0
.0
.0
.0
-------�
AQOM CUN -YEAR 1985- FOR GRtENVlLLE COUNTY, SOUTH CAROLINA 10/21/76
CrTECItOLOr.ICAL INPUT DATA FOR ANNUAL
tt
I
O*
STABILITY CLASS ?
WI NO DIRECT ICN 1 2
N .00208 .00312
NNE .00151 .00255
NE .00164 .00399
FNE .00162 .00357
E .00207 .00396
ESE .00116 .00270
SE .00116 .00148
SSE .00119 .00129
S .00161 .00202
SSW .0J104 .00270
SW .00126 .00319
hSW .00125 .00300
W •00139 •00240
WNW .00108 .00145
NM .00168 .00190
NNU •UO14 4 .00164
WINOSPEE D CLASS
3 4 5 6
.00114 .0 .0 .0
.00129 .0 .0 .0
.00167 .0 .0 .0
.00160 .0 .0 .0
.00126 .0 .0 .0
.00114 .0 .0 .0
.00038 .0 .0 .0
.00053 .0 .0 .0
.00103 .0 .0 .0
.00141 .0 .0 .0
.00221 .0 .0 .0
.00240 .0 .0 .0
.00114 .0 .0 .0
.00087 .0 .0 .0
.00084 .0 .0 .0
.00068 .0 .0 .0
-------�
AOOM BUM -YEAR 1985- FOR GREENVILLE COUNTY t SOUTH CAROLINA 10/21/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 3
HINDSPEED
CLASS
WIND DIRECT ICN
I
2
3
4
5
6
N
.00074
.00357
.00319
.00068
.00011
.0
NNE
.00082
.00365
.00373
.00080
.0
.0
NE
•00088
.00437
.0OB40
.00118
.0
.0
ENE
.00057
.00319
.00578
.00087
.0
.0
E-7
E
.0006b
.00365
.00300
.00011
.0
.0
fcSE
.00045
.00186
.00160
.00004
.0
.0
SE
.03046
.00209
.00061
.0
.0
.0
SSE
.00031
.00129
.00084
.00004
.0
.0
S
.00059
.00266
.00266
.0
.0
.0
SSk
.00063
.00262
.00407
.00057
.0
.0
SW
.00068
.00316
.00734
.00183
.00019
.0
WSW
.00035
.003 98
.00898
.00164
.00011
.0
M
.00066
.00369
.00441
.00076
.00004
.0
.00061
.00198
.00186
.00027
.0
.0
NM
.00047
.00240
.00186
.00019
.0
.0
NNW
.00040
.00164
.00278
.00065
.0
.0
-------�
AOOM HUN -YEAR 19B5- FOR GREENVILLE COUNTY, SOUTH CAROLINA
•"ErFOROLOGICAL INPUT OATA FOR ANNUAL
10/21/76
w
00
STAR ILITY CLASS
WINU UIKPClICN
N
NNfc
NE
ENF
E
ESE
SC
SSE
S
SSW
SU
wsv.
M
WNM
NU
NNW
1
.00287
.00288
.003(18
. 00207
.00320
.00167
.00154
.00177
.00244
.00180
.00233
.00227
.00166
.00150
.00149
.00131
2
.00753
.01053
.01757
.00898
.006 2 4
.00407
.00304
.002 97
.006 92
.00555
.00780
.00612
.00517
.00316
.00285
.00194
WINDSPEE D
3
.0064 7
.01343
.03183
.01221
.00582
.00179
.00095
.00164
.00589
.00955
.02035
.01616
.00658
.00167
.00243
.00255
CLASS
4
.00898
. 1)0719
.01970
.00628
.00118
.00030
.00011
.00049
.00137
.00445
.01829
.01886
.0063 9
. 1)0209
.00190
.00666
5
.00133
.00057
.00114
.00019
.00004
.0
.0
.0
.00049
.00049
.00259
.00243
.00091
.00061
.00038
.00152
6
.00004
.00004
.00038
.0
.0
.0
.0
.0
.00011
.00019
.00027
.00091
.00038
.00004
.00004
.00011
-------�
AODH RUN -YEAR 1985- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/75
HETEUKOLCIlilCAL INPUT DATA FOR ANNUAL
I TV CLASS 5
WINOSPEEO
CLASS
DIRECTJCM
1
2
3
4
5
1
N
.01603
.02769
.00715
.0
.0
.0
NNt
.01028
.02883
.00719
.0
.0
.0
NE
.0JB1U
.02362
.00635
.0
.0
.0
fcNE
•003B3
.00829
.00183
.0
.0
.0
E
.00415
.006 77
.00027
.0
.0
.0
ESE
.0039?
.00388
.00004
.0
.0
.0
SE
.00451
.003 96
.0
.0
.0
.0
SSE
.003*4
.00399
.00023
.0
.0
.0
S
.00694
.01046
.CO099
.0
.0
.0
ssw
. 00570
.01053
.0OL79
.0
.0
.0
Sw
.00765
.01867
.00753
.0
.0
.0
MSH
.00764
.01852
.01015
.0
.0
.0
W
.00746
.01746
.00574
.0
.0
.0
WNh
.0057 7
.00905
.00148
.0
.0
.0
NM
.00776
.01034
.00164
.0
.0
.0
NNU
. 00953
.01335
.00434
.0
.0
.0
-------�
ACOf RUN -YEAR 1985- FOR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
INPUT REGRESSION PARAMETERS ARES
PCi LUJ.ANI JtJflT£BCE£I SLO££_
PARTICULATES 0.0 1.0000
-------�
AOOH RUN —YEAR 1985- POR GREENVILLE COUNT*, SOOTH CAROLINA
10/21/76
J j8ECLeia£_CCN££MJ£MJ0H_EAlA
I I I
I WtCFPTW I RECEPTOR LOCATION I EXACTED ARITHMETIC MEAN
I I IKlLPMfcTERS) I I MICROGRAMS/CU. METER I
I 1 HUB1Z YEBI J SC2 EABIKULAIf
I I I I I
I I I 364.O I 3844.U I 0. I 43.
I I I 36'-. O I 3846.0 I 0. I 41.
I . .. . 3__. I 364*a„l__3fl4fl«Q 1 0,. 1 42*
I 4 t 364.0 I 3850.3 I 0. I 43.
I 5 I 364.0 I 3852.0 I 0. I 42.
I 6 1 3&4*0_.l 31154*0 I 0. i 42*
I 7 I 364.0 I 3856.0 I 0. I 41.
I t> I it 4.0 I 3058.0 1 0. I 40.
1 9 i 364. 0 1 3fi60*fl 1 11* 1 4(1*
I 10 I 364.0 I 3862.0 I 0. I 40.
I II t 364.0 I 3814.0 I 0. I 30.
I 12 I 364,0 1 3i)i>6-.0 J a. 1 39*
I 13 I 364.0 I 3868.0 I 0. I 38.
N I 14 I 364.0 I 3870.0 I 0. I 38.
I I IS _ I 364.0 i 3822.Q J 0* 1 31,
fcj I 16 I 366.0 t 3844.0 I 0. I 44.
^ I 17 I 3t6.0 I 3846.0 I 0. I 45.
I 18 I 3fl4JB*0 I 0* J 45.
I 19 1 366.0 I 3850.0 I 0. I 45.
I 70 I 366.0 1 3852.0 I 0. I 45.
I 21 I 3i>i>. U 1 3flS4*U 1 0* J 4i*
I 72 I 316.0 1 3856.0 I 0. I 43.
I 73 I 366.0 I 3858.0 I 0. I 42.
J 24 1 3fcf>.D__l 3fif>D«0 J Q* 1 42*
I 25 I 366.0 I 3862.0 I 0. I 41.
I 26 I 366 . 0 I 3864.0 I 0. I 40.
1 2 7 _ _ . I 366. Q J 3366.. Q 1 0* 1 4Q*
I 78 I 366.0 I 3868.0 I 0. I 39.
I 29 I 366.0 I 3670.0 I O. I 39.
I ... -30 I 366*0__l__JflJ2*Q J 0. 1 3fl*
I 31 I 368.0 t 3844.0 I 0. I 46.
I 32 I 368.0 I 3846.0 I 0. | 47.
I 33 I Jtfl* 0 J 3340*0 J (1. 1 64*
I 34 I 368.0 I 3350.0 I 0. I 48.
I 35 I 368.0 I 3852.0 I O. I 48.
I.. _.36 J 3bb.0._1 3BM»0 I Q* 1 42*
I 37 I 368.0 I 3856.0 I 0. I 47.
I 3H I 368.0 I 3850.0 I 0. I 46.
.1.. . 39.. 36a.0__J 3fl6Q*0 ! Q* 1 43..
I 40 1 36H.0 1 3fl£2*Q J 0* i 42*
-------�
ACr> RUN
-VEAR 1985-
I tlH GREENVI LLE CCUNTY, SOUTH CAROL I KA
10/21/76
fiECIPIC£_£ttliIMBiIl£N_EAI£
I I
RECFPTOR I RFCFPTliP. L COAT ICN I EXPECTED ARITHMETIC MEAN
... MIMBfiR I i
I (K1LHMFTE HSI I IM1CR0GKAMS/CU. METER!
J HDJB1Z YEiU I SD2 £ABI1CULAI£S__
III I
41 I 36 8-0 I 3864.0 I 0. I 41.
. .42 J 368*0. _i_-3Ji:ti*U 1 Q* J 4J*
43 I 368.0 I 3868.0 I 0. I 4i>.
44 I 368.0 I 3870.0 I 0. I 39.
. .. 45 J Joti.Q— J I Q* 1 33*
46 I 370.0 I 3844.0 I 0. I 4T.
47 I 370.0 I 3846.0 I 0. I 47.
„ 4fl I 370.0__l_3B?tU.U I Q* 1 42*
49 I 37(1.0 I 3850.0 I 0. I 51.
50 I 370.0 I 3852.0 I 0. I 51.
31 J 3 7J*Q__i__3B5£*Ll I Q* 1 5i*
52 I 370.0 I 3856.0 I 0. I 53.
53 I 370.0 I 3 858.0 I 0. I 50.
54 J 320. Q__l 3 600. SJ 1 U* 1 63*
55 I 370.0 I 3812.0 | 0. I 45.
56 I 370.0 I 3864.0 I 0. i 42.
..... 57 J J7J#0..1 3U66.0 1 Q. 1 41*
58 I 370.0 I 3860.0 I 0. I 41.
5 "i I 370.0 I 38 70.0 I 0. I 40.
.AO.. . I 370*0__J __3U72.0 I 0. 1 3a*
fil I 372.0 I 3844.0 I 0. I 47.
12 I 372.0 I 3046.0 I 0. I 47.
43 1 J72»0. _ I. .3.350.0 I 11* i 42*
64 I 372 . 0 I 3850.0 I 0. I 51.
65 I 372.0 I 3152.0 I 0. I 53.
66 J 372.0_._1 3d54.il i Q. 1 53*
67 I 372.0 I 3956.0 I 0. I 61.
68 I 372.0 I 3353.0 I 0. I 56.
6«J I 372.0 1 386.0*0 1 Q* I 4fl*
70 I 372.0 I 3862.0 I 0. I 46.
71 I 372.0 I 3 864.0 I 0. I 43.
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74 I 372.0 I 3870.0 I 0. I 40.
75 I. . ,.37,2»0. ..I...3872*0 I Q* 1 40*
76 I 374.0 I 3844.0 I 0. I 47.
77 I 374.0 I 3846.0 | 0. I 48.
.. _ .78 I 374,0.. J.,33.48.0 J Q* 1 49*
7<» I 37 4.0 I 38i.l).0 I 0. I 50.
M>.. . I.., 374.0 .1 3952*0 i 0a 1 50a
-------�
*CRf PUN -YEAR l lrtb- t OR GREENVILLE COUNT*. SOUTH CAROLINA 10/21/76
StCf£JC3_Cna£ttjJJJfllJt:M_I3AIJS-.
receptor
RECEPTOR
1
LCCAT11H 1
EXPECTED ARITHMETIC MEAN
MIPBEB
1
IKIIOH
TEHSI 1
I HICROGRAMS/CU. HETERI
bOBIZ
K£BJ _J
SG2 £AEU£ ULAJfS _
i
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37 4* 0
(
—3J54.*JJ t__
__ .. . _l S2*_ _
82
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3156.0 t
0. t 53.
83
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0. 1 55.
JF f»
374.0_
3H60-.D J_
0. 1 ">0.
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17 4.0
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0. 1 46.
86
374. 0
3364.0 1
0. 1 44.
BT
314*0 _
1B&6*£ _i_.
0* .1 42.
Hfl
374.0
3068.0 1
0. 1 41.
H9
314.0
36 70.0 1
0. 1 41.
90
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—3872*0 J__
_Q* . - .. — J. 40 -
SI
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92
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93
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94
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-------�
AOCM kUN -YEAR 1905- FOR GREENVILLE COUNTY. SOUTH CAROLINA 10/21/76
SflLRCF COUTKI OUT IONS 10 FIVE MAXIPLP RECEPTORS
ANMjAI PARTICULATES
MICPOGPAMS PFR CUBIC METER
SO UPC F
RECEPTOR
KECfPTUM | KECEPTUR I RECEPTOR 1
RECEPTOR I
33
54 1 Ll 1 tS 1_
__aa 1
1
1. IS *
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0.07 X 1
ll.J314__
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ft. 7b *
0.07 % 1 0.11 C 1 0.09 t 1
0.10 X 1
5*6336
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Q*Q565_ i
3
1 3. 78 %
0.12 < 1 0.11 I 1 0.14 X 1
0.16 X 1
9* 060.7
0*QZ2£_ 1 __ fl»105£ i a^aihl _1
o*oaaa i
4
4. 76 *
0.04 1! 1 0.06 t 1 0.05 X 1
0.06 X 1
3.062S
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0.00 X 1 0.00 X 1 0.00 % I
0.00 X 1
0.0025
a. oo.cij__ i o*o an__l o^oaoa i__
__J*000i) 1
16
0.00 *
0.00 « I 0.00 % 1 0.00 X 1
0.00 X 1
O.OOOl
0.0001 i 0*0000 1 0..0001 _!
0*0001 1
1 1
0.00 l
0.00 X I 0.00 X 1 0.00 Z |
"o.oo * I
. .
0.0023
0*0010„1 0*00ia__l 0*Q0ii L
__0*QQ16__i
1 8
0.00 X
O.OO [ I 0.00 i 1 0.00 X I
0.00 X 1
_
o.ooo*
0*0J0J__.l 0*0005__J 0*0004-_1__
__a..aQQ6__i
IV
0.00 i
0.00 * 1 0.00 X 1 0.00 i I
0.00 i 1
0.0004__
0.0J0J__1 0*0005—1 0*0004 L
0*0Q06 i
?0
0.01 *
0.01 { I 0.03 X 1 0.02 X I
0.01 X 1
0*0036
0*0034 1 0*0159—1 0,.0flfl5__l__
I
2I
o.oo j:
0.00 < I 0.00 i 1 0.00 t I
0.00 X 1
O.OOll-_J
0. d'JOJ__ i 0*00111—J 0*0016 1
Q*QQ2J 1
-------�
ACOK FUN -YEAR 19R5- FCR GREENVILLE COUNTY, SOUTH CAPOLINa 10/21/76
SOURCE CONTRIBUTIONS T Tt flVE MAX IK IK RECEPTORS
ANNUAL PARTICULATES
KICPTGRAXS PER CUBIC METfk
UKCF
RECEPTOR 1
HECrrTOR 1
RECEPTOR
1
RECEPTOR 1
RECEPTOR I
__J3 l-_
„ 54 _ 1
__
1
6 a -i—
83 L
??
J.JO I 1
O.JO % 1
0.00 X
1
0.00 X 1
0.00 * 1
0. 00 J J J
fl.flfllB—
i_
Q..0J2U__i_
(Kaazj—i
>3
0.00 t 1
O.JO X 1
0.00 *
1
0.00 * t
0.0i X 1
D.ouia__i_
O.OUJJ 1„
D«fla2a_.
i_-
fl-.QQ25__l_
QxQflaa L
" ?4
o.ao : 1
0.00 % 1
0.0 L X
l
0.01 X 1
0.01 X 1
U.0U2
-------�
ACCM IIJM -YEAR 19H5- PflR GREENVILLE CCIN1Y. SOUTH CARCL1M 10/21/76
sotipr.i r.ONTSimiTinNS m i ive maxikip reccptors
AMNUAl PARTICULATES
MICRCl.RAMS [>n< CUBIC METER
SOUPCF
RECEPTOR I
KrcrpioH
RECCPTOK I RECEPTOR
RECEPTOR 1
33 _i
54_ _ _
Ill J 6.B
-fl3_ _1
0.00 X 1
0.00 *
0.00 X 1 0.00 X
0.00 % I
__
0.0010_-i
O.OiiEJ—
lK001ii__J Oj.0012
0*0 Q16 I
44
O.UO ( 1
0.00 t
0.03 * | 0.02 X
0.02 X 1
tf.U032__i_
0..0G2J—
0*0100 1 Q..A.U3
Q*(1Q2-1__1
45
0.00 * 1
0.00 %
0.03 X 1 0.02 X
0.02 X 1
_0«UQ32 1
0^Jii2J_
0*01I2__1 0*0126
0*Q031 1
46
0.00 % 1
0.00 %
0.00 X 1 0.00 X
0.00 % 1
O.UQOH 1_
0.0003—
D..OJOO 1 _ O..OOQ6
0*Q02J_ 1
47
0.00 X 1
0.00 t
0.00 I I 0.00 X
0.00 Z 1
. --.0.0JQ6 _J
Q.OJ££
-O.UOOS J fl*000^
0*0QQ5 _i
4H
0.00 i 1
0.00 X
0.00 I 1 0.00 X
0.00 I 1
- 0.0023 _1
0.0024-
0*001fl__l 0*0020
Q^aQ18__l
4<>
. 0.00 t 1
0.00 I
0.00 % 1 0.00 X
0.00 % 1
—O.OJQl J
Q.0J,0_1_
0.0001 1 Q*0001__l
0*QQQ1 L
50
o.oo t I
0.00 1
0.01 X 1 0.01 X
0.01 % 1
d.OOli J_
0.0013—
0.0030 I 0*0036
0»QQi5__J
51
0.01) * I
o.oo i
0.00 X 1 0.00 X
0.00 t 1
o.caui _l
0.0JC2—
£.0004 I 0 j. 0004
0*0005__1
1i?
0.00 X I
0.00 1
0.00 X 1 0.00 i
0.00 { 1
o.ooia _i
Q.OjJO.9—
Q.0U15—J 0*0014
0*QQ12 I
53
0.03 i i
0.01 X
0.01 X 1 0.01 X
0.01 X 1
O.OltlC 1
Q*!)J)£ii_
O.DDIO 1 0*0065
Q*QQ £»3 I
54
0.01 i I
o.oi ;
0.01 X I 0.01 X
0.02 X 1
^ .
JU.WJ3 J
Q.OjOAI—
0*OOZfl__l 0..0026
0*Q1Q3 I
55
0.01 * 1
0.00 t
0.01 i 1 0.01 X
0.01 % I
__J).0043 _J
0.002J
0.B032 1 0*0036 _1
Q*0Q5Q i
56
0.01 X 1
0.01 4
0.01 X 1 0.01 X
0.01 X 1
_ _ 0.0036 1
0.0070
0.00J1 1 _0*0055
Q*Qfl35 I
57
0.04 t 1
0.05 *
0.04 X 1 0.04 X
0.04 i I
fl.02S6__.l_
_0-.034-1
0.1)215 1 <0.»i)22B
0*020Q i
5tl
0.00 t I
0.00 1
0.00 X 1 0.00 %
0.00 X I
... -0.0012 .1
0.001 JL
0.0011 1 0*0012
O.liQlQ I
5<)
0.00 i 1
0.00 (
0.00 X 1 0.00 X
0.00 X I
... ...
0.0016 .1 _
0.J02J_
0.1/014 1 0*0015
Q*0Q13 1
60
0.00 * 1
0.0 1 1
0.00 X 1 0.01 X
0.00 % 1
0.0030 _i__
0.J042—
0.002J 1 0,.i)fl29
0*0 Q2i 1
61
0.00 % 1
0.01 i
0.01 X I 0.01 X
0.01 X 1
0.0023 1
a^ouiiii—
0*1)030 I 0..0 042
Q..0Q42__1
6?
0.01 « 1
0.02 1
0.02 X 1 0.02 X
0.02 X |
....0.0062 1
0.0115—
0.0103—i 0*0113
0*0123 1
1.3
0.03 * 1 .
0.07 1
O.Ofc X 1 0.07 X
O.OB X 1
.. .....
0.0221)__.l_
t)*Q4J.Z—l
o*J35a_J o_.fl39i.__J
0*Q4£i4__l
-------�
RUN -VFAR FPR GREFNV I LI £ fCWV. SOUTH CAROLINA 10/21/76
SOIIRCF CONTRIBUTIONS TO FIVB MAX IMC PlCtPTCKS
AMKUtl PAhTICULATt-S
PICEOGPAXS PtP CUR1C MtTfcR
w
I
H
*4
RECtPTOR I
.. _3> 1_
0.03 * I
0.011)4 1_
0.09 X I
0.0'jSl—1-
0.01 * I
0,0024 1-
0.03 * I
0.0169—1-
0.01 X I
0.0063—1.
0.01 * i
_O.U063 1.
0.23 * I
0, 145fi__l.
0.00 I I
0*0005—i.
o. no x I
C. 001)5 J_.
0.110 Z I
0.0022—1
0.00 S I
u.QOQa I
n.no * I
0.QQ03_,1
0.00 t I
o.aau—1.
0.00 t 1
0. 0017„1
0.01 1 I
0.0PS2 L
o. on t I
Q.0002 1
o.on x t
0.0002 l
0.05 * I
a.Q30t__l_
0.00 * I
0. 0014—1
0.00 t
0.0001_
' 0.00 i
0,0001..
I
.1
I
-1_.
RfiCfPTCB I
54 1_.
0.VJ5 * I
—D.034.4__l_
0.16 ? I
—o.ujm_-i-
0.02 % I
—o»aij£„J_
0.02 I |
Q,013-2__1„
0.01 * I
— -0,fl£4a_-l-.
0.01 t I
fl.OC4.9__l_
T.5S t I
4*liiil 1.
0.00 t I
—s.ass^X-
0.00 * I
0. J 00.2 1_
0.00 X I
0,00JJ__1_
0.00 X 1
0.0 DOi J.
0.00 I I
-O,O0O.S_-1-
0.02 * I
0,i>J.4i)__J_
0.02 X (
Q.D13_5__J_
0.0% « I
0..0JJJ—1.
0.00 t 1
—Q.ao.viA__l-
0.00 * I
4*0004-1-
20.35 * )
.—12J35S—1_
0.00 '( 1
—o.oojlb—1_
o.oo t I
0,00.0 J i_
0.00 « I
0.0OU_l__l_
RECEPTOR
62-
J.05 %
___o«£2aa_
o. is %
£.2326-
0.02 X
0*0120.
o.o<» X
0*Q24Q.
0.01 *
o,Qaa9.
o.oi t
0,00119.
0.44 *
0*2632
0.00 t
£*0003.
o.oo I
0*000.3
0.00 %
0.0J1S
0.00 z
0.0 JOB.
O.OO I
0*jO003.
0.01 %
J), 0035.
0.01 %
0,0034
0.01 X
0,0100-
0.00 t
0,OOU1_
0.00 *
—0,0301.
0.08 %
0,0501.
0.00 %
0.0022-
0.00 X
0,0001
O.oo *
0,0001
I RECEPTOR |
1 6U 1„
I 0.06 % |
1 0*032b 1_
I 0.18 J J
J 0,0319 1_
I 0.02 X |
-i Q.aui—i_
I 0.04 X I
-i 0,0 223-1-
I 0.01 Z |
-J Q*ooa3—1.
I 0.01 X I
_i 0*0033—1.
I 0.70 ( |
_J o, jiiai i.
I o.oo x |
-0,0002—1.
0.00 X |
.1.
I
_1 0,0002 I
I 0.00 J I
_1 0*0016—1.
I o.oo i |
_1 o .o jo I I
I 0.00 X I
_J 0,0003 I.
I 0.31 % I
J.
I
_0,0U48-
0.01 X
J 0,0042—1.
f 0.02 * I
_1 0,0130 L.
I 0.00 X I
1 Q,flaaa L.
t 0.00 t I
_1 0,0003 L_
I 0.14 * I
_1 D,0Jfl2—1_.
I 0.01 % I
_1 0,0035—1_.
I 0.00 I |
1 0,0001—1.
I 0.00 X I
.1 0,0001—1
RECEPTOR )
—83 1
0.07 % |
0,02*0—1
0.20 X |
0,1110 1
0.03 % |
0,0142 1
0.05 X I
0,0282 I
0.02 % |
0*0100—1
0.02 t I
0,010a i
0.48 * I
0*2020 1
0.00 X t
5*0003—1
0.00 % |
0,3003—1
0.90 X I
0*002fl—1
O.OO t |
0,0009 1
0.00 i I
0,0003 1
0.00 X I
0*d02.2—1
0.00 % I
0,0023—1
0.01 X I
0*0062—1
0.00 I I
0,0002—1
0.00 t I
0,0002 I
0.06 X I
.— 0*0345—1
0,01 t I
0,0041 1
0.00 I I
.0,0001—1.
0.00 X I
0,0001 1
-------�
AOIlf RUN -YEAH 190 5- FDR GREENVILLE COUNTY, SOUTH CAROLINA 10/21/76
SOURCE CONTR IBIIT IONS 70 FIVE MAX I PIN RECEPTORS
AfcMJAL PARTICULATES
Kir.PCGRAMS PER CUBIC METER
soupce
RECEPTOR
RECEPTOR 1 RECEPTOR 1
RECEPTOR 1 RECEPTOR |
33
54 1 £>/ ...... 1
6J3 i Q3 _ __1
85
0.00 I
0.00 t 1 0.00 X 1
0.00 % I 0.00 t |
.0.0016
O.OOJQJ J 0*0011—J—
0*0006 I 0*0012 1
86
0.00 *
0.01 « 1 0.01 t 1
0.01 * I 0.01 X 1
0.Q02J
O.QjQJJ- 1 —0*0055—1—
0*0016 L Q*QQ2a__l
"til
0.01 *
0.00 1 1 0.00 £ 1
0.00 % t 0.01 % I
0.0036 -
OVJOiJ—i 0*1)022 1__
0*0025 1 0*11023 1
Hfl
0.01 *
o.jo * 1 o.oo t 1
0.00 % 1 0.01 X 1
0.003t>__
0.0013 1 0*0022 1_
. Q.QQ2A _i Q*aaaa l
R9
0.00 *
0.00 II 0.00 X 1
0.00 « 1 0.00 t t
0. 0005-_
i).0flO2 J C.QQQ3—1—
0*0003 1 0*QQ0St 1
90
0.00 *
0. )0 t 1 0.00 * 1
0.00 X 1 0.00 t 1
0.0013
0*002i 1 _ 0*0019 1__
0*0021 1 0*2(120 1
91
0.00 i
0.02 1 1 0.01 * 1
0.02 X 1 0.01 X 1
0.0023
0*01.5.2 J __0*0010_l 0*0105 1 Q*Q OSS—l
92
0.04 *
0.03 ( 1 0.04 X 1
0.03 % 1 0.04 % I
0.0227
0.(1171 1. fi*l)216 J—
0*0183 1 Q*d21B _JL
93
0.02 t
0.01 * \ 0.01 X 1
0.01 % 1 0.01 t I
0.0152
0*0.065 1 0.0012—J—
_Q*Q0Z1__1 Q*OaiQ__l
94
0.0? %
0.01 X 1 0.01 * 1
0.01 3! 1 0.01 % 1
_j:__0.0151__
U.00-65 .1 Q.OOIU i__
DjQOll i 0*QflZ0 L
9b
0.06 t
0.03 1 1 0.03 X 1
0.03 X 1 0.03 I
0. 0392
D* 016.9 J 0*0203 1_ Q.Q1Q4 _I Q*Qlfl2_ 1
96
0. 01 *
0.01 I 1 0.01 * 1
0.01 % I 0.02 X 1
0.0090,..
_ fl.UOA.fl i 0.0016—1__
0*0015 1 0*U1Q2 1
97
0.01 I
0.01 t 1 0.01 X 1
0.01 X 1 0.02 X 1
0. .C0.90
QmQ04A i 0.0076—1—
0*0025 1 0*0102 1
9fl
0.03 *
0.02 % 1 0.03 * 1
0.03 % 1 0.04 X 1
0.0103
_O.OiO.Q 1 0.0160 J—
0*0155 1 0*0212 1
9V
0. 00 *
0.01 % 1 0.01 * 1
0.02 % 1 0.02 X 1
0.0025
0.Q03 J l_ 0*0Qi>4_ 1 -
0*0023 1__ 0*0026 i
iao
0. 00 *
0.00 t 1 0.00 % 1
0.00 X 1 0.00 X 1
„fl.0Q0!>„.
O.J.OOJ I 0.0006 1
0*0003 1 0*0004—1
101
U.OO *
0.00 ? 1 0.00 * 1
0.00 2 1 0.00 X 1
.. ._5.P005__.
_ fl.COCJ 1 Q»Q006_ 1 ..
0*0003 1 Q*0004_ 1
10?
J. 04 X
0.02 X 1 0-04 Z 1
0.04 X I 0.05 X I
0.0233- _1
0.0141 1 0* 0211/ 1—
0*0205 1 0*026 4__1
103
0.04 X
0.02 % 1 0.04 * 1
0.04 X I 0.05 X 1
0.0233
0.0lil__J 0*0212 1—
0*0205 i 0*0264 1
104
0.04 »
0.0 2 ? 1 0.04 X |
0.04 X I 0.05 I 1
0.Q233
O.QlA.l_-l 0*0212 1—
0*0205 1 0*0264—1
10r>
0. 02 X
0.01 % 1 0.02 * 1
0.02 3 1 0.02 X 1
0.012b J.
D*0C.IJ__1 0*0102—1—
0*0105 1 Q*ttl33__l
-------�
ACd* PUN -YEAR 1985- HCR GREENVILLE COUNTY. SOUTH CARCLIHA 10/21/76
SflljPCh CGNTiUIUITlONS TO HIVE MAX1PUM receptors
ANNUM PART lOJLATfS
HICPCGRAMS PER CUBIC METER
SrilRCE
106 ~
I Of"
1CH
109
110
111
112
~ui~
114
115
116
117
"lli"
119
120
121
12?
123
~124~
~125~
126
RECEPTOR I
33 L—
0.22 * I
o.iiua__i
0.54 X I
0,3i52„i_
C.19 * I
0,1211 1—
0.32 S I
l).2Ut>4 1-
0.29 i I
0,1031 !_
0.25 < I
0,1632—1_
0.12 * I
U.flZ56_i_
0.12 * I
a,0I5b—l_
0.0(1 * I
U-Q525 1_
0.19 % I
jj. 1203—1-
0.1T « I
ll.ZliiJ i_
0.10 % I
J3«450a_i-
0.51 4 I
0.33D-7_1_
0.37 * I
>1,2365—1-
0.71 % I
J.456U I-
0.12 * I
j),0ZI4—1_
0.2 IX I
0,13S9-1-.
0.67 « I
a,A33.4—i_
0.40 * I
tl»2562—i..
0.62 * I
JJ.3aS5„J-
I.II I
fl..IlSS_l_
RECEPTOR I
S4 1_
0.25 * I
U,1A52__1.
RCCEPTOR
hi
1.39 I
a,-U4U-
0.52 * I
0.11 I I
—tUdllJ JL
0.24 I I
__0,1S32_1_
0.21 % I
__ikijj:i_i_
0.31 t |
—o,i32J—1_
0.20 1 I
—0,1223 1_
0.20 * I
—Q,12U3 1_
7. 18 X
._i.,3443_
0.38 X
J,223£i_
R.07 I
2.09 X
-_U2«i23—1
1.95 I
_i,ia22—1__
0.4'» x
Q-.26.3U_
0.27 X
__a,i£>4 5.
o.ia x I
—U.114X_1_
0.26 i |
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0.55 i I
-_0,34J3 i.
0.67 { I
-_Q,A244—jL
0.32 * I
1_
0.13 t I
__d.Jfl2.f__ l_
0.26 { I
__0.1£23._J_
0.23 * t
0,146.B i_
0.3t X I
J.2233 i_
0.60 X I
0.27 t I
__a,i6£a i_
0.2B : i
0,1Z65__1_
0.'.. * I
0.33 «
0,2011
0. 91 S
-_a,.54ai—
1.04 t
_0,6322—
2. 15 I
l,J03il
0.93 X
—i).56J0_
0.33 «
—0,2024
0.62 t
—0,3131
0.21 %
—U ,1153
0.55 X
__£U3353
1.19 *
__l1,2224-.
0.47 X
— 0,2.866
0.51 *
—iU3Qh2—
0.73 <
0,43211—
RECEPTOR I
6B L
1.21 X
4.30 3 I
-2,335fl__1.
0.27 * I
_Q,1511 L.
0.87 X I
_0,4U3£i L.
0.77 * I
-0,4230—1-
1.91 X I
_l.,fl620—1-
RECEPTOR I
B3 i
2.15 X I
l,lji4fl—1
3.14 * 1
1,I3Z4—i
0.50 X I
a,2Zii—J
0.92 % I
_Q,iQflil—1
0.89 t
_fl,4aao_.
0.48 i
_jO-.26a4_.
1.02 X
0.62 X I
-0..1AJ6—1
0.86 X I
.0,4252—I
0.34 X I
_u,ia52—1
0.19 X I
_Q,1QZ5_
5.98 X I
_3,33Q2—1_
1.36 % I
-0..2525—1-
1.93 * I
_ua2Zi> l_
l_
0.64 X I
0-.35flJ}__ 1-
0.26 X I
&.1456—1-
0.46 % I
0,2.555—1_
0.35 X I
0-.13&4—1-
0.68 X I
0,3223 L_
1.16 X I
_fl,n43fi—L_
0.4O X I
0,2211—1-
0.45 X I
0,2514—1-
0.64 * I
I.
0.26 X I
.0,1403—I
0.69 X I
-0,3311—1
1.44 * I
-0,1352—1
8.64 S- I
-4,165.5 I
0.-95 X I
-Q,52£Q—1
0.40 X I
.0,2216—I
0.60 * t
_0,331fi—1
0.40 * I
.0*2211—1
0.90 % I
.3*4230—1
1.52 X I
_0,a361—I
0.50 * I
.0,2286—1
0.59 * I
.0*3251—1
0.75 X I
-0,4154—1
-------�
6CI)f HUM -YEAR 19B5- row GREENV1 LIE CCUNTY. SOOTH CAROLINA 10/21/76
SOURCE r.rNTR IHUT IflNS TO I-1V E MAXIMUM RfcCEPTCKS
ANNUM PARTICULATES
firPC<»RAMS PER CUDIC METER
SOLRCE
1?7~~
1?H
1?9
130
M
I
to
o
1 M
13?
133
I 34
135
1 3<>
137
138
139
140
141
14 2
143
144
145
14*.
147
1_.
RECEPTOR
J 3
0.37 S
—D.23ZS 1
1.28 t.
£.11204
0.R9 I
fl.5725.
0.51 X
0.3211—
0.76 X.
0.4U9i—
1.6? v.
.1.0440
0.08 «
O.ObOQ
0. 17 X
0.1063__
0. 19 x
Q.IZZU
0. 76 %
.. Q.4B9-7
0. 11 '/
0.0114
0.07 i
0. 77 t
Q.-493f>
0. 54 *
0.3443
0.23 *
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Q3
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0.1532
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ACCK HUN -YfAK I FOR (JRCF.NV ILI f COUNTY, SOUTH CAROLINA 10/2L/76
SOIiftCF f.ONTK WUTIUNS TO MVE MAX If LK KECEPTCRS
ANNUAL PARTICULATE
HICPCGHAMS PFK CUBIC METt«
I srtmr.f
RECfcPTnp
«F.CEPTO»
RECEPTOR 1 RECEPTOR I
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ACr.M HUN -Vt-AR 1985- H1K GRtCNVILtE CCUNTV. SOUTH CAROLINA 10/21/76
SlillHLF tDNTMlRUTllNS TO I IVC MAX IPUF RECEPTORS
iNMIAI PARTICULATES
KK.HdCRANS PER CUBIC ~"tTTR
source
RFCfcPTOR
KCCtPTOR
1 RECEPTOR
1 RECtPTUR 1 RECEPTOR I
, J3__
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1 _61—
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ACDP RUN -YEAR 19«5- FOR GREENVILLE LOUHTY. SOUTH CAROLINA 10/21/76
SOUPCF CONTRIBUTIONS TO HVF. HAXICLK RECEPTORS
AfiMjAI PARTICULATES
MlffiCGRAHS PER CUHIC METER
SOURCE
RECEPTOR
1
RECIPTOK
1
PFCCPTOR
1 RECEPTOR I
RECEPTOR
1
33
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1
61
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1
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1
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100.1 X
1
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AiJDM PUN -YFAR 19H5- H)R GREENVILLE CCONTY, SOUTH CAROLINA 10/21/76
MEC£CiaJL.CCN£EM£4lltltl-.i:AlJ!.
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1
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1
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1
380.0
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1
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380.0
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ACCM RUN -YEAR 19BS- TOP GREENVILLE CCUNTY, SOUTH CAROLINA 10/21/76
1 RFf.FPTCR r.rNf.FMlPAT ION i;ATA 1
1 RFCi-PTfM
1
RECEPTOR LCCAT1CN 1 EXPECTED
ARITHMETIC MEAN i
1
( KJ Lf.Mt 1ERS 1 1 1 MICRUGRAMS/CU. METER) 1
UQ£1Z ytfil i St2_
| i
. PARUCULAIiS I
1 41
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-------�
ACPM RUN -YFAR 1985- FOR GKEENVJLlE COUNTV. SOUTH CAROLINA 10/21/76
RECEPTCR
iKIUJHk
m&n
I
J9U.0
310.0
MCkl!JW-m)£thJlUllVN-.LAlA-
LCCATICN
TFiisT
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3(156.0
3858.0
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3B64.0
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AQKM BUN -YEAR 13H5- FAR GREC-N V IL L fc COUNTY, SOUTH CAROLINA 10/ZI/T6
SOURCE CONTKIRUTIONS TO FIVE MAXIKUP RECEPTORS
ANMIAI PARTICULATES
CirprGRAMS PER CUBIC METER
1
10
11
12
13
14
1*5
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17
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ACOP RUN -YEAR ISB5- FOR GREENVILLE CCUNTY. SOUTH CAROLINA 10/21/76
SOURCE CONTRIBUTIONS TO FIVE MAXIPUf RECEPTORS
ANNUAL PARTICULATES
MfrsCGRAMS PER CUBIC METER
PJ
I
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-------�
iCDM fcl/N -Vf4K 1985- FCR GREENVILLE t f CNT Y, SOUTH CAROL IM 10/21/76
SmiOCF CON TR1 PUT 10 MS 10 FIVE MAX I CLK RECFPTQRS
AhNUtl P ARf 1CUL4TES
MICROGRAMS PER CUBIC P6TFR
RECFPTOR
7
0.01 X
0.0028-
0.0(3 *
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ACOt' RUN -YFAR 190 5— FOR GREENVILLE COUNTY > SOUTH CAROLINA
SOURCE CCNTR JBUT JONS TO FIVE MAX 1 PL P RECEPTORS
ANNUAl PARTICULATES
MICROGRAMS PER CUBIC METFR
10/21/76
RECEPTOR
I
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AOIlV PUN -YEAR 19(15- KIR GREENVILLE C CLINT Y. SOUTH CAROLINA 10/21/76
SOt'Rtr rnHTP.l BUT KINS TO FIVE HAXlfLH RECEPTORS
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AQI1M RUN — YEAR 1985- PGR GREENVILLE CCUNTY, SOUTH CAROLINA 10/21/76
SfllJRCF CPNTR I BUT IONS 10 I IV E MAXIMUM RECEPTORS
ANNUAL PAKTICULA TPS
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ACO* HUN -YEAR 1905- FOR GREENVILLE COUNTY, SOUTH CAROLINA 1C/ZI/76
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ACItM RUN —YEAR 19B5- fCR GRFEHVI LLE CCUNTY, SOUTH CAROLINA 10/21/76
SOIIRCF CONTRIBUTIONS TO IIVE HAXIfUC RECEPTORS
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0.0
. 0.0
t 1
. _i
0.0
X 1 0.0
i _U„»)
* 1
1
0.0
_Q,Q
X 1
_ _ 1
-------�
ACfl« CtIN -YEAR I9BS- FOR GREENVILLE COUNTV, SOUTH CAROLINA 10/21/76
SOUPCF CHNTKIBUT IONS ID FIVE KAXIMLM RECEPTORS
ANNUAI PART ICIJLA TE S
Ml CPCURAMS PER CUBIC METFR
SOURCE
RAT K—
GtmwD
TOTAL
Q*Q
62.60 X
_22*
100.0 X
_4&.12a<2__l
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