EPA 904/9-77-013
CHARLESTON, SOUTH CAROLINA
AIR QUALITY MAINTENANCE
PLANNING AND ANALYSIS
JUNE 1977
FINAL REPORT
U.S. ENVIRONMENTAL PROTECTION AGENCY
REGION IV
ATLANTA,GEORGIA 30309
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EPA 904/9-77-013
CHARLESTON, SOUTH CAROLINA
AIR QUALITY MAINTENANCE PLANNING
AND ANALYSIS
BASELINE AND PROJECTION YEARS ANALYSIS
BOA CONTRACT 68-02-1380 TO NO. 12
FINAL REPORT
Submitted to
U. S. Environmental Protection Agency
Region IV
and
South Carolina Department of Health
and Environmental Control
Bureau of Air Quality
Submitted by
ENGINEERING-SCIENCE, INC.
7903 Westpark Drive
McLean, Virginia 22101
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 furnishdd 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 904/9-77-013.
ii
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BIBLIOGRAPHIC DATA
SHEET
1. Report No.
EPA 904/9-77-013
3. Recipient's Accession No.
4. Title and Subtitle
CHARLESTON, SOUTH CAROLINA 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.
Taslf n-rrlPT Nn. 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 Charleston, 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 inventory 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 Centet. 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
l7e. COSATI Field/Group
18. Availability Statement
19.. Security Class (This
Report)
UMCLASSIFIEE
curity Class (Th
20. Security
Page
UNCLASSIFIED
form NTIS-3S (REV. I0-7S) ENDORSED BY ANSI AND UNESCO. ±±± THIS FORM MAY BE REPRODUCED
21. "No. of Pages
191
22. Price
USCOMM-OC t3«B-P74
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TABLE OF CONTENTS
CHAPTER I
INTRODUCTION
CHAPTER II
DATA SOURCES AND GRID SYSTEM
CHAPTER III
1974 BASELINE YEAR ANALYSIS
CHAPTER IV
PLANNING YEARS ANALYSIS
CHAPTER V
DISCUSSION, CONCLUSIONS AND RECOMMENDATIONS
LIST OF TABLES
TABLE II-l
OBSERVED AIR QUALITY DATA
TABLE III-1
SOURCE CONTRIBUTIONS TO RECEPTORS NO. 61 AND NO. 51
TABLE III-2
OBSERVED VALUES OF Sg
TABLE III-3
OBSERVED SECOND HIGHEST 24-HOUR SAMPLES
TABLE III-4
Mg (yg/m ) AND C (yg/m ) AS A FUNCTION OF Sg
TABLE IV-1
BASELINE YEAR AND PLANNING YEARS - MAXIMUM CONCENTRATIONS
TABLE IV-2
PREDICTED CONCENTRATION AT FIVE MAXIMUM RECEPTORS
TABLE V-l
EMISSION INVENTORY SUMMARY
TABLE V-2
WIND SPEED - STABILITY DISTRIBUTIONS (%)
Page
I-1
II-l
III-l
IV-1
V-l
II-4
III-6
111-12
111-14
111-15
IV-1
IV-2
V-3
V-6
iv
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TABLE OF CONTENTS (Cont'd).
TABLE V-5
1975 CONCENTRATIONS AT THE MONITORING STATIONS USING
Y = -5.6 + 1.95 X
LIST OF FIGURES
FIGURE II-l
LOCATIONS OF MONOTORING STATIONS
GIGURE II-2
CENSUS TRACTS IN THE CHARLESTON AQMA
FIGURE II-3
CENSUS TRACTS IN THE CHARLESTON AQMA
FIGURE III-l
CALCULATED VS. OBSERVED ANNUAL ARITHMETIC MEAN CONCENTRATION
SEVEN STATIONS
Page
TABLE V-3
CONTRIBUTIONS TO RECEPTOR NO. 61 V-10
TABLE V-4
1975 CONCENTRATIONS AT THE MONITORING STATIONS V-ll
V-13
II-3
II-6
II-7
III-2
FIGURE III-2
CALCULATED VS. OBSERVED ANNUAL ARITHMETIC MEAN CONCENTRATION
FIVE STATIONS
FIGURE III-3 5
TOTAL CONCENTRATION FIELD BASELINE YEAR ARITHMETIC MEAN 1LL~
FIGURE III-A ?
20 LARGEST CONTRIBUTORS TO RECEPTOR NO. 61 III-'
FIGURE III-5 g
20 LARGEST CONTRIBUTORS TO RECEPTOR NO. 61 III"8
FIGURE III-6
20 LARGEST CONTRIBUTORS TO RECEPTOR NO. 51 III-'
FIGURE III-7 lQ
20 LARGEST CONTRIBUTORS TO RECEPTOR NO. 51 III"1
v
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TABLE OF CONTENTS (Cont'd)
FIGURE II1-8
AREA SOURCES CONCENTRATION FIELD BASELINE YEAR ARITHMETIC MEAN
page
III-ll
FIGURE III-9
TOTAL CONCENTRATION FIELD BASELINE YEAR GEOMETRIC MEAN
111-13
FIGURE IV-1
TOTAL CONCENTRATION FIELD 1975 ARITHMETIC MEAN
IV-3
FIGURE IV-2
TOTAL CONCENTRATION FIELD 1980 ARITHMETIC MEAN
IV-4
FIGURE IV-3
TOTAL CONCENTRATION FIELD 1985 ARITHMETIC MEAN
IV-5
FIGURE V-l
COMPARISON OF FY 1975 and CY 1975 OBSERVED ARITHMETIC
MEAN CONCENTRATIONS
V-2
FIGURE V-2
EMISSION TRENDS 1974-1985
V-4
FIGURE V-3
AREA SOURCE EMISSION DENSITIES IN CHARLESTON BASELINE YEAR
V-5
FIGURE V-4
WIND DIRECTION FREQUENCY V-8
FIGURE V-5
1975 CALCULATED VS OBSERVED ANNUAL ARITHMETIC MEAN CONCENTRATION V-12
vi
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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
Charleston AQMA. A companion report is avilable for the Greenville 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
outlined in 40 CFR 51 Subpart D must be followed.
This report documents the results of the dispersion modeling for the
Charleston 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 developing 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
1-1
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results. Chapter IV summarizes the dispersion model projected air quality
for 1975, 1980, and 1985. Chapter V contains a discussion of the results
projected air quality of the analysis and includes the conclusions and
recommendations reached by the authors of the report. These conclusions
and recommendations should not be construed as representing those of the
Department of Health and Environmental 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 relation-
ship 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 occurrence of each condition. An important advantage of AQDM
over other available climatological models is its inclusion of a source contri-
bution 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 inventories, meteorological data,
and for calibration purposes, air quality data. These are discussed below.
POINT SOURCE EMISSION INVENTORY
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 INVENTORY
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
II-l
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and methodologies for compiling the inventories were reviewed and approved by
the Department. A report of the area source emission inventory project is
available.
AIR QUALITY DATA
For the baseline year model run air quality data are required in order
that the regression equation relating observed and calculated air quality may
be determined for use in the planning years analyses. These data, annual
arithmetic mean concentrations (yg/m^) for seven monitoring stations, were pro-
vided by the Department. The locations of the stations are shown in Figure II-l.
The locations are shown on the Universal Transverse Mercator (UTM) geocoding
system employed in AQDM.
Four of the seven stations commenced operation at the present location
and height during calendar year 1974:
o The Meeting Street - Pittsburgh Avenue station was relocated from
ground level to rooftop on or about July 1, 1974.
o The State Ports Authority station was relocated from ground level to
rooftop on July 28, 1974.
o The Mount Pleasant station was relocated approximately two kilometers
to the southwest on October 8, 1974.
o The Jenkins Street station began operations on December 1, 1974.
The observed air quality data at the seven monitoring stations for 1974, 1975
and for fiscal year 1975 (July 1974 through June 1975) are summarized in
Table II-l. It will be shown in Chapter III that the fiscal year period is the
preferred air quality data set for model calibration.
XI-2
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FIGURE II-l
LOCATIONS OF MONITORING STATIONS
0 Bushy Park
II-3
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TABLE II-l
OBSERVED AIR QUALITY DATA (yg/m3)
Station Name
CY 74
FY 75
CY 75
Bushy Park
41
48
49
Charleston Health Department
47
53
57
Meeting @ Pittsburgh Avenue
115
106
90
State Ports Authority
111
90
84
James Island
52
48
54
Mount Pleasant
52
37
34
Jenkins Street
45
57
61
Two of these stations, those at the State Ports Authority and at Meeting
Street and Pittsburgh Avenue, are probably not representative of the general
urban air quality in the vicinity of the stations. The station at Meeting
Street and Pittsburgh Avenue is very close to an unpaved road, the railroad
tracks, and a busy thoroughfare. The Airco Alloys plant is very near the
station. The Airco plant has a number of large ore storage piles. There is
probably a significant, albeit undetermined, amount of fugitive dust emitted
from the Airco plant because of general industrial activity. The station at
the State Ports Authority is in the middle of a paved parking lot. Significant
emissions of fugitive dust may result from the industrial activity at the State
Ports Authority. The Westvaco plant, which is very near the sampling station,
may also have significant emissions of fugitive dust.
METEOROLOGICAL DATA
The required three-way joint frequency distributions of wind direction,
wind speed and stability class (STAR program) were obtained from the National
Climatic Center by EPA. Data for the Charleston Municipal Airport for the
following periods were received:
II-4
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o Calendar year 1974
o Fiscal year 1975
o Five year period 1960 through 1964
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 Charleston AQDM analysis is shown in Figures II-2
and II-3.
II-5
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FIGURE 11-2
CENSUS TRACTS IN THE CHARLESTON AQMA
202
201
205
207
203
fCORDESVILLEi
JAMESTOWN
206
50
31.01-
31.04-
3t.051
^huger-
WANOO
,46.01
24
, 26.01
28 fJ 21,01
'4602
-49
48
SEE FIGURE II-3
20.04
23
II-6
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FIGURE 11-3
CENSUS TRACTS IN THE CHARLESTON AQMA
34
35
33
36
39
27
37
38 \ 42
41
I
43
14
7 N 8
28
II-7
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CHAPTER III
1974 BASELINE YEAR ANALYSIS
As stated earlier, the emission inventory baseline year was 1974. However,
the most consistent and complete air quality data were for the period July 1974
to July 1975. Since little change would be expected in the emission inventory
for the two disparate time frames, the baseline year dispersion model analysis
was conducted with the following inputs:
o CY 74 emission inventories
o FY 75 air quality data
o FY 75 meteorological data
Reports of other air quality maintenance analyses^ showed that emissions
from paved roads were underestimated and those from unpaved roads overestimated
by the procedures used in the area source emission inventory. To quantify
these errors several preliminary diagnostic runs of the model were made using
several combinations of emission values from the two source categories. The
resulting regression statistics between observed and calculated values were
then analyzed to determine which values provided the best fit of the data.
The results of this analysis led to the following conclusions:
o That the emissions from paved roads should be doubled. This conclusion
is confirmed by the analyses for the other areas mentioned above,
o That the emissions from unpaved roads should be one-half the value
reported in the area source emission inventory. A great number of
the unpaved road miles are in heavily forested areas. In such areas,
beneath the forest canopy, the low ambient wind speeds would result
in settling of dust within the forest,
o That the two stations mentioned earlier, those at the State Ports
Authority and at Meeting Street and Pittsburgh Avenue, are unduly
influenced by local fugitive sources and by fugitive emissions
associated with the large point sources in the immediate vicinity of the
monitoring station. The regression line, observed concentration versus
calculated concentration is shown in Figure III-l for all seven
monitoring stations. The regression equation is expressed as
Y - 5.6 + 1.95 X
^ For instance, those for Greenville, S. C., Charlotte, N. C., Winston-
Salem, N. C., and Louisville, Ky.
III-l
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FIGURE III-l
CALCULATED VS. OBSERVED
ANNUAL ARITHMETIC MEAN CONCENTRATION
SEVEN STATIONS
10 20 30 40 50 60 70
III-2
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where Y is the observed value and X is the calculated value.
Although the correlation coefficient of 0.96 is sufficiently high to
calibrate the model, the slope and intercept of the line are
unacceptable.
Figure III-2 shows the regression line for the five remaining stations
after State Ports and Meeting Street stations are eliminated. The regression
equation is expressed as:
Y = 19.7 + 1.02 X
The slope and intercept are acceptable but the correlation coefficient is not
sufficiently high to calibrate because of the small number of data points.
Nevertheless, the source-receptor relationship established by the five-station
regression lines is believed to be the best obtainable under the circumstances.
Model inputs for the baseline and projection years analysis include a slope of
3
unity and background concentration of 20 yg/m .
The results of the baseline year AQDM anlaysis are shown in Figure III-3.
The complete AQDM computer printout is included in Appendix A. The isopleths
in Figure III-3 are lines of equal annual arithmetic mean concentration (ug/m )•
There are two areas of high concentration: 59 yg/m"* in Charleston (receptor
No. 61) and 58 yg/m^ in North Charleston (receptor No. 51)
Table III-l, taken from Appendix A, summarizes the contributions to those
two high concentration areas from the 20 greatest source contributors. In
each case the 20 greatest contributors account for approximately two thirds
of the total source contribution, i.e., after background concentration is
removed. All of the large contributors are area sources. Figures III-4
through III-7 show the locations of the 20 largest source contributors to the
two high concentration areas.
In order to better define the area source contribution to total concen-
tration an AQDM run with area sources only was made. The results are shown
in Figure III-8. The complete computer printout is included in Appendix B.
As can be seen, area sources contribute significantly to all receptors. For
instance, at receptor No. 61 in Charleston (598 east and 3,628 north), area
III-3
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FIGURE 111-2
CALCULATED VS. OBSERVED
ANNUAL ARITHMETIC MEAN CONCENTRATION
FIVE STATIONS
cnV.
A
\*V
JENKINS STREET
iCHARLESTON H. D,
BUSHY PARK
JAMES ISLAND
•MOUNT PLEASANT
_L
J L
10 20 30 40 50 60 70
CALCULATED CONCENTRATION (pg/m3)
III-4
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FIGURE III-3
TOTAL CONCENTRATION FIELD
BASELINE YEAR
ARITHMETIC MEAN
(ug/m3)
III-5
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TABLE III-l
SOURCE CONTRIBUTIONS TO RECEOPTORS NO. 61 AND NO. 51
Receptor No.
61
Receptor No.
51
Source
Contribution
Source
Contribution
No.
Name
%
Ug/m
No.
Name
%
yg/rn
135
Tract
6
7.83
4.63
181
Tract
41
6.55
3.77
140
Tract
11
3.47
2.05
201
Jamestown
3.14
1.81
201
Jamestown
3.29
1.95
202
Hager-Wando
2.90
1.67
203
Cordesville
3.12
1.85
203
Cordesville
2.84
1.64
202
Hager-Wando
2.77
1.64
194
Tract
203
2.75
1.58
191
Tract
50
2.62
1.55
191
Tract
50
2.19
1.26
194
Tract
203
2.42
1.43
180
Tract
40
2.16
1.24
197
Tract
207
1.86
1.10
182
Tract
42
2.07
1.19
193
Tract
202
1.77
1.05
193
Tract
202
2.06
1.19
158
Tract
24
1.72
1.02
197
Tract
207
2.05
1.18
155
Tract
21.02
1.59
0.94
158
Tract
24
1.84
1.06
141
Tract
12
1.46
0.86
155
Tract
21.02
1.66
0.96
192
Tract
201
1.31
0.78
184
Tract
44
1.51
0.87
156
Tract
22
1.28
0.76
156
Tract
22
1.41
0.81
184
Tract
44
1.29
0.76
192
Tract
201
1.40
0.81
166
Tract
30
1.25
0.74
183
Tract
43
1.20
0.69
139
Tract
10
1.24
0.73
157
Tract
23
1.17
0.67
157
Tract
23
1.02
0.60
196
Tract
206
1.15
0.66
196
Tract
206
0.90
0.53
177
Tract
37
1.05
0.60
134
Tract
5
0.88
0.52
195
Tract
205
1.04
0.60
TOTAL
BACKGROUND
OTHER SOURCES
RECEPTOR TOTAL
43.09
33.81
23.11
100.01
25.49
20.00
13.67
59.16
42.14
34.73
23.15
24.26
20.00
13.33
100.02 57.59
III-6
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FIGURE II1-4
20 LARGEST CONTRIBUTORS TO RECEPTOR NO. 61
III-7
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FIGURE II1-5
20 LARGEST CONTRIBUTORS TO RECEPTOR NO, 61
34
33
33
36
37
38
41
42
39
40
43
26.02
27
28
26.03
29
Hi*!
43
16 |I3.
17
16
M,
"Wk
14
m 13
hi
y**' :
I 2
19.02
I
i
19.01
20X32
III-8
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FIGURE III-6
20 LARGEST CONTRIBUTORS TO
RECEPTOR NO.
51
III-9
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FIGURE 111-7
20 LARGEST CONTRIBUTORS TO RECEPTOR NO, 51
111-10
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FIGURE III-8
AREA SOURCES CONCENTRATION FIELD
BASELINE YEAR
ARITHMETIC MEAN
(yg/m3)
III-ll
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o o
sources alone result in concentrations of 35 ug/m . If this value plus 20 yg/m
background is subtracted from the total of 59 yg/m , it is seen that point
O
sources contribute only 4 ]ig/m . Similarly, in North Charleston, point sources
account for 6 yg/m^ at receptor No. 51 (596 east and 3,636 north). Nowhere in
3
the study area is the point source contribution greater than 6 pg/m .
The AQDM calculates annual arithmetic mean concentrations. Ambient air
quality standards for TSP are based on annual geometric mean concentrations.
Larsen^^ has suggested that air quality monitoring data are log-normally
distributed. If this be the case, the annual geometric mean concentration,
Mg, can be calculated from the expression,
ng = 2
exp (0.5 In Sg)
where M is the annual arithmetic mean concentration and Sg is the standard
geometric deviation of the 24-hour sampling data. Values of Sg are available
for the seven monitoring stations. These are summarized in Table III-2. A
value of 1.7 was used in the equation above to calculate Mg. The resulting
annual geometric mean concentration field is shown in Figure III-9.
TABLE III-2
OBSERVED VALUES OF Sg
Station Name 1974 1975
Bushy Park
1.80
1.7
Charleston Health Department
1.45
1.3
Meeting @ Pittsburgh Avenue
1.77
1.6
State Ports Authority
1.84
1.9
James Island
1.79
1.4
Mount Pleasant
1.88
1.6
Jenkins Street
—
1.6
Average
1.78
1.57
^A Mathematical Model for Relating Air Quality Measurements to Air Quality
Standards, EPA, AP-89, 1971.
111-12
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FIGURE 111-9
3646
3644
TOTAL CONCENTRATION FIELD
BASELINE YEAR
GEOMETRIC MEAN
(yg/m3)
3620
590 592 594 596 598 600 602 604 606 608
111-13
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Ambient air quality standards also apply to 24-hour concentrations, not to
be exceeded more than once per year. Larsen has further suggested a method for
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 51 yg/m^ from Figure III-9 and with Sg = 1.7 as before, C
is found to be 205 yg/m . The reported second highest values are summarized
in Table III-3.
TABLE II1-3
OBSERVED SECOND HIGHEST 24-HOUR SAMPLES
Station Name .1974 1975
Bushy Park
106
97
Charleston Health Department
97.5
103
Meeting @ Pittsburgh Avenue
549
213
State Ports Authority
326
279
James Island
125
92
Mount Pleasant
183
73
Jenkins Street
-
123
The calculated values of both the geometric mean concentration and the
second highest concentration are sensitive to the estimate of the standard
geometric deviation of the log-normal distribution. As Sg decreases, Mg
increases, and C decreases. As SG increases, Mg decreases, and C increases.
Table III-4 illustrates these effects for the range of Sg shown in
Table III-2.
Ill-14
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TABLE III-4
Mg (yg/m3) AND C (yg/m3) AS A FUNCTION OF Sg
Sg
Mg
C
1.3
57
113
1.7
51
205
1.9
48
258
The calculation of the second highest concentration was based on the model
computed maximum arithmetic mean concentration. Since the Meeting Street and
Ports Authority concentrations were not predicted by the model, the maximum
concentration calculated would not be representative of those two local areas.
Rather, the maximum concentration is that which might be observed in the
analysis area outside of those two local areas.
Caution is advised when comparing calculated second highest maximum
value with observed second highest maximum. The latter are usually based
on a 6-day sampling frequency, resulting in a sample size of approximately
60 per year. The calculated values, on the other hand, estimate the value
for a sample size of 365. Obviously, if samples were taken every day the
extreme values would be larger. That is to say, by taking only 60 samples
per year, it is likely that the singular, very high values would be missed.
Consequently, calculated values are expected to be higher than the observed
values shown in Table II1-3, the Meeting Street and Ports Authority stations
excepted.
111-15
-------�
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 a background concentration of 20.0 lig/m , and meteorological data for
the five year period 1960 through 1964. Computer printouts are contained
in Appendices C through E. Maximum concentrations resulting are summarized
and compared to the baseline year values in Table IV-1.
TABLE IV-1
BASELINE YEAR AND PLANNING YEARS
MAXIMUM CONCENTRATIONS (ug/m3)
Annual Arithmetic Mean
Annual Geometric Mean^
(2)
2nd Highest 24-Hour Concentration
Table IV-2 summarizes the model predicted concentration at the five
receptors with maximum values.
1974
1975
1980
1985
59
62
61
63
51
54
53
55
205
217
213
221
^ From Mg « — -z
exp (0.5 In 1.7)
From C - Mg (1.7) 2,62
IV-1
-------�
TABLE IV-2
PREDICTED CONCENTRATION AT FIVE
MAXIMUM RECEPTORS (ug/m3)
YEAR
RECEPTOR
1971
1975
1980
1985
50
55
59
58
60
51
58
62
61
63
61
59
61
61
62
62
58
60
60
61
75
56
59
59
60
IV-2
-------�
FIGURE IV-1
TOTAL CONCENTRATION FIELD
1975
ARITHMETIC MEAN
(ug/m3)
IV-3
-------�
FIGURE IV -2
TOTAL CONCENTRATION FIELD
1980
ARITHMETIC MEAN
( ug/m3)
3646
3644
3642
3640
3638
3636
3634
3632
3630
3628
3626
3624
3622
3620
590 592 594 596 598 600 602 604 606 608
IV-4
-------�
FIGURE IV-3
TOTAL CONCENTRATION FIELD
1985
ARITHMETIC MEAN
(ug/rn3)
IV-5
-------�
CHAPTER V
DISCUSSION, CONCLUSIONS AND RECOMMENDATIONS
AIR QUALITY DATA
Because of the inconsistency in monitoring station exposure between
1974 and 1975, trends in air quality are difficult to determine. The data
in Table II-l shows a rather large improvement in air quality from 1974 to
1975 for the Meeting Street, State Ports and Mount Pleasant stations. It
will be recalled, however, that these stations were relocated in 1974. The
Jenkins Street station had a large increase in measured concentration from
1974 to 1975, but the 1974 average was based on only 6 sampling days. The
three remaining stations all showed an increase in concentration between
1974 and 1975.
The comparison of fiscal year 1975 and calendar year 1975 observed data
is shown in Figure V-l. The high correlation (0.97) between the two data
sets would be expected because of the overlapping averaging periods; six
months of the samples were common to both periods. The regression equation is:
Y = 14 + 0.75 X
where Y is the CY 1975 observed data and X is the FY 1975 observed data.
The slope and intercept of the regression line show that an improvement in
3
air quality would be expected in areas of high pollution (> 57 yg/m ) and a
degradation of air quality in other areas.
No such conclusion is reached if the Meeting Street and Ports Authority
Stations are disregarded. In this case the regression equation is:
Y - -15 + 1.36 X
and degradation would be expected in all areas with FY 1975 concentration
3
greater than 40 yg/m .
V-l
-------�
FIGURE V-l
no r
COMPARISON OF FY 1975 AND CY 1975
OBSERVED ARITHMETIC MEAN CONCENTRATIONS
10 20 30 40 50 60 70 80 90 100 110
FY 1975 CONCENTRATION (ug/m3)
V-2
-------�
EMISSION INVENTORIES
Table V-l summarizes the total emission inventories for the baseline
and planning years.
TABLE V-l
EMISSION INVENTORY SUMMARY
(tons/year)
1974
1975
1980
1985
Area Sources
55,727
55,828
56,103
56,365
Point Sources
13.097
10,407
9,777
10,137
Total
68,824
66,235
65,880
66,502
Emission trends are shown on Figure V-2. Area source emissions increase
throughout the planning period but at a lesser rate during the last half of
the decade. It should be noted, however, that the emissions from unpaved
roads, by far the largest source category, were projected to remain constant
over the period.
Point source emissions are expected to decrease by 25% from 1974 to
1980. By 1985 these emissions are expected to increase again to the 1975
level, but still well below the 1974 baseline year estimates. Total emissions
follow the same trend as point source emissions. The 1985 total emissions
are projected to be slightly greater than in 1975 but 3.4% less than in 1974.
Figure V-3 shows the area source emission density for Charleston city.
METEOROLOGICAL DATA
Fiscal year 1975 meteorological data were used in the baseline year
analysis, and the mean 1960 through 1964 data for the projection years, 1975,
1980 and 1985. Table V-2 permits a comparison of the two data sets with
regard to wind speed and stability. Although the stability class was very
similar for the two periods, wind speed for the baseline year was 4% less
V-3
-------�
FIGURE V-2
EMISSION TRENDS 1974 - 1985
70
1 r
i i i r
65
60
TOTAL EMISSIONS
AREA SOURCES
'55
50
15
10
POINT SOURCES
5 L_J 1 1 L
J 1 L
1 L
74 75 76 77 78 79 80 87 82 83 84 85
YEAR
V-4
-------�
FIGURE V-3
AREA SOURCE EMISSION DENSITITES IN CHARLESTON
BASE LINE YEAR
111 >0.16 tons/day knr
jsS&l 0.12-0.16 tons/day km2
B 0.08-0.12 tons/day km2
I'• -*.\1 0.04-0.08 tons/day km2
0.04 tons/day km2
ADDITIONAL TRACTS WITH DESNITIES > 0.04 tons/day-km2:
0.08-0.12 tract 48
0.04-0.08 tracts 22, 24, 31.04 and 31.05
V-5
-------�
TABLE V-2
WIND SPEED - STABILITY DISTRIBUTIONS (%)
Stability
Class
1-3
4-6
July 1974 - June
Wind Speed Class
7-10 11-16
1975
(Knots)
17-21
>21
Total
1
0.1
0.3
0
0
0
0
0.4
2
1.0
2.8
2.1
0
0
0
5.9
3
0.9
3.6
8.3
1.2
0
0
14.0
4
1.0
8.3
19.9
13.8
0.7
0.1
43.8
5
8.9
21.6
5.4
0
0
0
35.9
Total
11.9
36.6
35.7
15.0
0.7
0.1
100.0
Mean wind speed 7.1 knots.
Mean stability class 4.1
Stability
Class
1-3
4-6
January 1960 - December 1964
Wind Speed Class (Knots)
7-10 11-16 17-21
>21
Total
1
0.3
0.5
0
0
0
0
0.8
2
1.1
2.2
2.1
0
0
0
5.4
3
0.5
3.0
7.5
1.6
0
0
12.6
4
1.0
5.5
16.9
16.8
2.2
0.4
42.8
5
11.6
19.2
7.6
0
0
0
38.4
Total
14.5
30.4
34.1
18.4
2.2
0.4
100.0
Mean wind speed 7.4.
Mean stability class 4.1.
V-6
-------�
than normal as estimated from the 1960 summary. All other things
being equal, FY-75 observed concentrations might have been 4% less
had the wind speed not been anomalous.
Figure V-4 is a comparison of the FY 1975 and the 1960 to 1964 wind
direction frequency. It appears that wind direction from the northeast
quadrant was less frequent in 1975 than normal and more frequent from the
southeast through south-southwest direction.
It is difficult to interpret the effect of this difference. As shown
in Figures III-4 through III-7 many of the largest contributors to receptors
51 and 61 lie to the north through east. On the other hand, area source
emission densities, as shown in Figure V-3, are greater along the northwest-
southeast axis through the city.
PROJECTED AIR QUALITY
The nearly 4% decrease in total emissions from 1974 to 1975, discussed
in a preceding section and summarized in Table V-l, should have resulted in
model predicted improved air quality of a comparable amount. As shown in
Table IV-1 and by Figures III-3 and IV-1, such was not the case. This
conundrum can only be explained, if, between the two years there was (1) a
different distribution of sources, or (2) a significant difference in
meteorological data input to the AQDM.
Very limited changes in the point source emission inventory were made
between the two years and no point sources had increased emission. Very minor
changes in area sources were made with the exception of the Goose Creek area.
In this area (census tracts 31.01 through 32) emissions were projected to
increase by approximately 17.6% due primarily to activities associated with
the substantial growth in that area. Increased emission from that area
3
resulted in an increase of less than 0.5 yg/m in concentration. Such an
increase would have been at least partly compensated for by reduced emissions
in some other areas.
V-7
-------�
FIGURE V-4
WIND DIRECTION FREQUENCY
U) A3N3n03yj
V-8
-------�
It is apparent that the difference in meteorological data between the
two years caused the apparent inconsistency. Furthermore, the small difference
in wind speeds would have had an opposite effect from that observed: calculated
concentrations would have decreased more than that indicated by decreased
emissions.
Table V-3 shows the source contribution to receptor 61 in Charleston
for the baseline year (from Table III-l) and for 1975. With the exception
of source No. 184 where emissions were considerably reduced, no significant
change in emission was made. In particular, note sources 201, 203 and 191.
Those sources, all located to the northeast of the receptor, had unchanged
3
emissions yet they accounted for an increase of 1.68 yg/m in the concentra-
tion at the receptor. On the other hand, those sources near the receptor,
tracts 5, 6, 10, 11, 12 in the high emission density area, added only 0.15
3
yg/m to the increased 1975 concentration.
It is believed safe to say that the unexpected increase in calculated
concentration from FY 1975 to CY 1975 resulted from the increased frequency
of northeasterly winds in the meteorological data used for the latter period.
The predicted air quality for 1980 and 1985, using the same meteorological
data as for 1975, reflected very closely the changes in emissions: a decrease
in both emissions and calculated concentrations from 1975 to 1980 and an in-
crease from 1980 to 1985.
V-9
-------�
TABLE V-3
CONTRIBUTIONS TO RECEPTOR NO. 61
1974 and 1975
No.
Name
Contribution
1974 1975
(ug/m3)
Difference
135
Tract
6
140
Tract
11
201
Jamestown
203
Goodesville
202
Hager-Wando
191
Tract
50
194
Tract
203
197
IV
207
193
ff
202
158
ft
24
155
It
21.02
141
II
12
192
<1
201
156
II
22
184
11
44
166
n
30
139
it
10
157
ti
23
196
ti
206
134
it
5
Total
4.63
2.05
1.95
1.85
1.64
1.55
1.43
1.10
1.05
1.02
0.94
0.86
0.78
0.76
0.76
0.74
0.73
0.60
0.53
0.52
25.49
4.72
2.18
2.54
2.30
1.78
2.19
1.51
1.10
1.02
1.16
1.06
0.77
0.73
0.95
0.05
0.63
0.73
0.78
0.50
0.54
27.24
+0.09
+0.13
+0.59
+0.45
+0.14
+0.64
+0.08
0
-0.03
+0.14
+0.12
-0.09
-0.05
+0.19
-0.71
-0.11
0
+0.18
-0.03
+0.02
+1.75
V-10
-------�
COMPARISON OF 1975 OBSERVED AND CALCULATED CONCENTRATIONS
Table V-4 compares the 1975 observed concentrations (from Table II-l)
and the AQDM calculated value.
TABLE V-4
1975 CONCENTRATIONS AT THE MONITORING STATIONS
(ug/m3)
Station Name
Observed
Calculated
Bushy Park
49
48
Charleston Health Department
57
57
Meeting @ Pittsburgh Avenue
90
57
State Ports Authority
84
53
James Island
54
49
Mount Pleasant
34
45
Jenkins Street
61
56
The values are plotted on Figure V-5 with the background concentration of
20 yg/m^ removed to facilitate comparison with the baseline year calibration
equation. The calibration regression line is drawn on the figure. Reasonable
results were obtained except for the Meeting Street and Ports Authority stations.
This was to be expected because the calibration regression line did not include
those two stations. The correlation coefficient for the five remaining stations
is 0.85, slightly higher than for the baseline year.
It is interesting to examine what the 1975 results would have been had
we used the seven station regression line. These values are shown in Table V-5.
A correlation coefficient of 0.71 is obtained which is considerably lower
than for the baseline year.
V-ll
-------�
FIGURE V-5
1975 CALCULATED VS OBSERVED ANNUAL
ARITHMETIC MEAN CONCENTRATION
CALCULATED CONCENTRATION Cyg/m3}
V-12
-------�
TABLE V-5
1975 CONCENTRATIONS AT THE MONITORING
STATIONS USING Y =-5.6 + 1.95 X
(pg/m3)
Station Name
Observed
Calculated
Bushy Park
49
49
Charleston Health Department
57
67
Meeting @ Pittsburgh Avenue
90
67
State Ports Authority
84
59
James Island
54
51
Mount Pleasant
34
43
Jenkins Street
61
65
CONCLUSIONS
1. The air quality analysis leaves some doubt as to the source receptor re-
lationship in at least two areas in the AQMA, those in the vicinities of
the Meeting Street and Ports Authority monitoring stations. In order to
have had agreement between calculated and observed values at those stations,
substantial low level sources would have been required near the monitor-
CD
ing stations.
2. Subjectively, it is believed that the Meeting Street and Ports Authority
stations are not representative of the general urban air quality in the
area. Each may be impacted by localized fugitive dust sources which have
not been adequately inventoried. Such sources have little effect on the
air quality in the remainder of the AQMA.
3. However, there is insufficient evidence to define the extent of the im-
pacted areas. A requirement exists to investigate further the air quality
qpH the sources of pollution in those areas.
Elevated sources or more extensive but less intense area sources would affect
a much larger area and would not result in the large concentration gradient
noted. For instance, the gradient between the Ports Authority and Jenkins
Street station was approximately 16 yg/m3-km in FY 75.
V-13
-------�
d areas primary air quality standards have been attain-
Outside the impac »
' ed and „iU be maintained throughout the planning period.
the impacted areas annual average secondary standards have been
' ^rlned'and will be maintained throughout the planning period.
t. - ceeondarv standards might be violated in some areas of
Twenty-four-hour seconu 3
the AQMA outside the impacted areas.
4 nrcnected emission inventories resulted in little
The changes in tne yi j
n the calculated air quality over the receptor grid. Concentra-
affect oanqitive to anomalous meteorological conditions
tioa appears to be more sensi
than to changed emissions.
analysis showed that point sources contributed a maximum of 6 yg/m3
3' ^ alculated concentrations. Additional control of all point sources
t0 ^ reduction in emissions would result in a maximum improve-
to affect UE/ta3. A more effective measure might be la-
ment in air quality of 3 Vg/"
4T fno-ifive emissions from the point source facilities,
creased control of fugitive
M ,nr coinmittment of funds there can be little hope of effect-
ed Without a ma3or <- ...
y^ pmovement in air quality by greatly reducing area source emissions
ing an rep0tlderance of those emissions results from unpaved roads,
in very rural areas o( the study area.
jr^r>f/tMTT.TTOATIOflS
x. Charleston should remain an AQMA.
State Implementation Plan should not be revised until the source-
2. the a . ._I1_hio for the State Ports Authority and Meeting Street -
receptor relationsnip
Pittsburgh Avenue stations is better defined.
for tracking economic indicators to determine a viable relation-
3. A program quality should be implemented. Candidate Indi-
ship f°r pro3ectAUS
cators mig^ include:
a. Industrial production data,
b. Local employment,
V-14
-------�
c. County gasoline tax revenues,
d. Sales tax revenues, and
e. Traffic counts.
Fugitive dust sources should be inventoried on a microscale basis near
the State Ports Authority and Meeting Street - Pittsburgh Avenue monitor-
ing sites. Three methods might be used to inventory fugitive sources.
a. Quasi-Stack Method. Particulate emissions from isolatable sources
could be collected by a hood temporarily installed and transported to
a regular cross-section where standard particulate stack sampling
methods could be used.
b. Roof Monitor Method. Emission concentrations and flow rates are
determined at a number of locations across the plane of a roof moni-
tor opening to determine the emissions generated within a building
c. Upwind-Downwind Method. Ambient concentrations taken upwind and
downwind of a particular source can be used to back-calculate the
fugitive source strength.
New sampling sites should be located to verify the maximum receptors
determined by the model.
The State Ports Authority and Meeting Street - Pittsburgh Avenue sailing
sites and the Jenkins Street site should be equipped with wind measuring
devices. The meteorological data obtained at these sites should be com-
pared with that from the airport to determine if Airport data adequately
represent the wind regime at the sampling sites
If the source-receptor relationship cannot be better defined, the following
control strategies should be investigated for possible future implementation.
a. More effective control of area sources of fugitive dust, in particular,
construction activity,
h. A street cleaning program to limit the dust entrained from paved
roads.
c. A transportation control program to limit the VMT in areas likely to
impact the monitoring sites.
V-15
-------�
A road paving program to eliminate unpaved roads in all but the most
rural areas.
An emissions density zoning program that would limit the growth of
emission densities to those areas not adversely affecting the five
maximum receptors.
V-16
-------�
APPENDIX A
-------�
SCURCE CATA
CALIBRATITN FCR CHARLESTON AOfA. SOOTH CAROLINA
U/11/76
SOURCE
KUHBFR
SCURCE 10.
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(KILONE
JtiDMlJCtUAL
tCAT I UN
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(TONS/OAYI
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0.0 0.06B
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CALIBRATION FOR CHJRLE STCH AtHA, SOUTH CAROLINA
11/11/76
RECEPTCR DATA
5> LOCATICKS TO BE USFC AS PECEfTORS IN ACC1TION TO THE 4 RECTANGULAR GRID LOCATIONS
RFCEPTQR X-COORDIMTF Y-COOPDINATE
5 553.1 3627.4
6 596.7 3622.1
7 £05.4 3628.0
8 55?.2 3647.7
-------�
CALIBRATION FOR CHARLESTON AQMA, SOUTH CAROLINA 11/11/76
PETFCROLOGICAL INPUT OATA FOR ANNUAL
MIXING DEPTH = 900. MFTERS
AMBIENT TFHPEPATURE = 65. DEGREES .FAHRffNHEl T
AMBIENT PRESSURE = 1013. MILLIBARS
STABILITY CLASS I
WINDSPEED CLASS
DIRECTION
I
2
3
4
5
1
N
.00034
.00034
.C
.0
.0
.0
NNE
.0
.0
.0
.0
.0
.0
NF
.0
.0
.0
.0
.0
.0
ENF
.0
.00034
.0
.0
.0
.0
F
.0
.0
.0
.0
.0
.0
FSE
.0
.0
.0
.0
.0
.0
SE
.0
.0
.0
.0
.0
.0
SSE
.0
.0
.0
.0
.0
.0
S
.0
.00063
.0
.0
.0
.0
SSVt
.0
.0
.0
.0
.0
.0
S K
• C
.0
.0
.0
.0
.0
kSW
.0
.00034
.0
.0
.0
.0
W
.0
.0
.0
.0
.0
.0
UHk
.00034
.00034
.0
.0
.0
.0
NU
.0
.00068
.0
.0
.0
.0
KNW
.0
.0
.0
.0
.0
.0
-------�
CALIBRATION FOR CHARLESTON AOMA, SOUTH CAROLINA 11/11/76
CETECROLOG1CAL INPUT OATA FOR ANNUAL
STABILITY CLASS 2
minospeed class
DIRECTION
1
2
3
4
5
6
N
.00144
.00514
.00137
.0
.0
.0
NNE
.00096
.00342
•00171
.0
.0
.0
HE
.00048
.001H
.00137
.0
.0
.0
ENF
.00009
.00137
.00034
.0
.0
.0
E
.00002
.00034
.00034
.0
.0
.0
ESE
.00117
.00103
.0
.0
.0
.0
SE
.00002
.00034
.00034
.0
.0
.0
SSE
.00110
.0
.00137
.0
.0
.0
S
.ooore
.00068
.00303
.0
.0
.0
SSt.
.00078
.00068
.00171
.0
.0
*0
SU
.0008 5
.00171
.00308
.0
.0
.0
MSW
.00012
.00171
.002 74
.0
.0
.0
u
.00096
.00342
.00240
.0
.0
.0
kNk
.00018
.00274
.00103
.0
.0
.0
NW
.00050
.00205
.00034
.0
.0
.0
kNW
.00082
.00137
.0
.0
.0
.0
-------�
CALIBRATION FOR CHARLESTON AQHA, SOUTH CAROLINA
KETFCRCLOGICAL INPUT DATA FOR ANNUAL
11/11/76
ITY CLASS 3
WINDSPEED
CLASS
OIPECT ICN
I
2
3
4
5
£
N
.00225
• 00549
.00322
.00034
.0
.0
NNF
.00086
.00171
.00822
.00137
.0
.0
NE
.C0009
.001C3
.00411
.00034
.0
.0
ENE
.00025
•00342
.00342
.00034
.0
.0
E
.00020
.00274
.00411
.00068
.0
.0
ESF
.00013
.00171
« 00342
.0
.0
.0
SE
• 00015
.00203
.00342
.00034
.0
.0
SSE
.00047
.00137
.00342
.00034
.0
.0
S
.00091
.002 40
.00890
.00103
.0
.0
SSk
.00013
.00171
.00308
.00137
. 0
.0
SW
.00020
.002 74
.00582
.00103
.0
.0
kSW
.00023
.00308
• 00 '38
.00066
.0
.0
W
.00015
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•C0719
.00205
.0
.0
WNh
.00013
.00171
.00445
.00068
.0
• 0(
NW
.00150
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.00342
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. 00034
.0
f'NW
.00091
.0C2 40
.00411
• 0006 S
.0
.0
-------�
CALIBRATION FCR CHARLESTON AQMA, SOUTH CAROLINA
11/11/76
fETFCROLOGICAL IKPUT OATA FOR ANNUAL
STABILITY CLASS 4
WINDSPEED CLASS
DIRECT ICN
1
2
3
4
5
6
N
.00103
.009 25
.02226
.01027
.00034
.0
MNF
. 00052
.00479
.01712
.00959
.0
.0
NE
.00064
.00822
.01541
.00411
.0
.0
ENE
.00018
.00514
.C0993
.00205
.0
.00034
E
• 00053
.00514
.01370
.00592
.0
.00034
ESE
.00054
.00548
.01233
.00445
.0
.0
SE
.00016
.00479
.00993
.0037 7
.0
.0
SSF
.000*5
.00274
.00753
.00342
.00034
.0
S
.00068
.C0959
.01918
.01678
.00274
.0
ssv.
.0004 t
.00342
.02089
.01610
.00068
.0
sw
.00051
.00445
.01541
.01301
.00103
.0
kSW
.00115
•C0240
.01267
.01096
.00034
.0
w
.00058
.00651
.00959
.01747
.00068
.00034
WNU
.00117
.0C3CS
.00479
.00925
.00068
.0
NW
.00046
.00308
.00445
.00616
.0
.0
NNW
.00122
.00445
.00411
.00445
.0
.0
-------�
CALIBRATION FOR CHARLESTON AQMA, SOUTH CAROLINA
PETECROLOGICAL INPUT DATA FOR ANNUAL
11/11/75
ITY CLASS 5
WINOSPEED
CLASS
1 niRECTICN
1
2
3
4
5
1
N
.01466
.03014
.00445
.0
.0
.0
NNP
.00693
.01430
.00514
.0
.0
.0
NE
.00543
.01096
.00103
. 0
.0
.0
ENF
.00131
.00856
.0
.0
.0
.0
E
.00219
.00617
.00137
.0
.0
.0
FSE
.00371
.0C797
.00137
.0
.0
.0
SE
.00579
.00924
.0
.0
.0
.0
SSE
.00396
.01199
.00103
.0
.0
.0
S
.01369
.03151
.00308
.0
.0
.0
ssw
.00809
.02226
.00445
.0
.0
.0
sw
.00509
.01061
.00411
.0
.0
.0
wsw
.00199
.00958
.00651
.0
.0
.0
u
.00281
.01061
.01301
.0
.0
.0
WNW
.00268
.00411
.00445
.0
.0
.0
NU
.00226
.004 79
.00240
.0
.0
.0
NNW
.00945
.02363
• coin
.0
.0
.0
-------�
CALIBRATION FOR CHARLESTON ACPA. SOUTH CAROLINA
11/11/76
REGRESSION PARAMETERS FOR CALCULATED (X-AXIS1 VS. OBSERVED (Y-AXISI CONCENTRATIONS
PCLLUTAUT Y-INTERCEFT SLCPE REGRESSION COEFFICIENTS
S> _tDHEUIED_ _5X_CQtSE*_LEJEL_
u PARTICULATES 19.1 I.01B6 0.806 0.8T8 POOR CORRELATICNCOEFFICIENTS NOTUSEO
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CALI3RATI0N FOR CHARLESTON AUMA, SOUTH CAROLINA
I 1/11/76
I
1 0)£££l£LIAN_QAiA
1
1 PARTICULATE
1 RECEPTOR
LCCATICN I
PARTICULATE CONCENTRATION
1 HCNITQRING
1 (KILOMETERS) 1
(MICROGRAMS/CU. METER)
J SI AJICh'
|
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CALICFAT1CN FOR CHARLFSTCK ACMA. SCUTH CAROLINA
11/11/76
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I FECFFTOR I RECEPTCP LCCATtCN I EXPECTED ARITHMETIC MEAN
J JSJjWJ££ 1 I
I I I KILOMETERS I I IMICRCGPAMS/CU. METER I
1 i HQB11 J1EBI I S£2 EABIUCULfllfS—
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CALIPRATIGf. FOR CHARLESTCN ACMA. SCUTh CAROLINA 11/11/76
SOUPCF CCNTR IBUT IONS TO FIVE SELECTED RECEPTCRS
ANNli'L P/RTICULATFS
MCRCGPAHS PER CUBIC METER
SOLRCF
1 RECEPTOR 1
RECFPTCS* I
RECEPTOR 1
RECEPTOR |
RECEPTOR |
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CALIIKATICN FCR CHtKlfSTCk AC PA. SCVTH CAROLINA 11/11/76
SOLHfF CCMRIBUT ION'S TO FIVE SFLFCTED RECEPTORS
ANNUAL PARTICULATES
MCFCGPANS PER CUBIC METER
I SOURCE I P6CFFTPF I SECEPTCF I RECEPTOR | RECEPTOR I RECEPTOR I
J 1 1 L 5 1 i 1 1 1 3 1
1
22
1
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0.00 1 1
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CALI0PATICN FOR CHARLESTCN ACM*. SCUTti CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVE SELECTEO RECEPTORS
ANMJAl PARTICULATES
CICFCGRAHS PER CUBIC KETfR
1
SOURCE
1 RFCF PT CP 1
RECEPTOR I
RECEPTOR
REC EPTOR I
RECEPTOR 1
1
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1
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1
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CM ICRATICK FOR CHMLCSTCK ACKA, SCLTH CtKCL IN* 11/11/76
SOURCE CONTRIBUTIONS TO FIVE SFLECTFD RECEPTORS
AKMMl PARTICULATES
PICfCGPAPS PEP CUBIC METER
I SOLRCE I RECEPTOR I RECEPTCP I RECEPTOR I RECEPTOR I RECEPTOR |
-I 1 1 i 5 1 h J I i 0 1
1
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t
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0.JC432 1
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J 1 £.01.33—t 0.0215 I Q.0122__l fi.0122__l
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i 1 0.fl241„l Q.OiJ 1_ i 0.0326—1 Q.0163__l Q.Q256 I
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i 1 0.C3JJ—1 0.O1SJ J fl.£151_J 0.0055__1 0.01fll__i
I 84 I 0.01 t I 0.04 * I 0.02 X I 0.01 X I 0.02 X I
i i fl.flOAJL-J 0.01fcJ__l £.££66 I 0.0X126 I J).0Q54__i
-------�
CAL I BRATICK FTP CHARLFSTCN ACMA. SCUTH CAROLINA 11/11/76
SOURCE CfNTRIBUTIONS TC FIVE SFLECTED RECEPTORS
ammjai particulates
MICPCGPAfS PER CUBIC METER
1
1
SrUFCE
RECFPTOR I
1 1
RECEPTCR 1
5 1
RFCFPTOR 1
6 _ 1 _
RECEPTOR 1
7 1
RECEPTOR I
8 1
1
85
0.01 X 1
0.04 J 1
0.02 X 1
0.01 X 1
0.02 X I
1
_
_ £.£041_ 1
0.01£1__1
—B..0066 1
0«fl£26__l_
0*01154 I
1
06
0.01 X 1
0.03 * 1
0.02 X 1
0.01 X 1
0.01 X 1
1
£.£02S__1_
O.OICX I—
U»££41 1
£*££16- i
£.£Q34 1
1
£7
0.02 X 1
0. OC J I
0.00 X 1
0.00 X 1
0.01 X I
1
£.£Q6£ 1
n.nr.ir 1
£.£0013 1
£*00Q3 1
0.0013 1
1
»6
0.02 X 1
0.00 X 1
0. 00 * 1
0.00 X 1
0.01 X 1
.L
£.0060 i_
Q.Q-C1.C 1__
__£.£Ooa__a
£.0£Q3 L_
Q.0Q13—1
1
89
0.03 X 1
0.00 1 1
0.00 X 1
0.00 X 1
0.01 X 1
1
_.C.01C8 1
_Q.££I0 1
£•£007 1_
0.0003 1
0.0014 1
1
90
0.05 * 1
0.00 1 1
0. 00 X 1
0.00 X 1
0.01 X I
1
_ £.£149 J
_J3*Q£11_ 1
£.££10 1
_ £.££Q5_ 1
.0.0019 . 1
1
91
0.31 X 1
0.03 1 1
0.03 X I
0.01 X 1
0.04 X I
I
0.1015 1
0*££S£ 1
£*.££i2 _J
0.0020 1
o.aas2 1
1
92
0.23 X I
0.04 1 1
0.05 X 1
0.02 X 1
0.07 X |
1
__ Q+Q1L2 1
_0.Q14.4_ 1 -
£*£133 1
£*££43 _1
.0.0163 .1
1
93
0.00 X 1
0.00 1 1
0.00 X 1
0.00 X 1
0.00 X I
1
_ .£*£££2 i
_c*o££.c j
£«£0£5 1
Q.££04 l_
2.UQ02—1
1
94
0.00 X 1
0.00 * 1
0. 00 * 1
0.00 X 1
0.00 X i
1
£*£Q£2 1
__.C*D£££__1__
£*£££5 1
—£.££04 1_
£.00£2 1
1
95
0.00 X I
0.00 X 1
0.00 X 1
0.00 X 1
0.00 X 1
1
£*£0£2 1
c^ocnc i__
£*£005 L
Q*££04—1_
£.£002—1
1
S&
0.0 7 X 1
0.49 X 1
0.33 X 1
0.09 X 1
0.09 X I
1
_ 0*02.26 _J
0.1779 1
£*£33£ J
0.020? 1
0.0192 1
1
S7
0.01 X I
0.00 X 1
0.00 X 1
0.00 X 1
0.00 X I
1
,
0*0026 I
C*D££5_J_
£*££1£ l_
_Q*££Q3_ 1_
£.0fl£3__l
1
98
0.01 X 1
O.OO t 1
0.01 X 1
0.00 X 1
0.01 X 1
1
Q.£Q42—1__
Q..QE1J t —
£*£021 1
£*££06__1_
£.Q014__J
1
99
0.02 X 1
0.01 X 1
0.01 x 1
0.00 X 1
0.01 X I
1
£*0018 J
0*0X23 I
£*££35 1
_ £*££10—1
_ £.0Q23_ 1
1
100
0.05 X I
0.02 X 1
0.03 X 1
0.01 X 1
0.02 X 1
1
,
O.flllJ L
0.0££4__i__
Om£Qll I
£*££21 L_
£.0051—1
1
101
0. 10 t 1
0.03 X I
0.05 X 1
0.02 X 1
0.04 X 1
1
.
£*£322 1
fl.OliJ L
£*£123 I
£*££33 l_
£*0031 I
1
102
0. 7 7 * |
0.24 X 1
0.36 X 1
0.14 X 1
0.30 X 1
J_
£.24flJ l_
0C 1
£*£961 1__
Q*£301__l_
£*l)7ifl__J
1
103
0.20 X 1
0.57 X I
0.32 X 1
0. IT X I
0.32 X 1
1
_ £.£635 I
... 0.2C9J 1 ...
£.£3_Z1 1
0*£3ia__l_
£*0165 i
1
10«
0.22 X 1
0.63 X 1
0.36 X 1
0.19 X 1
0.35 X 1
J_
£*£1C3 1
fl*22S£ 1
£*£350 1
£*£416 1_
0*0341__1
1
105
0.10 X I
0.29 X 1
0. lb X 1
0.09 X 1
0.16 X 1
i_
i
„ £.0320 I
—0.1044.. .1.
U. £435 1
__£*£lfl2__l_
£.0332 1
-------�
CtLientTIOK fCR CH4«lfSTrN 4CMA. SCOTH CAROLINA 11/11/76
SOLfiCF CONTRIBUTIONS TO FIVE SELECTED RECEPTORS
P4RT1CULATF5
kic»cgm« per cueir meter
^ SCIRCF |
I ios
RECEPTOR I
-1 1.
I
~L
I
~L
l
~L
I
o.oi x
O.JOD23-
Q.QZ *
B.flOii-
0.03 1
Q.DOBt-
0.13 * .
J3.DS2Z 1
O.OO t I
C.CD04 A
0.02 X I
0.0021 I
0.00 S I
I
0.01 * I
—fl.jma-._i
0.04 X I
jJ.0118 i
o.oi x t
—jc.coaa J
0.03 x t
0.CQ32.
0.03 * 1
fl.CQ92-.-i.
a. or x t
JD.0266 i.
0.08 * I
J0.D2AC 1.
0. IS Z I
X).04flii 1_
0.10 X I
0.02 X
0.00 t
£*0014.
0.00 X
0*0014.
0,00 T
—O.DBIA
U.06 *
_X.C2£fi_
RECEPTOR I
S i_
0.04 X I
fl.UUA_l_
0.02 J 1
0.0£X5__1_
0.02 7 t
0.0E3£ l_
0.12 1 I
JO.0A4£_1_
0.00 J »
O.OCCi A_
0.02 1 I
Q.QXUA—l-
0.03 * 1
&.Q.1U__JL
0.06 X t
0..U2i2 1_
0.19 X I
RECEPTOR
6
0.03 X
PECEPTOR
D+£Q1D |
0.03 X (
0.04 X |
-.ft.fiJ._UJ J
* I 0.10 X
-SrSfH—-Stsr,-
0.04 x |
fl.flcaa l
0.02 x |
•0.0£43 L
0.03 X |
-i.OfltfJ} I
" I
o.oi x |
-JMJflil i
0.04 X |
-£.£118 )
1.
_i)-.Q£33.
0.02 X I
_£l»aC5fi 1—
0.01 1 I
0.01 % I
i>.i)£2X X—
0.01 1 I
Q*QQ2t i—
0.01 t I
Q.Q£2i 1
0.05 X 1
Q. 01.82—1
0.03 I I
_Q.01.2i__ J
0.00 * I
.Q.0£12 I
0.00 » I
.£.0£fll I
0.02 * I
D.0CS5 1
0.02 * «
0.07 X
—0.0201
0.01 X
—O.JOC23_
0.01 x
—C^DiS,
0.01 X
—0+BQ1.5_
0.01 x
—o.£uia_
0.01 X
0.13 X
0.09 X
-0-.0065_
0.01 X
0.01 X
0.03 X
0.00 x
~s>~aau_.
0.00 X
— I
O.l? t |
~9*0I22 I
0*0241.
0.00 X
—fl.-CO.lfl-
0.01 X
—X1»£j03.6_
O.OI X
—D*£Q25_
0.01 X
—Q*QQ35_
0.09 x
¦_0.02.ia_
-J-.QJM5
0.00 X
B.0DO5
0.00 X 1
D-.DXHih I
0.00 X I
£-1)506 I
0.05 X I
Q.fllQZ 1,
0.03 X I
Q.QOil 1
0.00 X t
__flJ.flQD3 I
0.01 X i
__JL.0022__1,
0.01 i I
Q.OUZQ I.
0.01 X I
Q-*QQZQ 1.
0.04 % (
RECEPTOR |
3 I
0.02 X |
—fl«QQ3I__i
0.03 X |
0.04 X |
—£.DQfl5__l
0.14 X |
—O.G126__l
0.00 x |
iaflflfli j
0.03 X |
0.01) fc3_ I
0.01 X
-0-.00.lS_
0.01 X
-C.QU22_
0.05 X
IMUli
0.01 x
-O.QQ32__i
0.01 X |
-0.0Q21 I
0.01 X
-0-.0a.21
0.01 X
— £M)£U2 (
0.01 * |
— 0.01515 1
0.01 x |
-0.0015 1
0.06 X |
-fi-fiiil I
-------�
CALIBRATION FfR CHARLESTON ACMA, SCLTH CARGLINA li/11/76
SOURCE CCNTR IBllT IONS TO FIVE SLLFCTEO RECEPTORS
ANNUAL PARTICULATES
f ICFCGRAMS PFR CUBIC KETFR
1
SCIRCF
1
RECEPTOR 1
PECSPTCR 1
RECEPTOR
1
RECEPTOR I
RECEPTOR I
i_.
I 1_
5 1
6_ _
_1__
i—: 1_.
a ±
1
75""
1
0.33 X 1
0.94 X 1
0.52 X
1
0.13 X 1
0.34~X ~|
i_
J_.
0.3413—J
Or 1 404
J
0.0406 1
_1)»QZ33__J
1
12B
1
0.53 X 1
0.31 X 1
0.30 t
1
0.09 t I
0.24 X |
1
J__
£*££04
1
0-.D2Q5 1
0*0*53 1
1
12S
1
0.49 X 1
0.27 X 1
0.25 X
1
0.09 X 1
0.21 X I
i_
l_.
i)«-15SS i_
i__
1
G-.D2U3 i_.
Q.«Q5t23 1
1
130
1
0.06 X 1
o.48 * 1
0. 18 X
1
0.13 X 1
0.09 x 1
1
1 U» 019J .1
1
U5.
1
—Q_.fl2.25 1
A..Q2Q4 1
1
131
1
0.07 X 1
0.35 % 1
0.21 X
1
0.22 X 1
0.11 X 1
1
JO. 022C 1_
Q»12££ I
-.a
1
0JDAafl__l_
0-.C25I L
1
132
1
O.Ufa X 1
0.30 1 1
0. 17 x
1
0.21 X 1
0.10 X 1
i_
_J_-
J).i£ii_i__
__-D»J)4J56-
Q..Q4IS L
QaQ22A__l
1
~133~
1
0.08 T I
0.70 * 1
0.22 X
~r~
0.22 X I
0.12 X 1
J
1„
fl.2-5 34__1__
__D.U535.
_ Q.1)42J._ 1
0.fi236__I
1
134
1
0.12 X 1
1.63 t 1
0.40 X
1
0.22 X 1
0.15 X 1
!_
1
J3«4)3i7 I
I
fl-JQII
1
G-.D43 J J._
Q..Q253 1
1
li 5
1
0.27 X 1
10.71 J |
0. 78 X
1
0.44 % I
0.30 X 1
1
J
3»B35i L
Qm.21QZ.
C.fl335__l_
Q.Q123 1
1
136
1
0. IS X 1
1.32 7 1
0.44 X
~f~
0.37 X 1
0.23 X 1
i_
1
11.05Q2 _1
D.iJ
D.J134
1
Q-.A.92Q L_
Q..Q54Q 1
1
137"
1
0. Ob X 1
0.32 % 1
0. 17 x
1
0.24 X 1
0.11 X 1
1
1
11.1)21)3 _1
fl.iJ _?£ J.
_ _
_Q.0542 1
!l.Q252__i
1
13a
1
0.18 X 1
0.90 * 1
0.47 X
O.44 x I
0.30 X 1
1_
1
_fl.i592 1 .
Cml255- i_
D._12i4_
£.£323 i
£.Q 7£5 i
1
139
1
0.12 X 1
1.90 T 1
0.31 X
_r_
0.21 X 1
0.16 X 1
J
_J__
9.0332 t_
I.65C3 I
D.UB43
1
1__
Q»iau__i
1
140
1
0.15 X 1
2.21 X 1
0.37 X
1
0.19 X 1
0.15 X I
1
_i__
0.SC2A 1
__fl«£3S3_
O.Dili 1
Q.Q356 1
1
HI
1
0.14 X 1
1.34 t 1
0.32 X
t
0.18 X 1
0.17 X I
J
1
n. 0441 I
O.iSiS J
—Dm 03b 0_
_Q-.fl.4-L2 _i
Q.0333 1
1
142
1
0.21 t I
1.13 I 1
0.46 X
0.32 X I
0.29 X I
J
1
£)*Qi>3ti i
—D.4i2J J__
QmUJUI J.
H.QZflfl 1
1
143
1
0.31 X 1
1.13 1 r
0.57 X
~i~
0.43 Z I
0.41 X 1
J_
_ ,
_1
X.1DQ-7 1
O.ilCS J
-_CmJ54i)_
i
U.Q2Jft 1
1
144
1
0.12 x 1
0.69 % 1
0.23 X
1
0.11 X 1
0.13 X 1
J
_J
._fl.Q3.5i J
0*2.45 i 1
. £).££! 2
1
Q.024 3 1
__0.1)305__1
1
145
1
0.03 X 1
0.09 X 1
0.05 X
1
0.02 X I
0.03 X I
J_
._i
._0-C0S3__i_
C.034J J
-_D.1U2.9_
0.QQ44 1_
Q.UQfiQ 1
1
146
1
0. 05 X 1
0.26 1 1
0. 10 X
~r~
0.05 X 1
0.05 X 1
i_
___ L
_J
£1.05 3J 1
._Q.02i.3_
_j
— C.lUQ5__i__
Q.Q12C 1
1
14 7
1
0.02 X 1
0.09 1 1
0.05 X
1
0.02 X I
0.02 X 1
1~
_1
fl.D3.2J J
_i
Q-.003I i
_Q«QQSfl__i
-------�
CALtePfiTtON FOR CHtRLFSTCN AC MA* SCVTH CAROL INA 11/11/76
SOLfiCE C^NT»IflOT^n^S Tr FIVf SftECTFC PECEPTPRS
AMkUAl PtRTtCULHTFS
PICFCGRAMS PER CUBIC HETEP
I SOURCE I RECFPTCR I RECEPTPP I RECEPTOR I RECEPTOR I RECEPTOR I
1
148
1
0. 19 * 1
0.24 * 1
0.39 X 1
0.16 X 1
0.15 X 1
1
1
0.0611 1
_Q^B3J5_ i __
fl*105i__l .
._0.fl351 _1
U.Q343 L
1
149
1
0.32 X 1
0.78 % 1
1.20 X 1
0.37 X 1
0.28 X 1
1
1
_0«1Q22_1
-0.2322 .J
_Q.3234 i
...0*0323 i
.Q.Q666__1
I
150
1
C. 22 X 1
0.42 X 1
0.32 X I
0.5/ X 1
0.29 X |
1
1
0.0/22 1
_ _C.1^2i_ 1 _
0.G9/0 1
0.1278 1
.0.Q&36 1
1
151
1
C. 20 X 1
0.5/ X 1
3.61 X 1
0.26 X 1
0.21 X 1
1
1
11.0555 1_
Q.2£ifl_ J
0.9/01 1
0.0513 L
-D.0433 1
1
152
1
0.48 X 1
0.56 X 1
0.84 X 1
0.63 % 1
0.48 X 1
1
1
0.1567 1
0.2C34 1
. 0.2235 1
_0.1323 1
0.1136 1
1
153
1
0.04 * 1
0.0/ 1 1
0.11 X 1
0.13 X I
0.06 X 1
1
1
0.0134 1
-0.Q212 _J
C.0300 1
0.0290 1
Q.Q132 I
1
154
1
1.5/ X I
1.09 t 1
1.45 X 1
1.26 X 1
1.74 X I
1
1
0.50^2 1 .
_D.3i4ii 1 _
.0.3333 1__
0.2811 1
_0.4131 I
1
155
1
2.82 X 1
2.55 1 1
3.60 X 1
2.78 X 1
3.30 X I
¦
1
. JC.31iiJ i_
-Q.325J i -
0.6133 I
._o.iaa& l
156
1
2.45 * 1
2.0/ X 1
2.81 X 1
2.53 X 1
2.60 X 1
1
I.J3i5 1_
_0.2-2i 1
0.7544 1
Q.552A L
Q.&iai L
15 /
1
2.06 * 1
1.65 1 1
2.29 X 1
2.08 X 1
2.3/ X I
1
_d.Ai03__l_
. .. ' 1
Qȣ13I 1_
DaSSi 2 I
I).5il3—i
159
t
3.42 X 1
2.Z9 % 1
3.60 X 1
4.11 X 1
4.54 X I
1
1
1.1104 1
-1.0110 J_
_J).3i53_ J
-0.31ft9 1
l.OIIi 1
1
159
1
1.69 X 1
1.31 1 1
1.52 X 1
1.72 X 1
2.09 X I
1
1
0*3332 L
1
160
1
0.S3 X 1
0.55 X 1
0.78 X 1
0.6 / X 1
0.99 X I
1
1
0.2681 1
0.1584 1
0.2096 1
0.14B7 1
0.2358 1
1
1(1
1
C. 34 X 1
0.16 1 I
0.28 X 1
0.15 X 1
0.25 X |
1
1
fl.lllfl 1_
_Q.Dj9j J_
C.fiifiS l_
0.0340 i
__0.UiQ2 I
1
16 2
1
1.32 X 1
0.9/ X 1
1.45 X 1
0.61 X 1
0.88 X i
________
J.
O.A2flfl__l_
0..3J33 l_
0.33ai__J_
Q-.13112 _1__
0.2(131 I
1
163
1
0.69 X 1
0.41 t 1
0.54 X 1
0.34 X 1
0.45 X 1
1
I
C. 72 21 1
-O.lAflj J
0.1453 1
0.0/51 1
Q-.lQil.2_ 1
1
164
1
0.3/ X 1
0.2' * 1
0. 33 X 1
0.23 X I
0.2/ X I
1
0.1202. .1.
ji.i>sa:?__i-
O.X)33j[__l_
Q.QjQ2 1.
Q. 11133 1
1
16 5
1
0.3/ X 1
0.45 X 1
0.6/ X 1
0.26 X 1
0.24 X I
1
1
0.121/ 1
0.J £2fl_ J
0. 1807 1
0.05/1 1
0.0563 1
1
166
1
0.88 X 1
1.6/ * 1
2.32 X 1
0.70 X 1
0.65 X I
1
I
C. 2843 1
0.6089 1
0.6229 1
0.1551 1
0.1549 1
1
16/
1
C. 34 X 1
0.26 * I
0.44 X 1
0.26 X 1
0.48 X |
1
1
C.10HQ 1
-0.03.3 J J
Q.1132 J_
0.0535 1
0.1137 t
1
163
1
0.83 X 1
0.42 * 1
0.78 X 1
0.33 X I
0.81 X i
1
1
D.263J !_
Q.152i__i_
0.2035—. J_
Q-.0J36 L
0.1314 1
-------�
CAliePATICN FOR CHARLESTON ACMA, SCUTH CAROLINA
SOURCE CCNTRIBUTIONS TO FIVE SELECTFD RECEPTORS
ANMjAL p«rticulatfs
KICRCGRAMS PER CUBIC HETFR
11/11/76
172
173
176
177
178
179
1 BO
lei
102
168
169
0.45 X
_fi.l4.5fl t
0.29 *
_II.fl3.5i>.
0.69 X
.0*220 9.
0.30 *
.O.J.2AJ.
1.63 t
0.94 *
_jCu.30.5Q J
0.61.%
I
t.O» »
.13.34112—
2.25 *
.Smiiia
1. 50 *
0.47 *
_D.1522
2. C3 *
-Jl*t>Z5S
1.51 X
_U4fl£6__
1.09 *
_D«i535__
C. 73 *
-0*2520
1.68 %
0.51 *
-fi.i655
0.49 *
0.96 t
_C«31U2
0.33 I
.0*1061—
0.02 X
RECEPTOR I
5 1_
0.32 1 I
0*1113-1-
0.17 1 I
—1.
0.35 * I
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CAIIBPATICN FOR CMARLFSTCK ACMA. SCLTH CAPPLINA 11/11/76
SOLRCF CONTRIBUTIONS TO FIVE SELECTED RECEPTORS
AKKUAL PARTICULATES
MICRCGfAMS PER CUBIC METER
1 SOURCE
1 RECEPTOR 1
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RECEPTOR I .
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5 1
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3 —1
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1
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1
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1 0.4021 1
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1
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1 1 32.4302 I 36.3f4a~l 26.B602 I 22-2-632—i 23.2662 I
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AUOH RUN SCUPCES- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/11/16
STURCE C/TA
ANNUAL SOURCE I STACK DATA 1
1 snusr.F
SOURCE LCCATION
SOURCE AREA
f. MISS ION
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3642.3 I
3640.4 |
„36il*$ 1
3668.6 I
._3MS.5 1
1.70 I
-2*14 1_.
5.10 I
8.3C I
_l*iO JL
0.90 I
4*90 I
1*30 1
4.90 I
5.10 I
-83*10 1__
80.80 I
4.40 I
4*20 1—
11.90 I
755.20 I
-330*00 i_.
0.0
-9*Q_
0.0
0.0
_a.Q.
0.042
.0*212
0.293
0.149
-11*2*1-
367.80
290.00 |
.1X2*10 i
0.0
0.0
_Q*U_
0.0
0.0
._Si*Q_
0.0
0.0
~.o*a_
0.0
0.0
o*a.
0.132
0.222
_Q*1&Q_
I 10.0 0.0
.J IQ*Q il*0_
I 10.0 0.0
I 10.0 0.0
-J itt*o__o*Q_
0.0
_Q*Q_
0.0
0.0
_0*0_
0.
0*.
0.
0.
_Q.
10.0
I 10.0
J iq*o.
0.496
0.200
-_1*1BQ—
1.6 73
0.430
Q*Q2I
0.049
23.094
—2*523
114.10 I
355.60 I
_2Wfl 1
0.0
0.0
_0*0-
8.561
10.051
3*2fib-
10.0
1 10.0
J 10*0-
I 10.0
I 10.0
.J 10*0_
I 10.0
I 10.0
-J 10*0.
0.0
0.0
-Q*0_
10.80 |
3.40 I
_5J3*3il 1.
0.0
0.0
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257.00
_3fi3*l-0-
0.0
0.0
-0*0-
2.264
6.932
._Q*995_.
0.149
0.045
.20*263-
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I 10.0
i io*o.
I 10.0
I 10.0
.1 10*0.
I 10.0
I 10.0
J 10*0.
0.0
0.0
0*!
0.0
0.0
_0*0
0.0
0.0
.0*0
0.0
0.0
.0*0.
0.0
0.0
_0*Q_
0.
0.
_0*.
0.0
0.0
*Q
0.0
0.0
_o*a_
0.0
0.0
_0*Q_.
0.0
I
I
0. I
0. I
0*_l
0. I
0. t
Q*_ I
0. 1
0. I
Q*_l
0. I
0.0
.0*0-
9.290
-10*5228
I 10.0
-1—10*0.
0.0
0.0
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0.0
0.0
—0*0-
0.0 0. I
-0*0 Q*_l
0.0
0.0
.0*0
0.0
0.0
.0*0
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0. I
0. I
__0*_I
0.0
_0*0_
0.0 0. I
_Q*fl 0*_l
-------�
AODM RUN -ALL SOURCES- FOR CHARLESTON A CM A > SOUTH CAROLINA 11/11/76
fETECROLOGICAL INPUT DATA FOR ANNUAL
MIXING DEPTH = 900. METERS
AMBIENT TEMPFHATURE = S5. DEGREES.FAHRENHEIT
AMBIENT PPFSSURF * 1013. MILLIBARS
STABILITY CLASS 1
WINDSPEED CLASS
WINO 01 RECTION
I
2
3
4
5
N
.00034
.00034
.0
.0
.0
.0
NNF
.0
.0
.0
.0
.0
.0
NE
.0
.0
.0
.0
.0
.0
>
FNE
.0
.00034
.0
.0
.0
.0
1
N)
E
.0
.0
.0
.0
.0
.0
CO
ESF
.0
.0
.0
.0
.0
.0
SE
.0
.0
.0
.0
.0
.0
SSE
.0
.0
.0
.0
.0
.0
S
.0
.00068
.0
.0
.0
.0
SSW
.0
.0
.0
.0
.0
.0
SM
.0
.0
.0
.0
.0
.0
kSK
.0
.00034
.0
.0
.0
.0
W
.0
.0
.0
.0
.0
.0
WNW
.00034
.00034
.0
.0
.0
.0
NW
.0
.00068
.0
.0
.0
.0
NNM
.0
.0
.0
.0
.0
.0
-------�
AUOM RUN -ALL SOURCES- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/11/76
PETFCROLOGICAL INPUT DATA FOR ANNUAL
T
to
vo
STABILITY CLASS 2
WIND UIPFCTICN 1
N .00144
NNE .00096
NE .00043
ENE .00009
E .00002
ESE .00117
SE .00002
SSE .00110
S .00078
SSM .00079
SU .00095
kSW .00012
U .00096
WNW .00018
NM .00050
NNW .00032
WINDSPEEO CLASS
2
.005It
.00342
.00171
.00137
.00034
.00103
.00034
.0
.00068
.00068
.00171
.00171
.00342
.00274
.00205
.00137
' 3
.00137
.00171
.00137
.00034
.00034
.0
.00034
.00137
.00308
.00171
.00308
.00274 .0
.C0240 .0
.00103
.00034
.0
4
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
5
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
6
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
AODM RUM -ALL SCUPCES- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/11/76
PFTECROICGICAL INPUT DATA FOR ANNUAL
I TV CLASS 3
WINDSPEED
CLASS
DIRECTION
1
2
3
4
5
6
N
.00225
•0C548
.00822
.00034
.0
.0
NNE
.0003b
.00171
.00 322
.00137
.0
.0
NE
.00008
.00103
.00411
.00034
.0
.0
FNE
.00025
.00342
.00342
.00034
.0
.0
C
.00020
.002 74
.00411
.0006 8
.0
.0
ESF
.00013
.00171
.00342
.0
.0
.0
SF
.00015
.00205
.00342
.00034
.0
.0
SSF
.0004 7
.00137
.00342
.00034
.0
.0
S
.00091
.00240
.00390
.00103
.0
.0
SSW
.00013
.00171
.00303
.00137
.0
.0
SW
.00020
.002 74
.00582
.00103
.0
.0
t>Sh
.00023
.003ca
.00 733
•0006B
.0
.0
M
.00015
.00205
.00719
.00205
.0
.0
UNW
.00013
.00171
.00445
.00068
.0
.00034
NU
.00150
.000 34
.00342
.00034
.00034
.0
NMM
.00091
•C0240
.00411
.00068
.0
.0
-------�
AQOM PUN -ALL SOURCES- FOR CHARLESTON ACMA, SOUTH CARCLINA 11/11/76
MET FCROLOGICAL INPUT DATA FOR ANNUAL
[TV CLASS 4
WINDSPFED
CLASS
DIRECT ION
I
2
3
4
5
6
N
.00103
.00925
.02226
.01027
.00034
.0
NNE
.00052
.004 79
.01712
.00959
.0
.0
HE
.00064
.00822
.01541
.00411
.0
.0
ENF
.00018
.00514
.00993
.00205
.0
.00034
E
.00053
.00514
.C1370
.00582
.0
.00034
ESE
.00054
.00548
.01233
.00445
.0
.0
se
.00016
.004 79
.00993
.00377
.0
.0
sse
.00045
.00274
.00 753
.00342
.00034
.0
S
.00068
.00959
.01918
.01678
.00274
.0
SSW
.00047
.00342
.02089
.01610
.00068
.0
SU
.00051
.00445
.01541
.01301
.00103
.0
kSW
.00115
.00240
.01267
.01096
.00034
.0
fc
.00058
.00651
.00959
.01747
.00068
.00034
WfJW
.00117
.003C8
.00479
.00925
.00068
.0
NW
.00046
• 003C8
.00445
.00616
.0
.0
NNW
.00122
.00445
.00411
.00445
.0
.0
-------�
AQOM RUN -ALL SOURCES- FOR CHARLESTON AQMA,
PET ECROLCGICAL INPUT DATA FOR ANNUAL
SOUTH CAROLINA U/ll/76
U»
N3
STABILITY CLASS 5
WIND DIRECTION 1 2
N • 01466 .03014
NNE .00693 .01438
NE .C0543 .01096
ENE .00131 . 0C856
E .00219 .00617
FSE .00371 .00787
SE .00579 .00924
SSE .00396 .01198
S .01369 .03151
SSh .00809 .02226
SW .C0509 .01061'
VSM .00199 .00958
k .00281 .01061
UNW .00268 .00411
NU .00226 .00479
NNH .00845 .02363
WINDSPEE 0 CLASS
3 4
.00445 .0
.00514 .0
.00103 .0
.0 .0
.00137 .0
.00137 .0
.0 .0
.00103 .0
.00308 .0
.00445 .0
.00411 .0
.00651 .0
.01301 .0
.00445 .0
.00240 .0
.C0171 .0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
«10M RUN -ALL SOURCES- FCR CHARLESTON AQMAt SOUTH CAROLINA 11/11/76
T
Oi 1NFUT REGRESSION PARAMETERS ARE:
u)
-ECLUilAMI— fclMEECEEI slcpf
PAR TICLLATES 0.0 1.0000
-------�
AOC PUN
I
I 1
I RECFPTCR I
J NU£ti£B 1
I 1
I 2
J 3
I 4
I 5
J 6 __1
I 7
I e
I 10
I 11
1 12
I 13
I H
1 15
I 16
I IT
J lii
I 19
I 20
J 21
I ?2
I 23
J 2i
I ?5
I 26
1 22
I 29
I ??
J 30
I 31
I 32
J 33
I 3*
I 35
I • 36
I 37
I 38
1 33 1
1 40 1
SOURCES- FOR CHARlFSTCN AUMA, SOUTH CAROLINA 11/11/76
B£CfPIC£_CQil£E£IIJg
RECFPTCR LCCATICN
("kTlometfpsT
—tiOBIZ Y£RI
IJCN_DfiI£
FXPFCTED ARITHMETIC MEAN
(MICROGRAHS/CU. METER)
SE2 £ABIiCliLdI£S.
-------�
OCK RON -
F5CFFTOR
J nui5aEa_
SOURCES- FOR CHAFL ESTCN ACMA, SOUTH CAROLINA 11/11/76
B£C£ilI £B_CCW£j:ilJ£^I10M_DflIA
I
RECFPTOR ICCAT1CN I EXPECTED ARITHMETIC MEAN
("KILOMETERS I I ( PTcROGRAHS/CuT MEtIrT"
.HQEL2 YERI 1 5£2 Pfl£IiCULAI£S__
I t I
594.C I 3644.0 I 0. I 46.
_524.fi__i—3646.0 1 Q. 1 45*
596.0 I 3620*0 I 0. I 45.
596.C I 3622.0 I 0. I 46.
~59i. D—I _3 J24..Q i 0-. 1 43*
596.0 I 3626.0 I 0. I 51.
595.0 I 3629.0 I 0. I 51.
_596.fi—I 3 £30.0 1 IK 1 52..
596.0 I 3532.0 I 0. 1 53.
596.0 I 3634.0 t 0. I 55.
596.fi—I 3636.Q 1 Q. J 53 a
596.0 I 3638.0 I 0. I 53.
596. C I 3640.0 I 0. I 5U.
__52i .1)—l_3i>42..0 1 Q* I 43*
596.0 I 3644.0 I 0. I 48.
596.0 I 3646.0 I 0. I 4b.
523.0—L—3620.0 1 0. 1 45*
598.0 I 3522.0 I 0. I 4F.
598.0 I 3624.0 I 0. I 48.
_53.9.0__l_3f>2fi.Q 1 Q» 1 5CU
599.0 I 3628.0 I 0. I 59.
598.0 I 3630.0 I 0. I 58.
-523.Q—I 3i32*U 1 Q. J ii*
593.0 I 3634.0 I 0. I 54.
598.0 I 3636.0 I 0. I 52.
523.0—L—3£3£.0 1 JL. 1 53.
598.0 I 3640.0 I 0. I 49.
598.0 I 3642.0 I 0. I 48.
_ 593.0—l__3644»0 J Q. 1 41.
598.0 I 3646.0 I 0. I 45.
600.0 I 3620.0 I 0. I 44.
.500*0—JL 3J>22.Q J 0. 1 45*
600.0 I 3624.0 I 0. I 47.
600.0 I 3626.0 I 0. I 50.
„ 600. 0—l_362fl.Q 1 Q* 1 56*
600.0 I 3630.0 I 0. I 53.
600.0 f 3632.0 I 0. I 51.
_£Q0. Q—J —3634.Q J 0. J 5Q*
600.0 I 3636.0 I 0. I 43.
—£UJ)*0—1—3633.0 i 0. i 48.
-------�
AODM PUN -ALL SOURCES- FOR CHARLESTON AOMA, SOUTH CAROLINA 11/11/76
I
1 ££C£PIIB_Ci:iilIEiIij5IlQlsl_IIAIA
1
t PFCEPTOR
1 kil lun r o
RECEPTOR
1
LCCATICH 1
FX PECT ED
ARITHMETIC MEAN
J—-QJj.E3R.Co
i
(KILOMETERS) 1
«KICRCGRAMS/CU. METER)
UDHIZ
_V£8I I
SP2
PARTICULATES
i
i si
500.0
1
_3£4fl*0 i
0*
1
_1 41*
1 82
600.0
3642.0 1
0.
1 46.
1 63
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3 £44.0 1
0.
1 45.
1 £4
MSJ.fl L 3646..0 1
SK
_1 45*
1 85
602.0
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0.
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1 66
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0.
1 A3.
1 87
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0.
1 44*
1 88
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0.
1 44.
1 89
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0.
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1 30
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0.
1 .... 45* _
1 91
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_ 602.0
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0.
I_ _45*
1 97
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0.
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__ 0- _
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1 109
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0.
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J 111
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Q-.
J_ _44*_ .. _
1 112
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3646.0 1
0.
1 44.
1 113
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0.
1 40.
1 114
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0.
_J 41*
1 115
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1 1U
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0.
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0.
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1 118
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I . 1?Q.
606*1).
3634.0 1
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1 43. _
-------�
AOCK PUN -ALL SOURCFS- FOB ChAPLF STCN ACMA, SOUTH CAROLINA U/ll/76
1
RECEPTCR CONCENTRATION
DATA
»
1 PECFFTCR
1
RECEPTCR LCCATICN 1
EXPECTED
ARITHMETIC MEAN
J—AJJ£ EES
1
(KILOMETERSI I
I KICROGRAMS/CU. METER!
I
HQB1Z. YEBI_ _1 _ _
S£2
EABIiCIJLAI.ES
1 121
606.0 t 3636.0 1
0.
1 43.
1 122
606.0 1 3638.0 1
0.
1 43.
.1.. 123..
S.0S.0 1 34*0.0 1
0.
1 43._
1 124
606.0 1 3642.0 1
0.
1 44.
1 125
606.0 1 3444.0 1
0.
I 44.
1 X26
6UJb.Q__i 3646.0 1
. .0.
i
1 127
608.0 1 3620.0 1
0.
I 40.
1 129
608.0 I 3622.0 1
0.
I 40.
1 129
608.11 1 1624.0 1
0.
1 41. .....
1 130
609.0 t 3626.0 1
0.
1 41.
t 131
608.0 1 3628.0 1
0.
I 44.
1 1
_ _iQa«Q _i 363Q.0 1
0.
1 43.
1 133
608.0 1 3632.0 1
0.
1 43.
1 134
6C8.0 1 3634.0 1
0.
1 43.
J UJ
603.Q _1 .3636.0 -1_ -
_ flj
1 42.
1 136
608.0 1 3638.0 1
0.
1 42.
• 137
608.0 1 3640.0 1
0.
1 42.
1 13ft
6fl8-n 1 , 1
. 0.
1 43. _
1 139
608.0 1 3644.0 1
0.
1 43.
1 .-JAQ .. ... .1
603« Q 1. .3646.0 .._J
0.
1_ _ £.3.- __
-------�
AQCM RUN -ALL SflURCFS- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/11/76
SOURCE CCNTRIBUTIPNS TO FIVE MAX IK UM RECEPTOKS
ANNUAL PARTICULATES
PTCRflGPAMS PER CUBIC PETER
I SCUFCE I RECEPTOR I RFCFPTCR I RECEPTOR I RECEPTOR I RECEPTOR I
J 1 41 1 62 1 51 J 13 1 50 1
I 1 I 0.00 % I 0.01 1 I 0.01 t I 0.00 X I 0.01 X |
J J 0,43023 I D«Xfl36_J 0,0022—1 O.QQ34__l
I 2 I 0.01 X I 0.01 * I 0.C1 X | 0.01 X I 0.02 X I
J 1 0,1)025 1 0, 0026 I O.XOSS—i 2,0020 1 Q,00B4__1
I 3 I 0.03 J I 0.03 3 I 0.03 X I 0.02 X I 0.03 X I
J J 0,0152 J C.015J—1 £.£121—1 0,0140—1 0,Q162—1
I 4 I 0.03 % I 0.03 1 I 0.04 X I 0.03 X I 0.04 X I
X 1 D»fll2.S__i fl.Ci9.3__i £»£222_ J 0,fll32__! £.0220—1
I 5 I 0.01 % I 0.01 * I 0.01 X I 0.01 X I 0.01 X I
1 J 0.0061 i 0.0££.2__1 £,£063__1 0,131356 I 0.0063—1
I 6 I 0.00 J I 0.00 * I 0.00 X I 0.00 X I 0.00 X I
J i 13.0011 1 0,0012 1 £,£015 I 0,0011—1 0«0Q14__1
I r i o.oo x i o.oo ? I o.oo x I o.oo x I o.oo x I
i 1 0, 0011 1 0,0£1.2 1 £,£015—1 0,0011 I 0«OO14—1
I fl I 0.1b X I 0.1/ I I 0.21 % I 0.16 X I 0.21 % I
i 1 0.0963 1 0,033.5 1 J3,1131_j £,£.335__1 0a1151__1
I 9 I 0.15 X I 0.1' J I 0.21 X I 0.16 X I 0.21 X I
J i 0,133 63 I 17,0 335—J 11,1131 I £,0035—1 0,1151—1
I 10 I 0.01 X I 0.01 J I 0.01 X I 0.01 X I 0.01 X I
J J 13. 00 6 J I 0,0 ££3 i £.££23—i £,a£63__l 0,0022—1
I 11 t 0.00 X I 0.00 * I 0.00 X I 0.00 X I 0.00 % I
J 1 0,0010 1 0,0011—1 £.£D13 I LMll.J 0_.OQ1.3__1
I 12 I 0.00 X I 0.00 ? I 0.00 X I O.OO X I 0.00 X I
1 1 0.0O15 J 0.0016 I 0,0021 I 0,0016—1 0,0012—1
I 13 I 0.01 X I 0.01 t I 0.01 X I 0.01 X I 0.01 X I
I 1 0.0039 1 0,0£$.l—1 £,££43—i 0,0032—1 0,0042—1
I 14 I 0.00 X I 0.00 X I 0.00 X | 0.00 X I 0.00 X I
J 1 0.0OQ2 1 0, ULJLJ 1 0,0003 1 £.0003 1 0,0002—1
I 15 I 0.00 X I 0.00 f I 0.00 X I 0.00 X I 0.00 X I
J 1 0.0002—J J0,0££J_1 £.£003 I 0,01303 L 0,QQ03__1
I 16 I 0.04 X I 0.04 1 I 0.01 X I 0.02 X I 0.03 * I
J 1 0.0242 1 0 j. 0255 1 0.£061 I 0,0112—1 £,0415—1
I 1? I 0.04 X I 0.04 % I 0.01 X I 0.02 X I 0.03 X I
J 1 0.02 4 J) L 0,0255—1 0.0061 1 0,0112 I £,0415—1
I IB I 0.04 t I 0.04 i I 0.01 X I 0.02 X I 0.09 X I
i J 0. 02 43—1 0.0253 I 0,£061 1 0,0112__1 0,0415—1
I 19 I 0.04 X I 0.04 t I 0.01 X I 0.02 X I 0.03 X I
J i 0.024.8—1 0.0255—1 U»£Qfil—J 0,0112 L 0,Q415__1
I 20 I 0.04 * I 0.04 * I 0.01 X I 0.02 X I 0.09 X I
J J O.024i—1 0.0255—1 0.0061—J Q,0112__l 0,0415—1
I 21 I 0.00 t I 0.00 } I 0.02 X I 0.00 X I 0.01 X I
1 1 0.0011—1 0,0£22 I 0.0124 1 0,0011 I 0,0062—1
-------�
ACcv PUK -ALL SOLRCFS- FCR CHAPLES1CK AOHA, SOUTH C/RCUNA U/ll/76
SOURCE CC^TR I8UT IONS TO ft ME HAXII'LH RECEPTORS
«HKU*V. PARTICULATES
fICBCGBAHS PER CUBIC KETER
SCLRCF
RECFPTOK 1
RECEPTCR |
RECEPTOR 1
RECEPTOR |
RECEPTOR I
.61 1
62 1
51 1
75 . 1
50 1
22
0.00 X 1
0.00 % 1
0.02 X 1
0.00 X 1
0.01 X |
0.001 1 l_
0*11022 i
0.C124 1
0.0011 _1
0*0062 1
23
0.01 X 1
0.01 * 1
o. 0? % 1
0.01 X 1
0.04 X 1
0.0042— 1_
0*0X25 I
—0.0412—1 0*004J—1_
0*0221—1
24
0.01 X 1
0.01 * 1
0.07 X 1
0.01 X 1
0.04 X I
_ -0.0062 1
0*0I2S 1
0.0412 J
0.0041 i
0*0221 1
25
0.00 X I
0.01 % |
0.04 X 1
0.00 X I
0.02 X I
_ _
U.0Q2B 1_
0*003£ 1_
. 0.0211 1
-0*0013—1
0*0104—1
2t
0.00 X 1
0.01 % I
0.04 X 1
0.00 X 1
0.02 X 1
. . . .
.—Q.0Q2B 1_
_ -0«Qfl3.£ 1
-0.0211 1
-0*0013 L_
0*0104 _1
27
0.02 X 1
0.02 1 1
0.13 X 1
0.01 X 1
0.07 % |
i_
0.013_£ i_
0.0132 1_
O.Qflll—i_
fi.aiss—i
28
0.02 X 1
0.02 t 1
0.13 X 1
0.01 X 1
0.07 X |
—0.0102 1-
0*013_f—1_
0.0232 t_
0*0021-1-
0*0335—1
29
0.02 Z 1
0.02 1 I
0.13 X I
0.01 X 1
0.07 X |
0.0102 1_
0.0134 i_
0.0232 1-
—0*0021-1-
0*0395 1
30
0.02 X 1
0.02 t |
0.11 X I
0.01 X 1
0.07 x I
0*010J l_
0*0136—1_
_ 0.0232 1
.0*0021—1_
0*0395 1
31
0.01 X 1
0.01 % I
0.04 X 1
0.00 X I
0.02 X t
0.0034 1
0*0043- 1_
0.0203 L
0*0022 l_
0*0104—1
32
0.04 X 1
0.03 * 1
0,18 I 1
0.02 X 1
0.08 X I
0.0231 L
0.013X—1_
£.1031 L
0-0113 1-
0.0439—1
33
0.01 X 1
0.01 * 1
0.03 X I
0.01 X I
0.02 X |
.0*0063 l_
0*00j5 J_
_ -0.0.133 1
0*0063—1.
0.0121—1
34
0.01 X 1
0.01 t 1
0.03 X f
0.00 X I
0.03 X I
. _
0.0045-1-
0*00il_1_
0.0152-1-
0*0020 1-
0*0190—1
39
0.01 t 1
0.01 % |
0.03 X 1
0.00 X 1
U.03 X I
0.004S_1_
0.UC2J l_
0.0151 L
0*0020-1-
0.0129—1
31
0.01 X 1
0.02 * 1
0.00 X 1
0.01 X I
0.00 X |
0.00411 1_
0.009.C J
0.0016-1-
0*0031-1-
0.0013—1
3 7
0.01 X 1
0.02 t 1
0.00 X 1
0.01 X 1
0.00 X |
-
-0.0046 1_
0.003X l_
0*0016 l_
0*0031-1-
0.0013—1
38
0.02 X 1
0.02 * 1
0.00 X I
0.01 X 1
0.00 % I
0.C055 1_
0*0.135 J_
0.0012—1_
0*0035—1.
fl.0020—1
39
0.0T X 1
0.08 1 1
0.21 X 1
0.05 X 1
0.17 % |
-0.04 2J 1_
0.04Ji l_
_ -0.1201 1
0*0262—t
0*0231—1
40
0.01 i 1
0.08 % I.
0.21 X 1
0.05 X 1
0.17 X I
-0.042J J
0.04i_S__l_
0.1201 1
-0*0262—1
0.0331—1
41
0.04 * 1
0.05 % I
0.13 X 1
0.03 X 1
0.10 X 1
.0*0230 _1_
0.0220 l_
0.0225 l_
0*0143—1_
0.0545—1
42
0. 14 * 1
0.16 1 f
0.36 X 1
0.09 X 1
0.31 X 1
i
.0^032.6 1_.
0*0312 l_
0.2051 1
-0*0506 L
...0.1631—1
-------�
ACCM FUN -ALL SOURCES- FCR CHARIFS1CN £CMA, SOUTH CARCLIhA 11/11/75
SOLRCF CCN TR I BUT IONS TC FIVE MAX IMP RECEPTORS
ANNUAL PARTICULATES
ICRCGFAMS PER CUBIC PETER
SOURCE
43
~A5~
~46~
~4 7~
~4fT
45
50
51
52
53
54
55~
56~
"57"
~5B"
"is"
~60~
~61~
~t2~
"IV
RECEPTOR
il
0.01 X
J..Q044 1__
0.06 X
Q+Q323
0.03 *
-CU.fll3J.__
0.05 I
—a*azis
0.05 X
J3.JQ2S2
O.ll X
C.D636
0.05 *
£.0252
0.10 %
J3.Q5.S5
0.04 *
*M)2QS__1
0.0S X
—fl.Qwa.
0.04 X
5*02.33.
0.01 *
fl.fl£2£3
0.01 *
! —£.*£052 I.
0.03 X
0.0135.
0.07 J
A.A434
0.00 t
fl*0QG3.
0.03 X
Q*.QUi)__l
0.02 X
J)*Q1_4.4__J
C. 00 X
S.AQ2J
0.07 X
fl*i)3.35 1_
0.01 * I
0*0030 1_
RECEPTC" I
—42 1_
0.01 4 I
—0-.QS4J__.L_
0.07 % I
0*t3.SJ_l_
0.04 ? I
0 Jfl22i__l.
0.05 J I
BaOJ3i i_
0.06 % I
Q.!)33i__l_
0.13 1 I
-a*flj5.6__i_
0.05 I I
—Q*Q3iJ__.L
0.11 * I
__Q.Q£.5i_.l_
0.04 * I
Q*Q222 L_
0.10 1 I
C..Qf£.2__L
0.05 * I
fl*C2£_5__i_
0.01 I I
C*0£2J__J_
0.01 * I
—0.QQ5 f__J_
0.03 I I
-_fl«QJ75_i_
0.09 * I
._Q*0S1.L_1_
O.OO X I
._.£)* QCQ.4__J_
0.03 % I
._Q*Qlt4 1_
0.03 1 I
._.0*flJ.£.3__i_
0.01 * I
0.09 X I
__A*Q4_9.5 J_
0.00 1 I
__0*Q.Q2.4__-L
RECEPTOR
51
RECEPTOR
15
0.02 X I
a^-caai _L
0.19 * 1
0.00 %
_Q.ȣIQ2Z
0.05 X
JJ*a£S3 I QaflZSI-
0. 12 X I 0.03 X
J fl_.QJ.52_
0.17% | 0.04 *
I*JUfl.5 I 0-.0221-
0. IS * I 0.04 %
-0._C.343_
0.37 %
_L
I
-0*0225,
0.09 X
Q*214Q 1 C*05fl3.
0.12 X I 0.03 X
Q*Ct>lb I 0*0131.
0.28 X I 0.07 %
£*1£03___L.. 0*0362.
0.09 X I 0.02 t
U.£i35_J Q *0123 I
0.31 X I 0.05 X
0*1.9fl£___l_ C *£303
0.11 X I 0.03 X
fl«£i)4fl I Q*0142
0.03 X I 0.01 X._
fl*.Cl_r3__J 0*0033 L
0.03 X I 0.01 X
0*oi4j_j o*asnz.
0.08 X I 0.02 X
0*£452_1 0*0032 L
0.34 * | 0.05 X
0*1352__1 0*0223.
0.00 X I 0.00 X
__0*0£13_J
0.06 I I
__0*0339.
0.04 X
0.0212 l_
0.01 X I
__Q«0041__J_
0.09 X I
0.02 X I
0*0120 l_
-0*0002.
0.02 X
J o*£ioa_
0.01 x
0*0025-
0.00 x
.0*0014.
0.03 X
Q.0125-
0.00 X
0*0014-
RECFPTOR |
50 1
0.01 % I
£UQQ3fl__l
0.13 X I
Q*0IZ3 I
0.08 X I
.0*0444.
_1
I
_1
0.12 %
Q*0fi4S_
O.ll X I
0*Q632__1
0.26 % I
Q*1422__l
0.10 X I
0*O55.2__1
0.23 X I
fl*1266__l
0.07 X I
£,.0413 L
0.22 X I
£*1242 1
0.09 X I
Q«Q511 1
0.03 X I
£M)JL23__1
0.02 X I
0*0114 L
0.0 6 X I
0*Q252 L
0.22 X I
fl*1222 L
0.00 X
_£*U2fl2.
0.04 X
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0.07 X
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0.01 X
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0.18 X I
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0.01 X I
A-40
-------�
tccr PUN -ALL SOURCES- FCt> CMRLPSTCN fiOMA. SOUTH C4RCCIM 11/11/75
SOURCE CCKTRIBUTfON'S TP FIVE HMIfLH RECEPTORS
ANMJM. PARTICULATES
FICfCGPAMS PER CUBIC KETER
I SOLRCS
1
RECEPTOR 1 RECEPTOR 1
RECEPTOR
1
RECEPTOR 1
RECEPTOR 1
1
1
il 1 62 1
51
1
75 1
50 1
t
t4
1
0.01 I 1 0.01 ) 1
0.00 X
1
0.00 X I
0.00 X 1
-1_
i
_0*00S2_1 _D.D.D5.S 1_.
Q.Di)14_
.i__
0.Q02Q i
Q.QQ2Q__1
1
65
1
0.01 X 1 0.03 * 1
0.01 X
1
0.01 X 1
0.01 X I
1__
-1_
0. flOi.5__-l 0.0X5 4 1_.
Q.0A32
.J—
0.0243 _1
0.0Q5I- 1
I
66
1
0.01 * 1 0.03 t t
0.0\ %
1
0.01 X 1
0.01 X 1
1
D.0iU5 _i __JQ.01.50 1_
0.BJB32
1
. 0.0049 1
0.0056 1
1
|
1
i
1*
1
1
1
0.03 X 1 0.06 * 1
0.01 X
1
0.02 X i
0.02 X 1
1_
\
O.OISB \ o.n343 >
Q.Q0B5
1
_0.0130- i_.
Q.Q115_ 1
1
68
1
0.27 * I 0.46 * 1
0.12 X
1
0.18 X I
0.19 X 1
1
, 0.1533._1. ,.fl.2i£A i
O.JD692_
_1_.
0.1032—1_.
0.1Q63 1
1
b9
V
0.24 t 1 0.48 1 1
0.11 X
1
0.17 X 1
0.20 X I
1_.
.
_1_
0»14.4S__1 fl.2J-£i 1-
0.JQ6P6
1
0.0344 1_.
Q.1Q91 1
1
70
1
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0.01 X
1
0.02 X 1
0.02 X I
J
1
0.020? 1 0.0?!. J 1
0.i)053_
-1-
0*0123 L_
1
71
I
C.ll X 1 0.15 % I
0.03 X
1
0.07 X 1
0.05 X I
1_
_1.
fl.Q521__l 0.0.845—J_
0.013I-
_J_
0.0410 L_
0.0222 i
1
72
1
C. 11 * I 0.15 1 1
0.03 X
1
0.07 X 1
0.05 X I
1
_1.
0. UiZl 1 Q.OJiii-5 i-
0.0197
1
_ 0-0410 I
0.0222 1
1
73
1
0.04 * I 0.07 1 I
0.01 X
1
0.03 X 1
0.02 X I
1
1.
a. D24fl__ i Q.QJ£_3—i.
0.0059-
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0.0144 L_
fl.Q10l__l
1
74
1
0.01 * 1 0.04 1 1
0.00 X
1
0.01 X 1
0.01 X I
1
1
£.flQBit_ J _ _fl.Q2.Cj J_
0.D0??
1
0.2250- 1_
Q.QQ36 1
1
75
1
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0.04 X
1
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0.02 X I
1_
i.
0.00.44 1 0.O.C5.2—J_
0.0232
1
0.Q021—1_
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1
16
1
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0.04 X
1
0.01 X 1
0.02 I 1
J_
J). .0044 1 0.00.52 1_
0.0232-
_1_
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0.0135—1
1
17
1
0.00 X 1 0.01 I 1
0.03 X
1
0.00 X 1
0.01 x |
J_
______.
£.4)02.5 1 fl.O.C.3.0 _J_
0.fllAl_
_1_.
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0.QQ22 L
1
79
t
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1
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1
, ,
1_
0.0023 I 0.0D3.0—J_
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1
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1
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I
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fl.02&6_
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1
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1
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HI
1
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1
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_1_
0. 0141—J 0.P1Z3__J...
2.0122—
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»
82
1
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1
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1_
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1
83
1
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1
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J
1
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D.0122-.
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1
84
1
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1
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i
1
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0.0031-.
-1_.
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0.0112 1
-------�
AOCP FUN -ALL SOURCES- FCR CHARLES1CN ACMA• SOUTH CAROLINA 11/11/76
SOURCE CChTR IBUTIONS TO FIVE MAXIKUM RECEPTORS
ANNUAL PARTICULATES
fICPCGRAMS PER CUBIC METER
1
SOURCE 1 RECEPTOR
1 RFCFPTOP
1 RCCEPTOR 1
RECEPTOR
RECEPTOR 1
i
1 . 51
1 62
1 31 1_
75
50 1
1
e5 1 0.03 *
1 0.04 1
1 0.01 X I
0.03 X
0.02 X 1
1
1 .. . D*1U1.5
1 0.02.5 .f
i XJ.0031_J_
0.0156
Q.Q112—1
1
86 1 0.0? X
1 0.03 1
1 0.01 X 1
0.02 X
0.01 X 1
J D.D103
I fl. 011(1
1__ 0.111)50 1
. .0.0037 _J
Q.QQ70—1
r
87 1 0.00 X
1 0.00 %
1 0.01 X 1
0.00 X
0.00 X 1
1 x).oan_
J Q-.aCJ.2__
1 0.1)043 1—
0.0003—
Q.4Q23—1
r
88 1 0.00 X
i 0.00 X
1 0.01 X 1
0.00 X
0.00 X f
j_
1 D.0011
J ;_D.0D12__
1 0.0043 l_
O.OQQ3__
Q.QQ23 1
i
89 1 0.0(1 t
1 0.00 !
1 0.C1 X 1
0.00 X
0.01 X 1
1 0.0009
i Q.flHl.0
1__ 0.0045 1
0.0005
Q.QQ23- 1
r
9C 1 0.00 *
1 0.00 1
1 0.01 X 1
0.00 X
0.01 X 1
j_
1 0.0012
J 0.0014
i O.DOil 1
0.0005
0.0033 1
i
91 1 0.02 X
1 0.02 1
1 0.13 X 1
0.01 X
0.06 X 1
j
1 0.0102
1 0*01213
J 0*1)232 l_
0.0053
0.0332 1
i
92 1 0.03 X
1 0.03 »
1 0.05 X I
0.02 X
0.05 X 1
i
1 0.0149
1 0.0151
i O.D2i3 J_
_O.01Q1
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i_
1 0.0000
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0.001Q
Q.QQQ2 1
t
94 1 0.00 X
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i
1. C.COOO ..
1 O.OO.C9
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0.0010—
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i
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0.00 t 1
1 j). QQOO
1 £.01)£J9
1 0.1)002 l_
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r
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j
i 13.1434
1
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1 JC.DOOS—
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1 0.1)032 L_
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. 1 4.0011-
1 0.01)14
i _ Q.1)054 i
0.O0Q8 -1
0.0030—1
i
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0.0150 1
i
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0.06 % 1
i_
1 0.00.t2__
1 0.1)jC5£
1 0.0133 1_
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j
_1 JJ.0103 _
1 Q.0£31
1 0.1)321—1_
0.0053
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j
t G.Q851
1 Q.QJ43__
1 0.2333-1-
Q.Q451
0.5105—1
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1__ fl.2213
J 0.33B4__
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0.1412—1
i
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1 0.20 X 1
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j
J _ 0.2434__
1 0.3123
1 0.1151 l_
0.2131—
0.1554—1
i
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1 0.29 1
1 0.09 X 1
0.22 X
0.13 X 1
i_
1 0.1106
1 0.1 £32
1 0.D523 1_
0.1241—1
Q.QI05 1
-------�
*CC RUN -/ILL SnuKCFS- FOR CtARLES TCN AG»A, SOUTH CAROLINA 11/11/76
SOURCE CTNTP I8UT IONS TO FIVE MAX I f-LH RECEPTORS
akmml particulates
MICKGPAHS PER CUBIC METFR
1
SOURCE
1
RECEPTOR 1
RECFPTOR 1
RECEPTOR 1
RECEPTOR 1
RECEPTOR 1
1
1
61. 1
62 1
51 1
75 1
ifl _i
1
106
1
0.03 > 1
0.02 X 1
0.01 X 1
0.26 X 1
0.01 X 1
1
1
0.0163. 1
0.0110 1
0.0031 1
0.1434 1
0.0041 I
1
IC7
t
0.01 t 1
0.01 % 1
0.01 X 1
0.01 X 1
0.00 X 1
1
1
0.0073 1
0.0033 1
0„0066 1
0.004 7 1
0.0017 1
1
118
1
0.01 X 1
0.01 » 1
0.01 X 1
0.01 X 1
0.00 X 1
1.
i_.
A. HDflJ L
Q.DQI2 I
. ..O^OOSi—l..
Q-.QQ13—1
1
ICQ
t
0.0(1 X I
0.05 * I
0.03 X I
0.04 X 1
0.03 X 1
1
1.
_ fla.045U J
0.0281 1
HJ.D446 1
0.0251 1
()r0191 1
1
110
1
0.00 X 1
0.00 1 1
0.00 X 1
0.00 X t
0.00 X 1
1
, 1
_ £a£UQ4 J
0.0CG4 1
0.0004 1
Q-.QQQ4 _1
0>0004. J
1
111
1
0.01 X I
0.01 X I
0.01 t t
0.01 t 1
0.01 X 1
1
1
£»i)l)I4_i_
Q.QfiiI__l_.
Q-.QQ2Q i_.
UjQQII 1
1
112
1
0.02 X 1
0.05 X 1
0.00 X I
0.01 X I
0.01 X I
1
1
_ Q*D12Q _1 .
Q*Q2t£ 1
0.M19 l_
QjQQiJ. l_
O.QQ32 I
1
113
1
0.03 J I
0.02 1 1
0.01 X 1
0.01 X 1
0.01 X 1
1
1
_ iaXlSJ i
-iuoai-s l
0.0058 1
_Q^QQi4 _1_
0.00 76 1
1
114
1
a. 14 x I
o.ei i t
0.C2 1 |
0.06 X 1
0.05 X I
1
. \
fl«i>835 1_
1_
0»1U32__1_
0.0312 I
0.0249 1
1
115
I
U.Ol X |
0.02 X t
0.01 x 1
0.01 X 1
0.01 X 1
1.
1_
Q.1)J)S2 1_
D.i)0J34_l_
Q-.lifl55 1_
Q*QQI5 I
J
116
1
0.00 X I
0.00 X 1
0.C2 X I
0.00 X 1
0.01 X 1
1
1
_ 1
_ Q*1)C25__1_
0.B142 1_
D-.fl.Dl 5 I D^DQ£ifl__l
1
117
1
0.00 Z I
o.oo x r
0.02 X 1
0.00 X 1
0.01 X 1
1
1
_ i)*0Q21 _1
(UQC2.5 _1
0.0142 1
0.0015 1
0.0068 1
1
113
1
0.00 X I
0.01 X 1
0.02 X 1
0.00 X 1
0.01 X 1
1
1
QmOOZb l_.
0*0133 I-
Q-.Q019 i_
fl..llQ24__l
1
119
1
0.00 X 1
0.0 1 X 1
0.C2 X 1
0.00 X 1
0.01 X 1
1
1
_£.fl026 1 _ OmQQIJ L_.
o»ii3a_i_
oiQflxa__i_
fl_.QQ24-._l
1
120
1
0.04 X 1
0.0 7 X 1
0.11 X 1
0.03 X 1
0.16 X 1
1
1
0«021i l__
l_.
U.Q632 1_
Q.Q165 i_
Q.Q21Q—1
1
121
1
0.03 X t
0.05 X 1
0.C8 * I
0.02 X t
0.11 X 1
,
1
IVfllAS _1_.
0«Q2-?£_1_.
fl.U4Afl__l_
0.Q115 1_
0*0623 I
1
122
1
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0.00 X I
0.00 X 1
0.00 X 1
0.00 X 1
J-
.
1-
A..QQ-U 1_
0.UC15 l__
QtQQZi 1_
O.U009 1
—0*002$ I
1
123
1
0.00 t 1
0.02 X 1
0.00 X 1
0.01 X 1
0.00 X 1
J_
1
^QmOOZQ 1
O.OCDJ8 i .
OaOOlI 1
1
124
1
0.01 * 1
0.01 J |
0.00 X 1
0.02 % 1
0.00 X 1
1-
_
i_.
0.C05i_i_
G.UQ15 1
_ _O.Oflfl5__l_.
. 0*UQ14 I
1
125
1
0.01 Z 1
0.01 X I
0.00 X 1
0.02 X 1
0.00 X i
J-
1_
fl.DQ54_l_
D..QQ1S i_.
o.fluas i_.
0.0014—1
1
126
1
0.13 1 I
0.26 X 1
0.04 X 1
0.05 X 1
0.08 X I
1
. 1
Q.15JS 1 _
. _D.0256 1_.
0*0302 l_
Q«0433__l
-------�
40CK RUK -AIL SOURCES- FOR ChAP.LFSTCN AOHA ¦ SOUTH CAROLINA U/U/T6
SOURCE CONTRIBUTIONS TO FIVF MAXIfLM RECEPTORS
ANMJAL PARTICULATES
^UROGRAMS PER CUBIC MET FR
1
SOURCE
RECFPTC1R 1
RECEPTOR 1 RECEPTOR
1
RECEPTOR 1 RECEPTOR 1
J_
61 i
6? 1 51
1
75 1 50 1
1
0.69 J 1
1.18 X 1 0.22 X
1
0.29 X 1 0.39 X 1
0.4Q£5 1
0.6A44 1 0*1245 I
_0j1522 L_ 0.2160- 1
1
128
0.21 * 1
0.25 1 1 0. 73 X
1
0.12 X 1 1.93 X 1
„ fl*1233_J
_D*142JL_1 0.4192.
1
0-.0652- 1 1.Q6J6—L
1
129
0.19 X 1
0.22 11 0. 75 X
1
0.11 X 1 0.60 X 1
fl«10ZJ__l
0*1301- 1_ 0.4291.
1
0*0536- 1 0*3325 1
r
130
0.19 I 1
0.14 1 1 0.04 X
1
¦ 0.63 X 1 0.05 X 1
i
0*1144__1
0*11A32_J 0.0232.
__l 0*3564 L 0*0255__1
i
131
0. 1 9 * 1
0.10 % 1 0.04 X
1
0.85 X I 0.05 X I
j
fl*1021__l
0«0S£6_1 0.0241.
_1_
0*4280 1 0..0263 1
i
132
0.1? * 1
0.13 1 1 0.04 X
1
1.45 X 1 0.05 X 1
i
n. 099R 1
0.0 749 .. 1 0.0205
1
0.0142 L_ 0*0262_ 1
i
133
0.34 X 1
0.19 t t 0.06 X
I
2.02 X 1 0.06 X I
j
0*2040__1
0*105.5__1 0.0333.
_1—
1*1320 1 0*0222—I
i
134
0. 98 X 1
0.34 % 1 0.08 X
1
0.99 t 1 0.10 X I
i
0«_5Ifia 1
0.134' _1 _ 0*0455
1
J)*5012_ 1_ 0*0536 _1
i
135
7. 83 X 1
1.02 1 1 0. 19 X
1
0.90 % 1 0.25 * 1
i
4.62 fl2__l
0.5943 1 0*1111.
_J__
0.504 3 1 0*1351—I
i
136
C.74 % 1
0.41 J 1 0.11 X
1
1.97 X 1 0.11 X 1
i_
fl*4322__1
0.2611__1 0.0612.
_1_
L.104S..JL 0*0620 1
i
137
0.20 * 1
0.1 t % 1 0.04 X
1
5.00 X 1 0.06 X I
j
£.1153 1
_D*U36 8 _1 _ 0.0237
1
?.B112 1 0*0302—L
i
138
0.51 * 1
0.52 * 1 0. 12 X
1
2.92 X 1 0.17 X I
0.30J. J _1
_0*3££3 1 11.0620
1
lJ.534il_ 1 0*0340—L
i
139
1.24 X 1
0.72 1 I 0.09 X
1
0.72 X 1 0.09 X I
C.2314 1
_0.4iJi 1_ C.04S9.
1
0*4033_ 1 0*0422—L
r
140
3.47 X 1
0.79 X 1 0. 11 X
1
0.29 X 1 0.14 X 1
i
2*054J 1
0.4521 1 0*0612
1
0..1600 1 0*0202 1
i
141
1.46 * 1
1.6C XI 0. 10 X
1
0.34 X 1 0.10 X I
j_
1
0.3232 _1 0.1565.
1
Q,1911 1 0*0554 1
i
142
0.69 Z 1
0.96 t 1 0. 13 X
1
1.00 X 1 0.17 X I
£.4052 1
0.5515 1 0.0251.
_J__
0..5601 1 0*0242 L
r
"l43
0.70 X 1
0.96 1 1 0.20 X
1
0.9b X 1 0.29 X I
£*4161 1
0*5552 I 0*1160.
0*4822 1 Q.155fl__1
r
144
0.52 * 1
5.65 1 1 0.09 X
1
0.17 x 1 0.10 X I
0.3021 1
3.2023 1 0.-C535,
0*0346 1 0*05 6fl__i
r
145
0.07 X 1
0.15 X 1 0.02 X
1
0.02 X 1 0.04 X I
i
0*0442 1
O.Q£2£ 1 0*£131_
_1
o*Qi26 i o.aiafi—1
i
146
0.21 X 1
0.9 9 * 1 0.04 X
1
0.06 X 1 0.06 X 1
j_
£.1220 1
0*5.10.4 1 0*£223.
1
0*0361 I 0*0226 i
i
"l47
0.09 X 1
O.LG 1 t 0.02 X
\
0.02 % i 0.02 X |
i.
_ _ m
1 0«055J_.l
0.Q6C5--1 £*££32.
_1_
_0*011B I 0*0111—1
-------�
ACCP PUN -ALL SOURCES- FOR ChARLPSTCN AO HA, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVE HAXlfLP RECEPTORS
AKhUAL PARTICULATES
f1CFCGRAMS PER CUBIC METER
SOURCE
RECEPTOR 1 RECEPTPP I
RECEPTOR I
RECEPTOR
1
RECEPTOR 1
61 1 62 i
51 1
75 _ _
1
5Q _1
148
0.16 * 1 0.15 X 1
0.12 X 1
0.11 X
1
0.15 X 1
0.Q323--1 .....O.OflB.3 i_.
0.0691 1
0.0646_
_1_
0.0334 I
149
0.46 X 1 0.38 X |
0.23 % I
0.35 X
1
0.27 X 1
Q.2712 1 0.2222 1
0.1297 1
0.1973
1
0.1517 1
150
0.25 X 1 0.23 1 1
0.15 X 1
0.32 *
1
0.1"7 X I
C.1479 1 0.1313 1
0.0B42 t
0.1816
1
0*0232- 1
151
0.34 J 1 0.2 1 J I
0.14 X I
0.31 X
1
0.17 x 1
_ £.1333.. .L... 0.1.5£1_1_
0* 01112 1
0*1241_
_1_
0.0223—1
1S2
0.34 X 1 0.32 t 1
0.29 X 1
0.34 X
1
0.31 X 1
0.1236 1 0.1.85.8__1_
0.1642„1_
0.1314.
0*1131 1
153
0.04 X 1 0.04 * 1
0.03 X I
0.06 X
1
0.03 X 1
D. 0231 1 O.Qil£_ 1_
0..C14J L~
0.0315-
_1_
0.0155 I
154
0.69 X I 0.71 X 1
o. as x 1
0.63 t
1
0.95 X »
JC«4Q56_J Q.413.5 l_
JG.5054„1_
0.3554.
1
- Q.5222 I
155
1.59 t 1 1.58 i t
1.66 X 1
1.53 X
t
1.73 X I
__fl»33£i; J 0.216.5 J-
C.3565 L.
0.2621.
-_l_
Q.3.860 1
156
1.23 XI 1.3 1 1 I
1.41 X I
1.23 X
1
1.51 X I
1.2530 1 0»J5S^__i_
O.illfl L
0.6897
1
0.3363 1
15?
1.02 t 1 1.04 % (
1.1» < 1
1.00 X
»
1.19 % |
_
£.6026 J 0.6i)5i_i.
0.6220 l_
0.5521
1
.. 0.6595 1
153
1. 72 X 1 1.76 * |
1.84 * I
1.7b X
1
1.91 X 1
1.D151! I l.Oiil 1_
1.C567 1
0.9963
1
1*0563 1
159
O.BO t 1 O.BO X I
0. 96 X 1
O.BO X
1
0.95 X 1
.0.4252 I 0.46ZS__1_
0.^5flO__J_
-._„0.4506
1
... 0.5233 L
160
0.34 X I 0.34 X 1
0.44 X 1
0.32 X
1
0.43 X 1
0*201 0.1SJ1 1
£.2506 L
0.1236-
-1 0.2364 1
161
0.10 X 1 0.12 3 1
0. 13 X 1
0.09 X
1
0.19 X 1
.I ,, .... ...i ..
0.0602 _J -0.06Ji„i_
0.1015 l_
0.0513.
L_
0.1065 1
Ifc2
0.63 X 1 0.63 1 1
0.36 X 1
0.42 X
1
1.04 X I
i . ¦ -
{+3110 1
0.4352__i_
0.2341.
-1_
0*5241 1
163
0.27 t | 0.31 X 1
0.39 X I
0.22 X
1
0.44 X 1
0.1600.-1 JJ.1JJ.8~1_
0.225O__1_.
13.1222.
—0.2412 1
164
0.17 x | 0.18 X 1
0.23 X 1
0.14 X
1
0.25 X 1
.0*1)931—1 0.102'—1_
£.1340__J_.
Q^flflli.
-1-
£.1404 1
165
0.33 X 1 0.33 X |
0.2b X 1
0.23 X
1
0.35 X 1
£.1345__J 0.133G 1_
0.1435 1_.
0.1210 I 0.1224 1
166
1.25 X 1 1.07 * 1
0.66 X 1
0.68 X
1
0.85 X I
C.23 21 1 Q.6204__ 1_
0.3115 1
0.3233.
_1 0.4632 1
167
0.16 X 1 0.16 X 1
0.18 X 1
0.14 X
1
0.20 X 1
¦ . — „ . ¦
0.0353 1 0.03£3 I_
D.1D.32 1
0.0i23_
_1_
0.1124 I
168
0.26 X 1 0.26 » 1
0.39 X 1
0.22 X
1
0.39 X t
_0.152t.__l Q.15JJ 1
0.2263 1
_0.1254
I
... 0.2134- 1
-------�
AOCP PUN -ALL SOURCES- FCR CHARLESTCN ACMA, SOUTH CARCL1NA 11/11/76
SflURCF CCNTRIBUTIONS TO FIVE HAXIKUM RECEPTORS
ANNUAL PARTICULATES
PICPCGRAfS PER CUBIC METER
1 SOURCE
1 RECEPTOR 1
RECFPTOR 1
1
1 61 1
6? 1
1 169
1 0.20 X 1
0.19 I 1
1... ...
1_ -XJ^llJS 1-
fl*112£__l
1 170
1 O.IO T 1
0.10 1 t
J
1 ,0*.05Sf>_ 1
0*0523, 1
1 171
1 0.21 % 1
0.20 J 1
1
1 £*1263 1_
0.1158 1
1 172
1 0.13 t 1
0.14 X 1
J
__J fl.,0243 _JL
0+1)301—1
1 173
1 0.39 X 1
0.3b * i
1
J_ _0*232£ 1_
£*21£3 1.
1 174
1 0.16 X 1
0.19 % 1
J £* 0213 1
£*l£5i 1
1 175
1 0.06 X 1
0.07 ] |
J
__1 £*fl336__l_
0*G3S£ 1
r 17b ~
1 O.Ob X 1
0.07 % |
i~
J _0*0331 1
£*C402—1
1 177
1 0.32 % 1
0.3B X 1
1
1 £*1302 ±_
0+2213 I
1 178
1 0.32 X 1
0.30 t I
1 J .0*132.0 1_
0+1112—1
1 179
1 0.11 X I
0.12 X 1
1 0.0615 J
0*0210 I
1 1B0
1 0.44 X 1
0.37 1 1
_1 _ £*259£ 1
0+2121 1
1 1S1
1 0.23 X 1
0.31 * 1
1
1 £.1335. L_
0.1 J £ 2 L
1 182
1 0.43 X 1
0.56 % 1
J 0«253_7_ 1_
£*32.21 1
1 163
1 0.30 X 1
0.42 X 1
J
__1 0.1B02 1_
0.244-1—1
1 184
1 1.29 X 1
1.57 X 1
1 £.3630 1
0.9112 I
1 1B5
1 0.59 X 1
0.79 X 1
J
i 0.34SS L_
£*4533 I
1 186
1 0.34 X I
0.33 1 1
1_ £.2005 1
0*1323 1
1 ie7
1 0.61 X 1
0.63 1 1
J
_i 0*3530 1_
0-3ii3__J
1 188
1 0.24 X 1
0.23 1 1
__J Q«1400_ 1
£*13£3 J
1 189
1 0.01 * 1
0.02 » 1
1 I,,.
__1 O*Jl026__l_
0.0031 I
RECEPTOR
-51.
0.25 %
0. 14 X
.Q+Chll
0.33 X
-U1313
0. 19 X
-0..1111.
0.6 7 *
£.3342-
0.41 X
0.2343-
0.1b X
D+£3&1-
0.22 *
£.1269 1
1.05 X
Q*tC2±
0.69 X
E.3911
0.25 X
0..143f>.
2.1b *
1*2431).
6.55 *
3*i_n.3 1
2.07 *
1.133_'__J
1.20 X
B.6330 1
1.51 *
£.£6£B
0.35 X
a* 203 J.
0.27 X
C+15M—.1
0.52 X
0.2333 I.
0.1? X
D.1096
0.01 X
U.£i)fi3
RECEPTOR
Ji.
0.15 X
0 *032& I
O.OS X
QmQ&IQ—
0.16 X
J)*Q32S
0.12 X
-Q+QfiSb
0.24 %
.0*1353
0.15 *
J3-333
0.05 X
Q-.A253
0.04 X
0+0212
0.13 X
Q..1033
0.20 X
0.1144
0.09 X
0*0429 I
0.23 X
0+1235...
0.14 *
0*0221
0.3b X
0*2.042
0.24 X
fl-.13I4__.
0.91 %
Q*51U2__.
0.54 X
o*3Q23__.
0.42 X
0*2356
0.B6 X
0*4362
0.33 X
0*1355
0.02 *
0*0110 1
RECEPTOR I
.50 1
0.2 7 X I
0.1i34__l
0.14 X I
1J..Q256 1
0.31 X I
fl»1633__l
0.19 X I
0ol2£l__l
0.74 X I
0*4113 1
0.3 7 X I
J)*2023 I
0.14 X I
O+Qltl [
0.17 x t
0*0323 I
0.94 X I
fl«51S4__l
0.68 X I
0*3224} L
0.22 X I
0«12ia__l
2.51 X I
1*3313—1
1.30 X 1
£*2124 1
O.BS X I
4*4225 I
1.39 X I
fl*2£46__l
2.60 X I
la436a__l
0.41 X I
0*2244 i
0.29 X I
0*1525 i
0.55 X (
Q*3Q3ii__l
0.22 X t
a*1236__l
0.01 X I
0*UQ63__1
-------�
ACCM PUN -ALL SOUPCES- FGR CHARLES TCN AOMA. SOUTH CAROL INA 11/11/76
SC1UFCF CGNTR! BUT IONS TG FIVE MAXJUiP RECEPTORS
ANNUAL PART I ClILATFS
HCRCGPAMS PER CUrtIC METER
I SCIPCP I RFCEPTGP I PFCEPTCP I RECEPTOR I RECEPTOR I RECEPTOR I
J J A1 1 62 1 51 1 25 L 50 1
1 190 I 0.01 * I 0.01 * I 0.01 X I 0.01 X I 0.01 % I
J 1 J)* QQf>l__l Q*fiC14 1 D*£.Q£4_1 Q*QQ6 9 I Q*Q36Q i
1 191 I 2.62 t I 2.5B * I 2.19 X 1 2.97 * I 2.25 * I
1 1 1.5424 I 1*5£jC3__J 1*261)1) I 1*66X0 L 1*2421._1
I 192 I 1.31 X I 1.33 t I 1.40 X I 1.2? X I 1.48 X I
1 1 0*2263 1 0-.iJ_5.5__l J3*.B052_J Q ..2245 L Q*ai50__l
I 193 i 1.77 X I 1.85 1 I 2.06 X I 1.81 X I 2.10 X I
J 1 1* 0496 1 1*DJ 2i_l 1*1.9£5_1 1*0132 1 1.1213__l
I 19* I 2.<.2 * I 2.55 % I 2.75 * I 2.67 * | 2.TT * |
1 1 1.4329—1 1*4 B 41 i 1*5J326_1 1*5011 I l*S314__i
I 1S5 I 0.85 X I 0.90 % I 1.04 X I 0.89 X I 1.05 X I
1 1 0*5044 L 0*5.21 J__l fi.iOOl 1 0*4341 L 0*5I$3__1
I 196 I 0.90 X I 0.9b X I 1.15 X I 0.39 X I 1.17 X I
i 1 £*5234 1 0*5566 1 fl.£6lO_J 0*5022__i Q*6433_l
I 197 I 1.86 X I 1.89 X I 2.05 % t 1.81 % I 2.15 X I
1 1 1*Q3.£5 I l.OSSJ J 1*1224 I 1*0123 I 1*1334—1
I 198 I 0.54 X I 0.59 % I 0.84 X I 0.S3 X I O.SO X I
J 1 0*3121 1 0*3433_1 0*4032_1 £*3flQ0__l Q*4413__l
I 199 I 0.09 X I U.09 X I 0.13 Z I 0.06 X I 0.14 X I
J J 0*054.9 i £* 1/5.C 6 1 0*0121—1 0*0355__1 1!«0I23__1
I 20G I 0.05 X I 0.06 X I 0.13 X I 0.04 X I 0.10 X I
J 1 0*0222 I O.Q32i J fl*£223_-J 0.0213 I 0.0555 I
I 201 I 3.29 X I 3.34 X I 3.14 X I 3.62 X I 3.30 % I
J I 1*3484 1 l*33f£ 1 l*flOJ33__J 2*033U__1 1*S241__1
I 2C2 I 2.77 X I 2.66 X I 2.90 X I 3.01 X I 2.93 X I
1 J 1*631)0 1 l*6£24__i 1*6215 I l*634fl__l 1*6425__1
I 203 ( 3. 12 X I 3.22 X I 2.84 X I 3.58 X I 3.00 X I
i 1 1.A420 i 1*3.683 I 1*6326_J 2*01112__1 1*6565__1
| BACK- I 33.82 X I 34.41 X I 34.74 X I 35.58 X I 36.20 X I
J_£££UWC„1 20* J 20* J 2D* 1 20* 1 20* -_1
I TOTAL I 100.1 X I 100.1 X I 100.0 X I 100.0 % I 100.0 X I
1 1 53*163 3__1 53*1.511__1 52«5303__J 56*2456 I 55.2633—.1
-------�
APPENDIX B
-------�
AOC« RUN -ARFA 5 OUPCCS- FOR CHARLESTON AQMA . SOUTH CAROLINA 10/25/76
SOURCE DATA
1
1
1
ANNUAL SOUPCE
1 STACK
OA TA
1 SOURCE
I SCURCE LUCATICN
1 SOURCE AREA I
EMISSION
RATE
1
1 NUMBER
SOURCE 10. 1 IKILOMFTERS)
UCR1ZIMAI 1 VEBIJC&L
1 SQUARE I
1.KILOMETERS 1
1 TONS/DAY 1
SO2 PART
1 HT 01 AH
1 (FT) IFI1
VEL
JLE£S1
TEPP
1CEG.F)
1 1
TRACT 1.00 | 599.4
3626.6
1 0.80 1
0.0
0.044
1 10.0 O.C
O.C
C.
1 2
TRACT 2.CO | 60C.3
34 24.6
1 0.70 1
0.0
0.060
t 10.0 0.0
0.0
C.
1 3
TKACT 3.00 1 60C.4
1 0.60 1
0.0
0.053
1 10.0 0.0
. 0.0
_fl*_
1 4
TRACT 4.00 I 5S«.6
34 51.5
1 0.60 I
0.0
0.063
I 10.0 0.0
0.0
0.
1 5
TRACT 5.00 | 598.9
3621.3
1 0.10 I
C.C
C.C74
I 10.0 0.0
0.0
0.
1 6
TRACT 6.00 1 596.3
3622«J_.
I 0.90 _ .1
0.0
0.149
1 10.0 0.0
0.0
_c *
1 7
TRACT 7.00 I 599.4
36 2 6.3
1 0.70 I
0.0
C. 107
I 10.0 0.0
0.0
0.
1 8
TCSACT 6.CO | 6CC.2
3626.1
1 0.60 1
0.0
0.056
1 10.C 0.0
C.C
c.
1 9
TRACT 9.00 1 60C.0
3629.1
1 1.00 1
0.0
.0.145
| 10.0 0.0
0.0
0.
1 10
TRACT 10.00 | 596.8
3626.6
1 0.40 I
0.0
0.073
I 10.0 0.0
0.0
0.
1 11
TRACT 11.00 I 591.9
3626.4
1 l.CO 1
0.0
0,072
1 10.0 0.0
0.0
0.
1 1 2
TRACT 12.00 • 1 596.5
3623x2
1 0.40 1
0.0
0.074
1 10.0 0.0
0.0
Q*
1 13
TRACT 13.00 I 59S.3
2629.7
1 1.00 I
0.0
0.126
1 10.0 0.0
0.0
0.
1 14
TRACT 14.00 I 599.3
363C.4
1 2.20 1
0.0
0. 169
1 10.C C.C
0.0
0.
i 15
1 16
TRACT 15.00 1 556.1
362C.2 1 0.50 1
0.0
0.055
1 10.0 0.0
0.0
0.
TRACT 16.00 I 591.4
3630.4
1 0.80 |
0.0
O.Oll
I 10.0 0.0
0.0
0.
1 17
TRACT 17.00 I 591.7
3629.6
1 1.10 1
0.0
0.023
1 10.0 0.0
0.0
0.
1 18
TRACT 18.00 1 591.1
36?fi.O
1 0.80 1
0.0
0.008
1 10.0 0.0
0.0
Q*_
1 19
TRACT 19.01 | 592.9
3623.9
1 9.90 I
0.0
0.105
1 10.0 0.0
0.0
0.
i 20
TRACT 19.02 I 59f.8
3624.6
1 8.10 1
0.0
0.177
1 10.0 0.0
0.0
0.
1 71
TRACT 20.01 1 60C.3
3622.5
1 20.60 1
0.0
0.201
1 10.0' 0.0
0.0
fl*_
1 22
TRACT <0.02 I 591.3
3622.1
1 5.60 I
0.0
0.141
I 10.0 0.0
0.0
0.
1 23
TRACT 2C.C3 I 596.2
3617.4
1 65.80 I
0.0
0.434
1 10.0 0.0
C.C
c.
1 24
TRACT 20.04 1 60C.9
1 10.30 1
0.0
0.052
1 10.0 0.0
0.0
0.
1 25
tract zi.oi | see.i
3624.0
1 83.30 I
0.0
1.747
I 10.0 0.0
0.0
C.
1 26
TRACT 21.02 1 561.7
36 14.3
1 162.10 t
0.0
3.920
1 10.0 0.0
0.0
c.
1 77
TRACT ?2.00 1 575.6
_34i3.«2_
1 116.80 1
0.0
5.781
1 10.0 0.0
0.0
_Q*-
1 28
TKACT 23.00 I 564.C
36C5.3
1 195.70 1
0.0
6.557
t 10.0 0.0
0.0
0.
1 79
TRACT 24.00 I 561.3
3624.4
1 306.50 1
C.C
13.303
1 10.0 o.c
0.0
0.
1 30
TRACT 25.00 1 574.B
3627.2
1 171.30 1
_ Q*Q_
,3*214 .
1 10.0 o.c
. .. .0.0.
0*.
1 31
1 32
TKACT 26.01 I 582.6
TRACT it.CZ | 59C.4
3634.3
3631.6
1 107.70 I
1 14.60 I
0.0
c.o
1. 211
0.173
1 10.0 0.0
I 10.0 C.O
0.0
C.C
0.
c.
1 33
TRACT 26.03 | 594.6
363C.7
1 13.00 1
2*4{>5_
| 10.0 0.0
_ Q*Q_
__ _fl*.
1 34
TRACT 27.CO | 591.8
3629.0
1 6.40 1
0.0
0.271
I 10.0 0.0
o.c
C.
1 35
TRACT 28.00 I 59 1.7
3621.3
1 10.20 1
o.c
0.175
1 10.0 0.0
O.C
0.
1 36
TRACT 29.00 1 595.0
3
-------�
5Sfx2
597.0
5SE.6
fili-.fi
607.B
607.2
60fx2
bit.a
632.0
512*1
594.4
6C4.3
305x1
593.8
5EE.6
53J*a_
59C.6
594.2
£2Jxf!_
604.5
14 HgfiffckiUCO L £UxJ}_
54 KAU_43*flfl 1
55 TRACT 44.00 I
56 TRACT 45.00 I
SI IBA£L.4$xQl i
58 TRACT 46.02 I
59 TRACT 47.00 I
60 JSACJ_4fi»fia 1
61 TRACT 49.00 I
62 TRACT 5C.CC I
63 IEfiCI 201 1
64 TRACT 202 I
65 TRACT 203 I
Lb IUA£I_.2Q5 1
67 TRACT 206 I
6 E TRACT 207 I
69 I&ACI 2<13 I
70 TRACT 209 I
71 TRACT 210 I
12 JAKEilCBt! L
73 CORDESV1LLE I
3ii4i3_
1 1.80
1 0.0
0.140
1
10.0 0.0
_QX
3633.2
1 4.90
1 0.0
0.496
!
10.0 0.0
0.0 0.
3622.3
1 5.10
1 0.0
0.200
1
10.0 0.0
0.0 0.
,3Si2 Sx4_
i_ __a3xio_
1 0.0 _
lxlflO 1.
10x0 QxQ
OxQ Ox
3632.9
1 80.00
1 0.0
1.678
1
10.0 0.0
0.0 0.
362E.4
1 4.40
1 c.c
C. 430
1
10.0 0.0
O.C 0.
3&25x4_
__1 4ji22_
__I QxQ
0x022
__J. 10.0...0.0
DxC _0x
3629.9
1 11.90
1 0.0
0. 049
1
10.0 0.0
0.0 0.
3657.8
1 755.20
1 0.0
23.094
1
10.0 o.c
c.c c.
.1676.1
1 390.80
L OxQ
7.573
10.0 c.o
0.0 0.
3698.4
1 367.80
1 0.0
8.561
1
10.0 0.0
0.0 0.
26 £ 1.9
1 290.CO
1 0.0
10.051
1
10.0 0.0
0.0 0.
3&22x2
1 -111-.1Q
1 0.0
3.2H6
1
10.0 0.0
Qi
3662.0
1 114.10
1 0.0
2.264
1
10.0 0.0
0.0 0.
36?t.2
1 355.60
1 0.0
6.932
1
10.c c.c
0.0 0.
364flx5_
__i— _24x22
__1 QxQ
0.895
1
10.0 0.0
0.0 0.
3642.3
1 10.80
1 0.0
0. 149
1
10.0 0.0
0.0 0.
364C.4
1 3.40
1 0.0
0.045
1
10.C c.o
0.0 0.
3671.4
1 579.90
1 0.0
20.963
1
10.0 0.0
0x0- Ox
366E.6
1 257.00
1 0.0
9.290
1
10.0 0.0
0.0 0.
3£4Sx5_
I 303xJfl_
1... 0.0
1C.958
1
10.0 0.0
&.0 Ox
-------�
ACOM RUN -AREA SOURCES- FOR CHARLESTON AQMAt SOUTH CAROLINA 10/25/16
METECFCI.OGICAL INPUT DATA FOR ANNUAL
KIX1NG DEPTH - SOO. METFRS
AMBIENT TEMPERATURE = 65. DEGREES,FAHRENHEIT
AMBIENT PRESSURE * 1011. MILLIBARS
STABILITY CLASS 1
WINDSPEED CLASS
MlNO DIRFCTICN 12 3 4 5 6
N .00034 .00034 .0 .0 .0 .0
NNE .0 .0 .0 .0 .0 .0
NF .0 .0 .0 .0 .0 .0
ENE .0 .00034 .0 .0 .0 .0
E .0 .0 .0 .0 .0 .0
ESE .0 .0 .0 .0 .0 .0
SE .0 .0 «0 .0 .0 *0
SSE .0 .0 .0 .0 .0 .0
S .0 .00068 .0 .0 .0 .0
SSW .0 .0 .0 .0 .0 .0
SU .0 .0 .0 .0 .0 .0
MSH .0 .00034 .0 .0 .0 .0
k .0 .0 .0 .0 .0 .0
UNW .00034 .00C34 .0 .0 .0 .0
KW .0 .00C68 .0 .0 .0 .0
NNW .0 .0 .0 .0 .0 .0
-------�
ACOM RUN -AREA SOURCES- FOR CHARLESTON AQMA, SOUTH CAROLINA 10/25/76
METECRCLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 2
WINGSPEED CLASS
CIRECTICK
1
2
3
4
5
1
K
.00144
.00514
.00137
.0
.0
.0
KNE
.OOOSfi
.00342
.00171
.0
.0
.0
•00048
.00171
.00137
.0
.0
.0
ENE
.00009
.00137
.00034
.0
.0
.0
E
.00002
.00034
.00034
.0
.0
.0
ESE
.00117
.00103
.0
.0
.0
.0
SE
.000C2
.00034
.00034
.0
.0
.0
SSE
.00110
.0
.00137
.0
.0
.0
S
.00078
.00068
.00308
.0
.0
.0
SSM
.00078
.00068
.00171
.0
.0
.0
SW
.00085
.00171
.00308
.0
.0
.0
kSW
.00012
.00171
.00274
.0
.0
.0
k
.00096
.00342
.00240
.0
.0
.0
kNH
.00018
.00274
.00103
.0
.0
.0
KW
.00050
.00205
.00034
.0
.0
.0
NNW
.00082
.00137
.0
.0
.0
.0
-------�
ACDM RUN -AREA SOURCES- FOR CHARLESTON ACMA, SOUTH CAROLINA 10/25/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS
U1NCSPEED
CLASS
CIRECTION
I
2
3
4
5
K
.00225
.0C548
.00822
.00034
.0
KMC
.00086
.00171
.00822
.00137
.0
HE
.00008
.00103
.00411
.00034
.0
ENE
.00025
.00342
.00342
.00034
.0
E
.00020
.00274
.00411
.00068
.0
F.SE
.00013
•0C171
.00342
.0
.0
SE
.0001%
.00205
.00342
.00034
.0
SSE
.00047
.00137
.00342
•GC034
.0
S
.00091
« 00240
.00890
.00103
.0
SSH
.00013
.00171
.00308
.00137
.0
SM
.00020
.00274
.00582
.001C3
.0
WSH
.00023
.00308
.00788
.00068
.0
k
.00015
.00205
.00719
.00205
.0
KMW
.00013
.00171
.00445
.00068
.0
NW
.00150
.00034
.00342
.00034
.oa
NNH
.00091
.00240
.00411
.00068
.0
fc
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.00034
.0
.0
-------�
ACDM RUN AREA SOURCES- FOR CHARLESTON AOHA, SOUTH CAROLINA 10/25/76
METEOROLOGICAl INPUT DATA FOR ANKLAL
T
a\
STAB1L ITY CLASS 4
W INDSPEEO CLASS
WINC CIRECTION I 2 3 4 5 6
N .00103 .00925 .02226 .01027 .00034 .0
NNE .00052 .00479 .01712 .00959 .0 .0
NT: .00064 .00622 .01541 .00411 .0 .0
ENE .00010 .00514 .00993 .00205 .0 .00034
E .00053 .00514 .01370 .00562 .0 .00034
FSC .00054 .00548 .01233 .00445 .0 .0
SE .00016 .00479 .00993 .00377 .0 .0
SSF .00045 .00274 .00753 .00342 .00034 .0
S .00060 .00959 .01918 .01678 .00274 .0
SSW .00047 .00342 .02089 .01610 .00068 .0
SW .00051 .00445 .01541 .01301 .00103 .0
WSU .00115 .00240 .01267 .01096 .00034 .0
W .00058 .00651 .00959 .01747 .00068 .00034
WNW .00117 .00308 .00479 .00925 .00068 .0
NW .00046 .00308 .00445 .00616 .0 .0
NNW .00122 .00445 .00411 .00445 .0 .0
-------�
ACD* FUN -AREA SOURCES- FOR CHARLESTON ACMA, SOOTH CAROLINA 10/25/76
METCCRtLOGICAL INPUT CATA FCR ANNUAL
STABILITY CLASS 5
W1NDSPEED
CLASS
HIND DIRECTION
1
2
3
4
5
N
.01466
.03014
.00445
.0
.0
KNE
.00693
.01438
.00514
.0
.0
NF
.00543
.01096
.00103
.0
.0
ENF
.00131
.00856
.0
.0
.0
F
.00219
•0C617
.00137
.0
.0
ESF
.00371
.00787
.00137
.0
.0
SE
•0C579
.00924
.0
.0
.0
SSE
•00396
.01198
.00103
.0
.0
S
•01369
.03151
.00308
.0
.0
ssw
.00809
.02226
.CC445
.0
.0
su
.00509
.01061
.00411
.0
.0
kSW
.00199
.00958
.00651
.0
.0
h
.00281
.01061
.01301
.0
.0
UNW
.00268
.00411
.00445
.0
.0
NW
.00226
•0C479
.00240
.0
.0
NNW
.00845
.02363
.00171
.0
.0
6
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
AQOK RUN -AREA SOURCES- FOR CHARLESTON ACMA, SOUTH CAROLINA 10/25/76
INPUT REGRESSION PARAMETERS ARE:
££ULi)I£M JtrJlSlOCiKI _.iilj££_
PARTICULATES 0.0 I.0000
-------�
ACDM RUN -AREA SOURCES- FOR CHARLESTON ACMA, SOUTH CAROLINA 10/25/76
1 E£t££iaB_I£tS£IHJB£lJ£h_£Al£
I I I
I RECEPTOR | RECEPTOR LCCATIUN I EXPECTED ARITHMETIC MEAN
l~~ ~ I TKlLOHPTiRsT I (mTcRCCRAMS/CU^EtIrT
i 1 tCfiJI K£BI 1 SC2 EABI1£1LAJ£S__
I I I I I
I 1 I 590.0 I 3(20.0 I 0. | 22.
I 2 I 590.0 I 3(22.0 | 0. | 22.
1 3 1 53 0*£__l__:Si24*i! 1 Q* 1 22*
1 4 I 590.0 | 3(26.0 I 0. I 23.
I 5 | 59C.C I 3(26.0 I 0. | 23.
J U 1 5SQ*fl__l__3£3fl*3 1 C_i 1 24a
I 7 I 590.C I 3(22.0 | 0. | 24.
I 8 I 590.0 I 3(34.0 I 0. I 24.
1 2 1 53£*£__l__243(i*fi J Qi L 25*
I 10 | 590.0 I 3(38.0 I 0. | 25.
I 11 I 59C.C I 3(40.0 | 0. | 25.
1 12 1 59fl*£_J 3t42*fl 1 Q* I 26.
I 13 I 590.C I 3(44.0 | 0. | 25.
I 14 | 59C.C I 3(46.0 I 0. I 23.
1 15 1 522-.fi 1 2iZliM.il 1 a* 1 22*
I 16 I 592.0 I 3(22.0 I 0. | 22.
I 17 | 592.0 I 3(24.0 I 0. | 23.
1 1« 1 5SZ*£ I 2*26* Q J Q * 1 24.
I 19 | 592.0 I 3(28.0 I 0. | 26.
I 20 | 592.C I 3(30.0 I 0. I 26.
i 21 1 522*Q__l__3i32*a 1 Q* L 26*
I 22 I 592.0 I 3(34.0 I 0. | 26.
I 23 I 592.0 I 3(36.0 I 0. I 26.
1 24 1 522*£ 1 3£38*U 1 A* 1 22*
I 25 t 592.0 I 3(40.0 I 0. | 25.
I 26 | 592.0 I 3(42.0 I 0. I 25.
1 21 i 592*£_l_3f44*£! 1 fl* I 24*
I 20 I 592.0 I 3(46.0 I 0. I 24.
I 29 | 5S4.C I 3(20.0 I 0. I 22.
1 3Q L 524*0 1 3£22*£ 1 12* 1 2.3*
I 31 I 594. C I 3(24.0 I 0. I 24.
I 32 | 594.C I 3(26.0 I 0. | 25.
1 22 1 534*£ 1 3£2fl*<2 1 a* 1 25*
I 34 I 594.0 I 3(30.0 I 0. | 27.
I 35 | 594•C I 3(32.0 I 0. | 28.
1 2b 1 534*£__l__3i34*fl 1 2* I 2A.
I 37 I 594.C I 3(36.0 | 0. | 30.
I 38 | 594. C I 3(38.0 I 0. I 28.
J 32 1 524*£ 1 2£4U*Q 1_. !i* 1 24*
i 4Q 1 534*£_l__2t42*fl 1 Q* L 25*
-------�
ACCM RUN -AREA SOURCES- FOP C1IARLESTCN ACMA, SOUTH CARCLINA 10/25/76
PFCeCtXR I
tUUMQEE L-
I
1
I
RECEfTCR LCC/TIflfl I
__1—
EXPECTED ARITHMETIC MEAN
(KILQHFTEPSI
.JiOBiZ.
I
-i-EBI 1
(MICRCGRAMS/CU. METER)
SSZ £4£IJ£UUJLfS_
—
594. C
596.C I
596 .C
-52
596.C
596.C
596.0
596.C
3(44.0
It SS>*9
3(20.0
I 3(22.0
I 3(26.0
I 3(28.0
I 3632.0
3(24.0
596.C I 3(30.0
I 3(40.0
2442.3
3(44.0
3(46.0
535..£_J 2i2Q*Q
62
598.C
599.C
526*2.
598.C
593.0
^SjlS. __1
590.0 I
59fl.C I
59fl.C I
598.C I
I 3(22.0
I 2(24.0
.l_3f26*U.
I 3<2a.o
I 3(30.0
.2i2Z±Q.
3(34.0
3(36.0
2tlS*Q
3(40.0
3(42.0
I 3(46.0
I 3(20.0
I 3(24.0
I 3(26.0
600.0 I 3(30.0
600.0 | 3(32.0
_MC..Q__J 2U4jlJJ
600.0 ) 3(36.0
-------�
ACDM RUN -ARC# SOURCES- FCP CHARLFSTCK ACM, SOUTH CAROLINA 10/25/76
I
1 HIC£EIQB_££tJ££IiIBAJICi!-CfllA.
RECEPTOR
£U££££
RECEPTOR LOCATION
IKILOMETERS)
bCfili VfBI
I
L_2i4Q..2
2(42.0
3644.0
.2 iaiu.fi
36 20.0
3(22•0
1 1 6Q2..fl__J 3*24*.fl
W
I
602.0
602.0
&Q2*Q__
602.0
602.0
kQ2*Q
602.0
602.0
6Q2* Q_
602.0
602.0
3626.0
3(20.0
_3i3fl*Q
3(32.0
3(34.0
J 2£2
-------�
ACDM RUN -AREA SRURCES- FOB CHARLESTON /CMA, SOUTH CARCLINA 10/25/76
I
J
II I
I HECFPTCR I RECEPTOR LCC/TIflN | fcXPECTED ARITHMETIC MEAN
J
I I (KILOMETERS) I IMICROGRAMS/CU. METER)
i 1 UQB1Z iJEEJ J SU2
I I I I I
I 121 I 606.0 I I 0. I 22.
t 122 I 606.O I 3118.0 I 0. I 21.
J 122 1 1 2x I ZL*
I 124 I 606 .0 I 3tA2.0 | O. I 22.
I 125 I 606.0 I 3<11.0 ( 0. I 22.
1 Uti 1 ££ti*2—l—2£3ii*.Q J Ux 1 ZZm.
I 127 I 608.0 I 3£20ifl I 0. I 19.
I 123 I 608.0 I 2(22.0 I 0. I 19.
1 U2 i 6flB-.fi I 2Wi±<} 1 Qj 1 2Q*
I 130 I 608.0 I 3C26.0 I (I. | 21.
I 131 I 608.0 I 3f2«.0 I 0. I 23.
l 122 l &oaJ.fl_i__3i JUxU—i iu i zz±
I 133 I 603.0 I 3t 32.0 I 0. I 22.
I 131 I 608.0 I 3(34.U I 0. I 21.
i lis l iiaa*c__J.__.3*J6ia l q«. L 21*
I 136 | 608.0 I 3(38.0 I 0. I 21.
I 137 I 608.0 I 2(10.0 I 0. | 21.
1 -Ufl i £»05^D J 2i42*L! 1 Ox 22*
) 139 | 608.0 I 3(11.0 I O. | 22.
J ISA 1 6fl,fl..fl__l.__3f3&..S) 1 fl, 1 2U
-------�
ACOM RUN -ARE* SOURCES- FCR CHARLESTON ACMA, SOUTH CAROLINA 10/25/76
SOURCE CONTRIBUTIONS TO FIVF HAXIMUM RECEPTORS
ANNUAL PARTICULATES
MCRCGRAMS PER CUBIC METFP
I SOURCE
1
RECEPTOR I
RECEPTOR |
PECEPTOR |
RECEPTOR
RECEPTOR I
t . . . . . ,
L_
1__
__25 1_
_. _$2 J
—51
... ..It L
1 1
1
0.32 % |
1.06 t I
0.25 Z |
0.07 %
0.41 Z 1
1_ _
1
___Q*114* l__
__JJ*33i4__l_
Q*0S32__1
.£•0237..
£*1233 I
1 2
1
0.3C t |
1.41 X I
0.18 I I
0.07 Z
0.57 Z 1
1
1.
Q*l£21 1__
__£*425fi__l_
fl*<)5W L
£*0241
0*1203 I
1 3
1
0.2P Z I
2.43 « |
0.23 r |
0.06 Z
0.62 Z 1
i
1.
__y*£142__l_
£*J}24.8 L
£*£2 05
£*1£3J I
1 4
1
0.5F * |
3.40 % |
0.32 Z |
0.10 z
0.88 Z I
1
1
_ fl*2£42 1 .
__1*132JB -1.
0.1055 1
C.0331
C.760B 1
1 5
1
1.47 X |
1.50 I |
0.60 % |
0.14 %
0.88 1 1
J
i.
Q*5Jfl.fl 1
£*5012 1_
___0*13£2 1
£•0455
C*2f>05 _1
1 6
1
13.1C Z |
1.51 z I
1.81 Z |
0.35 Z
1.34 S 1
1
1
4.6282 1
0*5043 _1_
0.5943 1
C.111 1
C.3974 1
1 7
1
1.24 * |
3. JO Z. |
0.81 % I
0.19 Z
1.92 Z 1
1
1
0*4222 I .
-_Jji1C49_
0.^661 1
C.0617
0.5715 1
1 e
1
0.33 * I
8.40 Z |
0.30 * |
0.07 1
0.98 Z 1
!_
1
fl*ll.S2 1
2.8119 . 1
0.0966 1
0.0237
0.7911 1
1 9
1
0.85 X I
4. 7 it 1
0.92 1 I
0.21 Z
5.71 Z 1
J .
L.
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__U_5.84ii__.l_
__ unions I
___£.1)630 _
1..6SS2 1
1 10
1
2.07 * |
1.20 Z 1
1.28 Z |
0.15 Z
1.08 Z 1
1
1
0.7314 1
__Q*45iJ_ J
0.4188 1
0.0489
0.3?00 1
1 11
1
5.81 * I
0.48 % 1
1.38 t 1
0.19 Z
0.59 Z 1
1
1
2.054 7 1
__£*14M 1
0.4521 1
C.0617
0.1765 1
1 12
1
2.44 * |
0.57 * I
2.84 Z 1
0.18 Z
1.13 Z 1
1 _ _ _
1
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0*13-11 1_
0*2222 L
-_C*05S5__
£*334S_1
1 13
1
1.15 z I
1.67 A I
1.71 Z i
0.23 Z
3.86 % I
1
L_
fl*4£SxL-_i__
f*56i)l__l_
0*5565 L
£I*0251_.
1*1423 I
1 14
I
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1.44 * |
1.70 1 I
0.36 Z
4.32 Z 1
1
i_
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__. (J.5557 . 1
...0*1160 _
1*2£52_1
1 15
1
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0.28 t |
10.02 Z I
0.17 Z
0.58 t 1
1
1_
0*3021 L
_JQ*J}246__1_
3 *2£22__i.
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=—£*1223 1
I 16
1
0.13 * 1
0.01 ! |
0.27 Z 1
0.04 %
0.07 X I
1_
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0*fl442 1
Q*Qfi2£__JL
0*Q13J
£*£215 L
1 17
1
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0.07 Z
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._ .£*£524 1
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1
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0.04 * |
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0.03 Z
0.05 Z 1
I
1
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0.0605 1
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0.C150 1
1 19
1
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0.22 Z
0.22 t 1
1_
... 1 .
fl*0S23 L_
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fi*£&52 I
1 20
1
0.77 % I
0,59 I I
0.68 t 1
0.40 Z
0.61 Z 1
1
1
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0.2222 1
C. 1297,
C• 182 7 1
1 21
1
0.42 % I
0.54 I |
0.40 Z 1
0.26 %
0.55 Z 1
J
1.
Q.1U3 L
__fl*iai&__i-
U*1313__.L
£.0 £42__1
fl*lA2i I
-------�
ACCM RUN -ARM SOURCES- FCR CHARLESTON *CMA, SOUTH CARCUNA 10/25/16
SOURCE CONTRIBUTIONS TO HVE MAXIMUM RtrFPTfJRS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE | RECEPTOR I RECEPTOR I RECEPTOR 1 RECEPTOR I RECEPTOR I
1 1 61 1 Z5 i UZ i 51 1 lb L
I 22 | 0.5t T I 0.52 Z I 0.48 % I 0.25 * I 0.48 * I
J 1 2*lSi!3 I 0*114 i__J Q,1S6Z__J Q^QBIZ L 0*1522^1
I 23 | 0.5t t I 0.5 7 * I 0.57 J I C.51 * I O.tl 31 |
J 1 C,.lS26__i Q*1214__l Q-.ia5S-.J- Q*lf>.S2__i
I 24 | 0.07 X I 0.09 S I 0.06 % | 0.05 X I C.C9 * I
i 1 12*Q231__1 0^2ai5„J tUC21JL_l Q..Q1 il—1 £-*0ifll_l
I 25 | 1.15 X | 1.06 % I L.26 * | l.se S I 1.27 * I
i i Qx4C-56 1 L>*3554__-1 0*4135_1 Qj.5Q5h—l 2*^721_1
I 26 | 2.6t * I 2.58 X I 2.60 % I 2.98 X I 2.84 X I
1 1 Ox3J£6 t 2*2421 1 I2_r21ii5 I 2*35i5__l 2*34.13 1
I 27 I 2.15 % I 2.06 * I 2.32 J | 2.53 * I 2.35 X I
J I QxIMQ L ' 2*6fl2Z 1 U..I525 1 Q*f!llfl L S*.&S3.4__1
I Za I I.TO Z I t.67 % I 1.05 t ( 2.0« * I 1.89 t I
1 J. 2.6C26.._J 0*5552 1 2*£25.5-_l 0*&222__1 D *5626 I
I 29 | 2.87 t I 2.95 X I 3.12 t I 3.2? * I 3.35 t I
1 1 U.Ql5Si^l Sit 31103 I 1*Q221__1 l.«B5£2_l 2*3263 I
I 30 | 1.34 % I 1.35 J I 1.43 * I 1.71 1 I 1.50 i I
1 1 2* 4 J52__l £*452(s—J Q*i£Zfl—1 S^6J3_1
I 31 I 0.57 % I 0.54 S I 0.60 % | C. 78 X I 0.59 * I
1 1 Q+2S111 I £.il22&__J 2*1221—1 C*252fi__l £*12M_1
I • 32 I 0.17 X I 0.16 t I 0.21 % I C. 32 * I 0.20 % I
1 1 S±£££2 1 iM3512__l QJU6Iii-_l 2*1215__1 £*54111 L
I 33 I 1.05 % I 0.70 * | 1.12 % | 1.5* X I 0.85 t I
J 1 0*3210 L o»2341__J 0*J&69__1 fl*$S 52—1 0*2524 I
I 34 | 0.45 * | 0.36 * | 0.54 X | 0.7C X I 0.43 * I
1 i oai-QQ L g*1222__J 2*2252 L I)*-1221 I
I 35 I 0.2G I I 0.24 % J U.31 1 I C.42 t I 0.28 X I
1 1 S*CS31 L _Q*2iLU_-i 2*1225 1 Q*134!}_1 fi*fii!lJ__l
I 36 I 0.55 % I 0.30 % I 0.59 * I 0.47 « I 0.41 % I
1 1 Q*1345__J. Qxl2ZQ i Q*123Q__1 0*1335—1 D*1222_l
I 37 I 2.09 * I 1.13 % I 1.39 * I l.ie * I 1.27 * I
1 1 QxlllX I £*322fl__ 1 i>*£204__l 0*3225 I Q*21ft3 1
I 38 I 0.27 * I 0.23 t I 0.28 * I 0.32 X I 0.27 * .1
1 L 11*2223—1 2*Q2Q J 1 2*1Q32._1 L
I 39 I 0.43 t I 0.37 J I 0.47 I I 0.71 1 I 0.44 * I
1 1 flj.1526 J 0*1254—J 2*1532 I fi*22i3__l 2*1J1:4_1
I 40 I 0.33 ® | 0.25 I J 0.34 JT I 0.46 * I 0.27 * I
1 I 0*1123 1 e*l)S24__l 2*1126 1 fl*1443__l Q-.223.S_1
I 41 | 0.17 * I 0.14 < I 0.18 » | 0.25 * I 0.16 * I
1 t 2xi536__l 2*.3i22__-l a*2528__l 0*fl£ll__l 2*2J4J__1
I 42 | 0.3fi -5 I 0.23 * I 0.35 % I 0.6C % I 0.31 * |
1 I Siliia.-l 2*2224—1 U*115fi__l !MS13„1 Q^2322__l
-------�
ACDM RUN -APE* SOURCES- FCR CHARLESTCK HKA, SOUTH CAROLINA 10/25/76
SOURCE CONTRIBUT1GNS Ttl FIVt MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
( SOURCE
RECEPIOR 1
RECEPTOR | RECEPTOR
RECEPTCR
RECEPTOR |
I .
61 _1_
25 J 62
51
26 i
1 43
0.2L * I
0.20 X I 0.25 X
0.35 X
0.23 X I
__ 0*0243. 1_
0*0656 1 _ _£*fli!06
£U1111__
0*0623 I
1 44
0.66 * |
0.41 * 1 0.64 1
1.20 t
0.49 X 1
1
C.2326 1
0*1358 _1 £*2103
C.3042
0.1448 1
1 45
0.26 * I
0.25 * I 0.32 %
0.73 1
0.32 % I
O.OS19 1
0*02333- J 0*1051-
C.2J48
0.0952 1
1 46
0.(0 X 1
0.08 X I 0.12 *
0.30 t
0.08 X 1
1
C.C3 36 1
0.0258 1 0.0396
.0,09^7
0.0227 1
1 47
0.09 * |
0.06 X I 0.12 X
0.40 X
0.07 X 1
0*0.331 1_
0*£212_ J £*0402—
0*1263
C.0206 1
1 48
0.54 X I
0.31 X | 0.68 X
1.88 X
0.36 X I
0.1907 1
0*J£J3 _i 0*2213
_ 0*602J
0.1064 1
1 49
0.53 * I
0.34 X I 0.54 *
1.22 X
0.40 X I
Q*1£I0 L.
0*1144 _! 0*1263-
£*3311—
e*12Q0__l
1 50
0.19 * I
0.14 X | 0.22 *
0.45 X
0.17 X 1
i
0*06J5 L
0*04.23—J 0*£21£
0*1436
0*0436 1
1 51
0.74 * 1
0.39 X I 0.65 t
3.87 X
0.47 X I
0.2598 1
__ 0*1235 1 0*2126-
1.?4 30
0*1302 1
1 52
0.39 * 1
0.23 X 1 0.54 *
11.75 X
0.26 X 1
0*1JS5—1_
0*0221 1 £*1233
3*2113 J 0*0230 1
1 53
0.72 * 1
0.61 % | 1.00 *
3.72 X
0.78 * I
i
0*2.532—1_
0*2£4S__1 0*32 21
_ 1*13.32
. .. .0*2330..!
1 54
0.51 * I
0.41 S I 0.75 %
2.16 X
0.40 X 1
o.ieo? 1
0.13 74 1 0.2441
—0*6330
0.119? 1
1 55
2.16 X I
1.52 X 1 2.73 *
2.70 X
1.60 X I
|
_ 0*if3£ L_
.. C.5K2 1— .0.9112..
C*££6J_
0*4253—1
1 56
C.99 * |
0.90 XI 1.40 »
0.63 X
1.23 3 I
I
fl*34S£__i_
0*3023 _J Q*459£__
£*2£32
... .0*3445 1
1 57
0.57 J |
0.70 % I 0.59 I
0.49 1
0.72 X 1
|
0.2£05_.1_
0*2356—J U*122S
_ £*1564
.0*2136 I
1 50
1.02 X |
1.45 t 1 1.12 t
0.93 *
1.31 % I
i
Q*35S0_1_
fl*4H62- J— C*i62JJ_ .
0*25.25
£*3fl33_1
1 59
0.4C X |
0.55 X I 0.40 %
0.34 t
0.64 X I
i
0*1400 1_
0*1B55—1 0*13£.£
.... C.1£S6_.
__ £*1302 1
1 60
0.02 * I
0.03 X 1 0.0 3 %
0.02 t
0.03 X 1
0,CC76 1
0.0110 1 0.0091
0.00t3
G.0104 1
1 61
0.0? * |
0.02 X I 0.02 t
0.02 1
0.03 X 1
i
0*££6J 1_
0*0043 _1„ 0*fi£24
.C*D£64„
0*00U4 I
f 62
4.3e * i
4.98 X | 4.58 *
3.93 X
5.46 X 1
1
1*54J6„1_
1*6623 J— 1*5003 .
_1*26£0
... 1<6216.-1
1 63
2.2C X I
2.16 X I 2.37 t
2.51 t
2.43 % I
I L
0*2263 L_
0*1245 1 0*2255—1
C*fl£52 1
0*2232 I
-------�
ACCH RUN -ARE# SOURCES- FOR CIIARLFSTCN ACMA, SOUTH CARCLINA 10/25/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
AMVUAL PARf ICUL AT fS
MICROGRAMS PER CUBIC HETER
1
SOURCE
1
RECEPTOR 1 RECEPTOR I
RECFPTOR
1
RECEPTCR I
RECEPTOR I
1.
1.
&i 1 Z5 1.
62
.51 _L_
_Jfi_ 1
1
64
1
2.9 7 % I 3.04 t |
3.28 *
1
3.70 * |
3.51 * 1
._1-
UQ«S4-_1 l..i)ltl'2 L
_ _1_.U23£-
1
Ulii.5 J
. U.M19 1
1
65
1
4.05 * I 4.4B t I
4.53 1
1
4.93 1 |
5.19 * 1
1_
1-
US2Z2—L 1-.54J11 J_
I.4841
1
__l_.-5_e.2j5 1
l_.iS3.5__l
1
66
1
1.4 3 * 1 1.48 i I
1.59 %
1
1.87 1 I
1.72 * 1
1-
1_
Q*5Qiti I 0*4241 t_
__ Q..5213-
1
£_,4£XJ 1_.
£*51.01 L
1
67
1
1.50 i 1 1.50 t 1
1.70 *
1
2.06 t 1
1.77 * 1
J-
1
_ Q*5224- 1 Q..5Q22 _i_
C-.5564-
1
Q*52i>l—1
1
68
1
3.11 X I 3.04 % |
3.36 %
1
3.67 * |
3.40 % 1
J
|
1*25.85 i J
_1^533J
1
1.17 74 1
I.C092 1
1
69
1
0.9C * 1 0.90 % 1
1.05 Z
1
1.51 * 1
1.04 I 1
1
1
_o*3121 i _J
Q+2i23
1
C.4832 1
. .(< 3105, 1
1
70
1
o.is * I o.ii x 1
0.15 *
1
0.22 t 1
0.12 * I
1
__Q-»254fl__.L Q..Q35S__1_.
C_,Q5Q£
1
_-Q_.flJ.21 1
l)i£3Jl L
1
71
1
o.oe * | o.06 i |
0.10 J
1
0.23 % I
0.06 X I
1__
__0..22IZ__1 Q±'2212 1
__.fl_.G321
1
a_.aj.23 l
_£^1£J I
1
72
1
5.51 % I 6.on % I
5.92 %
1
5.64 X I
6.82 % I
/
1
1.9464 1 2.0331) 1
-_L.23.fif .
1
1.8CB9 1
2.0259 1
1
73
1
4.63 < | 5.06 X |
5.08 *
1
5.21 I I
5.79 * |
1__.
_1„
__l*£.3fiQ„i lJi6^fl__l__
_-l_.6624_-
I
1.6715 1
. 1.7211. 1
1
74
(
5.23 { 1 6.01 % 1
5. 71 *
1
5.10 X 1
6.75 I 1
1
1-.SSJQ i 2_.212I__1__
1
_ J__
__2*AA4S I
1
BACK-
1
0.0 * I 0.0 % |
0.0 X
1
0.0 X 1
0.0 * 1
J GECUND
1
0. 10. 1
0. _
1
_ £2.1 i_
0. 1
1
TCTAL
1
100.1 Z | 100.1 % 1
100.1 Z
1
100.0 X |
100.0 X 1
i
.1
1
.21*1102—
1
.32.1029 J_„
-.22-.J33.9 L
-------�
APPENDIX C.
-------�
AQDH RUN -YEAR 1975- mR CHARLFSTflN AQUA, SOUTH CAROLINA 11/11/76
SOURCE DATA
1
1 SOURCE
SOURCE LOCATION
1
1 SOURCE AREA
ANNUAL SOURCE 1 STACK DATA I
EMISSION PATE 1 1
1 NUMBER
SOURCE ID.
(KILflMETTRS J
1 SQUARE
(TONS/OAY) I HT 0 T AM VCL TF MP 1
UORIZDKIAL L VERTICAL 1 KILOMETERS
SQ2
0.211
0.0
E»£I J—i£I_l_L£Il—iEfiil IDtfiiEl 1
0.014 | 60.0 2.5 17.0 300. |
0.068 I 20.0 0.0 0.0 77. |
1 1
1 2
420
420
1 1
2 1
592.1 | 36 73.0
577.*) | 3606.8
1 0.0
1 0.0
J 2
_42Q__
_2_2
577.9_ _l 3686.0
1 0.0
_0*Q_
0-117 I J>Qr0 0.0 0,0 77. 1
I 4
420
2 3
577.9 | 3686. B
I 0.0
0.0
0.178 t 20.0 0.0 0.0 77. 1
1 5
420
2 4
577.9 | 3686.8
1 0.0
0.0
0.055 | 20.0 0.0 0.0 77. |
1 6
fi2Q
_3_1_ _
594.2 1 3678.7
1 0.0-
_ -2*32t
0*024. l_lfca*0 6*5 S2*a 250*_ 1
0.074 | 168.0 6.5 09.9 250. |
I 7
420
3 2
594.2 I 3678.7
1 0.0
3.326
1 a
420
3 3
594.2 | 3678.7
1 0.0
22.C60
7.153 I 300.0 13.0 73.0 3C0. |
1 3_
_42Q__
3 4
__ 535*2 1 _ 36J£*Z_
1 0.0
_ 22*U£Q_
1*152 J_2QQ*0_12*Q 23*0 311Q*_ 1
0.422 | 54.0 5.0 50.0 600. |
1 10
420
5 I
593.4 | 3696.0
I 0.0
0.288
1 ll
420
6 1
599.9 I 3653.5
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bXL*Q 1
3635.8 I
3634.4 I
3634.fi 1
3635.7 I
3636.0 I
—3634*2 i
3633.2
3632.3 I
I
3632.9 I
3626.4 I
.3625.4 1
3629.9 I
3657.8 |
_36iS.i 1_
3698.4 |
3681.9 I
_3622.2 i_
3662.0 I
3656.2 I
-364B.5 1
3642.3 I
3640.4 I
3621.4 J
3668.6 I
364S.5. I
0.036-
0.225
i.164
1.683
0.411
.Q.Q24
0.062
23.087
,2.5 £2
8.556
10.046
3.2S3
2.236
7.053
C.C54
0. 116
0.075
2Q.252
9.288
1Q.256
10.0
-1Q.Q.
10.0
10.0
_ia.a.
10.0
10.0
-1Q.Q,
10.0
10.0
IQ.O.
10.0
10.0
1Q.C.
10.0
10.0
10. Q_
10.0
10.0
,J 1Q. fl-
it).0
10.0
,lQx2_.
10.0
10.0
.J 10.0
I 10.0
J
0.0
Q.2_
0.0
0.0
Q.O—
0.0
0.0
._Q.C„
0.0
0.0
,_Q.Q
0.0
0.0
-Qm.Q
0.0
0.0
_Q.Q
0.0
0.0
-Q.Q
0.0
0.0
.2.Q
0.0
0.0
Q.fl
0.0
0.0
0.0
Q.Q
0.0
0.0
Q.O
0.0
0.0
Q.Q
0.0
0.0
_u.a__
0.0
0.0
__0.Q„.
0.0
0.0
Q.Q
0.0
0.0
_C.Q
0.0
0. 0
_Q.O
0.0
0.0
_Q.O
0.0
O.Q_
0.
o.
0.
0.
0.
0.
0.
Q..
0.
0.
0..
0.
0.
Q._
0.
0.
2..
0.
0.
Q._
0.
0.
Q._
0.
0.
a._
0.
0._
-------�
AQDM RUN -YEAR 1975- FOR CHARLESTON AOMA, SOUTH CAROLINA 11/11/76
METEOROLOGICAL 1HPUT DATA FOR ANNUAL
MIXING DEPTH = 900. METERS
O
I
VA
' TEMPERATURE
r PRESSURE «
65. DEGREEStFAHRENHEIT
1013. HILL IBARS
ITY CLASS 1
H1N0SPEED
CLASS
DIRECT I UN
1
2
3
4
5
1
N
.0001b
.00037
.0
.0
.0
.0
NNC
.00035
.00043
.0
.0
.0
.0
NE
.00025
.00027
.0
.0
.0
.0
ENr
.00012
.00032
.0
.0
.0
.0
E
.00012.
.00011
.0
.0
.0
.0
ESE
•OOOOB
.00007
.0
.0
.0
.0
se
.00021
.0 0 023
.0
.0
.0
.0
SSE
.00014
.00021
.0
.0
.0
.0
S
.00022
.00039
.0
.0
.0
.0
5SW
.00020
.00041
.0
.0
.0
.0
SW
.00023
.0003 0
.0
.0
.0
.0
NSW
.00030
.00055
.0
.0
.0
.0
l>
.00013
.00027
.0
.0
.0
.0
hNW
.00019
.00016
.0
.0
.0
.0
HU
.00014
.00030
.0
.0
.0
.0
ANW
.00016
.00039
.0
.0
.0
.0
-------�
AQDM PUN -YEAR 1975- FOR CHARLESTON AQMA, SOUTH CAROLINA U/ll/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
KITY CLASS 2
WINDSPEEO CLASS
YD DIRECTION
I
2
3
4
5
N
.00118
.00199
.00137
.0
.0
.0
NNE
.00120
.00178
.00203
.0
.0
.0
ME
•00074
.00153
.00094
.0
.0
.0
EME
.00061
.00132
• 00114
.0
.0
.0
E
.00060
.0006 6
.00066
.0
.0
.0
ESE
.00066
.00073
.00103
.0
.0
.0
SF
.00055
.00084
.00057
.0
.0
.0
SSE
.00032
.00050
.00105
.0
.0
.0
S
.00081
• 00094
.00123
.0
.0
.0
SSW
.00080
.£>0162
.00160
.0
.0
.0
SH
.00070
.00146
.00137
.0
.0
.0
USW
.00059
.00203
.00219
.0
.0
.0
H
.00062
.00142
•0015R
.0
.0
.0
hNW
.00070
.00185
.00162
.0
.0
.0
NM
. 00D'»5
.00130
.00116
.0
.0
.0
NNM
•00085
.00160
.00126
.0
.0
.0
-------�
A COM RUN -YEAR 1975- FOR CHARLESTON AQMA , SOUTH CAROl 1NA 11/11/76
Mfc TFQROLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 3
H1NOSPCED CLASS
UlRfCTUlN
I
2
3
4
5
6
N
.00061
.00297
.00507
.00064
.0
.00002
KNt
.00050
.00336
.00763
.00107
.0
.0
NE
.0006^
.00265
.00543
.00073
.0
.0
ENE
.00025
.00158
.00363
.00055
.0
.0
E
.00019
.00084
.00253
.00080
.0
.0
ESF
.00035
.00130
.00288
.00096
.00002
.0
se
.00016
.00100'
.00313
.00084
.0
.0
SSE
.00039
.00139
.00358
•00064
.0
.0
S
.00040
.00185
.00461
.00110
.00002
.0
SSW
.00037
.00212
.00479
.00112
.00007
.0
SK
.00035
.00162
.005 IB
.00116
.0
.00002
WSH
.00020
.00183
.00667
.00160
.00011
.0
k
.00029
.00199
.00715
.00153
.00009
.00009
HNH
.00015
.00185
.00573
.00148
.00007
.0
NW
.00024
.00174
.00340
.00064
.00002
.0
NNW
.00028
.001B7
.00361
.00075
.0
.0
-------�
ACOM RUN -YEAR 1975- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/11/76
METEOROLOGICAL INPUT DATA FOR ANNUAL
0
1
00
STABILITY CLASS 4
HINOSPEEO CLASS
MIND DIRECT ION
1
2
3
4
5
6
N
.00115
.00676
.01562
.01377
.00190
.00027
NNF
.00124
.00694
.02078
.02002
.00148
.00005
NE
.00105
.00516
.01573
.01071
.00066
.00002
ENE
.00074
.00404
.00989
.00758
.00041
.00005
E
.00045
.00233
.00767
.00*21
.00062
.00002
ESE
• 00042
.00258
.00749
.00646
.00046
.00002
SE
.00060
.00233
.00740
.00477
.00037
.00009
SSE
.00046
.00276
.00776
.00646
.00066
.00014
S
.00069
.00345
.01500
.01370
.00199
.000? 7
ssw
.00055
.00 349
.01441
.01664
.00263
.00053
sw
.00044
.00249
.01196
.01048
.00084
.00018
WSM
.00036
.00205
.00895
.01132
.00169
.00030
w
.00036
.00208
.00701
.01208
.00237
.00112
HMW
.00029
.00240
.00616
.01301
.00315
.00037
NW
.00039
.00217
.00527
.00612
.00107
.00023
NNW
.00079
.00404
.00827
.00888
.00148
.00039
-------�
AQDM RUN —YEAR 1975- FOR CHARLESTON AOMA , SOUTH CAROLINA 11/11/76
METEOROLOGICAL INPUT OAT A FOR ANNUAL
ITV CLASS 5
WINOSPEEO
CLASS
DIRECTION
1
2
3
4
5
£
N
.01449
.02094
.00557
.0
.0
.0
NNE
.01232
.02007
.00751
.0
.0
.0
NF
.00796
.01201
.00422
.0
.0
.0
ENE
.00500
.00845
.00167
.0
.0
.0
e
•00347
.0 0653
.00183
.0
.0
.0
ESE
.00403
.00582
.00171
.0
.0
.0
SE
.00467
.00731
.00105
.0
.0
.0
ssr
.00618
.0 0945
.00144
.0
.0
.0
s
.01453
.02167
.00466
.0
.0
.0
ssw
.01126
.02078
.0074*
.0
.0
.0
sw
.00673
.01406
.00913
.0
.0
.0
V.SV.
.00528
.01121
.00799
.0
.0
.0
u
.00396
.00849
.00845
.0
.0
.0
MNM
.00296
.00514
.00541
.0
.0
.0
NW
.00376
.00639
.00336
.0
.0
.0
NMW
.00891
.01416
.00406
.0
.0
.0
-------�
AQQM RUN -YEAR 1975- FOR CHARLESTON AOMA, SOUTH CAROLINA 11/11/76
O INPUT REGRESSION PARAMETERS ARE:
O EDLLUIJUI ¥=JfcIEECEEI __SLQ££_
PARTICULATES
0.0
I.0000
-------�
AQDM RUN -YEAR 1075- FOR CHARLESTON ACf'A, SOUTH CAROLINA 11/11/76
RECEPTOR
J tUJMfl£E_.
A
5
6_
7
R
2_
10
11
-12-
13
14
-15-
16
17
-ill-
19
20
-21_
22
23
-24-
25
26
-11
28
29
-311
31
32
_33_
RECEPTCR LOCATION
TkTlomctcRS)
UCB1Z i£E.I
590.0
590.0
52Q*fl__J 3424*fl
590.0
590.0
__520..fl_
590.0
590.0
_532*fl
590.0
590.0
_522*fl__
590.0
590.0
—522*fl_
592.0
592.0
__532.a0_
592.0
592.0
--:522-.fl__
592.0
592.0
522*0
592.0
592.0
-522.Q
592.0
594.0
594.0
594.C
-524^0.
594.0
594.0
-524*0-
594.0
594.0
-524*0-
3420.0
3622.0
3626.0
3(28.0
3£30*Q
3432.0
3(34.0
343
-------�
ACDH RUN -YEAR 1975- FOR CHARLESTON AOMA, SOUTH CAROLINA U/ll/76
I
RF.CEPTOR I
tJUMBEB i_
|
B££EEJ!J£_tt'tlCLyiEfllJCfc-Daifl
I
RECEPTOR LCCfTION I
-1-.
EXPECTED ARITHMETIC MEAN
I K ILOMETE RSI
J(£EX_
I
594.0 I 3644.0
1—
596 . 0 I 3620.0
596.0 I 3622.0
52fi.J)-_l__3424^Q_
596.0 I 3626.0
596.0 I 3628.0
52£*C—
596.0 I 3632.0
596.0 I 3634.0
.5 3&.£-U—3£3li*Q-.
596.0 I 3630.0
596.0 I 3640.0
S2£-.i!__i__3 642*0-.
596.0 I 3644.0
596.0 ( 3646.0
528-.fl__J.__3f 2ii»Q_.
598.0 I 3 6 22 .0
598.0 I 3624.0
£23*0 1 3£2£»0__
598.0 I 3629.0
598.0 I 3tlO.n
_523*Q__1 3632»Q__
598.0 I 3634.0
598.0 I 3636.0
„552fiJD__l__3f31!tQ
598.0 I 3640.0
598.0 I 3642.0
._52flifl__i_3iS4^Q
598.0 I 3646.0
600.0 I 3620.0
-fcaSKQ—l—3422,.!}
600.0 I 3624.0
600.0 I 3(26.0
X -3£ 2A--Q
600.0 I 3630.0
600.0 I 3632.0
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600.0 t 3S36.0
.AQfl ..£ l__3i3fi.O
j
I
I
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I
I
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I
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I
I
_1._.
I
I
.1
I
I
.1
I
I
.1
I
I
1
I
1
IM1CR0GRAMS/CU. METER!
—502 EABUEULAIfS.
-------�
?
OJ
AQDK RON -YE*B 1975- FOR ChfKLESTCN ACMA. S'JUTH CAROLINA 11/11/76
I
1--
8££E£IUB_I£tJ££tJieiIJUti-DAIA.
RECEPTOR
RECEPTOR LOCATION
I K ILOMETC
HQS1Z
I
RSI
*EB1
j ai
6Q2*Q L
..3640*0
n*
50. 1
1 82
600.0 1
3642.0
0.
49. I
1 83
600.0 |
3644.0
0.
*a. 1
1 B4
600*0 L
3646*0
0*
4 fl*_. -1
1 85
602.0 1
3620.0
0.
44. I
t 8b
602.0 I
3(22.0
0.
45. I
i fll
61)2*0 L
__3f24*0
0*
46., „ _l
1 88
602.0 1
3 £ 26.0
0.
4fc. I
1 89
602.0 1
3628.0
0.
47. I
J 211
602*0 1
3630*0 _
a*
4B* 1
1 91
602.0 1
3632.0
0.
48. I
1 92
£02.0 I
3634.0
0.
48. |
J S3
602*0 1
3636*0
12*
4fl* _ _l
1 94
602.0 I
3638.0
0.
48. |
1 95
£02.0 1
3640.0
0.
48. 1
1 36
6J2»0__i
3642*0
Q*
48. 1
1 97
602.0 1
3644.0
0.
48. I
1 98
602.0 I
3646.0
0.
47. I
1 22
6Q4*Q I
3620*0-
43* |
1 100
604.0 I
3622.0
0.
44. ~|
1 101
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3624.0
0.
44. 1
1 IQ2
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_ _ Q,
_45* 1
1 103
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3628.0
0.
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1 104
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0.
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1 ID5
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P. ,
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0.
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1 107
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0.
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1 109
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0.
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0.
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J 111
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0.
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0.
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1 113
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0.
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— . .9. . . ...
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0.
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0.
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1 LLI -1
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0*
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3630.0
0.
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1 119
606.0 I
3632.0
0.
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1 120 t
606.0. 1
3634*0 J
0.
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EXPECTEO ARITHMETIC MEAN
(HICROGRAMS/CU. MCTHR)
.SD2 EABIlCULAl£i_.
-------�
AQDM RUN -YEAR 1975- FOR CHARLESTON AQKA , SOUTH CAROLINA 11/11/76
I
J fi££E£IDB _£ A
I I I
I RECEPTOR I RECEPTOR LOCATION | EXPECTED ARITHMETIC MEAN
J UUHBfiB 1 i
I | (KILOMETERS) I IMICRQGRAMS/CU. METER)
1 I tiCElZ V£BI i 5Q2 Ei8IlCUUL£S_
I I I I I
I I I 606.0 I 3(20.0 I 0. I 42.
I 2 I 606.0 I 36 22.0 | 0. I 43.
1 3 i f.!2f-*Q„l~3i24*Q 1 Q* I 43*
I 4 I 606.0 I 3626.0 I 0. I 44.
I 5 I 606.0 I 3628.0 I 0. I 45.
J & I £
-------�
AOOM RUN -YEAR 1975- FOR CHARLESTON AQPA, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVE MAX I HUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METFR
SOURCE
L.
O.Ol * 1
fl-*fl032__l.
O.Ol X I
3*0026 L.
0.02 * I
I
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I
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10
11
12
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17
18
19
20
21
0.03 *
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0.31 * I
1_
0.00 X I
flfill L_
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0.01 X I
_0*0063 L_.
0.00 X |
_2*0013 L_.
0.00 I I
o.oi x I
SxSS&i—l-.
0.00 X I
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0.01 X I
Q*0£60 1
0.01 T, |
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0.01 * |
JL»2£M L_
0.01 X I
2*0280 l_
0.01 X I
OxOCfifl—1_
0.02 % I
RECEPTOR |
-3Q 1_
0.00 X |
Q«.Q02S__i_
0.01 V I
0*0062 i_
0.02 % I
0*Q136__1_
0.03 X |
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RECEPTOR |
-12.
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PFCFPTOR I RECEPTOR
31 1 33
0.00 * I 0.00 X I 0.01 X I
0*20 26 1 0*0024 1 0*0030 1
0.01 t I 0.01 X
0*0268 I 0*0062
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-------�
ACDH RUN -TEAR 1975- FOR CHARLESTON ACfA, SOUTH CAROLINA ll/U/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM PECEPTPRS
ANNUAL PARTICULATfS
MICROGRAMS PER CUBIC METER
I SOURCE
1
I 22
i.
23
24
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1-
I
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-------�
AQDH RUN -YEAR 1975- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE
RECEPTOR 1
PECEPTOR
RECEPTOR (
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RECEPTOR 1
22 i__
__ 20
31 1
33 1
32 1
1 43
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i
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-------�
AQDM RUN -YEAR 1975- FOR CHARLESTON AQP3, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUT IONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
) SOURCE
J
I 6*
73
74
75
76
(
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77
78
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-------�
AQOM RUN -YEAR 1975- FOR CHARLESTON ACMA • SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVf MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
RECEPTOR I RECEPTOR | RECEPTOR | RECEPTOR I RECEPTOR I
11 I 10 1 11 L 31 1 32 L
O.Ol % I 0.03 * I 0.06 X I 0.02 X I 0.02 X I
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0.50 X I 0.13 % I 0.14 X I 0.09 X I 0.66 X I
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I SOURCE
1
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-------�
AQOH RUN -YEAR 1975- FOR CHARLESTON AQM, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CURIC METER
1
SOURCE
1
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-------�
AQDM RUM -YE1975- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RFCEPTORS
ANNUAL PARTICULATES
fMCROGRAMS PER CUBIC METER
1 SOURCE
RECEPTOR t
PECEPTOR 1
PfCFPTOR 1
RECEPTOR
1
receptor |
1
22 J
„aQ 1_.
11 1_
33
1
32 _ 1
1
127
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0.29 t 1
0.49 T |
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1
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i__
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1
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1
128 "
0.43 X 1
0.14 % I
0.17 * |
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1
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1__
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„QxQfi34__l_
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1
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1
129
0.39 X 1
0.10 x I
0.14 * I
0. 07 *
1
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1„
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1
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1
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0.30 % 1
0.13 T |
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1
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1,
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1
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I
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0.14 X |
4.91 *
1
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1
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1 _
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1
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1
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1
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1
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1
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__flxiZ21~l_
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1
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1
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4.37* I
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1
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1
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0*D431 1
1
145
0.02 % I
0.07 % 1
0.14 X |
0.02 X
1
0.03 X 1
1
flxfll26__l__
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1
146
0.04 * 1
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0.117 t I
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1
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t .
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1
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I
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-------�
S.QOH RUN -YEAR 1975- FOB CHARLESTON AC**, SOUTH CAROL INA 11/11/76
SOURCE CONTRIBUTIONS TCI FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC HETEP
J
150
151
152
153
154
160
I receptor I
-1 22 i_
I 0.19 * I
_i 0*114J 1_
I 0.17 * 1
_1 Q*l£l£ t_
) o.oa t i
_1 0*0524 L_
I 0.10 X I
JL Q*Q603__1_.
I 0.29 X I
_1 Q*1£2Q—i_.
I 0.03 3! )
I 0*0160-1-
0.94 X I
Qa££22^-.L—
1.68 X I
UQ42Q~1~.
1.66 * I
1*0253—1_.
1.40 t I
.1 0*0£6i3 1
I 2.11 % I
JL 1*3064—1—
I I.03 X I
.1 <2*6656—1—
I 0.46 % f
_i 2*2£52—1—
I 0.28 * |
-i Q*1125„i
( 0.75 X I
FECEPTOf*
30-
0.28 %
0*1234.
0.39 t
0*2332-
0.15 X
I
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0.25 % I
„ij*l52J„l-
0.30 % I
„0*23ll-l-
0.04 % 1
__0*B2*3—l-
0.77 X I
._fi*4214—{-
1.73 * I
1*1)523—J-
1.54 %
..0*2463—1-
1.28 X I
„_0*2fl31—1-
1.89 X I
—J—
0.86 S I
.1.2*5221—1-
0.36 X I
PFCFPTOR
_31
0.27 * I
0*1635-1-.
0.32 t I
.—fl*1223—i_.
0. 14 * I
.—0*0822—1_.
0.20 t I
_Qj.1126_-.1_.
0.36 t I
0*2136 I
0.04 * I
0*0226 i
0.U2 X (
—0*4 222 l__
1.74 t I
__1*Q333—1_
1.fcl % I
__U*25S6__1.
1.33 *
__£*21126.
2.00 *
—1*1232-
0.B9 I
receptor
-32-
0.22 %
.0*1266—
0.31 X
0*1632—
0.20 X
0*1142-
0.25 *
__0*1432.
0. 39 *
__0.22Sfl,
0.06 *
„0*0340.
0.70 X
—0*4122.
0.21 X I
.1 0*1253—1
0.10 » I
_0*05fl2—I
0.12 * I
juo&aa—l
0.33 t I
.0*1226—1
a.03 I I
_Q*01ZO—I
1.03 X I
163
164
165
166
167
"*168
_0*4£23—L
0.36 X I
.0*2205—1
0.16 2 I
_Q*i£i2—L
0.20 % I
.0*1222—1
0.5C %
_Q*3C20.
0.25 *
_B*1552
0.48 %
_fi*2222
.—oliiaa—i-
0.15 % I
,_0*0216—1
0.54 * I
._0*33Q1—l-
0.23 * I
._Q*1422—I-
0.12 X I
,_2*22.J2—l-
0.26 % I
.-.£*1603—l-
1.03 t I
,_0*634.S—1-
0.22 * I
,_2*1322—1_
0.34 X t
0*2061—1-
2*3401—1
0.Z8 5T I
0*1664—1.
0.14 * I
0*2024—1
0.30 * I
0*1.8 06_.
0.°3 %
0*5532-
0.22 *
D*130fl-
0.35 r
0*2063—1-
1.69 *
_0*221£L
1.49 *
0*2232.
1.24 «
.0*2224.
1.92 *
.1*1252—J
0.85 *
.2*4221 J
0.33 3
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0.13 1
J?*fi2 S2_
0.37 *
__o*2ias l-
0.18 X
£*1.022 L-
0. 10 X
0*1)536-
0.1B *
0*1046 t
0.59 X '
0*3451
0.19 *
—0*1133 I-
0.29 X I
0*1132 1-
RECEPTOR I
.32 j-
0.24 X I
0*1406 I
.0*6226—L
1.85 * I
.1*0330—L
1.81 t I
1.Q590 L
1.46 t I
__Q*fl556—L
2.19 * I
1*2832—L
1.06' * t
—2*6210—1
0.45 * I
fl*264Q—L
0.30 X I
2*1142—1
0.93 X I
.-0*5423—1
0.42 * I
0*24212—1
0.19 * 1
.-0*1025—1
0.27 % I
0*1506—I
0.66 X I
__0*3fl56—L
0.28 X I
—0*1636—L
0.47 t I
Q*2IZI—1
-------�
AQDM RUN -YEAR 1975- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/11/76
SOURCE CONTRIBUTIONS TO FIVF MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS
PEP
CUBIC METER
1 SOURCE
1
RECEPTOR |
RECEPTOR
RECEPTOR 1 RECEPTOR I
RECEPTOR I
i—
m_ ^ _l
_i—
—22 1_
20
21 1 22 1—
—22 1
1
169
1
0.25 X 1
0.20 X
0.20 % | 0.15 X I
0.26 X I
t
1
QxlS25_ 1_
0x1205
_0.1173 _1 . 0.0B82 1
0.1546 1
1
170
1
o.ie x (
0.12 *
0.13 t ) 0.10 X I
0.17 * I
1—
0x1110 1_
0x0245
0x0245 —L S*Q£15 i
.. .0x0332 1
1
171
l~
0.30 X |
0.18 X
0.18 t | 0.15 X 1
0.27 X 1
1—
«
-i-.
.—0x1332—1_
Qxliii
0x1022 J flx0«£3_i_.
flxl5SS—l
1
172
1
0.20 % I
0. 13 X
0.15 X 1 0.12 X 1
0.20 X I
1—
1
0.1220 I
0x0225
0x0.832 J 0x0233 1_
0.1199 1
t
173
1
0.60 % 1
0.3
-------�
AQOP RUN -YEAR 1975- FOR CHARLESTON AOfA, SOUTH CAROLINA H/Xl/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECFPTORS
ANNUAL PART ICULAT fS
HICPflGRAMS PER CUBIC METER
SOURCE I RECEPTOR I RECEPTOR I RFC fPTOR | RECEPTOR I RECEPTOR I
i 22 L aa 1 21 1 32 i 32 1
190 I 0.01 X I 0.02 X I 0.02 * I 0.02 * I 0.01 * I
1 Qxflifl2„i jmuxs—I h+soil—J.
191 I 3.02 * I 3.57 X I 3.59 t | 3.95 % I 3.IB X I
1 lxafi2fl__l Zm.12.li—i 2xl322__l 2*1136—1 1*2651—1
192 I 1.24 X I 1.19 X I 1.24 X I 1.17 * I 1.32 X I
1 QxIfiUB—l 0x2316—1 2x23S6__J 12x2234__l
193 I 1.89 X I 1.66 X I 1.75 X I 1.66 X I 1.94 1 I
i ui&iiit—i umiQ—i ixUiii—J jks_m_i 1xJ32£l_j
194 I 2.81 * I 2.45 t I 2.63 % I 2.63 * I 2.86 X I
i 1«. 2 415__1 1x5 Q64—1 1^5 626__1 1x54 21 I lx4_Z62__l
1 195
1
0.90 * 1 0.75 X 1
0.80 % | 0.77 * 1
0.91 X I
1
£xJ5Shi L _Cx4522 _i.
Qxi-ZAfi—1 0x4512—1.
i3x_S322 I
I 196
1
1.04 X 1 0.82 * I
0.89 X 1 0.79 % I
1.07 Z I
]_
_1_
0x6.S5.3__J Q*5J»Q4—I.
12x5202. -.1.. ._0,S66fl_ J.
Qx£254 1
I 197 ~
1
1.96 * I l.00 X |
1.86 t | 1.73 t 1
2.08 X 1
1
U2.143 L 1x1021 i_
lxlQ2Q__l 1x0145 L_
1x2124 L
! 198
1
0.69 * I 0.45 X 1
0.50 * I 0.45 % 1
0.66 X I
i
1
. 0x5223 L_ _Ux2246__l-
3x2222 I Qx2£44 i-
flx33flS I
1 199
1
0.09 X | 0.07 X 1
0.07 % I 0.05 X 1
0.10 % f
_1„
Qx35i!5 1 QxQiQi L
__ axQ3aQ._i QxQ2fll 1
C.A522 I
1 200
1
0.18 * 1 0.07 5 I
0.08 * 1 0.06 X 1
0.14 X I
J
_1—
—flxllll L flxQ4l6__l_
ix£?421__i DxD335__l_
flxJ3S4.Q I
1 ~ 201
1
3.95 X 1 4.15 X 1
4.27 * (• 4.47 * 1
4.in t |
l_
—2x4462—1 2x5444 L_
2x5435 1_ 2x6231 L-
2x4522 I
1 202
I
3.09 X 1 2.90 % |
3.05 % 1 3.05 X 1
3.20 X 1
I
l_
1x2132 1 lxia06__l_
1.0167 1 1.7910 1
lx.8251 1
1 203
t
3.47 t I 3.74 X I
3.92 X 1 4.17 * 1
3.68 X 1
I .-.XI
-1—
2x1456 I 2x2204 l_
__ 2x331fl L_ _2x44Ji6 1_
2x1523 L
1 BACK-
1
32.31 I 1 32.59 * (
33.60 X 1 34.06 * I
34.10 % I
l„SiBQU!lD_
_1—
_2Qx 1 2Qx i_
„2dx i 22x L_
2Qj L
1 TOTAL
1
100.0 X 1 100.1 t 1
100. 1 X 1 100. 1 X 1
100.0 X 1
1 &USIS6-J. 61x4111 I 52x5663__l 5£x2544 L 5Sx663£ I
-------�
APPENDIX D
-------�
*UDM RUN -YFAR 19»0- FOR
srufc* c«T/s
1 snimrF
SO'IRCE
1 NIIKPFH SGIJPC
r III.
(KILOf*
-UUBlZCtaiL-
1 1 4 20
1 1
592.1
1 2 4 20
2 I
577.9
i 3 .4 2!)__.
_2..2
522*?
t 4 420
2 3
5 77.9
1 5 4?i)
2 4
b 77.9
1 t 42J _
.31
534.2
1 7 42 )
3 2
594.2
1 9 4 20
3 3
594 .2
1 9 :'i20_ _
_3_i
534.2
1 10 470
5 I
593.4
1 11 42C
6 I
599.9
I 12 .42;)-
. 2_1
600*0
1 13 420
8 1
592.6
1 14 420
9 I
6CU.0
i 15 420
-3 2
6UU.0
1 16 560
2 I
596.7
1 1» 560
2 2
596.7
1 13 5S0-.
-2_3
536*2
1 19 560
2 4
596.7
1 20 560
2 5
55b. 7
1 21 5afl
_2..6
536.2
1 22 5bO
2 7
59b.7
1 22 560
212
596. 7
l___24 5oO_.
-213
536.2
t 25 560
214
596.7
1 2fc SMI
215
596.7
J 21 350__
. 219
536*2
1 28 5fiC
219
596.7
1 29 5bO
220
596.7
J 30 5£0....
.221
535*2
1 31 5 bO
2? 4
59b.7
1 1? 560
4 I
592.3
J 33 3 Ml...
_5_1
504.0
1 34 560
6 I
59 1.4
1 35 560
6 2
593.4
J 2t 560
.7 1
532*4
1 3 J 560
7 2
597.4
1 38 560
7 3
53 7.4
J —33. 560—
_9_1
536.4
1 40 560
R 2
596.4
1 41 5ftfj
9 3
596.4
J 42 560...
-3-4
535.4
1 43 560
3 5
596.4
1 44 560
8 s
59b .4
J .45 >6Q_ -
-3-1
536.4—
1 4b 5oO
h a
59b.4
1 4 7 560
9 9
556.4
J .43 560
_aia
53o*4
1 49 560
911
596.4
1 5C 560
912
59s.4
J 51 5A0__
.213
534*4
1 52 560
Bit
596.4
1 53 5b0
915
59b.4
-.YIlillCiL-
3M3.0
3686.0
3636.3
3ollf..8
3636.B
367<).1
3fc 7». 7
3623.7„
3696.0
3b53.5
3650.0.
3b7 3.1
369 7.0
3632.0—
3636.1
3o36.7
3536.2—
3636.7
3b3b.7
36J6.2—
3b3b.7
St it. '
3636.2__
3636.7
36 36.7
3£36.2__
3636.7
3636.7
__3£3£.2__
J 6.16. 7
36 36.?
__3633.U__
3< 34.?
36 14 . 5
—3628.2—
3628.7
362S. 7
3<.'4tf.2__
364 0.2
3640.2
3640.2
3b43.2
— 3640.2—
3 b '~ 0 . 2
366 0.2
— 36<*l}.2__
1640.2
3640.2
3!>4t>.2 —
3640.2
3b40.2
SOUTH CAROLINA 11/15/76
ANNUAL SOURCE
EMISSION PATE
(TOMS/DA VI
__SQ2 EAEI
0.211 0.016
0.0 0.077
Q.Q 0*155—
0.0 0.201
0.0 0.062
—3*22$ 0*Q24—
3.326 0.074
22.363 6.481
_22*QiS Ji*4ai_.
0.293 0.422
81.200 0.310
0*122 0*025_.
0.296 0.021
0.058 0.006
—0.05a Q.00b_
0.330 0.222
0.830 0.222
0*320 Q«222_
0.830 0.222
0.930 0.222
0.041 0*003—
0.041 0.003
0.151 0.011
0.151 0*Q11_.
0.0 74 0.005
0.0 74 0.005
0.221 0*012
0.271 0.019
0.2 71 0.019
0.2 II 0*012
0.022 0.003
0.0 0.108
—0.3 0*10B—
0.0 0.009
0.0 0.009
Q.Q 41 0*003
0.041 0.003
0.025 0.003
—8*122 0*520
8.1 29 0.5 70
0.1 18 0.296
—2.13 2 l*ii55—
8.129 0.115
0.0 0.041
„O.fl 0*042
0.0 0.0 71
0.0 0.074
Q.Q 0*162
0.5 75 0.499
0.600 0.775
—1*403 0*411
1.362 0.490
1.362 0.299
STACK OATA
HT 01 AH
1EI1-1EI1.
60.0 2.5 17.0
20.0 0.0 0.0
20*0 Q.Q 0*0-
20.0 0.0 0.0
20.0 0.0 0.0
_l&a*0—6*5 H2*2_
169.0 6.5 99.9
300.0 13.0 73.0
_3Q0*0_13*0 I2.0-
54.0 5.0 50.0
400.0 29.0 59.0
50*0—5*2 4Q.Q-
15.0 2.0 30.0
30.0 2.0 30.0
_3Q*0 2*0 3Q*Q_
250.0 12.5 11.5
250.0 12.5 11.5
1_250*0_12*5 Ll*5_
250.0 12.5 11.5
250.0 12.5 11.5
53*0__2*5 20*0-
53.0 2.5 30.0
30.0 3.0
30*0 2*0_
29.0 2.8
29.0 2.8
—33*0 3*0.
33.0 3.0
33.0 3.0 30.0
J 13*0 3*0 2Q*0
25.0 2.0 30.0
35.0 3.9 32.6
35*0-10*0 13*3.
10.0 0.0 0.0
3.0 7.1
VEl TEMP
1EES1 IDE£*E1
300.
77.
35.0
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ACOF RUN -YEAR 1980- FOR CHAS LESTCN AQMA, SOUTH CAROLINA 11/15/76
¦'FTf CHOLOGICAL INPUT OATA FOR ANNUAL
MIXING 1EPTU = }00. METERS
AMfilENT TtliPEUAIUF.E = 65. OFGREES .FAHRENHEl T
AMBIENT POfSSUFfc = 1013. MILLIBARS
STABILITY CLASS I
W1NDSPEED CLASS
DIPFCT(CN
1
2
3
4
5
1
N
.OOOli
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.00012
.00032
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.00012
.00011
.0
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rsF
.00009
.00007
.0
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.0
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.00021
.00023
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.00014
.00021
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.00022
.00039
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.00020
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.00023
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ACBM PUN -YFAR 1980- FOR CHARLESTON AOMA, SOOTH CAROllNA 11/15/T6
^Tr-Ct'OI.OGJCAl INPUT DAT A FOR ANNUAL
STABILITY CLA5S ?
WINDSP5ED CLASS
MD lUfSFCTICN
I
2
3
4
5
N
.001is
• CCI99
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.00178
.0QZ03
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. 000^4
.00153
. 00094
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.00061
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.00060
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.00066
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. 00066
.00073
.00103
.0
.0
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.00055
.00004
.00057
.0
.0
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.00032
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.00123
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. C10030
.00162
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. (JOO'O
.00146
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. 000'0
.00185
.00162
.0
.0
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.0004 5
.00130
.00116
.0
.0
.0
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. C0095
.CQ1&0
.00126
.0
.0
.0
-------�
AOOK RUN -YEAR X990- FOR CHARLESTON AOHA. SOUTH CAROLINA 11/15/76
KfT ^C'llLOG tCAL INPUT OAT A FOR AMIUAL
a
i
vj
STABILITY CLASS
WIND OIRf CT irn
N
NNE
NE
FtJE
F
FSE
SE
SSE
S
ssw
5W
kSh
k
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KU
flflW
I
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.00050
. 00064
.00025
.00019
.00035
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.00039
.00040
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.00035
.00020
.00029
• 00015
.00024
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2
.00297
.00336
.00265
.00158
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.00130
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.00139
.00185
.00212
.00162
.00183
.00199
.00185
.00174
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3
.0050?
• CO 763
.00543
.00363
.00253
.00298
.00313
.00358
.00461
.00479
.00518
.0066 7
.00 715
.00573
.CO340
.00361
CLASS
4
.00064
.00107
.00073
.00055
.00000
,0009b
.00084
.00066
.00110
.00112
.00116
.00160
.00153
.00149
.00064
•000?5
.0
.0
.0
.0
.0
.0
.0
.00002
.00007
.0
.00011
.00009
.00007
.00002
.0
6
.00002
.0
.0
.0
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.00002 .a
.0
.0
.0
.0
.00002
.0
.00009
.0
.0
.0
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AODM PUN -YEAK I960- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
~ CTKCSOLCGICAL IKPUT OATA FOR ANNUAL
L ! TV CLASS «
WINOSPEED CLASS
D OFFPCT IfN
1
2
3
4
5
6
N
.00115
.006 76
.01562
.01377
. 00190
.00027
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.00124
.00694
.02079
.02002
.00148
.00005
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.00105
.00516
•015*3
.01071
.00066
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.00074
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.00939
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.00041
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r
.0004 5
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.00621
.00062
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rsE
.00042
.00258
.00749
.00646
.00046
• 00002
SB
.00060
.00233
• CO 740
.004 7 7
.0003 7
.00009
SSF
.00046
.002 76
.00776
.00646
.00066
.00014
c
»
. 00C6 9
.00345
.01500
.01370
.00199
.00027
>s w
.00055
.00349
.01441
.01664
.00263
.00053
sw
.00044
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.01196
.01048
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.00036
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.01132
.00109
.00030
'.V
.00036
.00208
.00701
.01208
.00237
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UN H
.00029
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.00217
.0052 7
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f!NH
.00079
.00404
.0082 7
.00888
.00148
.00039
-------�
ACOM l?i)N -YEAR 1980- FOR CHARLESTON AOMA, SOUTH CAROLINA 11/15/76
CETECROLOGICAL INPUT DATA FOR ANNUAL
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W1N0SPEED
CLASS
OIKfCT 1CN
I
2
3
4
5
6
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.01449
.02094
.00557
.0
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.01232
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.00/96
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.003 4?
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.00403
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.00171
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.0
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se
.0046 7
.00731
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.0
S
.01453
.02167
.00466
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.01126
• C2C '3
.00744
.0
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.00673
•0L4C6
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.00528
.01121
.C0799
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w
.00396
.CC849
.00945
.0
.0
.0
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.00298
.00514
.00541
.0
.0
.0
MH
.00376
• 0C639
.00336
.0
.0
.0
NMW
•0CU91
.014 16
.00406
.0
.0
.0
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AC Of RUN -YEAR 19B0- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
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ACDC Fill* -YE*« 19RU- TCP CMULESTCN *Cf», SOUTH CAPCl INA 11/15/76
SC1URCF CCMP tt'.UT ItiNr, TO FIV£ KAXIPL'f RECEPTORS
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APPENDIX E
-------�
AODM RUN -YEAR 19B5- FOR CHARLESTON AQMA¦ SOUTH CAROLINA 11/15/76
SOURCE OAT A
1
ANNUAL
SOURCE
1
STACK
DATA
1 SOURCE
SCURCE
LOCATICN
SOURCE AREA
EMISSION RATE
1
1 NUMBER
SOURCE ID.
(KILOMETERS)
SQUARF
(TONS/OA*»
1 HT
01 AM
VEL
TEMP |
-HOaUDHlAL
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5Q2 _
PART
1 ( FT 1
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1 1
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1 I
592.1
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2.5
17.0
300. I
1 2
420
2 1
577.9
1 3666.0
0.0
0.0
0.090
1 20.0
0.0
0.0
77. I
1 3
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2 2
577.9
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2 3
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1 3686.8
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6.481
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13.0
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5 1
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1 3696.0
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6 1
599.9
1 3653.5
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iafiCI_2£*l!l 1 582*6 J „3&3.Q.. _0.0
.Q.fl
Qji-
-------�
ACDM RUN -YEAR 1985- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
MtTECRCLOGICAL INPUT DATA FOR ANNUAL
HI XING DEPTH * 900. METERS
AMBIENT TEMPERATURE » 65. DEGREES.FAHRENHEIT
AMBIENT PRESSURE = 1013. MILLIBARS
STABILITY CLASS 1
HINDSPEED CLASS
OIRECTION
1
2
3
4
5
1
N
.00016
.00037
.0
.0
.0
.0
KNE
.00035
.00043
.0
.0
.0
.0
NE
.00025
.00027
.0
.0
.0
.0
ENE
.00012
.00032
.0
.0
.0
.0
E
.00012
.00011
.0
.0
.0
.0
ESt
.00008
.00007
.0
.0
.0
.0
SE
.00021
.00023
.0
.0
.0
.0
SSE
.00014
.00021
.0
.0
.0
.0
S
.00022
.00039
.0
.0
.0
.0
ssw
.00020
.00041
.0
.0
.0
.0
su
.00023
.00030
.0
.0
.0
.0
kSW
.00030
.00055
.0
.0
.0
.0
t>
.00013
.00027
.0
.0
.0
.0
l>NH
.00019
.00016
.0
.0
.0
.0
NW
.00014
.00030
.0
.0
.0
.0
NNH
.00016
.00039
.0
.0
.0
.0
-------�
ACOM RUN -YEAR 1985- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
MCTECBCLOG1CAL INPUT DATA FOR ANNUAL
STABILITY CLASS 2
WINOSPEED CLASS
0 DIRECTION
1
2
3
4 •
5
K
.00118
.00199
.00137
.0
.0
.0
NNE
.00120
.00178
.00203
.0
.0
.0
NE
.00074
.00153
.00094
.0
.0
.0
EHE
.00061
.00132
.00114
.0
.0
.0
E
.00060
.00068
.00066
.0
.0
.0
ESE
.00066
.00073
.00103
.0
.0
.0
SE
.00055
.00084
.00057
.0
.0
.0
SSE
.00032
.00050
.00105
.0
.0
.0
S
.00081
.00094
.00123
.0
.0
.0
SSW
.00080
.00162
.00160
.0
.0
.0
SW
.00070
.00146
.00137
.0
.0
.0
HSW
.00059
.00203
.00219
.0
.0
.0
k
.00062
.00142
.00158
.0
.0
.0
hNW
.00070
.00185
.00162
.0
.0
NW
.00045
.00130
.00116
.0
.0
.0
NNM
.00085
.00160
.00126
.0
.0
.0
-------�
AQDM RUN -YEAR 1985- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
HET ECPCLOGICAL INPUT DATA FOR ANNUAL
STABILITY CLASS 3
WINDSPEED CLASS
OIRECTtON
1
2
3
4
5
6
N
.00061
.00297
.00507
.00064
.0
.00002
KNE
.00050
.00336
.00763
.00107
.0
.0
NE
•00064
.00265
.00543
.00073
.0
.0
ENE
.00025
.00158
.00363
.00055
.0
.0
E
.00019
.00084
.00253
.00080
.0
.0
ESE
.00035
.00130
.00288
.00096
.00002
.0
SE
.00016
.00100
.00313
.00084
.0
.0
SSE
.00039
.00139
.00358
.00066
.0
.0
S
.00040
.00165
.00461
.00110
.00002
.0
SSW
.00037
.00212
.00479
.00112
.00007
.0
SM
.00035
.00162
.00518
.00116
.0
.00002
WSM
.00020
.00183
.00667
.00160
.00011
.0
h
.00029
.00199
.00715
.00153
.00009
.00009
HNM
.00015
.00185
.00573
.00148
.00007
.0
NW
.00024
.00174
.00340
.00064
.00002
.0
NNW
.00028
.00187
.00361
.00075
.0
.0
-------�
AQOM RUN -YEAR 1985- FOR CHARLESTON AQUA, SOUTH CAROLINA 11/15/76
METEOROLOGICAL INPUT OATA FOR ANNUAL
STABILITY CLASS 4
HINOSPEEO CLASS
WIND DIRECTION 12 3 4 5 6
N
.00115
.00676
.01562
.01377
.00190
.00027
NNE
.00124
.00694
.02078
.02002
.00148
.00005
NE
.00105
.00516
.01573
.01071
.00066
.00002
ENE
.00074
.0040ft
.00989
.00758
.00041
.00005
E
.00045
.00233
.00767
.00621
.00062
.00002
ese
.00042
.00258
.00 749
.00646
.00046
.00002
SE
.00060
.00233
.00740
.00477
.00037
.00009
SSE
.00046
.00276
.00776
.00646
.00066
.00014
S
.00069
.00345
.01500
.01370
.00199
.00027
ssw
.00055
.00349
.01441
.01664
.00263
.00053
sw
.00044
.00249
.01196
.01048
.00084
.00018
WSW
.00036
.00205
.00895
.01132
.00169
.00030
M
.00036
.00200
.00701
.01208
.00237
.00112
WNH
.00029
.00240
.00616
.01301
.00315
.00032
NH
.00039
.00217
.00527
.00612
.00107
.00023
NNW
.00079
.00404
.00827
• 00888
.00148
.00039
-------�
ACDM RUN -VEAR 1985- FOR CHARLESTON AOKA , SOUTH CAROLINA 11/15/76
METEGROLOG1CAL INPUT DATA FOR ANNUAL
ITY CLASS 5
HINOSPEED
CLASS
DIRECTION
1
2
3
4
5
1
N
.01449
.02094
.00557
.0
•o
.0
KNE
.01232
.02 007
.00751
.0
.0
.0
NE
.00796
.01201
.00422
.0
.0
.0
ENE
.00500
.00845
.00167
.0
.0
.0
E
.00347
.00653
.00183
.0
.0
.0
ESE
•00403
.00582
.00171
.0
.0
.0
SE
.00467
.00731
.00105
.0
.0
.0
SSE
.00618
.00945
.00144
.0
.0
.0
S
.01453
.02167
.00466
.0
.0
.0
SSW
.01126
.02078
.00744
.0
.0
.0
SW
.00673
.01406
.00913
.0
.0
.0
VSH
.00528
.01121
.00799
.0
.0
.0
h
.00396
.0 0849
.00645
.0
.0
.0
VNU
.00298
.00514
.00541
.0
.0
.0
KH
.00376
.00639
.00336
.0
.0
.0
NNW
.00891
.01416
.00406
.0
.0
.0
-------�
AQDM RUN -YEAR 1985- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
M
INPUT REGRESSION PARAMETERS ARE!
g EQLLUI.ANI XzlMEBCEEI __SLC£E_
PARTICULATES 0.0 1.0000
-------�
AQOM RUN -YEAR 1985- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/15/76
J B££l£lQB_IEH££tllEAIJEN_flAIA
I I I
I RECEPTOR I RECEPTOR LCCATIOH I EXPECTED ARITHMETIC MEAN
J uuauEa__j i
I I (KILOMETERS) I (MICROGRAMS/CU. METER I
J 1 BQB12 ilfil 1 SQ2 mi.im.ATES.-
I I 1 I I
I 1 I 590.0 I 3t20.0 | 0. | 48.
I 2 I 590.0 I 3422.0 I 0. I 48.
1 3 1 52Q*0__l__3t24*Q i 0* J 42*
I 4 I 590.0 I 3626.0 I 0. I 50.
I 5 I 590.0 I 3(20.0 I 0. I 50.
J 6 1 53fl*0__l__3i30*0 1 Ox J .51*
I 7 I 590.0 I 3432.0 .1 0. I 52.
I 8 I 590.0 I 3634.0 I 0. I 51.
i 2 1 53QJfl__l__J£26«l) 1 Qm. L 52*
t 10 I 590.0 I 3438.0 I 0. I 52.
I 11 I 590.0 I 3640.0 I 0. I 51.
1 12 1 2212*0 1 3 C42*Q i Q* J 53*
I 13 | 590.0 | 3644.0 I 0. | 52.
I 14 I 590.0 I 3646.0 I 0. I 49.
1 IS L 532*0 L 3£2Q*0 i Q*. J 42.
I 16 I 592.0 I 3622.0 I 0. I 48.
I 17 I 592.0 I 3624.0 I 0. | 49.
1 1B L 522*£__J 3* 26*0 1 fl* i 51.
I 19 | 592.0 I 3628.0 I 0. I 53.
I 20 I 592.0 ( 3630.0 I 0. I 54.
J 21 i 532*0 i 3632*11 i fl* 1 54*
I 22 I 592.0 I 3634.0 I 0. I 55.
I 23 | 592.0 I 3636.0 I 0. I 54.
J 24 L 532*0 L__3t3U*Q 1 0* J 55*
t 25 I 592.0 I 3640.0 I 0. 1 52.
I 26 I 592.0 I 3642.0 I 0. I 52.
J 21 1 522*0__l__3fc44*0 I Q* J 50*
t 28 I 592.0 I 3646.0 I 0. I 50.
I 29 | 594.0 I 3620.0 I 0. I 48.
J 30 1 534*0 I 3£22*.Q 1 Q* J 42*
I 31 I 594.0 I 3624.0 I 0. I 51.
I 32 I 594.0 I 3626.0 | 0. I 52.
1 33 1 524*0 J 2i2fl*0 J 0* L 53*
I 34 I 594.C t 3630.0 I 0. I 56.
I 35 I 594.C I 3632.0 I 0. I 57.
J 36 1 524*0 1 3634*0 1 0* J 53*
t 37 | 594.0 I 3636.0 I 0. I 59.
I 38 I 594.0 I 3638.0 | 0. I 57.
J 33 1 534*0 L__3f40*0 1 0. I 54*
1 40 i 524*0 1 3642*0 1 0* I 52*
-------�
AODM RUN -YEAR 1985- FOR CHtRLESTON AQMA, SOUTH CAROLINA 11/15/76
.E££££3QB-IQH££UIB4IIfit:-C!iXfl-
1-
41
4 2
43
44
45
46
47
40
49
50
5 1
RECEPTOR
—tfUMQEB-
52
53
_S4
55
56
_52
58
59
-tfi
61
62
-61.
64
65
66
67
68
62
70
71
Zi
73
74
25.
76
77
J ia
I 79
J ttU L-
RECEPTOR CCCATION
UILOMETERS)
._HDS1Z i£BI
594 .C
524.0-
596.0
596.0
526.2-
596.0
596.0
526.2—
596.0
596.0
526.2-
596 .0
596. G
596.0—
596.0
596.0
523.Q-
598.0
598.0
52£.fl_l_
598.0
598.0
52fl.2_i
59B.0
598.0
528...Q
598.0
598.0
52J.2
598.0
600.0
622.fit__
600.0
600.0
622.0
600.0
600.0
6Q2.Q
600. 0
622.il
3444.0
._3f46.fi
3620.0
3622.0
_3424.2
3626.0
3<28.0
-3632.2
3632.0
3634.0
J 3636.2
3638.0
3640.0
3642.2
3644.0
3646.0
3622.2
3622.0
3624.0
_3t2fej.ll
3628.0
3630.0
_3632.2
3634.0
36 36.0
3638.2
3640.0
3642.0
3644.2
3646.0
34 20.0
__3622.2
3624.0
3626.0
362S.Q
3630.0
3632.0
3634.2 i
36 36.0 I
363£.2 1
expected ariti-hetic mean
""M7cROCRAMs7cu7~HifER7~
-iLV EABIi£UlAI£S_
0.
0.
0.
Q._
0.
0.
_2*_
0.
0.
__2*_
0.
0.
Qv_
0.
a.
2._
2.
o.
0.
-2.
o.
0.
-2*.
0.
0.
_1U.
0.
0.
-2..
0.
0.
JU.
0.
0.
-iU-
0.
o.
_2._
50.
_45.-
48.
50.
_52._
55.
55.
_56._
57.
60.
-63._
57.
54.
_53._
51.
50.
.4 2._
50.
52.
_54._
62.
61.
.22._.
*7.
58.
-54._
53.
52.
-51.
49.
46.
-43.
49.
53.
_£Q.
57.
55.
_54.
52.
.52.
-------�
AQDM RON -YEAR 1985- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/15/76
1
B££EPI2B-iCMi£tiIEiIJQl>
i
CAIA 1
1 RECEPTOR
RECEPTOR
CC #T JON
EXPECTEO ARITHMETIC MEAN 1
1 NUMBER
1
U1L0H
ERS)
1M1CR0GRAMS/CU. METER) 1
1
H0RT7
VERT
S02 PARTICULATES 1
1
I ai
600.0
1 1
0. 1 51. 1
1 82
600.0
3642.0
0. 1 50. 1
1 83
600.0
3444.0
0. I 49. |
¦ P4
60Q.0
. 3646.0
0. I 49. 1
( 85
602.0
3420.0
0. 1 45. 1
1 86
602.0
3622.0
0. 1 46. |
1 87
6Q2.0
3£24xQ
0. 1 47. 1
1 88
602.0
3626.0
0. 1 47. I
I 89
602.0
3620.0
0. t 48. I
1 90
602.0
3630*0
0. 1 49. 1
1 91
602.0
3632.0
0. 1 49. I
1 92
602.0
3434.0
0. | 49. I
1 21
__3S3fc*a
0. 1 49. 1
I 94
602.0
3(38.0
0. 1 49. |
1 95
602.0
3440.0
0. I 49. |
622*0—
3££2*.Q
0. 1 42»__ 1
1 97
602.0
3 644.0
0. 1 49. I
1 98
602.0
3646.0
0. ) 49. 1
1 99
6Q4t0
3620.0
0. 1 44. 1
1 too
604.0
3622.0
0. 1 44. 1
t 101
604.0
3624.0
0. I 45. |
1 102
604.0 1_ 3626..Q
0. 1 45. 1
1 103
604.0
3628.0
0. ( 46. (
1 104
604.0
3 6 30.0
0. 1 47. 1
1 105
604.0
3£3Z*Q _
0. 1 _ 47. 1
1 106
604.0
3634.0
0. 1 48. I
1 107
604.0
3636.0
0. 1 48. J
1 10S
604.0
3638.0
0. 1 47. 1
1 109
604.0
3640.0
0. 1 47. I
1 110
604.0
3642.0
0. 1 46. 1
1 111
604.0
3644.0
0. 1 48. 1
1 112
604.0
3646.0
0. 1 48. 1
1 113
606.0
3620.0
0. 1 43. I
1 114
604.0
_3fi22*Jl _
0. 1 43. 1
1 115
606.0
3624.0
0. I 44. 1
1 116
606.0
3626.0
0. | 45. <
1 117
3628.0
0. 1 46. 1
1 118
606.0
3630.0
0. I 46. I
1 119
606.0
3632.0
0. 1 46. 1
j . .-120
bQft.Q...
_3£3i*i2_
..Ot , 1 47. 1
-------�
AQOM RUN -YEAR 1985- FOR CHARLESTON ACMA, SOUTH CAROLINA 11/15/76
J
I I I
I RECEPTOR I RECEPTOR LOCATION I EXPECTED ARITHMETIC MEAN
J MujflfB I i .
I I (KILOMETERSI I IMICROGRAMS/CU. METER)
J 1 UQB1Z ¥£BI i SQ2
I I I I I
I 121 I 606.0 I 3636.0 I 0. J 47.
I 122 t 606.0 I 3(38.0 I 0. I 46.
1 123 i 4>Q6*0—l__344Q*0 i Q* 1 44*
I 124 I 606.0 I 3642.0 I 0. I 47.
If I 125 I 606.0 j 3(44.0 I 0. I 47.
iL J 126 JL 606* 0 J Q* J 41*
5» I 127 I 608.0 I 3420.0 I 0. I 42.
I 120 I 608.0 I 3(22.0 I 0. I 42.
1 122 1 60a-.Q-_l_3424.-C 1 Q* L 43*
| 130 I 608.0 I 3(26.0 I 0. I 44.
I 131 I 608.0 I 3(28.0 I 0. I 46.
1 132 1 6139*0—1—3430*0 1 0* :—I 45*
t 133 I 608.0 | 3(32.0 I 0. I 46.
I 134 I 608.0 I 3(34.0 I 0. I 46.
i 135 1 600*0 J 3 436*0 1 0. J 46*
| 136 I 608.0 I 3638.0 I 0. I 45.
I 137 | 608.0 I 3(40.0 I 0. I 46.
1 L3fi 1 6Q3-.Q—J—3 442*0 1 Q* J 44*
I 139 I 608.0 I 3(44.0 I 0. t 46.
1 140 1 608*0 L 3 446*0 1 Q* J 44*
-------�
AQDM RUN -YEAR 1985- FOR CHARLESTON ACMA¦ SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
SOURCE
0.01 * |
L o*0£B2 l.
10
ii
12
13
14
15
16
17
IB
19
20
21
RECEPTOR |
51 1.
0.01 X |
„o*aswa i_
0.02 ( I
PECEPTOR
6J
0.03 X |
-fl*Q2Q3_l.
0.OA * I
_fl*Q2fi4__l.
O.OQ X I
-0*0011 l_
0.00 X I
,0*0£U l_.
0.09 X I
0*05fi4 i_.
0.09 X |
0*0564 1
0.01 X I
0.01 « I
— l_.
0.01 X I
0*0002 L
0.03 X I
0*01flB l_.
0.04 X I
Q*22J4_i_.
o.oi x t
fl*QQI2_-.l_.
RECEPTOR
&2
Qa.QQ68_.i_
0.00 X I
0*QQ12 J
0.01 X |
fl»0034__i_.
0.01 X I
0*.Q252—L_.
o.oo x I
Q*001Q__i_.
0,00 X I
Q*Q010 i_.
0.01 X I
fl*QQ55__i_.
0.01 X I
Q«QQ55__i_.
0.01 X I
2*0055 i
0.01 X I
0*0255 i
0.01 X I
Q*QQ55__L,.
0.02 X I
0.00
Q*QQQa L
0.00 X I
__o*OQoa_l.
o.oa x I
0*0422 I.
0.08 X I
—0*QAI2 L.
0.01 X I
—UxQfl5fl__l.
0.00 X I
—0*QB10_1-
0.00 X t
—0*00111 1.
0.01 X I
Q*Q!i4fi I.
0.00 z I
0*0002 i-
0.00 X I
0.01 X I
l_
0.01 X I
__o*oo2lq__i_
0.03 X |
0*0102 L.
0.04 X I
a*mfc_.L
0.0L X I
0*QQ23 i_
0.00 X I
0*0003 -L
RECEPTOR
-15.
0.01 X I
-0*Q033 L
0.01 X I
_o*oaaa L_
0.03 x i
_Q
RECEPTOR I
5Q 1
0.01 X I
0.02 t I
--0*0022—1
0.03 * I
0.00 X
.0*0002.
0.08 X I
0*04113 1.
0.08 X 1
_Q*a4fl3_l 0*2454
0.01 X I
a*QOto_.L
0.00 X I
0*0010—1..
0.00 X I
0*0020 1_
0.01 X t
a*004i__l.
0162—I 0*0201 1
0.04 X I 0.04 X t
,Q*Q212—I _a*0261__l
0.01 X I 0.01 X I
J3*QO£2—L 0*00fil__l
0.00 X I 0.00 X I
.0*0005—I o*oaio__i
0.00 X I 0.00 X I
.o*oooa.~J a*ooio_i
0.08 X I 0.09 t I
.0*0454—J 0*0543 1
O.OB X I 0.09 X I
i 0*0543 1
0.00 X
.0*0003.
a*aoQ2__i_.
0.02 X I
.-_Q*Q151„i_.
0.02 X I
0.00 X
-0*0003—
0.03 X
JMillJL-
0.01 X I 0.01 X I
.0*0052—J 0*0005 L
o.oo x I o.oo x I
-0*0003 1 0*0012 1
0.00 X I 0.00 X I
.0*0012 J 0*0023 I
0.01 X I 0.01 X I
o*aas4_i
0.00 X I 0.00 X I
.0*0003 J 0*0010__1
0.00 X
-0*0.003-
0.02 X
.0*0104.
0*0151 1_
0.02 X I
__a»Qi5i__i_.
0.02 X I
0*0151 1_.
. 0.02 X I
—o*ai5i_l_.
0.00 X I
1 i Q*Q151—1 0*0013 1
0.03 X I 0.02 X
2*0120 1 0*0104.
0.03 X I 0.02 X
—0*0120 J 0*0104.
I o.oo x I
-J 2*0010 1
I 0.05 X I
-1 0*0232 L
I 0.05 X I
-1 0*02.82 L
I 0.05 X I
.1 0*0202 1
0.03 X I 0.02 X 1 0.05 X I
_0*Q120 J 0*0104 J 0*0201 1
0.03 X I 0.02 X I 0.05 X I
_0*0120 1 0*0104—1 0*0201—1
0.00 X I 0.00 X I 0.01 X I
.0*0012 J 0*0003 I 0*004 J. 1
-------�
AQOM BUN -YEAR 1985- FOR CFARLESTON AOf A f SOOTH CAROLINA 11/15/76
SOURCE CONTRIBUT IONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
SOURCE
22
23
24
~25~
26~
27
~2B~
~29~
~30~
"II"
~32~
33~
34
"35"
36
37
38
39
40
41
42
RECEPTOR I
51 L.
0.02 Z I
0x0151—1-
o.oa z I
0x0514 l_.
O.OB « I
0x0514 1-.
0.04 * t
Qxfl26&__l_.
0.04 t I
QxQ266 I—
0.15 Z t
0x0208 L-
0.15 X I
0x0308 L—
0.15 Z I
QxQ3Q8 L_
0.15 » I
QxQ3Q8 i_.
0.04 Z I
Q*fl241 L-
0.15 X I
0x0348 L_.
0.03 X I
0x0128 J
0.04 % I
0xQ242_i_.
0.04 t |
0x0245 L_
0.00 1 I
0x0012 1
0.00 % I
0x0012 i—
0.00 % I
Qxflflia I—
0.18 * I
OxlllB L_.
0.10 x I
0x1110 l_.
O.ll 1 |
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0.30 2 I
0x1822 1
RECEPTOR I
61 1_
0.00 * I
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0.01 X |
QxOU42__l_
0.01 % I
0x0042 1_
0.00 t |
0x0022__l_
0.00 Z I
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0.01 * |
QxQ082_l_.
0.01 * |
0x0082 1—
0.01 Z I
DxQ0a2__l_.
0.01 Z |
0x0082 i—
0.00 * I
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0.04 z 1
0x0263 1_.
0.02 Z I
0x0103 i_.
0.01 Z |
QxQ065__l_.
0.01 ; |
0x0065 1
0.01 % |
0x0051 1
0.01 * |
0x0022 1_.
0.02 * |
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0.06 { I
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0.06 Z |
0x0365__l_
0.03 X I
0x0202 i.
0.12 I I
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RECEPTOR
62
0.00 X
OxQflll.
0.01 t
0x0061-
0.01 X
0x0061.
0.00 X
0x0028-
0.00 X
0x0028-
0.02 *
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0.02 t
0x0125-
0.02 X
0x0105-
0.02 *
OxOio:
0.01 X
0x0028—
0.04 *
0x0240
0.02 X
0x0113
0.01 X
0x0054
0.01 X
0x0054
0.01 X
0x0082—
0.01 X
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0.02 X
0x0133
0.07 i
0x0428
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0x0428
0.04 *
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0.01 Z I 0.07 X I
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0.01 X I 0.07 Z I
_0xO056__l 0x04X6 1
0.01 X I 0.07 Z I
0x0.056 J __0x04X8 1
RECEPTOR I
15 1.
0.00 Z I
.0x0003 1_
0.01 X I
-0x0032 i.
RECEPTOR I
50 I
0.01 X I
0x0062 1
0.04 X |
0.00 Z
0.02 Z I
0x0123 I
0.03 X I 0.10 Z I
J 0x0164 L 0.0618 1
0.02 X I 0.03 Z I
0x0034 L 0x0163 L
0.01 Z I 0.04 Z I
0x0036 J 0x0222 I
0.01 Z I 0.04 t I
—0x0036 L 0x0225 1
0.00 X I 0.00 Z I
J}xQ030 1_
0.00 * I
.0x0030 1_
0.01 X
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0.05 Z I
_0x02£2_
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0.00 z I
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-0x0016 L
0.14 Z I
-0x0814 1
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.0x0282 1 0x0314 I
0.03 Z I 0.08 Z I
J 0x0158 1 0x_Q422 I
0.10 Z I 0.25 Z I
-0x0533 1 0,1499.. 1
-------�
AQDH RUN -YEAR 19B5- FOR CHARLESTON ACMAt SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVt MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
46
47
48
49
50
51
52
~53~
54
55
56
57
58
59
60
61
~62~
~63~
RECEPTOR I
51 l_.
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0.03 X I
0.0165—1_.
0.02 t I
-0.JQJ35 l_.
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0.04 X |
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0.03 * |
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0.0228—1
0.03 X |
0.0124 L
0.01 X (
RECEPTOR
ti2_
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JUQQfti.
RECEPTOR
25_
X
0.07 X I
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_0.OO12 X
0.09 X I
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0.01 X I
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I
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0.03 X I
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0.0223-X
0.04 x |
0.0254-X
0.09 X I
0.0222 L
0.05 X I
0.Q2S1 L
0.09 x I
0.0581—1.
0.03 t |
0.0212 1.
0.08 X I
Q.04I2 1.
0.04 X I
Q.QZ2a_1
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I RECEPTOR I
I 50 1
0.01 X I 0.01 X I
__Q.QC.32 L Q.0Q21 L
0.04 x t 0.11 x I
0.0231—1 0.0623—i
0.02 X | 0.06 x I
9*0111 i Q.Q3fcQ—1
0.03 x { 0.09 x I
0.Q12Q—I 0.0323 1
0.03 X I 0.08 X I
0.0112—1 0.Q50fl_l
0.06 X I 0.19 X I
0.03fifl_| 0*J14X_1
0,03 X | 0.08 X I
,_Q.Q135 L 0*J)423_1
0.06 x
0.0330 J_
0.02 X I
0.18 X I
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0.06 t I
0.0326 L
0.17 X I
0.04 X I
-U.02A5—1-
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0.02 X I
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0.02 X
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0.3400 i
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0.03 X I
0.Q1S2 i
0.02 x I
a .Qi*a_x.
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0.07 t |
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0.0066 1.
0.01 X I
0.0022 1_
0.03 X I
fl.016fl—1-
0.08 X I
Q.0482 1_
0.0145—1...
0.05 X I
Q.Q311—J 0.1002 L
0.03 t I 0.07 X I
0.0122 1 0.0423—1
0.01 X I 0.02 t I
0.0042 J 0.0123 L
0.01 X I 0.02 X I
0.0031 L 0.0101 L
0.02 X ( 0.05 X I
0.00 X I
0.0004—1
0.03 t 1
Q.Q12Q-
0.03 X
X
I
0.00 X
0.0020.
I
0.0203 1.
0.01 x |
0.0033 i.
0.10 X I
.0.0601—1
0.00 x I
Q.0022—1_
-0.0114 i.
0.05 X I
_0.0316 L
0.00 T 1
-0.0002 L-
0.02 X I
-0.0130—i_
0.01 x |
.0.0035 L_
0.00 X |
0.0014-
0.04 X
X
I
—0.0312—1
0.18 X I
-O.lOfll—1
0.00 X I
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0.05 X I
Q.Q223 1
0.07 X I
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0.01 X I
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0.19 X I
0.0253—J 0.1112 I
0.00 X I 0.01 X I
0.0012—1 0.0022 L
-------�
AQOM RUN -YEAR 1985- FOR CHARLESTON ACPA, SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1
SOURCE
1 RECEPTOR I
RECEPTOR I
RECEPTOR
RECEPTOR
RECEPTOR I
1_
—1 51 1—
__61 1_
62
25
_ -5Q 1
1
64
1 0.00 X 1
0.01 X 1
0.01 *
0.00 t
0.00 X 1
1
1 0.(1017 1
0.0041 1
0.0060
0*0023
0.0023 1
1
65
1 0.01 X 1
0.01 X 1
0.03 %
0.01 *
0.01 X 1
1
1_ _fUQfl32 _1
0.0071 1
0.0159
C. 004 5
0.0049 1
1
66
1 0.01 % 1
0.01 X 1
0.03 X
0.01 X
0.01 X 1
1
1 0.0032 1
—UxflflJJ -L_
-0*0154
0*0045
0.0047 1
1
67
1 0.02 Z 1
0.05 1 |
0.11 %
0.03 t
0.03 X 1
?
( 0.0|46 _/
. _ 0.0668 .
0. 0208
0.0209 1
1
68
1 0.10 X I
0.21 t 1
0.40 *
0. 14 t
0.14 X I
1
1 0.0598 1
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0.0838
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1
69
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0.19 * |
0.42 X
0.13 X
0.14 X 1
1
L 0*0553 1—
0*1213 l_
0*2553
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0*0845 1
1
70
1 0.01 X I
0.04 X |
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0.02 X
0.02 X 1
i_
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1
71
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i_
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0*0302 1
1
72
I 0.04 X I
0. 13 X I
0.22 X
0.08 X
0.05 X 1
i_
I Q*0Z32—1__
„o*.o2ss__l_
0.1322 _
0*0454 1 0*0302 L
1
73
1 0.01 X 1
0.05 * |
0.10 *
0.03 X
0.02 X I
1
1 O.OC81 .1
0*02114 1_.
0.0596
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0.0(08 1
1
74
1 0.00 X 1
0.02 X 1
0.05 %
0.01 X
0.01 X 1
1
1 0.0030 J
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1
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1 0.03 % 1
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1_
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1
76
1 0.03 X 1
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1
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1
77
1 0.02 X 1
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1
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1
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0*0026
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1
79
1 0.05 * 1
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0.14 X
0.07 *
0.07 X I
1
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80
I 0.07 X 1
0.12 * t
0.18 X
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0.09 X 1
1_
. -i__ ..0*0430 1 —
0*0212 1
0*1115 _
0*0524 L 0*0562 I
1
81
1 0.03 % 1
0.02 X 1
0.02 X
0.02 X
0.03 X I
1
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- 0*0121 _.
0.009?
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1
1
1 IM
1 00
1 0.03 X 1
0.02 X I
0.02 X
0.02 X
0.03 X I
1
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0.0121
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1
83
1 0.03 X 1
0.02 X 1
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1
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1
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-------�
AQOM RUN —YEAft 1985- FOR CHARLESTON AQHA > SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
86
8T
88
8£_
0.00 X
fl*0202_
0.00 X
2*2222_
0.00 X
a*cfiai_
0.13 X
2*2222—
0.00 *
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0.00 %
0*0221!—
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0.02 X
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0.00 X
2*2222.
0.01 X
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0.86 X
-0*5254.
0.94 X
._0*52fl2.
0.43 X
.-0*2622-
RECEPTOR
25-
0.03 X
-0*2132-
RECEPTOR
-52.
0.02 X
-2*2130-
0.01 X
-2*00fi3 L
0.00 X
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0.00 X
0*0000_J 2*2223 I
o.oo x I o.oi x I
2*2223 I 2*2234 I
0.00 X 1 0.01 X I
-2*2212 I 2*224£ I
0.01 X I 0.07 X
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0.02 X I 0.0$ X |
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0.00 X I 0.00 X
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0.01 X
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0.01 X I
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0.37 X I
2*2133 1_
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0.09 X
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0.02 X
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0.06 X
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0.20 X
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-2*1120 1- D.ObPO I
-------�
AGO* RUN -YEAR 1985- FOR CHARLESTON AQMA, SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE
RECEPTOR I
c 1 1
RECEPTOR
A 1
RECEPTOR
1 RECEPTOR
1 7c
I
1
RECEPTOR I
Crt I
1 106
31 1
0.01 X I
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0.02 X
0.02~X
J— £.2
0.20 X
I-
1
X
0.01 X 1
1
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Qi.Ql&2—
(MJC22
Q+1221.
I
O.DSm...l
1 107
0.00 X I
0.01 X
0.00 t
0.00 X
1
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1
Q*QQ22 1
Q*QQ3B__
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1_ 2*QSZ2.
1
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0.01 X I
0.01 X
0.00 %
0.01 X
1
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i
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1
_ 0*BIU2 I
1 109
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1
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1
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1 111
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1
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1 113
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1
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1 119
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0.01 X
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1 120
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0.04 X
1
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0.0888 1
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2*Q5lf>
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1 121
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0.0A X
0.06 X
0.03 X
1
0.1b X 1
X
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2«.Q30S
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1 122
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1
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0»S5C22__i__
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1 123
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0.00 X
0.01 t
0.01 X
1
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0.0014 1
0.0024-
0.0065
I
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1 124
0.00 X |
0.01 X
0.01 X
0.01 X
1
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1 _
i
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Q+QQ53
u-flflfl a L
a_.QQJ.Z__i
1 125
0.00 X |
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0.01 X
0.01 X
1
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1
Dxfloii L_
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a«.Q053
_£*QQ82-
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0.00 X |
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1
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1
-------�
AOOM HON -VEAR 1985- FOR CHARLESTON ACPA, SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
AKMJM. PARTICULATES
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR I
1 i 51 J 61 i ti J 35 1 50 1
I 127 I 0.02 * I 0.01 t I 0.02 % I 0.01 t I 0.02 * I
l 1 o*oi4Q—J
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ACDH RUN -YEAR 1905- FOR CHARLESTON AQHA • SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULATES
HCRCGRAHS PER CUBIC METER
SOURCE
| RECEPTOR I
RECEPTOR I RECEPTOR 1
RECEPTOR 1
RECEPTOR 1
1 51 _ 1
61 1 62 i„
_ 75. _ J_.
50 1
140
1 0.01 X 1
0.01 X 1 0.01 X 1
0.01 X I
0.01 X 1
_J_ 1_.
QmJ>Q3(i 1 0x0033 L-
—0*0036 L__
ofn
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AODM RUN -YEAR 1985- FOR CHARLESTON ACM*. SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVf MAXIMUM RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC METER
1 SOURCE I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTOR t
J 1 51 1 61 1 62 J 24 1 50 L
I 169 I 0.03 X I 0.10 X | 0.73 * I 0.05 X I 0.0* X I
J L 0*0123—1 0*1102__1 0*4433 1 0*0325—1 0*0222 L
I 170 I 0.01 X | 0.09 x I 0.10 T I 0.02 X 1 0.02 X I
J L 0*0£fl2 I Q*Q53&—I 0*0640—J 0.0114 . I Q*fllQ5 I
I 171 I 0.11 X I 0.17 X t 0.17 Z I 0.13 X I 0.15 X I
1 L 0*0214—1 Q*10aa I O.lOlfl I 0. Q7flfl I 0-0B76 L
I 172 I 0.25 X I 0.56 X I 0.46 t I 0.45 X 1 0.31 X I
1 1 0*1522 I £*3502—1 0*2823—J 0*22D4_J !L.i042_l
I 173 I 0.13 X | 0.23 X I 0.21 X 1 0.29 X I 0.15 X I
J L 0*0fiQ2 L OUAifc—i 0*1263 I 11*1223 I o.oa97 t
I 174 | 0.10 X I 0.26 X I 0.21 t I 0.26 X I 0.12 X I
1 1 0*0652—I 0*1652—I Q*1224_J 0*1556—J 0*0245 L
I 175 I 0.30 % I 0.38 X I 0.36 X t 0.39 X 1 0.33 X I
1 i 0*1360 I 0*2332—J 11*2206 L__-0*2324—1 0.1990 I
I 176 I 0.02 X I 0.04 X I 0.04 X I 0.05 X I 0.03 X 1
1 L Q*12155 1 0*0240—I 0*021* I fl*Q323_J 0*0164 L
I 177 I 0.94 X I 0.76 X I 0.80 S I 0.69 X I 1.01 X I
J L 11*5045 I 0*4215 I C*4225_J 0.4146 I 0.6054 L
I 178 | 1.65 X I 1.68 X I 1.67 X, I 1.63 X I 1.78 X I
i 1 1*0303—L 1*0425—1 1*0212 1 Q*2222—1 1*0202 L
I 179 I 1.62 X I 1.50 X I 1.54 X I 1.43 X I 1.74 X I
1 1 1*0114—J 0*2332—I 0*2452—1 0*3612—1 1*0442 I
I 180 I 1.38 X I 1.25 t I 1.29 X I 1.21 X I 1.42 X I
i L 0*2654—J 0*2312—L 0*2362 J £*2232 J 0*3542 I
I 181 | 2.09 X I 1.86 X I 1.94 X I 1.87 X I 2.14 X I
1 1 U3C42—I 1*1600—1 1*1210 I 1*1232 L 1*2316 L
I 182 | 1.05 X I 0.84 X I 0.86 X I 0.82 X I 1.03 X I
1 1 0*6534—1 0*5222—1 0*5242—J 0*4225 I 0*6152 L
I 183 I 0.43 X I 0.33 X I 0.33 X t 0.31 X I 0.41 X I
1 L 0*2636 L 0*2043—I 0*2020—J 0*1338 _1 0*2431—1
I 184 I 0.32 X I 0.17 % | 0.19 X I 0.15 X I 0.33 X I
1 L 0*1221 1 0*1042—1 0*1164 I 0*0202—1 0*1222 I
I 185 f 0.95 X I 0.68 X I 0.71 X f 0.46 X I 1.16 X I
J J 0*5216—I 0*4225—I 0*4352—1 0*2226 I 0*6245—1
( 186 I 0.44 X I 0.29 Z I 0.34 X I 0.22 X I 0.52 X I
1 1 0*2256—I 0*1234—J 0*2C30_J 0*1340—J 0*3223 I
I 187 I 0.21 X { 0.15 X I 0.17 X I 0.13 X I 0.24 X I
1 L 0*1312 1 0*0242—I 0*1066—1 0*0220 I 0*1415 L
I 188 I 0.23 X I 0.30 X 1 0.34 X I 0.20 X I 0.31 X I
1 1 0*1422 I 0*1325—1 0*2112—J 0*1223 L. 13*1355 L
I 189 I 0.64 X I 1.31 X I 1.16 X I 0.74 X I 0.83 X I
1 1 0*3221 L 0*3152—1 fl*211J J 0*4443 L 0*4252 L
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AQDM RUN -YEAR 1985- FOR CHARLESTON ACA • SOUTH CAROLINA 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIKUC RECEPTORS
ANNUAL PARTICULATES
MICROGRAMS PER CUBIC HETER
1
SOURCE
RECEPTOR I
RECEPTOR
RECEPTOR 1
RECEPTOR |
RECEPTOR 1
1_
51 i.
61
62 1
75 J
50 1
1
190
0.23 * 1
0.19 I
0.19 X |
0.17 X 1
0.25 X 1
1
Q*142Q _L
J!*12fl5
__ 0*1132 1
0. 1032 1
0*1421 I
1
191
0.59 X 1
0.41 X
0.42 X 1
0.36 X 1
0.57 % |
1_
0*220a__l.
Q*2554__
Q*2544__L
-0*2142 1
0.3442 1
1
192
0.46 X 1
0.36 %
0.35 * I
0.27 X 1
0.47 X 1
1_
fl*22ai__l.
Q*222fl__
Q*21fcQ .1
-flxli.24 _1
__fl«2SftS_ 1
1
19 3
0.18 * 1
0.12 *
0.12 X 1
0.10 X I
0.17 X 1
i_
(2*1123 L.
0*Q2S4
0*0254 1,
D*Q£22 l__
—2*1221 I
1
194
0.36 * 1
0.22 X
0.21 X 1
0.17 * 1
0.32 X |
i_
CU22£5__L-
a*i35a__
0x1232—1.
_2*1Q42 L_
_a*l">Qfi L
1
~I95
O.is * I
0. 12 %
0.14 X 1
0.12 * I
0.19 X I
1-
Q*11£Q L_
S>*QB58 .1
_fl*2£3.3 1
0*1110 1
1
196
0.60 X 1
0.34 *
0.33 X h
0.22 X |
0.65 X I
i_.
Q*3ia2__i_
i1*2143__
Q-i2Q2Q 1_
0*134.9 1
0*3322 1
1
197
0.56 X I
0.20 X
0.23 X 1
0.19 X |
0.51 X |
1
__ 0*3412 i_
0*12.50
0*143£ 1
fl*ll£2 1 _
0.3071 1
1
198
0.13 X I
0.04 X
0.05 * 1
0.04 X I
0.11 X |
1__
Q.QS15 1_
0*0221
_ _Q*£32£ 1
.. Oa 0213 1__
.0.0644 1
1
199
0.13 * |
0.03 %
0.04 X 1
0.02 X I
0.10 X |
1_.
_
2*Qfi23__l_
0*01SB
Q*Q24£__i_
fl*21i£ 1
0*0221 1
1
200
0.75 X 1
0.22 X
0.27 X 1
0.14 X 1
0.67 X I
1__
Q*42Q2__1_
„_0*132Q__i
„0*li55 1
_fl*0.22fl 1__
2*4023 1
1
201
0.7S * I
0.37 X
0.37 X 1
0.26 % 1
0.77 X I
1__
a*42fcS__i_
U*22B4__1
0*2233 _L
0*1134 1 _
0*4632 1
1
202
0.40 X 1
0. 1 8 *
0.20 X I
0.14 X 1
0.33 X I
1__
Q*251fe 1_
__.Qil.l54._l
Q*121i L
0*Qi!5£ 1
2*1329 1
1
203
2.47 * 1
0.48 X
0.43 X 1
0.28 X 1
2.76 X I
1_
1*5432__1_
0*233£__1
Q*.2b21 1
Q.1L56 L
1*6535 I
1
204
4.ee t |
0. 1 6 X
0.21 X 1
0.10 X 1
0.96 X 1
1__
3.Q513 L_
Q*fl2IS__l
0 j. 1222 1_
J)*25S£ L
—0*5221 I
1
205
3.2? * 1
0.62 X
0.82 X 1
0.50 X 1
1.48 X 1
1
2*0224 1_
Q*3S52~1
0*5223 L
-0*302-8 L-_
-_2*-flfl£i0 I
1
206
5.33 % I
1.3 2 l
1.85 X I
1.10 X 1
7.97 X I
1
3*3354 i
Q*82J5
1*1344 L_
0.6617 1
4.7845 1
1
20 T
0.09 X 1
0.08 X
0.10 X I
0.05 X 1
0.14 X I
i-_
Q*QS4fi_i_
Q*2423__l
fi*Q£S2 J fi*032£ .1...
2*2254 I
1
208
0.28 X (
0.55 X
0.7 7 X 1
0.45 X 1
0.32 X I
1_
Q.124S L_
___0*34£3__1
__ suaiafi 1
53*2451 1
—0*1211 L
1
209
0.31 % 1
0.45 X
0.44 X I
0.51 X 1
0.34 X |
l._
Q*1235_i_
_„0*22fl2__l
CU2L21 I
__.0*31fla L_
0*2242 1
1
210
0.55 t I
0.8R X
0.86 X 1
1.14 X 1
0.62 X I
1
0*3410 i_
___Q*S4I4 I
a*S2I4__JL
_2*fiS2J3 J
..0.3205—1
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AOCH RUN -YEAR 1985- FOR CFARLESTON AQMA, SOUTH CAROL IN* 11/15/76
SOURCE CONTRIBUTIONS TO FIVE MAXIMUM RECEPTORS
ANNUAL PARTICULARS
MICROGRAMS PER CUBIC METER
I SOURCE I RECEPTOR I RECEPTOR I RECEPTOR I RECEPTCR I RECEPTOR I
1 1 51 J 61 i 62 J 15 L 50 1
I 211 I 0.14 X I 0.25 * I 0.20 X I 0.34 X I 0.17 X I
1 1 Q*0302 1 0*1562 J 0*1230 t 0*2043 I 0*104.3 I
I 212 I 0.02 X I 0.03 % | 0.03 t I 0.04 X I 0.02 S I
1 1 Q*Q135 L Q*JttiaQ__l 0*0202 1 0x0251 I JMU.3A I
I 213 I 0.03 X I 0.03 X I 0.04 X I 0.04 X I 0.03 X I
1 i 0*0153 I D*Q2Q6—1 Q-.a22.2_J Q*0232 I 13*2155 I
I 214 I 2.99 X I 3.51 X \ 3.48 X I 3.85 X I 3.10 X (
1 1 U86IJ L Z*lliB3 L 2*1361 J Z*3J.£3 I UBiM L
I 215 I 1.23 X I 1.17 X I 1.20 t I 1.15 X | 1.29 X I
1 I 0*1681 1 0*1102 1 0*1342—1 0*6202—1 0*2222 I
I 216 | 1.87 * .1 r.63 X | 1.70 * I 1.63 X I 1.90 X I
1 1 Ulfifll L l*dlflU—L U042S 1 0*32.85 I 1*1382 I
I 217 | 2.79 X I 2.42 X I 2.56 t I 2.57 X f 2.80 X I
1 1 1*2433 I 1*5022 I 1*5632 i 1*54.86—1 1*6285 I
I 218 | 0.89 X I 0.74 X I 0.78 X ( 0.75 X I 0.89 X I
J I 0*5562 I 0*4603—1 0*4Z2J__J 0*4540—1 0.5357 L
I 219 | 1.03 X I 0.80 X | 0.86 X I 0.78 X t 1.04 X I
1 i 0*6462—J 0*5013—I 0*5222—1 0*4611—1 0.6265 I
I 220 | 1.95 X I 1.77 X I 1.82 X I 1.69 X I 2.04 X I
1 1 1*21213 I 1*1021—1 1*1141 J 1*0131 I 1*2242—1
I 221 I 0.7Q X I 0.45 X t 0.50 X I 0.45 X I 0.66 X I
1 L 0*4325 L 0*2801 1 0x3065 L 0*2103 L____fixJ316__l
I 222 I 0.09 X | 0.07 X I 0.06 X I 0.05 X I 0.10 X I
1 1 0*0555 I 0*0402 1 Q*Q3flfl J £*0281—J D*J)533 1
I 223 | 0.08 X I 0.03 X I 0.04 X I 0.03 X I 0.07 X I
1 i 0*0521 L 0*0124—1 0*4222—i 0*0151 I 0*1)332 I
I 224 I 3.92 X I 4.08 X I 4.15 X I 4.37 % I 4.09 X I
1 1 2*4420 1 2*5423__1 2*5465 J 2*6261 1 2*4551 I
I 225 I 3.06 X I 2.86 X I 2.97 X I 2.98 X I 3.13 X I
1 I 1*3155 1 1*11122—1 1*8188—1 1*2S31_1 1*5223 I
I 226 I 3.43 X I 3.69 « | 3.81 X I 4.08 X I 3.60 X I
J I 2*1480 L 2x3002—i 2*3343—1 2*4513—1 2*1622 I
I BACK- I 31.96 X I 32.05 X I 32.62 X I 33.25 X I 33.33 X I
J SiBQUUQ I 2fl* L_—20* 1 20* 1 20* i 20* L
I TOTAL I 100.0 Z I 100.1 X I 100.1 X I 100.1 X I 100.0 X I
1 L 62^5601 I 62x4453—L 61*3464—1 60*1230__1 613*0283 I
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