AIR QUALITY MAINTENANCE AREA ANALYSIS
FOR THE
SHREVEPORT AIR QUALITY MAINTENANCE AREA
FINAL REPORT
31 AUGUST 1977
Prepared for
U. S. ENVIRONMENTAL PROTECTION AGENCY
REGION VI
AIR PROGRAMS BRANCH
DALLAS, TEXAS
TRW
ENVIRONMENTAL ENGINEERING DIVISION
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906R771O3
S/N 95467.001
AIR QUALITY MAINTENANCE AREA ANALYSIS FOR
THE SHREVEPORT AIR QUALITY MAINTENANCE AREA
Final Report
Contract No. EPA 68-02-2541
Task Order No. 1
Prepared by:
BILLY C. McCOY
ENVIRONMENTAL ENGINEERING DIVISION
ENERGY SYSTEMS GROUP OF TRW, INC.
800 Foil in Lane, S. E.
Vienna, Virginia 22180
Prepared for:
AIR PROGRAM BRANCH
U.S. ENVIRONMENTAL PROTECTION AGENCY, REGION VI
1201 Elm Street
Dallas, Texas 75270
August 31, 1977
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ABSTRACT
The Shreveport vicinity was designated an air quality maintenance
area (AQMA) for participate matter by the U.S. Environmental Protection
Agency, Region VI, in 1974. Because certain questions have arisen with
regard to the validity of this designation, EPA authorized TRW Environmental
Engineering Division to perform an AQMA analysis of the area to determine
whether the designation was justified. This report presents the methodology
and results of the analysis.
The analysis was performed in conformance with the EPA guidelines
as declared in the Code of Federal Regulations 40 CFR 54.41 and in the EPA
Guidelines for Air Quality Maintenance Planning and Analysis. Air quality
projections were made by means of the diffusion model segment of the
Implementation Planning Program. The model was calibrated by the use of
1975 baseline air quality, emissions, and meteorological data.
On the basis of the results of the AQMA analysis, the following
recommendations were made:
1. The Shreveport AQMA should be de-designated.
2. Agreement should be reached with one
particular emissions source to provide
emissions reductions which will be ade-
quate for attainment and maintenance of
all ambient air quality standards for
particulate matter in the AQMA.
This report was submitted in fulfillment of Contract No. 68-02-
2541, Task No. 1 by TRW Environmental Engineering under sponsorship of the
U.S. Environmental Protection Agency.
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CONTENTS
Page
Abstract . . . . .. HI
Figures v
Tables ..... v
Acknowledgement . v^
1.0 Introduction and Background 1
1.1 Background 1
1.2 Summary . 3
2.0 The Data Base 9
2.1 Air Quality 10
2.2 Emissions Data 12
2.3 Meteorological and Climatological Data 14
2.4 Emissions Growth Factors ...... 14
2.5 Other Factors Affecting Emissions . 15
3.0 Technical Approach 18
3.1 General Approach 18
3.2 Emissions Allocation 19
3.3 Emissions Projection 22
3.4 Air Quality Modeling 28
4.0 Results of Analysis 33
4.1 Emissions Summary 33
4.2 Calibration and Baseline Results 34
4.3 Projected A1r Quality in 1980 39
4.4 Projected Air Quality in 1985 43
4.5 Projected Air Quality in 1995 46
5.0 Conclusions and Recommendations 50
5.1 Conclusions 50
5.2 Recommendations 51
References 53
Appendices
A. Emission Source File Computer Printouts 55
A..1 1975 Baseline . 57
A.2 1980 Projected 73
iv
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CONTENTS (Continued)
Page
A. 3 1985 Projected 89
A.4 1995 Projected 105
B. Diffusion Model Calibration Results 121
C. Diffusion Modeling Results 125
C.I 1975 Baseline Results 127
C.2 1980 Projected Results 147
C.3 1985 Projected Results 167
C.4 1995 Projected Results 181
FIGURES
Number Page
1 The Shreveport Air Quality Maintenance Area 4
2 Shreveport-Bossier City 1975 Annual Average
Particulate Matter Concentrations 36
3 Shreveport-Bossier City 1980 Annual Average
Particulate Matter Concentrations 40
4 Shreveport-Bossier City 1985 Annual Average
Particulate Matter Concentrations 44
5 Shreveport-Bossier City 1995 Annual Average
Particulate Matter Concentrations 47
TABLES
Number Page
1 1975 Particulate Matter Concentrations
in the Shreveport AQMA 5
2 Modeled Levels of Particulate Matter in
the Shreveport AQMA 7
3 Shreveport AQMA Particulate Matter Air
Quality Summary 11
4 Shreveport AQMA Baseline (1975) Particulate
Matter Emissions 13
5 Growth Factors for Shreveport AQMA
Particulate Matter Sources 16
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TABLES (Continued)
Number
6 New Source Performance Standard (NSPS)
Control Efficiencies . 17
7 Area Source Allocation Data 23
8 Shreveport AQMA Receptor Network 30
9 Particulate Matter Emissions Summary for
the Shreveport AQMA 33
10 1975 Modeled Particulate Matter Concentrations
at Selected Receptor Sites 37
11 Abbreviated Source Identification List 38
12 Major Contributors to Ambient Particulate
Levels at Sites Showing Violations in 1975 39
13 1980 Projected Particulate Matter Concentrations
At Selected Receptor Sites 41
14 Major Contributors to 1980 Ambient Particulate
Levels at Sites Showing Violations in 1975 ..... 42
15 1985 Projected Particulate Matter Concentrations
at Selected Receptor Sites 45
16 Major Contributors to 1985 Ambient Particulate
Levels at Sites Showing Violations in 1975 46
17 1995 Projected Particulate Matter Concentrations
at Selected Receptor Sites 48
18 Major Contributors to 1995 Ambient Particulate
Levels at Sites Showing Violations in 1975 49
vi
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ACKNOWLEDGMENT
The performance of this study was greatly expedited by the coop-
eration received from the Region VI Office of the U.S. Environmental
Protection Agency and the Louisiana Air Control Commission (LACC). From
EPA, the technical direction and assistance of Mr. Oscar Cabra and
Mr. Robert Clark is greatly appreciated. The help received from the LACC
staff, particularly Messieurs Gustave Von Bodungen, Orey Tanner, and
Harendrasinh Raol, in completing and correcting the data base is gratefully
acknowledged.
vn
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.1.0 INTRODUCTION AND BACKGROUND
1.1 BACKGROUND
Under 40 CFR 51.12 of the Code of Federal Regulations, the States
are required to develop State Implementation Plans (SIP's) which include
control strategies for attainment of the national ambient air quality
standards (NAAQS's) and which demonstrate that the plan will maintain those
standards once attained. In addition, the SIP must set forth a control
strategy which is sufficient to prevent future ambient air pollution levels
from exceeding any secondary standards in areas where existing pollutant
levels are currently below all applicable standards. Further, by May 10,
1974, the States were to identify those areas which, due to current air
quality and/or projected pollutant'emissions increases caused by growth,
may have the potential for exceeding any NAAQS within the subsequent 10-
year period. After review of these identified areas, the Administrator of
the Environmental Protection Agency (EPA) published a list of areas for
which the States were required to submit air quality analyses and, if
required by the Administrator, a plan revision in accordance with Subpart
D—Maintenance of National Standards—of 40 CFR 51.
On June 6, 1974, after a series of public hearings throughout
the State, the Louisiana Air Control Commission (LACC) concluded that no
air quality maintenance areas (AQMA's) would be designated. This action
was based on a Commission analysis, which encompassed air quality, socio-
economic growth, review of compliance data for emissions sources, and other
factors. Personnel in the Region VI EPA Office in Dallas performed an
independent analysis of the standard metropolitan statistical areas (SMSA's)
in Louisiana using the EPA guidelines for designation of AQMA's. ' On the
basis of this analysis, three areas in Louisiana were proposed for designa-
tion as maintenance areas:
• The Baton Rouge and New Orleans areas were
proposed for photochemical oxidants on the
basis of high measured oxidant concentra-
tions, projected growth to 1985, and
1
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indications that there was significant
transport of oxidants between the two
areas.
• The Shreveport area was proposed for
designation for particulate matter
based on ambient concentrations in
excess of a national standard in 1972
and the projection that this would be
the case in 1985.
On August 15, 1974, public hearings were held by EPA in New Orleans for
public review of the EPA proposals.
On the basis of revised hydrocarbon emissions and oxidant air
quality data and evidence that transport of oxidants between the two cities
was not significant, the proposal for designation of Baton Rouge and New
Orleans as AQMA's was withdrawn. However, the evidence presented in
support of withdrawl of the proposed designation for Shreveport was not
held to be convincing by EPA. Subsequently, the formal designation of the
Shreveport area as an AQMA was made in the Federal Register. More detailed
accounts of the EPA technical analysis and review of public comments are
(2 3)
found in the references. ' '
Designation of the Shreveport area as an air quality maintenance
area placed at least one and possibly two requirements on the State of
Louisiana:
1. The State must perform an AQMA analysis
according to §51.41 of 40 CFR 51.
2. If the analysis indicates a failure to
maintain ambient air quality standards
for a period of at least 20-years*, a
A period of no less than 10-years may be designated in special cases.
2
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revision to the implementation plan is
required. This revision—the AQMA
plan-- shall include control strategy
revisions and/or other measures which
demonstrate maintenance of all appli-
cable standards.
In order to assist the State of Louisiana in this effort, EPA obtained the
contractual assistance of TRW Environmental Engineering Division to perform
the AQMA analysis. This report presents the results of the analysis.
1.2 SUMMARY
1.2.1 Description of the Shreveport AQMA (Figure 1)
The Shreveport AQMA consists of three parishes in the northwest
corner of the State: Bossier Parish; Caddo Parish, and Webster Parish.
The area is generally forested and is only lightly industrialized. The
major industries are paper manufacture, wood products, chemical products,
petroleum refining, primary metal industries, and electrical and electronic
components. The industries are relatively well dispersed geographically
and no heavy concentrations are present. The City of Shreveport is the
principal commercial and business center for northern Louisiana.
On the basis of air quality monitoring data, the Shreveport AQMA
is typified by very low concentrations of particulate matter as the 1975
monitoring data" show (Table 1). The only exception to this statement is
the Caddo Parish Health Unit site in Shreveport where both the annual and
24-hour secondary standards showed 1975 violations. More detailed data
for several years are presented in Section 2.0 (Table 3).
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FIGURE 1. THE SHREVEPORT AIR QUALITY MAINTENANCE AREA
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TABLE 1. 1975 PARTICULATE MATTER CONCENTRATIONS IN THE SHREVEPORT AQMA
Monitoring
Site
Bickham
Bayou9
Caddo
Parish3
Lucas
Station3
Minden
Secondary
Standards
Annual Average
Arithmetic
34.2
78.7
41.4
37.9
67. 0C
(yq/m3)
Geometric
30.8
70.0
39.6
32.3
60.0
24-Hour
High
105
235
76
97
150
Data (ug/m3) 04 ||ourb
Second High Violations
84 0
208 4
71 0
62 0
150
These sites are all within the City of Shreveport.
50ne violation per year is allowed.
•+
"The relation between the arithmetic and geometric annual means is a function
of the standard geometric deviation (SGD) at the monitoring site. The
arithmetic standard shown was estimated by means of an average value for
the AQMA.
1.2.2
Summary of the Analysis
Under section 51.41 of 40 CFR 51, the following elements are
required in an AQMA analysis:
t Projection of Emissions
0 Allocation of Emissions
• Projection of Air Quality Concentrations
• Description of Data Sources
• Techniques Description
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These tasks should be executed in close conformance with the "Guidelines
(4)
for Air Quality Maintenance Planning and Analysis."v ' Where deviations
from the guidelines are necessary, the alternative techniques should be
explicitly detailed.
The projection and allocation of emissions and the techniques
description are discussed in Section 3.0. The description of the data
base and sources is presented in Section 2.0, and the results of the air
quality projections are given in Section 4.0.
The diffusion model segment of the Implementation Planning Pro-
gram (IPP) was used for projection of future air quality. The IPP model is
functionally equivalent to the Air Quality Display Model (AQDM), but it is
somewhat more versatile in some respects. The model was first calibrated
by means of 1975 baseline data, which included: air quality data; emissions
data; and meteorological and climatological data.
The modeled annual geometric mean concentrations of particulate
matter at selected receptor sites in the Shreveport AQMA are shown (Table
2). The measured 1975 concentrations are shown for the monitoring sites
as a means of comparison. These results indicate relatively small growth
impacts in most cases.
Only two receptor sites were predicted to exceed the annual sec-
o
ondary standard for particulate matter (60 yg/m ) in 1975. Because of
substantial 1976 improvements in the emission controls on some electric arc
furnaces operated by Mid-Continent Steel Company, only one site, the Caddo
Parish Health Unit in Shreveport, is expected to violate any standards for
particulate matter in later years.
The IPP diffusion model generates a source contribution file for
selected receptor sites, which lists the estimated contribution of each
source in the inventory to ambient pollutant levels. Analysis of the
source files indicates that one source is primarily responsible for the
concentrations of particulate matter at the site where future violations
of the NAAQS for particulate matter are predicted. The source is operated
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by Swift Agricultural Chemical Company and is in very close proximity to
the Caddo Parish Health Unit monitor. An emissions reduction of about forty-
five percent (45%) by this source should enable the Shreveport AQMA to both
attain and maintain all ambient standards for particulate matter. A detailed
analysis of the situation is given in Sections 4.0 and 5.0.
TABLE 2. MODELED LEVELS OF PARTICULATE MATTER IN THE SHREVEPORT AQMA3
Annual Geometric Mean (yg/m )
Receptor
Grid No. 40C
Grid No. 41 c
Bickham Bayou
Caddo Parish H.U.
Lucas Station
Minden Monitor
Plain Dealing
1975b 1975
77.5
53.9
30.8 36.1
70.0 69.3
39.6 36.5
32.3 30.3
46.3
1980
42.4
47.0
34.9
63.9
36.6
30.5
48.7
1985
43.2
48.5
35.2
66.1
36.9
30.6
50.5
1995
45.1
52.0
36.1
71.6
37.7
31.0
54.8
On the basis of the calibration results, the total background concentra-
tion—including all uninventoried sources—is estimated at 30.4 ug/m3
annual geometric mean.
These values are the monitored levels.
These receptor grids are located just north of the foundry complex in
Shreveport at UTM coordinates (428.0, 3590.5) and (428.0, 3593.0),
respectively.
1.2.3 Recommendations and Conclusions
The major conclusions of the air quality maintenance area analysis
performed for the Shreveport AQMA are:
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1. Through the year 1995, the participate
matter concentrations in the AQMA are
expected to remain below the secondary
standards except for one location within
the City of Shreveport.
2. The only site where violations of any
standards for particulate matter are
predicted in the future shows a high
degree of source orientation.
3. The source in question was relatively
uncontrolled in 1975.
On the basis of these conclusions and the more detailed results
in Section 4.0, the following recommendations are made:
1. The Shreveport AQMA should be de-designated.
2. Agreement should be reached with the Swift
Agricultural Chemical Company to provide
reductions of particulate matter emissions
from their Shreveport plant which will be
adequate for attainment and maintenance of
all NAAQS's for particulate matter within
the AQMA.
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2.0 THE DATA BASE
The use of the diffusion model segment of the Implementation
Planning Program (IPP) for performing the present AQMA analysis placed
some stringent requirements on the types and quantities of data required.
These data include the following categories:
• Detailed air quality monitoring data for
suspended particulate matter.
• Comprehensive emissions source data which
include both the emission rates and the
stack parameters for point sources and the
emission rates for area sources.
• Meteorological and climatological data
including annual stability windrose data
and estimates of the annual means of
temperature, barometric pressure, and
afternoon mixing depth.
• Demographic and economic data from which
the area sources can be apportioned geo-
graphically and from which growth of all
sources can be estimated.
• Information concerning such important
factors as new source performance
standards (NSPS's), existing emission
control levels, and applications to
operate new or modified emissions
sources.
The remainder of this Section discusses the data available in each of these
categories for the Shreveport AQMA. In large part, the nature of these data
defined the technical approach which is presented in Section 3.0.
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2.1 AIR QUALITY
Calibration of the IPP diffusion model requires annual air quality
data from at least three monitoring sites. If predictions of short-term
pollutant levels are to be made by the model, then estimates of the standard
geometric deviation (SGD) for the desired time base must be available at
each site for which the prediction is to be made. The federal guidelines
(40 CFR 51, Subpart D) specify that all data collected since 1 October 1972
must be considered in establishing the air quality baseline for an air
quality maintenance analysis.
The data collected satisfy the requirements of both the diffusion
model and the federal guidelines (Table 3). Although concentration data for
five particulate matter sampling sites are shown, only1 four of these sites
were operative in 1975, the selected baseline year.
A comprehensive analysis of the particulate matter data in the
Shreveport AQMA is being completed by Pacific Environmental Services, so no
detailed analysis is in order here. However, the following brief points
are especially pertinent to the present study:
1. On the basis of the available data, the
levels of particulate matter in the AQMA
are quite low and easily meet the federal
secondary standards, with one notable
exception.*
2. The exception to the above statement is
the Caddo Parish Health Unit monitor
where annual standards have been
violated in every year since and includ-
ing 1972.
*
The annual standards for particulate matter are annual geometric means of
75 vig/m3 - primary and 60 yg/m3 - secondary.
10
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TABLE 3. SHREVEPORT AQMA PARTICULATE MATTER AIR QUALITY SUMMARY
Site/(SAROAD Code)
Bickham Bayou
(192740003)
Caddo Parish H.U.
(192740001)
Knight Street
(192740002)
Lucas Station
(192740004)
Minden
(191800001)
Year
1974
1975
1976
1972
1973
1974
1975
1976
.1976
1974C
1975
1976
1975
1976C
Annual
Ma
33.6
34.2
34.5
104.4
R7.6
79.2
78.7
74.7
42.3
44.5
41.4
53.0
37.9
34.8
Data (uq/m3)3
SD
19.3
16.9
14.3
47.3
33.8
34.2
41.0
34.1
19.2
35.1
12.4
24.9
23.0
11.9
H9
29.5
30.8
31.6
93.9
80.7
71.8
70.0
67.7
38.8
36.8
39.6
48.0
32.3
32.8
SGD
1.65
1.59
1.54
1.60
1.53
1.58
1.63
1.55
1.50
1.38
1.34
1.56
1.75
1.14
24-Hr. Data (vtg/m3)
High
96
105
69
216
157
171
235
160
106
178
76
107
97
63
2nd High
61
84
66
212
154
154
208
145
87
81
71
92
62
53
Violationsb
Primary
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Secondary
0
0
0
13
3
3
4
1
0
1
0
0
0
0
Number of
Samples
23
54
28
59
44
60
60
40
31
23
51
21
15
24
The abbreviations have the following meanings: M = annual arithmetic mean; SD = standard deviation; M = annual geometric
mean; SGD = standard geometric deviation.
bThe 24-hour standards are: primary = 260 ug/m3; secondary = 150 pg/m . One violation per year is allowed in an AQCR.
°Data for this year at this station did not appear to be lognormally distributed.
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3. Nevertheless, the data at the Health Unit
site have indicated marked improvements
in the levels of participate matter since
1972.
The improvement in air quality at the Caddo Parish Health Unit sampling
location is evidenced by: (a) a decrease in the annual average in every
year since 1972 to levels below the primary standard beginning in 1974;
and (b) a marked decrease in the frequency of 24-hour violations at the
site since 1972.
2.2 EMISSIONS DATA
The basic emissions data for the study were obtained from the
national emissions data system (NEDS) update performed by Pacific Environ-
mental Services (PES). Missing source data were obtained for several
sources from LACC personnel. For the most part, the missing data were
stack parameters, which are not essential for compiling an inventory but
are necessary for diffusion modeling. The detailed source data are
presented in Appendix A.I and the emissions are summarized in terms of the
principal source categories (Table 4). In comparison to industrialized
sectors of the country, the annual emissions for the Shreveport AQMA (6,168
tons per year [5,595 metric tons per year]) are quite low. Some large
individual sources of particulate matter emit more than this quantity on
an annual basis in other areas.
A note of clarification is in order with regard to the emission
Inventory summary for the Shreveport AQMA. The calculated emissions from
fugitive area source categories, such as vehicular traffic on dirt roads,
were found to be inordinately large. Because this could cause unusual
results in the diffusion modeling, the EPA Office of Air Quality Planning
and Standards (OAQPS) was contacted for advice in the matter. OAQPS
indicated that, although the emission factors in AP-42* ' were probably
correct on a gross basis, they should not be used for large scale models
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TABLE 4. SHREVEPORT AQMA BASELINE (1975) PARTICULATE MATTER EMISSIONS
SIC
Code
14XX
20XX
24XX
26XX
28XX
29XX
32XX
33XX
36XX
4911
4953
—
9999
9999
9999
• —
—
• Source Category Description
POINT SOURCES
Mining and Quarrying
Food and Kindred Products
Lumber and Wood Products
Paper and Allied Products
Chemicals and Allied Products
Petroleum Refining and Related Industries
Stone, Clay, Glass, and Concrete Products
Primary Metal Industries
Electrical and Electronic Machinery
Electric Services
Refuse Systems (Incineration)
Subtotal for Point Sources
AREA SOURCES
Bossier Parish
Caddo Parish
Webster Parish
Subtotal for Area Sources
Total AQMA Emissions
Fuel Combustion Emissions Included in Total
Emissions
TPD
0.04
0.01
0.25
6.27
0.38
0.35
0.44
1.25
0.13
0.19
2.43
11.74
1.37
2.85
0.94
5.16
16.90
6.22
a
MTPD
0.04
0.01
0.23
5.69
0.34
0.32
0.40
1.13
0.12
0.17
2.20
10.65
1.24
2.59
0.85
4.68
15.33
5.64
aTPD = tons per day; MTPD = metric tons per day.
13
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such as IPP*. The proffered reason for this is that most of the particu-
late matter is concentrated in the larger particle size fractions so that
it does not remain suspended beyond the immediate vicinity of the source.
At any rate, the recommendation was followed and the excellent calibration
results obtained (See Section 4.0) seem to justify the decision.
2.3 METEOROLOGICAL AND CLIMATOLOGICAL DATA
As noted previously, the IPP diffusion model segment requires a
substantial collection of meteorological and cllmatological data. With
one exception, all of these data were obtained from NOAA.** The data
included:
• Annual stability wlndrose ("STAR") data for
Shreveport for the baseline year, 1975 and
for the five year period, 1970-74.
• Local Climatological Data, annual and
monthly, for the baseline year.
The only data item not obtained from NOAA was the annual mean afternoon
mixing height which was taken from Holzwortlr . The 1975 data were used
for model calibration and the five-year average data were used for projec-
tions to prevent biasing the results toward a specific set of possibly
unusual meteorological conditions.
2.4 EMISSIONS GROWTH FACTORS
The best kind of data from which to project emissions to future
years is planning data obtained directly from the individual sources.
*
This is based on a telephone conversation with Chuck Mann, Monitoring and
Data Analysis Division, Source Receptor Analysis Branch, on 9 May 1977.
**
National Oceanic and Atmospheric Administration, Environmental Data
Service, National Climatic Center, Asheville, N.C.
14
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However, at best only a few large—and economically sound—sources can be
expected to make the long range projections needed for air quality mainte-
nance analysis and planning. Area sources are by definition too small to
treat on an individual basis. Consequently, some other means of projecting
emissions and air quality to future years is needed.
The factors used for projecting emissions should meet the follow-
ing criteria:
o For industrial point sources, the factors
should reflect general growth and produc-
tivity changes and they should be adjusted
for inflation.
• For area sources, which occur for the most
part from such human activities as space
heating, vehicular traffic and small
commercial-industrial establishments, the
factors should be indicators of man's
overall activity level.
For industrial point sources, constant dollar earnings by industrial cate-
gory were chosen as growth factors, because they completely satisfy the
criteria. For area sources, population was selected as the projection
factor because it at least approximately satisfies the requirement. In
addition, the apportioning technique (See Section 3.0) is based on popula-
tion by census tract.
The growth factors used in the analysis are shown (Table 5). The
only industrial category not projected by earnings is electricity generation,
which generally follows population. All of the data are based on the OBERS
projections^ , which were the only comprehensive data found for the area.
2.5 OTHER FACTORS AFFECTING EMISSIONS
The major factors other than growth which impact emissions pro-
jections are the federal new source performance standards and ongoing state
15
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TABLE 5. GROWTH FACTORS FOR SHREVEPORT AQMA PARTICIPATE MATTER SOURCES
SIC
Code
Industry
Growth Factors
Basis
1980
1985
1995
1446 Industrial Sand
2048 Animal Feeds
2421 Saw Mills
2426 Dimensioning & Flooring Mills
2431 Mi 11 works
2435 Veneer and Plywood
2621 Paper Mills
2819 Inorganic Chemicals
2874 Phosphatic Fertilizers
2911 Petroleum Refining
2951 Paving Mixtures
2952 Asphalt Roofing Felts
3229 Glass/Glassware
3251 Brick & Structural Clay
3323 Steel Foundries
3661 Telephone Equipment
4911 Electric Services
4953 Wood Waste Incineration
4953 Municipal Incineration
9999 Area Sources
Construction Earnings 1.2396 1.5202 2.3165
Food Industry Earnings 1.1469 1.2939 1.6702
Lumber Industry Earnings 1.2781 1.5161 2.1566
Lumber Industry Earnings 1.2781 1.5161 2.1566
Lumber Industry Earnings 1.2781 1.5161 2.1566
Lumber Industry Earnings 1.2781 1.5161 2.1566
Paper Industry Earnings 1.2477 1.4991 2.1959
Chemical Industry Earnings 1.3825 1.7063 2.6190
Agriculture Earnings 0.9385 0.9799 1.1119
Petroleum Refining Earnings 1.1359 1.2989 1.7174
Construction Earnings 1.2396 1.5202 2.3165
Construction Earnings 1.2396 1.5202 2.3165
General Manufacturing Earnings 1.2568 1.5500 2.3830
Construction Earnings 1.2396 1.5202 2.3165
Primary Metals Earnings 1.1607 1.3278 1.7577
Electrical Machinery Earnings 1.3135 1.6865 2.7969
Population 1.0519 1.1174 1.2575
Lumber Industry Earnings 1.2781 1.5161 2.1566
Population 1.0519 1.1174 1.2575
Population 1.0519 1.1174 1.2575
These factors are based on data
for Air Quality Control Regions"
AQCR 22, which were taken from "Projections of Economic Activity
-------
enforcement activities. The NSPS control requirements for sources in the
Shreveport AQMA are shown (Table 6). State enforcement activities can only
be determined by searching the permit files of the Louisiana Air Control
Commission, as described in'Section 3.0.
TABLE 6. NEW SOURCE PERFORMANCE STANDARD (NSPS) CONTROL EFFICIENCIES8
SIC
Code
2048
2621
2621
2621
2621
2951
3229
3251
3323
4953
4953
Source Description
Grain Elevator (Feed Rolling)
Kraft Mill (Bark Fired Boiler)
Kraft Mill (Lime Kiln)
Kraft Mill (Recovery Furnace)
Kraft Mill (Smelt Dissolving Tank)
Paving Mixtures (Asphalt Batching)
Glass Products (Furnaces)
Brick and Structural Clay Tile
Iron & Steel Foundries (Arc Furnaces)
Municipal Incinerators
Conical Incinerators
% Control
Efficiency
99.6
94. 5b
98. 9b
98. 6b
94. Ob
98.0
99. Ob
96. 5b
97.4
98.0
66. 5b
Effective
Year
1978
1981
1979
1979
1979
1976
1983
1983
1978
1974
1983
This table only includes the expected NSPS control efficiencies for
sources located in the Shreveport AQMA. The data were taken from
"Accounting for New Source Performance Standards in Projecting and
Allocating Emissions"(8).
These control efficiencies were estimated by comparing the NSPS
allowable emission rates with the emission rates for uncontrolled
sources found in AP-42V5).
17
-------
3.0 TECHNICAL APPROACH
3.1 GENERAL APPROACH
The broad outlines of the methodology utilized for the particulate
matter maintenance analysis of the Shreveport AQMA were established by two
factors:
• The data available for the analysis, as
presented in Section 2.0; and
• The decision to use the diffusion model
segment of the Implementation Planning
Program for air quality projections.*
The basic steps in the analysis were:
1. Collect, review, and modify—where
necessary—a set of 1975 baseline data
for the analysis.
2. Utilize the collected data to calibrate
the IPP diffusion model.
3. Make emissions projections for the point
and area sources and use the calibrated
model to project particulate matter
ambient concentrations to the years 1980,
1985, and 1995.
4. Use the results of the projections to
determine whether the AQMA designation
for Shreveport is warranted or, con-
versely, if the designation should be
withdrawn.
*
This model is basically a more flexible version of the Air Quality
Display Model (AQDM), for which the same remarks would apply.
18
-------
5. If a path other than a maintenance plan
seems to be a more appropriate means of
meeting the ambient standards for sus-
pended participate matter, such should
be recommended in the report.
The first of these steps was discussed in Section 2.0; steps 4
and 5 are presented in Sections 4.0 and 5.0. The remainder of this Section
is a detailed discussion of the techniques used to accomplish steps 2 and
3.
3.2 EMISSIONS ALLOCATION
The allocation procedures for point sources were quite simple:
Because no data were available in the Louisiana Air Control Commission
(LACC) permit files to indicate otherwise, new growth was assumed to be by
expansion at or near existing facilities. Historically, this has occurred
in the AQMA, based on such limited information as the following:
• The only Kraft pulp mill in the AQMA—
International Paper Company at Cullen—
has expanded its operations in the past
at the present site.
• Three foundries--Mid-Continent Steel
Plants #1 and #2, and Hica Corporation--
are located in the same general area in
Shreveport.
• Western Electric Company has expanded
its operations several times at an
existing location.
• Two new sources to be started in 1978 by
the Atlas Processing Company—a petroleum
refinery—will be at the existing plant.
19
-------
Consequently, the only true allocation procedures used were for area sources
as discussed below.
The allocation technique used for area sources was based on two
factors:
1. The most solid data available for appor-
tionment of area sources were the 1970
census data based on census tracts for
the Shreveport Standard Metropolitan
(9)
Statistical Area (SMSA). '
2. Both the IPP diffusion model and AQDM
model area sources as virtual point
sources and not by an area integration
technique.
The most accurate means of allocating the area emissions to subareas using
population data is, of course, to use the census tracts directly. The
primary question remaining is whether such irregularly-shaped subareas can
be used for diffusion modeling.
Past use and careful study of both IPP and AQDM have shown that
neither model places any constraints whatsoever on the shape of the area
sources. The only requirements for defining an area source are: the area;
a pair of UTM coordinates for locating the source; an average stack height;
and the emission rate. The area of census tracts can be determined easily
by the use of a planimeter and census tract map. For AQDM, the center
(centroid for irregular areas) is used to define the location. However,
IPP requires a pair of coordinates equivalent to the lower left hand corner
of a square grid.
2
For a square grid of area A , the location of the lower left hand
corner is displaced from its center (X, Y) by an amount - A/2 in both the
x and y directions. Thus, the coordinates of this corner (X1, Y1) can be
expressed as:
20
-------
X' = X - A/2 (1)
Y1 = Y - A/2. (2)
If this technique is applied to a non-square area, the area has been con-
verted to an equivalent square grid for IPP purposes.
Based on the above analysis, the procedure used for distributing
the parish total particulate matter emissions to census tracts was as
follows:
1. Allocate the parish emissions to the
census tracts by population.
2. Measure the areas of the census tracts
on the census map, and determine the
coordinates of the centroid either by
estimation or by the gravitational
technique, as the shape of the area
dictates.
3. Convert the centroid coordinates to
those of the lower left hand corner
of an equivalent square grid by means
of equations 1 and 2.
This technique has several advantages over conventional area source gridding
when IPP or AQDM are to be used:
• The apportioning factors are used directly
in the form in which they are collected
without the inherent inaccuracies of
gridding them.
• The amount of work involved is reduced a
great deal.
t Since the diffusion programs compute area
sources as virtual point sources located
21
-------
upwind of the area center, there is no
apparent effect on the results, whether
the sources are gridded or not.
t An additional advantage when one uses
census tracts as the subareas is that the
tract area is usually smaller for densely
populated areas than for more rural areas.
This increases the modeling accuracy in
the urban areas.
The basic data used for area source allocation are presented (Table 7).
(The coordinates given in the source files [Appendix A] have been trans-
posed.) As stated in the table footnote, Webster Parish was not part of the
SMSA, so the emissions there were allocated by dividing the area into three
subareas and apportioning them by area.
3.3 EMISSIONS PROJECTION
Area source emissions were projected by population as discussed
in Section 2.0. No emission controls were assumed to be applied to these
sources, so the projection factors (Table 5) can be applied directly.
However, point source emissions can be impacted by new source performance
standards (NSPS), state compliance actions, or by growth. Consequently, a
more complex procedure must be used to project point source emissions to
account for these other factors.
The supplement to Volume 13 of the EPA air quality maintenance
fo\
planning and analysis series provides a useful equation for estimating
future point source emissions.* For the Shreveport AQMA, three assumptions
were made which allowed some simplification of this equation:
*
Equation 1, page 2, of the supplement.
22
-------
TABLE 7. AREA SOURCE ALLOCATION DATA
Census Tract
Bossier City
102
103
104
105
106
107
108.01
108.02
109
Shreveport
101
201
202
203
204
205
206
207
208
•209
210
211.
212
213
214
215
216
217
Area3
(km.2) .
1.531
1.114
3.202
3.202
16.240
4.130
2.877
19.442
82.467
0.835
0.650
2.366
0.464
1.531
4.733
1.392
1 .392
0.928
0.928
1.902
1.299
1.995
3.666
1.392
2.181
2.320
2.830
Centroid
X
431.5
431.8
431.1
432.8
435.1
434.7
433.5
437.2
450.1
433.3
429.6
430.7
429.6
429.0
428.3
427.9
427.6
428.2
428.9
429.5
430.8
430.8
432.4
433.4
431.4
429.8
427.8
(km.)
Y
3597.4
3598.4
3598.9
3600.9
3600.2
3597.3
3596.5
3593.1
3592.2
3595.1
3597.2
3596.6
3596.2
3597.4
3599.7
3597.4
3596.7
3595.8
3596.0
3595.0
3595.5
3594.5
3595.5
3594.6
3593.2
3593.2
3593.3
Population
1,698
2,304
2,647
4,077
7,305
7,412
4,130
8,889
4,395
250
616
1,306
1,538
4,228
3,460
3,324
5,250
3,335
2,786
3,139
3,509
5,105
4,866
2,294
3,022
4,516
3,236
Fractional
Population
0.0267
0.0362
0.0416
0.0640
0.1147
0.1164
0.0648
0.1395
0.0690
0.0039
0.0027
0.0057
0.0067
0.0184
0.0150
0.0144
0.0228
0.0145
0.0121
0.0136
0.0152
0.0222
0.0211
0.0100
0.0131
0.0196
0.0141
(Continued)
23
-------
TABLE 7. (Continued)
Census Tract
Shreveport (Cont.)
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
241.01
244
246
247
Area3
(km.2) .
2.738
1.253
1.763
3.805
7.934
2.784
3.202
2.738
3.341
1.763
2.877
1.810
4.037
2.413
1.624
3.294
5.197
9.744
2.459
5.150
4.501
40.275
39.486
26.541
41.574
8.770
Centroid
X
427.9
427.3
426.1
425.6
423.6
425.8
426.2
428.0
430.0
431.6
432.8
433.6
432.7
430.6
429.3
427.8
425.8
423.3
423.3
428.1
430.4
433.4
424.4
420.4
424.0
425.9
(km.)
Y
3594.5
3595.6
3596.5
3595.3
3593.3
3593.7
3591.9
3592.8
3591.7
3591.8
3592.1
3592.3
3590.4
3590.0
3590.1
3590.3
3589.8
3590.1
3591.6
3588.6
3588.2
3586.8
3585.6
3593.6
3601.7
3605.0
Population
2,445
4,338
3,833
6,839
4,677
4,217
5,097
7,103
3,858
3,082
5,013
3,316
4,422
2,067
3,076
4,327
7,143
7,570
5,032
7,143
7,445
4,945
17,278
2,628
10,030
2,325
Fractional
Population
0.0106
0.0188
0.0167
0.0297
0.0203
0.0183
0.0221
0.0309
0.0168
0.0134
0.0218
0.0144
0.0192
0.0090
0.0134
0.0188
0.0310
0.0329
0.0219
0.0310
0.0323
0.0215
0.0751
0.0114
0.0436
0.0101
(Continued)
24
-------
TABLE 7. (Continued)
Census Tract
Bossier Parish
110
111
112
Caddo Parish
240
241.02
242
243
245
248
249
250
251
Webster Parish0
301
302
303
Area3
(km.2) '
454.377
651.651
881.265
216.678
42.042
370.293
236.082
355.740
252.252
337.953
9.702
291.060
475.830
459.969
659.631
Centroid
X
451.3
446.9
438.6
443.3
424. .3
412.7
410.1
413.4
420.7
409.0
407.8
418.1
471.3
470.4
465.5
(km.)
Y
3585.8
3612.9
3638.5
3577.2
3579.9
3575.5
3591.1
3610.2
3618.5
3633.3
3637.6
3642.3
3595.7
3614.0
3638.0
Population
3,558
10,367
6,671
2,464
1,855
4,394
5,872
7,858
2,403
3,220
4,046
3,293
—
—
Fractional
Population
0.0559
0.1626
0.1047
0.0107
0.0081
0.0191
0.0255
0.0341
0.0104
0.0140
0.0176
0.0143
—
—
These areas were determined by means of a planimeter, the census tract map
of the Shreveport SMSA and a set of U.S. Geological Survey maps of north-
western Louisiana.
Population data were taken from "1970 Census of Population and Housing-Tgx
Census Tracts, Shreveport, La., Standard Metropolitan Statistical Area"1 '.
°No census tract data were available for Webster Parish, which is not part
of the SMSA. Consequently, the emissions were apportioned by area, not
population.
25
-------
1. All sources were operating at full
capacity in 1975, and all growth would
be due to new or modified sources.
2. The growth rates were linear over the
projection period.
3. Sources which had emission rates in
1975 which were less than an applicable
NSPS would maintain this level of con-
trol on any growth.
With these assumptions, the subject equation may be written as:
E = EQ
{l + [f-l][l-(Cn)(f)]} (3)
where: E = projected emissions
E = base year emissions
f = growth factor
C = fractional effectiveness of NSPS
Y = number of years NSPS is in effect during period
Y. = total years in period.
The data for applying the equation are found in Section 2.0 and in the 1975
source file in Appendix A. Note that the fractional effectiveness of an
NSPS is not the fractional efficiency, but is defined by equation 4:
r = J?
L
R -R
_ _
100-R
where: R = NSPS required control efficiency
R = existing control efficiency.
26
-------
Note also that the base year for application of the equation is
the 1975 baseline year or the projection year--1980 or 1985--preceding the
year of first application of the NSPS. For example, if a performance
standard initially becomes effective in 1983, then the base year is 1980
for both 1985 and 1995 projections.
Under some conditions equation 3 can be greatly simplified. For
example, if the standard applies over the full projection period, the
equation becomes:
E = E0[l + (f-D(l-Cn)] (5)
.If there is no change in the level 'Of control, the result is:
E = EQf (6)
The latter case was true for many of the sources in the AQMA.
Two final assumptions were made in making point source projec-
tions:
1. New source performance standards becoming
effective in 1978 and 1979 would have
their full impact on affected sources,
because a search of the LACC permit files
indicated that no such sources would
commence operation prior to these years.
Consequently, all projected growth must
take place after the standards take
effect.
2. Growth of electricity generation would be
based on oil. This is simply to add some
conservatism to the projection since the
current situation with regard to fuel
type is unclear.
27
-------
The results of using the preceding projection technique are reflected in
the source files for 1980, 1985, and 1995 in Appendix A.
Prior to using any projection technique, a thorough search of the
LACC permit files was made to find any planned changes by existing sources
or applications for new sources.* Only two new sources were found, both of
which were located at the existing site of Atlas Processing Company. They
were to commence operation in mid-year 1978. All other sources were pro-
jected by means of the projection equations.
3.4 AIR QUALITY MODELING
The diffusion model chosen for the analysis was the air pollution
concentration segment of the Implementation Planning Program. It is func-
tionally equivalent to the Air Quality Display Model, recommended for air
quality maintenance analysis by EPA. However, IPP offers more flexibility
than AQDM with regard to both input and output data. The model is thor-
oughly described elsewhere^ ' and only brief comments concerning its
operation will be made here. For the most part, the following discussion
emphasizes those points which are specific to the Shreveport analysis.
3.4.1 IPP Input Data
For air quality modeling, IPP is run in two distinct phases:
• An emission source file is created from
the input source data. This file lists
all pertinent source information.
• The above source file is then utilized
with another input data deck to perform
the dispersion analysis.
*
Section 6.0 of the LACC regulations requires permit applications for any
new sources or for any increases in emissions by existing sources.
28
-------
When the source file is created, a unique 12-digit source ID number is
assigned to each individual source. For example, Dresser Minerals, the
first point source in each of the files in Appendix A has the source ID
022144603300, which may be separated as:
022 1446 033 00
where: 022 = the AQCR number
1446 = standard industrial classification (SIC)
code
033 = site number
00 = process code.
The importance of this number is that the second phase of the program
assigns a new number, the source number, to all sources and the source ID
provides a means of conversion from the source file to the diffusion model
outputs.
The other input requirements for IPP are the meteorological data
described in Section 2.0, a receptor network which defines the geographic
points at which concentration estimates are to be made and various param-
eters which define the outputs required.* The receptor network consisted
of a grid of 81 receptor points overlaying the Shreveport-Bossier City area
and 13 individually selected points at population centers in the AQMA. The
grid had the characteristics below:
• 20 km x 20 km
• 9 rows x 9 columns
• 2.5 km spacing between rows and
columns
*
As discussed in Section 2.0, air quality data are needed for the initial
calibration of the model. This point is further discussed in Section 4.0.
29
-------
• Origin-(lower left-hand corner) at UTM
coordinates (418.0, 3583.0)
The complete network is better defined below (Table 8).
TABLE 8. SHREVEPORT AQMA RECEPTOR NETWORK
Site Number (s)
Description
1-81
82
83
84
85
86
87
88
89
90
91
92
93
94
Shreveport Grid
Bickham Bayou Monitor3
Caddo Parish Monitor9
Lucas Station Monitor3
• Minden Monitor
Benton
Cotton Valley
Cullen
Minden
Mooringsport
Oil City
Plain Dealing
Spring Hill
Vivian
aThese monitors are in Shreveport.
3.4.2 IPP Output Data
The IPP diffusion model affords a great deal of flexibility in
the choice of data output, but for the present analysis, the following
were chosen as being especially important:
t Listing of Input Data - abbreviated source
data, the meteorological data, and--for
calibration runs—the correlation data are
tabulated.
30
-------
• Receptor Concentration Table - this is a
listing of the location and pollutant
level at each of the selected receptor
sites.
• Excess Table - this table lists all
receptor sites which exceed a user-
selected air quality standard. The calcu-
lated reductions needed to meet the stan-
dard are also given for all sources and
for point sources alone.
• Statistical Table - this output includes
statistical data for up to twelve user-
selected receptor sites for which esti-
mates of the standard geometric deviation
(SGD) are available, normally monitoring
sites. Concentration estimates for
various averaging periods selected by the
user are produced.
• Source Contribution File - this table
lists contributions (in yg/m and as
percentages) of every emissions source in
the inventory to the air quality at up to
five user-selected receptor sites. This
output is extremely useful in developing
or modifying control programs.
The printouts of all diffusion runs appear in Appendix C, and the
tables are well labeled for easy accessibility. However, a brief discussion
of the source ID-source number issue is in order, to avoid confusion. In
order to convert a source number to a source ID number to determine the
name of the source, do the following:
1. Find the source number in the source
data listing at the beginning of the
diffusion run printout.
31
-------
2. In the first two columns opposite the
source number, note the SIC code and
the site code. (The process code is
not needed.)
3. Since the AQCR number (022) is common to
all sources, the source can be located
in the source file by means of the SIC
code and site code alone.
32
-------
4.0 RESULTS OF ANALYSIS
The detailed results of the diffusion modeling analysis for the
Shreveport AQMA are presented in Appendix B for the model calibration and
in Appendix C for the complete baseline and projection runs. The purpose
of this section is to summarize as succinctly as possible the large volume
of data in these appendices. However, prior to the air quality discussions,
a brief review of the total emissions estimates in each of the analysis
years is presented as an overview of the situation.
4.1 EMISSIONS SUMMARY
The area source emissions, point source emissions and total
emissions are summarized (Table 9); The total emissions increases are
relatively small for a 20-year period and no area-wide problems would be
expected from this growth in the Shreveport AQMA in view of the modest
initial emissions levels. The small degree of emissions increase is
due to a combination of factors:
• Some major sources are impacted by new
source performance standards.
t Ongoing State compliance agreements pro-
duced substantial emissions decreases for
some major sources in 1976.
TABLE 9. PARTICULATE MATTER EMISSIONS SUMMARY FOR THE SHREVEPORT AQMAa
Year
1975
1980
1985
1995
Point
TPD
11.74
12.95
14.80
19.33
Sources
MTPD
10.65
11.75
13.43
17.54
Area
TPD
5.16
5.43
5.77
6.49
Sources
MTPD
4.68
4.93
5.23
5.89
TPD
16.90
18.38
20.57
25.82
Total
MTPD
15.33
16.68
18.66
23.43
aTPD = tons per day; MTPD = metric tons per day
33
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4.2 CALIBRATION AND BASELINE RESULTS
4.2.1 IPP Calibration
The initial attempts at calibration proved unsuccessful. This
was believed to be a consequence of the limited number of monitoring sites
(3) rather than the emissions data base, because the computed regression
coefficient was very high (0.979). However, the requirement for statistical
significance with only three (3) data points is even higher (0.977), and
essentially perfect agreement is required for positive calibration.
Members of the Louisiana Air Control Commission staff provided
data for another monitoring site at Minden, Louisiana, and including this
site in a calibration run with the model resulted in a successful calibra-
tion. Although the computed regression coefficient was essentially
unchanged (0.977), the requirement for significance with four data points
was reduced (0.950). There was virtually no change in the modeled results.
The calibration data are given in Appendix B.*
The calibration analysis indicates a background level of particu-
3
late matter in the AQMA of about 33.9 yg/m annual arithmetic mean or 30.4
yg/m on a geometric mean basis. LACC staff members feel that the "true"
3
background level in this area is about 25 yg/m annual geometric mean so
3
the contribution from uninventoried sources is only ^5 yg/m , a very low
value. This together with the high regression coefficient indicates that
the emissions, air quality, and meteorological data bases are sound.
4.2.2 1975 Baseline Results
The total data output from each of the diffusion analyses was
reduced and summarized by the following procedures:
*
The model generates arithmetic mean values, but these may be approximately
converted to a geometric basis by multiplying by 0.90.
34
-------
• Concentration isopleths were prepared to
graphically portray the geographic
variations in the annual mean participate
matter concentrations for the Shreveport-
Bossier City area.
• Summary tables were prepared which show
the annual average levels at monitoring
sites and population centers. At the
monitoring sites, where estimates of the
standard geometric deviation (SGD) were
available, estimates of the expected
number of violations of the 24-hour
secondary standards for particulate
matter are provided, in addition.
• Tabulations are presented to show the
receptor sites exceeding the annual
secondary standard for particulate matter
and to indicate the major contributors
to the ambient concentrations at those
sites and the extent of their contribu-
tion.
The 1975 Shreveport-Bossier City levels are graphically portrayed
by the isopleths (Figure 2), and, as can be seen, most parts of the metro-
politan area are well below the annual secondary standard. However, a
strong source orientation can be observed near major sources such as the
steel foundry complex near the center of the grid.
The receptor concentration table summary (Table 10) indicates
that, except for two "hot spots" in the Shreveport area (receptor numbers
40 and 83), the AQMA shows annual levels of particulate matter below the
standards. Only grid point 40 is predicted to exceed the annual primary
standard. The only monitoring site where violations of the 24-hour
35
-------
SHREVEPORT
DOWNTOWN V] \z BOSSIER
AIRPORT I I \ - CITY
FIGURE 2. SHREVEPORT-BOSSIER CITY 1975 ANNUAL AVERAGE
PARTICULATE MATTER CONCENTRATIONS
(Annual Arithmetic Mean -• ug/m3)
36
-------
TABLE 10. 1975 MODELED PARTICULATE MATTER CONCENTRATIONS
AT SELECTED RECEPTOR SITES
Receptor
No.
40
41
82
83
84
85
86
87
88 .
89
90
91
92
93
94
—
Receptor Identification
Grid (428.0, 3590. 5)c
Grid (428.0, 3593. 0)c
Bickham Bayou Monitor
Caddo Parish Monitor
Lucas Station Monitor
Minden Monitor
Benton
Cotton Valley
Cullen
Minden
Mooringsport
Oil City
Plain Dealing
Spring Hill
Vivian
Secondary Standard
Annual Average
Ma
86.4
60.1
40.2
78.2
38.1
35.4
38.2
35.9
43.9
35.6
44.8
37.4
51.6
46.3
36.8
67.0
(yg/m3)3
Mg
77.5
53.9
36.1
69.3
36.5
30.3
34.3
32.2
39.4
32.0
40.2
33.6
46.3
41.6
33.0
60.0
24-Hourb
Violations
N/A
N/A
0
3
0
0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
150
Abbreviations: M = arithmetic mean; M = geometric mean.
.9
This estimate can be made only at locations where monitoring data are
available.
cThe numbers in parentheses are the X and Y UTM coordinates, respectively.
37
-------
secondary standard are predicted is the Caddo Parish Health Unit, where
three violations would be expected.*
Sources which were found to contribute more than 1 percent to the
levels of particulate matter at any monitoring site where a violation of an
annual standard is predicted are identified (Table 11). The principal con-
tributors to sites 40 and 83 in 1975 are listed (Table 12). A very reveal-
ing aspect of these data is that there is only one highly dominant source
impacting each site. This indicates a marked source orientation at these
receptor sites.
TABLE 11. ABBREVIATED SOURCE IDENTIFICATION LIST9
1975
2
4
29
45
46
47
48
54
85
93
101
Source No.
Projections
2
4
29
47
48
49
50
56
87
95
103
Description of Source
Shreveport Grain & Elevatoi — Feed Rolling
Kroehler Manufacturing Co. —Wood Waste Boiler
Swift Agricultural Chemical Co.— Materials Handling
Hica Corporation— Electric Arc Furnace
Mid-Continent Steel —Electric Arc Furnace
Mid-Continent Steel— Electric Arc Furnace
Mid-Continent Steel --Electric Arc Furnace
Shreveport Municipal Incinerator
Area Source 217
Area Source 225
Area Source 233
Only those sources contributing more than 1 percent to the levels of
particulate matter at receptor sites showing a predicted violation of
the annual secondary standard are listed.
3Because of the manner in which IPP orders the source input data, the
addition of two new sources in 1977 caused the indicated changes in
the source numbers.
Four violations actually occurred (Table 3).
3.8
-------
TABLE 12. MAJOR CONTRIBUTORS TO AMBIENT PARTICULATE LEVELS
AT SITES SHOWING VIOLATIONS IN 1975a
Site
No.
40 Source No.
3
yg/m
X
83 Source No.
yg/m
%
Sources Contributing >1X to
. Suspended Partlculate Levels
2 45
1.0 1.2
1.2 1.4
4 29
1.3 26.3
1.6 33.7
46
34.3
39.6
46
3.9
5.0
47
2.7
3.1
47
1.2
1.6
48
4.1
4.8
48
1.9
2.4
54
2.3
2.7
85
0.8
1.0
101
1,0
1.1
93
1.1
1.5
Total
...
46.6
53.9
...
36.5
46.8
The contributions In micrograms per cubic meter are based on the annual
arithmetic averages, not geometric averages. The percentage contributions
are the same for either average at a given site.
4.3
PROJECTED AIR QUALITY IN 1980
The same procedures used for summarizing 1975 levels of particu-
late matter in the AQMA were used in 1980. Consequently, only a few brief
remarks are presented:
1. The concentration contours for 1980
(Figure 3) show marked differences from
those for 1975. The high levels of
particulate matter noted in 1975 at the
lower center of the grid have been con-
siderably reduced, a consequence of a
substantial control program implemented
at some Mid-Continent Steel electric
arc furnaces.
2. The 1980 receptor concentration data
(Table 13) reflect the successful con-
trol programs mentioned above. Only
the Caddo Parish Health Unit monitor
(receptor no. 83) is expected to
39
-------
< WREVEPORT
\ RtGIONAL
FIGURE 3. SHREVEPORT-BOSSIER CITY 1980 ANNUAL AVERAGE
PARTICULATE MATTER CONCENTRATIONS
(Annual Arithmetic Mean -
-------
TABLE 13. 1980 PROJECTED PARTICULATE MATTER CONCENTRATIONS
AT SELECTED RECEPTOR SITES
Receptor
No.
40
41
82
83
84
85
86
87
88
89
90
91
92
93
94
—
Annual Average (yg/m )a
Receptor Identification
Grid (428.0, 3590. 5)c
Grid (428.0, 3593. 0)C
Bickham Bayou Monitor
Caddo Parish Monitor
Lucas Station Monitor
Minden Monitor
Benton
Cotton Valley
Cullen
Minden
Mooringsport
Oil City
Plain Dealing
Spring Hill
Vivian
Secondary Standard
Ma
47.2
52.3
38.9
72.1
38.2
35.6
38.7
36.4
45.0
35.9
47.0
37.6
54.2
48.7
36.9
67.0
M
g
42.4
47.0
34.9
63.9
36.6
30.5
34.8
32.7
40.5
32.3
42.3
33.8
48.7
43.8
33.2
60.0
24-Hourb
Violations
N/A
N/A
0
3
0
0
0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
150
Abbreviations: M^ = arithmetic mean; M = geometric mean.
a 9
This estimate can be made only at locations where monitoring data are
available.
°The numbers in parentheses are the X and Y UTM coordinates, respectively.
41
-------
violate any standards for particulate
matter. The site is predicted to exceed
the annual secondary standard and to
exhibit 3 excursions above the 24-hour
secondary standard. No violations of
any primary standards for particulate
matter are expected.
3. The source contribution data (Table 14)
indicate that the strong source orienta-
tion noted at site no. 40 is no longer
present. The Caddo Parish Health Unit
monitor (site no. 83) now is impacted
significantly by only one source.
TABLE 14. MAJOR CONTRIBUTORS TO 1980 AMBIENT PARTICULATE LEVELS
AT SITES SHOWING VIOLATIONS IN 1975a
Site
No.
40 Source No.
yg/m
%
83 Source No.
yg/m
°/
h
Sources Contributing >1% to 1975
Suspended Particulate Levels
2 47
1.1 1.4
2.3 2.9
4 29
1.8 25.8
2.4 35.8
48
0.05
0.1
48
0.0
0.0
49
0.06
0.1
49
0.0
0.0
50
0.08
0.2
50
0.0
0.0
56
2.6
5.6
87
0.8
1.1
103
1.0
2.1
95
1.2
1.6
Total
6.3
13.3
29.6
40.9
The contributions in micrograms per cubic meter are based on the annual
arithmetic averages, not geometric averages. The percentage contributions
are the same for either average.
Because of the addition in 1977 of two new sources following source No. 34
in the source file, source No.'s 35 through 123 were increased by 2 in the
years 1980, 1985, and 1995.
In summary, particulate matter concentrations in 1980, show considerable
improvements over 1975 concentrations in the Shreveport AQMA. The major
improvements occur precisely where they are most needed, at the 1975 "hot
spots."
42
-------
4.4 PROJECTED AIR QUALITY IN 1985
Concentrations of particulate matter in 1985 in the AQMA are
expected to show only minor changes from the levels predicted in 1980.
The changes are briefly summarized as follows:
1. The concentration isopleths (Figure 4)
differ from those of 1980 only in a
slight broadening of the contour lines.
The levels are well below the standards
except for one "hot spot" discussed
below.
2. The receptor concentration data for 1985
(Table 15) show slight increases over 1980
levels. Again, only the Caddo Parish Health
Unit monitor (receptor no. 83) is predicted
to show any violations of the ambient stan-
dards for particulate matter. This site is
expected to violate the annual secondary
standard and to show 3 excursions above the
24-hour secondary standard.
3. The source contribution patterns in 1985
(Table 16) are virtually identical to those
in 1980. Only the Caddo Parish Health Unit
site (no. 83) shows any significant source
orientation, and the same source is predomi-
nant.
Only one location, the Caddo Parish Health Unit monitor is
expected to present any particulate matter air quality problems in 1985,
and one source is primarily responsible for these problems. The effects
of economic growth between 1980 and 1985 on levels of particulate matter
in the Shreveport AQMA are relatively insignificant.
43
-------
\
40
FIGURE 4. SHREVEPORT-BOSSIER CITY 1985 ANNUAL AVERAGE
PARTICULATE MATTER CONCENTRATIONS
(Annual Arithmetic Mean •
44
-------
TABLE 15. 1985 PROJECTED PARTICULATE MATTER CONCENTRATIONS
AT SELECTED RECEPTOR SITES
Receptor
No.
40
41
82
83
84
85
86
87
88
89
90
91
92
93
94
—
Annual Average
Receptor Identification Ma
a
Grid (428.0, 3590. 5)c
Grid (428.0, 3593. 0)c
Bickham Bayou Monitor
Caddo Parish Monitor
Lucas Station Monitor
Minden Monitor
Benton
Cotton Valley
Cullen
Minden
Mooringsport
Oil City
Plain Dealing
Spring Hill
Vivian
Secondary Standard
48.1
53.9
39.3
74.5
38.6
35.8
39.1
36.6
46.5
36.2
49.5
38.0
56.2
50.7
37.2
67.0
(yq/m3)a
24-Hourb
M Violations
43.2
48.5
35.2
66.1
36.9
30.6
35.1
32.9
41.8
32.5
44.5
34.2
50.5
45.6
33.4
60.0
N/A
N/A
0
3
0
0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
150
Abbreviations: M = arithmetic mean; M = geometric mean.
a g
This estimate can be made only at locations where monitoring data
available.
c
.
. V -«J V IITM ~~~:,J-
are
45
-------
TABLE 16. MAJOR CONTRIBUTORS TO 1985 AMBIENT PARTICULATE LEVELS
AT SITES SHOWING VIOLATIONS IN 19753
Site
No.
40
83
Sources Contributing >13> to 1975
Suspended Particulate Levels
Source No. 2 47
pg/m3 1.1 1.6
% 2.2 3.2
Source No. 4 29
pg/m3 2.1 27.1
% 2.8 36.3
48
0.1
0.1
48
0.0
0.0
49
0.1
0.1
49
0.0
0.0
50
0.1
0.2
50
0.0
0.0
56
2.6
5.5
87
0.9
1.1
103
1.1
2.2
95
1.2
1.7
Total
...
6.70
13.50
31.3
41.9
The contributions in micrograms per cubic meter are based on the annual
arithmetic averages, not geometric averages. The percentage contributions
are the same for either average.
Because of the addition in 1977 of two new sources following source No. 34
in the source file, source No.'s 35 through 123 were increased by 2 in the
years 1980, 1985, and 1995.
4.5 PROJECTED AIR QUALITY IN 1995
As would be expected, the 10-year period 1985-1995 shows greater
air quality effects from economic growth than does the preceding 5-year
interval. The increases in levels of particulate matter over the AQMA are
still small, however, and they may be summarized as follows:
1. As the isopleths (Figure 5) indicate, no
major changes from 1985 have occurred, but
the contours have expanded somewhat indi-
cating generally increased levels of partic-
ulate matter in the Shreveport area.
2. The 1995 receptor concentration data (Table
17) show small increases in particulate
matter concentrations over 1985 levels, but
only one site, the Caddo Parish Health Unit
(receptor no. 83) is expected to violate any
46
-------
FIGURE 5. SHREVEPORT-BOSSIER CITY 1995 ANNUAL AVERAGE
PARTICULATE MATTER CONCENTRATIONS
f\
(Annual Arithmetic Mean - yg/mj)
47
-------
TABLE 17. 1995 PROJECTED PARTICULATE MATTER CONCENTRATIONS
AT SELECTED RECEPTOR SITES
Receptor
No.
40
41
82
83
84
85
86
87
88
89
90
91
92
93
94
—
Annual Average (yq/m )a
Receptor Identification
Grid (428.0, 3590. 5)c
Grid (428.0, 3593. 0)c
Bickham Bayou Monitor
Caddo Parish Monitor
Lucas Station Monitor
Minden Monitor
Benton
Cotton Valley
Cullen
Minden
Mooringsport
Oil City
Plain Dealing
Spring Hill
Vivian
Secondary Standard
Ma
50.2
57.8
40.3
80.7
39.4
36.3
40.1
37.3
50.5
36.8
56.2
39.0
61.0
56.1
38.0
67.0
H9
45.1
52.0
36.1
71.6
37.7
31.0
36.1
33.5
45.4
33.1
50.5
35.1
54.8
50.4
34.2
60.0
24-Hourb
Violations
N/A
N/A
0
4
0
0
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
150
Abbreviations: M, = arithmetic mean; Mn = geometric mean.
a g
This estimate can be made only at locations where monitoring data are
available.
cThe numbers in parentheses are the X and Y UTM coordinates, respectively.
48
-------
3.
ambient standards for this pollutant.
This location is predicted to exceed the
annual secondary standard and to show 4
violations of .the 24-hour secondary standard.
Only the Caddo Parish Health Unit site (no.
83) shows any significant source orientation,
and the same source noted in the preceding
analysis years is predominant (Table 18).
TABLE 18. MAJOR CONTRIBUTORS TO 1995 AMBIENT PARTICULATE LEVELS
AT SITES SHOWING VIOLATIONS IN 1975a
Site
No.
40
83
SOURCES CONTRIBUTING >1% TO 1975
Suspended Parti cul ate Levels
Source No.
yg/m
%
Source No.
yg/m
%
2 47
1.1 2.1
2.1 4.1
4 29
3.0 30.4
3.7 37.7
48
0.1
0.2
48
0.0
0.0
49
0.1
0.2
49
0.0
0.0
50
0.1
0.2
50
0.0
0.0
56
2.7
5.3
87
0.9
1.2
103
1.2
2.4
95
1.4
1.7
Total
...
7.4
14.5 .
35.7
44.3
The contributions in micrograms per cubic meter are based on the annual
arithmetic averages, not geometric averages. The percentage contributions
are the same for either average.
Because of the addition in 1977 of two new sources following source No. 34
in the source file, source No.'s 35 through 123 were increased by 2 in the
years 1980, 1985, and 1995.
As was true in the previous projection years, 1980 and 1985,
economic growth has only small effects on projected ambient levels of
particulate matter in 1995. Control of a single source should allow the
Shreveport AQMA to attain and maintain all ambient standards for particu-
late matter through the year 1995 and beyond.
49
-------
5.0 CONCLUSIONS AND RECOMMENDATIONS
The material in this section is based on the results of the
Shreveport AQMA dispersion analysis presented and discussed in Section 4.0.
Consequently, if a more in-depth understanding of the basis for the con-
clusions and recommendations is needed, reference should be made to the
latter section. The excellent calibration results, the good agreement of
predicted air quality levels with monitoring results, and the small esti-
mated contribution from uninventoried sources lend considerable validity
to the 1975 baseline results. However, the projection analyses—particu-
larly those beyond 1980--are based largely on expected occurrences,
extrapolated from past trends. Consequently, the future predictions of
ambient particulate matter concentrations should be considered as indicative
values to be used for planning purposes not as absolute values to be used
for exact specification of emission control requirements.
5.1 CONCLUSIONS
The major conclusions drawn from a review of the diffusion model-
ing results are as follows:
1. With few exceptions, the particulate
matter concentrations in the Shreveport
AQMA were quite low in 1975 and they are
expected to remain below the secondary
standards through the year 1995.
2. In 1975, violations of the ambient stan-
dards for particulate matter were predicted
at two locations in the AQMA. However,
because of major improvements in some large
sources during 1976, only one site, the
Caddo Parish Health Unit, is expected to
vtolate any standards in later years.
50
-------
3. All receptor sites at which violations
occur show a high degree of source
orientation, and the sources which
contribute most highly to the elevated
levels of particulate matter had little
or no control equipment in 1975. All
but one of these sources implemented
major emission control improvements
in 1976.
4. An increased level of emission control
by only one source should eliminate
any current particulate matter air
quality problems in the AQMA and alle-
viate any future air quality problems
through the year 1995.
The only source for which additional emission controls appear to be neces-
sary in order to attain and maintain the NAAQS's for particulate matter is
the Swift Agricultural Chemical Company, a manufacturer of mixed fertilizers,
Improvements appear to be in order for both the chemical processing opera-
tions and in the solid materials handling areas.
5.2 RECOMMENDATIONS
Based on the preceding conclusions and a detailed air quality
dispersion analysis of the Shreveport AQMA, which is summarized in Section
4.0, the recommendations of this study are:
1. The designation of the Shreveport area
as an air quality maintenance area
should be withdrawn. The high particu-
late matter levels observed in 1975 at
two locations within the City of Shreve-
port were highly source oriented, and all
51
-------
but one of the responsible sources have
been properly controlled since that time.
2. Action should be taken to ensure emission
reductions by'the responsible source which
will be adequate for the attainment and
maintenance of all applicable ambient
standards for particulate matter.
Based on the results given in Tables 17 and 18 (Section 4.0), the
Swift Agricultural Chemical Company plant in Shreveport, should reduce its
emissions of particulate matter by about forty-five percent (45%) to enable
the attainment and maintenance of the particulate matter air quality stan-
dards in the AQMA. Because of the .assumptions made in projecting future
air quality levels, some safety factor should be provided in setting the
final control requirements for this source.
52
-------
REFERENCES
1. Anonymous. Guidelines for Air Quality Maintenance Planning and
Analysis Volume 1: Designation of Air Quality Maintenance Areas.
EPA-450/4-74-001, U.S.* Environmental Protection Agency, Research
Triangle Park, North Carolina, September 1974. 103 pp.
2. Anonymous. Proposed Designation of Air Quality Maintenance Areas
for Louisiana - Background Material and Rationale. Prepared
Statement, U.S. Environmental Protection Agency, Region VI, Dallas,
Texas, 1974. 13 pp.
3. Anonymous. Summary of Designations of AQMAs - Louisiana. Prepared
Statement, U.S. Environmental Protection Agency, Region VI, Dallas,
Texas, 1974. 10 pp.
4. Various authors. Guidelines for Air Quality Maintenance Planning
and Analysis Volumes 1-14. U.S. Environmental Protection Agency,
Office of Air Quality Planning and Standards, Research Triangle
Park, North Carolina, 1974-75.
5. Various authors. Compilation of Air Pollutant Emission Factors,
2nd ed., 3rd printing with Supplements 1-5. AP-42, U.S. Environ-
mental Protection Agency, Research Triangle Park, North Carolina,
February 1976.
6. Holzworth, G. C. Mixing Heights, Wind Speeds and Potential for
Urban Air Pollution in the Contiguous United States. AP-101, U.S.
Environmental Protection Agency, Research Triangle Park, North
Carolina, 1972.
7. Trott, E. A., Jr., L. Spatz, E. R. Janisch, and T. Anton. Projections
of Economic Activity for Air Quality Control Regions. U.S. Environ-
mental Protection Agency, Research Triangle Park, North Carolina,
August 1973.
8. Sanchez, David, and John Silvasi. Accounting for New Source Perfor-
mance Standards in Projecting and Allocating Emissions - Hypothetical
Example, Supplement No. 1 to reference no. 4, Volume 13: Allocating
Projected Emissions to Subcounty Areas. EPA-450/4-74-014-b, U.S.
Environmental Protection Agency, Research Triangle Park, North
Carolina, October 1975. 39 pp.
9. Miller, H. P., A. F. Young, et. al. 1970 Census of Population and
Housing, Census Tracts, Shreveport, La., Standard Metropolitan
Statistical Area. PHC(1)-197, U.S. Bureau of the Census, Washington,
D.C., March 1972.
10. TRW Systems Group. Air Quality Implementation Planning Program
Volume I: Operator's Manual. APTD-0640, U.S. Environmental
Protection Agency, Research Triangle Park, North Carolina,
November 1970.
53
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
54
-------
APPENDIX A
EMISSION SOURCE FILE COMPUTER PRINTOUTS
55
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
56
-------
A.I 1975 BASELINE
57
-------
SOURCE FILE FOR SHREVEPQRT REGION 22.
CREATE DATE MAY 25.1977 UPDATE OAlE
OUIPL I UNITS
S3UKCI 10 DISC* It'll VI t.AHE LUC X LUC T PJ OWNER ITPfc SG2EMRAT PARTEMRT OP TIHE SHIFTS S02CONEFF PARTCONtFF DEVICE IB
----- _-____-_ KM KM — - - TONS/DAY TONS/OAT HRS/YR X X —
RAUL CAPCIY COAL Ht»I K UlLHtAl U OILHEAI GASHEAl COALfaRM K OILBRN D OUBKN GAS BRN CbALSC R OILSC D OILSC GAS SC COAL ASM
DTI/HOUR BTU/IOh BTU/GAl blU/GAL blU/CU FT TON/DAT GAL/OAT GAL/DA Y CU FT/DAY X X X Z X
STACK HEIGHT SI*CK UK.PtkalUKl PLUME RISE MAX 1-ROCtSS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
MIEkS ijEG K M SSR/SEC IB/HK ACFM METERS M/SEC
PU1NI SOURCES
SJUkCE Ib DESCRIPTIVE NitU LGC X LJC Y PJ LJNtR TYPE SU2EMRAT PARTEMRT OP TIME SHIFTS S32CONEFF PARTCONEFF DEVICE ID
0221*27.7 J5VC.7 02 P P .000 .011 229& 1.1 .0 .00
RAUL CAFCTV CUAL HtAl rv 01L .U A I D JILHEAT GASHEAT CUALBKM R OILBRN 0 OILBKN GAS BRN COALSC R QILSC D OILSC GAS SC COAL ASH
•»G.3t OGOE*V? *J.OCGE* OESCR1PIIVE NAME LUC X LOC Y PJ UWNER TYPE S02EHRAI PARTtMRT OP TINE SHIFTS S02COMEFF PARICONEFF DEVICE 10
0222*2130101 ANTHONY FUkEST PRODUCTS *3*.5 3b*0.8 01 P P .000 .025 1960 1.0 .0 .00
RATED CAPCIT CUAL HEAI R LIUHEAI o OILHEAI GASHEAI CQALBRN K QILBRN o QILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
+C.OCGQCE+*9 *O.COOE**7 «O.OCCOE«*8 *O.OOOOE«',b 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.000 296.012 .000 3 0 .00000 .0000 1.00
S3UKCE ll DESCRIPTIVE I*AME IOC X LOC Y PJ OMNEK IYPE SU2EMRAT PARIEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0222*2b013Ce KRUEHLER HFG. CU. *28.0 3S90.6 02 P B .000 .170 18BO 1.0 .0 .00
RATED CAPCTY CUAL HEAT » UILHEAT o QILHEAT GASHEAT COALBRN R OILBRN o OILBRN GAS BUN COALSC R OILSC o OILSC GAS sc COAL ASH
*O.OOGOOE**<» +Q.OOOE**7 *0.0300E**8 +O.OOOOE»*8 0000 0 .00 .00 .00 .0000 .0
SIACK HEIGHT STACK UMPEkATUtU PLUME RISE MAX PkUCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
27.*32 L16.601 .COO 3 6500 1.52*00 1.8288 1.00
-------
SOURCE ID DESCRIPTIVE NAME IOC X IOC T PJ OH HER 1TPE S02EHRAI PARTfHRT OP TIKE SHIFTS S02COHEFF PARICOMEFF DEVICE It
022243100)01 CADDO DOOR i. VENEER 432.3 3S99.5 01 P P .000 .021 1200 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT o OUHEAT GASHEAT COALBRN R OILBRN o OUBRN GAS BRN COALSC R OILSC o ousc CAS sc COAL ASM
*O.OOCOOE«49 «O.OOOE«47 «O.OOOOE»48 *O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.096 394,.200 .000 0 3500 .60960 5.7912 1.00
SOUfcCE ID DESCRIPTIVE NAME LOC X LUC T PJ CMNER ITPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022243505001 WOODWARD-WALKER CO. 471.5 3606.5 03 P P .000 .038 6000 3.0 .0 .00
RATED CAPCIY COAL HEAT R UUHEAT 0 OUHEAT GASHEAl COALBRN R OILBRN 0 OILBRN GAS BRN CDALSC R OILSC 0 OILSC GAS SC COAL ASM
«0.300001*49 «D.GOOE*47 «O.COOOE«48 +O.OOCOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIANETER STACK VEtOC USE FACT
9.144 298.012 .000 0 21600 1.21920 8.8392 1.00
SDURCE 10 DESCRIPTIVE NAME LUC X LUC T PJ CMNER TYPE S02EHRAT PARTENRI OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103400 INTERNATIONAL PAPEH CO. 457.3 3648.1 03 H 6 .000 1.184 8760 3.0 .0 .00
V? RATED CAPCTT COAL HEAT R OUHEAT D OILHEAl GASHEAl COALBRN R OUBtiN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASM
»O.OOGOOE«49 +3.000E»47 *O.COOOt«46 *C.OOOCE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
76.200 402.540 .000 J 307100 6.09600 4.876B 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC 1 PJ OriNER TTPE S02EHRAT PARIEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
022262103504 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 1.005 8760 3.0 .0 .00
RATED CAPCIY COAL HE*I K OILHEAT D OILHEAT GASHEAT COALBMN R OILBRN D OILBRN GAS BRN COALSC R OILSC o OILSC GAS SC COAL ASH
*0.00(.30E«49 *O.OOOE*47 «C.OCCOE»4B »O.OOCOE«48 0300 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TErtPEKAlURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
76.504 429.22B .000 3 214000 2.71272 17.6784 1.00
SOURCE 1C DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103604 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .085 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OllHLAT D OILHEAl GASHEAT COALBRN R OILBRN 0 OUBRN GAS BRN COALSC R OILSC D OILSC 6AS SC COAL ASH
«O.OCCCOE +4V «O.OOOE*47 -»O.COOOE«4b «C.OOOOE*4B 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
65.532 346.940 .000 0 8200 1.21920 4.5720 1.00
-------
SOURCE 10 DESCRIPTIVE MAHE IOC X LUC » ft OMNER ITPE S02ENRAI PARTENRT OP fIHE SHIFTS SOZCONEFF PAITCBHEFF MWICi tt
•22262103704 INTERNATIONAL PAPER CO. 457.3 3648.1 0} f P .000 .060 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT 0 OIIHEAT GASHEAl COALBRN R D1LBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAl ASH
•O.OCCOOE*49 »O.OOOE*47 »O.OOOOE»48 *O.OOOOE»4b 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAS EXHAUST GAS VOL STACK DIAMETER STACK VELOC OSS f*Ct
(•5.532 338.600 .000 0 33700 1.21920 10.05*4 !••*
SOURCE 1U OESCR1PUVE NAME LOC X LOC Y PJ OUNER TTPE S02EMRAT PARTEHR1 OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103600 INTERNATIONAL PAPER CD. 457.3 3648.1 03 P B .000 .942 8760 3.0 .0 .00
RATED CAPCIT COAL HEAl R OILH£Al D QILHEAl GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASM
*O.OCOOOE«4V »J.OOOE*47 «D.OOCOE»4S »O.OOGCE*4» 0300 0 .CO .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PIUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 561.000 .300 0 129000 1.82880 19.8120 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LUC T PJ OtfNEK ITPE SU2EMRAT PARTEHRT UP TINE SHIFTS S02CONEFF PARICONEFF DEVICE ID
0222621G390U 1NIERNATlUNAL PAPER CO. 457.3 3t>48.1 03 P b .000 1.194 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT o OIIHEAT GASHEAT COALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASM
(7) »O.OOOOOE*49 »O.OOOE*47 »Cl .0000E »<• b *O.OOCOE»48 0000 0 .00 .00 .00 .0000 .0
O
STACK HEK.HT STACK TtMPERAIUKE PLUME RISE MAX PRUCtSS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.52H iol.OOO .000 0 132000 1.82880 18.2880 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER ITPE S02EMRAI PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
022262104000 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .285 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAI o OILHEAI OASHEAI COALBRN R OILBKN o OHBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
•O.OCGCOE*49 +O.OCOL*47 «0.00(CE + 46 «O.OOOCE»<.6 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 561. OCO .COO a 113000 1.82880 17.3736 1.00
SOURCE ID DESCRIPTIVE NAML ICC X LUC T PJ DwNER ITPE SU21MR AT PARTEMRI CP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104100 INTERNAIIUNAL PAPER C Li. 457.3 3646.1 03 P B .000 .145 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAI o OILHEAI GASHEAT CJAIBRM R OILBRN o OILBRN GAS BRN COALSC R OILSC o oiisc GAS sc COAL ASH
«O.OCoOCE«49 O.OOOE«47 »0 .COCO t +4 b «C.0300E*4b 0 3 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK UHPCkATURt PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 561.OOC .000 3 114000 1.82880 17.6784 1.00
-------
SOURCE ID DESCRIPTIVE NAME IOC X IOC T PJ OWNER ITPE S02EHRAI PARTENRI OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0222t>nO*2C-0 INTERNATIONAL PAPEK CO. *57.3 36*8.1 03 P B .000 .356 8760 3.0 .0 .00
RAlEb CAPCII CUAL HkAl k OlLHlAl D OllHtAl GASHEAT COALBRN ft OIL6KN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OCOOOE«*9 *O.COOE«b8.60l, .000 3 167000 1.82880 24.6032 1.00
SOl'KCE ll> D£SC4 1P1 lltt NAME LOC X LQC 1 PJ UHNtR ITPE S02EHRAI PARTEHRI OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02226210*300 1 NT ERNAIIUNAL FAPEk CL. *57.3 36*8.1 03 P B .000 .082 87bO 3.0 .0 .00
RAIED CAPCir CUAL HEAT k UllHtAT 0 OILHEAT GASHEAI COALBRN R OILBRN 0 OILbRK GAS BRN CUALSC R OILSC D OILSC GAS SC COAL ASH
»0.0l UOGE*<.S «C.OCOE»*7 * j .COCC t««i b «C.uOCOt««i6 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK lEHPtkAlURt PLUME RISE HAX PkQCESS RATE HAS EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
3J.!>26 -.^i.360 .000 0 103000 1.82880 19.202* 1.00
SOUHCE ID CESCRlfllVE NAML LUC X LOC T PJ ClriNER TYPE SU2EMRAT PARIEMRI OP TIME SHIFTS SOZCOMEFF PARTCONEFF DEVICE ID
0222(>210 «O.OOCOO[«<,
-------
SOURCE IK DESCRIPTIVE NAME LQC 1 LOC T PJ OWNER TYPE S02EHRAT PARTEMRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE IB
0222621G470G INTERNATIONAL PAPER CO. 457.3 3646.1 01 P B .000 .055 B7bO 1.0 .0 .00
RATED CAPC1Y COAL HUT R UUHtAI 0 OILHEAT GASHEAI COALBRI4 R 01LBRN 0 OILBRN CAS BRN COALSC R OILSC 0 OILSC 6AS SC COAL ASH
+O.OGCO'OE«49 + O.OOOE*47 »O.OOCOE«4b «0.00001*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK IEMPERAIURE
68.580 433.120
SOURCE 10 DESCRIPTIVE NAME
022262104604 INTERNATIONAL PAPER CO
RAIEC CAPCTf COAL HEAT « UUHEAI
«O.OOOOOE«4« »0.000e«47 *G.GOCOE»4&
STACK HEIGHT STACK TEMPtfUTURE
t>!>.532 3b3.b20
SOURCE 10 DESCRIPTIVE NAC.t
02228J90270C UOP PROCESS OIV1S1UN
RATED CAPCTK COAL MEAI R UIIHEAT
CT> «O.OOOCOE*49 »O.OOOE«47 »C.OOOCE»4»
STACK HEloHl STACK TENPEKAluRE
«.446 468.720
SOURCE ID DESCRIPTIVE NAME
022281902860 UOP PROCESS DIVISION
RATED CAPCIY COAL HEAT R UUHEAI
•O.OGCOOE*49 *O.OOOE+47 »O.OOOOE»4B
STACK HEIGHT STACK TEMPERATURE
9.753 488.720
SOURCE ID DESCRIPTIVE NAME
02ZZ81902900 UOP PROCESS DIVISION
RATED CAPCIY COAL HEAT R OUHEAI
*0.6GOOOE*49 *O.GOOE«47 »O.OOGOE«48
STACK HEIGHT STACK IEMPERAIURE
9.753 488.720
PLUME RISE
.000
LOC I LOC
. 457.3 3648
0 01LHEAI
»O.OOOOE*48
PLUME Rl
.000
IOC X LUC
413.4 3b09
D OILHEAT
»O.GOOOE«48
Y
.1
MAX PROCESS
0
PJ OWNER IYPE
03 P P
GASHEAT COALBRN
0 0
SE
Y
.0
MAX PROCESS
0
PJ OWNER TYPE
02 P B
GASHEAT COALBRt
0 0
PLUME RISE
.000
LOC X IOC
413.4 3b09
D Q1LHEAT
»O.OOCOE»46
Y
.0
MAX PROCESS
3
PJ OWNER TYPE
02 P B
GASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X IOC
413.4 3b09
D OILHEAT
»O.OOOOE«48
Y
.0
MAX PROCESS
0
PJ OWNER TYPE
02 P B
GASHEAT CUALBRN
0 3
PLUME RISE
.000
MAX PROCESS
0
RATE MAX
S02EHRAI
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBfcN
0
RATE MAX
S 02 E MR A T
.000
R OILBRN
C
RATE MAX
S02EHRAT
.000
R OIL8RN
0
RATE MAX
EXHAUST
160000
PARIEMRT
.129
0 OILBRN
0
EXHAUST
13000
PARIEMRT
.082
D OILfcMN
0
EXHAUST
10800
PARTENRT
.014
0 OILBRN
C
EXHAUST
10800
PARTEMRT
.082
D OILBRN
0
EXHAUST
10800
GAS
VOL
UP TIME
8760
GAS
GAS
BRN
VOL
OP TIME
8760
GAS
GAS
BRN
VOL
OP TIME
8760
GAS
GAS
BRN
VOL
OP TIME
8760
GAS
GAS
BRN
VOL
STACK DIAMETER
2.40792
SHIF IS
3.0
COALSC
0 .00
S02COMEFF
.0
R OILSC
.00
STACK DIAMETER
1.21920
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
S1ACK DIAMETER
.97536
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
.97536
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
.97536
STACK VELOC
16.1544
PARTCONEFF DEVICE
.00
USE FACT
I. 00
ID
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
5.1816
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
0 OILSC GAS SC COAL ASM
.00 .0000 .0
STACK VELOC
6.7056
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
6.7056
PARICONEFF DEVICE
.00
USE FACT
I. 00
ID
0 OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
6.7056
USE FACT
1.00
-------
SOURCE IU DESCR1PI1VL SAME LOC X LUC Y PJ OWNER TYPE SC2EMRAI PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
0222b 1Y030CC UOP PRJCtSS DIVISION 413. <. 3609.0 02 P B .000 .085 8760 3.0 .0 .00
RATEL CAPCIT CUAL HLAI K OILHIAT c OILHEAT GASHEAT CUALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
«O.CiiCC'C t «s
STACK IthPERAluKf
355.260
DESCRIPI1
PSDCt SS 0
RATED CAPCTT COAL HEAT
CTJ »O.OGCOGE+ 0
PLUME kISE
.000
LOC X LUC Y
413.4 3609.0
MAX
CQALBRN
0
PRUCESS
3
PJ DWNER TYPE
02 P b
D JILHEAT GASHEAT
«O.OOCOE»4b 0
PLUME RISE
.0 JO
MAX
CUALBRM
0
PROCESS
3
RATE MAX
SIJ2EMRAT
.000
R 01LBRN
3
RATE MAX
S 02 E MR AT
.000
R OILBRN
0
RATE MAX
EXHAUST
91600
PARTEHRT
.011
D OILBRN
0
EXHAUST
13300
PARTEMRT
.033
0 OILBRN
0
EXHAUST
1200
GAS VOL
OP TIME
7224
GAS BRN
GAS VOL
OP TIME
8232
GAS BRN
GAS VOL
STACK DIAMETER
3.13944
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK DIAMETER
1.06680
SHIFTS S02CONEFF
3.0 .0
CDALSC R OILSC
0 .00 .00
STACK DIAMETER
.39624
STACK VCLOC USC FACT
5.4864 1.00
PARTCONEFF DEVICE
.00
0 OILSC GAS SC COAl
.00 .0000
ID
ASH
.0
STACK VELOC USE FACT
7.0104 1.00
PARTCONEFF DEVICE
.00
0 OILSC GAS SC COAL
.00 .0000
ID
ASH
.0
STACK VELOC USE FACT
4.5720 1.00
SOUPCt IU DESCRIPTIVE NAME LUC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0222h7402501 SHIFT AG. CHEMICAL CU. 427.8 3593.6 02 P P .000 .022 1840 1.0 .0 .00
RAIEL CAPCIY CUAL HEAI R OILHEAI D UILHEAI GASHEAT CUALBRN R OILDKN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
E*
-------
SOURCE 1C DESCRIPTIVE NAME LOC X LOC T PJ OWNER TYPE S02ENRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022291100600 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .033 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT t> OILHCAI o OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
•O.OCCOOE*49 »O.OOOE»*7 *O.OOOOE»«,8 *O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
1Z.192 588.800
SOURCE ID
022291100700
RATED CAPCTY
*O.OGGOOE«49
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
*O.OOOE«47 «0.0000i«<.8
STACK HEIGHT STACK TEMPERATURE
••5.720 bib. 600
SOURCE ID
022291100800
RATED CAPCTY
•O.OOCOOE»49
DESCRIPTIVE NAME
ATLAS PROCESSING CU.
COAL HEAT R OILHEAT
»O.OOOE«47 »O.OOOOE*48
STACK HEIGHT STACK TEMPERATURE
35.052 627.720
SOURCE ID
022291100900
RATED CAPCTT
»O.OOOOOE*<>9
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
«O.OOOE«
-------
SOURCE 10 DESCRIPTIVE NAME IOC I LOC I fj OMNER WE SOZENRAI PARTENRT OP I1HE SHIFTS S02COMEFF PARICOM.Ff UfllCt ID
02ZZ95100401 SOT COD! AND SONS 429.7 3599.2 Oi P P .000 .010 ZSOO 1.3 .0 .00
• AltO CAPC1Y COAL HEAT R OIIHEAT D 01LHEAT GASHEAT COALBRN R OILIRN 0 OILBRM GAS BRN COALSC R OILSC 0 01LSC CAS SC COAL ASH
*O.OOOOOE*49 «O.OOOE*47 + O.OOOOE«46 »O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE HAI EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
7.315 338.600 .000 0 4SOOO 2.13360 5.7912 1.0*
SOURCE ID DESCRIPTIVE NAME IOC X LOC T PJ OWNER TYPE S02EHRA1 PARTEMRT OP tIHE SHIFTS S02CONEFF PARTCONEFF DEVICE 10
02ZZ95100503 W1NFORO CO. 434.4 3600.0 01 P P .000 .096 2200 1.4 .0 .00
RATED CAPCTY COAL HEAT R QILHEAI o OILHEAI GASHEAT COALBRN R OILBRN o OILBRN CAS BRN COALSC R OILSC o OILSC CAS sc COAL ASH
• O.OOOOOE*49 »O.OOOE+*7 + O.OOGOE«48 *O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAI EXHAUST CAS VOL STACK OIANETER STACK VELOC USE FACT
12.496 349.720 .000 0 42000 1.98120 3.9624 I.M
SOURCE ID DESCRIPTIVE NAHE IOC X IOC T PJ OUNtR TYPE S02ENRAT PARIEMKI OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295104901 MADDEN C3NTXACTING CO. 472.8 3608.4 03 P P .000 .030 1600 1.0 .0 .00
5! RATED CAPCTT COAL HEAT R OUHEAT o OIIHEAT GASHEAT COALBRN R OILBRN o OILBRN CAS BRN COALSC R OILSC o OILSC CAS sc COAL ASH
• O.OOOOOE*49 +O.OOOE*47 »O.OOOOE»48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
9.144 366.400 . .000 0 59500 1.06680 31.3944 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295201000 BIRD t SON INC. 428.2 3599.0 02 P B .000 .041 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R QILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN CAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
»O.OOOOOE*49 +O.OOOE*47 »O.OOOOE»48 «O.OOOOE*48 00 0 0 0 .00 .00 .00 .0000 .0
STACK HE1CHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EIHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACt
13.716 588.800 .000 0 21800 1.21920 8.5144 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0211*2901400 LIBBEV CLASS DIVISION 424.0 3592.7 02 P B .000 .123. 8760 1.0 .0 .00
RA(1D CAPCIT COAL HEAT R OILHEAI D OILHEAI CASHEAT COALBRN R OILBRN 0 OILBRM CAS BRH COALSC R OILSC D OILSC CAS SC COAL ASH
«O.OOOOOE*49 *O.OOOE*47 »O.OOOOE»48 »O.OOOOE»48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
51.340 533.200 .000 0 21500 2.43840 22.86O0 1.00
-------
SOURCE ID DESCRIPTIVE NAHE LOC X LOC T ft OWNER TYPE S02ENRAT PARIEHRT OP TINE SHIFTS S02CONEFF PARICOMCFF DEVICE 10
022)22901500 LI8BET GLASS DIVISION 425.0 3592.7 02 P B .000 .123 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OlLHtAT D OILHEAT GASHEAT COALBRN R 01LBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
«O.OOGOOE+49 *O.OOOE*47 «O.OOOOE*48 +O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEHPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
53.340 533.200 .000 3 21500 2.43840 22.8600 l.OO
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TYPE S02EHRAI PARTEHRT OP TINE SHIFTS S02CONEFF PARTCOHEFF DEVICE ID
022322901600 LIBBT GLASS DIVISION 42*.0 3592.7 02 P B .000 .145 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASM
«O.OOOOOE«49 «O.OOOE*47 «O.OOOOE«48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HE1GH1 STACK TEMPERATURE PLUHE RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
22.660 616.600 .000 0 76500 1.06680 42.6720 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC T PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CDNEFF PARTCONEFF DEVICE ID
022325105401 ATHENS-CADDO BRICK CO. 409.9 3616.9 02 P P .000 .033 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAI o OILHEAI GASHEAT COALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASM
»O.OOOOOE*49 »O.OOOE*47 *O.OOCiCE*48 »O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
CT>
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.096 616.600 .000 3 10500 1.03632 5.7912 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TYPE S02EHRAT PARTENRI OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022325105501 AlHENS-CADDO BRICK CO. 409.9 3616.9 02 P P .000 .026 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBXM R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
»O.OOCOOE«49 *O.OOOE«47 *O.OOOOE*48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEHPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.000 298.012 .000 Q 1200 1.52400 .3048 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC T PJ OWNER TYPE S02EHRAT PARIEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022332301101 HICA CORP. 427.5 3590.6 02 P P .000 .022 4000 2.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAl COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*49 »O.OOOE»47 «O.OOOOE*48 *O.OOOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.010 333.040 .000 0 21900 .60960 35.3568 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOG X LOC T PJ OWNER TTPE S02ENRAI PARTENRT OP HUE SH1FIS S02CONEFF FAKTCONEFF DEVICE 19
022332301201 NIC* CORP. 427.5 3*90.6 02 P P .000 .0*4 2000 1.0 .0 .00
R«1ED CAPCIY COAL HEAT R UILHbAT D 01LHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OUSC 0 OILSC GAS SC COAL ASM
«O.OOCOOE»49 «O.GOOE*47 +O.COOOE*48 «O.OOOOE+48 00 C 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
6.705 298.012
SOURCE ID
0223323C1701
RATED C»PCIY
*O.OCCOOE»49
DESCR 1PTI
M1D-CONIINENT
COAL HEAT
+O.OOOE+47 *0
STACK HEIGHT STACK IE
8.229 380
SOURCE ID
0223323C1601
RATED CAPCTY
»O.OCOOOE*<>9
DESCR 1PI1
MID-CONTINENT
COAL HEAT
»O.COOE»47 «0
STACK HUGH! STACK IE
16.697 356
SOURCE ID
022332301901
RAtED CAPCIY
*O.OOOOCE+
-------
SOUOCt ID DESCRIPTIVE •*« IOC 1 IOC * ft OUNCR WE SOZtMAI WITEHRT OP IIHE SHIFTS S02COMEFF PARTCOBEFF DEVICE IB
022441102200 SU.E.P.C.-ARSEMAl. Hill 415.S 3598.9 02 U 8 .000 .052 8760 3.0 .0 .00
RATED CAPCIt COAL Ht»I R OILHEAT 0 OllHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN CDALSC R OIISC 0 OIISC GAS SC COAL ASH
»O.OOGGOE*49 «O.OOOE««-7 *0.00001*411 «O.QOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VDl STACK DIAMETER STACK VELOC USE FACT
42.672 449.800 .000 0 43400 3.77952 22.5152 1.00
SOURCE 10 DESCRIPTIVE NAME IOC X IDC T PJ UJNtR TTPE S02EHRAT PARTEHM UP I1HE SHIFTS SD2COKEFF PARTCONEFF DEVICE ID
022*91102300 SU.ELEC .PUR.-L1EBERNAN «10.7 3618.7 02 U 8 .000 .060 87t.O 3.0 .0 .00
RAIEL- CAPCIY CDAl HEAT R OILHE1T 0 OILHEAT GASHEAT COALBRN R OILBRH D OILBRN GAS BRN COALSC R OILSC 0 OIISC GAS SC COAL ASH
.1; *O.OOOE«<.7 »O.OOOC£+<.B *C.OOOOE«<.8 0 6 C 0 0 .00 .00 .00 .0000 .0
STACK HEIGHI STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VQl STACK DIAMETER STACK VELOC USE FACT
42.672 449.800 .000 0 43400 3.77952 22.5552 1.00
SOUfcCt ID DESCRIPTIVE NAN; LOC X IOC T PJ Cd»LR TYPE S02EHR--7 PiX TEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022491] C24C*. S-.tiEC.?«n.-LlEbtk.1»s. 410.7 3618.7 02 K 6 .000 .077 8760 3.0 .0 .00
HATED CAPCIt COAL HE» I R OiUlltT 0 OILHEAT GASHEAT COALBRM R OILBRN D OllfiSfc C*S B«M COALSC R OILSC D OILSC GAS SC COAL ASH
CT> *O.OOCCCK «• •' tO.Ci.iOt+47 +O.GCCGE+48 *O.OOCOE*48 0 00 C 0 .CO .00 .00 .0000 .0
00
STACK HUGHT SI4«. r, 11 MF E h 4 I uk I PLUHE RISE HAX PROCESS RATE KAI EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
4*.1,72 449.BOG .000 0 . 43400 3.77952 22.5552 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TTPE S02EMRAT PARTENRI OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE 10
0224S!>30020b ANTHCNY FUKEST PRODUCTS 434.5 3640.8 01 P S .000 .074 4704 3.0 .0 .00
RATED CAPCIT COAL Ht«l It OllHEAT D OllHEAT GASHEAl COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
«O.OOCOOE»49 «O.OCOE«47 *O.COOOE»4i *C.OGOOE«
-------
SOURCE ID DESCRIPIIVf NAME IOC X IOC T PJ OWNER t¥« S02EHRAT PARTEHRT OP TINE SHIFTS SOZCONEFF PARTCDMCFF DEVICE ID
02249*304106 OL1HIIRAH 432.5 3599.5 01 P S .000 .5 ".8 4000 Z.O .0 .00
RATED CAPCIT COAL Ht»! R oiiHEAT o DILHEAT GASHEAT COALBRN R OILBRN o OILBRN GAS BRM COAISC R OILSC o OILSC GAS sc COAI ASM
CD «0.00000l •<.-< •'J.OCCE«s? i-O.OUCOt ".» »O.OCOOE»«.8 0000 0 .00 .00 .00 .0000 .0
«D
SIACk HL1LHT SlACK TEHPERAIURE PLUME RISE HAX PROCESS RA1E MAX EXHAUST GAS VOL STACK DIAMETER STACK VELQC USE FACT
It. £68 -.77.6CC .000 0 130000 4.1*528 4.»720 1.00
-------
N01I. DAT* &IVEN IN CONVERTED UN I IS.
ARE* SOURCES
SOURCE ID LOC IUI LQC T(K) AREMiO KM) PJ EFFECTIVE STACK Mtl(h) S02 EMISSION KATEII/DI PART EMISSION RAfEIT/OI
022999910100
022999910200
022999910300
0229999104CC
0229-.S9105UO
022V1! V910b00
02299S910700
02i9V<»910810
022r»'' 9910820
Qit << '. VS 10900
022 99 S91 10CG
022999911100
022999911200
022999920100
022999920200
022999920300
022999920400
022999920500
022999920600
022999920700
022999920800
022999920900
022999921000
02299992 11UO
022999921200
022999921300
022999921400
022999921500
022999921600
0229999217CO
022999921800
022999921900
022999922000
022999922100
022999922200
0229999223CO
022999922400
022999922500
Ot'2**t*S(»22bGO
Q ^ ^ ** ^ **** 2 2 7 C 0
3229S'»9228CC
0229VW229GO
0229S4923000
0229<»<)9231Ct>
0229999232CC
0229SV9233CO
0229999234CO
022999923500
022999923600
432.9
430.9
431.3
430.2
•.31.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.8
429.2
429.9
429.2
426.4
427.2
427.3
427.0
427.7
428.4
428.8
430.2
430.1
431.4
432.8
430.7
429.0
427.0
427.1
426.7
425.4
424.6
422.2
425.0
425.3
427.2
429.1
430.9
431.9
432.9
431.7
429.8
428.7
426.9
424.7
421.7
422.5
3594.7
3596.8
3597.9
3598. C
3bCO.C
3598.2
3596.3
3595.6
3590.9
3567.7
3575.1
3600.1
3623.7
3596.8
3595.8
3595.6
3596.8
3596. b
3596.8
3596.1
3595.3
3595.5
3594.3
3594.9
3593.8
3594.5
3595.0
3592. i
3592 .4
3592.5
3593.7
3595.0
3595.8
3594.3
3591 .9
3592.9
3591.0
3592.0
3590.8
3591.1
3591.2
3591.6
3589.4
3562.2
3569.5
3589.4
3566.7
3568.5
3590.8
.8
1.5
1.1
3.2
3.2
lb.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
.7
2.4
.5
1.5
4.7
1.4
1.4
.9
.9
1.9
1.3
2.0
3.7
1.4
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.8
2.9
1.6
4.0
2.4
1.6
3.3
5.2
9.7
2.5
01
01
01
01
01
01
01
01
01
01
01
01
01
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9. 144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.00*
.037
.050
.088
.157
.IS*
.0*9
.191
.094
.077
.223
.14)
.00*
.01*
.019
.052
.043
.041
.06$
.041
.035
.039
.043
.063
.0*0
.029
.037
.056
.040
.030
.054
.048
.085
.OSS
.052
.063
.0*1
.048
.038
.062
.041
.OSS
.026
.038
.054
.088
.094
.062
-------
SOUfcU U LJC »
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
72
-------
A. 2 1980 PROJECTED
73
-------
SOURCE FILE FOR SHREVEPORT RECIOM 22
CREATE DATE AUGUST 20, 1977 UPDATE DATE
OUIPU1 UNITS
SOURCE ID DESCRIPTIVE HARE IOC X tOC T PJ OWNER TYPE S02EHRAI PARTEHRT OP TIKE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
KM KM — - - TONS/OAT TONS/OAT HRS/TR t X
RATED CAPCTY COAL HEAT R OILHEAT 0 01LHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC CAS SC COAL ASH
BTU/HOUR Bill/TON BTU/ GAL BIU/GAL BTU/CU FT TON/DAY GAL/DAY GAL/DAY CU FT/DAY Z Z X X Z
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
HEIERS DEC K H SOR/SEC LB/HR ACFH METERS H/SEC
POINT SOURCES
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OMNER TYPE SD2EMAT PARTEHRT OP TIME SHIFTS SO2CONEFF PARTCONEFF DEVICE ID
022144603300 DRESSER MINERALS CO. 4*0.6 3595.0 03 P B .000 .045 6240 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 01LBRM GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOCOOE«49 *O.COOE«47 *O.OOOOE*48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.620 324.700 .000 0 500 .45720 1.9240 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTENRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
0222C4D02001 SHREVEPORT GRAIN t EL. 427.7 3590.7 02 P P .000 .011 2295 1.1 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC CAS SC COAL ASH
«O.OCCOOE»49 *O.OOOE*47 »O.OOOOE*4B +O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.096 298.012 .000 0 30CO .12192 3.0480 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OMNER TYPE S02EMRAT PARTEMRT Of TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022242100101 ANTHONY FOREST PRODUCTS 434.5 3640.8 01 P P .000 .032 1960 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC CAS SC COAL ASH
«O.OOOOOE*49 *O.OOOE*47 «O.OOOOE«48 «O.OOOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
.COO 298.012 .000 0 0 .00000 .0000 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OMNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022242601300 KROEHLER NFC. CO. 428.0 3990.6 02 P B .000 .217 1180 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN CAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
*O.OOCOOE*49 *O.COOE*47 «O.OOOOE*48 »O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME tISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
27.432 bl6«A>00 .000 0 6500 1.52400 1.8288 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOG X IOC Y PJ OWNER TTPE S02EHRAT PAR TEH RT OP TINE SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
0*2243100301 CADDO DOOR £ VEHEER 432.3 3599.5 01 P P .000 .027 1200 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D DILSC GAS SC COAL ASH
«O.OCOOOE*49 «O.COOE*47 -»O.OOOOE«48 *O.OOOOE*48 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.09b 394.200 .000 0 35CO .60960 5.7912 1.00
SOURCE ID DESCRIPTIVE MANE LOC X LOC Y PJ OWNER TYPE S02EKRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022243505001 WOODWARD-WALKER CO. 471.5 3606.5 03 P P .000 .049 6000 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
+O.OOOOOE*49 *O.OOOE«47 +0 .OOOOE*46 «O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.144 298 .01Z .OOC 0 21600 1.21920 8.8392 1.00
SOURCE ID DESCRIPTIVE NAME IOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02ZZ6Z103400 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P 8 .000 1.477 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
-J «O.OOOOOE«49 «O.OOOE«47 *0 .OOOOE*48 *O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
cn
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
76.200 402.540 .000 0 3071 CO 6.09600 4.8768 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103504 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 1.163 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN CAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«49 +O.OOOE+47 »0 ,OOOOE»48 *O.OOOOE«48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
76.504 429.228 .000 0 214000 2.71272 17.6784 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022262103604 INTERNATIONAL PAPER CO. 457.3 3648.1 C3 P P .000 .106 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OUBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OCCOOE«49 *O.OOOE«47 *O.OOOOE*48 «O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
65.532 346.940 .000 0 82CO 1.21920 4.5720 1.00
-------
SOURCE ID DESCRIPTIVE NAME IOC X LOC T PJ OHNER IVPE S02EHRAT PARTEHRT OP TINE SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022262103704 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .075 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT 6 A SHE AT COALBRN R OILBRN 0 OILBRM GAS BRM COALSC R OILSC D OILSC CAS SC COAL ASH
•O.OOOOOE«49 «O.OOOE«47 «O.OOOOE«48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
65.532 338.600
SOURCE ID
022262103800
RATED CAPCTY
«O.OOOOOE«49
DESCRIPTIVE NAME
INTERNATIONAL PAPER CO
COAL HEAT R OILHEAT
«O.OOOE*47 «O.OOOOE«48
STACK HEIGHT STACK TEMPERATURE
33.528 561.000
SOURCE ID
022262103900
-j RATED CAPCTY
«O.OOOOOE«49
DESCRIPTIVE NAME
INTERNATIONAL PAPER CO
COAL HEAT R OILHEAT
*O.OOOE«47 *O.OOOOE«48
STACK HEIGHT STACK TEMPERATURE
33.528 561.000
SOURCE ID
022262104000
RATED CAPCTY
•0. 00000 E«49
DESCRIPTIVE NAME
INTERNATIONAL PAPER CO
COAL HEAT R OILHEAT
*O.OOOE«47 *O.OOOOE*48
STACK HEIGHT STACK TEMPERATURE
33.528 561.000
SOURCE 10
022262104100
RATED CAPCTY
«O.OCOOOE+49
DESCRIPTIVE NAME
INTERNATIONAL PAPER CO
COAL HEAT R OILHEAT
*O.OOOE«47 *O.OOOOE«48
STACK HEIGHT STACK TEMPERATURE
33.528 561.000
PLUME RISE
.000
LOC X LOC Y
. 457.3 3648.1
MAX
PROCESS
0
PJ OHNER TYPE
03 P B
D OILHEAT GASHEAT
«O.OOOCE*48 0
PLUME RISE
.000
LOC X LOC Y
. 457.3 3648.1
MAX
COALBRN
0
PROCESS
0
PJ OHNER TYPE
03 P B
D OILHEAT GASHEAT
«O.OOOOE«46 0
PLUME RISE
.000
LOC X LOC Y
. 457.3 3648.1
NAX
COALBRN
0
PROCESS
0
PJ OHNER TYPE
03 P B
D OILHEAT GASHEAT
«O.OOOOE«48 0
PLUME RISE
.ooc
LOC X LOC Y
. 457.3 3648.1
HAX
COALBRN
0
PROCESS
0
PJ OHNER TYPE
03 P B
D OILHEAT GASHEAT
«O.OOOOE«48 0
PLUME RISE
.000
HAX
COALBRN
0
PROCESS
0
RATE HAX EXHAUST
23700
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R GILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
PARTEHRT
1.175
D OILBRN
C
EXHAUST
129000
PARTEHRT
1.490
D OILBRN
0
EXHAUST
132000
PARTENRT
.356
0 OILBRN
0
EXHAUST
113000
PARTEHRT
.181
D OILBRN
0
EXHAUST
114000
GAS VOL
OP TINE
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TINE
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
STACK DIAMETER
1.21920
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC 0
.00
STACK DIAMETER
1.82880
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAMETER
1.82880
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAMETER
1.82880
SHIFTS
3.0
COALSC
0 .00
SOZCONEFF
.0
R OILSC D
.00
STACK DIAMETER
1.82880
STACK VELOC
10.0584
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
19.8120
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
18.2880
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
17.3736
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
17.6784
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE HAKE LOC X LOC V PJ OMNtR ITPE S02EHRAT PARTEHRT OP 1IME SHIFTS SGZCONEFF PARTCOMEFF DEVICE 10
022262104200 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .444 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT R OILHEAT D 01LHEAT GASHEAT COALBRN R QILBRM 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OOOOOE*49 *O.OOOE«47 »0 .OOOOE«48 *O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEHPERAIURE PLUME RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.526 588.800 .000 0 1670CO 1.82860 25.6032 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAI PARTEHRT OP TIKE SHIFTS S02CONEFF PARTCOHEFF DEVICE ID
022262104300 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .102 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT o OILHEAT GASHEAT COALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
«O.OCCOOE«49 *O.OOOE«47 »O.OOOOE*48 «O.OOOOE«48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 455.360 .OOC 0 105000 1.82880 19.2024 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104403 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .521 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OGOOOE+49 »O.OOC£*47 «O.OOOOE*48 *O.OOOCE»48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
28.346 364.732 .000 0 33300 1.52400 8.5344 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104503 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .279 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE*49 »O.OOOE»47 »O.OOOOE*48 *O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
28.346 364.732 .000 0 32500 1.52400 8.2296 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104604 INTERNATIONAL PAPER CO. 45T.3 3648.1 03 P P .000 .099 8760 3.0 .0 .00
RATED LAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE«49 «O.OOOE«47 +0 .OOOOE*48 «O.OOOOE+48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
70.713 433.120 .000 0 252000 .00000 27.1272 1.00
-------
SOURCE 10 DESCRIPTIVE MAKE IOC X IOC T PJ OHNER IVPE S02EHRAT PAR TEH RT OP TIKE SHIFTS SOZCONEFF PARTCONEFF DEVICE 10
022262104700 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P 6 .000 .069 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT R OILHEAT D OILHEAT G A SHE AT COAtBRN R OIlflRH 0 OUBRrf «AS BRM COALSC R OltSC 0 OILSC SAS SC COAL ASH
«O.OOOOOE«49 «O.OOOE«47 «O.OOOOE«48 «O.OOOOE«48 0 0 0 G 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
68.580 433.120 .000 0 160000 2.40792 16.1544 1.00
SOURCE ID DESCRIPTIVE NAME LOC X IDC Y PJ OHNER IVPE S02EHRAT PAR TEH RT OP TIDE SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022262104804 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .152 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COAL BRM R OILBRN D OILBRN GAS BRN COAISC R OILSC D OILSC 6AS SC COAL ASH
«O.OOOOOE«49 40.000E+47 «O.OOOOE«48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
65.532 363.620
•^1
00
SOURCE ID
022281902700
RATED CAPCTV
«O.OOOOOE+49
DESCRIPTIVE NAME
UOP PROCESS DIVISION
COAL HEAT R 01LHEAT
«O.OOOE»47 »O.OOOOE*48
STACK HEIGHT STACK TEMPERATURE
9.448 488.720
PLUHE RISE
.000
LOC X LOC Y
413.4 3609.0
MAX
PROCESS
0
PJ OHNER TYPE
02 P B
0 OILHEAT GASHEAT
«O.OOOOE«46 0
PLUHE RISE
.000
MAX
COALBRN
0
PROCESS
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
EXHAUST
130CO
PARTEHRT
.113
D OILBRN
0
EXHAUST
10800
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
STACK DIAMETER
1.21920
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC D
0 .00 .00
STACK DIAMETER
.97536
STACK VELOC
5.1816
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
6.7056
USE FACT
1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OHNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022261902860 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .019 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOCOOE*49 *O.OOOE*47 «O.OOOOE»48 «O.OOOOE«46 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.753 488.720 .000 0 10800 .97536 6.7056 1.00
SOURCE 10 DESCRIPTIVE NAME LOC X LOC V PJ OHNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022281902900 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .113 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAI COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«49 «O.OOOE«47 «O.OOOOE«48 *O.OOOOE«48 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.753 488.729 .000 0 10800 .97536 6.7056 1.00
-------
SOURCt 10 DESCRIPTIVE NAME LOC X LOC T ft OMNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
022261903000 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .116 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT 0 OIIHEAT 6 A SHE AT COALBRN R OILBRH D OILBRN CAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
»O.OCCOOE«49 «O.OOOE*47 *0 .OOOOE+48 *O.OOOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
30.460 633.280 .000 0 916CO 3.13944 $.4864 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OH HER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCOHE FF DEVICE ID
022261903100 UOP PROCESS DIVISION < 413.4 3609.0 02 P B .000, .015 7224 3.0 .0 .00
RATEC CAPCTY COAL HEAT R OILHEAT 0 OILHEAT G A SHE AT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOCOOE«49 +O.OOOE+47 +0 .OOOOE«48 +O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
15.24C 355.280 .000 0 133CO 1.06680 7.0104 1.00
SOURCE ID DESCRIPTIVE NAME LOC * LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONE FF DEVICE ID
022281903200 UDP PROCESS DIVISION 413.4 3609.0 02 P B .000 .046 8232 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT G A SHE AT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
»O.OGCOOE«; >O.OOOE*47 «0 .OOOOE + 48 «O.OGOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHI STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.000 298.012 .000 0 5000 3.04800 .3048 1.00
-------
CO
o
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022291100600 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .037 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OllHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN CAS BRN COALSC R OILSC D OILSC CAS SC COAL ASH
«O.OOOOOE«49 «O.OOOE«47 *O.OOOOE»48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
12.192 588.800
SOURCE ID
022291100700
RATED CAPCTY
«O.OOOOOE+49
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
+O.OOOE*47 «O.OOOOE+48
STACK HEIGHT STACK TEMPERATURE
'i5.720 616.600
SOURCE ID
022291100800
RATED CAPCIT
40.00COOE+49
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
*O.OOOE+47 *O.OOOOE*46
STACK HEIGHT STACK TEMPERATURE
35.052 627.720
SOURCE ID
022291100900
RATED CAPCTY
»O.OOCOOE«49
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
«O.OOOE+47 «0 .00006*48
STACK HEIGHT STACK TEMPERATURE
45.720 616.600
SOURCE ID
022291105208
RATED CAPCTY
*O.OOOOOE*49
DESCRIPTIVE MAKE
CALCUNET REFINING CO.
COAL HEAT R OILHEAT
«O.OOOE«47 *O.OOOOE*48
STACK HEIGHT STACK TEMPERATURE
9.144 505.400
PLUME RISE
.000
LOC X LOC Y
425.2 3592.4
MAX
PROCESS
3
PJ OWNER TYPE
02 P B
0 OILHEAT G A SHE AT
«O.OOOOE*48 0
PLUME RISE
.000
LOC X LOC Y
425.2 3592.4
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P B
0 OILHEAT GASHEAT
*O.OOOOE*48 0
PLUME RISE
.000
LOC X LOC Y
425.2 3592.4
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P B
0 OILHEAT GASHEAT
»O.OOOOE*48 0
PLUME RISE
.000
LOC X LOC V
451.8 3605.7
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
Gl P P
0 OILHEAT GASHEAT
«O.OOOOE»48 0
PLUME RISE
.000
MX
COALBRN
0
PROCESS
0
RATE MAX
S02ENRAT
.000
R 01LBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EMRAT
.000
R OILBRN
0
RATE MAX
S02EMRAT
.000
R 01L8RN
0
RATE MAX
EXHAUST
23100
PARTEHRT
.047
0 OILBRN
0
EXHAUST
21700
PARTEHRT
.012
0 OILBRN
0
EXHAUST
17500
PARTEHRT
.043
D OILBRN
0
EXHAUST
24 7 CO
PARTEHRT
.031
0 OILBRN
0
EXHAUST
4100
GAS VOL
OP TINE
8760
GAS BRN
CAS VOL
OP TINE
8760
CAS BRN
6AS VOL
OP TIME
8760
CAS BRN
GAS VOL
OP TINE
500
CAS BRN
CAS VOL
STACK DIAMETER
1.06680
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIANE TER
2.43840
SHUTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.13360
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.43840
SHIFTS
1.3
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
.79248
STACK VELOC
12.1920
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
0 OILSC CAS SC
.00 .0000
STACK VELOC
2.1336
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
D OILSC CAS SC
.00 .0000
STACK VELOC
2.4384
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
D OILSC CAS SC
.00 .0000
STACK VELOC
2.4384
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
D OILSC CAS SC
.00 .0000
STACK VELOC
3.9624
COAL ASH
.0
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE NAME LOC X LOC f PJ OWNER TTPE S02EHRAI PARTEHRT OP TIKE SHIFTS SOZCONEFF PARTCOMEFF DEVICE ID
022291105600 ATLAS PROCESSING CO. 425.2 3592.* 02 P B .000 .204 8760 3.0 .0 .00
••TED CAFCTY COAL HEAT R OILHEAT D 01LHEAT G A SHE AT COALBRM R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
•O.OCCOOE«49 +O.OOOE«47 *O.OOOOE*48 «O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.192 572.120 .000 0 522 CO 1.52400 13.4112 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC t PJ OHNER TTPE S02EDRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022291105700 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .204 8760 3.0 .0 .00
RATED CAPC1Y COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D 01LBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
«O.OOOOOE«49 *O.OOOE*47 *O.OOOOE»48 »O.OOOOE»48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.192 572.120 .000 0 52200 1.52400 13.4112 1.00
SOURCE 10 DESCRIPTIVE NAME LOC X LOC T PJ OHNER TTPE S02EHRAT PARIEHRT OP TIME SHIFTS S02CDNEFF PARTCONEFF DEVICE ID
022295100401 ROT COOK AND SONS 429.7 3599.2 01 P P .000 .037 2500 1.3 .0 .00
00 RATED CAPCTT COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
~* »O.OOCOOE«49 +O.OOOE*47 *O.OOOOE + 48 +O.OOOOE*46 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.315 338.600 .000 0 45000 2.13360 5.7912 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OHNER ITPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295100503 HINFORD CO. 434.4 3600.0 01 P P .000 .119 2200 1.4 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN CAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*49 »O.OOOE«47 *OU)OOOE«48 »O.OOOOE»48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.496 349.720 .000 0 42000 1.98120 3.9624 1.00
SCURCE ID DESCRIPTIVE NAME LOC I LOC T PJ OHNER ITPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295104901 MADDEN CONTRACTING CO. 472.8 3608.4 03 P P .000 .037 1600 1.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*49 *O.OOOE*47 *O.OOOOE»48 «O.OOOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATIIIE PLUME RISE MAX PIOCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.144 366.400 .000 0 595 CO 1.06660 31.3944 1.00
-------
CO
ro
SOURCE ID DESCRIPTIVE NAHE LOC X LOC V PJ OWNER TYPE S02ENRAT PARTENRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0222«5?31000 BIRD I SON INC. 428.2 3599.0 02 P B .000 .051 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R 01L8RN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«*9 *O.OOOE**7 «0 .OOOOE*48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HflGHT
13. 716
SOURCE 10
022322901*00 1
RATED CAPCTY
«O.OrCOOE**<> »
SJACX HEIGHT
53. 3
SOURCE 10
022322901500 I.
RATED CAPC IT
»O.OCCOOt*-v •>
STACK HtlGH!
53.3*0
SOURCE 10
02232290160C 1.
RATED CAPCTT
«O.OOCOOE«*9 *
STACK HEIGHT
22 . 860
STACK TEMPERATURE
588 .800
OtSCRlPIIVE MANC
1BBET GLASS DIVISION
CTAl HEAT R OILHEAT
&_'.:OOE*47 *O.OOOOE«*8
STAC* TEMPERATURE
533.200
PF SCRIPT i VE NAHE
ittcT GLASS DIVISION
C-iL HE* i K U1LHEAT
D.tOOE**7 *(.>.UOOOE»*B
STACK TEMPERATURE
333 .200
DESCR1PIIVE NAME
I BBT GLASS D IV IS ION
COAL HEAT R OJLHEAI
0. CODE +*7 *O.OOOOE»*«
STACK TEMPERATURE
616.600
SOURCt 10 DESCRIPTIVE NAM
022325105*01 ATHEHS-CAODO BRICK CO.
RATED CAPCTY
«O.OGOOOE«49 +
STACK HilbHI
6.096
CCAL HEAT R OILHEAT
O.OOOE*47 «O.OOOOE*46
STACK TEMPERATURE
616.600
PLUME RISE
.000
LOC X LQC
425.0 3592
0 OILHEAT
*O.OOOOE+48
RAX
PROCESS RATE HA*
0
T PJ OWNER TYPE
.7 02 P B
GASHEAT COALBRN
0 0
PLUHE RISE
.000
LOC X IOC
•-25. 0 3592
0 OILHEAT
«O.OOOOE*48
Y
.7
MAX
PROCESS
0
PJ OMNER TYPE
02 P B
GASHEAT
0
PLUHE RISE
.000
LOC X LOC
425.0 3592
0 OILHEAT
*O.OOOOE«48
V
.7
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P B
6 A SHE AT
0
PLUHE RISE
.000
LOC X LOC
409.9 3616
D OILHEAT
»O.OOOOE*48
V
.9
RAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P P
GASHEAT
0
PLUHi RISE
.000
RAX
COALBRN
0
PROCESS
0
S02EHRA!
.000
R OILBRN
0
RATE HAX
S02EMRAT
.000
R OILBRN
0
RATE RAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EMAT
.000
R OILBRH
0
RATE NAX
EXHAUST
218CO
PARTEHRT
.155
D OILBRN
C
EXKAUST
21500
PARlbHRl
.155
D OUBRN
C
EXHAUST
21500
PAR IEHKI
.182
0 OILBRN
C
EXHAUST
78500
PARTEHRT
.0*1
D OILBRN
0
EXHAtST
105 CO
GAS VOL
OP TINE
8760
GAS BRM
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP T1HE
B760
GAS BRN
GAS VOL
OP TIRE
8760
GAS BRN
tAS VUl
STACK DIAMETER
1.21920
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK OIARETER
2.43840
SHIFTS SO2CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK DIAMETER
2.43840
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK OIAREIER
J.ObfcBO
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
C .00 .00
31&CK DIAMETER
:. 03632
STACK VELOC
8.5344
USE FACT
1.00
PARICONEFF DEVICE ID
.00
0 OILSC CAS SC COAL ASH
.00 .0000 .0
STACK VELOC
22.8600
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC
.00 .0000
STACK VELOC
22.8600
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC
.00 .0000
STACK VELOC
42.6720
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC
.00 .0000
STACK VELOC
5.7«12
COAL ASH
.0
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE NAME IGC X IOC Y PJ OWNER TYPE S02ENRAI PAR TEH RT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02232*105501 ATHENS-CAODQ BRICK CO. 409.9 3616.9 02 P P .000 .032 8760 3.0 .0 .00
RATED CAPCTt COAL HEAT R OILHEAI 0 OILHEAT 6 A SHE AT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC 6 AS SC COAL ASK
«O.OCOOOE«49 «O.OOOE*47 «O.OOOOE*48 *O.OOOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.000 298.012 .000 0 1200 1.52400 .3048 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PAR TEH RT OP TIME SHIFTS SO2CONEFF PARTCOMCFF DEVICE ID
022332301101 HI CA CORP. 427.5 3590.6 02 P P .000 .022 4000 2.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT 0 OILHEAT 6ASHEAT COALBRN R OILBRH D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«0.00000 E*49 +O.OOOE+47 *O.OOOOE»48 *O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELQC USE FACT
7.010 333.040 .000 0 219CO .60960 35.3568 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OHNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONE FF DEVICE ID
022332301201 HI CA CORP. 427.5 3590.6 02 P P .000 .051 2000 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAI 0 OILHEAT 6ASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
00 *O.OCCOOE*49 + O.OOOE*47 *0 .OOOOE*48 *O.OOOOE«48 0 0 0 0 0 .00 .00 .00 .0000 .0
CO
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.705 298.012 .000 0 14500 .60960 23.4696 1.00
SOURCE ID DESCRIPTIVE NAME IOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONE FF DEVICE ID
022332301701 MID-CONTINENT STEEL il 427.5 3590.6 02 P P .000 .003 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OCGOOE*49 «O.OOOE*47 «O.OOOOE»48 *O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
11.277 335.820 .000 0 20000 .82296 18.2880 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OHNER TYPE S02EHRAT PAR TEN RT OP TIME SHIFTS SO2CONEFF PARTCONE FF DEVICE ID
022332301801 MID-CONTINENT STEEL *2 427.5 3590.0 02 P P .000 .003 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC CAS SC COAL ASH
*O.OOCOOE*49 *O.OOOE*47 *0 .OOOOE«4B «O.OOOOE»48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STAC* VELOC USE FACT
6.400 348.020 .000 0 22000 .91440 15.8496 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022332301901 HI 0-CONTINENT STEEL t2 427.5 3590.6 02 P P .000 .003 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT « OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OOOOOE»49 «O.OOOE«47 *O.OOOOE»4B «O.OOOOE*4B 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.400 308.020 .000 0 220CO .91440 15.8496 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02ENRAT PARTEHRT OP TIHE SHIFTS SOZCONEFF PARTCONEFF DEVICE 10
022366105300 WESTERN ELECTRIC CO. 426.2 3590.9 02 P B .000 .169 3840 2.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRH R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
+O.OOOOOE+49 *0.000t»47 +O.OOOOE+48 *O.OOOOE«48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
18.288 427.560 .000 0 2000CO 2.80416 15.24OO l.OO
SOURCE 10 DESCRIPTIVE NAME LOC X LOC Y PJ OWNER IYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022491102200 SW .E.P.C.-ARS ENAL HILL 415.5 3598.9 02 U B .000 .055 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAI GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
CO «O.OOOOOE«49 «O.OOOE«47 «O.OOOOE*48 *O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
42.672 449.600 .000 0 43400 3.77952 22.5552 1.00
SOURCE 10 DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE 10
022491102300 SW.ELEC.PVR.-LIEBERHAN 410.7 3618.7 02 U B .000 .063 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R GILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
•O.OOCOOE«49 «O.OOOE*47 «O.OOOOE«48 +O.OOOOE*48 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
42.672 449.800 .000 0 43400 3.77952 22.5552 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022491102400 SW .ELEC.PHR.-LIEBERHAN 410.7 3618.7 02 U B .000 .081 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT 6ASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOCOOE«49 «O.OOOE«47 «O.OOOOE*48 «O.OOOOE«4B 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE MAX EXHAUST CAS VOL STACK OIAHETER STACK VELOC USE FACT
42.672 449.600 .000 0 43400 3.77952 22.5552 l.OC
-------
SOURCE 10 DESCRIPTIVE MANE IOC X LOC T PJ OMNER TYPE S02EHRAI PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022495300206 ANTHONY FOREST PRODUCTS 434.5 364C.8 01 P S .000 .078 4704 3.0 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OIL8RN CAS BRM COALSC R OILSC D OILSC 6AS SC COAL ASH
*O.OOOOOE*49 *O.OOOE*47 *O.OOOOE«48 «O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
1.524 394.200 .000 0 300 .45720 .9144 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EIWAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022495302101 SHREVEPQRI INCINERATOR 428.1 3593.8 02 L S .000 1.612 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT o OILHEAT GASHEAT COALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
00 »O.OOOOOE*49 «O.OOOE»47 «0 .OOOOE*48 *O.OOOOE*48 0 0 0 0 0 .00 .00 .00 .0000 .0
en
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
30.480 588.800 .000 0 140000 2.37744 14.9352 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OMNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022495305106 OLINKRAFT 432.5 3599.5 01 P S .000 .700 4000 2.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*49 *O.OOOE«47 «O.OOOOE*48 «O.OOOOE*48 0 0 00 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
18.288 477.600 .000 0 130000 4.14528 4.5720 1.00
-------
NOlt. DATA GIVEN IN CONVERTED UNITS.
AREA SOURCES
SOURCE ID LDC X(K> LOC T(KI AREAISO KN)
PJ
CO
022999910100
02299991 0200
02299991 0300
022999910400
022999910500
022999910600
022999910700
022999910810
022999910820
022999910900
022999911000
022999911100
022999911200
02299992 C10G
022999920200
022999920300
022999920400
022999920500
022999920600
022999920700
022999920600
022999920900
02299992 1000
0229 9992 1100
02299992 1200
02299992 1300
022999921400
02299992 1500
022999921600
02299992 1700
022999921800
022999921900
022999922000
022999922100
022999922200
022999922300
022999922400
022999922500
022999922600
022999922700
022999922800
022999922900
02299992 3000
022999923100
02299992 3200
022999923300
022999923400
022999923500
022999923600
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.8
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
430.2
430.1
431.4
432.8
430.7
429.0
427.0
427.1
426.7
425.4
424.6
422.2
425.0
425.3
427.2
429.1
430.9
431.9
432.9
431.7
429.8
428.7
426.9
424.7
421.7
422.5
35 94 .7
3596.8
3597.9
3598.0
3600.0
3598.2
3596.3
3595.6
3590.9
3587.7
3575.1
36C0.1
36 23 .7
3596.8
3595.8
3595.8
3596.8
3598.6
3596.9
3596.1
3595.3
35S5.5
3594.3
3594.9
3593.8
3594.5
3595.3
3592.5
3592.4
3592.5
3593.7
3595.0
3595. B
3594.3
3591.9
3592.9
3591.0
3592.0
3590.8
3591.1
3591.2
3591.6
3589.4
3582.2
3589.5
3589.4
3588.7
3588.5
3590.8
.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
.7
2.4
.5
1.5
4.7
1.4
1.4
.9
.9
1.9
1.3
2.0
3.7
1.4
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.8
2.9
1.8
4.0
2.4
1.6
3.3
5.2
9.7
2.5
01
01
01
01
01
01
01
01
01
01
01
01
01
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
EFFECTIVE STACK HGTI HI
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.1*4
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
SC2 EMISSION RATECT/D)
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
PART EMISSION RATEU/D)
.005
.039
.053
.060
.093
.165
.167
.094
.201
.099
.081
.235
.150
.008
.017
.020
.054
.045
.043
.068
.043
.037
.041
.045
.066
.063
.031
.039
.059
.042
.032
.057
.050
.089
.061
.055
.066
.093
.050
.040
.065
.043
.058
.027
.040
.057
.093
.099
.065
-------
SOURCE 10 i-OC X(K> LOG TIKI AREAISO KM) PJ EFFECTIVE STACK H6T1MJ S02 EMISSION RATEIT/DI PART EMISSION RATEIT/OI
CO
02299992 3700
022999923800
022999923900
022999924000
02299992 4110
022999924120
022999924200
022 99992 4300
022999924400
022999924500
022999924600
022999924700
02299992 4800
022*99924900
02299992 5000
022999925100
022999930100
022999930200
022999930300
427.0
429.3
430.2
435.9
421.3
421.1
403.1
402.4
417.8
404.0
420.8
424.4
412.8
399.8
406.2
409.6
460.4
459.7
452.7
3567.5
3587.1
3583.6
3569.8
35 82 .5
3576.7
3565.9
3583.4
3591.0
36 00 .8
3598.5
36C3.5
3610.6
3624.1
3636.0
3633.8
3584.8
3603.3
3625.2
5.1
4.5
40.3
216.7
39.5
42.0
370.3
236.1
26.5
355.7
41.6
8.8
252.3
338.0
9.7
291.1
475.8
460.0
659.6
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
03
03
03
9.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
9.144
9.144
9.144
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.093
.097
.064
.033
.225
.024
.057
.077
.035
.102
.130
.031
.032
.042
.053
.043
.293
.284
.407
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
-------
A.3 1985 PROJECTED
89
-------
SOURCE FILE FOR SHREVEPORT REGION 22
CREATE DATE AUGUST 22* 1977 UPDATE DATE
OUTPUT UNITS
SOURCE ID
RATED CAPCTY
BTU/HOUR
STACK HEIGHT
METERS
DESCRIPTIVE NAME
COAL HEAT
BTU/TON
STACK
R OILHEAT
BTU/GAL
TEMPERATURE
DEG K
IOC X LOC Y PJ OWNER TYPE S02EMRAT
KM KM — - - TONS/DAY
D OILHEAT GASHEAT COALBRN R OILBRN
BIU/GAL BIU/CU Fl TON/DAY GAL/DAY
PLUME RISE MAX PROCESS RATE MAX
H SOR/SEC LB/HR
PARTENRT
TONS/DAY
0 OILBRN
GAL/UAY
EXHAUST
ACFH
OP TIME
HRS/YR
GAS BRN
CU FT/DAY
GAS VOL
SHIFTS S02CONEFF
Z
COALSC R OILSC D
Z Z
STACK DIAMETER
METERS
PARTCONEFF DEVICE ID
OILSC GAS SC COAL ASH
Z Z Z
STACK VELOC USE FACT
M /S EC
POINT SOURCES
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022144603300 DRESSER MINERALS CO. 480.8 3595.0 C3 P B .000 .055 6240 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
+O.OOCOOE+81 +O.COOE+79 +O.OOOOE+80 +O.OOOOE+8C 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.620 324.700 .000 0 5 CO .45720 1.5240 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022204802001 SHREVEPORT GRAIN £ EL. 427.7 3590.7 02 P P .000 .011 2295 1.1 .0 .00
RATED CAPCTY COAL HEAT R DILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE«81 +O.COOE+79 »0 .OOOOE + 80 +O.OOOOE+80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.096 298.012 .000 0 30CO .12192 3.0480 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022242100101 ANTHONY FOREST PRODUCTS 434.5 3640.8 01 P P .000 .036 1960 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOCOOE*81 »O.OOOE+79 *0.OOOOE + 80 «0.OOOOE+BO 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.000 298.012 .000 0 0 .00000 .0000 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X IOC Y PJ OWNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022242601300 KROEHLER MFG. CO. 428.0 3590.6 02 P B .000 .258 1880 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
»O.OOCOOE+81 +O.OOOE+79 «O.OOOOE*80 «0.OOOOE+80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
27.432 616.600 .000 0 65CO 1.52400 1.8288 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOG X IOC T PJ OHNER TTPE S02ENRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022243100301 CADDO DOOR t VENEER 432.3 3599.5 01 P P .000 .032 1200 1.0 .0 .00
RATED CAPCTt COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN 6AS BRN COAISC R OILSC D OILSC GAS SC COAL ASH
«O.OCGOOE+81 +O.OOOE+79 «O.OOOOE*80 »O.OOOOE»80 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TE
6.096 394
SOURCE ID
022243505001
RATED CAPCTY
«O.OOCOOE+81
KPERATURE
.200
DESCRIPTIVE NAME
WOODWARD-WALKER CO.
COAl HEAT R OILHEAT
+O.OOOE+79 *O.OOOOE«BO
STACK HEIGHT STACK TEMPERATURE
9.144 298.012
SOURCE 10
022262103400
RATED CAPCTT
UD «O.OCOOOt»Bl
DESCRIPTI
INTERNATIONAL
COAL HEAT
«O.COOE+79 *0
STACK HEIGHT STACK TE
76.200 402
SOURCE ID
022262103504
RATED CAPCTY
+O.OCOOOE«81
DESCRIPTI
INTERNATIONAL
COAL HEAT
«O.OOOE*79 +0
VE NAME
PAPER CO
t OILHEAT
.OOOOE + 80
HPERATURE
.540
VE NAHE
PAPER CO
R OILHEAT
.OOOOE«80
STACK HEIGHT STACK TEMPERATURE
76.504 429.228
SOURCE ID
022262103604
RATED C&PCTY
+O.OOCOOE*81
DESCRIPTIVE NAME
INTERNATIONAL PAPER CO
COAL HEAT
+O.OOOE+79 *0
STACK HEIGHT STACK TE
65.532 346
R OILHEAT
.OOOOE*80
MPERATURE
.940
PLUME RISE
.000
MAX
PROCESS
0
LOC X LOC Y PJ OWNER TYPE
471.5 3606.5 03 P P
D OILHEAT GASHEAT COALBRN
+O.OOOOE+80 0 0
PLUME RISE
.000
LOC X LOC V
. 457.3 3648.1
MAX
PROCESS
0
PJ OWNER TYPE
03 P B
D OILHEAT GASHEAT
*O.OOOOE*80 0
PLUHC RISE
.000
LOC X LOC Y
. 457.3 3648.1
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
C3 P P
D OILHEAT GASHEAT
*O.OOOOE»80 0
PLUME RISE
.000
LOC X LOC Y
. 457.3 3640.1
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
03 P P
D OILHEAT GASHEAT
+O.OOOOE*80 0
PLUME RISE
.000
MAX
COALBRN
0
PROCESS
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EMRAI
.000
R OILBRN
0
RATE MAX
EXHAUST
3500
PARTEHRT
.058
D OILBRN
0
EXHAUST
216CO
PARTEMRT
1.775
D OILBRN
0
CXHAUST
307100
PARTEHRT
1.324
D OILBRN
0
EXHAUST
214000
PARTEHRT
.127
D OILBRN
0
EXHAUST
8200
GAS VOL
OP TIME
6000
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
STACK DIAMETER
.60960
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC D
0 .00 .00
STACK DIAMETER
1.21920
SHIFTS S02CONEFF
3.0 .0
COAISC R OILSC D
0 .00 .00
STACK DIAMETER
6.09600
SHIFTS SOZCONEFF
3.0 .0
COALSC R OILSC D
0 .00 .00
STACK DIAMETER
2.71272
SHIFTS S02CQNEFF
3.0 .0
COALSC R OILSC D
0 .00 .00
STACK DIAMETER
1.21920
STACK VELOC
5.7912
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
8.8392
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC
.00 .0000
STACK VELOC
4.8768
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC
.00 .0000
STACK VELOC
17.6784
PARTCONEFF DEV
.00
OILSC GAS SC
.00 .0000
STACK VELOC
4.5720
COAl ASH
.0
USE FACT
1.00
ICE ID
COAL ASH
.0
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE NAHE LOC X LOC T PJ OHNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103704 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .090 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 01LHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OCOOOE«81 *O.COO£«79 «O.OOOOE*80 «O.OOOOE«80 0 0 0 C 0 .CO .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
65.532 338.600 .000 0 237CO 1.21920 10.0584 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OHNER TYPE S02EMRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103800 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 1.274 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT o OILHEAT GASHEAT COALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
»0.000006*81 *O.OOOE*79 »0 .OOOOE«80 *O.OOOOE+BO 0000 0 .CO .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 561.000 .000 0 129000 1.82880 19.8120 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OHNER TYPE S02EMRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103900 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 1.697 8760 3.0 .0 .00
vo
^ RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE+B1 +O.OOOE«79 *0 .OOOOE»80 *O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEHPERATURE PLUME RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAHETER STACK VELOC USE FACT
33.528 561.000 .000 0 132000 1.82880 18.2880 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104000 INTERNATIONAL PAPER CO. 457.3 3648.1 C3 P B .000 .427 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R CILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
•O.OOOOOE*81 «O.OOOE*79 *O.OOOOE«60 +O.OOOOE+80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAHETER STACK VELOC USE FACT
33.528 561.000 .000 0 113000 1.82880 17.3736 1.00
SOURCE ID DESCRIPTIVE NAHE LOC I LOC V PJ OHNER TYPE S02ERRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104100 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .217 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
»O.OCOOOE»81 +O.OOOE+79 *O.OOOOE*80 *O.OOOOE»80 0000 0 .00 .00 .00 .0000 .0
STACK.HEIGHT STACK TEHPERATURE PLUHE RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAHETER STACK VELOC USE FACT
33.528 561.000 .000 0 114000 1.82880 17.6784 1.00
-------
SOURCE ID DESCRIPTIVE MANE LOC X LOC T PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF BEVKE ID
022262104200 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .534 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R 01LHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
«0.00000£»81 +O.OOOE«79 »O.OOOOE»60 »O.OOOOE«80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 588.800 .000 0 167000 1.82880 25.6032 1.00
SOURCE 10 DESCRIPTIVE HANI LOC X LOC T PJ OWNER TTPE S02ENRAT PARTENRT OP TINE SHIFTS SO2COMEFF PARTCONEFF DEVICE ID
022262104300 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P 8 .000 .123 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*B1 *O.OOOE«79 *O.OOOOE*80 «O.OOOOE»80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT' STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 455.360 .000 0 105000 1.82880 19.2024 1.00
SOURCE 10 DESCRIPIIVE NAME LOC X LOC V PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02COHEFF PARTCONEFF DEVICE ID
022262104403 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .575 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
*O.OOOOOE+81 +O.OOOE*?9 «O.OOOOE*80 »O.OOOOE«80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
28.346 364.732 .000 0 33300 1.52400 8.5344 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02226304903 INTERNATIONAL PAPER CO. 457.3 3646.1 03 P P .000 .331 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R DILSC D OILSC GAS SC COAL ASH
*0.00000E«61 »O.OOOE«79 «O.OOOOE«80 *O.OOOOE»80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
28.346 364.732 .000 0 32500 1.52400 8.2296 1.00
SOURCE IB DESCRIPTIVE NAHE LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104604 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .118 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«0.00000 E*61 »O.OOOE»79 »O.OOOOE*80 »O.OOOOE*80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK WIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
70.713 433.120 .000 0 252000 .00000 27.1272 1.00
-------
SOURCE ID DESCRIPTIVE NAME IOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02226210*700 INTERNATIONAL PAPER CO. 457.3 3648.1 33 P B .000 .082 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R QILHEAT D OILHEAT GASHEAT CDALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC O OILSC GAS SC COAL ASH
»O.OCOOOE+81 *O.OOOE*79 «O.OOOOE«60 *O.SOOOE«bO 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
bd.560 433.123 .000 d 1600 CO 2.40792 16.1544 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104804 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .174 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«61 +O.OOOE+79 »O.OOOOE*80 «O.OOOGE+80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
65.532 363 .bZ'J .000 0 130CO 1.21920 5.1616 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0222819027CO UOP PROCESS DIVISION 413.4 3b09.0 02 P B .000 .140 6760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
IO +O.OCCOOE+81 »O.OOOE*79 + 0 .OOOOE+bO «O.OOOOE»BO 0 0 0 00 .00 .00 .00 .0000 .0
4>
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.448 488.720 .000 0 10600 .97536 6.7056 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022281902860 UOP PROCESS DIVISION 413.4 3609.0 C2 P B .000 .024 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OCCOOE«61 *O.OOOE*7» «G.OOOOE»80 «O.OOOOE»80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.753 488.720 .000 0 10800 .97536 6.7056 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022261902900 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .140 -8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEA1 GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE«81 «O.OOOE*79 *O.OOOCE«BO «O.OOOOE«80 0 G 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.753 488.720 .000 0 10800 .97536 6.7056 1.00
-------
SOURCE ID DESCRIPTIVE NAHE
022281903000 UOP PROCESS DIVISION
LOC X LOC T PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
413.4 3609.0 02 P B .000 .145 6760 3.0 .0 .00
cn
RATED CAPCTY COAL HE*I R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE*B1 «O.OOOE«79 *O.OOOOE«60 *O.OOOOE*80 0.0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
30.480 633.280
SOURCE ID
022281903100
RATED CAPCTY
*O.OOOOOE+B1
DESCRIPTIVE NAHE
UOP PROCESS DIVISION
COAL HEAT R OILHEAT
«O.OOOE*79 »O.OOOOE»80
STACK HEIGHT STACK TEMPERATURE
15.240 355.280
SOURCE ID
022281903200
RATED CAPCTY
+O.OOCOOE*B1
DESCRIPTIVE NAHE
UOP PROCESS DIVISION
COAL HEAT R 01 LHE AT
*O.OOOE+79 *O.OOOOE*BO
STACK HEIGHT STACK TEMPERATURE
15.240 449.800
SOURCE ID
022287402501
RATED CAPCTY
*O.OOOOOE*81
DESCRIPTIVE NAHE
SHIFT AG. CHEMICAL CO.
COAL HEAT R OILHEAT
«O.OOOE»79 »O.OOOOE*80
STACK HEIGHT STACK TEMPERATURE
13.716 319.696
SOURCE ID
022287402601
RATED CAPCTY
*O.OOOOOE«81
DESCRIPTIVE NAME
SHIFT AG. CHEMICAL CO.
COAL HEAT R OILHEAT
•»O.OOOE*79 *O.OOOOE»80
STACK HEIGHT STACK TE HPER ATURE
.000 298.012
PLUME RISE
.000
LOC X LOC Y
413.4 3609.0
MAX
PROCESS RATE HAX
0
PJ OHNER TYPE
02 P B
D OILHEAT GASHEAT
*O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC Y
413.4 3609.0
MAX
COALBRN
0
PROCESS
0
PJ OHNER TYPE
02 P B
D OILHEAT GASHEAT
*O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC V
427.8 3593.6
MAX
COALBRN
0
PROCESS
0
PJ OHNER TYPE
02 P P
D OILHEAT GASHEAT
+0.00006*80 0
PLUME RISE
.000
LOC X LOC Y
427.8 3593.6
HAX
COALBRN
0
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R CILBRN
0
PROCESS RATE HAX
0
PJ OHNER TYPE
02 P P
D OILHEAT GASHEAT
+ O.OOOOE»80 0
PLUME RISE
.000
MAX
COALBRN
0
S02EHRAT
.000
R OILBRN
0
PROCESS RATE HAX
0
EXHAUST
916CO
PARTEHRT
.019
D OILBRN
0
EXHAUST
13300
PARTEHRT
.056
D OILBRN
0
EXHAUST
12 CO
PARTEHRT
.022
D OILBRN
0
EXHAUST
290 CO
PARTEHRT
.065
0 OILBRN
0
EXHAUST
5000
GAS VOL
OP TIME
7224
GAS BRN
GAS VOL
OP TIME
8232
GAS BRN
GAS VOL
OP TIHE
1840
GAS BRN
GAS VOL
OP TIHE
1920
GAS BRN
GAS VOL
STACK DIAMETER
3.13944
SHIFTS
3.0
COALSC
0 .00
SOZCONEFF
.0
R OILSC D
.00
STACK DIAHETER
1.06680
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAHETER
.39624
SHIFTS
1.0
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAHETER
1.03632
SHIFTS
1.0
COALSC
0 .00
S02CONEFF
.0
R OILSC 0
.00
STACK DIAHETER
3.04600
STACK VELOC
5.4864
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
7.0104
PARTCONEFF DEVICE
.00
USE FACT
1.00
10
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
4.5720
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
16.4592
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
.3048
USE FACT
1.00
-------
CT>
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
022291100600 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .043 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OCCOOt+81 «O.COOE»79 «O.OOOOE*80 *O.OOOOE»80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGH1 STACK TEMPERATURE
12.192 588.800
SOURCE 10
022291100700
RATED CAPCTT
«O.OOOOOE«81
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R 01 LHE AT
+O.OOOE«79 *O.OOOOE*60
STACK WIGHT STACK TEMPERATURE
45.720 616.600
SOURCE 10
022291100800
RATED CAPCTT
*O.OOOOOE«81
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
«O.OOOE*79 «O.OOOOE*80
STACK HEIGHT STACK TEMPERATURE
35.052 627.720
SOURCE ID
022291100900
HATED CAPCTY
«O.OOCOOE«8I
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R 01 1 HE A 1
*O.OOOE«79 «O.OOOOE*80
STACK HEIGHT STACK TEMPERATURE
45.720 616.600
SOURCE ID
022291105206
RAIEO CAPCIY
*O.OCOOOE*61
DESCRIPTIVE NAME
CALCUHET REFINING CO.
COAL HEAT K OILHEAT
»O.OOOE»79 *O.OOOOE*80
STACK HEIGHT STACK TEMPERATURE
9.144 505.403
PLUME RISE
.000
LOC X LOC Y
425.2 3592.4
MAX
PROCESS
0
PJ OWNER TYPE
02 P B
0 OILHEAT GASHEAT
+O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC Y
425.2 3592.4
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P B
0 OILHEAT GASHEAT
+ O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC Y
425.2 3592.4
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
C2 P B
0 OILHEAT GASHEAT
*O.OOOOE*BO 0
PLUME RISE
.000
LOC X LOC Y
451.8 3605.7
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
01 P P
0 OILHEAT GASHEAT
+O.OOOOE»80 0
PLUME RISE
.000
MAX
COALBRN
0
PROCESS
0
RATE MAX
S02EMRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
EXHAUST
231 CO
PARTEMRT
.053
0 OILBRN
0
EXHAUST
21 7 CO
PARTEHRT
.014
D OILBRN
0
EXHAUST
175CO
PARTEHRT
.049
D OILBRN
0
• EXHAUST
24700
PARTEHRT
.035
0 OILBRN
0
EXHAUST
4100
GAS VOL
OP TINE
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TINE
500
GAS BRN
GAS VOL
STACK DIAMETER
1.06680
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC 0
.00
STACK DIAMETER
2.43840
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAMETER
2.1336O
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAMETER
2.43840
SHIFTS
1.3
COALSC
0 .00
S02CONEFF
.0
R OILSC D
.00
STACK DIAMETER
.79248
STACK VELOC
12.1920
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
2.1336
PARTCONEFF DEVICE
.00
USE fUCI
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
2.4384
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
2.4384
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
3.9624
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE NAME LOG X LOC T PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF OEVKE 10
022241105600 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .233 8760 3.0 .0 .00
RATED CAKIY COAL HEAT R OILHEAT D OILHEAT GASHEAT COAtBRN R OILBRN D OUBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASM
*O.OOOOOE«81 *O.OOOE+79 *O.OOOOE*80 «O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.192 572.123 .000 0 522CO 1.52400 13.4112 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OWNER TTPE S02EHRAT PARTEHRT OP TINE SHIFTS SO2COUFF PARTCONEFF DEVICE 10
022291105700 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .233 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R 01LHEAT D OILHEAT GASHEAT COALBRM R CILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*0.000006*81 «O.OOOE+79 «O.OOOOE + 60 *O.OOOOE*80 0 00 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE NAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.192 572.120 .000 0 522CO 1.52400 13.4112 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OHNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CUMEFF PARTCONEFF DEVICE ID
022295100401 ROY COOK AND SONS 429.7 3599.2 01 P P .000 .046 2500 1.3 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
IO «O.OOOOOE*81 «O.OOOE«79 *9 .OOOOE + 80 «O.OOOOE+80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.315 338.600 .000 0 45000 2.13360 5.7912 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295100503 HINFORD CO. 434.4 3600.0 01 P P .000 .146 2200 1.4 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRH COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.00000E«81 +O.OOOE+79 *O.OOOOE*80 *O.OOOOE»80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.496 349.720 .000 0 42000 1.98120 3.9624 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02229510*901 MADDEN CONTRACTING CO. 472.8 3608.4 03 P P .000 .046 1600 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OCCOOE*81 •»O.COOE*79 «O.OOOOE*80 «O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.144 366.400 .000 0 59500 1.06680 31.3944 1.00
-------
10
CO
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OMNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295201000 BIRO I SON INC. 428.2 3599.0 02 P B .000 .062 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
•O.OOOOOEtBl «O.OOOE«79 *O.OOOOE*80 *O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
13.716 588.800
SOURCE ID
022322901400
RATED CAPCTY
«O.OCCOOE*81
DESCRIPTIVE NAME
IIBBEV GLASS DIVISION
COAL HEAT R OILHEAT
*O.OOOE*79 *O.OOOOE«80
STACK HEIGHT STACK TEMPERATURE
53.3*0 533.200
SOURCE ID
022322901500
RATED CAPCTY
»O.OOOOOE»81
DESCRIPTIVE NAME
IIBBEY GLASS DIVISION
COAL HEAT R OILHEAT
«O.OOOE*79 + O.OOOOE»80
STACK HEIGHT STACK TEMPERATURE
53. MO 533.200
SOURCE ID
022322901600
RAIED CAPCTV
•o.oooooEtei
DESCRIPTIVE NAME
L1BBY GLASS DIVISION
COAL HEAT R OILHEAT
«O.OOOE«79 *O.OOOOE»80
STACK HEIGHT STACK TEMPERATURE
22.860 616.600
SOURCE ID
022325105401
RATED CAPCTY
*0. 00000 E+81
DESCRIPTIVE NAME
ATHENS-CADDO BRICK CO.
COAL HEAT R OILHEAT
«O.OOOE*79 *O.OOOOE»80
STACK HEIGHT STACK TEMPERATURE
6.096 616.600
PLUME RISE
.000
LOC X LOC Y
425.0 3592.7
MAX
PROCESS
0
PJ OMNER TYPE
02 P B
D OILHEAT GASHEAT
»O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC V
425.0 3592.7
MAX
COALBRN
0
PROCESS
0
PJ OMNER TYPE
02 P B
0 OILHEAT GASHEAT
+O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC Y
425.0 3592.7
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P B
D OILHEAT GASHEAT
*O.OOOOE*80 0
PLUME RISE
.000
LOC X IOC Y
409.9 3616.9
MAX
COALBRN
0
PROCESS
0
PJ OMNER TYPE
02 P P
D OILHEAT GASHEAT
*O.OOOOE*80 0
PLUME RISE
.000
MAX
COALBRN
0
PROCESS
0
RATE HAX
S02EHKAT
.000
R OILBRN
0
RATE HAX
S02ENRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHBAT
.000
R OILBRN
0
RATE HAX
EXHAUST
21800
PARTEMRT
.177
0 OILBRN
0
EXHAUST
21500
PARTEMRT
.177
D OILBRN
0
EXHAUST
21500
PARTEHRT
.208
0 OILBRN
0
EXHAUST
78500
PARTEHRT
.050
0 OILBRN
0
EXHAUST
10500
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
STACK DIAMETER
1.21920
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.43840
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.43840
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAHETER
1.06680
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
1.03632
STACK VELOC
8.5344
PARTCONEFF DEVICE
.00
USE FACT
1.00
10
0 OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
22.8600
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
22.8600
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
0 OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
42.6720
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
5.7912
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE MAKE LOC X IDC T PJ OHNER TYPE SOZEHRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
OZ2325105501 ATHENS-CADOO BRICK CO. 409.9 3616.9 02 P P .000 .040 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT 0 OILHEAT 6ASHEAT COALBRN R OILBRN 0 OHBRH CAS BRN COALSC R OUSC 0 OltSC CAS SC COAL ASH
+O.OCCOOE+81 +O.OOOE+79 +O.OOOOE+80 «O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.000 298 .012 .000 0 12 CO 1.52400 .3048 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER ITPE S02EHRAT PARTENRT OP TIME SHIFTS SOZCONEFF PARTCOHEFF DEVICE ID
022332301101 HICA CORP. 427.5 3590.6 02 P P .000 .022 4000 2.0 .0 .00
RATED CAPCIT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
«0.000001 + 81 + O.OOOE+79 +0 .OOOOE + 80 + O.OOOOE + 80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.010 333.040 .000 0 21900 .60960 35.3568 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OHNER TYPE SOZEHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PAR 1C ONE FF DEVICE ID
022332301201 HICA CORP. 427.5 3590.6 02 P P .000 .058 2000 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
<£> + O.OOCOOE+81 + O.OOOE+79 «O.OOOOE + 80 +O.OOOOE+80 0 0 0 0 0 .00 .00 .00 .0000 .0
VO
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.705 298.012 .000 0 14500 .60960 23.4696 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE SOZEHRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
0223323017C1 MID-CONTINENT STEEL »1 427.5 3590.6 02 P P .000 .004 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
+O.OCCOOE+61 +O.OOOE+79 + O.OOOOE + 80 +O.OOOOE+80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
11.277 335.820 .000 0 20000 .82296 18.2880 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OWNER TYPE SOZEHRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022332301801 MID-CONTINENT STEEL «Z 427.5 3590.0 02 P P .000 .003 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
+ O.OCOOOE + 81 + O.OOOE+79 «0 .OOOOE«80 +O.OOOOE+80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE RAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.400 308.020 .000 0 22000 .91440 15.8496 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOC X IOC t PJ OUNER TYPE SOZEIWAT PARTENRT OP TIME SHIFTS SOZCOHEFF PARTCONEFF DEVICE ID
022332301901 HIO-CONTINENT STEEL f2 427.5 3590.6 02 P P .000 .004 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT 6 A SHE AT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OCCOOE«81 *O.OOOE«79 40.0000E + 80 +O.OOOOE*80 0000 0 .00 .00 .00' .0000 .0
STACK HEIGHT STACK TEMPERATURE
6.400 308.020
SOURCE ID
0223*6105300
RATED CAPCTY
+0.0 0000 E*81
DESCRIPTIVE MANE
WESTERN ELECTRIC CO.
COAL HEAT R OILHEAT
+O.OOOE+79 *O.OOOOE*80
STACK HEIGHT STACK TEMPERATURE
18.288 427.560
SOURCE ID
022491102200
DESCRIPTIVE NAME
SU.E. P. C. -ARSENAL HILL
RATED CAPCTY COAL HEAT R OILHEAT
o +O.OOOOOE»81 +O.OOOE+79 «O.OOOOE«80
O
STACK HEIGHT STACK TEMPERATURE
42.672 449.600
SOURCE ID
022491102300
RATED CAPCTY
*0. 00000 E*81
DESCRIPTIVE NAME
SU.ELEC.PWR.-LIEBERNAN
COAL HEAT R OILHEAT
«O.OOOE*79 »O.OOOOE*80
STACK HEIGHT STACK TEMPERATURE
42.672 449.800
SOURCE ID
022491102400
RATED CAPCTY
»O.OOOOOE«81
DESCRIPTIVE NAME
SU .ELEC.PUR.-llEBERNAN
COAL HEAT R OILHEAT
»O.OOOE+79 «O.OOOOE«80
STACK HEIGHT STACK TEMPERATURE
42.672 449.800
PLUME RISE
.000
MAX
PROCESS
0
LOC X LOC V PJ OUNER TYPE
426.2 3590.9 02 P B
D OILHEAT GASHEAT COALBRN
+O.OOOOE»80 0 0
PLUME RISE
.000
LOC * LOC V
415.5 3596.9
MAX
PROCESS
0
PJ OWNER TYPE
02 U B
0 OILHEAT GASHEAT
»O.OOOOE»8C 0
PLUME RISE MAX
.000
LOC X LOC Y
410.7 3618.7
COALBRH
0
PROCE SS
0
PJ OWNER TYPE
02 U B
D OILHEAT GASHEAT
*O.OOOOE*80 0
PLUME RISE
.000
LOC X LOC V
410.7 3618.7
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 U B
D OILHEAT GASHEAT
+O.OOOOE«80 0
PLUME RISE
.000
MAX
COALBRN
0
PROCESS
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
EXHAUST
22000
PARTEHRT
.218
D OILBRN
0
EXHAUST
2 000 CO
PARTEHRT
.078
D OILBRN
0
EXHAUST
434 CO
PARTEHRT
.090
D OILBRN
0
EXHAUST
43400
PARTEHRT
.116
D OILBRN
0
EXHAUST
434 CO
GAS VOL
OP TIHE
3840
GAS BRN
GAS VOL
OP TIHE
8760
GAS BRN
GAS VOL
OP TIHE
8760
GAS BRN
GAS VOL
OP TIHE
8760
GAS BRN
GAS VOL
STACK DIAMETER
.91440
SHIFTS S02CONEFF
2.0 .0
COALSC R OILSC
0 .00 .00
STACK DIAMETER
2.80416
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK DIAMETER
3.77952
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK DIAMETER
3.77952
SHIFTS S02CONEFF
3.0 .0
COALSC R OILSC
0 .00 .00
STACK DIAMETER
3.77952
STACK VELOC USE FACT
15.8496 1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC USE FACT
15.2400 1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC USE FACT
22.5552 1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC USE FACT
22.5552 1.00
PARTCONEFF DEVICE ID
.00
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC USE FACT
22.5552 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OMNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCOMEFF DEVICE 10
022*95300206 ANTHONY FORES 1 PRODUCTS 434.5 3640.8 01 P S .000 .083 4704 3.0 .0 .00
RATED CAPCIT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRH R OILBRN D OILBRH GAS BRN COALSC R OILSC B OStSC GAS SC COAL ASH
»O.OOOOOE»81 »O.OOOE*79 *O.OOOOE*80 »O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
1.524 394.200 .000 0 300 .45720 .9144 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OHN£R TYPE S02EMAT PARTEHRT OP TINE SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022495302101 SHREVEPORT INCINERATOR 428.1 3593.8 02 L S .000 1.816 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OCCOOE»81 *O.OOOE*79 «O.OOOOE*80 «O.OOOOE*80 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
30.480 588.600 .000 0 140000 2.37744 14.9352 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TYPE S02EHRAT PARTENRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022495305106 OLINKRAFI 432.5 3599.5 01 P S .000 .796 4000 2.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OOCOOE«81 *O.OOOE+79 *0 .OOOOE«80 *O.OOOOE*80 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
18.288 477.600 .000 0 130000 4.14528 4.5720 1.00
-------
NOTE. DATA GIVEN IN CONVERTED UNITS.
AREA SOURCES
SOURCE 10 IOC XIKI LQC Y IK I
AREA(SO KM) PJ EFFECTIVE STACK H&Tlfl) S 02 EMISSION RATEIT/D) PART EMISSION RATEIT/D)
O
ro
022999910100
022999910200
022999910300
022999910*00
022999910500
022999910600
022999910700
0229 9991 OS 10
022999910820
022999910900
02299991 1000
022999911100
022999911200
022999920100
022999920200
022999920300
022999920400
02299992 0500
02299V920600
022999920700
022999920800
022999920900
02299992 100G
022999921100
022999921200
022999921300
02299992 1400
02299992 150C
02299992 1600
022999921700
02299992 1800
022999921900
022999922000
022999922100
022999922200
022999922300
022999922400
022999922500
022999922600
022999922700
022999922800
022999922900
022999923000
022999923100
022999923200
022999923300
022999923400
022999923500
02299992 3600
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.8
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
430.2
430.1
431.4
432.8
430.7
429.0
427.0
427.1
426.7
425.4
424.6
422.2
425.0
425.3
427.2
429.1
430.9
431.9
432.9
431.7
429.8
428.7
426.9
424.7
421.7
422.5
3594.7
3596.8
3597.9
3598.0
3600.0
3598.2
3596.3
3595.6
3590.9
3587.7
3575.1
3600.1
3623.7
3596.8
3595.8
3595.8
3596.8
3598.6
3596.8
3596.1
3595.3
3595.5
3594.3
3594.9
3593.8
3594.5
3595.3
3592.5
35 92 .4
3592.5
3593.7
3595.0
3595.6
3594.3
3591.9
35 92 .9
3591.0
3592.0
3590.8
3591.1
3591.2
3591.6
3589.4
3582.2
3589.5
3589.4
3588.7
3588.5
3590.8
.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
.7
2.4
.5
1.5
4.7
1.4
1.4
.9
.9
1.9
1.3
2.0
3.7
1.4
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.8
2.9
1.8
4.0
2.4
1.6
3.3
5.2
9.7
2.5
01
01
01
01
01
01
01
01
01
01
01
01
01
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
144
144
144
144
144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.006
.041
.056
.064
.098
.175
.178
.099
.213
.105
.086
.249
.160
.009
.018
.021
.058
.048
.046
.073
.046
.039
.044
.048
.070
.067
.032
.041
.063
.045
.034
.060
.054
.095
.065
.058
.070
.098
.054
.042
.069
.046
.061
.029
.042
.060
.098
.105
.069
-------
SOURCE 10 LOC X(K> LOC TIKI AREAISQ KHI PJ EFFECTIVE STACK HGTtHI SQ2 EMISSION KATEIT/DI PART EMISSION RATEIT/DI
O
oo
022999923700
022999923800
022999923900
022999924000
022999924110
02299992 4120
022999924200
022999924300
022999924400
02299992 4500
022999924600
02299992 4700
022999924800
022999924900
022999925000
02299992 5100
022999930100
022999930200
022999930300
427.0
429.3
430.2
435.9
421.3
421.1
403.1
402.4
417.8
404.0
420.8
424.4
412.8
399.8
406.2
409.6
460.4
459.7
452.7
3587.5
3587.1
3583.6
3569.8
3582.5
3576.7
3565.9
3583.4
3591.0
3600.8
3598.5
3603.5
3610.6
3624.1
36 36 .0
3633.8
3584.8
3603.3
3625.2
5.1
4.5
40.3
216.7
39.5
42.0
370.3
236.1
26.5
355.7
41.6
8.8
252.3
338.0
9.7
291.1
475.8
460.0
659.6
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
03
03
03
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.098
.103
.068
.035
.239
.026
.060
.082
.037
.108
.139
.032
.034
.045
.056
.046
.312
.302
.432
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
104
-------
A. 4 1995 PROJECTED
105
-------
SOURCE FILE FOR SKB.EVEPORT
CREATE DATE AUGUST 22» 1977 UPDATE DATE
RECION
OUTPUT UNITS
SOURCE 10
RATED CAPCTY
BTU/HOUR
DESCRIPTIVE NAME
COAL HEAT R OILHEAT
BTU/TON BTU/GAL
STACK HEIGHT STACK TEMPERATURE
METERS DEC K
SOURCE ID
022144603300
RATED CAPCTT
«O.OOOOOE+61
DESCRIPTIVE MAME
DRESSER MINERALS CO.
COAL HEAT R OILHEAT
«O.OOOE*59 «O.OOOOE«60
STACK HEI6HT STACK TEMPERATURE
7.620 324.700
— . SOURCE ID
0 022204602001
RATED CAPCTV
«O.OOOOOE«61
DESCRIPTIVE NAME
SHREVEPORT GRAIN C EL.
COAL HEAT R OILHEAT
«O.OOOE«S9 «O.OOOOE«60
STACK HEIGHT STACK TEMPERATURE
6.096 298.012
SOURCE ID
022242100101
RATED CAPCTT
•0. 00000 E«61
DESCRIPTIVE NAME
ANTHONY FOREST PRODUCTS
COAL HEAT R OILHEAT
*O.OOOE*59 «OU)OOOE*60
STACK HEIGHT STACK TEMPERATURE
. 000 298 .012
SOURCE ID
022242601300
RATED CAPCTY
«O.OOCOOE«61
DESCRIPTIVE NAME
KROEHLER MFC. CO.
COAL HEAT R OILHEAT
«O.OOOE*59 «O.OOOOE«60
STACK HEIGHT STACK TEMPERATURE
27.432 616.600
LOC X LOC Y PJ OWNER TYPE SG2EHRAT
KM KM — - - IONS/DAY
0 OILHEAT GASHEAT COALBRN R OILBRN
BTU/GAL BTU/CU FT TON/DAY GAL/DAY
PLUME RISE
H MR/ SEC
LOC X LOC V
480.8 3595.0
MAX
PROCESS
LB/HR
POINT
PJ OWNER TYPE
03 P B
D OILHEAT GASHEAT
«O.OOOOE*60 0
PLUME RISE
.000
IOC X LOC Y
427.7 359G.7
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P P
0 OILHEAT GASHEAT
*O.OOOOE«60 0
PLUME RISE
.000
LOC X LOC V
434.5 3640.8
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
01 P P
D OILHEAT GASHEAT
*O.OOOOE«60 0
PLUME RISE
.OOC
LOC X LOC V
428.0 3590.6
MAX
COALBRN
0
PROCESS
0
PJ OWNER TYPE
02 P B
D OILHEAT GASHEAT
«O.OOOOE*60 0
PLUME RISE
.000
MAX
COALBRN
0
RATE MAX
SOURCES
S02ENRAT
.000
R 01LBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02ENRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
PROCESS RATE MAX
0
PAR TEH RT
TONS/PAT
0 OILBRN
GAL /DAY
EXHAUST
ACFH
PAR TEH RT
.083
D OILBRN
0
EXHAUST
500
PAR TEH RT
.011
0 OILBRN
0
EXHAUST
30CO
PARTEHRT
.054
D OILBRN
0
EXHAUST
0
PARTENRT
.367
0 OILBRN
0
EXHAUST
6500
OP TIME
HBS/VR
GAS BRN
CU FT/DAY
GAS VOL
OP TIME
6240
GAS BRN
0
GAS VOL
OP TIME
2295
GAS BRN
0
GAS VOL
OP TIME
1960
GAS BRN
0
GAS VOL
OP TIME
1880
GAS BRN
0
GAS VOL
SHIFTS
COALSC
x
S02CONEFF
X
R OILSC D
X
STACK DIAMETER
METERS
SHIFTS
3.0
COALSC
.CO
S02CONEFF
.0
R OILSC 0
.00
STACK DIAMETER
.45720
SHIFTS
1.1
COALSC
.00
S02CONEFF
.0
R OILSC 0
.00
STACK DIAMETER
.12192
SHIFTS
1.0
COALSC
.00
S02CONEFF
.0
R OILSC D
.00
STACK DIAMETER
.00000
SHIFTS
1.0
COALSC
.00
S02CONEFF
.0
R OILSC 0
.00
STACK DIAMETER
1.52400
PARTCONEFF DEVICE 10
9 -•--•
OILSC GAS SC COAL ASH
Z X Z
STACK VELOC
M/SEC
USE FACT
PARTCONEFF DEVICE 10
.00
OILSC GAS SC
.00 .0000
STACK VELOC
1.5240
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC
.00 .0000
STACK VELOC
3.0480
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC
.00 .0000
STACK VELOC
.0000
COAL ASH
.0
USE FACT
1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC
.00 .0000
STACK VELOC
1.8288
COAL ASH
.0
USE FACT
1.00
-------
SOURCE 10 DESCRIPTIVE NAME IOC X UK T PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
0222*3100301 CADDO DOOR t VENEER 432.3 3599.5 01 P P .000 .045 1200 1.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT CASHEAT COALBRN R OILBRN 0 OILBRH CAS BRN COALSC R OltSC D OILSC CAS SC COAL ASH
«O.OOOOOE«61 «O.OOOE*59 «O.OOOOE*60 «O.OOOOE*6C 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.096 394.200 .000 0 3500 .60960 5.7912 l.CO
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OHMER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022243505001 WOOOttARO-UALK ER CO. 471.5 3606.5 03 P P .000 .062 6000 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE*61 *O.OOOE*59 *O.OOOOE*60 «O.OOOOE*60 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.144 298.012 .000 0 21600 1.21920 8.8392 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103400 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 2.6CO 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
*O.OOOOOE»61 «O.OOOE«59 *O.OOOOE*60 *O.OOOOE*60 0 0 00 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELUC USE FACT
76.200 402.540 .000 0 3071CO 6.09600 4.8768 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103504 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 1.770 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OllHEAT CASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
+O.OOCOOE»61 +O.COOE+59 *O.OOOOE*60 «O.OOOOE»60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAHETER STACK VELOC USE FACT
76.504 429.228 .000 0 214000 2.71272 17.6784 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OMNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103604 INTERNATIONAL PAPER CO. 497.3 3648.1 03 P P .000 .167 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT o OILHEAT CASHEAT COALBRN R OILBRN o OILBRN GAS BRN COALSC R OILSC o OILSC GAS sc COAL ASH
»O.OOCOOE*61 +O.OOOE+59 «0 .OOOOE»60 *O.OOOOE«60 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
65.532 346.940 .000 0 82CO 1.21920 4.5720 1.00
-------
SOURCE 10 DESCRIPTIVE NAME LOC X LOC T PJ ONNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103704 INTERNATIONAL PAPER CO. 457.3 3646.1 03 P P .000 .132 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R 011. HE AT D OILHEAI GASHEAT COALBRN R OILBRN 0 OILBRN £AS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
«O.OOOOOE«61 *0.000€+59 «O.OOOOE«60 *O.OOOCE«6C 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
65.532 338.600 .000 0 237 CO 1.21920 10.0584 1.00
SOURCE ID DESCRIPTIVE MANE LOC X LOC V PJ OHNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103800 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 1.464 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«61 *O.OOOE»59 «0 .OOOOE«60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.928 561.000 .000 0 129000 1.B28BO 19.8120 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEMRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262103900 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 2.211 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
o »O.OOOOOE+61 «O.OOOE*59 «O.OOOOE«60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
00
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 561.000 .000 0 1320CO 1.82880 18.2880 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02COHEFF PARTCONEFF DEVICE ID
022262104000 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .626 8760 3.0 .0 .00
RATED CAPCTV COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE*61 «O.OOOE«59 «O.OOOOE«60 *O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 561.000 .000 0 113000 1.82880 17.3736 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OHNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022262104100 INTERNATIONAL PAPER CO. 45T.3 3648.1 G3 P B .000 .318 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
+O.OCCOOE«61 +O.OOOE»59 «O.OOOOE*60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE HAX PROCESS RATE HAX EXHAUST GAS VOL STACK DIAHETER STACK VELOC USE FACT
33.528 561.000 .000 0 114000 1.82880 17.6784 1.00
-------
SOURCE ID DESCRIPTIVE NAME LOC X IOC T PJ OKNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022Z62104200 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .762 8760 3.0 .0 .00
RATED CAPCTT COM HEAT R OILHEAT D OILHEAT 6 A SHE AT COALBRN R OILBRN D DILBRN GAS BRN COALSC R OILSC 0 01 ISC GAS SC COAL ASH
«O.OOOOOE«61 *O.COOE+59 *O.OOOOE«60 «O.OOOOE*60 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
33.528 588.800 .000 0 167000 1.82880 25.6032 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OHNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
OZ2Z6Z104300 INTERNATIONAL PAPER CO. 457.3 3448.1 03 P B .000 .180 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE*61 *O.OOOE«S9 »O.OOOOE«60 «O.OOOOE*60 0 0 0 0 0 .00 .00 .00 .0000 .0
S*ACK HEIGHT STACK TEMPERATURE PLUBE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FAC1
33.S28 455.360 .000 0 105000 1.82880 19.2024 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OHNER TYPE S02EHRAT PARTENRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
02ZZ62104403 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .725 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
—• *O.OCCOOE«61 *O.COOE*59 «O.OOOOE»60 «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK WE LOC USE FACT
28.346 364.732 .000 0 33300 1.52400 8.5344 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OHNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022262104503 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P P .000 .476 8760 3.0 .0 .00
RATED CAPCTY COM. HEAT R OILHEAT 0 OILMEAI CASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
•O.OOOME+61 *O.OOOE*5« *O.OOOOE«60 «O.OOOOE«60 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
28.346 364.732 .000 0 3Z5CO 1.52400 8.2296 1.00
SOURCE ID DESCRIPTIVE NAME UK X LOC * PJ OHNER TYPE SOZEHKAI PARTEMRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
OZ2Z62104604 INTERNATIONAL PAPER CO. 497.3 3649.1 03 P P .000 .173 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*61 *O.OOOE*59 *O.QOOOE*60 *O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
70.713 433.120 .000 0 Z52000 .00000 27.1272 1.00
-------
SOURll ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TTPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE 10
322262104700 INTERNATIONAL PAPER CO. 457.3 3648.1 03 P B .000 .121 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT CASHEAT COALBRN R 01LBRN 0 OILBRN CAS BRN COALSC R OILSC D OILSC CAS SC COAL ASH
*O.OCCOOE«61 O.OOOE*59 *O.OOOOE+60 +O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
9.448 488.720 .000 0 10800 .97536 6.7096 1.00
SOURCE III DESCRIPTIVE NAME LOC X LOC T PJ OHNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022281902860 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .037 8760 3.0 .0 .00
RATED CAPCTY COAL HEAI R OILHEAT D OILHEAT CASHEAT COALBRN R OILBRN D OILBRN CAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
*O.OOOOOE*61 »0.000€«59 «0 .OOOOE*60 *O.OOOOE*60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
9.753 488.720 .000 0 108CO .97536 6.7056 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ ONNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022281902900 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .215 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT CASHEAT COALBRN R OILBRN 0 OILBRN CAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
*O.OOOOOE«61 *O.OOOE*59 »O.OOOOE*60 *O.OOOOE*60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST CAS VOL STACK DIAMETER STACK VELOC USE FACT
9.753 488.720 .000 0 10800 .97536 6.7056 1.00
-------
SOURCE ID DESCRIPTIVE HA HE LOG X LDC T PJ OMHER TYPE S02EHRAT PAR TEH RT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022381903000 UOP PROCESS DIVISION 413.4 3609.0 02 P B .000 .223 B760 3.0 .0 .00
RATED CAPCTV COM. HEAT R OILHEAT 0 OILHEAT 6 A SHE AT COALBRN R OILBRH D OILBRN CAS BRN COALSC R QIISC D OILSC GAS SC COAL ASH
«O.OCOOOE+61 «O.OOOE*59 «O.OOOOE*60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
30. 480 633.280
SOURCE ID
022281903100
RATED CAPCTY
»O.OOOOOE«61
DESCRIPTIVE NAME
UOP PROCESS DIVISION
COAL HEAT R OILHEAT
+0. 0001*59 *O.OOOOE«60
STACK HEIGHT STACK TEMPERATURE
15. 240 355.280
SOURCE ID
022281903200
RATED CAPCTY
«0. 00000 E«61
DESCRIPTIVE MAME
UOP PROCESS DIVISION
COAL HEAT R OILHEAT
*O.OOOE+59 «O.OOOOE*60
STACK HEIGHT STACK TEMPERATURE
15.240 449 .BOO
SOURCE ID
022287402501
RATED CAPCTY
•0.00000 E«61
DESCRIPTIVE NAME
SHIFT A6. CHEMICAL CO.
COAL HEAT R OILHEAT
«O.OOOE+59 «0 .OOOOE*60
STACK HEIGHT STACK TEMPERATURE
13 . 716 319 .696
SOURCE ID
022287402601
RATED CAPCTY
»O.OOCOOE*61
DESCRIPTIVE NAME
SHIFT AC. CHEMICAL CO.
CUAL HEAT R OILHEAT
«O.OOOE*59 *O.OOOOE*60
STACK HEIGHT STACK TEMPERATURE
. COO 298 .012
PLUME RISE
.000
LOC X LOC
413.4 3609
0 OILHEAT
«O.OOOOE*60
T
.0
MAX PROCESS
0
PJ OHNER TYPE
02 P B
GASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X LOC
413.4 3609
D OILHEAT
«O.OOOOE«60
Y
.0
MAX PROCESS
0
PJ OHNER TYPE
02 P B
GASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X LOC
427.8 3593
D OILHEAT
»O.OOOOE*60
Y
.6
MAX PROCESS
0
PJ OHNER TYPE
02 P P
GASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X LOC
427.8 3593
D OILHEAT
«O.OOOOE*60
Y
.6
RATE MAX
S02ENRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAT
.000
R OILBRN
0
MAX PROCESS RATE MAX
0
PJ OHNER TYPE
02 P P
GASHEAT COALBRN
0 0
PLUME RISE
.000
S02EMRAT
.DOO
R OILBRN
0
MAX PROCESS RATE MAX
0
EXHAUST
91600
PAR TEH RT
.029
0 OILBRN
0
EXHAUST
133CO
PARTEHRT
.086
0 OILBRM
0
EXHAUST
1200
PARTEHRT
.024
D OILBRN
0
EXHAUST
290 CO
PARTEHRT
.073
D OILBKN
0
EXHAUST
5000
GAS VOL
OP TIME
7224
GAS BRN
GAS VOL
OP TIME
8232
GAS BRN
GAS VOL
OP TIME
1840
CAS BRN
GAS VOL
OP TIME
1920
GAS BRN
CAS VOL
STACK DIAMETER
3.13944
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
1.06680
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
.39624
SHIFTS
1.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
1.03632
SHIFTS
1.0
CDALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
3.04800
STACK VELOC
5.4864
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC CAS SC COAL ASH
.00 .0000 .0
STACK VELOC
7.0104
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC CAS SC COAL ASH
.00 .0000 .0
STACK VELOC
4.5720
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
0 OILSC CAS SC COAL ASH
.00 .0000 .0
STACK VELOC
16.4592
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
.3048
USE FACT
1.00
-------
ro
SOURCE ID DESCRIPTIVE NAME LOC X LOC V PJ OHNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022291100600 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .057 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«61 *O.OOOE*59 «0 .OOOOE»60 *O.OOOOE*60 0 0 0 00 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
12.192 588.800
SOURCE 10
02224110 C700
RATED CAPCTY
«O.OCCOOE*bl
DESCRIPTIVE NAHE
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
»O.OOOE«59 *O.OOOOE*60
STACK HEIGHT STACK TEMPERATURE
45.720 616.600
SOURCE ID
02229110C800
RATED CAPCTY
*O.OCCOOE*61
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
*O.OOOE*59 *O.OOOOE*60
STACK HEIGHT STACK TEMPERATURE
35.052 627.720
SOURCE ID
022291100900
RATED CAKTT
*O.OOOOOE+61
DESCRIPTIVE NAME
ATLAS PROCESSING CO.
COAL HEAT R OILHEAT
*O.OOOE«S9 *O.OOOOE«60
STACK HEIGHT STACK TEMPERATURE
45.720 616.600
SOURCE ID
022291105208
RATED CAPCTY
*0. 00000 E«61
DESCRIPTIVE NAME
CALCUMET REFINING CO.
COAL HEAT R OILHEAT
«O.OOOE*59 «O.OOOOE*60
STACK HEIGHT STACK TEMPERATURE
9. 144 505 .400
PLUME RISE
.000
LOC 1 LOC
425.2 3592
0 OILHEAT
«O.OOOOE«60
1
.4
MAX PROCESS RATE MAX
0
PJ OH HER TYPE
02 P B
GASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X LOC
42S.2 3592
D OILHEAT
«O.OOOOE»60
t
.4
S02EMRAT
.000
R OILBRN
0
MAX PROCESS RATE MAX
0
PJ OUNER TYPE
02 P B
GASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X LOC
425.2 3592
D OILHEAT
*O.OOOOE*60
V
.4
S02EHRAT
.000
R OILBRN
0
MAX PROCESS RATE MAX
0
PJ OWNER TYPE
02 P B
CASHEAT COALBRN
0 0
PLUME RISE
.000
LOC X LOC
451.8 3605
0 OILHEAT
»O.OOOOE»60
Y
.7
S02EHRAT
.000
R OILBRN
0
MAX PROCESS RATE HAX
0
PJ OWNER TYPE
01 P P
GASHEAT COALBRN
0 0
PLUME RISE
.000
S02EMRAT
.000
R OILBRN
0
HAX PROCESS RATE MAX
0
EXHAUST
23100
PARTEHRT
.070
D OILBRN
0
EXHAUST
21700
PARTENRT
.019
0 OILBRN
0
EXHAUST
17500
PARTEHRT
.065
0 OILBRN
0
EXHAUST
24700
PARTEHRT
.046
D OILBRN
0
EXHAUST
4100
GAS VOL
OP TINE
8760
GAS BRN
GAS VOL
OP TINE
8760
GAS BRN
GAS VOL
OP TIME
8760
GAS BRN
GAS VOL
OP TIHE
500
GAS BRN
GAS VOL
STACK DIAMETER
1.06680
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.43840
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.13360
SHIFTS
3.0
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
2.43840
SHIFTS
1.3
COALSC
0 .00
S02CONEFF
.0
R OILSC
.00
STACK DIAMETER
.79248
STACK VELOC
12.1920
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
0 OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
2.1336
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
0 OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
2.4384
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
D OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC
2.4384
PARTCONEFF DEVICE
.00
USE FACT
1.00
ID
0 OILSC CAS SC COAL ASH
.00 .0000 .0
STACK VELOC
3.9624
USE FACT
1.00
-------
SOURCE ID DESCRIPTIVE NAHE IOC X IOC T PJ OMNER TTPE S02EHRAT PARTEHR1 OP TIME SHIFTS S02CQNEFF PARTCOHEFF DEVICE ID
022291105600 ATLAS PROCESSING CO. 425.2 3592.4 02 P B .000 .308 6760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT G A SHE AT COALBRN R OILBRN 0 01LBRN GAS BRN COALSC R OILSC 0 OILSC CAS SC COAL ASH
•O.OOCOOE«61 «O.OOOE*59 «O.OOOOE*60 *O.OOOCE*60 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.192 572.120 .000 0 522 CO 1.52*00 13.4112 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OMNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02COMEFF PARTCONEFF DEVICE ID
022291105700 ATLAS PROCESS W6 CO. 425.2 3592.4 02 P B .000 .306 8760 3.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
«O.OOCOOE*61 *O.OOOE*59 «0 .OOOOE*60 «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.192 572.120 .000 0 52200 1.52400 13.4112 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OMNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
_, 02229S10G401 ROY COOK AND SONS 429.7 3599.2 01 P P .000 .069 2500 1.3 .0 .00
CO RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE*61 *O.OOOE*59 «0 .OOOOE«60 *O.OOOOE*60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.315 338.600 .000 0 45000 2.13360 5.7912 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OMNER TYPE S02EHRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295100503 MINFORD CO. 434.4 3600.0 01 P P .000 .222 2200 1.4 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOOOOE*61 *O.OOOE»59 «O.OOOOE«60 *O.OOOOE*60 O 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
12.496 349.720 .000 0 42000 1.98120 3.9624 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OMNER TYPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022295104901 MADDEN CONTRACTING CO. 472.8 3608.4 03 P P .000 .069 1600 1.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OOCOOE*61 *O.OOOE*59 *O.OOOOE*60 «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK WIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
9.144 366.400 .000 0 59500 1.06680 31.3944 1.00
-------
SOURCE 10 DESCRIPTIVE MAKE lOC X IOC 1 PJ OWNER TYPE S02EHRAI ?AP?£»K< OP T1HE SHIFTS S02CONEFF PARTCOME ?F DEVICE ID
022295201000 BIRD L SON INC. 428.2 3599.0 02 P B .000 .095 8760 3.0 .0 .00
RATED CAPCIY COAL HEAT R 01LHEAT D 01 IHEAT GASHEAT COALBRH R OILBRN D CILBRN CAS BRN COALSC R OILSC 0 OIISC GAS SC COAL ASH
«O.OCCOOE*61 + O.OOOE*59 «0 .OOOOE»60 *O.OOOCE«6C 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE
13.716 588.600
SOURCE ID DESCRIPTIVE NAME
022322901400 LI8BEY GLASS DIVISION
RATED CAPCIY COAl HEM R OILHEAT
>O.OOCOOE*61 *C,COOE-»5<3 +O.OOOOE«60
''.TACK HElGKf STACK TEMPERATURE
53.340 533 .200
SOURCE ID DESCRIPTIVE NAME
322322901500 LIBBEY GLASS DIVISION
RATED CAFCTT COAL HtftT R OILHEAT
+ O.OOOOOE+61 *Q.OOOE«59 +0 .OOOOE»60
STACK HEIGHT STACK TEMPERATURE
53.340 533.200
SOURCE ID DESCRIPTIVE NAME
02Z32290160& LIBBV GLASS DIVISION
RATED CAPCTY COAL HEAT R OILHEAT
-u.OCC(,0£<61 *0.000fc*59 »0 .OOOOE*6i)
STACK HEIGHT STACK TEMPERATURE
72.86C 616 .600
300RCE ID
•J22 3 2510 5401
*A!<;,U . i,r>c i*
STACK :tl&t
6.096
DESCRIPTIVE «ASE
AfHENS-CAQOn BRICK CO.
CTM HE4 f R OlLHEef
ii ; ••••::* :e«pr«Arupt
PLUME RISE
.000
MAX
PROCESS
0
IOC X LOC Y PJ OWNER TYPE
425.0 3592.7 02 P 8
D DILHEAi GASHEAT COALBRN
*C.OOOCE*6C 0 0
PLUHF RISE RAX PROCESS
.000 0
LOC X LOC Y PJ OWNER TYPE
425.0 3592.7 02 P B
0 OILHEA1 GASHEAT COALBRN
«O.OOOCE*60 0 0
PLUME RISE MAX PROCESS
.000 0
IOC X LOC Y PJ OWNER TYPE
425.0 3592.7 02 P B
0 OILHEAT GASHEAT COALBRN
»O.OOOOE*60 0 0
PLUME RISE MAX PROCESS
.000 0
RATE HA4
S02EHRAT
.000
R OILBRN
0
RATE MAX
S02EHRAI
.000
R OILBRN
0
RATE MAX
S02ENRAT
.000
R OILBRN
0
RATE MAX
LOC X LOC Y PJ OWNER TYPE S02EMRAT
409.9 3616.9 02 P P .000
D OILHEAT GASHEAT COALBRN R OILBRN
•
-------
SOURCE ID DESCRIPTIVE NAHE IOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEMRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DiVICE .
022325105501 ATHENS-CAOOO BRICK CO. 409.9 3616.9 02 P P .000 .060 8760 3.0 .0 .00
RATED CAPCTY COAL NEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BKN COALSC R 01LSC D OILSC CAS SC COAL ASH
+O.OCOOOE+61 +O.OOOE«59 «O.OOOOE»60 «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE WAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
.COO 298.012 .000 0 12GO 1.52400 .3048 1.00
SOURCE ID DESCRIPTIVE MAKE LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022332301101 HICA CORP. 427.5 3390.6 02 P P .000 .022 4000 2.0 .0 .00
RATED CAPCTY COAL HEAT R OILHEAT 0 OILHEAT 6ASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
+O.OOOOOE«61 *O.OOOE*59 +0 .OOOOE*60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
7.010 333.040 .000 0 219CO .60960 35.3568 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEHRT OP TIHE SHIFTS S02CONEFF PARTCONEFF DEVICE 10
022332301201 HICA CORP. 427.5 3590.6 02 P P .000 .077 2000 1.0 .0 .00
Z^ RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
Ul »O.OCCOOE+61 «O.OOOE+59 »0 .OOOOE«60 «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUHE RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.705 298.012 .000 0 14500 .60960 23.4696 1.00
SOURCE ID DESCRIPTIVE NAHE LOC X LOC Y PJ OWNER TYPE S02EHRAT PARTEHRT OP TINE SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022332301701 MID-CONTINENT STEEL •! 427.5 359C.6 02 P P .000 .005 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOCOOE*61 «O.OOOE*59 *O.OOOOE*60 «O.OOOOE*60 0 0 0 0 0 .CO .00 .00 .0000 .0
STACK HEIGHT STACK TEKPCRAiJRk PLUHE RISE HAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
11.277 335.820 .000 0 20000 .82296 18.2860 1.00
SCoRCE 1C DESCRIPTIVE NAHE LOC X LOC Y PJ OWNER TYPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022332301801 MID-CONTINENT STEEL *2 427.5 359C.O 02 P P .000 .004 6240 3.0 .0 99.00
RATED CAPCTY COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBKN D OILBRK GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
+O.OOCOOE»t>l *O.OOOE«59 +O.OOOOE + 60 *O.OOOOE*60 0 0 C C 0 .00 .00 .00 .0000 .0
S:ACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
t.-.OC; 308.020 .000 0 220CO .91440 15.8496 1.00
-------
SOURCE ID DESCRIPTIVE NAME IOC X IOC T PJ OWNER TTPE S02EMRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
032332301901 HIO-CONTINENT STEEL 92 427.5 3590.6 02 P P .000 .004 6240 3.0 .0 99.00
RATED CAPCTT COAL HEAT R OILHEAT 0 OILHEAT CASHEAT COAL BUN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«0.000006*61 «O.COOE«59 «O.OOOOE«60 «O.OOOOE«60 0 0 0 C 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
6.400 308.020 .000 0 22000 .91440 1S.8496 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TTPE S02EHRAT PARTEMRT OP TIME SHIFTS SOZCONEFF PARTCONEFF DEVICE ID
022366105300 HESTERN ELECTRIC CO. 426.2 3590.9 02 P B .000 .361 3840 2.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«61 »O.OOOE»59 «O.OOOOE«60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
IB.288 427.560 .000 0 200000 2.80416 15.2400 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LDC T PJ OWNER TTPE S02EMRAT PARTEMRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022491102200 SH.E.P.C.-ARSENAL HILL 415.5 3598.9 02 U B .000 .122 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT fi OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
•^ «O.OOOOOE«61 «O.OOOE«59 «O.OOOOE*60 «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
cn
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
42.672 449.800 .000 0 43400 3.77952 22.5552 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TTPE S02EHRAT PARTEHRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022491102300 SH.ELEC.PWR.-LIEBERHAN 410.7 3618.7 02 U B .000 .148 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT 0 OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
«O.OOOOOE«61 «O.OOOE«59 «0 U)OOOE«60 *O.OOOOE*60 0000 0 .00 .00 .00 .0000 .0
•
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
42.672 449.800 .00 C 0 43400 3.77952 22.5552 1.00
SOURCE ID DESCRIPTIVE NAME LOC X LOC T PJ OWNER TTPE S02EIWAT PARTENRT OP TIME SHIFTS S02CONEFF PARTCONEFF DEVICE ID
022491102400 SW .ELEC .PHR.-LIEBERNAN 410.7 3618.7 02 U B .000 .190 8760 3.0 .0 .00
RATED CAPCTT COAL HEAT R OILHEAT D OILHEAT GASHEAT COALBRN R OILBRN D OILBRN GAS BRN COALSC R OILSC D OILSC GAS SC COAL ASH
*O.OCCOOE«61 «O.OOOE*59 *O.OOOOE*60 «O.OOOOE«60 0000 0 .00 .00 .00 .0000 .0
STACK HEIGHT STACK TEMPERATURE PLUME RISE MAX PROCESS RATE MAX EXHAUST GAS VOL STACK DIAMETER STACK VELOC USE FACT
42.672 449.800 .000 0 43400 3.77952 22.5552 1.00
-------
SOURCE ID DESCRIPTIVE MAKE LOC X IOC T PJ OWNER TYPE S02EHRAT PARTEHRT OP TIHE SHIFTS S02COMEFF PARTCONE FF DEVICE ID
023*95300206 AN1HONT FOREST PRODUCTS A3*.5 3640.8 01 P S .000 .093 470* 3.0 .0 .00
RATED CAPCTT COAL HEAT R OltHEAT D OILHEAT GASHEAT COALBRN R OILBRN 0 OILBRN GAS BRN COALSC R OILSC 0 OILSC GAS SC COAL ASH
»O.OOOOOE*61 «O.OOOE«59 *O.OOOOE«bO «O.OOOOE«60 0 0 0 0 0 .00 .00 .00 .0000 .0
STACK HEIGHT
1.52*
. STACK TEMPERATURE
394 .200
SOURCE ID DESCRIPTIVE MAKE
022495302101 SHREVEPORI INCINERATOR
RATED C A PC TV
*O.OOOOOE*61 *
STACK HEIGHT
30.460
COAL HEAT R OILHEAT
O.OOOE*S9 »O.OOOOE»60
STACK TEMPERATURE
588.600
SOURCE ID DESCRIPTIVE NAME
022495305106 OLINKRAFT
RATED CAPCTT COAL HEAT R OILHEAT
*O.OOCOOE*61 *O.COOE»59 *O.OOOOE«60
STACK HEIGHT
18.288
STACK TEMPERATURE
477.600
PLUME RISE HAX
.000
PROCESS
0
LOC X LOC T PJ OWNER TYPE
428.1 3593.8 02 L S
D OILHEAT GASHEAT
«O.OOOOE«60 0
PLUME RISE HAX
.000
COALBRN
0
PROCESS
0
LOC X LOC Y PJ OWNER TYPE
432.5 3599.5 01 P S
0 OILHEAT CASHEAT
*O.OOOOE«60 0
PLUME RISE HAX
.000
COALBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
RATE HAX
S02EHRAT
.000
R OILBRN
0
PROCESS RATE HAX
0
EXHAUST
300
PARTEHRT
1.827
D OILBRN
0
EXHAUST
140000
PARTEHRT
.925
D OILBRN
0
EXHAUST
130000
GAS VOL STACK DIAHETER
.45720
OP TIHE SHIFTS S02CONEFF
8760 3.0 .0
GAS BRN COALSC R OILSC 0
0 .00 .00
GAS VOL STACK DIAMETER
2.37744
OP TIHE SHIFTS S02CONEFF
4000 2.0 .0
GAS BRN COALSC R OILSC D
0 .00 .00
GAS VOL STACK DIAMETER
4.14528
STACK VELOC USE FACT
.9144 1.00
PARTCONEFF DEVICE ID
.00
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC USE FACT
14.9352 1.00
PARTCONEFF DEVICE 10
.00
OILSC GAS SC COAL ASH
.00 .0000 .0
STACK VELOC USE FACT
4.5720 1.00
-------
NOTE. DATA GIVEN IN CONVERTED UNITS.
AREA SOURCES
SOURCE ID IOC XIKI LOC VIKI AREAISO KHI PJ EFFECTIVE STACK HGTIHI S02 EMISSION RATEIT/OI PART EMISSION RATEIT/DI
00
022994910100
022999910200
022999910300
02299991 MOO
022999910500
022999910600
02299991 0700
022999910810
022999910820
022999910900
022999911000
022999911100
022999911200
022999920100
022999920200
022999920300
02299992 MOO
022999920500
022999920600
022999920700
022999920800
022999920900
022999921000
02299992 1100
022999921200
02299992 1300
02299992 1400
022999921500
022999921600
02299992 1700
02299992 1800
022999921900
022999922000
022999922100
022999922200
022999922300
022999922400
022999922500
022999922600
022999922700
022999922800
022999922900
02299992 3000
022999923100
022999923200
022999923300
02299992 3400
02299992 3500
02299992 3*00
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.8
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
430.2
430.1
431.4
432.8
430.7
429.0
427.0
427.1
426.7
425.4
424.6
422.2
425.0
425.3
427.2
429.1
430.9
431.9
432.9
431.7
429.8
428.7
426.9
424.7
421.7
422.5
3594.7
3596.8
3597.9
3598.0
3600.0
3598.2
3596.3
35 95 .6
3590.9
3587.7
3575.1
3600.1
3623.7
3596.8
3595.8
3595.8
3596.8
3598.6
3596.8
3596.1
3595.3
3595.5
3594.3
3594.9
3593.8
3594.5
3595.0
3592.5
3592.4
3592.5
35 93 .7
3595.0
3595.8
3594.3
3591.9
3592.9
3591.0
3592.0
3590.8
3591.1
3591.2
3591.6
3589.4
3582.2
3589.5
3589.4
3588.7
3588.5
3590.8
.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
.7
2.4
.5
1.5
4.7
1.4
1.4
.9
.9
1.9
1.3
2.0
3.7
1.4
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.8
2.9
1.8
4.0
2.4
1.6
3.3
5.2
9.7
2.5
01
01
01
01
01
01
01
01
01
01
01
01
01
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.144
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.006
.047
.063
.072
.111
.197
.200
.112
.240
.118
.097
.280
.180
.010
.020
.024
.065
.054
.052
.082
.052
.044
.049
.054
.079
.075
.036
.047
.070
.050
.038
.068
.060
.107
.073
.065
.079
.111
.060
.048
.078
.052
.069
.033
.048
.068
.111
.118
.078
-------
SOURCE ID LQC XIKi LDC TIKI
AREAISQ KM)
PJ EFFECTIVE STACK H61IH) S 02 EMISSION RATEIT/DI PART EMISSION RATEIT/D)
022999923700
022999923800
022999923900
022999924000
022999924110
022999924120
022999924200
022999924300
022999924400
02299992 4500
022999924600
02299992 4700
02299992 4600
022999924900
02299992 5000
022999925100
022999930100
022999930200
022999930300
427.0
429.3
430.2
435.9
421.3
421.1
403.1
402.4
417.6
404.0
420.8
424.4
412.6
399.6
406.2
409.6
460.4
459.7
452.7
3587.5
3587.1
35 83 .6
3569.8
3582.5
35 76 .7
3545.9
3583.4
3591.0
3600.8
3598.5
3603.5
3610.6
3624.1
3636.0
3633.8
3584.8
36C3.3
3625.2
5.1
4.5
40.3
216.7
39.5
42.0
370.3
236.1
26.5
355.7
41.6
6.8
252.3
338.0
9.7
291.1
475.8
460.0
659.6
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
02
03
03
03
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
9.144
.COO
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.111
.116
.077
.039
.269
.029
.068
.092
.041
.122
.156
.036
.038
.050
.063
.052
.351
.340
.487
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
120
-------
APPENDIX B
DIFFUSION MODEL CALIBRATION RESULTS
NOTE: Calibration was performed using the 1975 Baseline Source File
(Appendix A.I) and the meteorological input data for 1975
(Appendix C.I).
121
-------
REGION: SHREVEPORT AQMA DATE: APRIL 29, 1977
REGIONAL DATA
AMBIENT TEMPERATURE (DEGREES KELVIN) = 291.4
AMBIENT PRESSURE (MILLIBARS) = 1007.7
MIXING HEIGHT (METERS) = 1450.0
HALF LIFE (HOURS) FOR:
S02 = 3.0
PARTICULATES = INFINITE
BACKGROUND CONCENTRATION (MICROGRAMS/CUBIC METER) FOR:
S02 = 0.0
PARTICULATES = 0.0
122
-------
UATE : APRIL 29, 1977
cjKktLAiiijN KAIA FOX PAKIKULATES
MONIIORING STATION L3CAT13N ARITHMETIC MEAN CONCENTRATION
STATION (KILOMETERS) IM1CROGRAMS/CUB1C METER)
NUNBEK HUHU VERT OBSERVED * COMPUTED
7 T
1 417.V I 3595.J 34.2 I 5.0
2 428.0 I 3593.7 78.7 I 33.3
3 433.7 I 3580.8 41.4 I 3.2
4 473.5 I 3611.0 37.9 I 1.2
1 I 1 1
* OBSERVED * INPUT MEASUKEb VALUE - INPUT BACKGROUND VALUE
REGRESSION PARAMETERS
POLLUTANT t-INTLRCEPI SLOPE REGRESSION COEFFICIENTS COMMENT
CUHPUIEO 5t CONF. LEVEL
_
S02 0.0 1.0000 3.0 I 0.0 VALUES NOT COMPUTED
PARTICULATES 33.67 1.3260 O.S7743 I 0.95000 STATISTICALLY SIGNIFICANT
J. 1 1 1 1
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
124
-------
APPENDIX C
DIFFUSION MODELING RESULTS
NOTE: All projection runs utilized the same meteorological input data.
Therefore, these data are only given for the 1980 case.
125
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
126
-------
C.I 1975 BASELINE RESULTS
127
-------
REGION: SHREVEPORT AQMA BASELINE
DATE: APRIL 29t 1977
ro
00
SOURCE DATA
SOURCE
NUMBER
1
Z
3
4
5
6
7
8
9
10
11
12
13
14
IS
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
SIC
CODE
1446
2048
2421
2426
2431
2435
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2819
2819
2819
2819
2819
2819
2874
2874
2911
2911
2911
2911
2911
2951
2951
2951
2952
3229
3229
SITE
CCOE
_
33
19
1
13
3
50
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
27
28
29
30
31
32
25
26
6
7
8
9
52
4
5
49
10
14
15
PROC
CODE
0
1
1
0
1
1
0
4
4
4
0
0
0
0
0
0
3
3
4
0
4
0
60
0
0
0
0
1
1
0
0
0
0
8
1
3
1
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
480.8
427.7
434.5
428.0
432.3
471.5
457.3
437.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
413.4
413.4
413.4
413.4
413.4
413.4
427.8
427.8
425.2
425.2
425.2
425.2
451.8
429.7
434.4
472.8
428.2
425.0
425.0
3595.0
3590.7
3640.8
3590.6
3599.5
3606.5
3648.
3648.
3648.
3648.
3648.
3648.
3648.
3648.
3648.
3648.
3648.
3648. 1
3648.1
3648.1
3648.1
3609.0
3609.0
3609.0
3609.0
3609.0
3609.0
3593.6
3593.6
3592.4
3592.4
3592.4
3592.4
3605.7
3599.2
3600.0
3608.4
3599.0
3592.7
3592.7
SOURCE
AAEA
ISO KM)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EMISSION RATE
( TONS/DAT )
SO2 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.04
0.01
0.02
0.17
0.02
0.04
1.18
1.00
0.08
0.06
0.94
1.19
0.28
0.14
0.36
0.08
0.47
0.23
0.08
0.05
0.13
0.08
0.01
0.08
o.oa
0.01
0.03
0.02
0.07
0.03
0.04
0.01
0.04
0.03
0.03
0.10
0.03
0.04
0.12
0.12
STACK
HEIGHT
(METERS)
-
7.6
6.1
0.0
27.4
6.1
9.1
76.2
7*. 5
65.5
65.5
33.5
33.5
33.5
33.5
33.5
33.5
28.3
28.3
70.7
68.6
65.5
9.4
9.8
9.8
30.5
15.2
15.2
13.7
0.0
12.2
45.7
35.1
45.7
9.1
7.3
12.5
9.1
13.7
53.3
53.3
STACK
DIAMETER
(METERS)
0.5
0.1
0.0
1.5
0.6
1.2
6.1
2.7
1.2
1.2
1.8
1.8
1.8
1.8
1.8
1.8
1.5
1.5
0.0
2.4
1.2
1.0
1.0
1.0
3.1
1.1
0.4
1.0
3.0
1.1
2.4
2.1
2.4
0.8
2.1
2.0
1.1
1.2
2.4
2.4
EXIT
VELOCITY
IM/SEC)
1.5
3.0
0.0
1.8
5.8
a. a
4.9
17.7
4.6
10.1
19.8
18.3
17.4
17.7
25.6
19.2
8.5
8.2
27.1
16.2
5.2
6.7
6.7
6.7
5.5
7.0
4.6
16.5
0.3
12.2
2.1
2.4
2.4
4.0
5.8
4.0
31.4
a. s
22.9
22.9
EXIT
TEMP
(DEC K)
324.7
298.0
298.0
616.6
394.2
298.0
402.5
429.2
346.9
338.6
561.0
561.0
561.0
561.0
588.8
455.4
364.7
364.7
433.1
433.1
363.6
488.7
488.7
488.7
633.3
355.3
449.8
319.7
298.0
588.8
616.6
627.7
616.6
505.4
338.6
349.7
366.4
588.8
533.2
533.2
-------
REGION! SHREVEPORT AQMA BASELINE
DATES APRIL 29. 1977
ro
SOURCE DATA
SOURCE
NUMBER
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
.80
SIC
CODE
3229
3251
3251
3323
3323
3323
3323
3323
3661
4911
4911
4911
4953
4953
4953
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
SITE
CODE
16
54
55
11
12
17
18
19
53
22
23
24
2
21
51
1010
1020
1030
1040
1050
1060
1070
1081
1082
1090
1100
1110
1120
2010
2020
2030
2040
2050
2060
2070
2080
2090
2100
2110
2120
PROC
CODE
0
1
1
0
0
0
0
6
1
6
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1 ! '
SOURCE LOCATION
(KILOMETERS!
HORIZ VERT
425.0
409.9
409.9
427.5
427.5
427.5
427.5
427.5
426.2
415.5
410.7
410.7
434.5
428.1
432.5
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445. 6
434.9
434.1
423.8
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
430.2
410.1
3592.7
3616.9
3616.9
3590.6
3590.6
3590.6
3590.0
3590.6
3590.9
3598.9
3618.7
3618.7
3640.8
3593.8
3599.5
3594.7
3596.8
3597.9
3598.0
3600.0
3598.2
3596.3
3595.6
3590.9
3587.7
3575.1
3600.1
3623.7
3596.8
3595.6
3595.8
3596.8
3598.6
3596.8
3596.1
3595.3
3595.5
3594.3
3594.9
3S53.8
SOURCE
AREA
ISO KM)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
0.7
2.4
0.5
1.5
4.7
1.4
1.4
0.9
0.9
1.9
1.3
2.0
1
EMISSION RATE
( TONS/DAY 1
SO2 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.14
0.03
0.03
0.02
0.04
0.62
0.26
0.31
0.13
0.05
0.06
0.08
0.07
1.81
0.55
0.00
0.04
0.05
0.06
0.09
0.16
0.16
0.09
0.19
0.09
0.08
0.22
0.14
0.01
0.02
0.02
0.05
0.04
0.04
0.06
0.04
0.03
0.04
0.04
0.06
STACK
HEIGHT
(METERS)
22.9
6.1
0.0
7.0
6.7
8.2
18.9
18.9
18.3
42.7
42.7
42.7
1.5
30.5
18.3
9.1
9.1
9.1
9.1
9.1
9.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
!
STACK
DIAMETER
I METERS 1
1.1
1.0
1.5
0.6
0.6
0.8
0.9
0.9
2.8
3.8
3.8
3.8
0.5
2.4
4.1
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(M/SECI
42.7
5.8
0.3
35.4
23.5
3.4
12.8
12.8
15.2
22.6
22.6
22.6
0.9
14.9
4.6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(OEG Kl
616.6
616.6
298.0
333.0
298.0
380.3
358.1
369.2
427.6
449.8
449.8
449.8
394.2
588.8
477.6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
-------
RE6IOM SHREVEPOMT AQMA BASELINE
DATE* APftlL 29, 1977
SOURCE DATA
SOURCE
NUMBER
81
82
83
84
85
86
87
88
89
90
91
92
93
9*
95
96
97
98
99
100
101
102
103
104
105
106
107
106
109
110
111
112
113
114
115
116
117
118
119
120
SIC
CODE
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
SITE
CODE
2130
2140
2150
2160
2170
2180
2190
2200
2210
2220
2230
2240
2250
2260
2270
2280
2290
2300
2310
2320
2330
2340
2350
2360
2370
2380
2390
2400
2411
2412
2420
2430
2440
2450
2460
2470
2480
2490
2500
2510
PROC
CODE
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
SOURCE LOCATION
1 KILOMETERS)
HORIZ VERT
- -
431.4
432.8
430.7
429.0
427.0
427.1
426.7
425.4
424.6
422.2
425.0
425.3
427.2
429.1
430.9
431.9
432.9
431.7
429.8
428.7
426.9
424.7
421.7
422.5
427.0
429.3
430.2
435.9
421.3
421.1
403.1
402.4
417.8
404.0
420.8
424.4
412.8
399.8
406.2
409.6
3594.5
3595.0
3592.5
3592.4
3592.5
3593.7
3595.0
3595.6
3594.3
3591.9
3592.9
3591.0
3592.0
3590.8
3591.1
3591.2
3591.6
3589.4
3582.2
3589.5
3589.4
3588.7
3588.5
3590.8
3587.5
3587.1
3583.6
3569.8
3582.5
3576.7
3565.9
3583.4
3591.0
3600.8
3598.5
3603.5
3610.6
3624. 1
. 3636.0
3633.8
SOURCE
AREA
(SO KMI
3.7
1.4
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.8
2.9
1.8
4.0
2.4
1.6
3.3
5.2.
9.7
2.5
5.1
4.5
40.3
216.7
39.5
42.0
370.3
236.1
26.5
355.7
41.6
8.8
252.3
338.0
9.7
291.1
EMISSION RATE
(TONS/DAY)
502 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.06
0.03
0.04
0.06
0.04
0.03
0.05
0.05
0.08
0.06
0.05
0.06
0.09
0.05
0.04
0.06
0.04
0.05
0.03
0.04
0.05
0.09
0.09
0.06
0.09
0.09
0.06
0.03
0.21
0.02
0.05
0.07
0.03
0.10
0.12
0.03
0.03
0.04
0.05
0.04
STACK
HEIGHT
IMETERSI
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
.1
STACK
DIAMETER
IMETERSI
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(N/SEC)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(DEC Kl
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
co
o
-------
KEGICN: SHREVEPCRT AQUA BASELINE
DATE: APRIL 29, 1977
SOURCE DATA
SOURCE
NUMBER
121
122
123
1
SIC
CODE
9999
9999
9999
1 1
SITE
CCDE
3C10
3020
3030
1 J
PRCC
CODE
I
o o o
SOURCE LCCATIUN
.KILOMETERS)
HORIZ VERT
-
460.4 1 3584.8
459.7 1 3603.3
492.7 I 3625.2
L \ J
SOURCE
AREA
ISO KM)
475. tt
460.0
659.6
1 . , , ..
EMISSION RATE
1 TONS/DAY I
S02 PART
0.0
0.0
0.0
0.28
3.27
0.39
STACK
HEIGHT
(METERS)
9.1
9.1
9.1
STACK
DIAMETER
(METERS)
0.0
0.0
0.0
EXIT
VELOCITY
(M/SEC)
0.0
0.0
0.0
EXIT
TEMP
(OEG K)
0.0
0.0
0.0 I
1 -_ , .!
-------
REGION: SHREVEPORT AQUA BASELINE
DATE: APRIL 29, 1977
STABILITY MIND ROSE DATA
STABILITY CLASS 1
MIND SPEED CLASS
MIND DIRECTION
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSta
sw
MSk
W
WNM
NW
NNW
1
0.0
0.0000*
0.0
0.0
0.00004
0.0
0.00043
0.0000*
0.00009
0.0000*
0.00043
0.00013
0.00009
0.0
0.00004
0.0
2
0.0
0.00034
0.0
0.0
0.00034
0.0
0.00034
0.00034
0.00068
0.00034
0.00034
0.00103
0.00068
0.0
0.00034
0.0
3
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
4
0.0
0.0
0.0
d.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
5
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
i
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
132
-------
REGION: SHREVEPORT AQMA BASELINE
DATE: APRIL 29, 1977
STABILITY MIND ROSE DATA
STABILITY CLASS 2
MIND SPEED CLASS
3 4
WIND DIRECTION
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SStt
SM
WSM
M
MNM
NM
NNM
0.00117
0.00005
0.00041
0.00003
0.00127
0.00152
0.00012
0.00049
0.00124
0.00078
0.00050
0.00087
0.00083
0.00047
0.00009
0.00043
0.00274
0.00137
0.00137
0.00068
0.00514
0.00240
0.00308
0.00342
0.00445
0.00171
0.00377
0.00411
0.00308
0.00308
0.00240
0.00205
0.00171
0.00103
0.00137
0.00103
0.00240
0.00137
0.00137
0.00034
0.00171
0.00068
0.00034
0.00171
0.00137
0.00103
0.00137
0.00068
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
133
-------
REGION: SHREVEPORT AQMA BASELINE
DATE: APRIL 29f 1977
STABILITY WIND ROSE DATA
STABILITY CLASS 3
MIND SPEED CLASS
NINO DIRECTION
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSM
SW
WSU
M
MNW
NW
NNta
I
0.00042>
0.00009
0.00009
0.00009
0.00009
0.00021
0.00013
0.00017
0.00028
0.00015
0.00009
0.00047
0.00051
0.00011
0.00013
0.00002
2
0.00137
0.00137
0.00137
0.00137
0.00137
0.00342
0.00205
0.00274
0.00445
0.00240
0.00137
0.00171
0.00240
0.00171
0.00240
0.00034
3
0.005S2
0.00411
0.00342
0.00137
0.00445
0.00514
0.00925
0.00651
0.01233
0.00479
0.00308
0.00479
0.00068
0.00308
0.00240
0.00308
4
0.00068
0.0
0.0
0.00068
0.00137
0.00103
0.00068
0.00103
0.00171
0.00171
0.00034
0.0
0.0
0.00034
0.00137
0.00068
5
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
(
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
134
-------
REGIONS SHREVEPOftT AQMA BASELINE
DATE: APRIL 29, 1977
STABILITY MIND ROSE DATA
STABILITY CLASS 4
WIND DIRECTION
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSM
SM
WSU
W
MNM
NW
NNM
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
1
00124
00122
00204
00026
00192
00194
00194
00258
00196
00112
00107
00046
00062
00107
00015
00026
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
2
.00822
.00548
.00308
.00171
.00753
.01027
.01027
.00925
.01301
.00479
.00445
.00308
.00411
.00445
.00103
.00171
WIND SPEED
3
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
02157
00925
00479
01027
01096
01541
01781
02192
02911
00753
00479
00514
00445
00685
00856
00514
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CLASS
4
.01233
.00308
.00377
.00342
.00616
.00479
.00788
.01130
.02534
.00377
.00137
.00240
.00308
.00719
.01199
.01233
5
0.00068
0.
0.
0.
0.
0.
0.
0.
0.
0.
0
0
0
0
0
00034
00068
00240
0
0.00034
0.
0.
0.
0.
0.
0
00137
00240
00171
00103
6
0.00034
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.00034
0.00034
0.0
0.0
135
-------
REGION: SHREVEPORT AQMA BASELINE
DATE: APRIL 29, 1977
STABILITY WIND ROSE DATA
STABILITY CLASS 5
WIND SPEED CLASS
MIND DIRECTION
N
NNE
NE
ENE
E
ESE
SE
sse
S
SSta
SW
MSM
M
MNM
NW
NNfc
1
0.00832
0.00170
0.00170
0.00162
0.01129
0.01776
0.02073
0.0173-i
0.02047
0.0099*
0.00747
0.00994
0.01147
0.00636
0.00408
0.00085
2
0.01027
0.00274
0.00240
0.00377
0.01199
0.01815
0.02260
0.01678
0.02363
0.00890
0.00925
0.00959
0.00959
0.00663
0.00377
0.00342
3
0.00308
0.00240
0.00205
0.00479
0.00445
0.00240
0.00377
0.00788
0.00993
0.00103
0.00034
0.00103
0.00171
0.00445
0.00479
0.00274
4
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0«0
0.0
0.0
5
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
<
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
136
-------
REGION: SHREVEPORT AQMA BASELINE
DATE: APRIL 29, 1977
REGIONAL DATA
AMBIENT TEMPERATURE (DEGREES KELVIN) - 291.4
AMBIENT PRESSURE
-------
REGION: SHREVEPORT AQHA BASELINE
DATE: APRIL 29, 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
23
29
30
31
32
33
34
35
36
37
36
39
40
RECEPTOR LOCATION
(KILOMETERS)
HORU VERT
418.0
418.0
418.0
418.0
418.0
418.0
416.0
418.0
418.0
420. 5
420.5
420.5
420.5
420.3
420.5
420.5
420.5
420.5
423.0
423.0
423.0
423.0
423.0
423.0
423.0
423.0
423.0
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
428.0
428.0
428.0
428.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
EXPECTED ARITHMETIC MEAN
(MICROGRAMS/CUBIC METER)
S02 PART
-
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
35.5
35.8
36.7
38.2
39.8
40.6
41.0
40.8
40.5
35.7
36.1
36.9
39.3
41.8
42.9
42.7
42.1
41.3
36.3
36.9
37.7
42.1
46.1
46.0
45.0
43.7
42.4
37.3
37.9
39.6
51.5
52.1
51.8
48.3
45.8
43.8
38.2
39.7
44.8
86.4
138
-------
REGION: SHREVEPORT AUHA BASELINE
DATE: APRIL 29f 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
RECEPTOR LOCATION
(KILOMETERS)
HORIZ VERT
428.0
428.0
428.0
428.0
428.0
430.5
430.5
4300
430.5
430.5
430.5
430.5
430.5
430.5
433.0
433.0
433.0
433.0
433.0
433.0
433.0
433.0
433.0
435.5
435.5
435.5
435.5
435.5
435.5
435.5
435.5
435.5
438.0
438.0
438.0
438.0
438.0
438.0
438.0
438.0
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
EXPECTED ARITHMETIC MEAN
(MICROGRAMS/CUBIC METER)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
60.1
56.3
52.0
48.2
44.8
37.4
37.8
40.9
45.2
45.9
47.2
45.5
45.7
43.3
36.6
37.5
39.1
41.8
43.1
44.1
43.9
45.4
42.0
36.3
37.1
38.1
39.2
40.2
40.4
41.3
41.3
39.3
36.2
36.7
37.4
36.2
39.1
38.9
39.0
38.6
139
-------
REGION: SHREVEPORT AQNA BASELINE
DATE: APRIL 29t 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
81
82
83
84
85
86
87
88
89
90
91
92
93
94
RECEPTOR LOCATION
(KILOMETERS)
HORU VERT
438.0
417.9
428.0
433.7
473.5
430.5
461.0
458.1
473.3
410.0
409.0
434.8
456.4
407.7
3603.0
3594.3
3593.7
3586. B
3611.0
3617.9
3631.2
3647.6
3608.8
3617.3
3623.0
364O.9
3651.8
3637.4
EXPECTED ARITHMETIC MEAN
IMICROGRAMS/CUBIC METERI
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
38.1
40.2
78.2
38.1
35.4
38.2
35.9
43.9
35.6
44.8
37.4
51.6
46.3
36.8
PART1CULATE POLLUTANT CONCENTRATIONS ABOVE STANDARD OF 67. OO MICROGRAMS PER CUBIC METER
RECEPTOR
NUMBER
40
83
POLLUTANT CONCENTRATION tMICROGRAMS PER CUBIC NETERI
ARITHMETIC MEAN
CONCENTRATION
86.4419
78.1540
EXCESS ABOVE AIR
QUALITY STANDARD
19.4419
11.1540
CONTRIBUTION FROM
POINT SOURCES
47.2453
36.4646
CONTRIBUTION FROM
AREA SOURCES
-
5.3266
7.8195
POLLUTANT REDUCTION IPERCENTI
NECESSARY FOR
POINT SOURCES
41.1509
30.5887
NECESSARY FOP
ALL SOURCES
36.9815
25.1875
-------
REGION: SHPEVEPORT AQNA BASELINE
DATE: APRIL 21, 1977
AVERAGING TIME
1.0 HOURS
PARTICIPATE STATISTICAL DATA AT SELECTED RECEPTORS
SELECTED
RECEPTOR
NUMBER
82
83
84
85
AVERAGING
EXPECTED
ARITHMETIC
MEAN
40.22
78.15
38.11
35.42
L _ J_
TIME - 3.0
EXPECTED
GEOMETRIC
MEAN
34.03
64.98
35.63
27.82
|
HOURS
0.30
PERCENT ILE
CONCENTRATION
lt>6.67
345.34
97.66
187. ¥7
1 1.00
PERCENT ILE
CONCENTRATION
130.77
267.31
83.67
140.24
PARTICIPATE STATISTICAL DATA AT SELECTED RECEPTORS
SELECTED
RECEPTOR
NUMBER
82
83
84
85
AVERAGING
EXPECTED
ARITHMETIC
MEAN
40.22
78.15
38.11
33.42
TIME - 24.0
EXPECTED
GEOMETRIC
MEAN
34.72
66.45
35.92
28.65
1
HOURS
O.jO
PERCENT ILE
CONCENTRATION
IS4.20
318. la
92.40
171.79
1.00
PERCENT ILE
CONCENTRATION
122.69
250.26
79.98
130.54
PARTICULATE STATISTICAL DATA AT SELECTED RECEPTORS
SELECTED
RECEPTOR
NUMBER
82
83
8*
85
EXPECTED
ARITHMETIC
MEAN
40.22
78.15
38.11
IS. 42
EXPECTED
GEOMETRIC
MEAN
36.08
69.32
36.48
30.28
0.30
PERCENT ILE
CONCENTRATION
130.1)4
266.59
82.26
141.30
1
1.00
PERCENTILE
CONCENTRATION
106.83
216.84
72.61
111.57
(MICROGRAMS PER
5.00
PERCENT ILE
CONCENTRATION
88.15
176.64
65.16
87.32
(MICROGRAMS PER
5.00
PERCENTILE
CONCENTRATION
84.77
169.70
63.26
83.71
(MICROGRAMS PER
5.00
PERCENTILE
CONCENTRATION
77.73
155.26
59.35
76.14
CUBIC METER)
EXPECTED
MAXIMUM
CONCENTRATION
309.11
659.95
144.38
394.25
CUBIC METER)
EXPECTED
MAXIMUM
CONCENTRATION
236.05
497.69
121.12
286.55
CUBIC METER)
EXPECTED
MAXIMUM
CONCENTRATION
142.21
292.84
87.05
157.32
STANDARD
GEOMETRIC
DEVIATION
1.78
1.84
1.44
2.00
STANDARD
GEOMETRIC
DEVIATION
1.72
1.77
1.41
1.92
STANDARD
GEOMETRIC
DEVIATION
1.59
1.63
1.34
1.75
141
-------
REGION: SHREVEPORT AQMA BASELINE
DATE: APRIL 29, 1977
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICIPATE RECEPTORS INICROGRAHS PER CUBIC METER I
-pa.
ro
i
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
RECEPTOR
0.0050
0.0147
0.0013
0.2190
0.0040
0.0035
0.0082
0.0070
0.0025
0.0010
0.0149
0.0189
0.0045
O.C023
0.0035
0.0013
0.0140
0.0068
0.0024
0.0004
0.0039
0.0177
0.0030
0.0177
0.0105
0.0024
0.0071
0.0236
0.0713
0.0593
0.0727
0.0197
0.0672
0.0024
0.0059
0.0177
0.0010
0.0090
0.0222
0.0222
* 82
0.01S
0.04*
O.OOS
0.54*
0.01*
0.01*
0.02*
0.02*
0.01*
0.00*
0.04*
0.05*
0.01*
0.01*
0.01*
0.00*
0.03*
0.02*
0.01*
e.ce*
0.01*
0.04*
0.01*
0.04*
0.03*
0.01*
0.02*
0.06*
0.18*
0.15*
0.18*
0.05*
0.17*
0.01*
0.018
0.04*
O.OOS
0.02*
0.06*
0.06*
RECEPTOR
0.0058
0.0863
0.0029
1.2843
0.0090
0.0033
0.0094
O.OOtiC
0.002C
0.0011
0.0168
0.0214
0.0051
0.0026
0.0040
0.0015
0.0154
0.0075
0,0026
1.0005
0.0042
0.0140
O.OC24
0.0140
0.0062
0.0019
0.0056
0.2757
26.3311
0.0948
0.1097
0.0309
0.1002
0.0023
0.0242
0.0286
0.0010
0.0693
0.0247
0.0247
* 83
0.01*
0.11*
0.00*
1.64*
0.01*
0.00*
0.01*
0.01*
0. SO*
o.c?*
0.02Z
0.03*
0.01*
O.OOS
0.01*
0.00*
0.02S
0.01*
O.OOS
O.OOS
0.01*
0.02S
O.OOS
0.02S
0.0 IS
0.00*
0.01S
0.35*
33.69*
0. 12S
0. 14*
0.04S
0.13*
0.00*
0.03S
0.04*
O.OOS
0.09S
0.03*
0.03S
RECEPTOR
0.0046
0.0086
0.0033
0.1365
0.0110
0.0019
0.0089
0.0075
0.0027
0.0010
0.0160
0. 0203
0.0049
0.0025
0.0038
0.0014
0.0148
0.0072
0.0025
0.0004
0.0041
0.0093
0.0016
0.0093
0.0041
0.0013
0.0038
0. 0093
0.0281
0.0169
0.0207
0.0056
0.0192
0.0022
0.0073
0.0550
0.0009
0.0060
0.0093
0.0093
» 84
0.01S
0.02*
0.01*
0.36*
0.03*
0.01*
0.02*
0.02S
0.01* ,
O.OOS
0.04*
0.05*
0.01*
0.01*
0.01S
O.OOS
0.04S
0.02S
0.01S
0.00*
0.01*
0.02*
O.OOS
0.02S
0.01S
O.OOS
0.01*
0.02*
0.07*
0.04*
0.05*
0.01*
0.05*
0.01S
0.02S
0. 14S
O.OOS
0-02*
0.02*
0 02S
RECEPTOR
0.0288
0.0015
0.0021
0.0234
0.0037
0.0632
0.0118
0.0100
0.0033
0.0017
0.0258
0.0328
0.0078
0.0040
0.0055
0.0023
0.0181
0.0088
0.0030
0.0006
0.0050
0.0105
0.0018
0.0105
0.0027
0.0014
O.OO42
0.0031
0.0094
0.0044
0.0055
0.0015
0.0051
0.0094
0.0050
0.0177
0.0807
0.0066
0.0009
0.0009
* 85
0.08S
O.OOS
0.01*
0.07S
0.01S
0.18S
0.03S
0.03S
0.01S
O.OOS
0.07S
0.09S
0.02S
0.01*
0.02*
0.01*
0.05*
0.02S
0.01*
O.OOS
0.01S
0.03S
0.01S
0.03S
0.01*
O.OOS
0.01S
0.01S
0.03S
0.01S
0.02S
O.OOS
0.01S
0.03S
0.01*
0.05*
0.233
0.02*
O.OOS
O.OOS
RECEPTOR
0.0051
0.9963
0.0028
0.0559
0.0060
0.0021
0.0089
0.0075
0.0026
0.0010
0.0159
0.0203
0.0048
0.0025
0.0038
0.0014
0.0146
0.0071
0.0025
0.0004
0.0040
0.0111
0.0019
0.0111
0.0054
0.0015
0.0045
0.0722
0.2304
0.0597
0.0700
0.0193
0.0646
0.0022
0.0206
0.0229
0.0008
0.0410
0.0293
0.0293
* 40
0.01S
1.15*
O.OOS
0.06S
0.01S
O.OOS
0.01S
0.01S
O.OOS
O.OOS
0.02S
0.02S
0.01S
O.OOS
O.OOS
O.OOS
0.02S
0.01S
O.OOS
O.OOS
O.OOS
0.01S
O.OOS
0.01S
0.01S
O.OOS
0.01S
0.08S
0.27S
0.07S
0.08S
0.02*
0.07S
0.00*
0.02S
0.03S
O.OOS
0.05S
0.03S
0.03S
-------
Rcl»iuf».
AQ0A BASELINE
DATE: APRIL 29, 1977
CO
SOURCE CONTRIBUTIONS TC FIVE SELECTED PARTICIPATE RECEPTORS (NICROGRAHS PER CUBIC METER)
SOURCE
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
/4
75
76
77
78
79
80
RECEPTOR « 82
._
0.0904 0.22*
0.0032 0.01*
0.0025 0.01*
0.0300 0.07*
0.0601 0.15*
0.8424 2.09*
0.3471 0.86*
0.4249 1.06*
0.0674 0.17S
0.0059 0.01*
0.0015 0.00*
0.0019 0.00*
O.C039 0.01*
0.6160 1.53*
0.0599 0.15*
0.0026 0.01*
0.0149 0.04*
0.0164 0.04*
0.0184 0.05*
0.0182 0.05*
0.0401 0.10*
0.0556 0.14*
O.C369 0.09*
0.0997 0.25*
0.0276 0.07*
0.0214 0.05*
0.0189 0.05*
0.0074 0.02*
0.0036 0.01*
0.0076 0.02*
0.0108 0.03*
0.0230 0.06*
0.0121 0.03*
0.0190 0.05*
0.0362 0.09*
0.0270 0.07*
0.0212 0.05*
0.0278 0.07*
0.0244 C.C6X
0.0476 0.12*
RECEPTOR * 83
0.1260 0.16*
0.0035 0.00*
0.0027 0.00*
0.1323 0.17*
0.2737 0.35*
3.9155 5.01*
1.2443 1.S9S
1.8799 2. 41*
0.1047 0.13*
0.0024 0.00*
0.0009 0.00*
0.0012 0.00*
0.0087 0.01*
0.0001 0.00*
0.1213 0.16*
0.0052 0.01*
0.0262 0.03*
0.0261 0.03*
0.0366 0.05*
0.0267 0.03*
0.0445 0.06*
0.0828 0.11*
.0.0654 0.08*
0.1859 0.24*
0.0376 0.05*
0.0250 0.03*
0.0188 0.02*
0.0083 0.01*
0.0110 0.01*
0.0143 0.02*
0.0269 0.03*
0.0839 0.11*
0.0445 0.06*
0.0849 0.11*
0.1477 0.19*
0.1433 0.18*
0.0951 0.12*
0.0987 0.13*
0.0618 0.08*
0. 1464 0. 19*
RECEPTOR « 84
0.0298 0.08*
0.0026 0.01*
0.0021 0.01*
0.0171 0.04*
0.0343 0.09*
0.4816 1.26*
0.2206 0.58*
0.2420 0.63*
0.0353 0.09*
0.0014 0.00*
0.0007 0.00*
0.0009 0.00*
0.0097 0.03*
0.3648 0.96*
0.1398 0.37*
0.0044 0.01*
0.0175 0.05*
0.0238 0.06*
0.0222 0.06*
0.0392 0.10*
0.0615 0.16*
0.0915 0.24*
0.0639 0.17*
0.0862 0.23*
0.0248 0.07*
0.0218 0.06*
0.0175 0.05*
0.0087 0.02*
0.0023 0.01*
0.0068 0.02*
0.0052 0.01*
0.0148 0.04*
0.0118 0.03*
0.0090 0.02*
0.0159 0.04*
0.0113 0.03*
0.0090 0.02*
0.0138 0.04*
0.0198 0.05*
0.0344 0.09*
RECEPTOR * 85
0.0051 0.01*
0.0038 0.01*
0.0030 0.01*
0.0030 0.01*
0.0060 0.02*
0.0840 0.24*
0.0350 0.10*
0.0425 0.12*
0.0047 0.01*
0.0003 0.00*
0.0004 0.00*
0.0005 0.00*
0.0063 0.02*
0.0681 0.19*
0.0252 0.07*
0.0008 0.00*
0.0061 0.02*
0.0085 0.02*
0.0096 0.03*
0.0159 0.04*
0.0287 0.08*
0.0279 0.08*
0.0150 0.04*
0.0321 0.09*
0.0204 0.06*
0.0120 0.03*
0.0316 0.09*
0.0107 0.03*
0.0013 0.00*
0.0026 0.01*
0.0030 0.01*
0.0083 0.02*
0.0069 0.02*
0.0064 0.02*
0.0099 0.03*
0.0062 0.02*
0.0054 0.02*
0.0060 0.02*
0.0068 0.02*
0.0097 0.03*
RECEPTOR * 40
0.1032 0.12*
0.0029 O.OOS
0.0022 0.00*
0.3984 0.46*
1.2054 1.39*
34.2582 39.63*
2.7126 3.14*
4.1329 4.78*
0.1617 0.19*
0.0022 O.OOS
0.0008 O.OOS
0.0011 O.OOS
0.0083 0.01S
2.3049 2.67S
0.0908 0.1 IS
0.0021 O.OOS
0.0173 0.02*
0.0195 0.02S
0.0307 0.04S
0.0291 0.03S
0.0386 0.04S
0.0512 0.06S
0.0343 0.04S
0.1093 0.13S
0.0313 0.04*
0.0232 0.03S
0.0179 0.02S
0.0081 0.01S
O.OO66 0.01*
0.0117 0.01*
0.01d2 0.02S
0.0458 0.05S
0.0307 0.04S
0.0447 0.05S
0.0726 0.08S
0.0606 0.07*
0.0406 0.05*
0.0477 0.06*
0.0286 0.03*
0.0467 0.05*
-------
REGION: SHREVEPORT AQUA BASELINE
DATE: APRIL 29, 1977
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICIPATE RECEPTORS (MICROGRAMS PER CUBIC METER)
SOURCE
81
32
83
64
<*5
86
t»7
88
89
90
91
92
93
9*
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
RECEPTOR * 82
._
0.0312 0.08S
0.0138 0.03*
0.0294 0.07*
0.0517 0.13*
0.0445 0.11*
0.0298 0.07*
0.0389 0.10*
0.0307 0.08*
0.0847 0.21*
0.1049 0.26*
0.0728 0.18*
0.0965 0.24*
O.C967 0.24*
0.0448 0.11*
0.0319 0.08*
0.0464 0.12*
0.0290 0.07*
0.0423 0.11*
0.0241 0.06*
0.0436 0.11*
0.0792 0.20*
0.1448 0.36*
0.1975 0.49*
0.1656 0.41*
0.1114 0.28*
O.C997 0.25*
0.0485 0.12*
0.0122 0.03*
0.2497 0.62*
0.0219 0.05*
0.0170 0.04*
0.0201 0.05*
0.0683 0.17*
0.0125 0.03*
0.0379 0.09*
C.C053 0.01*
0.0038 0.01*
0.0036 0.01*
0.0046 0.01*
0.0041 0.01*
RECEPTOR « 83
0.0640 0.08*
0.0279 0.04*
0.1256 0.16*
0.3459 0.44*
0.7947 1.02*
0.2691 0.34*
0.1637 0.21*
0.0731 0.09*
0.1465 0.19*
0.0808 0.10*
0.1508 0.19*
0.1943 0.25*
1.1473 1.47*
0.2495 0.32*
0.1500 0.19*
0.1861 0.24*
0.0936 0.12*
0.1543 0.20*
0.0373 0.05*
0.1987 0.25*
0.2249 0.29*
0.1788 0.23*
0.1001 0.13*
0.1012 0.13*
0.2638 0.34*
0.2800 0.36*
0.0791 0.10*
0.0156 0.02*
0.1933 0.25*
0.0168 0.02*
0.0133 0.02*
0.0184 0.02*
0.0242 0.03*
0.0133 0.02*
0.0462 0.06*
0.0122 0.02*
0.0036 O.OOX
0.0030 0.00*
0.0020 0.00*
0.0034 0.00*
RECEPTOR * 84
0. 0369 0. LO*
0.0238 0.06*
0.0266 0.07*
0.0226 0.06*
0.0190 0.05*
0.0094 0.02*
0.0155 0.04*
0.0123 0.03*
0.0312 0.08*
0.0226 0.06*
0.0228 0.06*
0.0325 0.09*
0.0477 0.13*
0.0304 0.08*
0.0354 0.09*
0.0687 0.18*
0.0554 0.15*
0.0709 0.19*
0.0399 0.10*
0.0349 0.09*
0.0444 0.12*
0.0720 0.19*
0.0564 0.15*
0.0339 0.09*
0.1019 0.27*
0. 1489 0. 39*
0.1176 0.31*
0.0182 0.05*
0.1230 0.32*
0.0114 0.03*
0.0114 0.03*
O.0144 0.04*
0.0126 0.03*
0.0102 0.03*
0.0256 0.07*
0.0052 0.01*
0.0029 0.01*
0.0025 0.01*
0.001U 0.00*
0.0027 0.01*
RECEPTOR * 85
_
0.0097 0.03*
0.0048 0.01*
0.0056 0.02*
0.0084 0.02*
0.0058 0.02*
0.0044 0.01*
0.0080 0.02*
0.0071 0.02*
0.0123 0.03*
0.0079 0.02*
0.0073 0.02*
0.0087 0.02*
0.0126 0.04*
0.0069 0.02*
0.0056 0.02*
0.0094 0.03*
0.0064 0.02*
0.0082 0.02*
0.0033 0.01*
0.0053 0.02*
0.0073 0.02*
0.0115 0.03*
0.0127 0.04*
0.0081 0.02*
0.0118 0.03*
0.0127 0.04*
0.0081 0.02*
0.0045 0.01*
0.0251 0.07*
0.0025 0.01*
0.0049 0.01*
0.0080 0.02*
0.0042 0.01*
0.0122 0.03*
0.0179 0.05*
0.0046 0.01*
0.0037 0.01*
0.0035 0.01*
0.0038 0.01*
0.0031 0.01*
RECEPTOR * 40
0.0289 0.03*
0.0125 0.01*
0.0302 0.03*
0.0788 0.09*
0.0784 0.09*
0.0482 0.06*
0.0650 0.08*
0.0384 0.04*
0.0733 0.08*
0.0522 0.06*
0.0642 0.07*
0.1420 0.16*
0.2044 0.24*
0.1058 0.12*
0.0597 0.07*
0.0705 0.08*
0.0396 0.05*
0.1 ISO 0.13*
0.0583 0.07*
0.4377 0.51*
0.9851 1.14*
0.1976 0.23*
0.1174 0.14*
0.0959 0.11*
0.4110 0.48*
0.4002 0.46*
0.0840 0.10*
0.0159 0.02*
0.1873 0.22*
0.0185 0.02*
0.0130 0.02*
0.0175 0.02*
0.0196 0.02*
0.0120 0.01*
0.0379 0.04*
0.0099 0.01*
0.0033 0.00*
0.0029 O.OC*
0.0021 0.00*
0.0032 O.OOX
-------
REGION: SHREVEPORT AgMA BASELINE
DATE: APRIL 29, 1977
tn
SOURCE CONTRIBUTIONS TC FIVE SELECTED PARTICULATE RECEPTORS iMICROGRAMS PER CUBIC METER}
SOURCE
121
122
123
BACK-
GROUND
TOTAL
RECEPTOR * 82
0.0398 0.10S
0.0188 0.051
0.0117 0.03*
33.8700 84.211
40.2231 100. 01S
RECEPTOR * S3
0.0430 0.06*
0.0186 0.021
0.0142 0.02*
33.8700 43.34*
78.2126 100. OB*
RECEPTOR * 84
0.0342 0.09*
0.01SO 0.04*
0.0167 0.04*
33.8700 88.87*
38.1137 100. OK
RECEPTOR * 65
0.0749 0.21*
0.0988 0.28*
0.0346 0.10*
33.8700 95.62*
35.4202 100.00*
RECEPTOR * 40
-
0.0378 0.04*
0.0170 0.02*
0.0143 0.02*
33.8700 39.18*
86.4921 100.06*
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
146
-------
C.2 1980 PROJECTED RESULTS
147
-------
REGION* SHREVFPOKT AOHA
OAIES AU6UST Z2» 1977
SOURCE DATA
SOURCE
NUMBER
1
2
3
4
5
b
7
a
9
10
11
12
13
14
15
16
17
16
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
SIC
CODE
1446
2046
2421
2426
2431
2435
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2819
2819
2819
2819
2819
2819
2874
2874
2911
2911
2911
2911
2911
2911
2911
2951
2951
2951
2952
SITE
CODE
33
2C
1
13
3
5C
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
27
28
29
30
31
32
25
26
6
7
8
9
52
56
57
4
5
49
1C
PROC
CODE
0
1
1
0
1
1
0
4
4
4
0
0
0
0
0
0
3
3
4
0
4
0
60
0
0
0
0
1
1
0
0
0
0
8
0
0
1
3
1
0
SOURCE LOCATION
(KILOMETERS)
HORI2 VERT
480.8
427.7
434.5
42H.O
432.3
471.5
457.3
457.3
457.3
457.3
457.3
457.3
457. 3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
413.4
413.4
413.4
413.4
413.4
413.4
427.8
427. B
425.2
425.2
425.2
425.2
451.8
425.2
425.2
429.7
434.4
472.8
428.2
3595.0
3590.7
3640.8
3590.6
3599.5
3606.5
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648 .1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3609.0
3609.0
3609.0
3609.0
3609.0
3609.0
3593.6
3593.6
3592.4
3592.4
3592.4
3592.4
3605.7
3592.4
3592.4
3599.2
3600.0
3608.4
3599.0
SOURCE
AREA
(SO KH)
c.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0. 0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
C.O
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
J.O
EMISSION RATE
(TOMS/DAT)
S02 PAR T
_ _
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
c.o
0.0
c.o
o* 0
0.0
0.0
0.0
0.0
0. 0
0.0
0. 0
0.0
0.0
c.o
c.o
0.0
0.0
0.0
0.0
0.0
c.o
c.o
0.0
0.0
c.o
0.0
..0
0.04
0.01
0.03
0.22
0.03
0.05
1.48
1.16
0.11
0.07
1.17
1.49
0.36
0.18
0.44
0.10
0.52
0.28
0.10
0.07
0.15
0.11
0.02
0.11
0.12
0.01
0.05
0.02
0.06
C.04
0.05
0.01
C.04
O.C3
0.2C
0.2C
0.04
0.12
0.04
0.05
STACK
HEI6MT
(METERSI
7.6
6.1
04)
27.4
6.1
9.1
76.2
76.5
65.5
65.5
33.5
33.5
33.5
33.5
33.5
33.5
28.3
28.3
70.7
68.6
65.5
9.4
9.8
9.8
30.5
15.2
15.2
13.7
0.0
12.2
45.7
35.1
45.7
9.1
12.2
12.2
7.3
12.5
9.1
13.7
STACK
DIAMETER
(HETERSI
0.5
0.1
0.0
1.5
0.6
1.2
6.1
2.7
1.2
1.2
1.8
1.8
1.8
1.6
1.8
1.6
1.5
1.5
0.0
2.4
1.2
1.0
l.C
1.0
3.1
1.1
0.4
l.C
3.0
1.1
2.4
2.1
2.4
0.8
1.5
1 .5
2.1
2.0
1.1
l.i
EXIT
« IOC ITT
(M/SEC)
1.5
3.0
0.0
1.8
5.8
8.8
4.9
17.7
4.6
10.1
19.8
16.3
17.4
17.7
25.6
19.2
8.5
8.2
27.1
16.2
5.2
6.7
6.7
6.7
5.5
7.0
4.6
16.5
0.3
12.2
2.1
2.4
2.4
4.0
13.4
13.4
5.8
4.0
31.4
6.5
EXIT
TEMP
(DEG Kl
324.7
298.0
298.0
616.6
394.2
298. C
402.5
429.2
346.9
338.6
561.0
561. 0
561.0
561. C
588.8
455.4
364.7
364.7
433.1
433.1
363.6
488.7
488.7
488.7
633.3
355.3
449.8
319.7
296.0
586.8
616.6
627.7
616.6
505.4
572.1
572.1
338.6
349.7
366.4
588.8
_. __ i_ 1 1 1__ I -1 1 — 1 1 __i 1. 1
00
-------
REGION: SHREVEPOHT AQNA i«eo
DATE* AMVST 22, 1977
SOURCE DATA
SOURCE
NUMBER
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
5B
59
60
61
63
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
SIC
CODE
3229
3229
3229
3251
3251
3323
3323
3323
3323
3323
3661
4911
4911
4911
4953
4953
4953
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999-
9999
9999
9999
9999
9999
SITE
CODE
14
15
16
54
55
11
12
17
18
11
53
22
23
24
2
21
51
1010
1020
1030
1040
1050
1060
107C
1081
1082
1090
HOC
111 C
112 C
201 C
2020
203C
204C
205 C
2060
2070
2080
2090
210C
PRDC
CODE
0
0
0
1
1
1
1
1
1
1
0
0
0
0
6
1
6
0
0
0
0
C
0
C
0
0
3
0
0
0
0
0
0
0
C
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS!
HORIZ VERT
425.0
42S.O
425.0
409.9
409.9
427.5
427.5
427.5
427.5
427.5
426.2
415.5
410.7
410.7
434.5
428.1
432.5
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.6
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
3592.7
3592.7
3592.7
3616.9
3616.9
3590.6
3590.6
3590.6
3590.0
3590.6
3590.9
3598.9
3618.7
3618.7
3640.8
3593.8
3599.5
3594.7
3596.8
3597.9
3598.0
3600.0
3598.2
3596.3
3595.6
3590.9
3587.7
3575.1
3600.1
3623.7
3596.8
3595.8
3595.8
3596.6
3598.6
3596.8
3596.1
3595.3
3595.5
3594.3
SOURCE
AREA
ISO KM)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
02.5
454.4
651.7
881.3
0.7
2.4
0.5
1.5
4.7
1.4
1.4
0.9
0.9
1.9
EMISSION RATE
ITONS/DAY)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
G.O
0.0
c.c
0.0
0.0
0.0
0.0
c.o
0. 0
c.o
0.0
0.0
0.0
0.0
c.o
0. 0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0. 0
0.0
0.0
0.0
0.0
0. 0
0.0
0.15
0.15
0.18
0.04
0.03
0.02
0.05
0.00
0.00
0.00
0.17
0.05
O.C6
0.08
0.08
1.81
0.70
0.00
0.04
0.05
0.06
0.09
0.16
0.17
0.09
0.20
0.10
C. 08
0.23
0.15
C.01
0.02
0.02
0.05
C.04
0.04
0.07
0.04
0.04
0.04
STACK
HEI6HT
(METERS)
53.3
53.3
22.9
6.1
0.0
7.0
6.7
11.3
6.4
6.4
18.3
42.7
42.7
42.7
1.5
30.5
18.3
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
STACK
DIAMETER
INETERSI
2.4
2.4
1.1
1.0
1.5
0.6
0.6
0.8
0.9
0.9
2.8
3.8
3.8
3.8
0.5
2.4
4.1
O.C
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
O.C
0.0
0.0
0.0
0.0
0.0
0.0
0.0
O.C
0.0
0.0
0.0
O.C
EXIT
VELOCITY
CM/SEC 1
_ _
22.9
22.9
42.7
5.8
0.3
35.4
23.5
18.3
15.8
15.8
15.2
22.6
22.6
22.6
0.9
14.9
4.6
0.0
0.0
0.0
0.0
C.O
c.o
0.0
0.0
0.0
0.0
c.o
O.C
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(DEC Kl
533.2
533.2
616.6
616.6
298. C
333.0
298.0
335.8
308.0
308.0
427.6
449.8
449.8
449.8
394.2
568.8
477.6
0.0
0.0
0.0
0.0
O.C
c.c
0.0
0.0
O.C
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
__ __ 1_ 1 __ i i__ 1 i__ 1 1 1 __!__ 1 I
-------
REGION: SHREVEPORT AOHA 1980
CAU: AUGUST 22» 1977
SOURCE DATA
SOURCE
NUMBER
bl
62
63
64
85
86
87
88
89
90
91
92
93
9*
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
SIC
CODE
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
SITE
CODE
211 C
212 0
213C
2140
2150
216C
217C
218C
2190
22 OC
2210
222 C
2230
2240
2250
226 C
22 7 C
228 i
2Z9C
2300
2310
232 C
2330
2340
2350
236 C
2370
238C
2390
240C
2411
2412
2420
243 C
244 C
245 C
2460
2470
2480
249 C
PROC
CODE
0
0
0
0
0
0
0
0
0
0
0
0
0
0
C
•J
0
0
e
0
0
0
0
C
0
0
0
u
0
0
0
0
0
C
C
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
430.2
430.1
431.4
432.8
430.7
429. C
427.0
427.1
426.7
425.4
424.6
422.2
425.0
425.3
427.2
429.1
430.9
431.9
432.9
431.7
429. B
428.7
426.9
424. 7
421.7
422.5
427.0
429.3
430.2
435.9
421.3
421.1
403.1
402.4
417.8
404.0
420.8
424.4
412.6
399.8
3594 .9
3593.8
3594.5
3595.0
3592.5
3592.4
3592.5
3593.7
3595.0
3595.8
3594.3
3591.9
3592.9
3591.0
3592.0
3590.6
3591.1
3591.2
3591.6
3589.4
3582.2
3589.5
3589.4
3588 .7
3588.5
3590.6
3587.5
3587.1
3583.6
3569.8
3582.5
3576.7
3565.9
3583 .4
3591 .0
3600.8
3598.5
3603.5
3610.6
3624.1
SOURCE
AREA
(SO KM)
1.3
2.0
3.7
1.4
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.6
2.9
1.8
i.C
2.4
1.6
3.3
t>.2
9.7
2.5
5.1
4.5
4 j.3
216.7
39.5
42.0
370.3
23b.l
26.5
355.7
41.6
8.8
252.3
338. u
EMISSION RATE
(TONS /DA IT)
SU2 PART
_
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
u.O
0. 0
C. J
0. 0
0.0
0.0
0. 0
0.0
c.o
0.0
C.O
o. a
o.O
C. o
0.0
0. 0
0.0
0.0
c.o
I. 0
C. v>
u. J
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.04
0.07
0.06
0.03
0.04
0.06
0.04
0.03
O.C6
G.Cb
0.09
0 .Ob
0.05
0.07
0.09
0.05
O.C4
C.C6
0'.04
0.06
0.03
0.04
0.06
0.09
0.10
0.06
0.09
C .10
O.Cfc
0.03
0.22
0.02
0.06
0.08
0.03
0.10
0.13
0.03
0.03
0.04
STACK
HEIGHT
(MEIERS)
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
STACK
OlAMETtR
(METERS)
0.0
0.0
0.0
o.c
0.0
o.c
0.0
0.0
0.0
0.0
o.c
0.0
0.0
0.0
o.c
o.c
0.0
o.c
o.c
0.0
0.0
0.0
0.0
0.0
o.c
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.c
EXIT
VELOCITY
(H/SEC )
u.O
c.o
0.0
0.0
0.0
U. 0
0.0
c.o
o.c
0.0
C'.O
0.0
0.0
0.0
c.e
U.O
C..C
:.e
0.0
0.0
0.0
•J.G
i. C>
J • J
O.u
0.0
0.0
c.c
G.C.
i ' • C
0.0
c.o
c.u
0.0
0.0
C . 0
u.O
0.0
0.0
0.0
EXIT
TEMP
(OtO K)
0.0
c.o
c.o
o.c
o.c
&.C
0.0
c.o
c.o
0.0
c.o
0. C
c.o
0.0
o.c
0.0
0.0
c.c
c.o
0.0
0.0
0.0
0.0
o.c
0.0
0.0
o.c
0.0
c.c
c.o
c.o
c.o
c.c
C..O
o.c
c.o
0.0
0.0
o.c
0.0
__ __ i__ 1 i__ _.i _ 1 -1_ 1 — i -1 -i — i 1
en
O
-------
REGION: SHREVEPORT ACMA i960
DATE: AUGUST 22, 1977
SOURCE DATA
SOURCE
NUMBER
121
122
123
12*
125
SIC
CODE
9999
9999
9999
9999
9999
SITE
CODE
250C
2510
3010
3020
3J3C
PROC
CODE
0
0
0
u
c
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
406.2
409.6
463.4
459.7
452.7
3636.0
3633.8
3584.8
3603.3
3625.2
SOURCE
AREA
(SO KM)
9.7
291.1
475.8
460.0
659.6
EMISSION RATE
(TONS/DAT)
su2 PART
i
L.O 1 0.05
o.O 1 0.04
0. 0 1 C .29
C.u 1 C .28
C.u 1 0.41
STACK
HEIGHT
(METERS)
9.1
9.1
9.1
9.1
9.1
STACK
DIAHETER
(METERS)
0.0
o.c
0.0
o.c
o.c
IXIT
VELOCITY
(H/SEC )
0.0
o.O
0.0
0.0
o.c
EXIT
TEMP
(Dec K)
0.0
C.O
O.C
c.c
-,. J
__ i_ -_ i 1 1- 1 __ _1_ i 1 i_ Jl ___ 1 J
-------
REGIONt SHREVEPORT AQHA I960
DATES AUGUST 22* 1977
STABILITY HIND ROSE DATA
STABILITY CLASS 1
WIND SPEED CLASS
NINO DIRECTION
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSM
SM
NSH
W
WNU
NW
NNU
1
O.C0036
0.00013
0.00014
0.00013
0.00017
0.00016
0.00018
0.00038
0.00036
0.00011
O.COOlb
0.00016
O.C0005
O.COOlb
0.00023
0.00006
2
0.00048
0.00021
0.00062
0.00021
0.00076
0.00068
0.00041
C. 00021
0.00123
0.00048
0.00334
0.00034
0.00031
0.00034
0.00027
0.00027
3
0.0
0.0
0.0
0.0
0.0
0.0
u.o
u. 0
0.0
0.0
0.0
0.0
0.0
o. 0
0.0
0.0
4
0.0
o.c
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
5
0.0
0.0
0.0
0.0
0.0
0.0
0.0
C..O
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
c.c
0.0
0.0
152
-------
REGIONS SHREVEPORT AQUA I960
DATES AUGUST 22* 1977
STABILITY HIND ROSE DATA
STABILITY CLASS 2
HIND SPEED CLASS
MIND DIRECTION
N
NNE
NE
ENE
E
ESE
SE
sst
S
SSH
su
HSH
H
HNH
NU
NNH
1
0.00073
O.C0049
0.00045
0.00040
0.00052
O.C0096
0. 001 04
3.C0062
O.C0094
0.00071
0.00069
3.00076
0.00066
0.00078
0.00069
0.00030
2
0.00240
0.00096
0.00123
0.0017B
0.00260
0.00260
0.00274
0.00178
0.00473
0.0020!)
0.00301
0.00288
0. 002 5 3
0.00069
0.00178
0.00137
3
0.00253
U. 00068
0.00089
0.00103
0.00137
0.00151
0.00164
0. J0144
0. OC288
0.00178
0.00226
0.00158
0.00144
0.00075
0.00089
0.00096
4
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
5
0.0
0.0
0.0
0.0
3.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1
0.0
0.0
0.0
0.0
o.c
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
153
-------
REGIONS SHREVEPORT AQHA 19UO
DATE: AUGUST lit 1977
SIAB1LIIY UINU RUSE UATA
STABILITY CLASS 3
MIND DIRECTION
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSN
Stt
HSW
H
MNW
NM
NNW
1
O.C0035
0.00007
O.C0013
O.C0011
O.C003*
0.000*3
0.00051
0.00017
0. COO 46
O.C0033
0.00025
0.00012
O.C0017
O.CCC06
0. COO 16
C.C0010
2
0.00286
0.001**
O.C0123
0.00089
0.00281
0.00308
0.00329
0.00212
0. 005*1
0.00253
0.002*0
0. 0026 7
0.00205
O.OC137
C. 0018 5
O. 00068
WIND SPEED CLASS
3 *
0. 006 30
0.002V/
0.00199
0.00219
C. 00521
0.00603
0.00733
0.00637
0.01151
0.0051*
C. 00*38
O.o0**5
0.00377
L'.u0315
u.w0281
V.003H*
0.000*8
0.0003*
0.00021
0.0001*
0.000*1
0.000*8
0.00055
0.00110
0.00212
0.000*8
0.00089
C. 00068
O.OOC62
0 .00055
0.00075
C. 00027
5
0.00007
0.0
0.0
t'.O
c.o
0.0
c.o
0.0
0.00007
0.00007
0.0
0.00007
C .C
c-.o
c.o
V..O
j
0.0
0.0
0.0
0.0
0.0
C'.O
0.0
0.0
0.0
c.o
O.d
0.0
c.o
0.0
0.0
O.G
154
-------
REGIONS SHREVEPORT AQHA 1980
DATEi AUGUST 22» 1977
STABILITY M1MD ROSE DATA
STABILITY CLASS 4
HIND DIRECTION
N
NNt
Nt
ENE
E
ESE
SE
sst
s
ssw
su
US*
k
VNk
Nta
NNh
0.
0.
0.
0.
0.
0.
0.
0.
3.
0.
0.
0.
0.
0.
0.
0.
1
C0028
COG 18
G0016
00014
00036
00054
C0050
C0030
00059
C0027
00026
COOOB
00032
COO 16
C0022
00009
0
0
0
0
0
2
.00377
.00185
.00158
.00116
.00390
0.00445
0
0
0
0
c
0
0
0
0
0
.00507
.00274
.00671
.00226
.00212
.00151
.00185
.00151
.00137
.00158
NINO SPEED
3
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
c.
0.
0.
00797
00459
00342
00384
00596
00*68
00932
00822
01507
00349
005 CC
00240
00199
00315
00363
00322
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CLASS
4
.00603
.00199
.00226
.00212
.00247
.00267
.00548
.00726
.01699
.00438
.00397
.00219
.00329
.00377
.00562
.00432
0
0
0
0
0
0
0
c
0
0
c
c
c
0
0
0
5
.00021
.00007
.0
.0
.0
.00007
.00007
.00041
.00133
.00034
.00027
.00027
.00034
.0003'.
.00068
.00055
6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
O.OOCC7
O.OC007
0.0
0.0
0.0
0.00007
0 . C 00 1 4
O.OC021
C.d
155
-------
REGION* SHREVEPORT AQUA I960
DATE* AUGUST ii, 1977
STABILITY HIND ROSE DAIA
STABILITY CLASS 5
NINO DIRECTION
N
NNE
HE
ENE
E
ESE
SE
SSE
S
ssw
su
HSU
u
HNH
NM
HUM
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
3.
0.
0.
0.
1
COB 5 7
C0275
C0253
00313
00675
01359
02329
01496
02222
C0860
C0862
01171
01231
00781
C0469
C0318
0
0
0
0
0
2
.0151 A
.00b29
.00534
.00658
.01412
0.01973
0
0
0
• 0
0
0
0
0
0
0
. 03129
.02130
.03233
.01232
.00898
.00931
.01144
.00986
.00589
.00458
HIND SPEED
3
0.
0.
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
0.
0.
0.
0.
01493
00760
00465
00754
00822
00850
01363
01658
03123
00801
00424
00240
00391
00760
00959
00774
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
CLASS
4
.00459
.00212
.00233
.00171
.00192
.00130
.00288
.00493
.00966
.00158
.00055
.00034
.00116
.00322
.00685
.00281
0
0
5
.00048
.0
0.00021
0
0
0
0
0
Q
0
0
0
0
0
c
0
.0
.0
.0
.00007
.00014
.00034
.0
.00007
.00007
.00055
.00040
.00096
.00055
6
0.0
0.0
0.0
0.0
0.0
0.0
0.00007
0.0
0.00007
0.0
0.0
0.0
0.0
O.OC007
0.00007
0.0
156
-------
REGION: SHREVEPORT AOMA i960
OAIE« AUGUST 22, 1917
REGIONAL DATA
tn
AMBIENT TEMPERATURE (DEGREES KELVIN) * 291.4
AMBIENT PRESSURE (MILLIBARS) « 1007.7
MIXING HEIGHT (METERS) * 1450.0
HALF LIFE (HOURS) FOR:
SD2 > 3.0
PARTICULARS - INFINITE
BACKGROUND CONCENTRATION (H1CROGRAMS/CUB 1C METER) FOR:
S02 - 0.0
PARTICULATES » 33.9
REGRESSION PARAMETERS
POLLUTANT
S02
P ARTICULATE S
J
Y-lNTfcRCEPT
0.0
0.0
L J
SLOPE
_
1 .0300
1 .3280
1 _ __ J
REGRESSION COEFFICIENTS
COMPUTED 5t CONF. LEVEL
1
0.0 1 .0.0
1
0.0 ) C.D
1 _ 1 _ |
COMMENT
VALUES NOT COMPUTED
VALUES NOT COMPUTED
I
-------
REGION* SHREVEPORT AOHA 1980
DATE : AUGUST 22t 1977
RtCtPTUk CONCENTRATION OAlA
RECEPTOR
NUMBER
1
2
3
4
5
b
7
e
9
1C
11
12
13
1*
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
3C
31
32
33
34
35
36
37
36
39
40
RECEPTOR LOCATION
(KILOMETERS)
HORIZ VERT
__ _
418.0
418.0
418.0
418.0
418.0
418.0
418.0
418.0
418.0
420.5
420.5
420.5
420.5
420.5
420.5
420.5
420.5
420.5
423.0
423.0
423.0
423.0
423.3
423.0
423.0
423.0
423.0
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425. »
428.0
428.0
428.0
428.0
3583.0
3585.5
3568.0
3590.5
3593. 0
3595.5
3598.0
3600.5
3603.0
3583. C
3585.5
3588.0
3590.5
3593.0
3595.5
3598. C
3600.5
3603.0
35B3.0
3585.5
3SBH.C
3590.5
3593.0
3595.5
3598. C
3600.5
3603.0
3563.0
3585.5
3588. C
3590.5
3593.0
3595.5
3598.0
36CO.S
3603 . C
3583. C
3585.5
3588.0
3590.5
EXPECTED AKITHHET1C MEAN
(HICR06RAHS/CUB1C HETERI
S02 PART
c.o
0.0
0.0
C. 3
C.O
c.o
c.o
c.o
c.o
0.3
C.3
0.0
0.0
0.3
C.O
0.3
0.0
0.0
C.O
' (1.3
0.0
c.o
d. "J
c.o
0.0
G.i
0. J
1.1. J
c.o
0. J
L.O
C.O
c.o
c.o
C . L'
c.o
0.0
c.o
c.o
c.o
35.1
36.0
36.5
37.3
38.5
39.2
39.9
40.2
40.2
35.9
36.3
36.9
38.0
40.0
41.2
41.6
41.4
40.9
36.6
37.1
37.7
40.0
43.6
44.2
43.8
43.1
42.1
37.4
36.1
39.3
43.6
48.7
50.6
47.1
45.0
43.6
37.8
38.8
41.9
47.2
1 ^ ^ ^1_ ^ 1 _ ^ T 1
158
-------
REGION: SHREVEPORT AQHA i9so
DATEt AUGUST 22. 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
41
42
43
44
45
46
47
48
49
5C
51
52
53
54
55
56
57
58
59
6C
bl
62
63
64
b5
b6
bV
b8
b9
70
71
72
73
74
75
76
77
78
79
80
RECEPTOR LOCATION
(KILOMETERS)
HURIZ VtkT
428.0
428.0
428.0
428.0
428.0
430.5
430. 5
430.5
430.5
430.5
430.5
430.5
430.5
430.5
433.0
433.0
43 3. i
433.0
433. G
433.0
433.3
433.0
433.0
435.5
435.5
435.5
435.5
435.5
435.5
435.5
431.. 5
435.5
438. 0
438.0
438.0
438.0
438.0
438.0
438.0
3593.0
3595.5
3598. C
3600.5
360 3.0
3583.0
3585.5
3588.0
3590.5
3593. C
3595.5
3598.0
3603.5
3603. 0
3583. C
354)5.5
3588. 0
3590.5
3593. 'j
3595.5
3598.0
3600.5
3603. 0
35b3.0
3585.5
3T588.C.
3590.5
3593.0
3595.5
3598.0
3600. 5
3603. C
3583. C
3585.5
3588. C
3590.5
3593.0
3595.5
3598. C
438.0 1 360C.5
EXPECTED ARITHMETIC MEAN
(M1CRCGRAMS/CUB1C METERI
SU2 PART
c.o
c.o
c.o
0.3
1. 0
c.a
c.o
C.'J
O.'J
0.0
0.0
c.o
C. J
c.o
c.o
c.o
U. J
c.o
c.o
c.o
C. J
c.o
c.o
c.o
C.J
0.0
<:.:>
C.D
c.o
c.o
0.3
0.3
0.0
c.o
0.0
0.0
c.o
c.o
0.0
0.0
52.3
53.9
51.0
47.8
44.9
36.0
36.2
40.4
42 .4
44 .6
46. I.
45. b
45.9
43 .6
37.0
37.6
3b.y
41.1
42.7
44 .0
44.1
4t). 1
42.8
36.8
37.4
3a.i
3b .9
4^.&
40.4
41.6
41.7
39.7
36.5
3b.9
37.5
3b.l
39.0
39.0
39.1
38.8
1 _ i 1 i
159
-------
REGION: SHRIVE PORT AQUA 1980
DATE •• AUGUST 22» 1977
cr>
o
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
61
82
83
84
85
86
87
88
89
90
91
92
93
94
RECEPTOR LOCATION
(KILOMETERS)
HORli VERT
438.0
417.9
428. C
433.7
473.3
430.3
461.0
438.1
473.3
410.0
409.3
434.8
456.4
4J7.7
3603.0
3394.3
3393.7
3386.6
3611.1
3617.9
3631.2
3647.6
3oOb.b
3617.3
3623. C
J640. V
3631.8
3637.4
EXPECTED ARITHMETIC MEAN
CMICROGRAMS/CUblC METER!
SU2 PART
0.0
0.0
0.0
c.o
C. J
c.o
C. J
C. J
C. J
c.c
0.0
c.o
0.0
c.o
38.3
38.9
72.1
3B.2
33.6
38.7
36.4
43.0
33.9
47. C
37.6
54.2
48.7
36.9
_1 1 i___ 1
PARTICULATE POLLUTANT CONCENTRATIONS ABOVE SIANuARO OF 67.00 MICROfcRAHS PER CUBIC HETEk
RECEPTOR
NUMBER
83
__ __ __J
POLLUTANT CONCENTRATION (NICRO&RAMS PER CUBIC METER)
ARITHMETIC 1EAN
CONCENTRATION
72.0884
t J
EXCESS ABOVE AIR
OUALIT 1 S 1 ANbARO
_
3.0B84
1 - _J
CONTRIBUTION FROM
POINT SOURCES
_
30.2921
1 J
CONTRIBUTION FROM
AREA SOURCES
7.9263
L _J
POLLUTANT REDUCTION (PERCENT)
NECESSARY FOR
POINT SOURCES
16.7976
1 _J
NECESSARY FUR
ALL SOURCES
13.3139
L .
-------
REGION: SHREVEPORI AQHA 1980
DATE: AUGUST 22. 1977
AVERAGING TIME •
1.0 HOURS
PARIICULAIE STATISTICAL 0*1* AT SELECIEO RECEPTORS (N1CROGRAHS PER CUBIC METERI
SELECTED
RECEPTOR
NUhtER
82
83
84
§5
_
EXPECTED
ARITHMETIC
MEAN
38.86
72.09
38.22
19.64
-1
EKMCTED
GEOMETRIC
MEAN
32. «7
59.9*
35.73
28.00
I. - J
0.30
PERCENTIIE
CONCENTRATION
161.21
318. S4
97.94
189.17
_
i.oo
PERCENIILE
CONCENTRATION
126. 33
246. 56
83.91
141.13
1 |
5.00
PERCENTIIE
CONCENTRATION
85.16
162.93
65.35
87.87
L . J
EXPECTED
MAXIHUN
CONCENTRATION
298.63
608.73
144.79
396.75
1 J
STANDARD
GEOMETRIC
DEVIATION
1.78
1.84
1.44
2. CO
I _
AVtRAtlM I UK •
1.0 HBWS
PART1CULAU STATISTICAL DATA AT SELECTED RECEPTORS (N1CR06RANS PER CUBIC HETERI
SELECT!*
RECEPTOR
NUMER
•2
83
84
85
J
EIPECTED
ARITHMETIC
MEAN
31.86
72.0«
36.22
33.64
EXPECTED
GEOMETRIC
MEAN
33. »4
61.29
36.02
28.83
1 J
0.10
PERCENTILE
CONCENTRATION
•
148.97
293.49
92.72
172.88
1 1
1.00
PERCENTILE
CONCENTRATION
116. 53
230.83
80.21
131.36
L J
5. CO
PERCENTILE
CONCENTRATION
81.89
156.53
63.44
64.25
1 J
EXPECTED
MAXIMUM
CONCENTRATION
228.05
459.06
121.46
288.37
I
STANDARD
GEOMETRIC
DEVIATION
1.72
1.77
1.41
1.92
I
AVERAGING IIME • 24.0 HOMS
PARIICUIAIE STATISTICAL UATA AT SELECTED REChPTllRS (MICROGRAHS PER CUBIC HETERI
SELECTED
RECEPTOR
NUMBER
82
83
84
85
--
EIPECTED
ARITHflET 1C
MEAN
36.86
li.Ot
38.22
35.0.63
245. 90
62.44
142. 2C
1
i.oo
PERCENIILE
CONCtNTkAT ILiN
i:;3.21
2i.O. Jl
H.ai
lit. 26
5.00
PERCENIUE
CONCENTRATION
75. 1C
143.21
59.52
76.63
L -
EXPECTED
MAXIMUM
CONCENTRATION
137.38
270.11
87.30
158.32
1
STANDARD
GEOMETRIC
DEVIATION
1.59
1.63
1.34
1 .75
1
161
-------
Rf£.|G*i SHREVrPOfU AOHA 1980
DATE: AUGUST 22. 1977
C3NTR16U1 UT-iS To ! '.VI SU.tfUD PARTICIPATE RtCrPTORi iBICROCSAflS PER CUBIC RETEPi
ro
SfcOkCt
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
36
39
40
i^-CtPTi^k «•• 62
0.0047 O.CU
0.0118 C.03I
0.0025 0.01Z
0.2255 0.5SX
0.0067 0.02X
0.0044 0.01X
0.0092 0.01Z
0.0041 0.01Z
0.0048 0.01Z
0.0019 O.OOZ
0.0291 0.07Z
0.0369 0.10Z
0.0088 0.02Z
0.0045 0.01Z
0.0055 0.01Z
0.0025 0.01X
0.0238 C.06X
0.0128 0.03Z
0.0045 0.01Z
0.0004 O.OOZ
0.0069 0.02Z
0.0351 0.09Z
0.0059 0.02Z
0.0351 0.09Z
0.0187 0.05X
3.0047 0.01Z
0.0143 0.04Z
0.0167 0.04Z
0.0495 0.13Z
0.0518 0.13Z
0.0654 0.17Z
0.0168 0.04Z
O.OS97 0.15Z
0.0035 0.01Z
0.1233 0.32Z
0.1233 0.32Z
0.0106 0.03Z
0.0271 0.07Z
0.0015 O.OOZ
0.0161 0.04X
f;E C.e •- TiiK • 63
O.OOV5 C.01Z
O.C912 0.1 3X
O.C046 C.01Z
1.7565 2.44X
o.'ji29 O.OFX
O.C047 0.01X
0.005t D.01X
O.C044 C.01X
0.0055 0.01Z
0. 002 i O.OOX
0.0336 i/.O&X
0.0426 0.06X
C.C102 0.01X
O.C052 0.01X
0.0064 0.01Z
0.0029 O.OOX
0.0269 0.04X
O.C144 C.02X
O.C051 0.01X
0.0004 O.OOZ
O.C078 0.01X
0.0252 0.03X
0.0042 C.01X
0.0252 O.J3X
0.0130 0.02X
0.0033 OW30X
0.0103 0.01X
0.2966 G.41X
25.8223 1:».62X
0.1116 0.15Z
0.1335 0.19X
0.0356 0.05X
0.1205 0.17Z
0.0040 O.JlZ
0.1917 C.27S
0.1917 0.27X
0.0323 C.C4X
0.0408 0.06X
0.0016 C.OOZ
O.C872 0.121
RECEPTOR « 8t
_
O.OC51 O.C1X
0.0097 3.C3Z
O.OC50 0.01X
0.1992 ?.52X
C.0162 C.04Z
O.OC39 J.C1X
O.OC51 0.01X
0.0040 3.01X
0.0053 O.C1Z
0.0021 O.C1X
0.0327 J.09Z
0.0415 0.11X
3.0C99 D.G3Z
O.'JCbO J.C1X
O.OC63 J.02Z
v. OC28 >.Cll
0.0261 M.C7X
0.01SO J.C-4Z
O.OC50 0.01Z
0,0004 O.OOX
O.OC76 J.02Z
0.0173 0.05X
J.JC29 .; .01X
0.0173 J.05X
G.OOBb J.C2Z
0.0023 J.C1X
0.0071 0.02X
0.0114 J.03X
O.C33U O.C9X
0.0223 a. 061
0.0282 O.C7X
0.0072 0.02Z
0.0258 0.07X
0.0033 C,.C1Z
0.054B 3.14Z
O.OS48 C.14X
0.0131 3.03Z
0.07il 0.20Z
0.0015 vi.OOZ
0.0134 O.C4X
RECEPTOR • 8i
0.0337 0.09X
O.JJ17 O.UCX
0.0035 0.01X
0.0333 O.U9X
0.0052 0.01X
0.0775 0.22Z
'J.0097 J.03X
C.3076 0.02X
0.0085 0.02X
0.0030 0.01X
0.0474 3.13X
J.J601 3.17X
U.0144 0.0<.Z
:.0073 0.02X
,:.0109 3.03Z
-.0041 0.0 IX
C.0419 0.12X
O.J224 0.06X
0.0079 0.02X
0.0007 O.OOZ
0.0122 0.03Z
0.0159 0.04Z
J.0027 0.01X
O.C159 l'.J4X
0.0043 O.C1Z
0.0021 0.01Z
0.0065 0.02X
U.0033 O.v, IX
0.0098 0.03X
0.3055 C. U2X
0.0370 0.02X
0.0018 0.01X
U.0064 0.0 2X
C..G11B 3.03X
0.0069 C.02X
0.0069 0.021
C.0068 0.02X
0.0242 0.07X
0.1162 C.33Z
C.0091 C-.03X
RECEPTOR * 4C
C.0052 0.01Z
1.0629 2.25Z
C.0044 0.01Z
0.1869 0.40X
1.0095 0.02X
0.0039 0.01X
0.0053 0.01X
0.0041 0.01Z
0.0052 0.01Z
C.C021 C.OOZ
1.0322 0.07Z
0.0409 0.09Z
C. 0098 0.02Z
0.0050 0.01Z
0.0062 0.01X
C.OC28 0.01Z
C.0257 0.05X
C.C138 0.03X
C.0049 G.OH
C.0004 O.OCX
C.0075 0.02Z
C.0216 0.05X
-.0036 0.01X
C.0216 0.05Z
C.0112 0.02X
0.0029 u.OIX
0.0068 U.02X
C.0689 0.1 SX
0.2131 C.45Z
0.0723 0.1 5X
C.0896 0.1 9X
0.0232 0.05X
u.0819 0.17X
(;.0036 0.01Z
'.).l'»4o 0.41X
0.1946 0.41X
C.3279 0.06X
C.0351 0.07X
0.0014 C'.OOX
C.0538 0.11X
-------
REGION: SHREVEPORT AQNA i960
DATE: AUGUST 22. 1977
CO
SOURCE CONTRIBUTIONS TO FIVE SELEC
SOURCE
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
56
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
I
RECEPTOR
0.0177
0.0177
0.1086
0.0067
0.0052
0 .0242
0.0562
0.0033
0.0033
0.0033
0.0848
0 .0039
0 .0009
0 .OC12
0 .0060
0.6303
0.0937
0 .0020
0.0144
0.0172
0.0200
0 .0235
0 .0427
0.0513
3.0331
0.0844
0 .024 0
0.0212
0 .0215
0 .0107
0.0034
0.0070
0.0097
0.0227
J .0148
0.0193
0 .0344
0 .0236
0.0189
0.0233
1
* 82
0.05X
0.05Z
0.28Z
0.32Z
C.01Z
0.06Z
0.14Z
0.01Z
0.01Z
C.01Z
0.22X
C.01Z
o.ooz
C.OOX
0.02Z
1.62Z
0.24Z
0.01Z
0.04Z
0.04Z
0.05Z
0.06Z
0.11Z
0.131
C.09Z
0.22Z
C.06Z
0.05Z
0.06*
O.C3Z
C.01Z
O.C2Z
0.02Z
CS.06Z
0.04Z
C.05Z
C.C9Z
0.06Z
0.05Z
0 .06Z
J
RECEPTOR
3.0274
O.C274
0.1470
'j.0062
O.C048
0.1387
0.3301
O.C191
O.C153
0. 0194
Q. 1673
0.0013
O.C007
O.C009
O.C113
O.COC1
0.1864
0.0046
0.0301
O.C303
O.C412
0.0329
0.0559
0.090B
0.0689
0.1641
O.C334
O.C249
O.C229
O.C118
0.0109
O.C159
0.0265
O.C851
O.C5J2
O.C899
0.1558
0.1373
9.0908
O.C901
I
*
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
0.
0.
-------
REGION: SHRtvtPOtu AQHA i960
OATEt AUGUST 22, 1977
SOURCE CONTRIBUTIONS TO fl¥£ SELECTED PARTICULATE RECEPTORS INICROGRAHS PER CUBIC HETERt
SOURCE
Bl
62
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
1
t
RECEPTOR f 82
0.0207 0.09Z
0.0389 0.10Z
0.0267 0.07Z
0.0119 0.03Z
0.0238 0.06X
0.0417 0.11Z
0.0360 0.09X
0.0251 0.06Z
0.0340 C.09Z
0.0291 0.071
0.0728 0.19Z
0.093C 0.24Z
0.0597 0.1SZ
0.0824 0.21Z
0.0784 0.20Z
0.0364 O.C9Z
0.0262 O.C7Z
0.0378 0.10Z
0.0236 0.06Z
0.0354 0.09Z
0.0269 0.07Z
0.0378 0.10Z
0.0723 0.19Z
0.1423 0.37Z
0.1964 0.51Z
0.1544 0.40Z
0.1108 0.29Z
0.0965 0.25Z
0.0472 0.12Z
0.0128 0.03Z
0.2646 0.68Z
0.0239 0.06Z
0.0193 0.05Z
0^0224 0.06Z
0.0652 0.17Z
0.0167 0.04Z
0.0442 0.11Z
0.0072 0.02Z
0.0052 0.01Z
0.0051 0.01Z
I _ _J
1
RECEPTOR * 83
0.0611 0.08Z
0.1249 0.17Z
0.0617 0.09Z
0.0279 0.04Z
0.1055 0.15Z
0.2993 0.42Z
0.7963 1.10Z
0.2812 0.39Z
0.1745 0.24Z
0.0850 0.12Z
0.1601 0.22Z
0.0887 0.121
0.1587 C.22Z
0.2020 0.281
1.1766 1.631
0.2351 C.33Z
0.1393 0.191
0.1646 C.23Z
0.0779 0.11Z
0.1519 0.21Z
0.0394 0.05Z
0.1992 0.281
0.2316 0.32Z
3.1933 0.271
0.1098 0.15Z
0.1118 0.16Z
0.2798 0.39Z
0.2916 C.40Z
0.0820 0.11Z
O.C170 0.021
0.2119 0.29Z
O.C188 0.03Z
0.0154 0.02Z
0.0214 G.U3Z
O.C277 0.04Z
0.0176 0.02Z
0.0587 0.06Z
0.0158 0.02Z
0.0051 0.01Z
0.0045 C.01Z
1- _ _ J
RECEPTOR * 84
0.0267 O.C7Z
0.0461 0.12Z
0.0450 0.12Z
0.0281 0.07Z
0.0343 0.09Z
0.0326 0.09Z
0.0255 0.07Z
0.0139 0.04Z
0.0228 0.06Z
0.0178 0.05Z
0.0421 0.11Z
0.028C 0.07Z
0.0296 O.OBZ
0.0397 0.10Z
0.0632 0.17Z
0.0398 0.10Z
0.0450 0.121
0.0795 0.21Z
0.0616 3. 161
0.0806 0.21Z
0.0422 0.11Z
C.0419 0.11Z
0.0524 0.14Z
0.08
-------
REGION: SHREVEPOBT AOHA 1980
DATE: AUGUST 22* 1977
£
en
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTI CULATE RECEPTORS (IUCRO6RAHS PER CUBIC HETER)
SOURCE
121
122
123
124
125
BACK-
GROUND
TOTAL
J
RECEPTOR » 82
_
0.0067 0.02X
0.0056 0.01Z
3.0357 0.091
0.0211 0.051
0.018S 0.05Z
33 .87:>0 07.17Z
36 .6597 100. 01Z
l_ _ J
RECEPTGR « 83
0.0039 0.01Z
0.0048 0.01Z
0.0396 0.05Z
O.C217 0.03Z
0.0220 C.03Z
33.8700 46.98Z
72.1531 100. OVZ
L _ _ J
RECEPTOR f 84
O.OC34 0.01Z
0.0040 0.01Z
0.0334 0.09Z
0.0197 0.05Z
0.0247 0.061
33.8700 88.62Z
38.2216 100. Oil
L J
RECEPTOR « 65
O.OOSO 0.0 IX
0.0041 0.0 IX
0.0839 0.24Z
0.1070 0.30Z
0,0481 0.13Z
33.8700 95.02X
35.6457 100. OOZ
I
RECEPTOR * 40
O.OO41 0.01X
0.0046 O.Olt
0.0353 0.07X
0.0207 0.04Z
0.0221 0.05Z
33.8700 71.78Z
47.1905 100.012
L
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
166
-------
C.3 1985 PROJECTED RESULTS
167
-------
REGION: SHREVEPORT AOHA i9B5
DATE I AUGUST 21, 1977
CO
SOURCE DATA
SOURCE
NUMBER
1
2
3
4
5
6
7
0
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
SIC
CODE
1446
2048
2421
2426
2431
2435
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2019
2019
2019
2819
2819
2019
2874
2074
2911
2911
2911
2911
2911
2911
2911
2951
2951
2951
2952
SITE
CODE
33
20
1
13
3
50
34
35
36
3?
38
39
40
41
42
43
44
45
46
47
48
27
28
29
30
31
32
25
26
6
7
a
9
52
56
57
4
5
49
10
PROC
CODE
0
1
1
0
0
0
0
0
0
0
3
3
4
0
4
0
60
0
0
0
. 0
1
1
0
0
0
0
8
0
0
1
3
1
0
SOURCE LOCATION
(KILOMETERS!
HORIZ VERT
440.8
427.7
434.5
428.0
432.3
471.5
457.3
457.3
457.3
457.3
457.3
457.3
457.3
%S7.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
413.4
413.4
413.4
413.4
413.4
413.4
427.8
427.8
425.2
425.2
425.2
425.2
451.8
425.2
425.2
429.7
434.4
472.8
428.2
3595.0
3590.7
3640.8
3590.6
3599 .5
3606.5
3640 .1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3640.1
3648 .1
3640 .1
3640.1
3640.1
3640.1
3640 .1
3640.1
3609.0
3609.0
3609.0
3609.0
3609.0
3609.0
3593.
3593.
3592.
3592.
3592.
3592.
3605.
3592.4
3592 .4
3599.2
3600.0
3608.4
3599.0
SOURCE
AREA
(SO KHI
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EMISSION RATE
(TONS/DATI
SO2 PAR T
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.05
0.01
0.04
0.26
0.03
0.06
1.77
1.32
0.13
0.09
1.27
1.70
0.43
0.22
0.53
0.12
0.57
0.33
0.12
0.08
0.17
0.14
0.02
0.14
0.14
0.02
0.06
0.02
0.06
0.04
0.05
0.01
0.05
0.03
0.23
0.23
0.05
0.15
0.05
0.06
STACK
HEIGHT
t METERS I
7.6
6.1
0.0
27.4
6.1
9.1
76.2
76.5
65.5
65.5
33.5
33.5
33.5
33.5
33.5
33.5
28.3
28.3
70.7
68.6
65.5
9.4
9.8
9.8
30.5
15.2
15.2
13.7
0.0
12.2
45.7
35.1
45.7
9.1
12.2
12.2
7.3
12.5
9.1
13.7
STACK
DIAMETER
(METERS 1
0.5
0.1
0.0
1.5
0.6
1.2
6.1
2.7
1.2
1.2
1.8
1.8
1.8
1.8
1.8
1.8
1.5
1.5
0.0
2.4
1.2
1.0
1.0
1.0
3.1
1.1
0.4
1.0
3.0
1.1
2.4
2.1
2.4
0.8
1.5
1.5
2.1
2.0
1.1
1.2
EXIT
VELOCITY
IH/SECI
1.5
3.0
0.0
1.8
5.8
8.0
4.9
17.7
4.6
10.1
19.8
18.3
17.4
17.7
25.6
19.2
8.5
0.2
27.1
16.2
5.2
6.7
6.7
6.7
5.5
7.0
4.6
16.5
0.3
12.2
2.1
2.4
2.4
4.0
13.4
13.4
5.0
4.0
31.4
8.5
EXIT
TENT
(DEC Kl
324.7
290.0
290.0
616.6
394.2
290.0
402.5
429.2
346.9
330.6
561.0
561.0
561.0
561.0
500.0
455.4
364.7
364.7
433.1
433.1
363.6
488.7
488.7
488.7
633.3
355.3
449.0
319.7
298.0
580.0
616.6
627.7
616.6
505.4
572.1
572.1
330.6
349.7
366.4
500.0
i
-------
REGION! SHREVEPORT AQUA 1985
OATE« AUGUST 22, 1977
SOURCE DATA
SOURCE
NUMBER
41
42
43
44
45
46
47
46
49
50
51
52
53
54
55
56
57
58
59
60
bl
62
63
64
65
66
67
68
69
70
71
72
71
74
75
76
77
78
79
80
SIC
CODE
3229
3229
3229
3251
3251
3323
3323
3323
3323
3323
3661
4911
4911
4911
4953
4953
4953
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
SITE
CODE
14
15
16
S4
55
11
12
17
18
19
53
22
23
24
2
21
51
1010
102 C
1030
1040
1050
1060
1070
108 1
1082
1090
1100
1110
1120
2010
2020
2030
2040
205 C
2060
2070
2080
209 C
210C
PRDC
CODE
0
0
0
1
1
1
1
1
1
1
0
0
0
0
6
1
6
0
0
0
0
0
0
0
0
0
. 0
0
0
0
0
0
0
0
0
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
425.0
425.0
425. 0
409.9
409.9
427.5
427.5
427.5
427.5
427.5
426.2
415.5
410.7
410.7
434.5
428.1
432.5
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.8
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
3592.7
3592.7
3592.7
3616.9
3616.9
3590.6
3590.6
3590.6
3590.0
3590.6
3590.9
3598.9
3618.7
3618.7
3640.8
3593.8
3599.5
3594.7
3596.8
3597.9
3598.0
3600.0
3598.2
3596.3
3595 .6
3590.9
3587.7
3575.1
3600.1
3623.7
3596.8
3595.8
3595.8
3596.8
3598.6
3596.8
3596.1
3595.3
3595.5
3594.3
SOURCE
AREA
(SO KMI
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
0.7
2.4
0.5
1.5
4.7
1.4
1.4
0.9
0.9
1.9
EMISSION RATE
IIONS/OAY)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.18
0.18
0.21
0.05
0.04
0.02
0.06
0.00
0.00
0.00
0.22
0.08
0.09
0.12
0.06
1.82
0.80
0.01
0.04
0.06
0.06
0.10
0.17
0.18
0.10
0.21
0.10
0.09
0.25
0.16
0.01
0.02
0.02
0.06
0.05
0.05
0.07
0.05
0.04
0.04
STACK
HEIGHT
(METERS!
53.3
53.3
22.9
6.1
0.0
7.0
6.7
11.3
6.4
6.4
18.3
42.7
42.7
42.7
1.5
30.5
18.3
9.1
9.1
9.1
9.1
9.1
9.1
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.
9.1
9.1
9.1
9.1
STACK
DIAMETER
(METERS)
.
2.4
2.4
1.1
1.0
1.5
0.6
0.6
0.8
0.9
0.9
2.8
3.8
3.8
3.8
0.5
2.4
4.1
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(M/SEC)
22.9
22.9
42.7
5.8
0.3
35.4
23.5
18.3
15.8
15.8
15.2
22.6
22.6
22.6
0.9
14.9
4.6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(DEC K
533.2
533.2
616.6
616.6
298.0
333.0
298.0
335.8
308.0
308.0
427.6
449.8
449.8
449.8
394.2
588.8
477.6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1 1 1 J 1 _i 1 . 1 l_ _ X. i _l
-------
REGION: SHREVEPORI AQHA
DATE« AUGUST 22. 1977
SOURCE OATA
SOURCE
SLMBER
81
82
83
8*
85
86
87
68
69
90
91
92
93
"»*
95
9b
97
98
99
100
101
102
103
1C*
105
106
107
1C8
1C9
110
111
112
113
11*
115
116
117
116
119
120
SIC
CODE
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
, 9999
9999
9999
9999
9999
9999
. 9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
S999
9999
SITE
COD E
211 C
2120
2130
21*0
215 C
2160
217C
2180
219 C
2200
221 C
2220
2230
22* C
2250
226 C
2270
2280
2290
2300
231 C
2320
2330
23*0
235 C
2360
2370
238 C
239 C
2*00
2*11
2*12
2*2 C
2*30
2**C
2*50
2*60
2*7 C
2*8 0
2*90
PROC
CODE
— _
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
C
0
0
0
0
0
. 0
0
3
0
0
0
0
C
0
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
*30.2
*30.1
*31.*
*32.8
*30.7
*29.C
*27.0
*27.1
*26.7
<.25.*
*2*.6
*22.2
*25.0
*25.3
*27.2
*29. 1
*30.9
*31.9
*32.9
*31.7
*29.8
*28.7
*26.9
*2*.7
*21.7
*22.5
427.0
•.29.3
*30.2
*35.9
*21. 3
*21.1
*03.1
*02.*
*17.8
*o*.o
*20.8
*2*.*
*12.8
399.8
359* .9
3593.8
359* .5
3595.0
3592.5
3592.*
3592.5
3593.7
3595.0
3595 .8
359*. 3
3591.9
3592.9
3591.0
3592.0
3590.8
3591.1
3591.2
3591.6
3589.*
3582.2
3589.5
3589.*
3568 .7
3588.5
3590.6
3587.5
3587.1
3583 .6
3569.8
3582.5
3576.7
3565 .9
3583.*
3591.0
3600.8
3598.5
3603.5
3610.6
362*. 1
SOURCE
AREA
(SO KM)
1.3
2.0
3.7
1.*
2.2
2.3
2.8
2.7
1.3
1.8
3.8
7.9
2.8
3.2
2.7
3.3
1.8
2.9
1.8
*.o
2.*
1.6
3.3
5.2
9.7
2.5
5.1
*.5
*0.3
216.7
39.5
*2.0
370.3
236.1
26.5
355.7
*1.6
8.8
252.3
338.0
EMISSION RATE
(TONS/DAY)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0. U
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
u. 0
o.c
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.c
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.05
0.07
0.07
0.03
0.0*
0 .06
0.0*
0.03
0.06
0.05
0.09
0.06
0.06
0.07
0.10
0.05
0.0*
0.07
0.05
0.06
0.03
0.0*
0.06
0.10
0.10
0.07
0.10
0.10
0.07
0.03
0.2*
0.03
0.06
0.08
0.0*
0.11
0.1*
0 .03
0.03
0 .0*
1
STACK
HEIGHT
(METERS)
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
STACK
DIAMETER
(METERS)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(M/SEC)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(OEG K)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
. 0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
-_ i 1 1 1_ i. _ _1_ _ _i i i i J. _i
-------
REGION: SHREVEPORT AQHA 1985
DATES AUGUST 22. 1977
SOURCE OAT A
SOURCE
NUMBER
121
122
123
124
125
SIC
CODE
9999
9999
9999
9999
9999
SITE
CODE
2SOC
2510
3010
3020
3030
PRDC
CODE
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
406.2
409.6
460.4
459.7
452.7
3636 .0
3633.8
3584.8
3603.3
3625.2
SOURCE
AREA
(SO KM)
9.7
291.1
475.8
460.0
659.6
EMISSION RATE
(TONS/DAY)
S02 PART
0.0
0.0
0.0
0.0
0.0
0 .06
0.05
0.31
STACK
HEIGHT
(MEIERS*
9.1
9.1
9.1
0.30 1 9.1
0.43 1 9.1
'
STACK
DIAMETER
(METERS)
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(M/SEC)
0.0
0.0
0.0
0.0
0.0
EXI
TEMI
IDEG
0
0
0
0
0
_ i_ 1 1 J i _^ _J_ _i_ _ i i _ J_ Jl _l
0
0.0
0.0
0.0
-------
ktl.IUN: SHkEVEPORT AQMA 1985
DATE : AUGUST it,
RECEPTOR CONCENTRATION DATA
f-LCtlPrOR
NUhbLR
1
2
3
4
5
h
1
8
<5
1C
il
12
13
14
1 5
11.
17
Ib
1 9
20
21
22
23
24
25
i 6
27
?. b
2 9
3C
31
32
33
34
35
36
37
36
39
4 C
RIICEPTOR LOCATION
(KILOMETERS)
HOKIZ VERT
418.0
418.0
418.0
418.0
418.0
418.0
418.0
418.0
418.0
420.5
420.5
420.5
420.5
420.5
420.5
420.5
^20.5
420.5
423.0
423.0
423.0
423.0
423.0
423.0
423.0
423.0
423.0
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
428.0
428.0
428.0
426.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588. C
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
EXPECTED ARITHMETIC MEAN
(MICROGRAMS/CUBIC METER)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0..0
0.0
0.0
0.0
0.0
0.0
0.0
G.O
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
35.9
36.2
36.8
37.6
38.9
39.7
40.4
40.8
40.7
36.1
36.5
37.1
38.3
40.5
41.9
42.3
42.0
41.5
36.8
37.4
38.1
40.5
44.8
45.1
44.5
43.8
42.8
37.7
38.5
39.8
44.6
50.2
51.9
48.1
45.9
44.4
38.1
39. Z
42.0
48.1
1_ i 1 1
172
-------
REGION: SHfcEVEPORT AQMA 1985
DATE : AUGUST 21* 1977
RECEPTOR CONCENTRATION DATA
RtCEPTDR
NUMBER
41
42
43
44
45
46
47
t 8
49
5C
51
52
53
54
5 b
5o
57
5U
5V
6C
61
6 i
63
64
65
66
67
08
t>9
7C
71
72
73
74
75
76
77
78
79
80
RECEPTLIR LOCATION
(KUUMETERS)
hORlZ VEKT
428.0
428 .0
428.0
428.0
428 .0
430 .5
430,5
430.5
430.5
430.5
430 .5
430.5
430.5
430.5
433.0
433.0
433.0
433.0
433.0
433.0
433.0
433.0
433.0
435.5
435.5
435.5
435.5
435.5
435.5
435.5
435.5
435.5
438.0
438.0
438.0
438.0
438.0
438.0
438.0
438.0
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3t>03.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.C
3585.5
3568.0
3590.5
3593.0
3595.5
3598.0
3600.5
EXPECTED ARITHMETIC MEAN
(MICROGRAMS/CUBIC METER)
SU2 PART
_ •
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
G.O
0.0
c.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
53.9
55.0
52.1
49.0
45.8
38.3
38.5
40.9
43.2
45.5
47.4
40.5
47.0
44.5
37.3
38.1
39.4
41.7
43.4
44.8
44.9
47.4
43.6
37.0
37.7
38.5
39.4
40.5
40.9
42.3
42.5
40.2
36.7
37.2
37.8
38.5
39.5
39.5
39.5
39.3
i.__ 1 1 i
173
-------
REGIONS SHREVEPORT AOMA 1985
DATE s AUGUST 22» 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
81
82
83
84
85
86
87
88
89
9C
91
92
93
94
RECEPTOR LOCATION
(KILUMETERS)
HORIZ VERT
438.0
4i7.9
428.0
433.7
473.5
430.5
461.0
458.1
473.3
410.0
409.0
434.8
456.4
407.7
L__ __J
3603.0
3594.3
3593.7
3586.8
3611.0
3617.9
3631.2
3647.6
3608.8
3617.3
3623.0
3640.9
3651.8
3637.4
L__ J
EXPECTED ARITHMETIC MEAN
(HICROGRAHS/CUBIC HETER)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
L 1
38.7
39.3
74.5
38.6
35.8
39.1
36.6
46.5
36.2
49.5
38.0
56.2
50.7
37.2
P ARTICULATE POLLUTANT CONCENTRATIONS ABOVE STANDARD OF 67.00 HICROGRAHS PER CUBIC NETER
RECEPTOR
NUMBER
83
— \
POLLUTANT CONCENTRATION CHICK OGRAKS PER CUBIC HETERI
_ .
ARITHMETIC HE AN
CONCENTRATION
74.5385
I 1
EXCESS ABOVE AIR
QUALITY STANDARD
7.5385
1 \
CONTRIBUTION FROM
POINT SOURCES
32.2512
1 j
CONTRIBUTION FROM
AREA SOURCES
8.4173
I 1
POLLUTANT REDUCTION {PERCENT)
NECESSART FOR
POINT SOURCES
23.3742
L __ J
NECESSARY FUR
ALL SOURCES
18.5364
L
-------
REGION! SHREVEPUM AUKA 1SI85
DATEl AUGUSI 12, 1977
AVERAGING TIME
CAKI1CUIATE STATISTICAL LiAIA AT SELECTED RECIPTURS IMKROGRAMS PER CUBIC MEIER)
SELECTED
RECEPTOR
NUMBER
82
83
84
65
J
EXPECTED
ARITHMETIC
MEAN
39.28
74.54
3b.!>8
35.84
L J
EXPECTED
tEOMETR 1C
MEAN
33. Z3
b).4b
36.07
26.15
C'.3?
PtKCtNt lit
CUNCtNlR A) ION
162. 9o
329.37
. o«
Hid.',?
65.96
8U.35
L J
tXPECTED
MAXIMUM
CONCENTRATION
301 .07
b29.
SELECTED
RECEPTOR
NUMBER
82
83
84
Si>
EXPECTED
ARITHMETIC
MEAN
39. 2U
7<,.5«i
38.56
35.01.
L _ __J
EXPECTED
GEOMETRIC
MEAN
33.91
63.38
36.37
28.99
C.3C
PERCENT ILE
CUNCtNTR AT IUN
150.59
303.46
93. 6 C
173.82
L 1
1.00
PERCENIILE
CUNCENIRAI IUN
119.62
238.68
80.97
132.08
L J
5.00
PERCENTILE
CONCENTRATION
62.76
161.65
64.04
84.70
I
EXPECTED
MAXIMUM
CONCENTRATION
230. 53
474.67
122.61
289.93
STANDARD
GEOMETRIC
DEVIATION
1.72
1 .77
1.41
1.92
AVERAGING HUE - £<>.0 HOUR!)
1
PARI1CJLAIE STATISTICAL DATA AT SELECTED RECEPTURS IHICKObRANS PER CUBIC HETER)
SELECTED
RECEPTOR
NOMBEK
82
U3
64
Oi
J
EXPtCTtL
ARlTHHtl 1C
MEAN
39. 20
74. 54
3BOo
35.^4
1 J
EXPECTED
GEOMETRIC
MEAN
35.23
66. 11
36.93
30.63
L
U.30
PEkCtNTlLE
CONCENTRATION
127.00
254.2 5
83.27
142.97
1
1.00
PERC ENTILE
CONCENTRATION
104.33
200.81
73.51
112.69
L J
5.00
PERCENTILE
CONCENTRATION
75.91
148.08
60.09
77.04
L J
EXPECTED
MAXIMUM
CONCENTRATION
136.86
279.29
88.13
159.18
L J
STANDARD
GEOME TRIG
DEVIATION
1.59
1 .63
1.34
1 .75
L_—
175
-------
REGIONS SHREVEPORT AQHA 1985
DATE: AUGUST 12, 1977
en
SOURCE CONTRIBUTIONS TO FIVE SELECIED PART1CULATE RECEPTORS INICROGRAHS PER CUBIC METER)
SOURCE
1
Z
3
4
5
6
7
8
9
10
11
1Z
13
14
15
Ib
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
RECEPTOR * 82
_
0.0058 0.01Z
0.0118 0.03Z
0.0029 0.01Z
0.2681 0.681
0.0080 0.02Z
0.0052 0.01Z
0.0063 0.021
0.0047 0.01Z
0.0058 0.01Z
0.0022 0.01Z
O.C316 0.08Z
0.0421 G.11Z
0.0106 0.03Z
0.0054 0.01Z
O.C066 0.02Z
0.0031 0.01Z
0.0263 0.07Z
0.0151 0.04Z
0.0054 0.01Z
0.0004 O.OOZ
0.008C 0.02Z
0.0435 0.11Z
0.0075 0.02Z
0.0435 0.11Z
0.0230 0.06Z
0.0059 0.02Z
0.0174 0.04Z
0.0175 0.04Z
0.0519 0.13Z
0.0602 0.15Z
0.0737 0.19Z
0.0195 0.05Z
0.0661 0.17Z
0.0039 0.01Z
0.1408 0.36Z
0.1408 C.36Z
0.0132 0.03Z
0.0333 0.08Z
0.0019 O.OOZ
0.0195 0.05Z
RECEPTOR * 83
_
0.0067 O.C1Z
0.0912 0.12Z
O.C055 0.01Z
2.0684 2.80Z
O.C153 C.02Z
O.C056 0.01Z
0.0068 0.01Z
0.0050 0.01Z
0.0065 O.C1Z
C.0026 O.OOZ
C.0364 0.05Z
O.C485 0.07Z
0.0122 C.C2Z
0.0062 0.01Z
0.0077 0.01Z
0.0035 O.OOZ
0.0297 0.04Z
0.0171 0.02Z
O.C061 O.C1Z
0.0005 O.OOZ
0.0090 0.01Z
0.0312 0.04Z
O.C054 0.01Z
0.0312 0.04Z
0.0160 0.02Z
0.0042 0.01Z
O.C125 0. 02Z
0.3107 0.42Z
27.0718 36.32Z
0.1297 0.17Z
0.1506 0.20Z
0.0415 O.C6Z
0.1373 O.lbZ
0.0045 0.01Z
0.2190 0.29Z
0.2190 C.29Z
0.0402 O.G5Z
0.0501 0.07Z
O.C020 O.COZ
O.lObl 0.14Z
RECEPTOR * 84
_
0.0063 0.02Z
0.0097 0.03Z
0.0059 0.02Z
0.2369 O.blZ
0.0192 0.05Z
0.0046 0.01Z
0.0061 0.02Z
0.0046 0.01Z
0.0064 0.02Z
0.0025 0.01Z
0.0355 0.09Z
0.0473 0.12Z
0.0119 0.03Z
0.0060 0.02Z
0.0076 0.02Z
0.0034 0.01Z
0.0288 0.07Z
0.0166 0.04Z
0.0059 0.02Z
0.0004 O.OOZ
0.0087 0.02Z
0.0215 0.06Z
0.0037 0.01Z
0.0215 0.06Z
0.0109 0.03Z
0.0029 0.01Z
0.0086 0.02Z
0.0120 0.03Z
0.0354 0.09Z
0.0259 0.07Z
0.0318 0.08Z
0.0084 0.02Z
0.0294 0.08Z
0.0038 0.01Z
0.0626 O.lbZ
0.0626 O.lbZ
0.0163 0.04Z
0.0922 0.24Z
O.OC1B O.OOZ
0.0163 U.04Z
RECEPTOR i 85
0.0412 0.12Z
0.0017 O.OOZ
0.0042 0.01Z
0.0396 0.11Z
0.0062 0.02Z
0.0917 0.26Z
0.0116 0.03Z
0.0086 0.02Z
0.0102 0.03Z
0.0036 0.01Z
0.0514 0.14Z
0.0685 0.19Z
0.0172 0.05Z
0.0088 0.02Z
0.0132 0.04Z
0.0050 0.01Z
0.0462 0.13Z
0.0266 0.07Z
0.0095 0.03Z
0.0008 O.OOZ
0.0140 0.04Z
0.0198 O.CbZ
0.0034 0.01Z
0.0198 O.ObZ
0.0053 0.01Z
0.0027 0.01Z
0.0079 0.02Z
0.0035 0.01Z
0.0103 0.03Z
0.0064 0.02Z
0.0079 0.02Z
0.0021 0.01Z
0.0073 0.02Z
0.0133 0.04Z
0.0079 0.02Z
0.0079 3.02Z
0.0084 0.02Z
0.0297 0.08Z
0.1445 0.40Z
0.0110 0.03Z
RECEPTOR * 40
0.0063 0.01Z
1.0629 2.21Z
0.0052 0.01Z
0.2223 0.46Z
0.0113 0.02Z
0.0046 0.01Z
0.0063 0.01Z
0.0047 0.01Z
0.0063 0.01Z
0.0025 0.01Z
0.0349 0.07Z
0.0465 0.10Z
0.0117 0.02Z
0.0060 0.01Z
0.0074 0.02Z
0.0034 0.01Z
0.0284 0.06Z
0.0163 0.03Z
0.0058 0.01Z
0.0004 O.OOZ
0.0086 0.02Z
0.0267 O.ObZ
0.0046 0.01Z
0.0267 0.06Z
0.0137 0.03Z
0.0036 0.01Z
0.0107 0.02Z
0.0722 0.15Z
0.2234 0.46Z
0.0840 0.17Z
0.1011 0.21Z
0.0270 O.ObZ
0.0933 0.19Z
0.0041 0.01Z
0.2222 0.4bZ
0.2222 0.46Z
0.0347 0.07Z
0.0430 0.09Z
0.0017 O.OOZ
0.0654 0.14Z
1 i_- -1- -_ 1 _- . _ 1 __i
-------
REGION: SHREVEPORI AOHA 1985
DATE I AUGUST 2Z, 1977
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICULATE RECEPTORS (M1CROGRAMS PER CUBIC HETER)
SOURCE
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
J
RECEPTOR f 82
0.0202 0.05Z
0.0202 0.05Z
0.1241 C.32Z
0.0082 0.02Z
0.0066 0.02Z
0.0242 0.06Z
0.0639 0.16Z
0.0044 0.01Z
0.0033 0.01Z
0.0044 0.01Z
0.1094 0.28Z
0.0056 0.01Z
0.0013 O.OOZ
0.0017 O.OOZ
0.0064 0.02Z
0.6317 1.61Z
0.1066 0.27Z
0.0024 0.01Z
0.0151 0.04Z
0.0182 0.05Z
0.0214 0.05Z
0.0246 0.06Z
0.0453 0.121
0.0547 0.14Z
0.0348 0.09Z
0.0894 0.23Z
0.0254 0.06Z
0.0225 0.06Z
0.0228 0.06Z
0.0114 0.03Z
0.0038 0.01Z
0.0074 0.02Z
0.0101 0.03Z
0.0244 0.06Z
0.0158 0.04Z
0.0207 0.05Z
0.037C 0.09Z
0.0253 0.06Z
0.0199 0.05Z
0.025C 0.06Z
L _ _J
RECEPTOR 1 83
0.0313 0.04Z
0.0313 0.04Z
0.1680 0.23Z
0.0075 0.01Z
O.C060 0.01Z
0.1387 0.19Z
0.3754 0.50Z
0.0255 ' 0.03Z
0.0153 0.02Z
0.0258 0.03Z
0.2158 0.29Z
O.C019 O.OOZ
0.0009 O.OOZ
0.0012 O.OOZ
0.0120 0.02Z
O.C001 O.OOZ
0.2119 0.26Z
O.C055 O.C1Z
0.0316 0.04Z
O.C321 0.04Z
O.C439 0.06Z
0.0347 0.05Z
0.0593 0.08Z
0.0968 0.13Z
0.0725 0. 10Z
0.1738 0.23Z
0.0354 0.05Z
0.0265 O.C4Z
O.C242 0.03Z
0.0125 0.02Z
O.C123 0.02Z
0.0168 0.02Z
0.0278 0.04Z
0.0914 0.121
O.C535 0.07Z
0.0962 0.13Z
0.1673 0.22Z
0.1469 0.20Z
O.C957 0.13Z
0.0967 0.13Z
L_ __J
RECEPIOR « 84
0.0123 0.03Z
0.0123 0.03Z
0.0528 0.14Z
0.0058 0.01Z
0.0046 0.01Z
0.0194 0.05Z
0.0513 0.131
0.0035 0.01Z
0.0029 0.01Z
0.0035 0.01Z
0.0692 0.18Z
0.0013 O.OOZ
0.0007 O.OOZ
0.0009 O.OOZ
0.0129 0.03Z
0.4907 1.27Z
0.2465 0.64Z
0.0058 0.01Z
0.0234 0.061
0.0317 0.08Z
0.0307 0.08Z
0.0510 0.13Z
0.0804 0.21Z
0.1149 0.30Z
0.0799 0.21Z
0.1073 0.28Z
0.0260 0.071
0.0230 0.06Z
0.0249 0.06Z
0.0131 0.03Z
O.OC38 0.01Z
0.0098 0.03Z
0.0087 0.02Z
0.0239 0.06Z
0.0184 0.05Z
0.0153 0.04Z
0.0261 0.07Z
0.0184 0.05Z
0.0151 0.04Z
0.0218 0.06Z
\ J
RECEPTOR t 85
0.0009 O.OOZ
0.0009 O.OOZ
C.0071 0.02Z
0.0065 0.02Z
0.0052 0.01Z
0.0033 0.01Z
0.0088 0.02Z
0.0006 O.OOZ
0.0005 O.OOZ
0.0006 O.OOZ
0.0075 0.02Z
0.0003 O.OOZ
0.0004 3.00Z
0.0005 O.OOZ
0.0092 0.03Z
0.0658 0.1 6X
0.0370 0.10Z
0.0011 O.OOZ
0.0075 0.02Z
0.0106 0.03Z
0.0120 0.03Z
0.0195 0.05Z
0.0354 0.1CZ
0.0347 0.1 OZ
0.0185 0.05Z
0.0399 0.11Z
0.0250 0.07Z
0.0148 0.04Z
0.0401 0.11Z
0.0153 0.04Z
0.0016 O.OOZ
0.0032 0.01Z
0.0036 0.01Z
0.0102 0.03Z
0.0086 0.02Z
0.0079 0.021
0.0124 0.03Z
0.0078 0.02Z
0.0067 0.0 ZZ
0.0075 3.02Z
I _J
RECEPTOR * 40
0.0397 0.08Z
0.0397 0.08Z
0.1664 0.35Z
0.0066 0.01Z
0.0053 0.01Z
0.3858 0.80Z
1.5568 3.24Z
0.0717 0.15Z
0.0554 0.121
0.1019 0.21Z
0.2726 O.S7Z
0.0019 O.OOZ
0.0008 O.OOZ
0.0011 O.OOZ
0.0115 0.02Z
2.6439 5.50Z
0.1618 0.34Z
0.0029 0.01Z
0.0217 0.05Z
0.0254 0.05Z
0.0386 0.08Z
0.0385 0.08Z
0.0529 0.11Z
0.0694 0.14Z
0.0448 0.09Z
0.1090 0.23Z
0.0297 0.06Z
0.0243 0.05Z
0.0241 0.05Z
0.0122 0.03Z
0.0079 0.02Z
0.0142 0.03Z
0.0211 0.04Z
0.0539 0.1 1Z
0.0384 0.08Z
0.0542 0.11Z
0.0884 0.18Z
0.0707 0.15Z
0.0464 0.10Z
0.0544 0.11Z
I __
-------
REGION! SURE VEPOUT AQHA 1985
DATEt AUGUST 22. 1977
00
SOURCE C3NIR1BUTIONS TO FIVE SELECTED PARTICULATE RECEPTORS (HICROGRAMS PER CUBIC METER!
SOURCE
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
106
109
110
111
112
113
114
115
116
117
118
119
120
J
RECEPTOR « 82
0.0220 0.06Z
0.0413 0.11Z
0.0284 0.07Z
0.0123 0.03Z
0.0250 0.06Z
0.0445 0.11Z
0.0386 0.10Z
0.0267 0.07Z
0.0358 C.09Z
0.0314 0.08Z
0.0777 0.20Z
0.0991 0.25Z
0.0630 0.16Z
0.0874 0.22Z
0.0826 0.21Z
0.0393 0.10Z
0.0275 O.C7Z
0.0402 0.1 OZ
0.0252 0.06Z
O.C372 0.09Z
0.0289 0.07Z
0.0397 0.10Z
0.0762 0.19Z
0.1500 0.381
0.2083 0.53Z
0.1639 C.42Z
0.1157 0.3CZ
0.1025 G.26Z
O.C502 0.13Z
0.0135 0.03Z
0.2811 0.72Z
0.0259 0.07Z
O.C203 0.05Z
0.0238 0.06Z
0.0689 0.1 8Z
0.0177 0.05Z
0.0473 0.12Z
0.0074 0.02Z
0.0055 0.01Z
0.0054 0.01Z
L _J
RECEPTOR 1 63
0.0652 0.09Z
0.1325 0.18Z
0.0657 0.09Z
0.0288 0.04Z
0.1109 0.15Z
0.3196 0.43Z
0.6531 1.14Z
0.2988 0.4CZ
0.1837 0.251
O.C918 0.12Z
0.1709 0.23Z
0.0946 0.13Z
0.1674 0.22Z
0.2142 0.29Z
1.2399 1.66Z
0.2539 0.34Z
0.1462 0.20Z
0.1747 0.23Z
0.0834 0.11Z
0.1598 0.21Z
0.0423 0.06Z
0.2092 C.28Z
0.2438 0.331
0.2037 C.27Z
0.1164 0.16Z
0.1186 0.16Z
0.2946 0.40Z
0.3097 0.42Z
0.0872 0.12Z
0.0181 0.02Z
0.2251 0.30Z
0.0204 0.03Z
0.0162 0.02Z
O.C228 0.03Z
0.0293 0.04Z
0.0186 0.03Z
O.C628 C.08Z
0.0163 O.C2Z
0.0054 0.01Z
0.0046 0.01Z
L J
RECEPTOR * 84
0.0285 0.07Z
0.0489 0.13Z
0.0479 0.12Z
0.0290 0.08Z
0.0360 0.09Z
0.0348 0.09Z
0.0273 0.07Z
0.0147 0.04Z
0.0240 0.06Z
0.0192 0.05Z
0.0449 0.12Z
0.0299 0.08Z
0.0313 0.08Z
0.0421 0.11Z
0.0666 0.17Z
0.0430 0.11Z
0.0473 0.12Z
0.0644 0.22Z
0.0659 0.17Z
0.0848 0.22Z
0.0453 0.12Z
0.0440 0.11Z
0.0552 0.14Z
0.0689 0.23Z
0.0703 0.18Z
0.0431 0.11Z
0.1221 0.32Z
0.1748 0.45Z
0.1205 0.31Z
0.0204 0.05Z
0.1489 0.39Z
0.0137 0.04Z
0.0139 0.04Z
0.0185 D.05Z
C.0164 0.04Z
0.0149 0.04Z
0.0387 0.10Z
0.0083 0.02Z
0.0046 U.01Z
0.0041 0.01Z
1 J
RECEPTOR 1 85
0.0084 0.02Z
0.0120 0.03Z
0.0120 0.03Z
0.0058 0.02Z
0.0069 0.02Z
0.0105 0.03Z
0.0072 0.02Z
0.0056 0.02Z
0.0099 0.03Z
0.0069 0.02Z
0.0153 0.04Z
0.0096 0.031
0.0091 0.03Z
0.0108 0.03Z
0.0156 0.04Z
0.0086 0.02Z
0.0070 0.02Z
0.0117 0.03Z
0.0080 0.0 2Z
0.0101 0.03Z
0.0042 0.01Z
0.0066 0.02Z
0.0091 0.03Z
0.0143 0.04Z
0.0159 0.04Z
0.0100 0.03Z
0.0147 0.04Z
0.0159 0.04Z
0.0102 0.03Z
0.0056 0.021
0.0314 0.09Z
0.0032 O.OIZ
0.0061 0.02Z
0.0101 0.03*
0.0053 O.OIZ
0.0153 0.04Z
0.0222 0.06Z
0.0056 0.02Z
0.0048 O.OIZ
0.0047 O.i. U
I __ _l
RECEPTOR * 40
0.0341 0.07Z
0.0545 0.11Z
0.0367 0.08Z
0.0161 0.03Z
0.0355 0.07Z
0.0660 0.18Z
0.0875 0.18Z
0.0563 0.12Z
0.0783 0.16Z
0.0517 0.11Z
0.0981 0.20Z
0.0655 0.14Z
0.0812 0.17Z
0.1602 0.33Z
0.2176 0.45Z
0.0999 0.21Z
0.0583 0.12Z
0.0702 0.15Z
0.0405 0.08Z
0.0997 0.21Z
0.0644 0.13Z
0.4186 0.87Z
1.0523 2.19Z
0.2176 0.45Z
0.1377 0.29Z
0.1121 0.23Z
0.4267 0.89Z
0.4110 0.85Z
0.0878 0.16Z
0.0179 0.04Z
0.2200 0.46Z
0.0221 0.05Z
0.0159 0.03Z
0.0221 0.05Z
0.0247 0.05Z
0.0171 0.04Z
0.0535 0.11Z
0.0134 0.03Z
0.0051 O.OIZ
0.0046 O.OIZ
1 _
-------
REGION* SHREVEPORT AQHA 1985
DATE t AUGUST 22, 1977
10
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICULATE RECEPTORS (HICROGRAMS PER CUBIC METERI
SOURCE
121
122
123
124
125
BACK-
GROUND
TOTAL
J
RECEPTOR 1 82
0.0071 0.02X
O.OObO 0.02Z
0.0380 0.10Z
0.0225 0.061
0.0200 0.05Z
33.8700 86.23Z
39.262Z 100. OU
L _J
RECEPTOR * 83
0.0042 0.01Z
0.0052 0.01Z
0.0421 O.Ob I
O.C231 0.031
0.0234 0.03Z
33.8700 45.44Z
74.6034 100.091
L _ _ _J
RECEPTOR f 84
0.0036 0.01Z
0.0043 0.01X
0.0355 0.09Z
0.0209 0.05Z
0.0262 0.07Z
33.8700 87 .791
38.5832 100.01Z
L _ J
RECEPTOR * 85
0.0053 0.011
0.0044 O.Olt
0.0693 0.251
0.1138 0.321
0.0510 0.141
33.8700 94.511
35.8393 100. OOZ
1 J
RECEPTOR * 40
0.0043 0.01Z
0.0049 0.01Z
0.0376 0.08Z
0.0220 0.05Z
0.0234 0.05Z
33.8700 70.44Z
48.0871 100. 01Z
L
-------
THIS PAGE IS INTENTIONALLY LEFT BLANK
180
-------
C.4 1995 PROJECTED RESULTS
181
-------
REGION! SHREVEPORT A OKA 1995
DATES AUGUST 22» 1977
O>
ro
SOURCE DATA
SOURCE
NUMBER
I
i
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
16
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
SIC
CODE
1446
2048
2421
2426
2431
2435
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2621
2819
2819
2819
2819
2819
2819
2874
2874
2911
2911
2911
2911
2911
2911
2911
2951
2951
2951
2952
SITE
CODE
33
2C
1
13
3
50
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
27
28
29
30
31
32
25
26
6
7
8
9
52
56
57
4
- 5
49
10
PROC
CODE
0
1
1
0
1
1
0
4
4
4
0
0
0
0
0
0
3
3
4
0
4
0
60
0
0
0
0
1
1
0
0
0
0
a
0
0
1
3
1
0
• — 1
SOURCE LOCATION
(KILOMETERS)
HOR12 VERT
480.8
427.7
434.5
428.0
432.3
471.5
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
457.3
413.4
413.4
413.4
413.4
413.4
413.4
427.8
427.8
425.2
425.2
425.2
425.2
451.8
425.2
425.2
429.7
434.4
472.8
428.2
1 1
3595.0
3590.7
3640.8
3590.6
3599.5
3606.5
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3648.1
3646.1
3648.1
3648.1
3648.1
3609.0
3609.0
3609.0
3609.0
3609.0
3609.0
3593.6
3593.6
3592.4
3592.4
3592 .4
3592.4
3605.7
3592.4
3592.4
3599.2
3600.0
3608.4
3599.0
SOURCE
AREA
ISO KMI
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
- -J
EMISSION RATE
(TONS/DAY)
S02 PAR T
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.08
0.01
0.05
0.37
0.04
0.08
2.60
1.77
0.19
0.13
1.46
2.21
0.63
0.32
0.78
0.18
0.72
0.48
0.17
0.12
0.24
0.21
0.04
0.21
0.22
0.03
0.09
0.02
0.07
0.06
0.07
0.02
0.06
0.05
0.31
0.31
0.07
0.22
0.07
0.09
STACK
HEIGHT
(HETERSI
7.6
6.1
0.0
27.4
6.1
9.1
76.2
76.5
65.5
65.5
33.5
33.5
33.5
33.5
33.5
33.5
28.3
28.3
70.7
68.6
65.5
9.4
9.8
9.8
30.5
15.2
15.2
13.7
0.0
12.2
45.7
35.1
45.7
9.1
12.2
12.2
7.3
12.5
9.1
13.7
STACK
DIAMETER
(METERSt
0.5
0.1
0.0
1.5
0.6
1.2
6.1
2.7
.2
.2
.8
.8
.8
.8
1.8
1.8
1.5
1.5
0.0
2.4
1.2
1.0
1.0
1.0
3.1
1.1
0.4
1.0
3.0
1.1
2.4
2.1
2.4
0.8
1.5
1.5
2.1
2.0
1.1
1.2
1 1
EXIT
VELOCITY
(M/SEC)
_
1.5
3.0
0.0
1.8
5.6
8.8
4.9
17.7
4.6
10.1
19.8
18.3
17.4
17.7
25.6
19.2
8.5
8.2
27.1
16.2
5.2
6.7
6.7
6.7
5.5
7.0
4.6
16.5
0.3
12.2
2.1
2.4
2.4
4.0
13.4
13.4
5.8
4.0
31.4
8.5
1 |
EXIT
TEMP
IOEG Kl
324.7
298.0
298.0
616.6
394.2
298.0
402.5
429.2
346.9
338.6
561.0
561.0
561.0
561.0
588.8
455.4
364.7
364.7
433.1
433.1
363.6
488.7
488.7
488.7
633.3
355.3
449.8
319.7
298.0
588.8
616.6
627.7
616.6
505.4
572.1
572.1
338.6
349.7
366.4
588.8
-------
REGION I SHREVEPORI A DMA 1995
DATti AUCUST 22, 1977
oo
SOURCE DATA
SOURCE
NUMBER
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
56
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
7V
80
SIC
CODE
3229
3229
3229
3251
3251
3323
3323
3323
3323
3323
3661
4911
4911
4911
4953
4953
4953
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
9999
SITE
CODE
14
15
16
54
55
11
12
17
18
19
53
22
23
24
2
21
51
1010
1020
1030
1040
1050
1060
1070
1081
1082
1090
1100
1110
1120
2010
2020
2030
2040
2050
2060
2070
2080
2090
2100
PROC
CODE
0
0
0
1
1
1
1
1
1
1
0
0
0
0
6
1
6
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
425. C
425.0
425.0
409.9
409.9
427.5
427.5
427.5
427.5
427.5
426.2
415.5
410.7
410.7
434.5
428.1
432.5
432.9
430.9
431.3
430.2
431.9
433.1
433.7
432.6
435.0
445.6
434.9
434.1
423.8
429.2
429.9
429.2
428.4
427.2
427.3
427.0
427.7
428.4
428.8
3592.7
3592.7
3592.7
3616.9
3616.9
3590.6
3590.6
3590.6
3590 .0
3590.6
3590.9
3598.9
3618.7
3618.7
3640 .8
3593.8
3599.5
3594.7
3596 .8
3597.9
3598.0
3600.0
3598.2
3596.3
3595.6
3590.9
3587.7
3575.1
3600.1
3623.7
3596.8
3595.8
3595.8
3596.8
3598.6
3596.8
3596.1
3595.3
3595.5
3594.3
SOURCE
AREA
ISO KH)
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.8
1.5
1.1
3.2
3.2
16.2
4.1
2.9
19.4
82.5
454.4
651.7
881.3
0.7
2.4
0.5
1.5
4.7
1.4
1.4
0.9
0.9
1.9
EMISSION RATE
(TONS/DAT)
S02 PART
_ _
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.18
0.18
0.22
0.08
0.06
0.02
0.08
0.00
c.oo
0.00
0.36
0.12
0.15
0.19
0.09
1.83
0.92
0.01
0.05
0.06
0.07
0.11
0.20
0.20
0.11
0.24
0.12
0.10
0.28
0.18
0.01
0.02
0.02
0.06
0.05
0.05
0.08
0.05
0.04
0.05
STACK
HE IGHT
(METERS)
53.3
53.3
22.9
6.1
0.0
7.0
6.7
11.3
6.4
6.4
18.3
42.7
42.7
42.7
1.5
30.5
18.3
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
9.1
STACK
DIAMETER
(METERS)
- - , , ^ ^
2.4
2.4
1.1
1.0
1.5
0.6
0.6
0.8
0.9
0.9
2.8
3.8
3.8
3.8
0.5
2.4
4.1
0.0
0.0
0.0
0.0
0.0
O.C
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(N/SEC)
_ _
22.9
22.9
42.7
5.8
0.3
35.4
23.5
18.3
15.8
15.8
15.2
22.6
22.6
22.6
0.9
14.9
4.6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(DEG K
533.2
533.2
616.6
616.6
298.0
333.0
298.0
335.8
3C8.0
338.0
427.6
449.8
449.8
449.8
394.2
588.8
477.6
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
— — 1_ __!_ _ 1 i__ 1__ _ _1_ i „ 1 1 _.!__ l_ _ t _
-------
REGION: SHREVEPORT AQHA 1995
DATE> AUGUST 22, 1977
CO
SOURCE DATA
SOURCE
NUMBER
81
82
83
84
85
86
87
88
89
90
91
9Z
93
94
95
96
97
98
99
100
101
102
103
10
-------
REGION: SHREVEPORT AQHA 1995
DATE: AUGUST 22, 1977
00
CJ1
SOURCE UATA
SOURCE
NUMBER
121
122
123
124
125
SIC
CODE
9999
9999
9999
9999
9999
SITE
CODE
2500
2510
3010
3020
3030
PROC
CODE
0
0
0
0
0
SOURCE LOCATION
(KILOMETERS)
HORIZ VERT
406.2
409.6
460.4
459.7
452.7
3636.0
3633.8
3584.8
3603.3
3625.2
SOURCE
AREA
(SO KM)
9.7
291.1
475.8
460.0
659.6
EMISSION RATE
(TONS/DAY)
S02 PART
c.o
0.0
0.0
0.0
0. 0
0.06
0.05
0.35
0.34
0.49
STACK
HEIGHT
(METERS)
9.1
9.1
9.1
9.1
9.1
STACK
DIAMETER
(METERS)
0.0
0.0
0.0
0.0
0.0
EXIT
VELOCITY
(H/SEC)
0.0
0.0
0.0
0.0
0.0
EXIT
TEMP
(DEG K
0.0
0.0
0.0
O.C
0.0
-_ 1 i i__ _.i 1 1 1 — 1 1 J J_ _i
-------
REGION: SHREVEPORT AQHA 1995
DATE : AUGUST 22» 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
I
2
3
4
5
6
7
8
9
10
11
12
13
1*
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
RECEPTOR LOCATION
(KILOMETERS)
HORIZ VERT
418.0
418.0
418.0
418.0
418.0
418.0
418.0
418.0
418.0
420.5
420.5
420.5
420.5
420.5
420.5
420.5
420.5
420.5
423.0
423.0
423.0
423.0
423.0
423.0
423.0
423.0
423.0
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
425.5
426.0
428.0
428.0
428.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3565.5
3586.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
'3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
EXPECTED ARITHMETIC MEAN
(MICROGRAMS/CUBIC METER)
S02 PART
_
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
36.3
36.7
37.3
38.3
39.6
40.7
41.6
42.0
42.0
36.5
37.0
37.7
39.2
41.7
43.3
43.8
43.4
42.8
37.3
38.0
38.8
41.8
46.9
47.1
46.2
45.5
44.4
38.4
39.3
40.9
46.8
53.9
54.8
50.4
46.1
46.3
38.9
40.1
44.2
50.2
i 1 1 i_
186
-------
REGION: SHREVEPORT AOMA 1995
DATE : AUGUST 22, 1977
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
5fc
57
58
59
6C
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
RECEPTOR LOCATION
(KILOMETERS)
HORIZ VERT
428.0
428.0
428. C
428.0
428.0
430.5
430.5
430.5
430.5
430.5
430.5
430.5
430.5
430.5
433.0
433.0
433.0
433.0
433.0
433.0
433.0
433.0
433.0
435.5
435.5
435.5
435.5
435.5
435.5
435.5
435.5
435.5
438.0
438.0
438.0
438.0
438.0
438.0
438.0
438.0
3593. G
3595.5
3598.0
3600.5
3603.0
3583.0
35b5.5
3588.0
3590.5
3593.0
3595.5
3598. C
3600.5
3603.0
35tt3.C
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
3603.0
3583.0
3585.5
3588.0
3590.5
3593.0
3595.5
3598.0
3600.5
EXPECTED ARITHMETIC MEAN
(MICROGKAMS/CUBIC METER)
S02 PART
0.0
0.0
0.0
O.'J
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
c.o
0.0
0.0
0.0
0.0
0.0
0.0
57.8
57.7
54.8
51.8
47.8
39.0
39.3
42.1
44.9
47.3
49.4
48.5
49.4
46.4
37.9
38.9
40.3
43. C
44.9
46.5
46.8
50.2
45.5
37.6
3U.4
39.3
40.3
41.7
42.1
43.8
44.4
41.4
37.3
37. b
38.5
39.3
40.4
40.4
40.6
40.3
1 i 1 i
187
-------
REGION I SHREVEPORT AOHA 1995
DATEi AUGUST 22» 1977
CO
00
RECEPTOR CONCENTRATION DATA
RECEPTOR
NUMBER
81
82
83
84
85
86
87
88
89
90
91
92
93
94
RECEPTOR LOCATION
(KILOMETERS)
HORIZ VERT
438.0
417.9
428.0
433.7
473.5
430.5
461.0
458.1
473.3
410.0
409.0
434.8
456.4
407.7
3603.0
3594.3
3593.7
3586.8
3611.0
3617.9
3631.2
3647.6
3608.8
3617.3
3623.0
3640.9
3651.8
3637.4
EXPECTED ARITHMETIC MEAN
IHICROGRAHS/CUBIC METER)
S02 PART
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
39.6
40.3
80.7
39.4
36.3
40.1
37.3
50.5
36.8
56.2
39.0
61.0
56.1
38.0
_1 1 1 '
RECEPTOR
NUMBER
83
._ __ __J
r ARTICULATE PI
POLLU1
ARITHMETIC HE AN
CONCENTRATION
80.7048
1- _ _ _ _ _J
JLLUTANT CONCENTRAT]
tANT CONCENTRATION 1
EXCESS A80VE AIR
QUALITY STANDARD
13.7048
1 - J
ONS ABOVE STANDARD 1
HICROGRANS PER CUBIC
CONTRIBUTION FROM
POINT SOURCES
37.3529
|_ J
)F 67.00 HICROGRAHS
: METER)
CONTRIBUTION FROM
AREA SOURCES
9.4819
L _ _J
PER CU8IC METER
POLLUTANT REDIK
NECESSARY FOR
POINT SOURCES
36.6899
1 J
TIOM IPERCENTI
NECESSARY FDR
ALL SOURCES
29.2619
L
-------
REGION! SHREVEPORT AOMA 199%
DATE I AUGUST 22, 1977
AVERAGING TIME •
1.0 HOURS
PAR11CULAU STATISTICAL DATA AT SELECTED RECEPTORS IM1CRUGRAMS PER CU61C METER)
SELECTED
RECEPTOR
NUMBER
82
83
84
as
J
EXPECTED
ARITHMETIC
MEAN
-------
REGION: SHREVEPORT AQHA 1995
DATE: AUGUST 22, 1977
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICULATE RECEPTORS (HICROGRAHS PER CUBIC METER)
SOURCE
1
Z
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
_ J
RECEPTOR f 82
_ _
0.0087 0.02Z
0.0118 0.031
0.0042 0.01Z
0.3814 0.951
0.0112 0.031
0.0074 0.021
0.0092 0.02Z
0.0063 0.02Z
0.0085 0.02Z
0.0033 0.01Z
0.0363 0.09Z
O.OS48 0.14Z
0.0155 0.04Z
0.0079 0.02Z
0.0096 0.02Z
0.0045 0.01Z
0.0332 C.08Z
0.0218 0.05Z
0.0079 0.02Z
0.0006 O.OOZ
0.0109 0.03Z
0.0668 0.17Z
0.0115 0.03Z
0.0668 0.17Z
0.0353 0.09Z
0.0090 0.02Z
0.0267 0.07Z
0.0191 0.05Z
0.0583 0.14Z
0.0798 0.20Z
0.0973 0.24Z
0.0265 0.07Z
0.0903 0.22Z
0.0051 0.01Z
0.1861 (J.46Z
0.1861 0.46Z
0.0198 0.05Z
0.0506 0.132
O.OOZ9 u.OU
O.OZ9S 0.07Z
J
RECEPTOR t 83
0.0102 0.01Z
0.0912 O.llt
0.0078 0.01Z
2.9707 3.68Z
0.0216 0.03Z
0.0079 0.01Z
0.0099 0.01Z
0.0067 0.01Z
0.0096 0.01Z
0.0038 O.OOZ
0.0418 0.05Z
0.0632 0.08Z
0.0179 0. 02Z
O.C091 0.01Z
O.C113 0.01Z
O.C051 0.01Z
0.0374 0.05Z
0.0246 0.03Z
O.C089 0.01Z
0.0007 O.OOZ
0.0123 0.02Z
0.0480 0.06Z
O.C083 0.01Z
0.0480 0.061
0.0245 0.03Z
0.0065 0.01Z
0.0192 0.02Z
0.3389 0.42Z
30.4037 37.67Z
0.1719 0.21Z
0.1989 0.25Z
0.0563 0.07Z
0.1822 0.23Z
0.0059 0.01Z
0.2895 0.36Z
0.2895 0.36Z
0.0603 0.07Z
O.C762 0. 09Z
O.C031 G.COZ
0.1625 C.20Z
1 ___J
RECEPTOR f 84
0.0094 0.02Z
0.0097 0.02Z
0.0084 0.02Z
0.3370 0.85Z
0.0271 0.07Z
0.0065 0.02Z
0.0090 0.02Z
0.0061 0.02Z
0.0094 0.02Z
0.0037 0.01Z
0.0408 0.10Z
0.0616 0.16Z
0.0174 0.04Z
0.0089 0.02Z
0.0111 0.03Z
0.0050 0.01Z
0.0363 0.09Z
0.0238 0.06Z
0.0087 0.02Z
0.0006 O.OOZ
0.0119 0.031
0.0330 0.08Z
0.0057 0. OH
0.0330 0.08Z
0.0167 0.04Z
0.0044 0.01Z
0.0132 0.031
0.0130 0.03Z
0.0398 0.10Z
0.0344 0.09Z
0.0420 O.llt
0.0114 0.03Z
0.0390 0.10Z
0.0049 0.01Z
0.0828 0.211
0.0828 0.21Z
0.0245 0.061
0.1401 0.361
O.CC27 u.OlZ
0.0249 O.C6Z
[ J
RECEPTOR • 85
C.0622 0.171
0.0017 O.OOZ
0.0060 0.02Z
0.0564 0.161
0.0087 0.02Z
0.1297 0.36Z
0.0170 O.OSZ
0.0115 0.03Z
0.0150 0.04Z
0.0053 0.01Z
0.0590 0.16Z
0.0892 0.25Z
0.0253 0.07Z
0.0128 0.04Z
C.0193 0.05Z
0.0073 0.02Z
0.0583 C.16Z
0.0382 0.11Z
0.0139 0.04Z
0.0012 O.OOZ
0.0191 0.05Z
0.0303 0.08Z
0.0052 0.01Z
0.0303 O.OSZ
0.0082 0.02Z
0.0041 0.01Z
0.0121 0.03Z
0.0038 0.01Z
0.0115 0.03Z
0.0085 0.02Z
0.0104 0.03Z
0.0028 0.01Z
0.0097 0.03Z
C.0175 0.05Z
0.3104 0.03Z
0.0104 0.03Z
0.0126 0.03Z
0.0452 0.121
0.2167 O.bOZ
3.0169 O.U5Z
U-_ 1
RECEPTOR t 40
0.0095 0.02Z
1.0629 2.12Z
0.0075 0.01Z
0.3161 0.63Z
0.0158 0.03Z
C.0064 0.01Z
0.0093 0.02Z
0.0063 0.01Z
0.0092 0.02Z
0.0036 0.01Z
C.0401 0.08Z
C.0606 0.12Z
0.0172 0.03Z
0.0087 0.02Z
0.0109 0.02Z
0.0049 0.01Z
0.0358 0.07Z
0.0235 0.05Z
0.0085 0.02Z
C.0006 O.OOZ
0.0117 0.02Z
0.0410 0.08Z
0.0071 0.01Z
0.0410 0.08Z
0.0211 0.04Z
0.0055 0.01Z
0.0164 0.03Z
0.0787 0.16Z
0.2509 0.50Z
0.1114 0.22Z
0.1335 0.27Z
0.0367 0.07Z
0.1237 0.25Z
0.0054 0.01Z
0.2938 0.59Z
0.2938 0.59Z
0.0520 0.10Z
0.0654 0.13Z
C.0026 0.01Z
C.1001 0.2CZ
I
-------
REGIONS SHREVEPORT AQHA 1995
DATE> AUGUST 22, 1977
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICULATE RECEPTORS (HICROGRAHS PER CUBIC NETERl
SOURCE
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
eo
j
RECEPTOR * 82
0.0210 0.05Z
0.0210 0.051
0.1289 0.32Z
0.0125 0.03Z
0.0098 0.021
0.0242 0.06X
0.0849 0.21Z
0.0055 0.01Z
0.0044 0.01Z
0.0044 0.01Z
0.1812 0.45X
0.0087 0.021
O.OOZ1 0.01Z
0.0027 0.01Z
0.0072 0.02Z
0.6356 1.58Z
0.1239 C.31Z
0.0024 0.01Z
0.0173 0.04Z
0.0205 0.05Z
0.0241 0.06Z
0.0280 0.07Z
0.0510 0.13Z
0.0614 0.15Z
0.0394 0.10Z
0.1008 0.25Z
0.0286 G.07Z
0.0253 0.06Z
0.0256 0.06Z
0.0128 0.03Z
0.0042 0.01Z
0.0082 0.02Z
0.0116 0.03Z
0.0273 0.07Z
0.0178 0.04Z
0.0234 0.06Z
0.0415 0.1 OZ
0.0286 0.07Z
0.0224 0.06Z
0.0278 0.07Z
I J
RECEPTOR « 83
0.0325 0.04Z
0.0325 0.04Z
0.1745 0.22Z
0.0115 0.01Z
0.0090 0.01Z
0.1387 0.17Z
0.4983 0.62Z '
0.0319 0.04Z
0.0203 0.03Z
0.0258 0.031
0.3574 0.44Z
0.0030 O.OOZ
0.0016 O.OOZ
0.0020 O.OOZ
O.C135 0.02Z
0.0001 O.OOZ
0.2463 0.31Z
O.C055 0.01Z
O.C362 0.04Z
O.C361 C.04Z
O.C494 0.06Z
0.0393 0.05Z
0.0668 C.08Z
0.1088 0.13Z
0.0820 0.10Z
0.1959 0.24Z
0.0398 0.05Z
0.0299 0.04Z
0.0273 0.03Z
0.0141 0.02Z
0.0136 0.02Z
0.0187 0.02Z
0.0318 0.04Z
0.1024 0.13Z
0.0602 0.07Z
0.1088 0.13Z
0.1879 0.23Z
0.1660 0.21Z
0.1079 0.131
0.1077 0.13Z
L. ___J
RECEPTOR f 84
0.0128 0.03Z
0.0128 0.03Z
0.0548 0.14Z
0.0088 0.02Z
0.0069 0.02Z
0.0194 0.05Z
0.0681 0.17Z
0.0044 0.01Z
0.0038 0.01Z
0.0035 0.01Z
0.1146 0.29Z
0.0020 O.OOZ
0.0012 O.OOZ
0.0015 O.OOZ
0.0145 0.04Z
0.4937 1.25Z
0.2865 0.73Z
0.0058 0.01Z
0.0269 0.07Z
0.0356 0.09Z
0.0345 0.09Z
0.0578 0.15Z
0.0905 0.23Z
0.1291 0.33Z
0.0904 0.23Z
0.1209 0.31Z
0.0292 0.071
0.0259 0.07Z
0.0280 0.07Z
0.0147 0.04Z
0.0042 0.01Z
0.01C9 0.03Z
0.0100 0.03Z
0.0268 0.07Z
0.0207 0.051
0.0173 0.04Z
0.0293 0.07Z
0.0208 0.05Z
0.0170 0.04Z
0.0242 0.06Z
L J
RECEPTOR f 85
0.0009 O.OOZ
0.0009 O.OOZ
0.0073 0.02Z
0.0098 0.03Z
' 0.0078 0.02Z
0.0033 0.01Z
0.0117 0.03Z
0.0008 O.OOZ
0.0006 O.OOZ
0.0006 O.OOZ
0.0125 0.0 3Z
0.0005 O.OOZ
0.0006 O.OOZ
0.0008 O.OCZ
0.0103 0.03Z
0.0662 0.1 81
0.0430 0.12Z
0.0011 O.OOZ
0.0087 0.02Z
0.0119 0.03Z
0.0135 0.04Z
0.0221 0.06Z
0.0398 0.11Z
0.0390 0.11Z
0.0209 0.06Z
0.0449 0.12Z
0.0281 0.08Z
0.0167 0.051
0.0451 0.12Z
0.0172 0.05Z
0.0018 O.OOZ
0.0036 0.01Z
0.0042 0.01Z
C.0114 0.03Z
0.0097 0.031
0.0090 0.02Z
0.0139 O.C4Z
0.0088 0.02Z
0.0075 0.02Z
C.0083 0.02Z
1 |
RECEPTOR f 40
0.0413 0.08Z
0.0413 0.08Z
0.1728 0.34Z
0.0100 0.02Z
0.0079 0.02Z
0.3858 0.77Z
2.0694 4.12Z
0.0896 0.18Z
0.0738 0.15Z
0.1019 0.20Z
0.4517 0.90Z
0.0030 0.01Z
0.0014 O.OOZ
0.0017 O.OOZ
0.0128 0.03Z
2.6599 5.30Z
0.1880 0.37Z
0.0029 0.01Z
0.0248 0.05Z
0.0286 0.06Z
0.0435 0.09Z
C.0437 0.09Z
C.0596 0.12Z
0.0780 0.16Z
0.0507 0.10Z
0.1228 0.24Z
0.0334 0.07Z
0.0275 0.05Z
C.0271 0.05Z
G.0137 0.03Z
0.0088 0.02Z
0.0158 0.03Z
0.0241 0.05Z
0.0604 0.12Z
0.0432 0.09Z
0.0613 0.12Z
0.0993 0.20Z
0.0799 0.16Z
0.0524 0.10Z
C.0606 0.12Z
L __
-------
REGIONi SHREVEPORT AOHA 1995
DATE: AUGUST 22* 1977
•-D
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICIPATE RECEPTORS IHICROGRAHS PER CUBIC HETERI
SOURCE
81
8Z
83
84
85
86
87
88
89
90
91
92
93
9*
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
J
RECEPTOR * 82
0.0248 0.06Z
0.0466 0.12Z
0.0318 0.08Z
0.0139 0.031
0.0286 0.07Z
0.0494 0.12Z
0.0429 0.1 1Z
0.0298 0.07Z
0.0406 0.10Z
0.0349 0.09Z
0.0876 0.22Z
0.1112 0.28Z
0.0706 0.18Z
0.0987 0.25Z
0.0935 0.23Z
0.0437 0.11Z
0.0315 0.08Z
0.0454 0.11Z
0.0285 0.07Z
0.0421 0.1 OZ
0.0329 0.08Z
0.0454 0.11Z
0.0863 0.21Z
0.1699 0.421
0.2341 0.58Z
0.1853 0.46Z
0.1322 0.33Z
0.1154 0.29Z
0.0566 0.14Z
0.0151 0.04Z
0.3163 0.79Z
0.0289 0.07Z
0.0230 0.06Z
0.0268 0.07Z
0.0764 0.19Z
0.0200 0.05Z
0.0530 C.13Z
O.OOB3 0.02Z
0.0061 0.02Z
0.0061 0.02Z
J
RECEPTOR • 83
0.0733 0.09Z
0.1495 0.19Z
0.0735 0.09Z
0.0323 0.04Z
0.1272 0.16Z
0.3551 0.44Z
0.9479 1.171
0.3340 0.41Z
0.2082 0.26Z
0.1020 0.13Z
0.1925 0.24Z
0.1062 0.13Z
0.1876 0.23Z
0.2418 0.30Z
1.4044 1.74Z
0.2821 0.35Z
0.1671 0.21Z
0.1975 0.24Z
0.0943 0.12Z
0.1807 0.22Z
0.0482 O.Q6Z
0.2390 0.30Z
0.2763 0.34Z
0.2307 0.29Z
0.1308 0.16Z
0.1341 0.17Z
0.3339 0.41Z
0.3488 0.43Z
0.0987 0.12Z
0.0201 0.02Z
0.2533 0.31Z
0.0228 0.03Z
O.C183 0.02Z
0.0256 0.03Z
0.0325 C.04Z
0.0211 0.03Z
0.0705 0.09Z
0.0183 0.02Z
0.0061 O.C1Z
0.0053 0.01Z
J
RECEPTOR • 84
0.0321 0.08Z
0.0552 0.14Z
0.0536 0.14Z
0.0327 0.08Z
0.0413 0.10Z
0.0387 0.10Z
0.0303 0.08Z
0.0165 0.04Z
0.0272 0.07Z
0.0213 0.05Z
0.0506 0.13Z
0.0336 0.09Z
0.0350 0.09Z
0.0475 0.12Z
0.0754 0.19Z
0.0478 0.12Z
0.0541 0.14Z
0.0954 0.24Z
0.0745 0.19Z
0.0959 0.24Z
0.0515 3.13Z
0.05C2 0.13Z
0.0626 0.16Z
0.1007 0.26Z
0.0790 0.20Z
0.0487 0.12Z
0.1383 0.35Z
0.1969 0.50Z
0.1365 0.35Z
0.0228 0.061
0.1676 0.43Z
0.0153 0.04Z
0.0157 0.04Z
0.0207 0.05Z
0.0181 0.051
0.0168 0.04Z
0.0434 0.11Z
O.OC93 U.02Z
0.0051 0.01Z
0.0045 0.01Z
I _ J
RECEPTOR 1 85
0.0094 0.03Z
0.0135 0.04Z
0.0135 0.04Z
0.0066 0.02Z
0.0080 0.02Z
0.0116 0.03Z
0.0080 0.02Z
0.0062 0.02Z
0.0113 0.03Z
0.0099 0.031
C.0172 0.051
0.0110 0.03Z
0.0102 0.03Z
0.0122 0.031
C.0177 0.05Z
C.0096 0.03Z
C.0080 0.02Z
0.0132 0.04Z
C.0090 0.02Z
0.0114 0.03Z
0.0048 0.01Z
0.0075 0.02Z
0.01C3 0.03Z
0.0162 0.04Z
0.0178 0.05Z
0.0113 0.03Z
0.0166 0.05Z
0.0179 0.05Z
0.0115 0.03Z
0.0062 0.02Z
0.0353 0.10Z
0.0035 0.01Z
0.0069 0.02Z
0.0113 0.03Z
0.0058 O.G2Z
G.0173 0.05Z
0.0249 0.07Z
0.0063 0.02Z
0.0054 0.01Z
0.0052 0.01Z
RECEPTOR • 40
0.0383 0.08Z
0.0616 0.12Z
0.0411 0.08Z
0.0181 0.04Z
0.0407 0.08Z
0.0956 0.19Z
0.0972 0.19Z
0.0629 0.13Z
0.0888 0.18Z
0.0574 0.11Z
0.1105 0.22Z
C.0735 0.15Z
0.0910 0.18Z
0.1808 0.36Z
0.2464 0.49Z
0.1110 0.22Z
0.0666 0.13Z
0.0793 0.16Z
C.0458 0.09Z
C.1128 0.22Z
0.0733 0.15Z
0.4784 0.95Z
1.1926 2.38Z
0.2465 0.49Z
0.1548 0.31Z
0.1268 0.2SZ
0.4856 0.97Z
0.4628 0.92Z
0.0994 0.20Z
0.0200 0.04Z
0.2476 0.49Z
C.0246 0.05Z
0.0180 0.04Z
0.0247 0.05Z
0.0273 0.05Z
0.0194 0.04Z
0.0600 0.12Z
0.0150 0.03Z
0.0057 0.01Z
0.0052 0.01Z
-------
REGION: SHREVEPORT AOHA
DATES AUGUSI 22. 1977
SOURCE CONTRIBUTIONS TO FIVE SELECTED PARTICIPATE RECEPTORS CHICROGRAHS PER CUBIC HETERI
SOURCE
121
122
123
12*
125
BACK-
GROUND
TOTAL
RECEPTOR * 82
0.0080 0.02Z
0.0068 0.02Z
0.0-126 0.11Z
0.0253 0.061
0.0226 0.061
33.8700 8*.13Z
40.2609 IOC. OH
_ J
RECEPTOR • 83
0.00*7 0.01Z
O.C058 0.01Z
0.0*7* 0.061
O.C260 0.031
0.0263 0.03Z
33.8700 *1.97Z
80.7709 100. 081
L _ _ J
RECEPTOR f 8*
0.00*1 0.01Z
0.00*8 O.Olt
0.0*00 0.10Z
0.0235 0.06Z
0.0296 0.08Z
33.8700 85.9*1
39.*1*8 100. 01Z
1 J
RECEPTOR » 85
0.0059 0.02Z
0.00*9 0.01Z
0.1005 0.26Z
C.1281 0.351
0.0575 0.16Z
33.8700 93.27Z
36.3151 100. 01Z
L_ _ 1
RECEPTOR ff *0
0.00*8 0.01Z
0.0055 0.01Z
0.0*23 0.08Z
0.02*7 O.OSZ
C.026* O.OSZ
33.8700 67.*7Z
50.20*8 100. 01Z
L .
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