United States
Environmental Protection
Agency
Air Pollution Training institute
MD 17
Environmental Research Center
Research Triangle Park NC 27711
450/2-90-003
January, 1990
Air
APTI
Course 423
Dispersion of Air Pollution
Model Applications
Student Manual
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United States Air Pollution Training Institute
Environmental Protection MD-17
Agency Research Triangle Park, NC 27711
__ __
APTI
Course 423
Dispersion of Air Pollution-Model Applications
STUDENT MANUAL
J. Thomas Bowman, M.S., P.E.
Bowman Environmental Engineering
P.O. Box 29072
Dallas, Texas 75229
Jerry W. Crowder, Ph.D., P.E.
Crowder Environmental Associates, Inc.
2905 Province Place
Piano, Texas 75075
Leo Stander, M.S.
U.S. Environmental Protection Agency
Manpower and Techinal Information Branch, MD-17
Research Triangle Park, North Carolina 27711
August 1988
United States Environmental Protection Agency, Manpower and Technical Information
Branch, Office of Air Quality Planning and Standards, Research Triangle Park, North
Carolina 27711
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Notice
Although the information in this document has been funded wholly or in part by the
United States Environmental Protection Agency under assistance agreement T901600 to
the University of Texas at Dallas, it may not necessarily reflect the views of the Agency
and no official endorsement should be inferred.
Note From the Authors
This document is up to date as of August 1988. The policies and rules stated in this
document represent the views of the authors and are not necessarily the view of the U.S.
EPA. Policies and rules are likely to change in the future. Applicants are advised to
contact either their state agency or the EPA regional office prior to starting a modeling
project.
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Table of Contents
Lesson Topic
1 Introduction and Course Overview
2 The Habitat of Modeling
3 Basics of Computer Modeling
4 Meteorological Data
5 Guideline Models
6 Model Options
7 GEP and Building Downwash
8 Simple Terrain Modeling
8.1 Introduction
8.2 Screening Techniques
8.3 Demonstration of Screening Models
8.4 Refined Techniques
8.5 Demonstration of Refined Models
9 Complex Terrain Modeling
9.1 Introduction
9.2 Initial Screening Techniques
9.3 Demonstration of First Level Screening
9.4 Second Level Screening Techniques
9.5 Demonstration of Second Level Screening
9.6 Third Level Screening Techniques
9.7 Demonstration of Third Level Screening
10 Toxic Gas Models
10.1 Introduction
10.2 SARA Screening
10.3 INPUFF & SPILLS
11 Class Example
11.1 Modeling Strategies
11.2 Simple PSD Source
12 Actual Case Study
13 Other Modeling Considerations
111
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Lesson 1
Introduction and Course Overview
1-1
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I. Introduction
A. Course Name and Number
B. Organization Presenting the Course
C. Instructor Introductions and Affiliation
D. Present Course Agenda and Schedule
E. Logistical Information
F. Student Introductions
G. Course Requirements
1. Attendance 95%
2. Complete All Class Assignments On Time
3. Passing Grade - 70%
Class Participation - 25% '
Homework - 25%
Posttest 50% ,
4. Course Critique Completed and Turned In
II. Course Overview
A. Lessons 1 through 3 ~ Introduction and General Information
B. Lesson 4 Meteorological Data
C. Lesson 5 Introduction to Guideline Models ~ Description of each of the
UNAMAP models
D. Lesson 6 Model Options -- Descriptions and demonstrations of rural/urban,
gradual plume rise, buoyancy-induced dispersion, stack-tip downwash, vertical
potential temperature gradient, wind-speed profile exponents, and pollutant
decay
1-3
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E. Lesson 7 GEP and Building Downwash -- Description and demonstration
F. Lesson 8 Simple Terrain Modeling - Screening and refined models
G. Lesson 9 Complex Terrain Modeling - Initial screening, second-level screening,
and third-level screening
H. Lesson 10 Toxic Gas Models
I. Lesson 11 Class Example ~ Simple PSD source
J. Lesson 12 Actual Case Study - PSD modeling for a complex industrial source
K. Lesson 13 Other Modeling Considerations and Techniques - - Fugitive emissions,
gravitational settling, and velocity dependent emissions.
III. Questions
1-4
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Lesson 2
The Habitat of Modeling
2-1
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f\A £r 0
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I. Importance of Modeling Results
A. Protect Public Health and Welfare
B. Ensure Consistency in Enforcing Regulations
C. Million Dollar Decisions by Industry
II. Reasons For Modeling
A. PSD Requirements
B. SIP Development (Planning) sWt-S \^ <&>
C. Nonattainment Rules
D. State and Local Permits
E. Toxic Gas Emergencies
F. Quick Results
G. Safe - No Actual Pollutant Release
H. Infinite Monitors Required
III. Relationship of Modeling to Overall PSD Requirements
A. Preconstruction Monitoring Requirements
B. Control Technology Review
C. Class I Impacts
D. Other Impacts
2-3
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IV. Overview of the PSD Requirement For Modeling
A. Modeling for Preconstruction Monitoring Exemption
B. Radius-of-Impact
1. Exclude minor sources outside of applicant's radius-of-impact
2. Exclude concentrations outside of applicant's radius-of-impact
C. Criteria Pollutants
1. Increments (40CFR52 in SelectedJReadings)
2. Ambient Air Quality Standards
D. Non-criteria Pollutants
V. State and Local Regulations and Guidelines
VI. Summary
VII. Questions
2-4
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Lesson 3
Basics of Computer Modeling
3-1
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I. Performing and Reviewing Modeling Results
A. Resources Needed
1. Computer System Requirements
a. Memory: 70-400 Kbytes
b. Disk: 360-1024 Kbytes
c. Printer: 132 Columns
d. Screen: 80 Column Monochrome, 132 column
display preferred
2. Typical Systems Used For Modeling
a. Mainframes Computers:
IBM, UNIVAC, CRAY
b. Mini-computers:
DEC, IBM, Harris, Prime, DG
c. Micro-computers:
IBM, Compaq, Macintosh
B. Beneficial Skills
1. Science or Engineering Background
2. Understanding of Basic Meteorology
3. Training Courses in Air Pollution
4. FORTRAN Programming
II. Overview of the Relationship of Mathematical Algorithms and Computer Models.
A. FORTRAN Source Code
B. Data Input Files
3-3
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V
do- U
/wi
C. List Output Files (show example)
omparison of Hand Calculations and Model Resultsf \
^^ .
^^\
Sample Source Data - Q = 100 g/s
Ts = 432. Deg. K
e
\ &<"
Meteorological Data -
Vs = 11.7 m/s o ^
Ds = 2.4 m - ^^
Hs = 35. m
U = 5.0 m/s
KST = 3 (Stability Class_Q
Hm = 50QO i
Urban/Rural
Downwind Distance -
Z0 = 10. m (Anemometer Height)
Ta = 293. Deg. K
Rural JO^O^L).
\
X = 1300. m
Cross-wind Distance - Y = 0. m
A. Hand Calculations -
Wind speed extrapolated to stack height:
Hs 35.
Us = U (--)p = 5.0 ( ----- ^
10.
Us = 5.67 m/s
Plume Rise:
3.14 3.14
Vf = Vs Ds2 = 11.7 (2.4)2
4 4
Vf = 52.90 m3/s
(Flow Rate)
3-4
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g Ts Ta 9.8 432-293
F = ----- Vf = (52.90)
3.14 Ts 3.14 432
F = 53.12 m4/s3 (Buoyancy Flux)
Xmax = 3.5 X* Where X* = 14 F5/8
Xmax = 3.5 (14) (53.12)5/8
Xmax = 586.8 m (Distance to Final Rise)
1.6 F* (Xmax)M 1.6 (53.12)"3 (586.8)2/3
Del H =
Us 5.67
Del H = 74.4 m
H = Hs + Del H = 35 + 74.4
H = 109.4 m
Dispersion Coefficients:
sigy = 465.1 (X))tan(TH)
Where: TH = 0.017453 (c - d In x)
TH = 0.017453 (12.5 - 1.0857 In 1.3)
TH = 0.2132
sigy = 465.1 jfL3^tan(0.2132)
sigy = 130.9 m (ISC 2-28)
sigz = a Xb = 61.141 (1.3)°-9I465
sigz = 77.7 m ' (ISC 2-29)
3-5
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Q x 106 -1 H
CHI = EXP[- ( )2 ]
3.14 sigy sigz Us 2 sig2
100 x 106 -1 109.4
CHI = EXP [ ( )2]
3.14 (130.9) (77.7) (5.67) 2 77.7
CHI = 204.95 ug/m3
B. r~^LU Results
1. Input Data
2. Output Data: 204.91 ug/m3
C. ISCST Results
1. Input Data
2. Output Data: 204.91 ug/m3
IV. Summary
V. Questions
f /\A>5.
lt'^ '
3-6
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C
Lesson 4
Meteorological Data
4-1
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JU&
t-
I
77
Y K
6>
V,,./-^L ^ >
--M^vt-"
'7<
1
~VM. 'v -v-
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I. Overview of Meteorological Parameters Required For Modeling.
A. Wind Speed (m/s)
B. Wind Direction (degrees azimuth)
C. Stability Class (unitless)
D. Mixing Height (mj
E. Temperature (degrees K)
II. Hypothetical Meteorological Data: PJTLU
A. Combinations of Wind Speedsand Stability_Classes^
B. Show PTPLU data input and output.
III.. Hourly Data ~ National Climatic Data Center
A. Raw Surface Data (^
Parameter Columns Format
u
IT?
q
ID
IYEAR
MONTH
IDAY
IHOUR
ICEIL
IDIR
1- 5
6- 7
8-9
10-11
12-13
14-16
39-40
ISPEED 41-42
ITEM? 47-49
ICOVER 79
15
12
12
12
12
3A1
22X,I2
12
4X,I3
29X,A1
Description
Station Number
Year
Month
Day of Month
Hour
Ceiling Height (100s /
of feet)
Wind Direction (tens
of degrees from N.)
Wind Speed (knots)
Temperature (deg F)
Fraction of Opaque
2=20%...-=100%)
,'Y>
/-
r -A
.V
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B. Mixing Heights (m)
Parameter Columns
XMNM1 13-17
XAFM1 31-35
Format
12X,F5.0
13X,F5.0
C. Preprocessor Data Input
1. Preprocessor Initialization Card
Parameter Columns Format
IDC
IYRC
ALAT
ALONG
ZONE
NDAYS
1- 5
6- 7
9-18
19-28
29-30
31-34
15
12
1X,F10.1
F10.1
F2.0
14
Description
Morning Mixing Height
Afternoon Mixing Ht.
Description
Surface Station No.
Year
Latitude (nearest
hundredth)
Longitude (nearest
hundredth)
Time Zone (5=EST,
6=CST,..8=PST)
365 or 366 Leap Year
2. Show Typical Input Files
D. Demonstration of CRSMET (RAMMET) _'
E. Preprocessor Output File
1. Method of Checking (Unformatted) Binary Data
2. Hard Copy of Preprocessed Data
3. Show Typical Output Files
IV. Hourly Data -- On-site Data
4-4
V
-^/iX
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(S)
A. As a minimum, on-site data must include wind speed, wind direction and__
^jjjerripexatufe. All recorded at a height of 10.rnetersj3r stack top for complex
terrain.
B. The preferred method includes recording transport wind speed and direction at
stack height if greater than 10 meters.
C. Methods of determining stability classes listed in order of preference are:
CD >
1. Turner's 1964 method of subjective evaluation usjng cloud_cover, ceiling
height, and insolation observed at the site, ana-recorded wind speeds.
2. Record sigmciE (vertical wind direction fluctuations) or calculate. sigmflE
frorrrrecordedjval^ues of sigmaw (vertical wind speed fluctuations) and.
determine stability class according to Tables 9-2, 9-3, and 9-4:
3. Record sigmaA (horizontal wind direction fluctuations}^ and determine
stability class*~according to Tables 9-2, 9O", and 9-4.
4. Turner's 1964 method using values recorded at a nearby NWS station
along with wind speeds record at the site.
^ D. Using NCDC Mixing Height Data With On-site Data
V. Calm Wind Speeds (When the Wjndjsjjg^lowing. Which Way Is It Coming From?)
A. NWS Data The preprocessor program sets all calm hours] to a wind speed of
1.00 meters per second and the wind direction~to~the previous hour's
direction.
B. On-Site Data ~ All wind speeds less than the instrument's threshold are treated
as above. Wind speeds above the threshold and less than 1.00 meters per
second are set to 1.00 meters per second ancl^ jhe_recorded, diregtion js_
retaineQ._ ^-a/w^ rvJ^ jjy fa \7^_
VI. Requirements to Move Binary Data From One Computer System to Another System
A. Converting Data From Binary to Character Format rfi M '*" ^ 'T:
B. Moving Character Data From One System to Another
C. Converting Data From Character Format to Binary
-(A
ij
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VII.
«v
D. Importance of Significant Digits
c
c
^
LjDaj^ Joimfrepencj;. distribution ofjwind-speed
class, windrdirection sector, and stability
A. Annual Multiple Years
B. Annual - Single Year
C. Seasonal
D. Quarterly
E. Monthly
VIIL. Sources of Data: Local and State Agencies, National Climatic Data Center
A. How to Order Meteorological Data From NCDC
1. Address and Phone:
National Climatic Data Center
Federal Building
Asheville, NC 28801-2696
Phone: 704/259-0682
2. Hourly Data Format:
- Request surface data format "TD1440" card image
- Request mixing height data format "TD9689" card image
- Data is available on either 9-track magnetic tape or IBM-PC 5.25"
floppy diskettes
3. STAR Summary - Available on tape or diskette (format "TD9773"), and
on paper.
FF --------------
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4. Typical costs for 5-years of data from NCDC
- Surface data: $ 110 9-track tape, $ 355 floppy
- Mixing heights (not previously run): $ 325 tape
- STAR Summary: $ 50 - 100 (Existing Summaries)
B. Data Requested From Agencies Data must be converted to a compatible
format prior to transmittal.
IX. Summary
X. Questions
&
C
P.
ft
Vb L.\
(
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O
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a
-7
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uy
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-------�
u
Lesson 5
Guideline Models
J\
\
0
0
,
\VC
5-1
V
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I. Overview of the Guideline on Air Quality Models document
A. Contents of the Guideline Document
1. Introduction
2. Overview of Model Use
3. Recommended Air Quality Models
4. Simple-Terrain Stationary-Source Models
5. Model Use in Complex Terrain
6. Models for Ozone, Carbon Monoxide and Nitrogen Dioxide
7. Other Model Requirements
8. General Modeling Considerations
9. Model Input Data
10. Accuracy and Uncertainty of Models
11. Regulatory Application of Models
12. References
13. Bibliography
14. Glossary of Terms
Appendices
II. Model Selection Criteria
A. Meteorological and Topographic Complexities
B. Level of Detail and Accuracy Needed
C. Technical Competence of Modelers
5-3
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D. Resources Available
E. Detail and Accuracy of Available Data
III. Levels of Sophistication of Models
A. Screening Models
B. Refined Models
C. Preferred Models (see table next page)
IV. Site-specific Models
\. Use of Alternative Models
1. Interim Procedures for Evaluating Air Quality Models, (Revised)
EPA-450/4-84-023.
2. Model Equivalency
3. Statistically Superior to Guideline Model
4. No Appropriate Guideline Model
B. Supplementary Modeling Guidance
1. Local and State Agencies
2. EPA Regional Office
3. EPARTP
V. Summary
VI. Questions
5-4
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PREFERRED MODELS -- SIMPLE TERRAIN
Short-term (1-24 hours)
Single Source
Multiple Source
Complicated Sources
Buoyant Line Sources
Land Use
Rural
Urban
Rural
Urban
Rural/Urban
Rural
Model
CRSTER
RAM
MPTER
RAM
ISCST
BLP
Long-term (Monthly, Seasonal or Annual)
Single Source
Multiple Source
Complicated Sources
Buoyant Line Sources
Rural
Urban
Rural
Urban
Rural/Urban
Rural
CRSTER
RAM
MPTER
CDM2.0 or RAM
ISCLT
BLP
5-5
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Lesson 6
Model Options
6-1
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crfl
6 uv-0-^\
C
=jr i
ft-
o
cJr
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I. Introduction and Overview of Model Options.
II. Identifying Rural/Urban Areas-Methods of Auer
A. Land Ujfe Within) Three Kilometers
B. Differences in Sigma Values
C. Rural/Urban Mixing Heights
D. Effect On Modeled Concentrations
1. Urban coefficients increase concentrations from elevated sources.
2. Rural coefficients increase concentrations from ground-level sources.
3. Show ISCST screening results.
Maximum occurs nearer source
- Concentration at 1300 m is less than one-half of Base Case
III. Gradual Plume Rise
A. Complex Terrain
B. Building Downwash
C. Example - Unstable Buoyant Rise
H = Hs + (160 F1/3 X2*)/^
D. Show ISCST Screening Results.
- No change at distances greater than 700 m
- Significant increases at 500 m and nearer
6-3
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Buoyancy-Induced Dispersion
A. Turbulent Plume Entrainment
B. Equation:
sigze = [ sigz2 + (del H/3.5)2 P
1 sigye = [ sigy2 + (del H/3.5)2 p
Where: sigye and sigze are enhanced coefficients
del H is either momentum or buoyancy plume rise
C. Show ISCST Screening Results.
Concentrations are higher at 2000 m and nearer
- Concentrations are lower at 2000 m and farther
V. Stack-tip Downwash
A. Reduces Effective Stack Height for Vs < 1.5 Us
B. Equation:
H = H, + 2DS [(V./U.) - 1.5] For Vs < 1.5 Us
No change in h if Vs > 1.5 Us
C. Show ISCST Screening Results.
- No change in concentrations because: Vs > 1.5 Us
. Vertical Potential Temperature Gradient
dtheta/dz =OLfor A-D, 0.20 for E and 0.35 for F
6-4
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VII. Wind-profile Exponents
A. Rural/Urban Values
Stability Classes
A B C D E F
Rural 0.07, 0.07, 0.10, 0.15, 0.35, 0.55
Urban 0.15, 0.15, 0.20, 0.25, 0.30, 0.30
B. Equation:
us = u (Hjz0y
C. See Rural/Urban ISCST Screening Results.
VIII. Pollutant Half-life
A. D = EXP ( - PSI X/U.)
D - Decay Term; PSI - Decay Coefficient (sec'1)
X - Downwind Distance; Us - Wind Speed atStack Height
B. Example:
PSI = 0.693/Th Where: Th Is Pollutant Half-Life.
For SO2 In Urban Areas Use Th of four hours or:
PSI = 0.000048 sec-1
C. Show ISCST Screening Results.
- Using a half-life equal to the travel time to 2000 m gives:
PSI = 0.6937(2000/5.67) = 0.001965 sec-1
- Concentration at 2000 m is one half of Base Case
- Concentrations at distances greater than 2000 m are less than one half
6-5
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- Concentrations at nearer distances are greater than one-half but lower than
Base Case
IX. Summary
XL Questions
6-6
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Lesson 7
GEP and Building Downwash
7-1
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L
10
"
^ <>o.
36'
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I. Overview
A. Regulatory Requirements
B. Modeling Requirements
1. Huber-Snyder (Hb + 0.5L < Hs < Hb + 1.5L)
2. Schulman-Scire (Hs < Hb + 0.5L)
II. Determining GEP
A.
t»
t>
u
f\c
Good engineering practice (GEP) stack height means the greater of:
" (1) 65 meters; or (2) H. = H + 1.5 L
where :Hg = Good engineering practice stack height
H = Height of nearby structure
L = Lesser dimension (height or projected width)
of structure
Nearby is that distance up to five times the lesser of the height or the
width dimension of the structure but not greater than 0.8 km.
__ *
5 L
B. Guideline for Determination of Good Engineering Practice Stack Height
1. Simple building
2. Multi-level building
IZZD
u
3. Multiple buildings - If the
separation between two
buildings is less than the
characteristic dimension
of either building, treat
the gap between the
two buildings as if it was
filled by a structure
equal to the height of the shorter building. (GEP Document, pg. 43)
7-3
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III. Modeling Building Downwash -- ISCST ^.nd ISCLT
A. Huber-Snyder
1. Wind-tunnel -- Model height was one-half its width.
2. Algorithm
Example Equation - sigz' For Squat Buildings
sigz' = 0.7 hb + 0.067 (X-3hb) For 3hb < X < 10hb
sigz' = sigz at X plus Xz For X > 10hb
Where: Xz is the downwind distance that gives a sigz'
value equal to sigz' at 10hb
3. Both sigz and sigy are modified when Hm < 1.2 hb
otherwise only sigz is modified
B. Schulman-Scire
3 . Direction specific building parameters.
2. Modified plume rise
3. Linear decay factor A
s <>-<-' ^
IV. Show ISCST Screening Results ~ Tables 7.1 through 7.4
- Concentrations for Schulman-Scire downwash are greater at all downwind
distances than either Huber-Snyder or the Base Case.
- Concentrations at distances less than 2000 meters are greater for Huber-
Snyder than the Base Case, beyond 2000 meters the Base Case is greater
than Huber-Snyder
- The differences between the three examples are less than 10 percent at
distances greater than 4000 meters.
- The concentrations at 1300 meters (same distance as in Lesson 3) are
significantly greater for both Huber-Snyder and Schulman-Scire downwash.
7-4
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Comparison of Schulman-Scire Downwash
With Huber-Snyder Downwash
Downwind
Distance
(m)
50.0
100.0
300.0
500.0
700.0
1000.0
1300.0
1500.0
2000.0
2500.0
3000.0
3500.0
4000.0
5000.0
7000.0
10000.0
Schulman-
Scire
(ug/m3)
.000000
669.512800
490.514500
364.432400
379.127400
385.033500
320.961900
277.511000
193.497500
139.993700
105.416600
82.130690
65.798650
45.044780
25.102600
13.373720
Huber-
Snyder
(ug/m3)
.000000
296.956600
234.893600
178.490100
205.062800
243.596600
227.142500
207.190300
157.818100
120.253300
93.595460
74.579830
60.718340
42.454870
24.178800
13.065490
Base
Case
(ug/m3)
.000000
.000000
.004107
10.669960
78.896310
179.583700
204.911900
198.352600
160.514600
124.413800
97.254520
77.496480
62.997090
43.867640
24.805540
13.313800
V. Summary
VI. Questions
5
L
7-5
a. a
OL. .2t>&l -t~-
C
_^
o
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Table 7.1 ISCST Input Data Huber-Snyder Example
Class Example
1110011
1 0
50
100.
300.
500.
700.
1000.
1300.
1500.
2000.
2500.
3000.
3500.
4000.
5000.
7000.
10000.
000000000
0 16 0
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
112011011222220
0 1 1
5 3
10100 00100.0000 35. 432. 11.7 2.4 30.522.95322.953
1 90.0000 5.000010000.00 293.00 .000000 3 .000000.0000000
7-6
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Table 7.2 ISCST Output Huber-Snyder Example
*** Class Example
REG. DEFAULT OPTION CHOSEN (YES=1,NO=2>
*** Class Example
ISUC28) = 2
***
*** SOURCE DATA ***
T
Y
SOURCE P
NUMBER E
101 0
U
A
K
E
0
NUMBER
PART.
CATS.
0
EMISSION RATE
TYPE=0,1
(GRAMS/SEC)
TYPE=2
(GRAMS/SEC) X
*PER METER**2 (METERS)
.10000E+03 .0
*** rinse Ft
BASE
Y ELEV.
(METERS) (METERS)
.0 .0
tnmnl ^
HEIGHT
(METERS)
35.00
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
TYPE=1
(METERS)
432.00
EXIT VEL
TYPE=0
(M/SEC);
HORZ.DIH
TYPE=1.2
(METERS)
11.70
DIAMETER
TYPE=0
(METERS)
BLDG.
HEIGHT
TYPE=0
(METERS)
2.40 30.50
***
BLDG.
LENGTH
TYPE=0
(METERS)
22.95
BLDG.
WIDTH
TYPE=0
(METERS)
22.95
SOURCE-RECEPTOR COMBINATIONS LESS THAN 001 METERS OR THREE BUILDING
HEIGHTS IN DISTANCE. NO AVERAGE CONCENTRATION IS CALCULATED *
SOURCE
NUMBER
- RECEPTOR LOCATION - -
X Y (METERS)
OR RANGE OR DIRECTION
(METERS) (DEGREES)
DISTANCE
BETWEEN
(METERS)
101
*** Class Example
50.0
.0
50.00
HIGH
1-HR
SGROUPtf 1
- X -
* HIGHEST 1-HOUR AVERAGE CONCENTRATION (MICROGRAMS/CUBIC METER)
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
(DAY,HOUR)
- X -
- Y -
CON.
(DAY,HOUR)
50.0
300.0
700.0
1300.0
2000.0
3000.0
4000.0
7000.0
.0
.0
.0
.0
.0
.0
.0
.0
234
205
227
157
93
60
24
.00000
.89360
.06280
.14250
.81810
.59546
.71834
.17880
t 0.
[ 1.
1.
1,
1,
1,
[ 1,
t 1,
0)
1)
1)
1)
1)
1)
1)
1)
100
500
1000
1500
2500
3500
5000
10000
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
296.
178.
243.
207.
120.
74.
42.
13.
95660 (
49010 (
59660 (
19030 (
25330 (
57983 (
45487 (
06549 ( 1
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 7.3 ISCST Input Data Schulman-Scire Example
Class Example
1110011
1 0
50
100.
300.
500.
700.
1000.
1300.
1500.
2000.
2500.
3000.
3500.
4000.
5000.
7000.
10000.
000000000
0 16 0
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
112011011222220
0 1 1
5 3
10100 00100.0000 35. 432. 11.7 2.4 -30.522.95322.953
30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5
30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5
30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5
25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9
25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9
25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9 25.9
1 90.0000 5.000010000.00 293.00 .000000 3 .000000.0000000
7-8
-------�
Table 7.4 ISCST Output Schulman-Scire Example
REG. DEFAULT OPTION CHOSEN (YES=1,NO=2)
*** Class Example
*** SOURCE DATA ***
ISW(28) = 2
T
Y
SOURCE P
NUMBER E
101 0
W
A
K
E
0
NUMBER
PART.
CATS.
0
EMISSION RATE
TYPE=0,1
(GRAMS/SEC)
TYPE=2
(GRAMS/SEC) X
*PER METER**2 (METERS)
.10000E+03 .0
*** Class Ei
BASE
Y ELEV.
(METERS) (METERS)
.0 .0
(Birole
HEIGHT
(METERS)
35.00
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
TYPE=1
(METERS)
432.00
EXIT VEL
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1,2
(METERS)
11.70
DIAMETER
TYPE=0
(METERS)
2.40
**
BLDG.
HEIGHT
TYPE=0
(METERS)
-30.50
BLDG.
LENGTH
TYPE=0
(METERS)
22.95
BLDG.
WIDTH
TYPE=0
(METERS)
22.95
DIRECTION SPECIFIC BUILDING DIMENSIONS ***
VD
SOURCE 1
IFV
1
7
13
19
25
31
BH
30.5,
30.5,
30.5,
30.5.
30.5,
30.5,
BU I WAKE
25.9,
25.9,
25.9,
25.9,
25.9,
25.9,
0
0
0
0
0
0
IFV
2
8
14
20
26
32
BH
30.5.
30.5.
30.5,
30.5,
30.5,
30.5,
BU I WAKE
25.9,
25.9,
25.9.
25.9,
25.9,
25.9,
0
0
0
0
0
0
IFV
3
9
15
21
27
33
BH
30.5.
30.5,
30.5,
30.5,
30.5,
30.5,
BW I WAKE
25.9,
25.9,
25.9,
25.9,
25.9,
25.9.
0
0
0
0
0
0
IFV
4
10
16
22
28
34
BH
30.5,
30.5,
30.5.
30.5,
30.5,
30.5,
BW I WAKE
25.9,
25.9,
25.9.
25.9,
25.9,
25.9,
0
0
0
0
0
0
IFV
5
11
17
23
29
35
BH
30.5,
30.5,
30.5.
30.5,
30.5,
30.5,
BW I WAKE
25.9,
25.9,
25.9,
25.9.
25.9,
25.9,
0
0
0
0
0
0
IFV
6
12
18
24
30
36
BH
30.5,
30.5,
30.5,
30.5,
30.5,
30.5,
BW I WAKE
25.9,
25.9,
25.9,
25.9.
25.9,
25.9,
0
0
0
0
0
0
*** Class Example
* SOURCE-RECEPTOR COMBINATIONS LESS THAN 001 METERS OR THREE BUILDING
HEIGHTS IN DISTANCE. NO AVERAGE CONCENTRATION IS CALCULATED *
SOURCE
NUMBER
- RECEPTOR LOCATION - -
X Y (METERS)
OR RANGE OR DIRECTION
(METERS) (DEGREES)
DISTANCE
BETWEEN
(METERS)
101
50.0
.0
50.00
-------�
Table 7.4 ISCST Output Schulman-Scire Exanple (coot.)
*** Class Example
HIGH
1-HR
SGROUPtf 1
- X -
HIGHEST 1-HOUR AVERAGE CONCENTRATION (M1CROGRAMS/CUBIC METER)
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
(DAY,HOUR)
- X -
- Y -
CON.
(DAY,HOUR)
50.0
300.0
700.0
1300.0
2000.0
3000.0
4000.0
7000.0
.0
.0
.0
.0
.0
.0
.0
.0
.00000 ( 0
490.51450 (
379.12740 (
320.96190 (
193.49750 (
105.41660 (
65.79865 {
25.10260 (
0)
1)
1)
1)
1)
1)
1)
1)
100.0
500.0
1000.0
1500.0
2500.0
3500.0
5000.0
10000.0
.0
.0
.0
.0
.0
.0
.0
.0
669.51280 (
364.43240 (
385.03350 (
277.51100 (
139.99370 (
82.13069 (
45.04478 (
13.37372 (
1)
1)
1)
1)
1)
1)
1)
1)
o
I
-------�
Lesson 8
Simple Terrain Modeling
8.1-1
-------�
8.1 Introduction
I. Definition of Simple Terrain:
Simple terrain is considered to be an area where terrain features are all
lower in elevation than the top of the stack of the source(s) in question.
(GAQM 4-1)
II. Simple Terrain Models -- General
A. Usage
The simple terrain Guideline models are to be used to determine the
impacts from stationary sources for the criteria pollutants, except ozone.
Model evaluation exercises have been conducted to determine the "best, most
appropriate point source model" for use in simple terrain. No one model
has been determined to be clearly superior. Based on past use and public
familiarity, CRSTER remains the recommended model for rural, simple
terrain, single point source applications.
B. Preferred Models
All of the preferred models are steady state, Gaussian dispersion models
designed to calculate concentrations from point sources. Each of the
short-term models are capable of calculating highest and highest-second high
concentrations at each receptor for 1-hour, 3-hour, 8- hour, 24-hour, and
annual averaging times. The long- term models can calculate concentrations
for monthly, seasonal, quarterly, annual, and multiple year averaging periods.
The short-term models read meteorological data from a binary file created
by the RAMMET preprocessor program. Long-term models use STAR
Summaries that are entered as part of their input data file. The simple
terrain models allow receptor heights up to stack height. The additional
features and limitations are listed below.
8.1-3
-------�
PREFERRED MODELS
Short-term (1-24 hours)
Single Source
Multiple Source
Complicated Sources
Buoyant Line Sources
Land Use
Rural
Urban
Rural
Urban
Rural/Urban
Rural
Model
CRSTER
RAM
MPTER
RAM
ISCST
BLP
Long-term (Monthly, Seasonal or Annual)
Single Source
Multiple Source
Complicated Sources
Buoyant Line Sources
Rural
Urban
Rural
Urban
Rural/Urban
Rural
CRSTER
RAM
MPTER
CDM2.0 or RAM
ISCLT
BLP
Model
ACCEPTABLE MODEL USE
Sources
Rural/ Buoyant Short- Long-
Urban Single Multiple Complicated Line term term
CRSTER
MPTER
RAM
BLP
ISCST
ISCLT
COM2 . 0
R/U
R/U
R/U
R
R/U
R/U
U
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
8.1-4
-------�
III. Simple Terrain Models -- Specific Models
(From file 1 on UNAMAP-6 tape)
A. CRSTER
This algorithm estimates ground-level concentrations resulting from up to 19
collocated elevated stack emissions for an entire year and prints out the
highest and second-highest 1-hr, 3-hr, and 24-hr concentrations as well as the
annual mean concentrations at a set of 180 receptors (5 distances by 36
azimuths).
The algorithm is based on a modified form of the steady-state gaussian
plume equation which uses either Pasquill-Gifford or Briggs urban dispersion
coefficients and includes adjustments for plume rise and limited mixing.
Terrain adjustments are made as long as the surrounding terrain is physically
lower than the lowest stack height input.
Pollutant concentrations for each averaging time are computed for discrete,
non-overlapping time periods (no running averages are computed) using
measured hourly values of wind speed and direction, and estimated hourly
values of atmospheric stability and mixing height.
CRSTER is the simplest of the preferred models. This model is the smallest
and fastest of the short-term models. It is limited to 19 collocated sources.
CRSTER analyzes 180 receptors arranged on five rings and 36 radials. The
sources are located at the center of this polar receptor grid.
B. MPTER
MPTER is a multiple point-source gaussian model with optional terrain
adjustment. MPTER estimates concentrations on an hour-by-hour basis for
relatively inert pollutants (i.e., SO2 and TSP). MPTER uses Pasquill-Gifford
rural or Briggs urban dispersion parameters and Briggs plume rise methods
to calculate the spreading and the rise of plumes.
The model is most applicable for source-receptor distances less than 10
kilometers and for locations with level or gently rolling terrain. Terrain
adjustments are restricted to receptors whose elevation is no higher than
the lowest stack top. In addition to terrain adjustments, options are also
available for wind profile exponents, buoyancy induced dispersion, gradual
plume rise, stack downwash, and plume half-life.
8.1-5
-------�
C. RAM
This short-term gaussian steady-state algorithm estimates concentrations of
stable pollutants from urban point and area sources. Hourly meteorological
data are used. Hourly concentrations and averages over a number of hours
can be estimated. Briggs plume rise is used. RAM uses the Pasquill-Gifford
rural or Briggs urban dispersion parameters.
Concentrations from area sources are determined using the method of
Hanna, that is, sources directly upwind are considered representative of area
source emissions affecting the receptor. Special features include
determination of receptor locations downwind of significant sources and
determination of locations of uniformly spaced receptors to ensure good area
coverage with a minimum number of receptors.
D. ISCST
The industrial source complex short-term model is a steady-state Gaussian
plume modelwhich can be used to assess pollutant concentrations from a
wide variety of sources associated with an industrial source complex in either
rural or urban settings. This model can account for settling and dry
deposition of particulates, downwash, area, line and volume sources, plume
rise as a function of downwind distance, separation of point sources, and
limited terrain adjustment. Average concentration or total deposition may
be calculated in 1, 2, 3, 4, 6, 8, 12 and/or 24-hour time periods. An N-day
average concentration (or total deposition) over the total number of hours
; may also be computed.
i
E. ISCLT
T-be-JBdjjstrial Source Complex Long Term model is a steady-state Gaussian
plume model which can be usecfto assess pollutant concentrations from a
wide variety of sources associated with an industrial source complex in either
rural or urban settings. This model can account for settling and dry
deposition of particulates, downwash, area, line and volume sources, plume
rise as a function of downwind distance, separation of point sources, and
limited terrain adjustment.
ISCLT is designed to calculate the average seasonal and/or annual
ground-level concentration or total de ition from multiple continuous point,
volume and/or area sources. Provision is made for special discrete x, y
receptor points that may correspond to sampler sites, points of maxima, or
8.1-6
-------�
special points of interest. Sources can be positioned anywhere relative to the
grid system.
F. BLP
BLP (Buoyant Line and Point source dispersion model) is a Gaussian plume
dispersion model designed to handle unique modeling problems associated
with aluminum reduction plants in rural areas, and other industrial sources
where plume rise and downwash effects from stationary line sources are
important. POSTBLP and BLPSUM are related postprocessors in this
system.
G. CDM2.0
CDM-2.0 (Climatological Dispersion Model - version 2.0) determines
long-term (seasonal or annual) quasi- stable pollutant concentrations in rural
or urban settings using average emission rates from point and area sources
and a joint frequency distribution of wind direction, wind speed, and stability.
The gaussian plume hypothesis forms the basis for the calculations.
Contributions are calculated assuming the narrow plume hypothesis, and
involve an upwind integration over the area sources. Computations can be
made for up to 200 point sources and 2500 area sources at an unlimited
number of receptor locations.
The number of point and area sources can be easily modified within the
code. CDM-2.0 is an enhanced version of CDM and includes the following
options: 16 or 36 wind-direction sectors, initial plume dispersion,
buoyancy-induced dispersion, stack-tip downwash, and gradual (transitional)
plume rise. The user has a choice of seven dispersion parameter schemes.
Optional output includes point and area concentration roses and histograms
of pollutant concentration by stability class.
IV. Summary
J^
c -f-
'\ A.^j.'kar W "='-
1C Y'
W- ^U
-------�
\
V
'\J
T \y
- w
b
\
GJl
6
-5'\ ,
/
M - ^'
ii-^ \Ui 'Jf
'o/f - *>
^
H
vl-
Ai, ^
\p,
£=> L)
I; /.
j
-------�
8.2 Screening Techniques
Do
I. Screening Using PTPLU
A. Applicability
This screening technique is appropriate for a single-point source with a
plume height of 10-300 meters and averaging times of 1-24 hours. This
procedure is particularly useful for sources where the short-term averaging
standards will be controlling. Elevated point sources are most likely to be
in this category. This technique does not apply to sources effected by either
building downwash or terrain impaction.
B. Overview
This screening procedure should be used to calculate the maximum one-hour
concentration (Steps 1-4). The maximum value can be multiplied by a factor
to estimate other averaging periods (Step 5). Then account for background
concentrations (Step 6).
C. Procedure - Volume 10 R
Step 1-3. Not used if PTPLU is employed.
Step 4. Determine the procedures required from Table 8.2.1. This table is
taken from Table 4-1 in Volume 10.
,4
'
-b
-------�
TABLE 8.2.1.
Calculation Procedures to Use With
Various Stack Heights
Height of Emission Applicable Calculation
(stack height) Procedures
hs > 50 meters Looping 4(a)
Limited mixing 4(b)
Coning 4(c)
Fumigation 4(e)
10 < hs < 50 meters Looping 4(a)
Coning 4(c)
Fanning 4(d)
Fumigation 4(e)
hs < 10 meters Coning 4(c)
Fanning 4(d)
hs < hb + 1.5a Downwash 4(f)
Step 4(a). Looping Plume - Select the maximum value from PTPLU stability
class A and Extrapolated Wind Speeds.
Step 4(b). Limited Mixing - Double the value for stability class C, 2.5
meters per second and Extrapolation Wind Speeds from PTPLU.
Step 4(c). Coning Plume - Select the maximum value from PTPLU stability
class C and Extrapolated Wind Speeds.
Step 4(d). Fanning Plume - Select the maximum value from PTPLU stability
classes E and F for Extrapolated Wind Speeds.
Step 4(e). Fumigation - This analysis is not applicable to PTPLU screening.
Step 4(f). Downwash - Use ISCST screening procedure.
Step 5. Select the highest concentration from the above analyses. For
8.2-2
-------�
averaging times greater than one hour, multiply the highest value by 0.9 to
estimate a three-hour concentration, 0.7 for an eight-hour concentration, and
0.4 for a 24- hour concentration.
Step 6. In general, if the concentrations from Step 5 are greater than the
modeling "levels-of- significance, a refined technique is required. If the
source is a single stack source in an isolated location and if the background
concentrations can be determined, the screening analysis may be used to
determine compliance with standards.
II. Screening Using a Refined Model
A. Technique
The same procedures as above can be used with ISCST along with
hypothetical meteorological data.
B. Hypothetical Meteorological Data
Use the same combination of wind speeds and stability classes as PTPLU in
the ISCST model (wind speeds less than one meter per second may be
omitted). Hypothetical meteorological data is shown in Table 8.2.2.
C. Method
Follow the techniques listed in Section I for PTPLU except use the
concentrations from ISCST with the hypothetical meteorological data.
III. Summary
IV. Questions
8.2-3
-------�
Table 8.2.2
Hypothetical Meteorological Data
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
Wind
Speed
(m/s)
0.5*
0.8*
1.0
1.5
2.0
2.5
3.0
0.5*
0.8*
1.0
1.5
2.0
2.5
3.0
4.0
5.0
2.0
2.5
3.0
4.0
5.0
7.0
10.0
12.0
15.0
Mixing
Height
(m)
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
Temp.
(deg C)
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
Stability
Class
l
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
3
* Not used for regulatory applications.
8.2-4
-------�
Table 8.2.2 (cont.)
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
Wind
Speed
(m/s)
0.5*
0.8*
1.0
1.5
2.0
2.5
3.0
4.0
5.0
7.0
10.0
12.0
15.0
20.0
2.0
2.5
3.0
4.0
5.0
2.0
2.5
3.0
4.0
5.0
Mixing
Height
(m)
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
Temp.
(deg C)
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
Stability
Class
4
4
4
4
4
4
4
4
4
4
4
4
4
4
5
5
5
5
5
6
6
6
6
* Not used for regulatory applications.
8.2-5
-------�
r'l^X C
i^
r
X/A
,1
'
c-n-^ i
p
-------�
8.3 Demonstration of Screening Models
I. Screening Using PTPLU - Sulfur Oxides
A. Stack Parameters for Demonstration
Emission Stack Stack
Rate Height Temp. Velocity Diameter
(g/s) (m) (K) (m/s) (m)
100.0 35.0 432. 11.7 2.40
B. Model Input Data -- Table 8.3.1
Model Options:
- Regulatory Default option
- 5000 meter mixing height
- 10 meter anemometer height
- zero receptor height
- default w-s profile exponent
C. PTPLU Output -- Table 8.3.2
D. Step 4.
From Table 8.2.1, a stack height of 35 meters indicates that the following
conditions should be evaluated:
Looping 4(a)
Coning 4(c)
Fanning 4(d)
Fumigation 4(e)
8.3-1
-------�
Step 4(a) - Looping: The maximum concentration for stability class A is 268
ug/m3 at 0.56 km downwind.
Step 4(b) - Limited Mixing: Not required for is example. If it was used for
this example, the value would be 302 ug/m3 at 2.1 km.
Step 4(c) - Coning Plume: The maximum concentration for stability class C
is 264 ug/m3 at 0.6 km.
Step 4(d) - Fanning: The maximum concentration for E and F stability class
is 139 ug/m3 at 5.9 km.
Step 4(e) - Fumigation: Not applicable for PTPLU screening.
Step 4(f). Downwash - Use ISCST screening procedure if downwash is
possible.
Step 5. The highest concentration from the above analyses is 268 ug/m3
from 4(a). This value should be used as representing an one-hour
concentration. Other averaging periods are as follows:
Three-hour Average (times 0.9): 241. ug/m3
24-hour Average (times 0.4): 107. ug/m3
Step 6. Since the concentrations in Step 5 are greater than the modeling
level-of-significance, a refined technique is required. Give examples of values
that would not require a refined analysis including consideration of
background concentrations.
II. Screening Using a Refined Model - ISCST With Downwash
A. Stack Parameters for ISCST Demonstration
The same stack parameters from the PTPLU demonstration will be used for
this demonstration with the addition of the following building parameters.
Building Height (Bh): 30.5 meters
Building Width (Bw): 15.0 meters
Building Length (B,): 25.0 meters
8.3-2
-------�
B. Model Input Data -- Table 8.3.3
The same model options are used as in the PTPLU demonstration.
Building Input Parameters: The maximum cross-wind dimension is 29.2
meters [(15)2 + (25)2)]1/2. Because the ISCST model calculates an equivalent
diameter from the values entered for building width and height, pseudo
values must be calculated to "force" the model to use the correct cross-wind
dimension.
For a Square Building Bw = B!
We will use S as the side length:
S = Deq (3.1417/4)10 = 29.2 (3.1417/4)1/2
S = 25.9 meters
By entering 25.9 meters for building width and height the model will
calculate an equivalent diameter to be used as the cross-wind dimension.
Equivalent Diameter:
Deq = (Bw B, 4/3.1417)"2 = [(25.9)(25.9)(4/3.1417)]1/2
Deq = 29.2 meters (This is the value we want
the model to use)
C Output Data -- Table 8.3.4
D. Step 4.
From Table 8.2.1, a stack height of 35 meters indicates that the following
conditions should be evaluated:
Looping 4(a)
Coning 4(c)
Fanning 4(d)
Fumigation 4(e)
8.3-3
-------�
Step 4(a) - Looping: The maximum concentration for stability class A is 527
ug/m3 at 300 meters.
Step 4(b) - Limited Mixing: Not required for is example.
Step 4(c) - Coning Plume: The maximum concentration for stability class C
is 2123 ug/m3 at 88 meters.
Step 4(d) - Fanning: The maximum concentration for E and F stability class
is 6517 ug/m3 at 88 meters.
Step 4(e) - Fumigation: Not applicable.
Step 4(f). Downwash - All values above considered downwash.
Step 5. The highest concentration from the above analyses is 6517 ug/m3
from 4(d). This value should be used as representing an one-hour
concentration. Other averaging periods are as follows:
Three-hour Average (times 0.9): 5865. ug/m3
24-hour Average (times 0.4): 2606. ug/m3
Step 6. Since the concentrations in Step 5 are greater than the modeling
level-of-significance, a refined technique is required. Compare the ISCST
values and PTPLU values.
III. Comparison of PTPLU and ISCST Screening
PTPLU ISCST
Concentration Distance Concentration Distance
(ug/m3) (km) (ug/m3) (km)
Looping
Coning
Fanning
268
264
139
0.56
0.60
5.9
527
2121
6517
0.3
0.088
0.088
8.3-4
-------�
IV. Summary
V. Questions
8.3-5
-------�
Table 8.3.1 PTPLU INPUT FILE EXAMPLE
0,1,1,293.,5000.,0.,1,2
10.,.07,.07,.10,.15,.35,.55
PTPLU EXAMPLE - Lesson 8.3
100.,35.,432.,11.7,2.4
8.3-6
-------�
Table 8.3.2 PTPLU EXAMPLE
PTPLU-2.0 (DATED 86196)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 3. NON-GUIDELINE MODELS.
IN UNAMAP (VERSION 6) JUL 86
*** TITLE*** PTPLU EXAMPLE - Lesson 8.3
>»INPUT PARAMETERS<«
***OPTIONS***
IF = 1, USE OPTION
IF = 0, IGNORE OPTION
IOPT(1) = 0 (GRAD PLUME RISE)
IOPT(2) = 1 (STACK DOWNWASH)
IOPT(3) = 1 (BUOY. INDUCED DISP.)
IDFLT = 1 (1 = USE DEFAULT, 0 = NOT USE DEFAULT)
MUOR = 2 (1 = URBAN, 2 = RURAL)
***METEOROLOGY***
AMBIENT AIR TEMPERATURE
MIXING HEIGHT
ANEMOMETER HEIGHT
WIND PROFILE EXPONENTS
293.00 (K)
5000.00 (M)
10.00 (M)
A:
D:
.07,
.15,
B:
E:
.07,
.35,
C:
F:
.10
.55
***SOURCE***
EMISSION RATE =
STACK HEIGHT =
EXIT
EXIT
STACK
TEMP.
VELOCITY =
DIAM. =
100
35
432
11
2
.00
.00
.00
.70
.40
(G/SEC)
(M)
(K)
(M/SEC)
(M)
***RECEPTOR HEIGHT*
VOLUMETRIC FLOW
.00 (M)
52.93 (M**3/SEC)
>»CALCULATED PARAMETERS<«
BUOYANCY FLUX PARAMETER =
53.16 (M**4/SEC**3)
PTPLU EXAMPLE - Lesson 8.3
oo
WINDS CONSTANT WITH HEIGHT****
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
STABILITY
1
1
1
1
1
1
1
WIND SPEED MAX CONC DIST OF MAX PLUME HT
(M/SEC) (UG/CU M).
.50 1.2309E+02
.80 1.6212E+02
1.00 1.8146E+02
1.50 2.1589E+02
2.00 2.3811E+02
2.50 2.5303E+02
3.00 2.6334E+02
(KM)
1.268
1.015
.916
.766
.678
.620
.576
(M)
878.6(2)
562.2(2)
456.8(2)
316.2(2)
245.9(2)
203.7(2)
175.6
****WINDS CONSTANT WITH HEIGHT****
STABILITY
2
2
2
2
2
2
2
2
2
WIND SPEED MAX CONC DIST
(M/SEC) (UG/CU M)
.50 5.9647E+01
.80 8.4250E+01
1.00 9.8471E+01
1.50 1.2841E+02
2.00 1.5225E+02
2.50 1.7153E+02
3.00 1.8725E+02
4.00 2.1066E+02
5.00 2.2635E+02
OF MAX PLUME HT
(KM)
4.783
3.174
2.626
1.880
1.499
1.267
1.110
.911
.789
(M)
878.6(2)
562.2(2)
456.8(2)
316.2(2)
245.9(2)
203.7(2)
175.6
140.4
119.4
WIND SPEED
(M/SEC)
.55
.87
1.09
1.64
2.18
2.73
3.27
MAX CONC DIST
(UG/CU M)
1.3008E+02
1.6971E+02
1.8906E+02
2.2294E+02
2.4426E+02
2.5816E+02
2.6769E+02
****STACK TOP WINDS (EXTRAPOLATED
WIND SPEED
(M/SEC)
.55
.87
1.09
1.64
2.18
2.73
3.27
4.37
5.46
MAX CONC DIST
(UG/CU M)
6.3709E+01
8.9640E+01
1.0451E+02
1.3549E+02
1.5979E+02
1.7913E+02
1 .9464E+02
2.1716E+02
2.3164E+02
OF MAX
(KM)
1.216
.975
.881
.737
.654
.599
.558
FROM 10,
OF MAX
(KM)
4.426
2.944
2.440
1.753
1.402
1.188
1.044
.860
.748
PLUME HT
(M)
807.8(2)
518.0(2)
421.4(2)
292.6(2)
228.2(2)
189.6
163.8
.0 METERS)****
PLUME HT
(M)
807.8(2)
518.0(2)
421.4(2)
292.6(2)
228.2(2)
189.6
163.8
131.6
112.3
-------�
Table 8.3.2 PTPLU EXAMPLE (cont.)
co
oo
STABILITY
3
3
3
3
3
3
3
3
3
****WINOS CONSTANT WITH HEIGHT****
HIND SPEED MAX CONC D 1ST OF MAX PLUME HT
(M/SEC)
2.00
2.50
.3.00
4.00
5.00
7.00
10.00
12.00
15.00
(UG/CU M)
1.2070E+02
1.3995E+02
1.5632E+02
1.8207E+02
2.0070E+02
2.2353E+02
2.4698E+02
2.5649E+02
2.6289E+02
****WINDS CONSTANT
STABILITY
4
4
4
4
4
4
4
4
4
4
4
4
4
4
WIND SPEED
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
20.00
(KM)
2.860
2.343
2.004
1.586
1.338
1.059
.832
.740
.649
(M)
245.9(2)
203.7(2)
175.6
140.4
119.4
95.3
75.6
67.6
59.7
WITH HEIGHT****
MAX CONC D 1ST OF MAX
(UG/CU M)
7.3754E+00
1.5114E+01
2.0779E+01
3.4944E+01
4.9291E+01
6.2183E+01
7.4223E+01
9.5524E+01
1.1323E+02
1.3783E+02
1 .6608E+02
1.7994E+02
1 .9346E+02
2.0356E+02
****UINDS CONSTANT
STABILITY
5
5
5
5
5
WIND SPEED
(M/SEC)
2.00
2.50
3.00
4.00
5.00
(KM)
85.010
36.101
27.291
14.612
10.000
7.545
5.997
4.257
3.323
2.479
1.772
1.506
1.254
1.017
PLUME HT
(M)
878.6(2)
562.2(2)
456.8(2)
316.2(2)
245.9(2)
203.7(2)
175.6
140.4
119.4
95.3
75.6
67.6
59.7
51.7
WITH HEIGHT****
MAX CONC DIST OF MAX
(UG/CU H)
.6417E+02
.5119E+02
.4103E+02
.2582E+02
.1473E+02
****UINDS CONSTANT
STABILITY
6
6
6
6
6
WIND SPEED
(M/SEC)
2.00
2.50
3.00
4.00
5.00
(KM)
7.128
6.488
6.019
5.359
4.911
WITH HEIGHT
MAX CONC DIST OF MAX
(UG/CU M)
1.2627E+02
1.1720E+02
1.0998E+02
9.8975E+01
9.0809E+01
(KM)
14.811
13.322
12.250
10.771
9.772
PLUME HT
(M)
123.7
117.3
112.5
105.4
100.4
****
PLUME HT
(M)
108.6
103.3
99.3
93.4
89.2
****STACK TOP WINDS (EXTRAPOLATED FROM 10.
WIND SPEED MAX CONC DIST OF MAX
(M/SEC)
2.27
2.83
3.40
4.53
5.67
7.93
11.33
13.60
17.00
(UG/CU M)
1.3137E+02
1.5116E+02
1.6764E+02
1.9277E+02
2.1012E+02
2.3032E+02
2.5390E+02
2.6084E+02
2.6372E+02
(KM)
2.555
2.103
1.806
1.440
1.223
.976
.767
.686
.606
****STACK TOP WINDS (EXTRAPOLATED FROM 10
WIND SPEED
(M/SEC)
.60
.97
1.21
1.81
2.41
3.02
3.62
4.83
6.03
8.45
12.07
14.48
18.10
24.13
MAX CONC
(UG/CU M)
9.8497E+00
1.9832E+01
2.6550E+01
4.3890E+01
6.0009E+01
7.4612E+01
8.7872E+01
1.1041E+02
1.2765E+02
1.5175E+02
1.8033E+02
1.9162E+02
2.0109E+02
2.0306E+02
DIST OF MAX
(KM)
60.160
28.851
20.350
11.075
7.898
5.960
4.786
3.452
2.845
2.081
1.499
1.289
1.090
1.000
****STACK TOP WINDS (EXTRAPOLATED FROM 10
WIND SPEED
(M/SEC)
3.10
3.88
4.65
6.20
7.75
MAX CONC
(UG/CU M)
1.3923E+02
1.2743E+02
1.1826E+02
1.0463E+02
9.4784E+01
DIST OF MAX
(KM)
5.937
5.427
5.048
4.522
4.165
****STACK TOP WINDS (EXTRAPOLATED FROM 10
WIND SPEED
(M/SEC)
3.98
4.98
5.98
7.97
9.96
MAX CONC
(UG/CU M)
9.9129E+01
9.0957E+01
8.4541E+01
7.5394E+01
7.2668E+01
DIST OF MAX
(KM)
10.790
9.801
9.070
8.040
7.000
0 METERS)****
PLUME HT
(M)
221.1(2)
183.9
159.0
128.0
109.4
88.0
70.0
62.9
55.9
0 METERS)****
PLUME HT
(M)
734.1(2)
471.9(2)
384.5(2)
268.0(2)
209.8(2)
174.8
151.5
122.4
104.9
84.4
67.4
60.8
54.2
47.6
.0 METERS)****
PLUME HT
(M)
111.6
106.1
101.9
95.8
91.5
.0 METERS)****
PLUME HT
(M)
93.5
89.3
86.1
81.3
76.5
(1) THE DISTANCE TO THE POINT OF MAXIMUM CONCENTRATION IS SO GREAT THAT THE SAME STABILITY IS NOT LIKELY
TO PERSIST LONG ENOUGH FOR THE PLUME TO TRAVEL THIS FAR.
(2) THE PLUME IS CALCULATED TO BE AT A HEIGHT WHERE CARE SHOULD BE USED IN INTERPRETING THE COMPUTATION.
(3) NO COMPUTATION WAS ATTEMPTED FOR THIS HEIGHT AS THE POINT OF MAXIMUM CONCENTRATION IS GREATER THAN 100 KILOMETERS
FROM THE SOURCE.
-------�
Table 8.3.3 ISCST Screening Input Example
SCREENING RUN - S02
1110011'000000001002011022122120 0
1 0 0 16 0 0 1 49
87. 0.
88. 0.
100. 0.
200. 0.
300. 0.
500. 0.
700. 0.
1000. 0.
2000. 0.
3000. 0.
5000. 0.
7000. 0.
10000. 0.
20000. 0.
30000. 0.
50000. 0.
10.0 1.54 3.09 5.14 8.23 10.8
0 GRAMS/SECONDHICROGRAMS/CUBIC METER 5 3
500 00100.0000 0. 0. 0. 35.0 432.0 11.00 2.40 -30.525.87825.878
30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5
30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5
30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5 30.5
29.20029.20029.20029.20029.20029.20029.20029.20029.20029.20029.20029.200
29.20029.20029.20029.20029.20029.20029.20029.20029.20029.20029.20029.200
29.20029.20029.20029.20029.20029.20029.20029.20029.20029.20029.20029.200
1
1
1
1
1
1
1
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
5
5
5
5
5
6
6
6
6
6
8.3-9
1
2
3
4
5
6
7
8
9
10
11
12
13
14
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
.5
.8
1.
1.5
2.
2.5
3.
.5
.8
1.
1.5
2.
2.5
3.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
293.
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
90.
3.
4.
5.
7.
10.
12.
15.
20.
2.
2.5
3.
4.
5.
2.
2.5
3.
4.
5.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
5000.
293
293
293
293
293
293
293
293
293
293
293
293
293
293
293
293
293
293
-------�
Table 8.3.4 1SCST Screening Output Exanple
oo
O
I SCSI (DATED 88207)
*** SCREENING RUN - S02
CALCULATE (CONCENTRATION=1,DEPOSITION=2)
RECEPTOR GRID SYSTEM (RECTANGULAR=1 OR 3, POLAR=2 OR 4)
DISCRETE RECEPTOR SYSTEM (RECTANGULAR=1.POLAR=2)
TERRAIN ELEVATIONS ARE READ (YES=1,NO=0)
CALCULATIONS ARE WRITTEN TO TAPE (YES=1 N0=0)
LIST ALL INPUT DATA (NO=0,YES=1.MET DATA ALSO=2)
COMPUTE AVERAGE CONCENTRATION (OR TOTAL DEPOSITION)
WITH THE FOLLOWING TIME PERIODS:
HOURLY (YES=
2-HOUR (YES=
3-HOUR (YES=
4-HOUR (YES=
6-HOUR (YES=
8-HOUR (YES=
,NO=0)
,NO=0)
,NO=0)
,NO=0)
,NO=0)
,NO=0)
12-HOUR (YES=1,NO=0)
24-HOUR (YES=1,NO=0)
PRINT 'N'-DAY TABLE(S) (YES=1,NO=0)
PRINT THE FOLLOWING TYPES OF TABLES WHOSE TIME PERIODS ARE
SPECIFIED BY ISW(7) THROUGH ISW(14):
DAILY TABLES (YES=1.NO=0)
HIGHEST & SECOND HIGHEST TABLES (YES=1,NO=0)
MAXIMUM 50 TABLES (YES=1,NO=0)
METEOROLOGICAL DATA INPUT METHOD (PRE-PROCESSED=1,CARD=2)
RURAL-URBAN OPTION (RU.=0,UR. MODE 1=1,UR. MODE 2=2.UR. MODE 3=3)
WIND PROFILE EXPONENT VALUES (DEFAULTS=1,USER ENTERS=2,3)
VERTICAL POT. TEMP. GRADIENT VALUES (DEFAULTS=1,USER ENTERS=2,3)
SCALE EMISSION RATES FOR ALL SOURCES (NO=0,YES>0)
PROGRAM CALCULATES FINAL PLUME RISE ONLY (YES=1,NO=2)
PROGRAM ADJUSTS ALL STACK HEIGHTS FOR DOWNWASH (YES=2,NO=1)
PROGRAM USES BUOYANCY INDUCED DISPERSION (YES=1,NO=2)
CONCENTRATIONS DURING CALM PERIODS SET = 0 (YES=1,NO=2)
REG. DEFAULT OPTION CHOSEN (YES=1.NO=2)
TYPE OF POLLUTANT TO BE MODELLED (1=S02,2=OTHER)
DEBUG OPTION CHOSEN (YES=1,NO=2)
ABOVE GROUND (FLAGPOLE) RECEPTORS USED (YES=1,NO=0)
NUMBER OF INPUT SOURCES
NUMBER OF SOURCE GROUPS (=0,ALL SOURCES)
TIME PERIOD INTERVAL TO BE PRINTED (=0,ALL INTERVALS)
NUMBER OF X (RANGE) GRID VALUES
NUMBER OF Y (THETA) GRID VALUES
NUMBER OF DISCRETE RECEPTORS
NUMBER OF HOURS PER DAY IN METEOROLOGICAL DATA
NUMBER OF DAYS OF METEOROLOGICAL DATA
SOURCE EMISSION RATE UNITS CONVERSION FACTOR
HEIGHT ABOVE GROUND AT WHICH WIND SPEED WAS MEASURED
LOGICAL UNIT NUMBER OF METEOROLOGICAL DATA
ALLOCATED DATA STORAGE
REQUIRED DATA STORAGE FOR THIS PROBLEM RUN
iswd) =
ISW(2) =
ISW(3) =
ISW(4) =
ISW(5) =
ISW(6) =
ISW(7) =
ISW(8) =
ISW(9) =
ISW(10) =
iswdD =
1SW(12) =
ISW(13) =
ISW(14) =
iswdS) =
ISW(16) =
ISW(17) =
ISW(18) =
ISU(19) =
ISW(20) =
ISW(21) =
ISW(22) =
ISW(23) =
ISW(24) =
ISW(25) =
ISW(26) =
ISW(27) =
ISW(28) =
ISW<29) =
ISW(30) =
ISW(31) =
NSOURC =
NGROUP =
IPERD =
NXPNTS =
NYPNTS =
NXWYPT =
NHOURS =
NDAYS =
TK =
ZR =
1MET =
LIMIT =
MIMIT =
1
1
1
0
0
1
1
0
0
0
0
0
0
0
0
1
0
0
2
0
1
1
0
2
2
1
2
2
1
2
0
1
0
0
0
0
16
1
49
.10000E+07
10.00 METERS
5
43500
367
WORDS
WORDS
-------�
Table 8.3.4 ISCST Screening Output Exanple (cont.)
*** X,Y COORDINATES OF DISCRETE RECEPTORS ***
(METERS)
87.0,
500.0,
5000.0,
50000.0,
.0), (
.0), (
.0), (
.0), (
88.0.
700.0,
7000.0,
.0), I
.0), I
.0), I
; ioo.o,
[ 1000.0,
; loooo.o,
.0). ( 200.0,
.0), ( 2000.0,
.0), ( 20000.0,
.0), ( 300.0, .0),
.0), ( 3000.0, .0),
.0), ( 30000.0, .0),
*** SCREENING RUN - S02
*** SOURCE DATA ***
T
Y
SOURCE P
NUMBER E
5 0
U
A
K
E
0
NUMBER
PART.
CATS.
0
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND X
*PER METER**2 (METERS)
.10000E+03 .0
*** SCREEN I »
BASE
Y ELEV.
(METERS) (METERS)
.0 .0
IG RUN - SO?
HEIGHT
(METERS)
35.00
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
TYPE=1
(METERS)
432.00
EXIT VEL
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1,2
(METERS)
11.00
DIAMETER
TYPE=0
(METERS)
2.40
*i
BLDG.
HEIGHT
TYPE=0
(METERS)
-30.50
t*
BLDG.
LENGTH
TYPE=0
(METERS)
25.88
BLDG.
WIDTH
TYPE=0
(METERS)
25.88
oo
SOURCE 1
IFV
1
7
13
19
25
31
BH
30.5,
30.5,
30.5,
30.5.
30.5.
30.5.
BW I WAKE
29.2.
29.2,
29.2,
29.2,
29.2,
29.2,
0
0
0
0
0
0
IFV
2
8
14
20
26
32
BH
30.5,
30.5,
30.5,
30.5,
30.5,
30.5,
BW IWAKE
29.2,
29.2.
29.2.
29.2.
29.2,
29.2.
0
0
0
0
0
0
IFV
3
9
15
21
27
33
BH
30.5,
30.5,
30.5,
30.5,
30.5.
30.5.
BW IWAKE
29.2,
29.2,
29.2,
29.2,
29.2,
29.2.
0
0
0
0
0
0
IFV
4
10
16
22
28
34
BH
30.5,
30.5,
30.5.
30.5,
30.5.
30.5.
BW IWAKE
29.2.
29.2.
29.2,
29.2,
29.2,
29.2.
0
0
0
0
0
0
IFV
5
11
17
23
29
35
BH
30.5,
30.5.
30.5.
30.5.
30.5,
30.5,
BW IWAKE
29.2,
29.2,
29.2,
29.2,
29.2.
29.2,
0
0
0
0
0
0
IFV
6
12
18
24
30
36
BH
30.5,
30.5,
30.5,
30.5,
30.5,
30.5,
BW IWAKE
29.2,
29.2,
29.2,
29.2,
29.2,
29.2,
0
0
0
0
0
0
*** SCREENING RUN - S02
* SOURCE-RECEPTOR COMBINATIONS LESS THAN 001 METERS OR THREE BUILDING
HEIGHTS IN DISTANCE. NO AVERAGE CONCENTRATION IS CALCULATED *
SOURCE
NUMBER
- RECEPTOR LOCATION - -
X Y (METERS)
OR RANGE OR DIRECTION
(METERS) (DEGREES)
DISTANCE
BETWEEN
(METERS)
87.0
.0
87.00
-------�
oo
i
- X -
- X -
- X -
Table 8.3.4 ISCST Screening Output Example
*** SCREENING RUN - S02
* DAILY
DAILY: 1
1-HR/PD 1
SGROUP* 1
1-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 1 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
5. 00340
27.02977
25.58236
9.51664
2.50380
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
4.93952
4.69807
119.21220
16.89387
5.33061
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
5.08407
6.17031
62.36719
12.81121
3.80708
DAILY: 2
1-HR/PD 1
SGROUP* 1
*** SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC HETER
* ENDING WITH HOUR 1 FOR DAY 2 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
6.90929
101.90610
16.69342
5.98719
1.56698
88
300
1000
5000
20000
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
2.95209
9.39828
180.09000
10.76021
3.34069
100
500
2000
7000
30000
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
3.51294
22.29876
44.13558
8.09720
2.38384
DAILY: 3
1-HR/PD 1
SGROUP* 1
*** SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 3 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
.00000
155.46320
13.74519
4.80837
1.25419
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
.00000
.00064
208.97860
8.71292
2.67621
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
.00000
4.68125
37.83156
6.52273
1.90863
-------�
- X -
oo
- X -
- x -
Table 8.3.4 ISCSI Screening Output Example
*** SCREENING RUN - S02
* DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 4 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
DAILY: 4
1-HR/PD 1
SGROUP# 1
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
.11748
276.88120
9.16790
3.20638
.83634
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
4
173
5
1
.00000
.36673
.10000
.81006
.78459
100
500
2000
7000
30000
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.00000
104.87460
25.51383
4.34957
1.27273
DAILY: 5
1-HR/PD 1
SGROUP* 1
*** SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 5 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
16.82679
292.97490
6.87709
2.40499
.62731
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
.02513
82.66024
140.08230
4.35792
1.33856
100.
500.
2000.
7000.
30000.
0
0
0
0
0
.0
.0
.0
.0
.0
.08885
269.33670
19.21289
3.26246
.95463
\
DAILY:
1-HR/PD
SGROUP#
6
1
1
*** SCREENING RUN - S02
* DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 6 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X
- Y
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
144.87810
274.60510
5.50210
1.92407
.50187
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
2.93973
289.12380
116.05690
3.48648
1.07089
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
6.90579
379.46540
15.39893
2.61008
. 76374
-------�
- X -
Table 8.3.4 1SCST Screening Output Exanple
***
SCREENING RUN - S02
DAILY: 7
1-HR/PD 1
SGROUP# 1
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUB1C METER
* ENDING WITH HOUR 1 FOR DAY 7 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
417.27660
2A9.1729Q
* 58528
1 .60343
41823
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
44.54927
527.28690
98.55045
2.90546
.89243
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
53.82083
428.44230
12.84528
2.17511
.63646
DAILY: 17
1-HR/PD 1
SGROUP0 1
*** SCREENING RUN - S02
oo
- X -
- X -
- Y -
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 17 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
COM.
X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
ooooo
00000
42373
I5f-35690
3 -74382
1- 89450
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
.00057
.00005
18.31762
92.67010
9.59650
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
.00017
.00345
163.11490
56.61921
4.68866
DAILY: 18
1-HR/PD 1
SGROUPtf 1
*** SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 18 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
Con.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
ooooo
.,'19624
^-06514
160.84720
Z*- 05305
1 -51742
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
6.30042
.13177
91.68928
81.33778
7.73094
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
3.67796
.89529
216.41430
47.60183
3.76305
-------�
CD
- X -
Table 8.3.4 ISCST Screening Output Example
SCREENING RUN - S02
DAILY: 19
1-HR/PD 1
SGROUP* 1
DAILY
1-HOUR AVERAGE CONCENTRATION M1CROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 19 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
22.46925
77.53087
151.63750
21.96200
1.26474
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
155.63380
14.59278
212.29620
70.95924
6.45916
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
119.10570
21 .92337
236.01950
40.61578
3.13889
DAILY: 20
1-HR/PD 1
SGROUPfl 1
*** SCREENING RUN - S02
* DAILY 1-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 20 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- X -
- X -
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
533.99260
331.40440
127.32480
16.63833
.94854
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1128.69100
372.32560
391.40390
55.48586
4.85413
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
1045.15600
256.09060
226.12990
31.11490
2.35558
DAILY: 21
1-HR/PD 1
SGROUP# 1
*** SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 21 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
1279.21800
522.00840
106.67380
13.36027
. 75872
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1842.89600
953.80990
448.64920
45.13705
3.88540
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
1795.66700
569.37950
199.98400
25.09847
1.88453
-------�
- X -
oo
- x -
- X -
Table 8.3.4 ISCST Screening Output Example
SCREENING
* DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 22 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
DAILY: 22
1-HR/PD 1
SGROUP# 1
- Y -
CON:
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
1774.54900
606.66770
78.76664
9.56285
.54178
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
2123.80100
1404.05300
416.51340
32.61118
2.77526
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
2107.44100
825.77490
153.70410
18.02244
1.34574
DAILY: 23
1-HR/PD 1
SGROUPtf 1
SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 23 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
.200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
1567.76800
513.54500
55.77681
6.69430
.37913
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1850.77600
1256.11800
322.92000
22.90249
1.94183
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
1831.89200
754.87510
110.57010
12.62934
.94163
DAILY: 24
1-HR/PD 1
SGROUPtf 1
*** SCREENING RUN - S02
* DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 24 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
1376.89800
445.34430
46.55906
5.57691
.31590
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1645.09400
1100.10200
274.75570
19.08827
1.61778
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
1623.61900
664.83990
92.59132
10.52247
.78454
-------�
- X -
oo
CM
I
- x -
- x -
Table 8.3.4 ISCST Screening Output Exonple
DAILY: 25
1-HR/PD 1
SGROUP# 1
SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 25 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
1144.30400
365.10650
37.26143
4.45956
.25269
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1391.47000
908.82390
222.49060
15.26500
1.29384
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
1368.61700
550.50270
74.23608
8.41405
.62750
DAILY: 40
1-HR/PD 1
SGROUP* 1
* SCREENING RUN - S02
DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 40 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
7
4
126
131
31
.00000
.34562
.37056
.89500
.79950
.64016
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
96.41584
3.52828
15.00642
155.06790
78.12421
100
500
2000
7000
30000
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
66.06198
1.24871
71.93365
152.79430
53.11888
DAILY: 41
1-HR/PD 1
SGROUP* 1
*** SCREENING RUN - S02
* DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 41 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
307.77910
27.85426
169.16920
122.79240
26.39863
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1083.79900
178.41170
55.07400
168.66040
67.74323
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
928.24360
14.30711
126.96090
151.86290
45.08991
-------�
- X -
oo
Ltt
I
oo
- X -
Table 8.3.4 ISCST Screening Output Exanple
*** SCREENING PUN - S02
* DAILY 1-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 42 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
DAILY: 42
1-HR/PD 1
SGROUPtf 1
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
1272.91800
73.78295
194.05560
113.14560
22.62969
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
2535.22800
829.74930
110.13650
171.39300
59.57720
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
2367.35200
104.64730
171.48960
145.78870
39.09396
DAILY: 43
1-HR/PD 1
SGROUPtf 1
SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 43 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
3073.97000
246.74050
203.19320
96.05175
17.58737
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
4094.18000
2268.79700
198.25960
163.29440
47.79824
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
4023.88400
682.81590
223.38050
129.90830
30.81310
DAILY: 44
1-HR/PD 1
SGROUPfl 1
*** SCREENING RUN - S02
* DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 44 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- X -
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
3598.26800
585.99210
203.09350
82.68193
14.37578
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
4338.34900
2790.42400
265.70180
150.03300
39.81702
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
4302.07300
1192.96100
242.12700
114.93860
25.39730
-------�
Table 8.3.4 ISCST Screening Output Exanple
*** SCREENING RUN - S02
DAILY: 45
1-HR/PD 1
SGROUPtf 1
- X -
oo
i
- X -
* DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 45 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
629.42520
113.29170
166.29960
161.29460
54.12782
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
1983.41800
364.63230
111.36590
175.13990
110.58380
100.0
500.0
2000.0
7000.0
30000.0
.0
.6
.0
.0
.0
1728.95900
108.50450
142.89430
174.58850
82.48915
DAILY: 46
1-HR/PD 1
SGROUP# 1
*** SCREENING RUN - S02
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 46 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
2652.08200
270.55930
233.53240
162.58970
47.12109
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
4602.90700
1775.21900
250.70830
209.12860
102.19610
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
4379.83500
313.35810
237.41840
189.65020
73.80955
DAILY: 47
1-HR/PD 1
SGROUP# 1
*** SCREENING RUN - S02
* DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC HETER
* ENDING WITH HOUR 1 FOR DAY 47 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- X -
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
4373.43100
436.61970
273.27590
157.01850
41.51849
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
6006.28800
3171.88400
376.67470
222.84160
93.58136
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
5883.13000
703.86250
304.60260
191.68690
66.21388
-------�
- X -
Table 8.3.4 ISCST Screening Output Example
*** SCREENING RUN - S02
* DAILY 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 48 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
DAILY: 48
1-HR/PD 1
SGROUPtf 1
- Y -
CON.
- X -
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
5432.10600
730.43340
300.71210
140.34940
33.35163
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
6517.44600
4216.45600
532.33050
222.39040
78.73162
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
6464.00500
1690.94700
368.46600
180.42220
54.37086
DAILY: 49
1-HR/PD 1
SGROUP* 1
*** SCREENING RUN - S02
oo
04
I
N)
O
- x -
- Y
DAILY
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING UITH HOUR 1 FOR DAY 49 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
CON.
- X
- Y -
CON.
- X -
- Y -
CON.
87.0
200.0
700.0
3000.0
10000.0
50000.0
.0
.0
.0
.0
.0
.0
.00000
5151.31900
1130.43400
296.26400
124.09450
27.78418
88.0
300.0
1000.0
5000.0
20000.0
.0
.0
.0
.0
.0
6075.40300
4074.27700
592.11810
208.61760
67.35443
100.0
500.0
2000.0
7000.0
30000.0
.0
.0
.0
.0
.0
6021.16200
2041.20700
380.49050
164.06740
45.88024
-------�
8.4 Refined Techniques
I. Criteria for Selection of Preferred Models
A. Averaging Time: Short-term/Long-term
1. Short-term Models (may also be used for long-term averages)
CRSTER
RAM
MPTER
ISCST
BLP
2. Long-term Models
CDM2.0
ISCLT
B. Rural/Urban
1. Land Use Procedures According to Auer:
(1) Classify the land within a three kilometers radius about the source
according to land use types as defined by Auer; (2) if classes II, 12,
Cl, R2, and R3 account for 50 percent or more of the area, the
urban classification should be used, otherwise, use rural classification.
2. Population Density Procedure:
(1) compute the average population density per square kilometer
within a three kilometer radius about the source; (2) if the density is
greater than 750 people per square kilometer, use the urban
classification, otherwise, use the rural classification.
3. Selection:
Of the two methods, the Land Use Procedure is preferred. In areas
without significant industrial sources, the Population Density
Procedure may be used. For analyses of whole urban complexes, the
entire area should be modeled as an urban region if most of the
sources are located in areas classified as urban.
8.4-1
-------�
C. Terrain
Simple terrain models should be used when terrain elevations do not exceed
the stack height of the source being modeled.
II. Meteorological Data
A. Five years of recent on-site data are preferred.
On-site data should have been subjected to quality assurance as listed in the
Guideline document.
B. One year on-site or five years of NWS.
If the source is a large source (e.g. 500 MW power plant), at least one year
of on-site data or five-years of National Weather Service (NWS) data are
required.
C. National Weather Service data should be the most recent five years available.
D. Less than five years (small sources only).
If less than five years of NWS data or one year of on- site data, the highest
concentrations should be used, rather than the highest second-high values.
III. Critical Receptor Sites
A. Receptor spacing.
Receptor sites for refined modeling should be utilized in sufficient detail to
estimate the highest concentrations and possible violations of a NAAQS or
a PSD increment. (GAQM 8-4)
B. Large sources.
For a large source, 360 polar or 400 rectangular receptors with the furthest
receptor 10 kilometers away should be sufficient. (GAQM 8-4)
8.4-2
-------�
C. Regional Workshop.
A method for selecting receptor sites is contained in the Regional Workshop
on Air Quality Modeling: A Summary Report, April 1981, Rev. 1983,
EPA-450/4-82- 015. This method uses the PTPLU model to identify the
critical distances. From PTPLU (use the ISCST screening technique if
downwash is to be considered), identify the highest concentration for each
stability class and the distances to these maxima. The nearest distance to a
maximum concentration will be used as the first ring distance. Additional
ring distances are determined by multiplying the first distance by the
following factors:
Ring Number Factor
1 1.0
2 1.3
3 1.7
4 2.3
5 3.0
6 3.9
7 5.2
8 6.8
9 9.0
A tenth ring may be used to determine areas of high concentrations beyond
the ninth ring. If PTPLU indicates that during stability class D high
concentrations may occur beyond the last ring, additional rings may be
required. Rings do not need to be closer together than 100 meters.
IV. Radius-of-Impact and Area-of-Impact
A. Radius-of-Impact
The Radius-of-Impact is the distance from the source where the sources
maximum concentration falls below the modeling "level-of-significance". The
Radius-of- Impact must be developed on a pollutant by pollutant basis and
on an average period by averaging period basis. These levels-of-significance
are as follows:
8.4-3
-------�
Class II
Averaging Level-of-Significance*
Pollutant Period (ug/m3)
TSP, SO2, NO2 Annual 1
TSP, SO2 24-Hour 5
CO 8-Hour 500
SO2 3-Hour 25
CO 1-Hour 2000
* Ambient Monitoring Guideline for Prevention of Significant Deterioration
(PSD) , EPA-450/4-87-007, May 1987. Note that the Class I level-of-
significance is one microgram per cubic meter for a 24-hour average.
B. Area-of-Impact
The Area-of-Impact is the area within a circle with a radius equal to the
Radius-of-Impact.
V. Emissions Inventory
In addition to the subject source, an emission inventory will have to be assembled
of all other sources that creates an impact greater than the modeling level-of-
significance within the subjects Area-of-Impact. Generally, a screening approach
can be used to assess these impacts. The emission inventory must be assembled on
a pollutant by pollutant basis.
Any sources with a PSD permit should be reviewed to determine if values other
than the maximum operating loads were used to calculate maximum impacts. These
parameters should be used, otherwise, it should be assumed that the source's
maximum load conditions will cause maximum impacts.
VI. Summary
VII. Questions
8.4-4
-------�
8.5 Demonstration of Refined Models
I. Refined Analysis Using CRSTER
A. Stack Parameters for Demonstration
Emission Stack Stack
Rate Height Temp. Velocity Diameter
(g/s) (m) (K) (m/s) (m)
100.0 35.0 432. 11.7 2.40
B. Model Input Data
Model Options:
- Regulatory Default option
- 5000 meter mixing height
- 10 meter anemometer height
- zero receptor height
- default w-s profile exponent
Meteorological Data: Las Vegas 1983
C. Receptor Locations
1. PTPLU distance to maximum is 0.558 kilometers from Table 8.3.2.
2. Receptor locations:
8.5-1
-------�
Calculated Modeled
Distance Distance Distance
Ring Factor (km) (km)
1 1.0 0.558 0.5
2 1.3 0.725 0.7
3 1.7 0.949 0.9
4 2.3 1.283 1.3
5 3.0 1.674 1.7
6 3.9 2.176 2.2
7 5.2 2.902 2.9
8 6.8 3.794 3.8
9 9.0 5.022 5.0
3. What distance do we use for the tenth ring?
Considerations:
- If other sources were nearby, the tenth ring could be used to help
define the combined impacts.
- Add a ring closer than calculated above if PTPLU indicates that
maximum concentration could occur at a closer distance. From
PTPLU (Table 8.3.2) the wind speed, stability class with the closest
distance to maximum concentration is the selected value.
- Add a ring further out than the ninth ring if PTPLU indicates that
maximum concentrations could occur at a greater distance. From
PTPLU, the distances to maximum concentrations for stability classes
4, 5 and 6 under light winds give distances that are greater than ring
nine. The maximum concentrations under these conditions are
significantly less than the maximum value and significantly less than
concentrations with higher wind speeds. At the higher wind speeds,
the distances to the maxima are less than the ninth ring distance.
Selection:
Considering the above, a tenth ring distance is not required. For this
example, the tenth ring is placed at 1.1 kilometers.
8.5-2
-------�
D. Input Data for Rings 1-5 -- Table 8.5.1
E. Output Printout for Rings 1-5 - Table 8.5.2
F. Input Data for Rings 6-10 -- Table 8.5.3
G. Output Printout for Rings 6-10 - Table 8.5.4
II. Refined Analysis Using ISCST
A. Same as CRSTER
B. Same as CRSTER
C. Input Data -- Table 8.5.5
D. Output Printout - Table 8.5.6
III. Refined Analysis Using ISCLT
A. Same as CRSTER
B. Same as CRSTER
C. Input Data -- Table 8.5.7
D. Output Printout -- Table 8.5.8
8.5-3
-------�
IV. Summary
V. Questions
8.5-4
-------�
oo
in
tn
TABLE 8.5.1 CRSTER EXAMPLE -- INPUT DATA (RINGS 1-5)
CRSTER CLASS EXAMPLE
THIS IS A SINGLE SOURCE (CRSTER) MODEL EXAMPLE RUN.
123169 83 3160 83 0.5 0.7 0.9 1.1 1.3 14400. 1
000000000000010000001
TEST STACK
100. 35.0 2.4 11.7 432.0
-------�
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RINGS 1-5)
oo
en
i
CRSTER (VERSION 86211)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 1. GUIDELINE MODELS (1978)
IN UNAMAP (VERSION 6) DEC 86
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC
THIS IS A SINGLE SOURCE (CRSTER) MODEL EXAMPLE RUN.
MET FILE REQUESTFO
STN NO. YR STN NO. i'R
SURFACE 23169 83 23169 83
UPPER AIR 3160 83 3160 83
POLLUTANT: S02
PLANT LOCATION: RURAL
ANEMOMETER HEIGHT IS 10.0 METERS
HALF LIFE IS 0. SEC
STACK DOUNUASH ACCOUNTED FOR
MOMENTUM PLUME RISE ACCOUNTED FOR
BUOYANCY-INDUCED DISPERSION ACCOUNTED FOR
DEFAULT OPTION EXERCISED
WIND PROFILE EXPONENTS ARE: .070,
NO TAPE OUTPUT
MET DATA WILL NOT BE PRINTED
DAY--
AIR QUALITY UNITS: GM/M**3 12/80
.070, .100, .150, .350, .550,
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
111 1
111 1
111 1
111 1
111 1
111 1
111 1
111 1
1
1
1
1
1
1
1
1
1111
1111
1111
1111
1111
1111
1111
1 0
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 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
11111
11111
11111
11111
11111
11111
1 11111
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1
*****************HOTE*****************
ALL TABLES, INCLUDING SOURCE CONTRIBUTION, THAT CONTAIN "ANNUAL" IN THE HEADING ARE BASED ONLY ON THOSE DAYS
MARKED BY "1" IN THE ABOVE TABLE
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
RING DISTANCES(KM)=
.50 .70 .90 1.10 1.30
PLANT ELEVATION (FEET ABOVE SEA LEVEL)--
.0
oo
RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)
DIRECTION RING01 RING#2 RING#3 RING04 RING#5
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.'0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
PLANT ELEVATION (METERS ABOVE SEA LEVEL)-- .0
RECEPTOR ELEVATIONS (METERS ABOVE SEA LEVEL)
RING01 R1NG02 RING03 RING#4 RING#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
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cent.)
STACK » 1--TEST STACK
STACK MONTH EMISSION RATE HEIGHT DIAMETER EXIT VELOCITY TEMP VOLUMETRIC FLOW
(GMS/SEC) (METERS) (METERS) (M/SEC) (DEG.K) (M**3/SEC)
1 ALL 100.0000 35.00 2.40 11.70 432.00 52.93
oo
en
oo
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
oo
VI
MAX HOURLY
MAX 24-HOUR
DAY
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
RATIO CONCENTRATION
11.867
22.245
18.238
18.780
17.025
18.680
15.549
14.220
8.066
16.939
23.203
21.680
8.998
18.550
10.683
16.206
19.713
6.762
16.324
18.222
.019021E-04
.088118E-04
.287443E-04
.213315E-04
.586314E-04
.055016E-04
.480074E-04
.357038E-04
.951756E-04
. 889271 E- 04
.415969E-04
.619290E-04
.353624E-04
. 889861 E- 04
.148044E-04
.942992E-05
.596604E-04
.835839E-04
.827865E-04
.599410E-04
18.359 1.368739E-04
11.068 2.697224E-05
22.996 6.492598E-05
23.630 9.442960E-05
18.644 .091909E-04
13.409 .321813E-04
11.105 .488177E-05
13.329 .575422E-04
14.256 .835240E-04
11.288 .120748E-04
4.655 .386505E-04
13.040 1.365541E-04
14.639 1.748655E-04
23.975 4.707967E-05
12.765 1.422380E-04
22.483 1.049598E-04
6.209 6.291724E-05
22.364 7.805302E-05
6.574 1.792892E-04
10.585 2.017320E-04
24.000 1.652311E-04
14.007 .901041E-04
13.018 .500646E-04
5.513 .921433E-04
7.204 .929323E-04
12.712 .838236E-04
23.929 .474618E-04
14.055 .544817E-04
9.483 .949361E-04
DIRECTION DISTANCE(KM)
33
19
25
25
25
25
5
26
23
35
2
17
34
20
31
1
21
23
13
13
26
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
20 1.30
13 1.30
26 1.30
30 1.30
25 1.30
11 1.30
25 1.30
2 1.30
12 1.30
14
27
19
~f
34
3
34
32
13
22
29
22
A
36
14
28
19
31
4
.30
.30
.30
.30
.30
.30
.30
.30
.10
.90
.30
.10
.30
.10
.30
.90
.30
.30
.10
HOUR
13
10
12
12
11
13
11
15
11
10
12
14
9
14
14
23
14
15
14
13
15
9
2
12
14
13
5
13
14
22
11
12
11
1
13
11
20
23
12
13
14
12
8
12
13
11
13
13
15
CONCENTRATION
8.586764E-06
4.891482E-06
7.059144E-06
6.460521E-06
9.317490E-06
5.647916E-06
9.518745E-06
9.542914E-06
2.419625E-05
1.115322E-05
6.102406E-06
7.468898E-06
1.504441E-05
1.018814E-05
1.074629E-05
3.050136E-06
8.099344E-06
2.714975E-05
1.119770E-05
8.777269E-06
7.455591E-06
2.436911E-06
2.823328E-06
3.996248E-06
5.856597E-06
9.857546E-06
4.041625E-06
1.181945E-05
1.287368E-05
9.928813E-06
2. 978671 E- 05
1.047188E-05
1.194498E-05
1.963688E-06
1.114285E-05
4.668496E-06
1.013308E-05
3.490051E-06
2.727128E-05
1.905833E-05
6.884644E-06
1.357184E-05
1.152708E-05
3.485192E-05
2.678279E-05
1.446045E-05
6.162452E-06
1.099132E-05
2.055534E-05
DIRECTION DISTANCE(KM)
34
11
24
25
23
26
28
26
23
35
2
3
35
18
22
1
6
23
14
13
21
10
13
26
31
24
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
11 1.30
24 1.30
4 1.30
14
13
27
19
7
24
3
34
32
36
24
29
22
24
14
14
24
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
19 1.30
25 1.30
3 1.10
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cent.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
00
en
i
o
MAX HOURLY
MAX 24-HOUR
DAY
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
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
RATIO
3.763
8.174
12.680
18.176
8.587
15.168
10.534
7.407
4.772
8.587
8.543
7.186
14.803
12.778
14.811
13.341
17.441
10.185
8.888
12.373
5.611
10.118
8.915
4.481
7.057
11.188
4.405
6.214
10.700
10.233
11.659
10.354
7.850
7.858
9.236
11.181
4.107
10.495
8.675
10.202
8.858
8.505
10.933
3.117
7.211
8.442
9.816
12.727
13.433
7.577
CONCFNTRATION
1.7V ;.J7E-04
2.012152E-04
.591896E-04
.898908E-04
.615121E-04
.522796E-04
.405435E-04
.922085E-04
.563440E-04
.843787E-04
.709667E-04
.002919E-04
.692400E-04
. 97635 7E- 04
.761488E-04
2.008825E-04
2.018458E-04
2.037136E-04
2.012767E-04
1.992105E-04
1.758655E-04
2.118796E-04
1.993864E-04
1.634859E-04
1.491540E-04
1.838378E-04-
1.774068E-04
1.725158E-04
2.012152E-04
1.974823E-04
1.679324E-04
2.145330E-04
1.844602E-04
1.809134E-04
1.823222E-04
1.745177E-04
1.719929E-04
1.895422E-04
1.918647E-04
2.066957E-04
1.963829E-04
2.040229E-04
2.471182E-04
1.910622E-04
1.929323E-04
2.005869E-04
2.004284E-04
2.019782E-04
2.062814E-04
2.322577E-04
DIRECTION DISTANCE(KM)
14
21
23
21
22
29
1
2
36
2
1
22
23
4
3
27
15
18
18
27
34
24
36
1
13
23
1
36
10
24
1
32
34
1
14
16
2
15
24
24
4
21
3
13
16
.30
.10
.10
.30
.10
.30
.30
.30
.30
.30
.30
.30
.10
.30
.10
.30
.10
.90
.10
.30
.30
.10
.90
.30
.30
.10
.30
.30
.10
.90
.30
.10
.30
.30
.30
.10
.30
.10
.90
.90
.10
.10
.90
.30
.30
20 1.10
18 1.30
22 .90
31 .90
35 .90
HOUR
11
12
12
13
13
13
16
11
12
5
21
24
14
16
14
15
10
11
13
15
8
14
11
8
14
10
2
10
11
11
14
11
8
8
9
14
15
9
14
10
11
13
16
1
15
12
10
15
12
12
CONCENTRATION
4.776856E-05
2.461520E-05
.255477E-05
.044728E-05
.880890E-05
.003927E-05
.334236E-05
2.595041E-05
3.276207E-05
2.147244E-05
2.001189E-05
. 395681 E- 05
.143272E-05
. 546661 E- 05
.189301E-05
.505738E-05
.157305E-05
2. 000081 E- 05
2.264597E-05
1.609986E-05
3.134165E-05
2.093992E-05
2.236514E-05
3.648417E-05
2.113518E-05
1.643224E-05
4.027834E-05
2.776375E-05
1.880513E-05
1.929839E-05
1.440408E-05
2.071998E-05
2.349738E-05
2.302326E-05
1.974107E-05
1.560777E-05
4.187913E-05
1.806057E-05
2.211726E-05
2.026080E-05
2.217043E-05
2.398873E-05
2.260193E-05
6.129765E-05
2.675564E-05
2.376164E-05
2.041853E-05
1.587040E-05
1.535618E-05
3.065221E-05
DIRECTION DISTANCE(KM)
14 1.30
22 1.30
23 1.30
24 1.30
22 1.30
2 1.30
1 1.30
2 1.30
35 1.30
2 1.30
32 1.30
23 1.30
3 1.30
4 1.30
32 1.30
27 1.30
12 1.30
19 .90
19
26
34
24
3
14
13
23
36
2
15
24
34
36
36
4
14
35
1
1
24
1
14
21
26
14
13
18
15
.30
.30
.30
.30
.30
.30
.30
.10
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.10
.30
.30
.30
.10
.30
.30
.30
.30
18 1.10
1 1.30
35 1.30
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
oo
On
I
MAX HOURLY
MAX 24-HOUR
DAY
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
RATIO
5.303
5.070
9.998
10.989
19.630
7.493
11.867
15.124
6.213
8.748
10.554
22.330
7.125
10.814
5.288
8.323
7.044
4.585
8.649
7.917
5.785
11.632
10.646
11.173
8.672
4.446
12.611
11.276
5.543
8.907
11.140
6.252
9.307
16.751
10.432
8.520
3.797
9.761
10.513
10.860
10.994
9.346
9.508
9.814
9.094
13.254
14.083
9.874
7.436
8.873
CONCENTRATION DIRECTION
2.173706E-04
1.924785E-04
1.553063E-04
2.256364E-04
2.151472E-04
2.210488E-04
2. 20361 OE- 04
2.411768E-04
2.318230E-04
2.099769E-04
1.284541E-04
1.841636E-04
1.992105E-04
2.397748E-04
2.544065E-04
2.292978E-04
2.293017E-04
2.346786E-04
2.470936E-04
1.679655E-04
2.570944E-04
2.294926E-04
2.261253E-04
2.329887E-04
2.105461E-04
2.443998E-04
2.397785E-04
2.411948E-04
2.304614E-04
2.223818E-04
2. 453791 E- 04
1.938878E-04
2. 279471 E- 04
2.217384E-04
2.423559E-04
2.096587E-04
2.567366E-04
2.180139E-04
2.344668E-04
2.519569E-04
2.341451E-04
2.418857E-04
2.273433E-04
2.496746E-04
2.361197E-04
2.576478E-04
2.502460E-04
2.568924E-04
2.466317E-04
2.764393E-04
3
5
1
12
9
18
19
22
4
18
3
24
23
32
2
18
3
35
36
2
5
7
8
31
26
36
5
30
33
16
6
14
13
21
16
19
14
19
33
14
22
24
7
7
16
10
12
29
21
36
01 STANCE (KM) HOUR
.90
.90
1.30
.70
.70
1.10
.70
.70
.70
1.10
1.30
1.30
1.30
.90
.70
.70
.90
.90
.70
1.30
.70
.70
.70
.70
1.10
.70
.70
.70
1.10
1.10
.70
.90
.70
.70
.90
.90
.70
1.10
.70
.70
.70
.70
.90
.50
.50
.70
.50
.70
.70
.70
14
11
3
12
12
11
11
11
12
13
15
11
15
12
13
12
13
13
11
24
13
15
11
11
13
10
12
11
9
11
13
10
12
11
12
12
10
11
12
10
12
10
14
13
11
11
10
13
10
13
CONCENTRATION DIRECTION DISTANCE(KM)
4.098963E-05
3.796564E-05
1.553408E-05
2.053277E-05
1.096028E-05
2.950082E-05
1. 85691 8E- 05
1.594615E-05
3.731016E-05
2.400319E-05
1.217122E-05
8.247444E-06
2.795817E-05
2.217206E-05
4.811340E-05
2.755113E-05
3.255166E-05
5.117967E-05
2.857033E-05
2.121711E-05
4.443775E-05
1.973008E-05
2.124002E-05
2. 085261 E- 05
2.427945E-05
5.497434E-05
1.901314E-05
2.138964E-05
4.157378E-05
2.496648E-05
2.202654E-05
3.101450E-05
2.449207E-05
1.323715E-05
2.323127E-05
2.460853E-05
6.761307E-05
2.233463E-05
2.230202E-05
2.320082E-05
2.129713E-05
2.588251E-05
2.391167E-05
2.544156E-05
2.596329E-05
1.943863E-05
1.776934E-05
2.601639E-05
3.316925E-05
3.115683E-05
1
)
2
21
16
18
20
22
4
18
36
24
24
32
36
1
36
35
2
2
2
36
16
29
36
36
32
28
35
.30
.30
.30
.90
.30
.10
.10
.70
.10
.10
.30
.30
.10
.30
.30
.30
.30
.30
.10
.30
.30
.30
.10
.90
.30
.10
.70
.10
.10
14 .90
6 .90
14 1.30
21 1.30
23 .90
14 1.30
19 1.10
14 1.10
19 1.10
21 .70
14 .90
22 1.10
24 .70
19 1.10
23 .90
24 1.10
18 .70
13 .70
20 .70
22 .90
36 1.10
-------�
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
oo
Ui
h->
K)
MAX HOURLY
MAX 24-HOUR
DAY
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
RATIO
9.876
5.295
4.296
13.054
13.057
10.274
10.626
6.702
10.339
10.053
13.545
10.574
6.055
7.497
9.424
10.194
9.156
6.836
9.701
7.172
5.443
6.431
5.095
7.260
8.021
13.100
10.705
7.862
9.060
10.938
10.703
3.952
9.010
6.326
11.421
6.553
11.105
7.163
4.381
6.595
9.963
8.289
14.864
8.812
13.096
7.313
3.796
4.175
7.063
12.365
CONCENTRATION DIRECT!^,
2.727857E-04
2.800253E-04
2.345403E-04
2.344025E-04
2.350973E-04
2.407631E-04
2.371746E-04
2.476241E-04
2.449228E-04
2.421739E-04
2.305107E-04
2.532832E-04
2.599705E-04
2.295483E-04
2.468160E-04
2.249081E-04
2.270349E-04
2.438285E-04
2.573338E-04
2.727008E-04
2.532410E-04
2.672731E-04
2.371659E-04
2.642151E-04
2.345290E-04
2. 364481 E- 04
2.481657E-04
2.200430E-04
2.572759E-04
2.470686E-04
2.356202E-04
2.350376E-04
2.386209E-04
2.303684E-04
2.554597E-04
2.350376E-04
2.582284E-04
2.645173E-04
2.786805E-04
2.532400E-04
2.640032E-04
2.368208E-04
2.246751E-04
2.328727E-04
2.640944E-04
2.774791E-04
2.709172E-04
2.437268E-04
2.589225E-04
2.518734E-04
13
1
36
34
27
2
3
21
24
36
33
19
36
18
22
18
23
35
34
2
33
33
35
33
36
8
25
2
1
31
24
33
36
2
22
23
24
3
36
35
5
15
19
26
21
2
1
1
35
1
rMSTANCE(KM) HOUR
.70
.70
.70
.70
.70
.50
.50
.70
.50
.70
.90
.70
.70
1.10
.70
.90
1.10
1.10
.90
.70
.70
.90
1.10
.90
.90
.90
.50
.90
.70
.70
1.10
1.10
.90
.90
.70
1.10
.70
.70
.70
.70
.70
.90
1.10
1.10
.50
.70
.70
1.10
.90
.90
10
11
11
12
11
12
12
13
11
11
12
10
10
11
13
11
11
13
13
12
11
12
15
12
11
15
13
13
13
12
9
14
13
12
11
11
11
13
13
11
13
12
10
17
11
13
13
13
10
12
CONCENTRATION DIRECTION DISTANCE(KM)
2.762135E-05
5.288978E-05
5.459450E-05
1.795694E-05
1.800550E-05
2.343393E-05
2.231942E-05
3. 694991 E- 05
2.368879E-05
2.409037E-05
1.701801E-05
2.395356E-05
4.293706E-05
3.061786E-05
2.618882E-05
2.206303E-05
2.479723E-05
3. 566791 E- 05
2.652648E-05
3.802110E-05
4.652241E-05
4.155755E-05
4.654904E-05
3.639092E-05
2.923880E-05
1.804947E-05
2.318201E-05
2.798914E-05
2.839822E-05
2.258794E-05
2.201503E-05
5.946580E-05
2.648522E-05
3.641381E-05
2.236664E-05
3.586921E-05
2.325281E-05
3.693072E-05
6.361766E-05
3.840073E-05
2.649806E-05
2. 856991 E- 05
1.511584E-05
2.642679E-05
2.016636E-05
3.794522E-05
7.137190E-05
5.837236E-05
3.665670E-05
2.037066E-05
10 .90
1
36
32
25
18
20
22
36
36
16
2
3
18
23
18
23
35
23
34
36
35
35
35
35
.10
.30
.30
.90
.30
.10
.70
.30
.10
.90
.30
.10
.10
.10
.10
.10
.30
.70
.30
.30
.30
.30
.30
.30
34 1.10
21 .90
36 1.30
36 1.30
31 .70
36 1.10
35 1.30
35 1.30
2 1.10
2 1.10
23 .90
1 1.30
35 1.10
36 1.30
34 .30
3 .10
15 .90
20 .10
16 .30
20 .70
2 .10
2 .30
36 .30
34 .30
30 .10
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
oo
en
MAX HOURLY
MAX 24-HOUR
DAY
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
RATIO
8.337
11.391
14.764
9.353
11.859
6.616
9.749
8.051
8.224
12.150
11.921
17.377
11.089
14.015
11.084
11.269
8.167
12.550
10.392
10.858
10.807
8.140
18.995
12.482
10.346
12.530
12.219
17.252
10.807
19.107
6.935
19.649
9.563
10.768
12.871
8.737
14.594
15.076
22.699
8.344
12.064
6.769
13.306
12.480
24.000
8.397
13.198
10.437
12.964
16.101
CONCENTRATION
2.291750E-04
2.635715E-04
2.308371E-04
2.362516E-04
2.420894E-04
2.720125E-04
2.409668E-04
2.642151E-04
2.555524E-04
2.680950E-04
2.539614E-04
1.762588E-04
2.306511E-04
2.161392E-04
2.432170E-04
2.526156E-04
2.425698E-04
2.364481E-04
2.543278E-04
2.480205E-04
2.583100E-04
1.696263E-04
1.762899E-04
2.489460E-04
2.438686E-04
2.180668E-04
2.523227E-04
1.785220E-04
2.203319E-04
7.350456E-05
1.585180E-04
2.027136E-04
2.376912E-04
2.362065E-04
2.288746E-04
2.510877E-04
2.578443E-04
2.159050E-04
2.389093E-04
2.361197E-04
2.250852E-04
2.555524E-04
2.322065E-04
2.399019E-04
2.105934E-04
2.143756E-04
2.765153E-04
2.509195E-04
2.434556E-04
2.549206E-04
DIRECTION
1
1
23
23
31
2
32
35
36
1
20
24
23
31
23
36
30
20
36
2
25
24
17
17
31
10
6
15
4
30
32
13
3
25
33
15
3
33
9
24
35
35
19
27
19
26
36
20
20
25
DISTANCE(KM)
.70
.70
1.10
1.10
.70
.70
.70
.90
.90
.70
.70
1.30
1.10
1.30
.70
.90
1.10
.90
.70
.70
.70
1.30
1.30
.70
.70
.90
.70
.90
.70
1.30
1.30
1.30
.70
1.10
.90
.70
.70
.90
.70
.50
1.30
.90
.90
.90
.90
1.10
.70
.50
.50
.70
HOUR
12
13
11
13
12
13
11
11
12
12
10
17
13
13
13
14
13
11
13
13
13
16
17
11
13
11
13
11
14
21
12
14
11
10
13
13
12
14
12
11
10
11
14
14
12
10
11
11
12
12
CONCENTRATION
2.748896E-05
2.313783E-05
1.563553E-05
2.525986E-05
2.041457E-05
4.111166E-05
2.471721E-05
3.281651E-05
3.107306E-05
2.206585E-05
2.130319E-05
1.014309E-05
2.079923E-05
1.542221E-05
2.194278E-05
2.241599E-05
2.970023E-05
1.884013E-05
2.447373E-05
2.284127E-05
2.390123E-05
2. 083881 E- 05
9.280842E-06
1.994518E-05
2.357209E-05
1.740323E-05
2.065006E-05
1.034793E-05
2.038742E-05
3.847008E-06
2.285738E-05
1.031660E-05
2.485640E-05
2.193548E-05
1.778275E-05
2.873960E-05
1.766767E-05
1.432086E-05
1.052527E-05
2.829970E-05
1.865787E-05
3.775087E-05
1.745082E-05
1.922286E-05
8.774833E-06
2.553058E-05
2.095145E-05
2.404185E-05
1.877887E-05
1.583256E-05
DIRECTION
36
1
23
23
2
35
34
35
36
36
23
24
23
24
23
25
22
19
18
2
24
23
33
17
22
7
6
25
13
30
32
13
24
3
6
16
35
22
9
23
36
1
26
27
19
35
1
20
31
13
DISTANCE(KM)
.90
.90
1.10
1.10
.90
1.30
1.30
1.30
1.30
1.30
1.10
1.30
1.10
1.30
.90
.90
.90
.90
1.30
.70
.70
1.30
1.30
.70
.90
1.30
.70
1.30
1.30
1.30
1.30
1.30
1.10
1.10
1.30
.90
1.10
1.10
.70
.90
1.30
1.30
1.30
.90
.90
1.30
1.30
.90
1.30
1.10
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cent.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
00
I
h-1
4^
MAX HOURLY
MAX 24-HOUR
DAY
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
?98
299
RATIO
18.
7.
7.
8.
15.
7.
19.
10.
7.
9.
6.
6.
10.
8.
8.
12.
7.
12.
12.
18.
17.
11.
9.
7.
10.
14.
13.
13.
11.
13.
10.
10.
12.
506
456
343
062
852
678
773
936
247
539
822
948
014
507
731
429
683
278
791
494
457
459
157
225
337
913
696
680
120
004
460
910
281
8.121
10.
15.
8.
17.
9.
14.
12.
12.
11.
6.
10.
11.
13.
5.
13.
900
002
437
915
742
485
017
640
537
501
130
255
848
081
258
12.278
CONCENTRATION DIRECTION
2.563670E-04
1.965136E-04
2.119534E-04
2.283085E-04
2.215303E-04
2.191844E-04
2. 364481 E- 04
2.416396E-04
2.227095E-04
2.555524E-04
1.943166E-04
1.792378E-04
2.196644E-04
2.309951E-04
2.159760E-04
1.962401E-04
2.017112E-04
2.362065E-04
1.877084E-04
1.799030E-04
2.088159E-04 .
2.492652E-04
1.578904E-04
1.257554E-04
1.970350E-04
1.856702E-04
2.097078E-04
1.904590E-04
2.081052E-04
1.888948E-04
1.986102E-04
2.038541E-04
2.238850E-04
1.943785E-04
2.166644E-04
2.027136E-04
1.740364E-04
1.895979E-04
1.935005E-04
2.116995E-04
1.976332E-04
2.009331E-04
1.963663E-04
1.959790E-04
1.986102E-04
2.015922E-04
2.050056E-04
1.745787E-04
2.099769E-04
2.186764E-04
30
3
34
26
23
21
25
20
25
33
34
2
15
18
24
18
3
27
21
28
24
31
32
31
4
16
12
12
18
11
21
16
36
23
21
21
5
4
24
21
24
15
22
24
24
25
23
15
16
25
DISTANCE (KM) HOUR
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
.90
.30
.30
.90
.90
.30
.90
.10
.90
.90
.10
.30
.90
.10
.90
.30
.30
.10
.10
.30
.90
.90
.30
.30
.30
1.30
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
.90
.10
.10
.10
.10
.10
.10
.30
.30
.30
.30
.10
.90
.90
.10
.90
.10
.90
.10
.10
.30
.30
.10
.10
12
13
9
12
11
11
12
12
13
15
14
15
12
13
14
10
16
12
9
14
11
15
18
15
13
8
12
14
13
12
11
14
14
13
15
13
14
13
12
11
11
10
11
11
11
12
14
6
10
12
CONCENTRATION DIRECTION DISTANCE(KM)
1
2
2
2
1
2
1
2
3
2
2
2
2
.385290E-05
.635810E-05
.886393E-05
.831982E-05
.397482E-05
.854614E-05
.195821E-05
.209654E-05
.072928E-05
. 67901 4E- 05
.848336E-05
.579585E-05
.193632E-05
2.715265E-05
2
1
2
1
1
9
1
2
1
1
1
1
1
1
1
1
1
1
1
2
1
1
2
1
1
1
1
1
1
3
1
1
1
3
1
1
.473575E-05
.578888E-05
.625470E-05
.923885E-05
.467510E-05
.727614E-06
.196185E-05
.175239E-05
.724222E-05
.740539E-05
.906200E-05
. 244981 E- 05
.531108E-05
.392216E-05
.871519E-05
.452583E-05
.898702E-05
.868435E-05
. 823071 E- 05
.393467E-05
.987748E-05
.351254E-05
.062692E-05
.058306E-05
.986259E-05
.461518E-05
.644614E-05
.589720E-05
.701996E-05
.01475 7E-05
.960683E-05
.791201E-05
.480443E-05
.436194E-05
.583725E-05
.780973E-05
33 1
3 1
34 1
20 1
21 1
24 1
21 1
20 1
23
35 1
34 1
34 1
1 1
18 1
20 1
16 1
3 1
24 1
17 1
16 1
26 1
21 1
33 1
31 1
4 1
11 1
21 1
22
18
36
21
17
24
22
21
21
4
24
25
21
27
24
12
24
23
25
23
15
20
18
.10
.30
.30
.30
.10
.10
.30
.10
.90
.30
.30
.30
.30
.10
.30
.30
.30
.10
.30
.30
.10
.30
.30
.30
.30
.10
.10
.30
.10
.30
.30
.10
.90
.30
.30
.10
.30
.30
.30
.10
.30
.30
.30
.30
.10
.30
.10
.30
.30
.30
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
oo
cn
i
MAX HOURLY
MAX 24-HOUR
DAY
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
RATIO CONCENTRATION
13.148 1.794491E-04
14.300 1.963663E-04
9.261 1.881939E-04
17.037 2.147980E-04
8.972 2.114408E-04
15.089 1.927619E-04
14.919
15.044
10.196
10.417
10.313
7.054
7.280
18.801
13.923
7.608
4.337
5.983
12.051
12.245
16.328
10.802
3.876
12.059
6.007
9.453
6.837
19.208
17.774
3.854
2.636
10.135
21.004
11.980
22.818
16.063
21.302
8.308
6.169
15.056
14.233
22.846
18.416
10.572
23.154
13.607
.845272E-04
.978708E-04
.123029E-04
.781222E-04
.752564E-04
.188101E-04
.854950E-04
.338785E-04
.637709E-04
.896669E-04
.777056E-04
.929933E-04
.044532E-04
.983903E-04
.434718E-04
.954408E-04
.764859E-04
.647928E-04
.848756E-04
.427340E-04
.540876E-04
.561491E-04
.803893E-05
.708447E-04
.786989E-04
.215405E-04
.300728E-04
.013153E-04
.568437E-04
.200501E-05
.364150E-04
.777317E-04
.688049E-04
.2152066-04
.020649E-04
.033638E-04
.111688E-04
.834735E-04
.473523E-04
.472995E-04
7.765 1.806061E-04
19.774 1.137415E-04
17.063 1.028356E-04
12.811 1.699564E-04
DIRECTION DISTANCE (KM)
25
25
23
23
23
18
2
12
26
15
26
1
14
19
23
4
1
4
22
22
22
1
17
26
3
14
18
26
36
14
15
17
14
21
12
27
33
1
14
14
21
1
23
24
28
6
15
20
2
9
.10
.10
.10
.90
.30
.10
.30
.10
.30
.10
.10
.70
.30
.30
.30
.30
.30
.30
.30
.90
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
HOUR
10
12
11
11
15
10
8
11
15
11
12
12
5
15
14
12
15
12
12
11
14
15
12
14
9
11
13
14
24
24
11
1
9
10
14
13
10
15
20
9
11
9
12
11
11
22
11
13
11
11
CONCENTRATION
1.364875E-05
1.373145E-05
2.032113E-05
1.260737E-05
2.356719E-05
1.277531E-05
1.236892E-05
1.315249E-05
2.082126E-05
1.709977E-05
1.699406E-05
3.101817E-05
2.547925E-05
7.120910E-06
1.176251E-05
2.492974E-05
4.097511E-05
3.225804E-05
1.696534E-05
1.620200E-05
8.786942E-06
1.809302E-05
4.553319E-05
1.366528E-05
3.077527E-05
1.509938E-05
2.253892E-05
8.129391E-06
4.953256E-06
4.432717E-05
6.778820E-05
1.199234E-05
6.192658E-06
8.457327E-06
6.873594E-06
1.992517E-06
6.403926E-06
2.139182E-05
2.736349E-05
8.071343E-06
7.170809E-06
4.524453E-06
6.036689E-06
1.735536E-05
6.363889E-06
1.082548E-05
2.325816E-05
5.751992E-06
6.026974E-06
1.326636E-05
DIRECTION DISTANCE(KM)
25
24
22
25
23
22
16
18
26
22
23
1
14
23
24
1
1
T
21
22
.10
.10
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.10
31 1.30
3 1.30
15 1.30
26 1.30
3 1.10
13 1.30
15 1.30
22 1:30
36 1.30
15 .30
15 .30
17 .30
19 .30
19 .30
12 1.30
21 1.30
18 1.30
33 .30
14 .30
18 .30
22 .30
22 .30
2 .30
2 .30
28 .30
2 .30
16 .30
11 .30
25 .30
16 .30
-------�
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RIMGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
MAX HOURLY
MAX 24-HOUR
DAY
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
RATIO CONCENTRATION
23.761 1.094758E-04
22.716 1.181741E-04
15.374 1.111530E-04
19.313 1.251454E-04
15.675 1.744899E-04
9.010 1.062693E-04
8.098 1. 09431 1E-04
16.813 1.135398E-04
23.453 9.401183E-05
20.052 5.009686E-05
12.284
12.757
9.696
17.525
18.530
21.601
.808848E-05
.829103E-04
.704555E-04
.023109E-04
.824605E-04
.615292E-04
DIRECTION DISTANCE(KM)
25 1.30
13 1.30
20
2
28
24
15
22
23
11
18
16
15
32
11
4
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.10
.30
.30
.30
HOUR
10
9
11
9
14
12
14
14
13
16
16
24
1
11
10
10
CONCENTRATION
4.607394E-06
5.202206E-06
7.230150E-06
6.479821E-06
1.113191E-05
1.179440E-05
1.351348E-05
6.753088E-06
4.008521E-06
2.498349E-06
1.472484E-06
1.433784E-05
1. 75805 7E- 05
5.837989E-06
9.846974E-06
7.477855E-06
DIRECTION DISTANCE (KM)
25
27
34
24
28
24
15
22
23
16
12
20
15
29
12
4
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
.30
oo
en
i
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
MAXIMUM MEAN CONC= 7.0890E-06 DIRECTION= 36 DISTANCE= 1.3 KM # OF CALMS FOR THE PERIOD:
32
oo
en
i
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
ANNUAL MEAN CONCENTRATION AT EACH RECEPTOR
RANGE .5 KM .7 KM .9 KM 1.1 KM
1.3 KM
1.43119E-06 C
1.30338E-06 C
1.09508E-06 C
7.53169E-07 C
5.63624E-07 C
4.11309E-07 C
3.22334E-07 C
2.99080E-07 C
3.05897E-07 C
3.08809E-07 C
3.50138E-07 C
5.36338E-07 C
7.31801E-07 C
8.17102E-07 C
7.27914E-07 C
7.02733E-07 C
7.62298E-07 C
9.22331E-07 C
1.00991E-06 C
1.16075E-06 C
1.37306E-06 C
1.55344E-06 C
1.63436E-06 C
1.49503E-06 C
1.11741E-06 C
7.70587E-07 C
6.01706E-07 C
4.94496E-07 C
4.67641E-07 C
5.43022E-07 C
6.10289E-07 C
6.80631E-07 C
8.17519E-07 C
9.77727E-07 C
1.38864E-06 C
1.58704E-06 C
3.32499E-06 C
2.99603E-06 C
2.52197E-06 C
1.76796E-06 C
1.33649E-06 C
1.02884E-06 C
7.60457E-07 C
6.56411E-07 C
6.68964E-07 C
7.04516E-07 C
8.46687E-07 C
1.32780E-06 C
1.84329E-06 C
2.12066E-06 C
1.90681E-06 C
1.74420E-06 C
1.83528E-06 C
2.17723E-06 C
2.25029E-06 C
2.47736E-06 C
2.92884E-06 C
3.35516E-06 C
3.61376E-06 C
3.40065E-06 C
2.52124E-06 C
.71940E-06 C
.35960E-06 C
.11323E-06 C
.03899E-06 C
.18019E-06 C
.33315E-06 C
.51559E-06 C
.85668E-06 C
2.25060E-06 C
3.24072E-06 C
3.72814E-06 C
4.83695E-06 C
4.33668E-06 C
3.57509E-06 C
2.55664E-06 C
1.95712E-06 C
1.52324E-06 C
1.07332E-06 C
8.68596E-07 C
8.68712E-07 C
9.27063E-07 C
1.15618E-06 C
1.83614E-06 C
2.59807E-06 C
3.07268E-06 C
2.75178E-06 C
2.40035E-06 C
2.46534E-06 C
2.88387E-06 C
2.89003E-06 C
3.09892E-06 C
3.65504E-06 C
4.20902E-06 C
4.58445E-06 C
4.39546E-06 C
3.22577E-06 C
2.19472E-06 C
.75991E-06 C
.43215E-06 C
.33358E-06 C
.50847E-06 C
.73332E-06 C
2.00749E-06 C
2.54550E-06 C
3.14796E-06 C
4.65255E-06 C
5.44785E-06 C
5.75992E-06 C
5.15141E-06 C
4.17009E-06 C
3.06387E-06 C
2.42036E-06 C
.92515E-06 C
.33850E-06 C
.04124E-06 C
.01972E-06 C
.07959E-06 C
.36897E-06 C
2.13536E-06 C
3.01279E-06 C
3.59876E-06 C
3.21842E-06 C
2.74080E-06 C
2.78304E-06 C
3.23462E-06 C
3.18835E-06 C
3.34045E-06 C
3.92703E-06 C
4.53663E-06 C
4.95354E-06 C
4.80298E-06 C
3.50528E-06 C
2.39309E-06 C
1.94316E-06 C
1.57933E-06 C
1.47456E-06 C
1.67363E-06 C
1.96212E-06 C
2.29299E-06 C
2.96567E-06 C
3.72205E-06 C
5.56796E-06 C
6.56101E-06 C
6.14606E-06 C
5.50035E-06 C
4.39953E-06 C
3.31814E-06 C
2.71875E-06 C
2.21303E-06 C
.54316E-06 C
.17410E-06 C
.12711E-06 C
.16926E-06 C
.49136E-06 C
2.26654E-06 C
3.16118E-06 C
3.78131E-06 C
3.37910E-06 C
2.84415E-06 C
2.86932E-06 C
3.32773E-06 C
3.25087E-06 C
3.33748E-06 C
3.91450E-06 C
4.53760E-06 C
4.95414E-06 C
4.83989E-06 C
3.52646E-06 C
2.41738E-06 C
1.98136E-06 C
1.61321E-06 C
1.51026E-06 C
1.72374E-06 C
2.05709E-06 C
2.41248E-06 C
3.14972E-06 C
3.99626E-06 C
6.00846E-06 C
7.08897E-06 C
-------�
oo
en
i
oo
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RINGS 1-5) (coot.)
PLANT NAME: CRSTER CLASS' EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY MAXIMUM 24-HOUR CONC= 7.1372E-05 OIRECTION= 2 DISTANCE= 1.3 KM OAY=196
HIGHEST 24-HOUR CONCENTP«TtON AT
RANGE .5 KM .7 KM
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
2.9645E-05
2.5344E-05
2.3496E-05
1.9858E-05
2.0601E-05
1.2825E-05
1.0498E-05
1.1836E-05
1.0642E-05
1.3052E-05
8.0688E-06
1.3413E-05
1.4559E-05
2.9481E-05
1.3408E-05
1.5659E-05
1.4670E-05
1.5141E-05
1.4258E-05
1.5749E-05
2.4285E-05
2.5616E-05
2.1366E-05
1.5738E-05
1.3419E-05
1.1818E-05
1.2365E-05
1.1396E-05
9.1425E-06
9.6984E-06
1.5327E-05
1.2762E-05
1.1720E-05
1.3012E-05
1.6422E-05
2.3840E-05
(151)
(151)
(196)
(108)
(195)
(130)
(143)
(122)
(150)
(150)
(146)
(146)
(146)
(136)
(235)
(235)
(223)
(145)
(145)
(147)
(157)
(157)
(168)
(239)
(220)
(154)
(154)
(143)
(127)
(141)
(179)
(189)
(205)
(183)
(125)
(125)
4.5019E-05
4.6553E-05
4.5532E-05
3.0683E-05
3.2158E-05
2.0708E-05
.2387E-05
.6370E-05
.9808E-05
2.4421E-05
.2198E-05
.4464E-05
2.8791E-05
5.4718E-05
2.7444E-05
2.8104E-05
2.4037E-05
2.1976E-05
2.0914E-05
2.6016E-05
3.2034E-05
3.6950E-05
3.1402E-05
2.5883E-05
2.1983E-05
1.B402E-05
1.6814E-05
1.6982E-05
1.8213E-05
1.6528E-05
2.2588E-05
2.1433E-05
1.9948E-05
2.4565E-05
3.1269E-05
4.3362E-05
(151)
(196)
(196)
(108)
(195)
(130)
(130)
(122)
(150)
(150)
(150)
(146)
(136)
(136)
(330)
(235)
(235)
(105) C
(247)
(147)
(157)
(157)
(185)
(141)
(215)
(215)
(243)
(127)
(123)
(127)
(179)
(189)
(171)
(189)
(181)
(125)
EACH RECEPTOR
.9 KM
5.2296E-05
6.3966E-05
5.7729E-05
3.6207E-05
3.6806E-05
2.2027E-05
1.5903E-05
1.3825E-05
2.2970E-05
2.7621E-05
1.3666E-05
2.2435E-05
3.7051E-05
6.6472E-05
4.95B4E-05
2.8740E-05
2.8187E-05
2.8511E-05
2.3856E-05
2.5806E-05
3.02Q7E-05
3.3777E-05
3.5869E-05
2.7810E-05
2.2416E-05
1.9983E-05
1.9223E-05
2.0687E-05
2.0853E-05
1.9207E-05
2.2398E-05
2.4103E-05
2.5675E-05
3.3080E-05
4.6819E-05
5.7042E-05
(151)
(196)
(196)
(108)
(195)
(130)
(130)
(122)
(150)
(150)
(225)
( 93)
(136)
(136)
(330)
(235)
(235)
(163)
(135)
(147)
(148)
(157)
(185)
(258)
(215)
( 92)
(243)
(127)
(123)
(199)
(179)
(189)
(171)
(189)
(181)
(188)
5
7
6
3
3
2
1
1
2
2
1
2
1.1
.2890E-05
.1091E-05
.0860E-05
.7310E-05
.7205E-05
.0509E-05
.6696E-05
.1572E-05
.2763E-05
.6377E-05
.4803E-05
.7932E-05
3.9704E-05
6
6
2
2
3
2
2
2
2
3
2
2
2
1
2
2
2
1
2
2
3
5
6
.7613E-05
.2793E-05
.7583E-05
.8498E-05
.0618E-05
.4609E-05
.6897E-05
.8459E-05
.9904E-05
.4322E-05
.8546E-05
.3316E-05
.2602E-05
.8078E-05
.1390E-05
.0472E-05
.0371E-05
.9847E-05
.3537E-05
.7774E-05
.7413E-05
.6042E-05
.3190E-05
KM
(151)
(196)
(196)
(108)
(195)
(130)
(130)
(130)
(150)
(150)
(262)
( 93)
(136)
(136)
(330)
(191)
(235)
(163)
(135)
(253)
(148)
(148)
(185)
(255)
(144)
( 92)
(243)
(127)
(123)
(199)
(179)
(189)
(171)
(189)
(181)
(188)
1.3
5.0056E-05
7.1372E-05
5.8956E-05
3.5870E-05
3.5346E-05
1.8155E-05
1.7403E-05
1.1533E-05
2.1102E-05
2.3557E-05
1.5323E-05
2.9783E-05
3.9076E-05
6.3756E-05
6.7788E-05
2.6578E-05
2.6882E-05
2.9670E-05
2.2905E-05
2.8320E-05
2.5852E-05
2.5622E-05
3.0624E-05
3.0148E-05
2.2224E-05
2.2559E-05
1.6446E-05
2.0385E-05
1.8803E-05
1.9409E-05
2.1043E-05
2.2857E-05
2.7524E-05
3.8401E-05
5.9466E-05
6.3618E-05
KM
(151)
(196)
(196)
(108)
(195)
(130)
(225)
(130)
(150)
(150)
(262)
( 93)
(136)
(136)
(330)
(191)
(235)
(163)
(135)
(253)
(148)
(148)
(185)
(293)
(144)
( 92)
(290)
(127)
(123)
(199)
(172)
(230)
(171)
(189)
(181)
(188)
-------�
00
On
I
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY SECOND MAXIMUM 24-HOUR.CONC= 6.1298E-05 DIRECTION= 14 DISTANCE= 1.3 KM DAY= 93
SECOND HIGHEST 24- HOUR CONCENTRATION AT EACH RECEPTOR
RANGE .5 KM .7 KM .9 KM
DIR
1 1.9251E-05 (162)
2 2.1781E-05 (196)
3
it
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
.5596E-05 (151)
.6690E-05 (195)
.8613E-05 (120)
.0973E-05 (226)
.7963E-06 (122)
.3727E-06 (143)
.0180E-05 (122)
.1851E-06 (145)
.7613E-06 (103)
.0108E-05 (132)
.4448E-05 (136)
.5278E-05 (139)
.2525E-05 (191)
.1052E-05 (223)
.1982E-05 (235)
.2730E-05 (223)
.4148E-05 (247)
.5570E-05 (247)
.6111E-05 (148)
.9445E-05 (168)
.6244E-05 (185)
.4697E-05 (141)
.3360E-05 (176)
.1446E-05 (215)
.0336E-05 (143)
28 8.2218E-06 (154)
29 8.8592E-06 (123)
30 9.2453E-06 (115)
31 9.1918E-06 (141)
32 .2734E-05 (179)
33 .0365E-05 (169)
34 .2749E-05 (170)
35 .4496E-05 (128)
36 .9917E-05 (188)
3.3688E-05 (152)
3.6333E-05 (151)
2.9083E-05 (162)
2.7926E-05 (195)
2.4796E-05 (120)
2.0650E-05 (226)
1.2010E-05 (226)
9.1653E-06 (147)
1.3948E-05 (122)
1.0737E-05 (145)
1.1434E-05 (103)
1.3656E-05 (132)
1.8336E-05 (131)
2.6970E-05 ( 93)
2.4267E-05 (191)
2.0660E-05 (191)
1.9945E-05 (223)
2.1103E-05 (163)
1.8909E-05 (147)
2.3454E-05 (247)
2.8969E-05 (148)
3.1964E-05 (148)
2.6570E-05 (239)
2.3901E-05 (220)
2.0356E-05 (220)
.7696E-05 (154)
.5815E-05 (154)
.3994E-05 (143)
.8133E-05 (127)
.5448E-05 (175)
.3251E-05 (208)
.9185E-05 (179)
.8423E-05 (173)
2.3480E-05 (183)
2.9985E-05 (188)
4.2363E-05 (188)
4.4622E-05 (152)
3.9882E-05 (151)
3.9558E-05 (162)
3.3998E-05 (195)
2.5010E-05 (120)
1.8464E-05 (226)
1.2943E-05 (225)
1.0380E-05 (130)
1.3843E-05 (274)
1.3119E-05 (243)
1.2672E-05 (262)
1.9282E-05 (130)
2.9458E-05 ( 93)
4.7137E-05 ( 93)
3.1998E-05 (329)
2.6232E-05 (191)
2.1748E-05 (185)
2.7995E-05 (105) C
2.3146E-05 (142)
2.4267E-05 (164)
2.6075E-05 (157)
3.3169E-05 (148)
3.0729E-05 (258)
2.5539E-05 (255)
2.2124E-05 (144)
1.8288E-05 (215)
.5291E-05 (215)
.6946E-05 (123)
.8791E-05 (127)
.8033E-05 (179)
.5781E-05 (172)
.9913E-05 (113)
2.3090E-05 (173)
3.0935E-05 (198)
4.2849E-05 (188)
5.2925E-05 (125)
1.1 KM
4.8253E-05 (152)
4.1670E-05 (120)
4.2937E-05 (162)
3.5873E-05 (195)
2.3409E-05 (141)
.7120E-05 (234)
.5753E-05 (225)
.1069E-05 (122)
.7411E-05 (274)
.4887E-05 (243)
.4544E-05 (225)
2.1750E-05 (130)
3.5601E-05 ( 93)
5.8018E-05 ( 93)
4.0856E-05 (329)
2.5958E-05 (235)
2.3637E-05 (191)
2.9501E-05 (105) C
2.3912E-05 (142)
2.6043E-05 (164)
2.4284E-05 (191)
2.9539E-05 (157)
2.9715E-05 (258)
2.8242E-05 (293)
1.9650E-05 (215)
.9449E-05 (308)
.5492E-05 (290)
.7070E-05 (123)
.8090E-05 (199)
.9048E-05 (179)
.9623E-05 (172)
2.1948E-05 (113)
2.6479E-05 (197)
3.5713E-05 (198)
4.9479E-05 (188)
5.4974E-05 (125)
1.3 KM
4.7407E-05 (152)
4.4438E-05 (120)
4.2193E-05 (162)
3.5193E-05 (195)
2.5647E-05 (141)
.7783E-05 (234)
.6003E-05 (130)
8.8353E-06 (122)
.8976E-05 (274)
.5178E-05 (243)
.3872E-05 (225)
2.1912E-05 (130)
3.7245E-05 ( 93)
6.1298E-05 ( 93)
4.5533E-05 (322)
2.6427E-05 (193)
2.6628E-05 (191)
2.8584E-05 (105)
2.2646E-05 ( 68)
2.6148E-05 (164)
2.4665E-05 (263)
2.5567E-05 (157)
2.7150E-05 ( 18)
2.8425E-05 (255)
1.9863E-05 (288)
2.0821E-05 (308)
.5797E-05 (243)
.5822E-05 (123)
.7489E-05 (199)
.8903E-05 (179)
.8779E-05 (248)
2.2172E-05 (113)
2.7327E-05 (197)
3.8021E-05 (169)
5.1266E-05 (188)
5.8372E-05 (197)
-------�
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RINGS 1-5) (cent.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY MAXIMUM 8-HOUR CONC= 1.3816E-04 DIRECTION= 36 OISTANCE= 1.1 KM DAY=188 TIME PERIOD= 2
oo
tn
K)
O
HIGHEST 8-HOUR CONCENTRATION AT EACH
RANGE .5 KM .7 KM
OIR
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
7.9920E-05
6.9867E-05
5.5310E-05
5.8084E-05
5.9600E-05
3.7910E-05
3.1209E-05
3.5509E-05
3.0517E-05
3.0708E-05
2.4206E-05
4.0238E-05
4.3677E-05
7.1126E-05
4.0135E-05
4.5653E-05
4.4011E-05
4.5424E-05
4.2769E-05
4.6728E-05
7.0722E-05
7.1183E-05
6.4099E-05
4.7169E-05
4.0257E-05
3.5453E-05
3.7095E-05
3.4188E-05
2.7280E-05
2.9095E-05
4.5794E-05
3.7901E-05
3.5131E-05
3.8242E-05
4.6967E-05
6.3333E-05
(151.
(151.
(196,
(108.
(195,
(130,
(143,
(122,
(122,
(150,
(146.
(146,
(146,
(136,
(235,
(235.
(223,
(145,
(145,
(147,
(157,
(157,
(168,
(239,
(220,
(154.
(154,
(143.
(127,
(141,
(179,
(179,
(205,
(170,
(125,
(125,
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
1.0272E-04 (151, 2)
9.0091E-05 (196, 2)
7.9771E-05 (196, 2)
8.5301E-05 (108, 2)
8.6417E-05 (195, 2)
6.1294E-05 (226, 2)
3.4973E-05 (226, 2)
4.9109E-05 (122, 2)
5.4854E-05 (150, 2)
5.2211E-05 (150, 2)
3.1144E-05 (103, 2)
4.3391E-05 (146, 2)
5.4058E-05 (129, 2)
1.0938E-04 (136, 2)
6.9197E-05 (191, 2)
7.9709E-05 (235. 2)
6.2718E-05 (235. 2)
6.2933E-05 (163. 2)
6.2720E-05 (247, 2)
7.6268E-05 (147. 2)
9.0488E-05 (157, 2)
9.4086E-05 (157, 2)
9.3099E-05 (185, 2)
7.7648E-05 (141, 2)
6.5948E-05 (215, 2)
5.5207E-05 (215, 2)
5.0441E-05 (243, 2)
4.5515E-05 (127, 2)
5.4640E-05 (123, 2)
4.9524E-05 (127, 2)
6.7140E-05 (179, 2)
5.9059E-05 (189. 2)
5.2081E-05 (205, 2)
6.2042E-05 (170, 2)
7.6448E-05 (172, 2)
1.1067E-04 (188, 2)
RECEPTOR
.9
1.0500E-04
1.0385E-04
7.8628E-05
9.6794E-05
9.0973E-05
6.2365E-05
3.4631E-05
4.1476E-05
6.3490E-05
5.5239E-05
3.5317E-05
6.6195E-05
6.1115E-05
1.1851E-04
7.8264E-05
7.8711E-05
6.8210E-05
8.5062E-05
6.5452E-05
7.4191E-05
7.0713E-05
8.9101E-05
1.0616E-04
8.2821E-05
6.7248E-05
5.9949E-05
5.7669E-05
5.2339E-05
6.2558E-05
5.6370E-05
6.6129E-05
6.2364E-05
5.7551E-05
6.4206E-05
1.0101E-04
1.3550E-04
KM
(151,
(196,
(196,
(108,
(195,
(130,
(130,
(122,
(150.
(150,
(225,
( 93,
(129,
(136,
(191,
(235,
(235,
(163,
(142,
(147,
(157,
(216,
(185,
(258,
(215,
< 92,
(243,
(127,
(123.
(199,
(179,
(189,
(173,
(168,
(117,
(188,
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
3)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
1.1
9.8162E-05
1.0273E-04
7.9494E-05
9.7184E-05
8.5960E-05
5.7209E-05
3.4030E-05
3.4631E-05
6.3018E-05
5.0095E-05
3.8461E-05
8.2704E-05
6.1848E-05
1.1294E-04
7.5027E-05
7.3980E-05
6.4253E-05
9.1303E-05
6.5437E-05
7.4044E-05
7.0248E-05
7.9731E-05
1.0148E-04
8.5638E-05
6.9941E-05
6.7806E-05
5.4235E-05
5.1211E-05
6.1415E-05
5.9696E-05
5.8042E-05
6.4156E-05
5.7547E-05
6.5223E-05
1.1120E-04
1.3816E-04
KM
(151. 2)
(196. 2)
(190. 2)
(108, 2)
(195, 2)
(130, 2)
(130, 2)
(130. 2)
(150. 2)
(150, 2)
(225, 2)
( 93, 3)
( 31, 1)
(136, 2)
(191, 2)
(191, 2)
(235, 2)
(163, 2)
(142, 2)
(264, 2)
(91, 2)
(216, 2)
(185, 2)
(255, 2)
(144, 2)
( 92, 2)
(243, 2)
(123, 2)
(123, 2)
(199, 2)
(179, 2)
(113, 2)
(197, 2)
(168, 2)
(117, 2)
(188. 2)
1.3
8.8422E-05
9.5247E-05
8.0358E-05
9.1836E-05
7.7741E-05
5.0115E-05
3.1083E-05
3.4527E-05
5.8587E-05
4.2951E-05
3.7270E-05
8.8372E-05
7.4354E-05
1.1471E-04
7.6632E-05
7.0148E-05
6.0169E-05
8.8395E-05
6.7938E-05
7.4196E-05
7.1578E-05
7.3116E-05
9.0523E-05
9.0289E-05
6.6666E-05
6.7677E-05
4.9150E-05
4.7466E-05
5.6408E-05
5.6817E-05
4.9085E-05
6.8570E-05
5.9779E-05
6.1825E-05
1.1033E-04
1.3016E-04
KM
(151, 2)
(196, 2)
(196, 1)
(108, 2)
(195, 2)
(130, 2)
(130, 2)
(130, 2)
(150, 2)
(150, 2)
(225, 2)
( 93, 3)
( 31. 1)
( 93, 2)
(330, 2)
(191, 2)
(185, 2)
(163, 2)
( 68, 2)
(264, 2)
( 91, 2)
( 51, 2)
(185, 2)
(293, 2)
(144, 2)
( 92, 2)
(290, 2)
(123. 2)
(123, 2)
(199, 2)
(179, 2)
(230, 2)
(209, 2)
(260, 2)
(117, 2)
(188, 2)
-------�
00
u-<
I
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (coot.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY SECOND MAXIMUM 8-HOUR CONC= 1.0798E-04 DIRECTION= 14 DISTANCE= 1.1 KM DAY= 93 TIME PERIOD= 2
SECOND HIGHEST 8- HOUR CONCENTRATION
RANGE .5 KM .7 KM
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
5.1433E-05 (162, 2)
5.6250E-05 (219, 2)
4.5577E-05 (151, 2)
4.2229E-05 (195, 2)
5.5833E-05 (120, 2)
3.2790E-05 (226, 2)
2.3367E-05 (122, 2)
2.8026E-05 (143, 2)
2.9838E-05 (150, 2)
2.4555E-05 (145, 2)
2.2880E-05 (103, 2)
3.0274E-05 (132, 2)
3.8725E-05 (132, 2)
4.5493E-05 (139, 2)
3.6974E-05 (191, 2)
3.3156E-05 (223, 2)
3.3973E-05 (145, 2)
3.8189E-05 (223, 2)
4.2438E-05 (247, 2)
4.6709E-05 (247, 2)
4.7283E-05 (147, 2)
5.8336E-05 (168, 2)
4.8335E-05 (185, 2)
4.4090E-05 (141, 2)
3.9937E-05 (176, 2)
3.4337E-05 (215, 2)
3.1007E-05 (143, 2)
2.4665E-05 (154, 2)
2.6578E-05 (123, 2)
2.7736E-05 (115, 2)
2.7575E-05 (141, 2)
3.7143E-05 (189, 2)
3.1076E-05 (170, 2)
3.5674E-05 (183, 2)
4.1040E-05 (128, 2)
5.6785E-05 (188, 2)
7.0897E-05
8.6693E-05
6.3255E-05
5.4326E-05
7.4369E-05
5.9850E-05
3.1476E-05
2.7424E-05
4.1737E-05
3.2211E-05
2.8992E-05
4.0730E-05
5.3308E-05
6.2848E-05
6.3506E-05
5.8503E-05
5.9836E-05
6.2222E-05
5.6533E-05
7.0362E-05
6.9531E-05
8.4271E-05
7.9579E-05
7.1704E-05
6.1067E-05
5.3087E-05
4.7446E-05
4.1983E-05
5.3861E-05
4.6219E-05
3.9753E-05
5.7039E-05
4.9670E-05
5.7781E-05
7.6116E-05
9.6590E-05
(162,
(151,
(190,
(195,
(120,
(130,
(126,
(147,
(122.
(145.
(150.
(132.
(146.
(139,
(235,
(191,
(223,
(105,
(147,
(247,
(148,
(216,
(168,
(220,
(220,
(154,
(154,
(143,
(127,
(123,
(208,
(126,
(173,
(205,
(188,
(125,
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
AT EACH RECEPTOR
.9 KM
7.2127E-05
8.4034E-05
7.7550E-05
5.6323E-05
7.5010E-05
5.4122E-05
3.1391E-05
3.1055E-05
3.6417E-05
3.5650E-05
3.3287E-05
5.7095E-05
5.5704E-05
8.7092E-05
6.3438E-05
7.1992E-05
6.2433E-05
7.8091E-05
6.1153E-05
7.2125E-05
6.9275E-05
7.6603E-05
9.2187E-05
7.6617E-05
6.6364E-05
5.4863E-05
4.5873E-05
5.0838E-05
5.5613E-05
5.0331E-05
4.1366E-05
5.8969E-05
5.4092E-05
6.2131E-05
9.7441E-05
1.0105E-04
(162, 2)
(151. 2)
(190. 2)
(317. 2)
(120, 2)
(226, 2)
(126, 2)
(130, 2)
(274, 2)
(225. 2)
(275, 2)
(130, 3)
(136, 1)
( 93, 2)
(330, 2)
(191. 2)
(185. 2)
(105, 2)
(247. 2)
(247. 2)
(148, 2)
(157, 2)
(258, 2)
(255, 2)
(144, 2)
(215, 2)
(215, 2)
(123. 2)
(127. 2)
(138, 2)
(208, 2)
(113, 2)
(197, 2)
(205, 2)
(188, 2)
(125, 2)
1.1
7.0639E-05
8.0483E-05
7.9431E-05
6.3189E-05
6.8971E-05
4.3699E-05
2.7580E-05
3.3206E-05
4.3973E-05
3.6319E-05
3.7349E-05
6.4190E-05
6.1535E-05
1.0798E-04
7.4627E-05
7.0247E-05
6.4154E-05
8.0812E-05
6.3567E-05
6.7758E-05
6.4976E-05
6.9609E-05
8.9144E-05
8.4617E-05
5.8950E-05
5.8348E-05
4.6272E-05
5.1150E-05
5.1144E-05
4.7853E-05
3.7899E-05
5.8609E-05
5.6712E-05
6.1104E-05
1.0223E-04
9.3568E-05
KM
(120,
(114,
(196.
(317.
(120,
(234,
(126,
(122,
(274,
(225,
(275,
(130,
(136,
( 93,
(330,
(193,
(185,
(105,
(137.
(247,
(271,
(239,
(258,
(293,
(215,
(308.
(290,
(127.
(127,
(138,
(176,
(230,
(173,
(260,
(188,
(125.
3)
2)
1)
2)
2)
2)
2)
2)
2)
2)
2)
3)
1)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
2)
3)
2)
2)
2)
2)
2)
1.3
7.3679E-05
7.6953E-05
7.7041E-05
6.3031E-05
6.1173E-05
4.2147E-05
3.0282E-05
2.6506E-05
4.6285E-05
3.3434E-05
3.7032E-05
6.4401E-05
6.5877E-05
1.0216E-04
6.8643E-05
6.9750E-05
5.8250E-05
7.6883E-05
6.1870E-05
6.3104E-05
6.5315E-05
7.1804E-05
8.1449E-05
8.5276E-05
5.5365E-05
6.2464E-05
4.7391E-05
4.6326E-05
4.5283E-05
4.6432E-05
4.3888E-05
6.3664E-05
5.5959E-05
6.0948E-05
9.8003E-05
8.9512E-05
KM
(120, 3)
(195, 3)
(324, 2)
(317, 2)
(120, 2)
(234. 2)
(300, 2)
(122, 2)
(274, 2)
(225, 2)
(275, 2)
(130, 3)
(50, 1)
(136, 2)
(329, 3)
(346, 2)
(210, 2)
(105, 2)
(137, 2)
(257, 2)
(263. 1)
(283, 2)
( 18, 2)
(255, 2)
(288, 2)
(308, 2)
(243, 2)
(127, 2)
(159, 2)
(203. 2)
(273, 2)
(113, 2)
(197, 2)
(168, 2)
(188, 2)
(114, 3)
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
00
ui
i
P!*NT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
VL. .. vXIMUM 3-HOUR CONC= 2.1227E-04 OIRECTION= 5 DISTANCE= .7 KM DAY=195 TIME PERIOD= 4
HIGHEST 3-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE .5
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
.9442E-04
.4611E-04
.4634E-04
.3976E-04
.5516E-04
8.7439E-05
8.3225E-05
9.3933E-05
8.1325E-05
7.9889E-05
6.0419E-05
8.3415E-05
1.0327E-04
1.4145E-04
1.0^'F 04
l.liy&t. 04
1.1678E-04
1.0179E-04
9.7613E-05
9.8873E-05
1.2637E-04
1.4036E-04
1.4781E-04
1.0958E-04
9.9338E-05
7.8395E-05
8.P' ^5
7. 6
5.bcJj£-05
7.7587E-05
7.3532E-05
7.72V5E-05
9.36?'jP 05
9.5588E-05
1.1710E-04
1.1430E-04
KM
(151,
(151.
(196.
(108,
(195,
(226,
(143.
(122,
(122.
(150.
(146.
(146.
(132.
(136.
(235,
(235,
(223,
(223,
(176,
(194,
(157.
(157,
(168,
(239,
(239,
(176,
(154.
(143,
(123.
(141.
(141,
(126,
(205,
(170,
(125,
(187.
.7
4) 2.1161E-04
4) 1.5529E-04
4) 2.1095E-04
4) 1.6817E-04
4) 2.1227E-04
5) 1.6345E-04
5) 9.3262E-05
4) 1.2913E-04
4) 1.2030E-04
5) 1.3465E-04
4) 7.0802E-05
4)
4)
4)
5)
5)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
.0861E-04
.34566-04
.7208E-04
. 8091 E- 04
.9224E-04
.5926E-04
. 3981 E- 04
.2181E-04
.3737E-04
.4312E-04
.6333E-04
.6130E-04
.4594E-04
.2247E-04
. 0361 E- 04
4) 8.5084E-05
4) 7.9546E-05
4) 9.6047E-05
4) .1005E-04
4) .0346E-04
4) .5208E-04
4) .3880E-04
4) .4110E-04
4) .7645E-04
4) .7409E-04
KM
(151.
(151,
(196.
(108.
(195,
(226,
(226,
(122.
(150.
(150.
(116.
(132,
(132.
(136.
(191.
(235,
(223,
(105,
(176.
(186,
(138,
(224,
(216,
(141,
(239,
(137,
(253,
(127,
(123.
(138,
(126,
(126,
(205,
(205.
(125,
(187,
.9 KM
4) 1.8215E-04 (151,
4) 1.4206E-04 (114,
4) 2.0780E-04 (196,
4) 1.5949E-04 (108,
4) 2.0676E-04 (195,
5) 1.4432E-04 (226,
5) 7.6222E-05 (226.
4)
5)
5)
4)
4)
4)
4)
4)
5)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
4)
4)
4) <
5)
4) 1
4)
4)
4)
4)
4)
.0860E-04 (122,
.2512E-04 (150.
.4119E-04 (150,
J.8766E-05 (275,
.0210E-04 (150,
.4600E-04 ( 92,
.5668E-04 (136,
'.0275E-04 (191.
.8642E-04 (235,
.1613E-04 (105.
.6427E-04 (105,
.3727E-04 (137,
.4841E-04 (186,
.3039E-04 (103,
.6180E-04 (216,
.7690E-04 (216,
.7347E-04 (232,
.2294E-04 (137,
.2247E-04 (137,
.0070E-04 (216,
.0247E-04 (157,
>.3543E-05 (123,
.3070E-04 (138,
J.5475E-05 (248,
.4131E-04 (113,
.3244E-04 (205,
.5213E-04 (198,
.8866E-04 (181,
.8701E-04 (188,
1.1
4) .4872E-04
5) .5314E-04
4) .8297E-04
4) .4050E-04
4) .8167E-04
5) .1643E-04
5) 7.1257E-05
4) 8.6773E-05
5) 1.1176E-04
5) 1.2695E-04
4) 9.9598E-05
4) 1.0124E-04
8) 1.5922E-04
4) 1.53B8E-04
4)
5)
4)
4)
4)
4)
4)
4)
4)
5)
5)
5)
5)
5)
4)
5)
5)
4)
4)
4)
4)
5)
.9309E-04
.6019E-04
.1848E-04
.6000E-04
.3826E-04
.5479E-04
.3452E-04
.4305E-04
.6228E-04
.8989E-04
.2074E-04
.2729E-04
?.9693E-05
.1027E-04
J.9670E-05
.2580E-04
.0107E-04
.4579E-04
.3502E-04
.5725E-04
.8409E-04
.9217E-04
KM
(151, 4)
(114, 5)
(196, 4)
(108, 4)
(195, 4)
(234, 4)
(130, 4)
(122, 4)
(150, 5)
(150, 5)
(275, 4)
(130, 7)
( 92. 8)
(136, 3)
(191, 4)
(235, 5)
(105, 4)
(105, 4)
(137, 4)
(253, 3)
(255, 4)
(216, 4)
(216, 4)
(232, 5)
(267. 4)
(214. 5)
(216, 5)
(157, 5)
(127, 5)
(138, 5)
(176, 6)
(113, 4)
(197, 4)
(198, 4)
(181, 4)
(188. 5)
1.3 KM
1.3750E-04 (100, 8)
1.5268E-04 (114, 5)
1.8490E-04 (162, 6)
1.2996E-04 ( 90, 4)
1.5455E-04 (195, 4)
1.1232E-04 (234, 4)
7.2528E-05 (141, 8)
6.9237E-05 (122, 4)
9.4626E-05 (150, 5)
1.0808E-04 (150, 5)
9.8753E-05 (275, 4)
1.0148E-04 ( 93. 7)
1.5609E-04 ( 92. 8)
1.5041E-04 (136. 3)
.7271E-04 (191. 4)
.4444E-04 (193, 5)
.1120E-04 (105. 4)
.4673E-04 (263, 5)
.2773E-04 (137, 4)
.6314E-04 (253, 3)
1.2894E-04 (191. 5)
1.4117E-04 (302, 4)
1.5904E-04 ( 18, 5)
.8548E-04 (232, 5)
.1255E-04 (267, 4)
.2222E-04 (214, 5)
.0540E-04 ( 65, 5)
.0606E-04 (157, 5)
8.5561E-05 (127, 5)
.1425E-04 (179, 6)
.1347E-04 (176, 6)
.3792E-04 (113, 4)
.2899E-04 (267, 6)
.4864E-04 (198, 4)
1.6839E-04 (117, 4)
1.8358E-04 (188, 5)
-------�
oo
tn
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY SECOND MAXIMUM 3-HOUR CONC= 1.8014E-04 DIRECTION 3 DISTANCE= 1.1 KM DAY=162 TIME PERIOD= 6
SECOND HIGHEST 3-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE .5 KM .7 KM .9 KM
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
1.2379E-04
1.0406E-04
1.0074E-04
1.1149E-04
7.9180E-05
6.0498E-05
5.8001E-05
7.4735E-05
7.2104E-05
6.5463E-05
5.5304E-05
8.0731E-05
8.2939E-05
1.0980E-04
9.7683E-05
8.3961E-05
7.8713E-05
8.7180E-05
7.6941E-05
8.4155E-05
1.0946E-04
1.3830E-04
9.6276E-05
8.8606E-05
8.3068E-05
6.8056E-05
7.7733E-05
6.3306E-05
5.4298E-05
7.0332E-05
6.8836E-05
6.0332E-05
7.9609E-05
9.5131E-05
9.5644E-05
1.1039E-04
(162, 4)
(162, 4)
(151. 5)
(195. 4)
(120, 5)
(130. 5)
(122, 4)
(143, 5)
(150, 5)
(145. 4)
(103, 4)
(132, 4)
(150, 4)
(139, 4)
(191, 4)
(223, 4)
(144, 4)
(176. 4)
(248, 4)
(247. 4)
(138, 4)
(168, 4)
(148. 4)
(141, 4)
(176, 5)
(154. 4)
(143, 4)
(154. 4)
(127, 4)
(115, 5)
(179, 4)
(224, 5)
(170. 4)
(183. 4)
(241, 4)
(179, 4)
.5006E-04
.4003E-04
.3638E-04
.4232E-04
.2785E-04
8.3845E-05
7.8479E-05
7.3130E-05
1.1121E-04
8.5883E-05
6.1407E-05
9.8721E-05
.1023E-04
.2925E-04
.6732E-04
.2794E-04
. 5691 E- 05
.3615E-04
.1129E-04
.1718E-04
.4195E-04
.5974E-04
.5618E-04
1.3958E-04
1.1532E-04
1.0181E-04
8.3191E-05
7.7888E-05
8.5631E-05
8.9687E-05
8.5024E-05
1.1222E-04
1.2893E-04
1.4071E-04
1.6195E-04
1.5447E-04
(162, 4)
(196, 4)
(151, 5)
(195, 4)
(226, 5)
(130, 5)
(143, 5)
(147, 4)
(122, 4)
(145, 4)
(275. 4)
(150, 4)
(150, 4)
(139. 4)
(235, 5)
(191, 4)
(235, 5)
(223, 4)
(161. 4)
(194, 4)
(157. 4)
(157, 4)
(168, 4)
(239, 4)
(249, 4)
(215, 4)
(154, 4)
(123. 4)
(147, 5)
(123, 4)
(123, 4)
(113, 4)
(126, 4)
(170, 4)
(181, 4)
(188, 5)
.5009E-04
.3644E-04
.5345E-04
.3572E-04
.2444E-04
.0773E-04
7.6022E-05
7.8816E-05
9.3437E-05
7.3667E-05
6.8594E-05
9.4019E-05
1.1248E-04
1.4174E-04
1.4417E-04
1.4187E-04
1.0415E-04
1.3975E-04
1.1604E-04
1.3759E-04
1.2859E-04
1.5552E-04
1.6382E-04
1.3764E-04
1.1876E-04
1.2003E-04
9.0509E-05
8.5794E-05
9.3143E-05
8.5807E-05
8.3088E-05
.1483E-04
.3228E-04
.4609E-04
.7825E-04
.7849E-04
(209, 4)
(196. 4)
(162. 6)
(169. 5)
(120, 5)
(234. 4)
(121. 5)
(175. 5)
(122, 4)
(150, 3)
(208, 3)
( 97. 5)
(249, 5)
(136, 3)
(235. 5)
(191, 4)
(223, 4)
(263, 5)
(109, 5)
(257, 4)
(255, 4)
(224, 4)
(258. 4)
(293, 4)
(267, 4)
(214, 5)
(253, 4)
(123, 4)
(138. 5)
(179. 6)
(271, 5)
(126, 4)
(197, 4)
(205, 4)
(125, 4)
(187. 4)
1.1
.3703E-04
.4173E-04
.8014E-04
.3076E-04
.2049E-04
.1088E-04
6.9710E-05
7.1935E-05
7.8539E-05
7.7431E-05
8.0122E-05
1.0084E-04
1.1700E-04
1.3392E-04
1.1524E-04
1.4204E-04
9.5133E-05
1.5088E-04
.2316E-04
.4788E-04
.3307E-04
.4109E-04
.5898E-04
.4958E-04
.1632E-04
.1744E-04
9.4897E-05
7.9404E-05
8.6797E-05
1.0535E-04
9.2742E-05
.0607E-04
.1502E-04
.3141E-04
.6796E-04
.6127E-04
KM
(100,
(120,
(162,
(169,
(120,
(226,
(237,
(175,
(194,
(150,
(103,
(139,
( 93,
( 93,
(330,
(193,
(217,
(263,
(109,
(257.
(191,
(224,
(258,
(293,
(137,
(137,
( 65,
(123,
(138,
(179,
(237,
(199,
(267,
(205,
(117,
(187,
1.3
8) .3194E-04
6) .5260E-04
6) .6074E-04
5) .2091E-04
5) .1708E-04
5) 8.8281E-05
5) 6.8757E-05
5) 6.1666E-05
5) 7.5521E-05
3) 7.4451E-05
6) 9.0801E-05
5)
1)
3)
4)
5)
4) <
5)
5)
4)
5)
4)
4)
4)
5)
5)
.0089E-04
.1816E-04
.3930E-04
.1868E-04
.3302E-04
.6021E-05
.4470E-04
.1738E-04
.4216E-04
.2887E-04
.2935E-04
.4133E-04
.4766E-04
.0758E-04
.1124E-04
5) 9.0958E-05
4) 8.0635E-05
5) 7.7632E-05
6) 1.1149E-04
6) 9.7939E-05
3) .1204E-04
6) .2655E-04
4) .1262E-04
4) .6729E-04
4) .6985E-04
KM
(120, 7)
(120, 6)
(101, 6)
(108, 4)
(187, 6)
(338, 1)
(207, 6)
(175, 5)
(194, 5)
(185. 5)
(103, 6)
(130, 7)
( 93, 1)
( 93, 3)
(330, 4)
(235, 5)
(297, 5)
(105. 4)
(109, 5)
(257, 4)
(255, 4)
( 51, 5)
(258, 4)
(293, 4)
(300, 4)
(276, 5)
(216, 5)
(345, 4)
(243, 5)
(138, 5)
(237. 6)
(199, 3)
(197, 4)
(205, 4)
(181, 4)
(162, 7)
-------�
00
en
i
K)
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY MAXIMUM 1-HOUR CONC= 2.8003E-04 DIRECTION= 1 DISTANCE= .7 KM DAY=151 HOUR=11
HIGHEST 1-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE .5 KM .7 KM .9
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
2.4946E-04
2.5102E-04
2.5102E-04
2.2268E-04
2.1600E-04
1.8040E-04
2.4967E-04
2.2420E-04
1.9520E-04
1.9639E-04
1.8126E-04
2.5025E-04
2.4336E-04
2.3548E-04
1.8483E-04
2.3612E-04
2.3612E-04
2.3882E-04
2.3071E-04
2.5092E-04
2.6409E-04
2.4190E-04
2.2924E-04
2.4492E-04
2.4817E-04
2.3516E-04
2.3461E-04
2.3312E-04
1.4358E-04
2.3276E-04
2.2060E-04
1.7347E-04
2.2807E-04
2.3729E-04
2.2488E-04
2.4346E-04
(151,10)
(151.12)
(151,13)
(195.11)
(120,13)
(130,13)
(143,13)
(143,13)
(104,12)
(145,11)
(146,10)
(146,10)
(223,13)
(136,10)
(235,13)
(144,11)
(144,11)
(176.10)
(248,12)
(247,11)
(194,11)
(168,10)
(168,10)
(158.11)
(176,13)
(176,13)
(154.11)
(143,11)
(141.12)
(141,12)
(141,12)
(158,12)
(169,10)
(236,11)
(236.11)
(184.12)
2.8003E-04
2.7748E-04
2.7479E-04
2.5753E-04
2.7180E-04
2.5232E-04
2.3544E-04
2.2613E-04
2.4449E-04
2.5765E-04
2.0930E-04
2.4038E-04
2.7279E-04
2.5674E-04
2.5109E-04
2.2911E-04
2.4895E-04
2.5346E-04
2.5328E-04
2.5396E-04
2.4762E-04
2.5546E-04
2.5233E-04
2.5823E-04
2.5831E-04
2.3332E-04
2.4733E-04
2.2262E-04
2.5689E-04
2.4119E-04
2.4707E-04
2.4097E-04
2.6939E-04
2.3933E-04
2.7201E-04
2.7868E-04
(151.11)
(195,13)
(151,13)
(195,11)
(195,12)
(226,13)
(143,13)
(122.11)
(147.10)
(145,11)
(116,11)
(150.11)
(150.10)
(136.10)
(235,13)
(175,11)
(223.11)
(147,12)
(161,10)
(210,10)
(157.13)
(184,11)
(168.11)
(186,11)
(220,13)
(170,12)
(170.12)
(143,11)
(147,13)
(127,11)
(179,12)
(206,11)
(169,10)
(205,12)
(169,11)
(188,13)
' 2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
.6806E-04
.6420E-04
.6035E-04
.3582E-04
.5533E-04
.4229E-04
.2806E-04
.3645E-04
.3221E-04
.21006-04
.0578E-04
.5817E-04
.5543E-04
.4160E-04
.3682E-04
.4236E-04
.2981E-04
.3517E-04
.3309E-04
.4150E-04
.4031E-04
.4052E-04
.4031E-04
.4150E-04
.4297E-04
.3817E-04
.3990E-04
.2626E-04
.3545E-04
.5637E-04
.4927E-04
.4999E-04
.6727E-04
.5733E-04
.6422E-04
.6850E-04
KM
(209.12)
(205,13)
(187,13)
(169,13)
(195,12)
(130,12)
(121,15)
(175.15)
(144.13)
(150, B)
(208, 8)
(150.11)
(150.10)
(136.11)
(191,12)
(134.12)
(210,14)
(217.12)
(217,13)
(186,12)
(146,11)
(176,14)
(161,12)
(186,11)
(215,13)
(218.11)
(243.14)
(193.12)
(194,10)
(250,12)
(271,15)
(189,13)
(171,12)
(168,13)
(207,11)
(188,13)
1.1
2.4832E-04
2.3968E-04
2.3732E-04
2.1768E-04
2.1972E-04
2.2977E-04
2.0913E-04
2.1580E-04
2.3562E-04
2.3229E-04
2.0611E-04
2.3952E-04
2.2009E-04
2.2654E-04
2.2637E-04
2.2881E-04
2.3618E-04
2.3100E-04
2.3132E-04
2.4164E-04
2.1869E-04
2.4033E-04
2.3625E-04
2.3562E-04
2.3621E-04
2.3287E-04
2.3621E-04
2.0913E-04
2.1978E-04
2.4257E-04
2.4287E-04
2.3544E-04
2.4985E-04
2.4864E-04
2.4383E-04
2.5065E-04
KM
(201.11)
(236.13)
(178.12)
(223,15)
(195,10)
(130,12)
(237,13)
(175,15)
(194,13)
(150, 8)
(262.13)
(150,11)
(134,13)
(136.13)
(191,12)
(134.12)
(210.16)
(263,13)
(239,16)
(257.12)
(220.15)
(167.10)
(203.13)
(180, 9)
(233.10)
(193.17)
(267,12)
(199,10)
(243,13)
(216,13)
(201,10)
(189,13)
(201,12)
(168,13)
(167.13)
(215.14)
1.3
2.2545E-04
2.2086E-04
2.3129E-04
2.2057E-04
2.0472E-04
2.0510E-04
2.0625E-04
1.8500E-04
2.2656E-04
2.2335E-04
2.0050E-04
2.1081E-04
2.2229E-04
2.0552E-04
2.2249E-04
2.2657E-04
2.3593E-04
2.2413E-04
2.3214E-04
2.3454E-04
2.1918E-04
2.2748E-04
2.3048E-04
2.2505E-04
2.2097E-04
2.3249E-04
2.2097E-04
2.0045E-04
2.1981E-04
2.3435E-04
2.2484E-04
2.2397E-04
2.3065E-04
2.2791E-04
2.3617E-04
2.3031E-04
KM
(197.13)
(233,11)
(178,12)
(223,15)
(166,13)
(130,12)
(207.16)
(175,15)
(194,13)
(185,14)
(262,13)
(150,11)
(257,15)
(136,13)
(210.15)
(193,15)
(210,16)
(164,15)
(239,16)
(257,12)
(255.11)
(157,17)
(203.13)
(180, 9)
(233,10)
(193,17)
(267,12)
(160,17)
(243,13)
(216,13)
(201,10)
(199. 9)
(201,12)
(198,11)
(167.13)
(215,14)
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
oo
tn
i
N)
cn
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY SECOND MAXIMUM 1-HOUR CONC= 2.7652E-04 DIRECTION= 36 DISTANCE= .7 KM DAY=246 HOUR=11
SECOND HIGHEST 1-HOUR CONCENTRATION AT EACH RECEPTOR
RANGE .5
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
2.4129E-04
2.4650E-04
2.3729E-04
2.0254E-04
2.0916E-04
.6235E-04
* .5469E-04
.1104E-04
.8151E-04
.8151E-04
.6591E-04
2.1856E-04
2.1665E-04
2.2894E-04
1.7038E-04
1.5453E-04
1.8766E-04
2.1471E-04
2.2633E-04
2.4346E-04
2.5128E-04
2.4180E-04
2.1996E-04
2.3612E-04
2.3612E-04
1.8120E-04
2.3312E-04
1.8934E-04
1.4019E-04
2.1100E-04
2.0561E-04
1.7341E-04
1.8980E-04
2.3071E-04
2.1677E-04
2.3163E-04
KM
(151,11)
(219.11)
(238,11)
(108,11)
(195,12)
(143,13)
(121,15)
(122,11)
(238,12)
(238.12)
(103.12)
(223,13)
(132.12)
(139,10)
(158.10)
(223,11)
(145.13)
(115.12)
(176,10)
(248.12)
(147.11)
(157,11)
(158,11)
(239.11)
(239,11)
(170,12)
(143,11)
(154,11)
(127,11)
(115,13)
(179,12)
(224,13)
(170,11)
(153,12)
(123.13)
(179,11)
.7
2.7092E-04
2.7479E-04
2.6452E-04
2.5063E-04
2.6400E-04
2.4538E-04
2.2949E-04
2.1939E-04
2.3891E-04
2.3891E-04
1.8164E-04
2.3978E-04
2.3803E-04
2.5196E-04
2.3002E-04
2.2348E-04
2.3591E-04
2.5011E-04
2.5324E-04
2.4050E-04
2.4663E-04
2.4682E-04
2.4322E-04
2.4189E-04
2.5492E-04
2.2598E-04
2.3510E-04
2.1873E-04
2.1533E-04
2.3792E-04
2.4387E-04
2.3704E-04
2.6693E-04
2.3440E-04
2.5471E-04
2.7652E-04
KM
(196,13)
(151.12)
(187,13)
(169,13)
(190,13)
(130,13)
(121,15)
(147,10)
(238,12)
(238,12)
(145,11)
(146,10)
(146,13)
(139.10)
(139.12)
(144,11)
(145,13)
(145,13)
(145,10)
(247,11)
(148,10)
(164,13)
(214,13)
(141,10)
(249,12)
(215,12)
(154.11)
(220,12)
(194,10)
(250,12)
(224.13)
(126.11)
(171.12)
(153,12)
(207,11)
(246,11)
.9
2.6349E-04
2.5162E-04
2.5824E-04
2.2833E-04
2.4612E-04
2.3947E-04
2.2734E-04
2.0359E-04
2.2352E-04
2.1807E-04
1.9839E-04
2.0971E-04
2.3781E-04
2.3287E-04
2.2272E-04
2.3209E-04
2.2038E-04
2.2936E-04
2.3221E-04
2.3645E-04
2.3524E-04
2.3864E-04
2.3617E-04
2.3228E-04
2.4120E-04
2.2831E-04
2.3170E-04
2.2626E-04
2.2170E-04
2.3453E-04
2.4200E-04
2.3977E-04
2.6422E-04
2.3864E-04
2.6420E-04
2.6706E-04
KM
(196,13)
(236,13)
(162,13)
(195,11)
(190,13)
(145,15)
(142,14)
(271,14)
(234.14)
(225,11)
(121,14)
(276,12)
(146,13)
(136,13)
(139,12)
(175,11)
(193,11)
(218,14)
(242,14)
(217,11)
(157,13)
(216,12)
(148,11)
(238,14)
(186,13)
(253,12)
(267,12)
(218. 9)
(123,12)
(180,12)
(201,10)
(113,12)
(173,12)
(205,12)
(169,11)
(149,13)
2
2
2
2
2
2
2
1
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
1.1
.4479E-04
.3340E-04
.3123E-04
.0241E-04
.1914E-04
.1769E-04
.0867E-04
.8833E-04
.1172E-04
.1418E-04
.0537E-04
.1055E-04
.1894E-04
.1044E-04
.2322E-04
.2238E-04
.3618E-04
.2955E-04
.2468E-04
.4039E-04
.1179E-04
.2540E-04
.3504E-04
.3268E-04
.2111E-04
.1821E-04
.2254E-04
.0568E-04
.1518E-04
.3947E-04
.3352E-04
.3242E-04
.4239E-04
.3398E-04
.4239E-04
.4977E-04
KM
(199,12)
(170,14)
(162,13)
(169,13)
(195,12)
(145,15)
(142,14)
(271,14)
(144,13)
(185,14)
(208, 8)
(139,15)
(150,10)
(136,11)
(210,15)
(129,11)
(210,14)
(163,11)
(192,10)
(210,13)
(284.15)
(157,17)
(185,11)
(238,14)
(148,13)
(214,14)
(216,15)
(193,12)
(194.10)
(199.11)
(271,15)
(113,12)
(259,15)
(198,11)
(241,11)
(188,12)
1.3
2.2523E-04
2.2003E-04
2.1823E-04
1.9764E-04
2.0045E-04
1.8825E-04
1.8757E-04
1.8034E-04
2.0981E-04
2.2176E-04
1.8622E-04
2.0767E-04
2.1482E-04
2.0138E-04
2.0298E-04
2.1779E-04
2.2203E-04
2.2164E-04
2.2086E-04
2.3272E-04
2.1809E-04
2.2305E-04
2.2870E-04
2.2009E-04
2.1627E-04
2.1295E-04
2.1580E-04
1.8809E-04
2.0484E-04
2.3291E-04
2.1655E-04
2.1039E-04
2.2870E-04
2.2457E-04
2.3191E-04
2.2970E-04
KM
(201,11)
(170,14)
(195,14)
( 63,16)
(160,16)
(234,12)
(237,13)
(153,16)
(255,16)
(150, 8)
(208, 8)
(139,15)
(148,17)
(190,23)
(191,12)
(140,13)
(210,14)
(263,13)
(192,10)
(210,13)
(192,17)
(167,10)
(185,11)
(232,13)
(299,12)
(242,10)
(174,10)
( 66,13)
(240, 9)
(199,11)
(171,10)
(113,12)
(181,14)
(168,13)
(188,10)
(188,12)
-------�
PLANT NAME: CRSTER CLASS EXAMPLE
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cent.)
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
oo
01
I
t-o
DAY
196
330
136
188
93
181
197
125
152
151
117
114
50
172
170
322
120
329
162
86
128
171
205
100
316
76
189
169
101
195
241
108
157
187
198
73
183
173
185
167
44
297
148
207
58
116
317
70
149
208
MAXIMUM DAILY CONCENTRATIONS
24-HOUR CONCENTRATION DIRECTION
7.1372E-05
6.7788E-05
6.7613E-05
6.3618E-05
6.1298E-05
5.9466E-05
5.8372E-05
5.4974E-05
5.4594E-05
5.2890E-05
5.1180E-05
4.8113E-05
4.7769E-05
4.6549E-05
4.6522E-05
4.5533E-05
4.4438E-05
4.4327E-05
4.2937E-05
4.1879E-05
4.1574E-05
4.1558E-05
4.1112E-05
4.0990E-05
4.0975E-05
4.0278E-05
3.8401E-05
3.8021E-05
3.7966E-05
3.7945E-05
3.7751E-05
3.7310E-05
3.6950E-05
3.6931E-05
3.6657E-05
3.6484E-05
3.6414E-05
3.6391E-05
3.5869E-05
3.5668E-05
3.4852E-05
3.4362E-05
3.3169E-05
2817E-05
2762E-05
2552E-05
2258E-05
3.1342E-05
3.1157E-05
3.1073E-05
2
15
14
36
14
35
36
36
36
1
35
36
14
35
36
15
2
15
3
1
35
35
35
1
1
36
34
34
1
2
1
4
22
35
34
14
2
35
23
35
14
15
22
35
35
36
3
34
36
36
DISTANCE
1.30
1.30
10
30
30
30
30
10
30
10
30
30
30
30
30
30
30
30
10
30
10
30
30
30
30
30
30
30
30
10
1.30
10
70
10
1.30
1.30
10
30
90
30
30
30
90
30
30
30
30
30
10
1
1
1
1.30
-------�
PLANT NAME: CRSTER CLASS EXAMPLE
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
MAXIMUM 8-HOURLY CONCENTRATIONS
oo
Ui
i
ts)
DAY
188
188
188
136
93
136
117
188
117
136
93
185
151
196
196
151
188
136
185
125
117
151
188
188
108
181
108
172
125
196
172
157
181
125
185
258
108
181
163
195
185
157
293
172
50
196
IK
258
216
151
8-HOUR CONCENTRATION DIRECTION DISTANCE
1.3816E-04
1.3550E-04
1.3016E-04
1.1851E-04
1.K71E-04
1.1294E-04
1.1120E-04
1.1067E-04
1.1033E-04
1.0938E-04
1.0798E-04
1.0616E-04
1.0500E-04
1.0385E-04
1.0273E-04
1.0272E-04
1.0223E-04
1.0216E-04
1.0K8E-04
1.0105E-04
1.0101E-04
9.8162E-05
9.8003E-05
9.7441E-05
9.7184E-05
9.6811E-05
9.6794E-05
9.6617E-05
9.6590E-05
9.5247E-05
9.4977E-05
9.4086E-05
9.3712E-05
9.3568E-05
9.3099E-05
9.2187E-05
9.1836E-05
9.1776E-05
9.1303E-05
9.0973E-05
9.0523E-05
9.0488E-05
9.0289E-05
9.0252E-05
9.0197E-05
9.0091E-05
8.9512E-05
8.9144E-05
8.9101E-05
8.8422E-05
36
36
36
14
14
14
35
36
35
14
14
23
1
2
2
1
35
14
23
36
35
1
35
35
4
35
4
35
36
2
35
22
35
36
23
23
4
35
18
5
23
21
24
35
14
2
36
23
22
1
1
10
.90
1.30
.90
1.30
1.10
1.10
.70
1.30
.70
1.10
.90
.90
.90
1.10
.70
1.10
1.30
1.10
.90
.90
1.10
1.30
.90
10
10
90
10
70
30
.90
.70
1.30
1.10
.70
.90
1.30
.90
1.10
.90
1.30
.70
1.30
1.30
1.30
.70
1.30
1.10
.90
1.30
TIME PERIOD
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
2
2
2
-------�
PLANT NAME: CRSTER CLASS EXAMPLE
TABLE 8.5.2 CRSTER EXAMPLE OUTPUT (RINGS 1-5) (cont.)
EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
00
Cn
i
oo
DAY
195
151
196
196
195
191
151
191
235
188
232
181
188
235
232
162
181
188
196
151
195
191
162
187
125
216
125
187
232
191
136
162
117
108
117
235
181
105
241
258
226
224
253
216
181
216
216
187
188
101
MAXIMUM 3-HOURLY CONCENTRATIONS
3-HOUR CONCENTRATION DIRECTION DISTANCE TIME PERIOD
.1227E-04
.1161E-04
.1095E-04
.0780E-04
2.0676E-04
2.0275E-04
1.9442E-04
1.9309E-04
1.9224E-04
1.9217E-04
1.8989E-04
1.8866E-04
1.8701E-04
1.8642E-04
1.8548E-04
1.8490E-04
1.8409E-04
1.8358E-04
1.8297E-04
1.8215E-04
1.8167E-04
1.8091E-04
1.8014E-04
1.7849E-04
1.7825E-04
1.7690E-04
1.7645E-04
1.7409E-04
1.7347E-04
1.7271E-04
1.7208E-04
1.6985E-04
1-.6839E-04
1.6817E-04
1.6796E-04
1.6732E-04
1.6729E-04
1.6427E-04
1.6382E-04
1.6382E-04
1.6345E-04
1.6333E-04
1.6314E-04
1.6228E-04
1.6195E-04
1.6180E-04
1.6130E-04
1.6127E-04
1.6108E-04
1.6074E-04
5
1
3
3
5
15
1
15
16
36
24
35
36
16
24
3
35
36
3
1
5
15
3
36
35
23
35
36
24
15
14
36
35
4
35
15
35
18
35
23
6
22
20
23
35
22
23
36
35
3
.70
.70
.70
.90
.90
.90
.50
1.10
.70
1.10
1.10
.90
.90
.90
1.30
1.30
1.10
1.30
1.10
.90
1.10
.70
1.10
.90
.90
.90
.70
.70
.90
1.30
.70
1.30
1.30
.70
1.10
.70
1.30
.90
.90
.90
.70
.70
1.30
1.10
.70
.90
.70
1.10
1.10
1.30
4
4
4
4
4
4
4
4
5
5
5
4
5
5
5
6
4
5
4
4
4
4
6
4
4
4
4
4
5
4
4
7
4
4
4
5
4
4
4
4
5
4
3
4
4
4
4
4
4
6
-------�
TABLE 8.5.2 CRSTER EXAMPLE -- OUTPUT (RINGS 1-5) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
MAXIMUM HOURLY CONCENTRATIONS
DAY 1-HOUR CONCENTRATION DIRECTION DISTANCE HOUR
151 2.8003E-04 1 .70 11
188 2.7868E-04 36 .70 13
195 2.7748E-04 2 .70 13
246 2.7652E-04 36 .70 11
149 2.7644E-04 36 .70 13
151 2.7479E-04 2 .70 12
151 2.7479E-04 3 .70 13
150 2.7279E-04 13 .70 10
169 2.7270E-04 2 .70 12
169 2.7201E-04 35 .70 11
205 2.7201E-04 2 .70 13
195 2.7180E-04 5 .70 12
196 2.7092E-04 1 .70 13
169 2.6939E-04 33 .70 10
188 2.6850E-04 36 .90 13
209 2.6809E-04 1 .70 12
209 2.6806E-04 1 .90 12
171 2.6727E-04 33 .90 12
_ 149 2.6706E-04 36 .90 13
. 171 2.6693E-04 33 .70 12
tn 187 2.6452E-04 3 .70 13
^ 173 2.6422E-04 33 .90 12
vo 207 2.6422E-04 35 .90 11
169 2.6420E-04 35 .90 11
205 2.6420E-04 2 .90 13
194 2.6409E-04 21 .50 11
190 2.6400E-04 5 .70 13
201 2.6357E-04 1 .70 13
196 2.6349E-04 1 .90 13
246 2.6227E-04 36 .90 11
187 2.6035E-04 3 .90 13
151 2.6007E-04 1 .70 10
162 2.5997E-04 36 .70 10
198 2.5892E-04 35 .90 10
220 2.5831E-04 25 .70 13
162 2.5824E-04 3 .90 13
186 2.5823E-04 24 .70 11
150 2.5817E-04 12 .90 11
236 2.5784E-04 3 .70 12
145 2.5765E-04 10 .70 11
195 2.5753E-04 4 .70 11
168 2.5733E-04 34 .90 13
178 2.5728E-04 1 .70 13
196 2.5728E-04 3 .70 11
120 2.5709E-04 5 .70 13
147 2.5689E-04 29 .70 13
186 2.5685E-04 36 .90 14
136 2.5674E-04 14 .70 10
250 2.5637E-04 30 .90 12
259 2.5555E-04 33 .90 15
-------�
oo
en
I
TABLE 8.5.3 CRSTER EXAMPLE -- INPUT DATA (RINGS 6 10)
CRSTER CLASS EXAMPLE
THIS IS A SINGLE SOURCE (CRSTER) MODEL EXAMPLE RUN.
123169 83 3160 83 1.7 2.2 2.9 3.8 5.0 14400. 1
000000000000010000001
TEST STACK
100. 35.0 2.4 11.7 432.0
-------�
TABLE 8.5.4 CRSTER EXAMPLE OUTPUT (RINGS 6-10) (Partial Printout)
OO
tn
i
CRSTER (VERSION 86211)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 1. GUIDELINE MODELS (1978)
IN UNAMAP (VERSION 6) DEC 86
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC
THIS IS A SINGLE SOURCE (CRSTER) MODEL EXAMPLE RUN.
MET FILE REQUESTED
STN NO. YR STN NO. YR
SURFACE 23169 83 23169 83
UPPER AIR 3160 83 3160 83
POLLUTANT: S02
PLANT LOCATION: RURAL
ANEMOMETER HEIGHT IS 10.0 METERS
HALF LIFE IS 0. SEC
STACK DOUNWASH ACCOUNTED FOR .
MOMENTUM PLUME RISE ACCOUNTED FOR
BUOYANCY-INDUCED DISPERSION ACCOUNTED FOR
DEFAULT OPTION EXERCISED
WIND PROFILE EXPONENTS ARE: .070,
NO TAPE OUTPUT
MET DATA WILL NOT BE PRINTED
AIR QUALITY UNITS: GM/M**3 12/80
.070, .100, .150, .350, .550,
DAY-- 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
Ml'
1 1 1
1
1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
4
1
1
'
1
1
1
1
1
1
1
0
1
1
1
1
1
1
1 1
I
1
I
1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
11111
11111
11111
11111
11111
11111
1 11111
I
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
1
1
1 1
1
1
1
1
1
1
1
***«*************NOTE*****************
ALL TABLES, INCLUDING SOURCE CONTRIBUTION, THAT CONTAIN "ANNUAL" IN THE HEADING ARE BASED ONLY ON THOSE DAYS
MARKED BY "1" IN THE ABOVE TABLE
-------�
TABLE 8.5.4 CRSTER EXAMPLE -- OUTPUT (RINGS 6-10) (cont.)
RING DISTANCES(KM)= 1.70 2.20 2.90 3.80 5.00
PLANT ELEVATION (FEET ABOVE SEA LEVEL)--
.0
00
I
CM
t-J
RECEPTOR ELEVATIONS (FEET ABOVE SEA LEVEL)
DIRECTION RING01 RING02 RING« RING04 R1NG05
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
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
PLANT ELEVATION (METERS ABOVE SEA LEVEL)-- .0
RECEPTOR ELEVATIONS (METERS ABOVE SEA LEVEL)
R1NG01 RING02 RING#3 RING#4 RING05
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
,0
0
0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
.0
-------�
TABLE 8.5.4 CRSTER EXAMPLE -- OUTPUT (RINGS 6-10) (coot.)
STACK # 1--TEST STACK
STACK
MONTH
ALL
EMISSION RATE
(GMS/SEC)
100.0000
HEIGHT
(METERS)
35.00
DIAMETER EXIT VELOCITY TEMP
(METERS) (M/SEC) (DEG.K)
2.40
11.70
432.00
VOLUMETRIC FLOW
(M**3/SEC)
52.93
oo
cn
i
-------�
TABLE 8.5.4 CRSTER EXAMPLE -- OUTPUT (RINGS 6-10) (cent.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
00
MAX HOURLY
MAX 24-HOUR
DAY
1
2
3
4
5
6
7
8
9
10
11
12
13
H
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
41
42
43
44
45
46
47
48
49
RATIO CONCENTRATION DIRECTION
9.848 1.377307E-04
19.868 1.556889E-04
16.588 1.505469E-04
21.647 2.037995E-04
17.107 2.075771E-04
19.569
14.034
17.372
7.040
16.787
22.294
11.835
12.847
12.664
6.603
15.588
11.573
6.222
13.169
15.663
14.838
12.620
14.425
18.177
9.928
13.220
10.152
11.278
11.978
9.329
3.763
11.314
14.832
15.671
12.166
9.706
6.693
10.255
5.134
9.040
10.920
11.599
11.181
4.991
6.309
11.762
11.592
12.715
10.104
.463900E-04
.543902E-04
.899515E-04
.864776E-04
2.340654E-04
.644522E-04
.687975E-04
2.321497E-04
.826393E-04
.529772E-04
.221388E-04
.671682E-04
.791156E-04
.796096E-04
.687000E-04
.605254E-04
.216321E-04
.135079E-04
.374544E-04
.282385E-04
.381389E-04
.316718E-04
.656383E-04
.692747E-04
.396785E-04
.449259E-04
.297753E-04
.733351E-04
. 045041 E- 04
.502142E-04
.248599E-04
.314841E-04
045820E-04
.604429E-04
.595517E-04
.739938E-04
.559804E-04
.627678E-04
.762804E-04
.687110E-04
.661939E-04
.389890E-04
.967368E-04
. 80891 3E- 04
25
19
25
18
25
25
5
10
10
35
2
17
34
20
19
2
21
23
13
32
26
19
36
24
30
26
33
25
2
12
14
27
19
7
34
3
26
20
36
24
29
1
27
14
14
24
19
12
22
DISTANCE(KM) HOUR
2.20
2.20
1.70
2.90
2.20
2.20
1.70
2.90
1.70
1.70
1.70
1.70
2.20
1.70
3.80
5.00
1.70
1.70
1.70
1.70
1.70
5.00
5.00
3.80
1.70
2.20
5.00
1.70
1.70
2.20
.70
.70
.70
.90
.70
.70
5.00
5.00
1.70
.70
.70
.70
.70
.70
.70
1.70
1.70
3.80
1.70
10
10
12
11
11
13
11
9
9
10
12
14
9
14
9
20
14
15
14
9
15
3
3
11
14
14
22
13
14
22
11
12
11
1
13
11
3
19
7
15
14
9
14
17
13
14
13
8
11
CONCENTRATION DIRECTION
1.398609E-05
7.836330E-06
9.075769E-06
9.414885E-06
1.213417E-05
7.480728E-06
1.100151E-05
1.093409E-05
2.649016E-05
1.394285E-05
7.376362E-06
1.426308E-05
1.807045E-05
1.442155E-05
2.316716E-05
7.835454E-06
1.444419E-05
2.878657E-05
1.363927E-05
1.077070E-05
1.081823E-05
9.637876E-06
7.868946E-06
7.562159E-06
.291655E-05
.044943E-05
. 29701 OE- 05
.468706E-05
.413174E-05
. 497271 E- 05
3.851182E-05
1.147014E-05
1.168696E-05
6.668819E-06
1. 234671 E- 05
1.286436E-05
. 96461 2E- 05
.019835E-05
3.125280E-05
.765040E-05
.593342E-05
. 344761 E- 05
.455786E-05
3.532305E-05
2.674084E-05
1.412959E-05
1.199018E-05
1.547297E-05
1.790314E-05
34
2
23
24
23
26
28
26
23
35
2
3
35
18
5
36
6
23
4
9
36
10
2
19
5
7
11
24
4
14
13
35
19
2
24
9
34
20
36
24
5
22
6
14
14
24
36
5
3
DISTANCE(KM)
2.90
2.90
2.20
2.20
2.20
2.20
1.70
1.70
1.70
1.70
2.20
2.90
1.70
2.20
3.80
5.00
2.90
1.70
2.20
2.20
5.00
5.00
5.00
2.90
5.00
3.80
3.80
2.20
1.70
2.90
2.20
3.80
1.70
5.00
1.70
5.00
2.90
5.00
1.70
1.70
5.00
1.70
5.00
1.70
1.70
1.70
5.00
5.00
1.70
-------�
TABLE 8.5.4 CRSTER EXAMPLE -- OUTPUT (RINGS 6-10) (coot.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
MAXIMUM MEAN CONC= 7.4273E-06 DIRECTION= 36 DISTANCE= 1.7 KM # OF CALMS FOR THE PERIOD:
32
ANNUAL MEAN CONCENTRATION AT EACH RECEPTOR
RANGE 1.7 KM 2.2 KM 2.9 KM 3.8 KM
oo
i
CM
Cn
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
5.0 KM
6.28200E-06 C
5.67209E-06 C
4.48475E-06 C
3.55379E-06 C
3.13024E-06 C
2.64189E-06 C
1.87826E-06 C
1.40122E-06 C
1.28828E-06 C
1.24640E-06 C
1.58661E-06 C
2.29789E-06 C
3.14033E-06 C
3.74305E-06 C
3.32995E-06 C
2.75254E-06 C
2.74101E-06 C
3.17118E-06 C
3.07122E-06 C
3.04010E-06 C
3.55419E-06 C
4.15482E-06 C
4.52554E-06 C
4.46539E-06 C
3.26313E-06 C
2.24750E-06 C
1.86551E-06 C
1.52648E-06 C
1.43843E-06 C
1.66281E-06 C
2.05316E-06 C
2.42316E-06 C
3.20822E-06 C
4.16153E-06 C
6.29504E-06 C
7.42727E-06 C
5.90766E-06 C
5.43156E-06 C
4.29455E-06 C
3.58706E-06 C
3.41811E-06 C
2.96774E-06 C
2.16711E-06 C
1.62060E-06 C
1.42908E-06 C
1.25430E-06 C
1.57541E-06 C
2.16346E-06 C
2.89425E-06 C
3.40631E-06 C
3.01235E-06 C
2.46061E-06 C
2.41410E-06 C
2.79293E-06 C
2.68742E-06 C
2.56178E-06 C
2.99764E-06 C
3.53762E-06 C
3.84006E-06 C
3.82194E-06 C
2.81290E-06 C
1.93652E-06 C
1.62489E-06 C
1.33536E-06 C
1.26973E-06 C
1.48455E-06 C
1.89483E-06 C
2.25094E-06 C
3.02255E-06 C
4.02240E-06 C
6.10543E-06 C
7.18939E-06 C
5.13852E-06 C
4.85677E-06 C
3.88052E-06 C
3.42647E-06 C
3.55058E-06 C
3.14548E-06 C
2.35973E-06 C
1.79927E-06 C
1.53596E-06 C
1.20700E-06 C
1.4B288E-06 C
1.91310E-06 C
2.49308E-06 C
2.86511E-06 C
2.52139E-06 C
2.05008E-06 C
1.97401E-06 C
2.29428E-06 C
2.18940E-06 C
2.00322E-06 C
2.36422E-06 C
2.81392E-06 C
3.04182E-06 C
3.06288E-06 C
2.27154E-06 C
1.55071E-06 C
.31917E-06 C
.08603E-06 C
.05018E-06 C
.23430E-06 C
.62260E-06 C
1.94189E-06 C
2.64703E-06 C
3.61995E-06 C
5.50595E-06 C
6.46886E-06 C
4.23154E-06 C
4.14107E-06 C
3.36770E-06 C
3.12262E-06 C
3.49487E-06 C
3.12522E-06 C
2.39536E-06 C
1.87377E-06 C
1.56970E-06 C
1.11562E-06 C
1.34051E-06 C
1.62436E-06 C
2.05808E-06 C
2.28712E-06 C
2.01270E-06 C
.64107E-06 C
.54344E-06 C
.81248E-06 C
.71026E-06 C
.50734E-06 C
.81040E-06 C
2.16680E-06 C
2.32878E-06 C
2.38367E-06 C
1.77484E-06 C
1.19341E-06 C
1.03296E-06 C
8.48021E-07 C
8.44909E-07 C
9.87319E-07 C
1.32315E-06 C
1.59333E-06 C
2.20102E-06 C
3.08086E-06 C
4.69184E-06 C
5.51330E-06 C
3.32638E-06 C
3.37768E-06 C
2.80064E-06 C
2.70108E-06 C
3.23670E-06 C
2.89768E-06 C
2.25446E-06 C
1.81341E-06 C
1.50415E-06 C
9.86238E-07 C
1.16021E-06 C
1.33589E-06 C
1.63719E-06 C
1.74968E-06 C
1.54883E-06 C
1.26907E-06 C
.15978E-06 C
.38348E-06 C
.29194E-06 C
.09792E-06 C
.35360E-06 C
.62622E-06 C
.73466E-06 C
1.81190E-06 C
1.34906E-06 C
8.87998E-07 C
7.84329E-07 C
6.40225E-07 C
6.65309E-07 C
7.65255E-07 C
1.03689E-06 C
1.25735E-06 C
1.75130E-06 C
2.48896E-06 C
3.80073E-06 C
4.47705E-06 C
-------�
oo
01
i
TABLE 8.5.4 CRSTER EXAMPLE -- OUTPUT (RINGS 6-10) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY MAXIMUM 24-HOUR CONC= 6.8363E-05 DIRECTION= 15 DISTANCE= 1.7 KM DAY=330
HIGHEST 24- HOUR CONCENTRATION AT
RANGE 1.7 KM 2.2 KM
DIR
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
4.5186E-05
6.6017E-05
5.1778E-05
3.1953E-05
3.0449E-05
.7280E-05
.9017E-05
.0638E-05
.8937E-05
.7705E-05
.3988E-05
2.9491E-05
3,6094E-05
5.9814E-05
6.8363E-05
2.4570E-05
2.8149E-05
2.7616E-05
2.5308E-05
2.6211E-05
2.8223E-05
2.4622E-05
2.8787E-05
2.8702E-05
1.9267E-05
2.0120E-05
1.5719E-05
1.6729E-05
1.5404E-05
1.7033E-05
2.0884E-05
2.6066E-05
2.6127E-05
3.9963E-05
5.9468E-05
6.0151E-05
( 86)
(196)
(196)
(195)
(195)
(234)
(225)
(281)
(274)
(150)
(262)
( 93)
( 31)
( 93)
(330)
(193)
(191)
( 95)
( 94)
(253)
(263)
( 51)
( 18)
(293)
( 71) C
(308)
(290)
(127)
(179)
(179)
(172)
(230)
(197)
(169)
(181)
(197)
4.3706E-05
5.6480E-05
4.2464E-05
2.7433E-05
2.4873E-05
.7139E-05
.9255E-05
.2900E-05
.6824E-05
.2378E-05
.1373E-05
2.6298E-05
3.8512E-05
5.2617E-05
6.1852E-05
2.0845E-05
2.6191E-05
2.8782E-05
2.4978E-05
2.3255E-05
2.8291E-05
2.1866E-05
2.5978E-05
2.3375E-05
1.7893E-05
.7030E-05
.3083E-05
.2593E-05
.4036E-05
.5044E-05
2.1146E-05
2.6247E-05
2.2969E-05
3.8297E-05
5.4169E-05
5.5598E-05
(241)
(196)
(196)
(195)
(141)
(338)
(225)
(281)
(274)
(150)
(192)
( 93)
( 31)
( 93)
(330)
(265)
(191)
( 95)
( 94)
(164)
(263)
(309)
( 9)
(293)
( 71) C
(308)
(290)
(345)
(179)
(319)
(273)
(230)
(197)
(169)
(181)
(197)
EACH RECEPTOR
2.9 KM
3
4
3
2
2
1
2
1
1
1
1
2
3
4
5
1
2
2
2
2
2
2
2
2
2
1
3
4
4
.9701E-05
.4560E-05
.2259E-05
.2124E-05
.1496E-05
.6420E-05
.1178E-05
.4394E-05
.3996E-05
.0301E-05
.3096E-05
.1327E-05
.7064E-05
.2088E-05
.0749E-05
.8947E-05
.1921E-05
.7339E-05
.2100E-05
.0395E-05
.5400E-05
.0286E-05
.4141E-05
.0946E-05
.5022E-05
.2778E-05
.1620E-05
.0920E-05
.1617E-05
.3009E-05
.9540E-05
.3790E-05
.9329E-05
.3861E-05
.5091E-05
.6589E-05
(241)
(196)
(196)
(195)
( 15)
(338)
( 63) C
(281)
(334)
(357)
(347)
( 93)
( 31)
( 93)
(330)
(265)
(191)
( 95)
( 94)
(164)
(263)
(263)
( 61)
( 61)
( 71) C
(308)
(242)
(345)
(179)
(319)
(273)
(230)
( 70)
(261)
(181)
(197)
3.8
3.3259E-05
3.3526E-05
2.3532E-05
1.7477E-05
2.3167E-05
1.6066E-05
2.1603E-05
1.5090E-05
1.5435E-05
1.1307E-05
1.5389E-05
1.6315E-05
3.2850E-05
3.2754E-05
3.9099E-05
1.5543E-05
1.7117E-05
2.4005E-05
1.7948E-05
1.7101E-05
2.0926E-05
1.7864E-05
2.2461E-05
2.2328E-05
1.2352E-05
8.9418E-06
1.0312E-05
8.8317E-06
1.0166E-05
1.1008E-05
1.6499E-05
1.9821E-05
1.5858E-05
2.9914E-05
3.5215E-05
3.6504E-05
KM
(241)
(196)
(196)
( 77)
( 15)
(292)
( 63) C
(281)
(334)
(357)
(357)
( 93)
( 31)
( 73)
(330)
(265)
(191)
( 95)
( 94)
(164)
(263)
(263)
( 61)
( 61)
(288)
(308)
(242)
( 25) C
(248)
(221)
(273)
(230)
( 70)
(261)
(181)
(197)
5.0
2.6111E-05
2.4208E-05
1.7523E-05
1.6347E-05
2.2519E-05
1.5157E-05
2.0282E-05
1.4500E-05
1.5177E-05
1.1100E-05
1.5850E-05
1.1906E-05
2.7186E-05
2.5631E-05
2.8653E-05
.1878E-05
.2688E-05
.9718E-05
.3798E-05
.3665E-05
.6178E-05
1.4585E-05
1.9186E-05
2.1933E-05
1.0184E-05
6.7001E-06
8.7723E-06
9.2517E-06
9.4401E-06
9.5139E-06
1.4390E-05
1.5513E-05
1.3923E-05
2.4608E-05
2.6134E-05
2.7135E-05
KM
(241)
(196)
(204)
(245)
( 15)
(292)
( 63) C
(281)
(334)
(357)
(357)
( 93)
( 31)
( 73)
(330)
(265)
(191)
( 95)
( 96)
(164)
(263)
(263)
( 61)
( 61)
(288)
(300)
(242)
( 97)
(248)
(281)
(217)
(230)
(222) C
(261)
(181)
(197)
-------�
co
TABLE 8.5.4 CRSTER EXAMPLE -- OUTPUT (RINGS 6-10) (cont.)
PLANT NAME: CRSTER CLASS EXAMPLE EMISSION UNITS: GM/SEC AIR QUALITY UNITS: GM/M**3
YEARLY SECOND MAXIMUM 24-HOUR CONC= 5.9134E-05 DIRECTION= 36 DISTANCE= 1.7 (CM OAY=188
SECOND HIGHEST 24-HOUR
RANGE 1.7 KM 2.2
D1R
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
4.3848E-05
4.4125E-05
3.7591E-05
3.1529E-05
2.6739E-05
1.6261E-05
.6156E-05
.0305E-05
.6862E-05
.3682E-05
.3101E-05
2.0265E-05
3.5954E-05
5.3621E-05
4.8391E-05
2.2860E-05
2.1915E-05
2.4781E-05
2.2475E-05
2.5163E-05
2.2775E-05
2.2646E-05
2.6490E-05
2.4630E-05
1.8563E-05
1.9329E-05
1.5027E-05
1.2483E-05
1.4746E-05
1.5663E-05
2.0500E-05
2.1709E-05
2.4769E-05
3.6534E-05
5.1200E-05
5.9134E-05
(316)
(120)
(162)
(108)
(141)
(338)
( 63) C
(130)
(150)
(243)
(149)
(130)
( 93)
(136)
(322)
(346)
(235)
(163)
( 68)
(164)
(132)
(283)
( 9)
(255)
(288)
( 92)
( 65) C
(345)
(123)
(199)
(273)
( 60)
(171)
(189)
(117)
(188)
4.3263E-05
3.9517E-05
3.1059E-05
2.6042E-05
2.4725E-05
.5713E-05
.9232E-05
.1607E-05
.2404E-05
.0958E-05
.1262E-05
.7246E-05
3.3131E-05
4.7384E-05
4.5585E-05
2.0786E-05
1.6991E-05
1.9892E-05
1.8786E-05
2.1164E-05
1.9310E-05
2.1239E-05
2.57196-05
1.9683E-05
1.6611E-05
1.4707E-05
1.2767E-05
1.2482E-05
1.0879E-05
1.3966E-05
1.8623E-05
2.0640E-05
2.1864E-05
3.4917E-05
4.7264E-05
5.1010E-05
CONCENTRATION AT EACH
KM 2.9
( 86)
(120)
(162)
(108)
(195)
(234)
( 63) C
(357)
(150)
(243)
(103)
(130)
( 50)
( 50)
(322)
(193)
( 51)
(263)
(156)
(253)
(132)
( 51)
( 18)
(221)
(288)
( 92)
(242)
(127)
(199)
(179)
(172)
( 60)
(337)
(261)
(117)
(188)
3.7355E-05
3.2212E-05
2.3719E-05
2.0427E-05
2.0871E-05
.5718E-05
.8107E-05
.3870E-05
.3627E-05
8.1825E-06
.3054E-05
.4402E-05
2.8870E-05
4.0432E-05
3.8666E-05
.6323E-05
.5081E-05
.7962E-05
.6931E-05
.7421E-05
1.5239E-05
2.0068E-05
2.3682E-05
.7607E-05
.4503E-05
.0459E-05
9.5764E-06
.0452E-05
.0333E-05
.2974E-05
.5108E-05
1.8572E-05
1.8842E-05
3.3715E-05
4.0354E-05
4.0719E-05
RECEPTOR
KM
( 86)
(120)
(162)
( 77)
(141)
(292)
(225)
(357)
(274)
(358)
(357)
( 30)
( 50)
( 50)
(322)
(346)
( 51)
( 74)
( 96)
(298)
(132)
(309)
( 9)
(221)
(288)
(354)
(290)
( 82)
(248)
(221)
(172)
( 58)
(337)
(169)
(117)
(188)
2
2
2
1
1
2
3
3
2
1
1
7
7
8
8
9
1
1
1
2
3
3
3.8
.9905E-05
.5321E-05
.0013E-05
.7124E-05
.6359E-05
.4614E-05
.5760E-05
.4404E-05
.3770E-05
.4207E-06
.4565E-05
.3259E-05
.3293E-05
.2153E-05
.0470E-05
.2397E-05
.2330E-05
.6417E-05
.5802E-05
.4376E-05
.1604E-05
.6548E-05
.0722E-05
.5572E-05
.1685E-05
.9050E-06
.8322E-06
. 8281 E- 06
.9791E-06
.9632E-06
.3552E-05
.6088E-05
.5735E-05
.7966E-05
.2448E-05
.2064E-05
KM
( 86)
(316)
(204)
(195)
(141)
(338)
(225)
(357)
(212)
( 22)
(347)
( 30)
( 50)
( 50)
(322)
(346)
( 51)
( 74)
( 96)
(298)
(132)
(309)
( 9)
( 79)
( 71) C
(354)
(351)
( 97)
(179)
(319)
(217)
( 58)
(222) C
(169)
(117)
( 76)
5.0
2.2594E-05
1.8902E-05
1.6532E-05
.4032E-05
.5933E-05
.4558E-05
.4037E-05
.3387E-05
.4922E-05
9.6379E-06
.4835E-05
.1273E-05
.7716E-05
2.4206E-05
2.2689E-05
9.6938E-06
9.4862E-06
1.3881E-05
1.3662E-05
1.1811E-05
1.0486E-05
1.2618E-05
1.7693E-05
1.3989E-05
1.0044E-05
6.3906E-06
6.8922E-06
7.0776E-06
8.8115E-06
9.1634E-06
1.3041E-05
1.3215E-05
1.2173E-05
2.2034E-05
2.5593E-05
2.4594E-05
KM
( 86)
( 76)
(196)
( 77)
( 41)
( 43)
( 18)
(357)
(212)
( 22)
(347)
( 30)
( 50)
( 50)
(322)
(156)
( 51)
( 74)
( 94)
(263)
(231)
(309)
( 9)
(230)
(230)
(273)
( 61)
( 25) C
(347)
(272)
(273)
(113)
( 70)
(169)
(171)
( 76)
-------�
oo
Ln
I
OO
TABLE 8.5.5 ISCST EXAMPLE -- INPUT DATA
REFINED EXAMPLE
141001100000011011101101111112
1 10 36 0 0 0 0 0
500. 700. 900. 1100. 1300. 1700. 2200. 2900.
3800. 5000.
10. 10.
10.0 1.54 3.09 5.14 8.23 10.8
0 GRAMS/SECONDMICROGRAMS/CUBIC METER 9 3
11111111111111111111111111111111111111111111111111111111111111111111111111111111
11111111111111111111111111111111111111111111111111111111111111111111111111111111
11111111111111111111111111111111111111111111111111111111111111111111111111111111
11111111111111111111111111111111111111111111111111111111111111111111111111111111
1111111111111111111111111111111111111111111111
23169 83 3160 83
500 00 100. 0. 0. 0. 35.0 432.0 11.70 2.40
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT
ISCST (DATED 86322)
AN AIR QUALITY DISPERSION MODEL
SECTION 1. GUIDELINE MODELS
IN UNAMAP (VERSION 6) JULY 86.
IN
*** REFINED EXAMPLE
oo
en
i
CALCULATE (CONCENTRATION=1,DEPOSITION=2)
RECEPTOR GRID SYSTEM (RECTANGULAR=1 OR 3, POLAR=2 OR 4)
DISCRETE RECEPTOR SYSTEM (RECTANGULAR=1,POLAR=2)
TERRAIN ELEVATIONS ARE READ (YES=1,NO=0)
CALCULATIONS ARE WRITTEN TO TAPE (YES=1,NO=0)
LIST ALL INPUT DATA (NO=0,YES=1,MET DATA ALSO=2)
COMPUTE AVERAGE CONCENTRATION (OR TOTAL DEPOSITION)
WITH THE FOLLOWING TIME PERIODS:
HOURLY (YES=
2-HOUR (YES=
3-HOUR (YES=
4-HOUR' (YES=
6-HOUR (YES=
8-HOUR (YES=
,NO=0)
,NO=0)
,NO=0)
,NO=0)
,NO=0)
,NO=0)
12-HOUR (YES=1,NO=0)
24-HOUR (YES=1,NO=0)
PRINT 'N'-DAY TABLE(S) (YES=1,NO=0)
PRINT THE FOLLOWING TYPES OF TABLES WHOSE TIME PERIODS ARE
SPECIFIED BY ISW(7) THROUGH ISW(U):
DAILY TABLES (YES=1,NO=0)
HIGHEST & SECOND HIGHEST TABLES (YES=1,NO=0)
MAXIMUM 50 TABLES (YES=1,NO=0)
METEOROLOGICAL DATA INPUT METHOD (PRE-PROCESSED=1,CARD=2)
RURAL-URBAN OPTION (RU.=0,UR. MODE 1=1,UR. MODE 2=2,UR. MODE 3=3)
WIND PROFILE EXPONENT VALUES (DEFAULTS=1,USER ENTERS=2,3)
VERTICAL POT. TEMP. GRADIENT VALUES (DEFAULTS=1,USER ENTERS=2.3)
SCALE EMISSION RATES FOR ALL SOURCES (NO=0,YES>0)
PROGRAM CALCULATES FINAL PLUME RISE ONLY (YES=1,NO=2)
PROGRAM ADJUSTS ALL STACK HEIGHTS FOR DOUNWASH (YES=2,NO=1)
PROGRAM USES BUOYANCY INDUCED DISPERSION (YES=1,NO=2)
CONCENTRATIONS DURING CALM PERIODS SET = 0 (YES=1,NO=2)
REG. DEFAULT OPTION CHOSEN (YES=1,NO=2)
TYPE OF POLLUTANT TO BE MODELLED (1=S02.2=OTHER)
DEBUG OPTION CHOSEN (1=YES,2=NO)
NUMBER OF INPUT SOURCES
NUMBER OF SOURCE GROUPS (=0,ALL SOURCES)
TIME PERIOD INTERVAL TO BE PRINTED (=0,ALL INTERVALS)
NUMBER OF X (RANGE) GRID VALUES
NUMBER OF Y (THETA) GRID VALUES
NUMBER OF DISCRETE RECEPTORS
SOURCE EMISSION RATE UNITS CONVERSION FACTOR
HEIGHT ABOVE GROUND AT WHICH WIND SPEED WAS MEASURED
LOGICAL UNIT NUMBER OF METEOROLOGICAL DATA
DECAY COEFFICIENT FOR PHYSICAL OR CHEMICAL DEPLETION
iswd) =
ISW(2) =
ISW(3) =
ISW(4) =
ISW(5) =
ISW(6) =
ISW(7) =
ISW(8) =
ISW(9) =
ISW(10) =
iswdD =
ISW(12) =
ISW(13) =
ISW(U) =
ISW(15) =
ISW(16) =
ISW(17) =
ISWC18) =
ISW(19) =
ISW(20) =
ISW(21) =
ISW(22) =
ISW(23) =
ISW(24) =
ISW(25) =
ISW(26) =
ISW(27) =
1SW(28) =
ISW(29) =
ISW(30) =
1
4
1
0
0
1
1
0
0
0
0
0
0
1
1
0
1
1
1
0
1
1
0
1
2
1
1
1
1
2
NSOURC = 1
NGROUP = 0
IPERD = 0
NXPNTS = 10
NYPNTS = 36
NXWYPT = 0
TK=.10000E+07
ZR = 10.00 METERS
1MET = 9
DECAY = .OOOOOOE+00
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
SURFACE STATION NO.
YEAR OF SURFACE DATA
UPPER AIR STATION NO.
YEAR OF UPPER AIR DATA
ALLOCATED DATA STORAGE
REQUIRED DATA STORAGE FOR THIS PROBLEM RUN
ISS = 23169
ISY = 83
IUS = 3160
IUY = 83
LIMIT = 43500 WORDS
HIMIT = 5343 WORDS
REFINED EXAMPLE
*** METEOROLOGICAL DAYS TO BE PROCESSED ***
00
Cn
I
1
1
1
1
1
1
1
1
1
A
4
1
1
1
1
4
I 1 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1
1
1
4
4
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
I 1
1
1
1
1 1
1 1
1
1
1
4
1
1
1 *
|
1
1
1
1
1
1
1
1 1
1
1111
1111
1111
1111
1111
1111
1111
1
1
1
]
1
1 1
1 1
1 11111
1 11111
1 11111
1 11111
1 11111
11 11111
11 11111
1 1 1
1 1 1
1 1 1
1 1 1
1 1 1
1 1 1
1111
*** UPPER BOUND OF FIRST THROUGH FIFTH WIND SPEED CATEGORIES ***
(METERS/SEC)
1.54, 3.09, 5.14, 8.23, 10.80,
*** WIND PROFILE EXPONENTS ***
STABILITY
CATEGORY
A
B
C
D
E
F
WIND SPEED CATEGORY
1
.70000E-01
.70000E-01
.10000E+00
.15000E+00
.35000E+00
.55000E+00
2
.70000E-01
.70000E-01
.10000E+00
.15000E+00
.35000E+00
.550006+00
3
.70000E-01
.70000E-01
.10000E+00
.15000E+00
.35000E+00
.55000E+00
4
.70000E-01
.70000E-01
.10000E+00
.15000E+00
.35000E+00
.55000E+00
5
.70000E-01
.70000E-01
.10000E+00
.15000E+00
.35000E+00
.55000E+00
6
.70000E-01
.70000E-01
.10000E+00
.15000E+00
.35000E+00
.55000E+00
*** VERTICAL POTENTIAL TEMPERATURE GRADIENTS ***
(DEGREES KELVIN PER METER)
STABILITY
CATEGORY
A
B
C
D
E
F
WIND SPEED CATEGORY
1
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.20000E-01
.35000E-01
2
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.20000E-01
.35000E-01
3
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.20000E-01
.35000E-01
4
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.20000E-01
.35000E-01
5
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.20000E-01
.35000E-01
6
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.OOOOOE+00
.20000E-01
.35000E-01
-------�
TABLE 8.5.6 ISCSI EXAMPLE -- OUTPUT (cont.)
*** REFINED EXAMPLE
500.0,
*** RANGES OF POLAR GRID SYSTEM ***
(METERS)
700.0, 900.0, 1100.0, 1300.0, 1700.0, 2200.0, 2900.0, 3800.0, 5000.0,
*** RADIAL ANGLES OF POLAR GRID SYSTEM ***
(DEGREES)
10.0,
110.0,
210.0.
310.0,
20.0,
120.0,
220.0,
320.0,
30.0,
130.0,
230.0,
330.0,
40.0,
140. 0.
240.0,
340.0,
50.0,
150.0,
250.0,
350.0,
60.0,
160.0,
260.0,
360.0,
70.0,
170.0,
270.0,
80.0,
180.0,
280.0,
90.0,
190.0,
290.0,
100.0,
200.0,
300.0,
oo
01
*** REFINED EXAMPLE
EMISSION RATE
TYPE=0,1
T W GRAMS/SECOND
Y A NUMBER TYPE=2
SOURCE P K PART. GRAMS/SECOND
*** SOURCE DATA **
BASE
ELEV.
HEIGHT
TEMP.
TYPE=0
(DEG.K);
VERT.DIM
TYPE=1
EXIT VEL.
TYPE=0
(M/SEC); BLDG. BLDG. BLDG.
HORZ.DIM DIAMETER HEIGHT LENGTH WIDTH
TYPE=1,2 TYPE=0 TYPE=0 TYPE=0 TYPE=0
NUMBER E E CATS. *PER METER**2 (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS)
500
.10000E+03
.0
.0
.0 35.00 432.00
11.70
2.40
.00
.00
.00
-------�
oo
tn
i
Isj
TABLE 8.5.6 ISCST EXAMPLE OUTPUT (cont.)
CALM HOURS (=1) FOR DAY 23 "
CALM HOURS (=1) FOR DAY 25
CALM HOURS (=1) FOR DAY 36
CALM HOURS (=1) FOR DAY 37
CALM HOURS (=1) FOR DAY 52
CALM HOURS (=1) FOR DAY 54
CALM HOURS (=1) FOR DAY 55
CALM HOURS (=1) FOR DAY 63
CALM HOURS (=1) FOR DAY 64
CALM HOURS (=1) FOR DAY 65
CALM HOURS (=1) FOR DAY 71
CALM HOURS (=1) FOR DAY 75
CALM HOURS (=1) FOR DAY 105
CALM HOURS (=1) FOR DAY 107
CALM HOURS (=1) FOR DAY 111
CALM HOURS (=1) FOR DAY 222
CALM HOURS (=1) FOR DAY 294
CALM HOURS (=1) FOR DAY 295
CALM HOURS (=1) FOR DAY 313
CALM HOURS (=1) FOR DAY 326
CALM HOURS (=1) FOR DAY 335
CALM HOURS (=1) FOR DAY 336
CALM HOURS (=1) FOR DAY 340
CALM HOURS (=1) FOR DAY 341
CALM HOURS (=1) FOR DAY 359
CALM HOURS (=1) FOR DAY 363
' 0
0
0
1
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
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
b
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
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
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
0
0
0
0
0
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
1
1
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
1
0
0
0
0
0
0
0
0
0
0
1
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
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
0
0
0
1
0
0
0
1
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
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
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
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
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
0
0
1
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
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
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
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
0
0
0
0
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
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (coot.)
REFINED EXAMPLE
'N'-DAY
365 DAYS
SGROUP0 1
* 365-DAY AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
oo
en
CM
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
500.0
1.53173
1.33365
.91855
.76604
.63397
.57011
.50374
.42237
.44797
.54921
.69626
1.02641
1.39784
1.52827
1.44773
1.27544
1.06439
.92549
.85900
.69893
.64614
.67195
.76675
.69438
.50225
.31219
.27674
.28340
.27611
.29431
.38211
.53153
.71574
1.05627.
1.25536
1.37317
* MAXIMUM VALUE
700.0
3.68207
3.19491
2.20016
1.81483
1.47637
1.29743
1.14686
1.00124
1.07219
1.30928
1.64889
2.43593
3.31766
3.52038
3.25590
2.84351
2.39814
2.17873
2.12081
1.77892
1.69509
1.85607
2.07290
1.80474
1.29476
.81567
.67895
.64936
.63669
.73758
1.00625
1.31212
1.73762
2.48735
2.95441
3.27667
EQUALS
900.0
5.40855
4.61441
3.10601
2.51039
.97315
.70362
.48170
.30271
.39803
.71656
2.13615
3.15549
4.32848
4.50656
4.12637
3.58642
3.03459
2.83139
2.83579
2.41924
2.35992
2.70988
3.03311
2.56297
1.80595
1.12986
.90564
.85198
.85200
1.05404
1.50495
1.93692
2.53002
3.54475
4.30235
4.79579
7.41596 AND
RAt
1100.0
6.53304
5.53993
3.68836
2.93687
2.26399
.93753
.65163
.44979
.55207
.90726
2.34768
3.45180
4.75174
4.89307
4.47364
3.87473
3.29010
3.14302
3.19614
2.74806
2.70964
3.18721
3.57018
2.98485
2.10994
.34661
.06133
.00526
.02659
.32103
.90965
2.40392
3.04269
4.14736
5.12680
5.72916
OCCURRED AT (
IGE (METERS)
1300.0
7.06770
5.98676
3.96806
3.12547
2.38819
2.03688
1.70576
1.49078
1.59193
1.95208
2.38282
3.48657
4.80138
4.90843
4.49097
3.87547
3.29914
3.21672
3.29752
2.84345
2.82040
3.35560
3.76053
3.13918
2.24551
1.47278
1.15420
1.11468
1.16101
1.52678
2.19898
2.70431
3.30024
4.38116
5.48110
6.12123
1700.0.
1700.0
7.41596
6.28282
4.14148
3.19104
2.40656
2.03990
1.65119
1.42653
1.51352
1.84603
2.22704
3.24014
4.44327
4.49900
4.12911
3.53223
3.01830
3.05190
3.15257
2.72717
2.73879
3.31641
3.73286
3.12755
2.28407
.57390
.23668
.27871
.39043
.86343
2.62999
3.11892
3.54123
4.47327
5.66082
6.26679
360.0) *
2200.0
7.18513
6.10008
4.00815
3.01066
2.24006
.88667
.47755
.26291
.32774
.61256
.92458
2.79945
3.80976
3.82461
3.52395
2.98562
2.55020
2.67693
2.78195
2.40723
2.45281
3.00450
3.40273
2.88782
2.15512
1.56666
1.24828
1.42114
1.61125
2.15331
2.95747
3.40923
3.57872
4.28825
5.42576
5.89986
2900.0
6.46879
5.50513
3.60993
2.63917
.93510
.61804
.23039
.04669
.08172
.31190
.54369
2.26333
3.05657
3.03247
2.80666
2.35747
1.99772
2.18401
2.28833
1.97086
2.04555
2.51654
2.86537
2.49064
1.90858
1.47661
1.20320
1.52865
1.79047
2.34666
3.13623
3.54335
3.42096
3.87756
4.85418
5.13578
3800.0
5.51500
4.69333
3.07360
2.19576
1.58896
1.32064
.98507
.84317
.84549
1.02866
1.18870
1.76931
2.38028
2.32231
2.16220
1.80568
1.50468
1.70728
1.80931
1.54185
1.63798
2.00916
2.28892
2.05750
1.62199
1.33551
1.11289
1.56266
1.86531
2.38349
3.11700
3.48883
3.11879
3.36641
4.13966
4.23137
-------�
TABLE 8.5.6 ISCSI EXAMPLE OUTPUT (cont.)
REFINED EXAMPLE
'N'-OAY
365 DAYS
SGROUP* 1
* 365-DAY AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
00
Ln
i
* MAXIMUM VALUE EQUALS
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
7.41596 AND OCCURRED AT ( 1700.0, 360.0)
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
3-"1 0 /
3lu.O /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
RANGE (METERS)
5000.0
4.47918
3.80308
2.48363
1.74771
1.25433
1.03552
.76387
.66444
.63866
.78170
.88442
.34511
.80989
.72967
.62263
.34955
.09646
.28999
.38178
.15877
.26659
1.54579
1.75177
1.63717
1.33451
1.15593
.98391
1.49760
1.80533
2.24432
2.89066
3.23165
2.69834
2.80001
3.37650
3.32720
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (coot.)
*** REFINED EXAMPLE
HIGH
1-HR
SGROUPtf 1
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUB1C METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
00
Oi
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
500.0
242.56540 (184.12)
222.84590 (236,11)
236.38170 (236,11)
227.88330 (169,10)
172.11810 (158,12)
218.52860 (141.12)
231.83270 (141,12)
135.55260 (127.11)
231.70310 (143,11)
234.55310 (154,11)
233.20400 (176,13)
247.29320 (176,13)
244.41460 (158,11)
227.23610 (168,10)
241.28340 (157,11)
264.09850 (194,11)
250.91910 (247.11)
228.71560 (248,12)
237.91480 (176.10)
234.72330 (144,11)
234.72350 (144,11)
184.50670 (235,13)
235.43870 (136,10)
242.84480 (223,13)
250.18920 (146,10)
174.83040 (146.10)
196.30690 (145,11)
194.16870 (104,12)
221.52150 (143,13)
249.17640 (143,13)
180.18520 (130,13)
215.95290 (120,13)
222.26600 (195,11)
250.97630 (151,13)
250.97620 (151,12)
249.33290 (151,10)
700.0
278.66780 (188,13)
271.99840 (169,11)
239.25470 (205,12)
269.39360 (169,10)
240.87160 (206,11)
247.11120 (179.12)
241.31300 (127.11)
256.89890 (147.13)
223.87180 (143,11)
247.91130 (170,12)
234.47840 (170,12)
258.47490 (220,13)
258.21860 (186.11)
252.38430 (168/11)
255.49910 (184,11)
247.61180 (157.13)
254.11410 (210,10)
253.39170 (145,10)
253.45830 (147,12)
249.08490 (223,11)
229.02780 (175,11)
251.23250 (235,13)
256.74630 (136,10)
272.77910 (150,10)
240.35410 (150,11)
208.89690 (116,11)
257.68880 (145,11)
244.45670 (147,10)
226.31450 (122,11)
235.93820 (143,13)
252.32000 (226,13)
271.76720 (195,12)
257.52510 (195.11)
274.80440 (151,13)
277.47940 (195,13)
280.02350 (151,11)
RANGE (METERS)
900.0
268.51970 (188,13)
264.21570 (169,11)
257.32650 (168,13)
267.27140 (171,12)
249.98430 (189,13)
249.26500 (271,15)
256.36860 (250,12)
235.45150 (194.10)
226.28440 (193,12)
239.89990 (243,14)
238.18830 (218,11)
242.96340 (215,13)
241.52560 (186,11)
240.30620 (161,12)
240.53260 (176,14)
240.30620 (146,11)
241.50630 (186,12)
233.21420 (217,13)
235.18740 (217,12)
229.73230 (210,14)
242.35390 (134,12)
236.80010 (191,12)
241.61390 (136,11)
255.44540 (150,10)
258.17490 (150,11)
205.76870 (208, 8)
220.97770 (150, 8)
232.22060 (144,13)
236.45100 (175,15)
228.10010 (121,15)
242.28340 (130,12)
255.40670 (195,12)
235.95050 (169,13)
260.40230 (187,13)
264.21570 (205,13)
268.05550 (209,12)
1100.0
250.65740 (215.14)
243.82620 (167,13)
248.65600 (168,13)
249.84660 (201,12)
235.50410 (189,13)
242.88140 (201,10)
242.56640 (216,13)
219.73600 (243,13)
209.17890 (199,10)
236.20460 (267,12)
232.86130 (193,17)
236.20460 (233,10)
235.61810 (180, 9)
236.24940 (203,13)
240.34000 (167,10)
218.70230 (220,15)
241.63750 (257,12)
231.32240 (239,16)
230.99310 (263,13)
236.18920 (210,14)
228.82800 (134,12)
226.42350 (191,12)
226.54920 (136.13)
220.13140 (134,13)
239.54040 (150,11)
206.04090 (262,13)
232.29260 (150, 8)
235.60510 (194,13)
215.82730 (175,15)
209.17900 (237.13)
229.76540 (130,12)
219.83960 (195,10)
217.66850 (223,15)
237.31740 (178,12)
239.69540 (236,13)
248.31920 (201,11)
1300.0
230.33540 (215,14)
236.17310 (167,13)
227.91950 (198,11)
230.65160 (201,12)
223.97570 (199, 9)
224.86380 (201,10)
234.35960 (216.13)
219.82530 (243.13)
200.43810 (160,17)
220.96410 (267,12)
232.49680 (193,17)
220.96410 (233,10)
225.05130 (180, 9)
230.47980 (203,13)
227.47940 (157,17)
219.18220 (255,11)
234.53370 (257,12)
232.13490 (239,16)
224.12510 (164,15)
235.92320 (210,16)
226.56710 (193,15)
222.50630 (210,15)
205.54300 (136,13)
222.28780 (257,15)
210.83340 (150,11)
200.55400 (262,13)
223.35020 (185,14)
226.61060 (194,13)
185.02660 (175,15)
206.23630 (207,16)
205.09880 (130,12)
204.78370 (166,13)
220.57210 (223,15)
231.28550 (178,12)
220.86570 (233,11)
225.46640 (197,13)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
REFINED EXAMPLE
HIGH
1-HR
SGROUPff 1
00
t/i
I
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 280.02350 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
2BO.O /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
1700.0
199.27860 (216,16)
234.02250 ( 10,10)
199.78470 ( 13, 9)
199.39590 (225,16)
194.75150 (220.16)
194.91850 (146,14)
195.30870 (199,11)
194.00560 (258,15)
198.51170 (160,17)
192.22390 (153.14)
201.25110 (193.17)
207.27140 ( 5.11)
193.26300 (144,16)
203.49700 (214,17)
203.92030 (253,17)
202.77610 (255,11)
196.18940 (257,12)
202.23780 (239,16)
203.41830 (259.12)
204.38160 (210,16)
206.07460 (193,15)
192.13830 (210,15)
185.22200 (190,23)
203.49700 (257,15)
193.22640 (364,10)
220.83310 (364,10)
204.13900 (185,14)
204.71360 (255,16)
181.71190 (153,16)
202.36820 (207,16)
175.09760 (182, 6)
198.51150 (160,16)
194.45460 (223,15)
198.72980 (195,14)
195.93350 (200,14)
196.71570 (174.14)
2200.0
179.04910 (188.15)
225.14150 ( 10,10)
232.14150 ( 13, 9)
178.68250 (225,16)
172.57000 (182,14)
166.77400 (172,17)
165.50110 (203,16)
167.91480 (219.18)
168.25650 (160,17)
172.51890 (215.15)
169.46720 ( 14, 9)
207.62010 ( 5,11)
179.99370 (217.16)
192.65810 (269,13)
172.31470 (253.17)
169.13980 (148,16)
160.63690 (164, 8)
178.68250 (256,15)
197.93430 ( 4,11)
175.81560 (143,16)
170.77440 (244,13)
161.12580 (297, 6)
173.40830 (257,16)
165.30010 (228, 7)
181.41360 (364,10)
209.44760 (364,10)
188.05080 ( 8, 9)
171.71760 (255,16)
162.65470 (240, 8)
170.41400 (207,16)
163.63490 (182, 6)
168.48830 (240,17)
174.41310 (187,14)
172.06990 (251,13)
203.51040 (342, 9)
174.17180 (174,14)
RANGE (METERS)
2900.0
162.89380 (184, 5)
185.27080 ( 10,10)
222.62850 ( 13, 9)
151.69270 (208,15)
149.45120 (182,14)
147.94940 (167,14)
145.91820 (203.16)
144.71110 (219,18)
139.91350 (245, 8)
155.35400 (215,15)
171.76400 ( 14, 9)
174.16880 ( 5,11)
148.96930 (217,16)
162.43780 (269,13)
149.07210 (192. 5)
140.74940 (263, 1)
142.88870 (297,12)
144.87780 ( 15, 9)
203.81190 ( 4,11)
138.28450 (191, 8)
153.39530 (343,10)
141.83660 (297,11)
144.45500 (257,16)
141.02230 (226, 7)
195.39900 ( 5,10)
170.61500 (364,10)
189.95090 ( 8, 9)
139.24190 (185,17)
175.19380 ( 8, 8)
141.22760 (252,20)
137.71810 (259, 8)
145.07060 (240,17)
154.40520 (188,17)
152.73620 (260,15)
214.15870 (342, 9)
147.04530 (161,15)
3800.0
167.87210 (184, 5)
152.44230 (290, 7)
186.66200 ( 13, 9)
125.28190 (155.20)
124.91980 (209,15)
123.19750 (217,20)
120.86060 (223.18)
128.11940 (248,16)
121.59760 (210,20)
128.42910 (215,15)
152.56140 ( 14, 9)
138.39000 ( 5,11)
137.41680 ( 24,11)
128.81610 (269,13)
143.85780 (192. 5)
122.97870 (229, 3)
120.82920 (164, 5)
152.96420 ( 15, 9)
177.76080 ( 4,11)
130.74890 ( 54, 9)
136.29350 (343,10)
115.65500 (297,11)
120.88670 (140, 8)
120.16440 (349,17)
196.74430 ( 48, 8)
137.20500 ( 2, 9)
165.92030 ( 8, 9)
122.14440 (212, 1)
174.81260 ( 8, 8)
125.58260 (252,17)
126.50100 (220,20)
123.91680 (252,19)
127.84690 (188,17)
146.43440 ( 12, 8)
189.78820 (342, 9)
128.15680 (203,20)
5000.0
156.45950 (184, 5)
143.57040 (332,17)
147.56490 ( 13, 9)
138.70700 (155,20)
120.59340 (363, 4)
134.83220 (305,24)
127.22330 (281,19)
137.43720 (302.18)
114.06610 ( 97, 6)
123.21960 ( 61, 4)
137.90200 (300,17)
146.99470 (231, 5)
137.19470 (160, 1)
111.15840 (308, 8)
150.22030 (253, 5)
136.57750 (229, 3)
109.54010 (263,24)
135.87250 ( 15, 9)
141.51010 { 4,11)
124.23270 ( 54, 9)
126.68940 (251, 5)
132.90000 ( 18,18)
107.63360 (269,21)
122.04750 (185.19)
170.65960 ( 48, 8)
132.71770 (335,22)
133.24960 ( 8, 9)
139.85770 (212, 1)
158.09480 ( 8, 8)
143.57040 ( 60,24)
132.53680 (321, 5)
142.99040 ( 19.19)
136.17610 (160, 5)
149.95700 (257, 7)
152.61180 (342, 9)
116.60370 (146, 5)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (coot.)
*** REFINED EXAMPLE
2ND HIGH
1-HR
SGROUP* 1
* SECOND HIGHEST 1-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
Co
en
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
HO.O /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
500.0
230.20530 (179,11)
215.78930 (123.13)
230.71120 (153,12)
189.47800 (170,11)
170.64790 (224,13)
205.15200 (179,12)
210.42880 (115,13)
133.78520 (141,12)
184.73600 (154,11)
231.70320 (143,11)
178.43850 (170,12)
234.72340 (239,11)
234.72340 (239,11)
217.23150 (158,11)
241.00660 (168,10)
250.78110 (147,11)
242.56540 (248,12)
224.30120 (176,10)
214.71420 (115,12)
184.90060 (145,13)
149.83070 (223,11)
167.61890 (158,10)
228.79050 (139,10)
216.39900 (132,12)
215.81700 (223,13)
161.07930 (103,12)
179.55800 (238,12)
179.55800 (238,12)
210.78970 (122,11)
154.47090 (121,15)
153.82490 (143,13)
208.93650 (195,12)
202.07180 (108,11)
236.65110 (156.12)
245.99320 (219,11)
241.28410 (151,11)
700.0
276.50600 (246,11)
254.70750 (207,11)
234.40430 (153.12)
266.92590 (171,12)
237.14330 (126,11)
244.41640 (224.13)
237.89470 (250,12)
215.29700 (194,10)
218.39510 (220,12)
235.15210 (154,11)
225.66420 (215,12)
254.91820 (249,12)
242.16580 (141,10)
243.12660 (214,13)
246.94930 (164,13)
247.20990 (148.10)
240.50020 (247.11)
253.32110 (161,10)
250.72940 (145,13)
237.13720 (145,13)
224.74920 (144,11)
229.88460 (139,12)
251.98740 (139.10)
237.95130 (146,13)
239.83370 (146,10)
183.69590 (145.11)
239.73910 (238,12)
239.73910 (238,12)
219.03440 (147,10)
229.42700 (121,15)
245.33790 (130,13)
263.97760 (190,13)
250.53030 (169,13)
264.45000 (187,13)
274.80430 (151,12)
270.90300 (196,13)
RANGE (METERS)
900.0
267.07790 (149,13)
264.21320 (207,11)
238.69890 (205,12)
264.21320 (173,12)
239.77270 (113,12)
241.98980 (201,10)
234.58150 (180,12)
221.69770 (123,12)
226.28430 (218, 9)
231.69830 (267,12)
228.31830 (253,12)
241.22380 (186,13)
232.22220 (238,14)
236.22110 (148,11)
238.69870 (216,12)
235.26310 (157,13)
236.45090 (217,11)
232.22070 (242,14)
229.33550 (218,14)
220.36520 (193,11)
232.14030 (175,11)
222.80960 (139,12)
232.85930 (136,13)
237.87030 (146,13)
209.69720 (276,12)
198.36870 (121,14)
218.05530 (225,11)
223.52450 (234,14)
203.55730 (271,14)
227.35200 (142,14)
239.47250 (145,15)
246.19320 (190,13)
228.51010 (195,11)
258.25150 (162,13)
251.62060 (236,13)
263.50470 (196,13)
1100.0
249.78210 (188,12)
242.40560 (241,11)
233.97510 (198,11)
242.40550 (259,15)
232.42000 (113,12)
233.53600 (271,15)
239.46780 (199,11)
215.20070 (194,10)
205.86970 (193,12)
222.54790 (216,15)
218.20390 (214,14)
221.12630 (148,13)
232.70660 (238,14)
235.03240 (185,11)
225.39440 (157,17)
211.78890 (284.15)
240.38980 (210,13)
224.66770 (192,10)
229.54710 (163.11)
236.17810 (210,16)
222.37890 (129,11)
223.18130 (210,15)
210.46300 (136,11)
218.97230 (150,10)
210.51430 (139,15)
205.38320 (208, 8)
214.15740 (185,14)
211.81050 (144,13)
188.58150 (271,14)
208.75030 (142,14)
217.71520 (145,15)
219.25350 (195,12)
202.62650 (169,13)
231.25280 (162.13)
233.40680 (170,14)
244.79850 (199,12)
1300.0
229.72200 (188,12)
231.92550 (188,10)
224.59070 (168,13)
228.71580 (181,14)
210.39300 (113,12)
216.59050 (171,10)
232.90450 (199,11)
204.81860 (240, 9)
188.07610 ( 66,13)
215.83650 (174,10)
212.94450 (242,10)
216.27420 (299,12)
220.09430 (232,13)
228.71570 (185,11)
223.06450 (167,10)
218.08690 (192,17)
232.73420 (210,13)
220.86560 (192,10)
221.64240 (263,13)
222.09880 (210,14)
217.79480 (140,13)
203.07070 (191,12)
201.38200 (190,23)
214.81340 (148,17)
207.69910 (139,15)
186.24080 (208, 8)
221.77110 (150, 8)
209.79670 (255,16)
180.28220 (153,16)
187.65970 (237,13)
188.26780 (234,12)
200.43790 (160,16)
197.63300 ( 63,16)
218.23850 (195,14)
220.08910 (170,14)
225.23350 (201,11)
-------�
TABLE 8.5.6 1SCST EXAMPLE -- OUTPUT (cont.)
REFINED EXAMPLE
2ND HIGH
1-HR
SGROUP* 1
oo
tn
oo
* SECOND HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
, * FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 276.50600 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140. 0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
1700.0
196.39630 (188.15)
202.21810 (188, 9)
198.95860 (189, 7)
195.30180 (172, 9)
189.30070 (199, 9)
191.88830 (213,13)
194.92230 (216,13)
190.62710 (243,13)
184.54020 (232,16)
190.28510 ( 69,15)
197.79370 (242,10)
186.49070 (232,17)
191.87330 (143,17)
193.99290 (203,13)
200.22440 (165,15)
200.94570 (192,17)
194.45460 (156,17)
199.39590 (256,15)
194.58090 (299,13)
200.80190 (191,16)
188.07230 (244,13)
177.16160 (297, 6)
177.42210 (136, 9)
195.53230 (148,17)
190.22070 (161, 7)
181.10770 (241, 7)
195.532A"
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cent.)
REFINED EXAMPLE
MAX 50
1-HR
SGROUP* 1
* 50 MAXIMUM 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
oo
RANK
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
CON.
280.02350
278.66780
277.47940
276.50600
276.42630
274.80440
274.80430
272.77910
272.70920
271 .99840
271.99840
271.76720
270.90300
269.39360
268.51970
268.09270
268.05550
267.27140
267.07790
266.92590
264.45000
264.21570
264.21570
264.21320
264.21320
HOUR
11
13
13
11
13
13
12
10
12
13
11
12
13
10
13
12
12
12
13
12
13
13
11
11
12
DAY
151
188
195
246
149
151
151
150
169
205
169
195
196
169
188
209
209
171
149
171
187
205
169
207
173
X Y(METERS)
OR OR
RANGE DIRECTION
(METERS) (DEGREES)
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
700.0
900.0
700.0
900.0
900.0
900.0
700.0
700.0
900.0
900.0
900.0
900.0
10.0
360.0
20.0
360.0
360.0
30.0
20.0
130.0
20.0
20.0
350.0
50.0
10.0
330.0
360.0
10.0
10.0
330.0
360.0
330.0
30.0
20.0
350.0
350.0
330.0
RANK
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CON.
264.09850
263.97760
263.51840
263.50470
262.28790
260.40230
260.11810
259.95420
258.92880
258.47490
258.25150
258.21860
258.17490
257.85600
257.68880
257.52510
257.32650
257.21810
257.21810
257.09630
256.89890
256.84520
256.74630
256.36860
255.54930
HOUR
11
13
13
13
11
13
10
10
10
13
13
11
11
12
11
11
13
11
13
13
13
14
10
12
11
DAY
194
190
201
196
246
187
151
162
198
220
162
186
150
236
145
195
168
196
178
120
147
186
136
250
241
X Y(METERS)
OR OR
RANGE DIRECTION
(METERS) (DEGREES)
500.0
700.0
700.0
900.0
900.0
900.0
700.0
700.0
900.0
700.0
900.0
700.0
900.0
700.0
700.0
700.0
900.0
700.0
700.0
700.0
700.0
900.0
700.0
900.0
900.0
210.0
50.0
10.0
10.0
360.0
30.0
10.0
360.0
350.0
250.0
30.0
240.0
120.0
30.0
100.0
40.0
340.0
30.0
10.0
50.0
290.0
360.0
140.0
300.0
350.0
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
oo
en
i
en
O
*** REFINED EXAMPLE
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 211.92870 AND OCCURRED AT (
HIGH
3-HR
SGROUPtf 1
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
113.06820
116.10890
94.58294
92.09406
77.04170
72.84286
77.27757
51.49177
77.23436
79.61185
77.73476
97.82057
106.86350
146.99260
139.95120
124.22810
96.28408
96.39622
98.26709
115.75770
108.74790
103.27030
140.90200
102.75840
83.39639
58.27679
79.30697
79.48280
93.60034
83.05881
87.24817
154.26040
139.37230
145.40710
144.49470
193.54840
500.0
(187,
(125.
(183,
(205,
(126,
(141,
(141,
(127,
(143,
(154.
(176,
(239,
(239,
(168,
(157,
(157,
(194,
(176,
(223,
(223,
(235,
(235,
(136,
(132,
(146,
(146,
(150.
(122.
(122,
(143,
(226,
(195,
(108,
(196,
(151,
(151,
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
5)
4)
4)
4)
4)
5)
4)
4)
5)
5)
4)
4)
4)
4)
4)
173.15560
175.86650
141.12580
137.95630
152.09230
102.80960
109.73480
93.18832
78.90628
83.33981
102.37510
121.97630
145.99460
159.90440
163.28060
143.48310
137.10450
121.93630
139.24650
159.65150
192.77340
180.42310
171.63310
134.41550
109.41530
70.18998
134.38770
119.68980
129.02310
91.58568
163.42380
211.92870
168.04350
210.53470
154.53550
211.25180
700.0
(187, 4)
(125, 4)
(170, 4)
(205, 4)
(126, 4)
(126, 4)
(138, 5)
(123, 4)
(127, 4)
(253, 4)
(137, 5)
(239. 4)
(141. 4)
(216, 4)
(224, 4)
(138. 4)
(186, 4)
(176. 4)
(105, 4)
(223, 4)
(235, 5)
(191, 4)
(136, 4)
(132, 4)
(132, 4)
(116, 4)
(150, 5)
(150, 5)
(122, 4)
(226, 5)
(226, 5)
(195, 4)
(108, 4)
(196, 4)
(151, 4)
(151, 4)
RANGE
186.93790
188.47310
151.49130
132.19780
141.27330
84.65618
130.64870
92.61992
102.14280
99.71160
121.73930
121.81010
173.29500
176.44320
160.69340
130.36530
148.39790
137.26060
163.72990
115.29120
187.78100
202.56300
156.36210
145.83020
101.68650
88.47276
141.23060
125.10270
108.63860
77.08559
144.41510
206.74980
159.49150
207.77570
141.98080
182.03090
(METERS)
900.0
(188, 5)
(181, 4)
(198, 4)
(205, 4)
(113, 4)
(248, 5)
(138. 5)
(123, 4)
(157, 5)
(216, 5)
(137, 5)
(137, 5)
(232, 5)
(216, 4)
(216, 4)
(103, 4)
(186, 4)
(137, 4)
(105. 4)
(105, 4)
(235, 5)
(191, 4)
(136, 4)
( 92, 8)
(150, 4)
(275. 4)
(150, 5)
(150, 5)
(122, 4)
(226, 5)
(226, 5)
(195, 4)
(108, 4)
(196, 4)
(114, 5)
(151, 4)
1
192.15820
184.24470
156.88370
134.73540
145.77290
101.00000
125.91910
89.26445
110.23220
99.23441
127.10470
120.75760
189.87180
162.33540
142.65870
134.18820
154.42650
138.28510
159.58500
118.13420
161.22290
193.12850
153.80410
159.15390
101.19000
99.50713
127.15150
112.07550
86.88168
70.88719
116.27450
181.81100
140.59660
183.13560
153.09660
148.70130
100.0
(188, 5)
(181, 4)
(198. 4)
(197. 4)
(113, 4)
(176. 6)
(138, 5)
(127, 5)
(157, 5)
(216. 5)
(214, 5)
(267. 4)
(232. 5)
(216. 4)
(216, 4)
(255, 4)
(253. 3)
(137. 4)
(105, 4)
(105, 4)
(235, 5)
(191. 4)
(136, 3)
( 92, 8)
(130. 7)
(275, 4)
(150, 5)
(150, 5)
(122, 4)
(130, 4)
(234. 4)
(195, 4)
(108, 4)
(196, 4)
(114, 5)
(151, 4)
1
183.59060
168.43020
148.45140
128.89300
137.92440
113.42850
113.98970
85.55127
106.21470
105.14000
122.18960
112.70730
185.56930
158.91490
141.20930
128.84720
162.95670
127.76890
146.73380
111.10870
144.44900.
172.86130
150.37930
156.06640
101.35670
98.81879
108.33620
95.05899
69.37286
72.47693
112.28750
154.74080
129.75000
184.89810
152.65040
137.42580
300.0
(188, 5)
(117, 4)
(198, 4)
(267, 6)
(113, 4)
(176. 6)
(179. 6)
(127. 5)
(157. 5)
( 65, 5)
(214, 5)
(267, 4)
(232, 5)
( 18, 5)
(302. 4)
(191. 5)
(253. 3)
(137. 4)
(263, 5)
(105. 4)
(193, 5)
(191. 4)
(136. 3)
( 92. 8)
( 93, 7)
(275, 4)
(150. 5)
(150, 5)
(122, 4)
(141. 8)
(234, 4)
(195, 4)
( 90. 4)
(162, 6)
(114. 5)
(100. 8)
-------�
TABLE 8.5.6 ISCST EXAMPLE OUTPUT (cent.)
REFINED EXAMPLE
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
HIGH
3-HR
SGROUP0 1
oo
en
i
Ol
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
1
170.99780
151.44750
120.38490
137.26310
129.85350
117.43860
112.88930
81.67052
99.76189
105.05840
112.65150
92.63100
154.59600
158.58820
138.85260
113.54880
151.34880
100.09430
130.23110
103.50200
127.97120
131.11390
133.11840
138.20830
98.75887
95.27511
76.00154
68.23788
60.57064
86.74173
97.87103
114.54320
119.07950
173.91000
152.92980
125.94150
1 700.0
(162.
(117,
(198,
(267,
(230,
(176,
(179,
(146,
(345,
( 65.
(308.
(314,
(232,
( 18.
( 51.
( 91.
(253,
(137,
(159.
(297,
(193.
(191,
( 93,
( 92,
( 93,
(103,
(150,
(255.
(153,
(141,
(338,
(187,
( 90.
(162,
(120,
(120,
7)
4)
4)
6)
5)
6)
6)
3)
4)
5)
5)
5)
5)
5)
5)
5)
3)
4)
3)
5)
5)
4)
3)
8)
7)
6)
5)
6)
6)
8)
1)
6)
4)
6)
6)
7)
154.61810
137.18770
121.65270
129.78050
135.86890
105.27200
99.74232
78.56971
100.64500
89.00406
100.41910
91.99681
114.91340
135.13310
125.42460
90.24477
122.51460
89.79939
107.57190
98.77377
101.24820
122.09140
115.48080
121.54750
94.72337
87.18889
64.28368
57.23919
54.21916
89.56288
95.24791
106.37830
100.82140
149.32020
137.61290
114.64370
1200.0
(162, 7)
(181, 1)
(190, 2)
(267, 6)
(230, 5)
(176, 6)
(172. 6)
(179, 6)
(345, 4)
( 65, 5)
(308, 5)
(295. 5)
(232, 5)
( 18, 5)
( 51, 5)
( 91, 5)
(253, 3)
( 94, 7)
(159, 3)
(297, 5)
(346, 4)
(322, 3)
( 93, 3)
(325, 7)
( 48. 3)
(103. 6)
(247. 3)
(255. 6)
(240. 3)
(141, 8)
(338, 1)
(240, 6)
( 60, 7)
(162, 6)
(120, 6)
(261, 6)
RANGE (METERS)
2900.0
127.53100 (114, 7)
123.33030 (201, 3)
119.41100 (190, 2)
110.74150 (267, 6)
127.66140 (230, 5)
83.67323 (273, 6)
84.85239 (172, 6)
70.51393 (179, 6)
87.27167 (345, 4)
65.44131 ( 65, 5)
78.80710 (308, 5)
77.39444 (295, 5)
92.28699 (295, 5)
101.01900 ( 18, 5)
97.68594 ( 51, 5)
77.24387 (263, 3)
87.98756 (253, 3)
82.22580 ( 94. 7)
79.59315 (159. 3)
85.73083 (191, 1)
84.95367 (297, 1)
106.61160 (322, 3)
110.81650 ( 73, 6)
119.26460 (325, 7)
102.50980 ( 48, 3)
86.30505 ( 27, 2)
63.31699 ( 8, 3)
55.81457 (335, 2)
62.56377 (113, 2)
82.10210 (141, 8)
88.23438 (292, 7)
93.26465 (141, 7)
83.45834 (245, 6)
117.65690 (162, 6)
112.52550 (120, 6)
96.17422 (261, 6)
103.15820
102.94030
104.94510
87.99252
109.42550
79.34657
67.23563
57.47942
70.11697
45.84414
56.93235
66.25238
73.51884
90.74300
97.51430
73.03275
71.39651
68.53223
74.76235
70.77209
72.78870
86.11247
97.23404
105.02190
96.59112
93.84396
55.30678
71.28211
69.67311
70.68676
82.17617
81.90607
69.53876
90.29491
86.73391
80.25597
5800.0
(114,
(201,
(190,
(267,
(230,
(217,
(172,
(179,
(345,
(242.
(308,
(230,
( 61,
( 61,
( 28.
( 33,
(284,
( 94,
( 95.
(191.
(297,
(322,
( 73,
(325,
( 48.
( 27,
( 8,
(335,
(279,
( 63,
(292,
(252,
(245,
(182,
(120,
(159,
7)
3)
2)
6)
5)
7)
6)
6)
4)
6)
5)
7)
1)
6)
6)
6)
5)
7)
8)
1)
1)
3)
6)
7)
3)
2)
3)
2)
8)
1)
7)
7)
6)
7)
6)
8)
5000.0
78.78427 (114,
89.89586 ( 60,
89.14419 ( 37,
66.22032 (267,
87.70825 (230,
84.56793 (217,
59.37264 (272,
49.84438 (347,
54.85524 (345.
41.07319 ( 61,
45.96734 (300,
60.94387 (230.
81.74186 ( 61,
75.15530 ( 61,
88.93077 ( 28,
77.57950 (231,
55.88584 (284.
55.13451 ( 96,
67.61913 ( 95,
54.88264 (331,
58.14273 (297,
65.58427 (322,
79.00407 ( 73,
85.71687 (525,
81.40941 ( 48,
91.25581 ( 27,
53.25238 ( 38,
78.22266 (335,
72.63418 (281,
75.84480 ( 63,
71.70802 (319,
68.96493 (252,
67.85749 (135,
70.01382 (182,
63.77770 (120,
66.87982 (159,
7)
1)
7)
6)
5)
7)
2)
6)
4)
2)
6)
7)
1)
6)
6)
1)
5)
7)
8)
1)
1)
3)
6)
7)
3)
2)
2)
2)
1)
1)
7)
7)
1)
7)
6)
8)
-------�
TABLE 8.5.6 1SCST EXAMPLE OUTPUT (cont.)
REFINED EXAMPLE
2ND HIGH
3-HR
SGROUPtf 1
* SECOND HIGHEST 3-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
oo
tn
i
tn
K)
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160." /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
109.51960
95.45126
93.70522
77.53033
59.17772
68.38531
70.14292
49.07898
61.61210
77.23537
64.74593
82.50851
88.29340
90.00149
137.23030
108.93280
83.88129
76.24025
85.30510
78.24115
78.24118
96.99155
109.05450
81.61311
77.68401
53.69309
65.43564
70.87846
73.84051
53.90716
60.39195
79.02998
109.67420
100.38180
103.07590
122.23070
500.0
(179, 4)
(241, 4)
(170, 4)
(170, 4)
(224, 5)
(179, 4)
(115, 5)
(123. 4)
(154, 4)
(143, 4)
(154, 4)
(176. 5)
(141. 4)
(148, 4)
(168, 4)
(138, 4)
(247, 4)
(248, 4)
(176, 4)
(144. 4)
(144, 4)
(191. 4)
(139, 4)
(150, 4)
(132, 4)
(103, 4)
(145, 4)
(150, 5)
(143, 5)
(122, 4)
(130, 5)
(120, 5)
(195, 4)
(151, 5)
(162, 4)
(162, 4)
154.34820
161.16740
139.45530
128.89160
112.16500
83.71423
88.71117
85.63296
74.85843
82.63710
100.33610
112.75460
138.24050
156.76720
160.00430
143.08240
117.87000
110.34430
136.87180
92.55468
126.71250
165.62960
126.90210
108.99440
98.04033
61.23197
85.89627
111.50980
73.01147
78.64607
83.71947
127.20950
141.10700
135.91080
138.88550
149.27020
700.0
(188.
(181,
(205,
(126,
(113,
(123,
(123,
(147,
(123,
(170,
(215,
(249,
(239,
(168,
(157,
(157,
(194,
(137,
(223,
(235,
(191,
(235,
(139,
(150,
(150,
(145,
(145,
(122,
(147,
(143,
(130,
(226,
(195,
(151,
(196,
(162,
5)
4)
4)
4)
4)
4)
4)
5)
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
4)
5)
4)
4)
4)
4)
4)
4)
4)
5)
5)
5)
4)
5)
4)
4)
RANGE
177.99490
177.98980
145.29220
131.75060
114.95700
83.08833
85.53743
92.27660
84.65273
89.79928
119.64530
118.48260
137.41670
162.80420
155.61460
128.04540
137.54690
115.06370
139.73670
104.80160
141.23720
143.57790
141.53830
111.92260
93.64516
68.58958
73.65924
94.11821
78.81699
76.03340
107.47390
124.10710
135.71720
153.36670
135.87920
149.19260
(METERS)
900.0
(187, 4)
(125, 4)
(205, 4)
(197, 4)
(126, 4)
(271, 5)
(250. 4)
(138, 5)
(123, 4)
(253, 4)
(214, 5)
(267. 4)
(293, 4)
(258, 4)
(224, 4)
(255, 4)
(257, 4)
(109, 5)
(263, 5)
(223, 4)
(191. 4)
(235. 5)
(136, 3)
(249. 5)
( 97. 5)
(208, 3)
(150, 3)
(122, 4)
(175, 5)
(121, 5)
(234, 4)
(120, 5)
(169, 5)
(162, 6)
(196, 4)
(209, 4)
1
161.10250
167.90430
131.11030
114.88950
106.05690
92.29974
105.06440
86.50195
79.16289
94.54637
117.13370
115.93240
149.54140
158.56650
141.25900
132.65450
147.87500
122.53140
150.88020
94.98930
141.99750
115.22530
133.78320
116.98460
100.52570
80.02693
77.43088
78.53503
71.94244
69.72632
110.98440
120.25490
130.82130
180.10990
141.65860
136.89370
100.0
(187. 4)
(117. 4)
(205. 4)
(267, 6)
(199, 3)
(237. 6)
(179. 6)
(138, 5)
(123. 4)
( 65, 5)
(137, 5)
(137, 5)
(293, 4)
(258, 4)
(224, 4)
(191, 5)
(257, 4)
(109, 5)
(263. 5)
(217, 4)
(193, 5)
(330, 4)
( 93, 3)
( 93, 1)
(139. 5)
(103, 6)
(150, 3)
(194, 5)
(175. 5)
(237, 5)
(226, 5)
(120, 5)
(169, 5)
(162. 6)
(120, 6)
(100, 8)
1
169.83440
167.59940
112.56680
126.42890
112.03910
97.64107
111.67920
77.13620
80.63290
90.80623
110.82090
107.64790
147.75990
141.26080
129.22820
128.68890
142.17700
117.04990
144.40120
95.99086
133.72440
118.67530
139.20620
118.15190
100.86440
90.74524
74.45007
75.53688
61.67554
68.75032
88.12903
117.06100
121.03210
160.72330
152.56050
131.82820
300.0
(162, 7)
(181, 4)
(205, 4)
(197, 4)
(199, 3)
(237, 6)
(138, 5)
(243, 5)
(345. 4)
(216. 5)
(276. 5)
(300, 4)
(293. 4)
(258. 4)
( 51. 5)
(255, 4)
(257. 4)
(109. 5)
(105, 4)
(297, 5)
(235. 5)
(330, 4)
( 93, 3)
( 93. 1)
(130, 7)
(103, 6)
(185, 5)
(194, 5)
(175, 5)
(207, 6)
(338, 1)
(187, 6)
(108, 4)
(101, 6)
(120, 6)
(120, 7)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
REFINED EXAMPLE
2ND HIGH
3-HR
SGROUP* 1
oo
l/i
Cn
* SECOND HIGHEST 3-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 180.10990 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
1700.0
158.79480
137.85100
109.26120
105.61490
112.25430
90.59078
105.67760
77.14973
86.12093
73.96353
102.88510
92.25426
127.24770
127.23110
121.96250
108.19850
116.06880
95.72108
123.06250
94.43743
116.92430
125.77020
132.62570
113.34690
92.36685
83.27967
68.04633
66.15289
59.18108
67.45969
91.42961
110.91820
112.05290
148.43500
141.67810
125.31070
(188, 5)
(181, 1)
(190, 2)
(171, 3)
(113, 4)
(237, 6)
(172, 6)
(179, 6)
(157, 5)
(242, 6)
(276, 5)
(295, 5)
(293, 4)
(310, 5)
(302, 4)
(191, 5)
(257, 4)
( 68, 5)
(263, 5)
(191, 1)
(346, 4)
(322, 3)
(136, 3)
( 50, 2)
( 93, 8)
(275, 4)
(185, 5)
(150, 5)
(182, 3)
(207, 6)
(234, 4)
(195, 4)
( 60, 7)
(101, 6)
(114, 5)
(100. 8)
2200.0
146.83390 (197, 6)
134.81340 (201, 3)
114.97140 (169, 8)
95.56893 ( 60, 3)
101.67630 (107, 6)
84.87746 (273, 5)
97.71184 (179, 6)
70.71397 (146, 3)
75.06549 ( 7, 5)
68.32411 (242. 6)
83.50252 (276, 5)
79.39690 (314, 5)
110.88250 (295, 5)
106.47990 (310, 5)
101.81540 (265, 5)
88.68526 (263, 3)
93.52948 (284, 5)
84.36105 (297, 6)
93.28046 (263, 5)
95.24593 (191. 1)
100.47080 (193, 5)
114.11450 (329, 5)
114.61400 (134, 5)
113.45140 ( 92, 8)
88.93854 ( 30, 8)
69.81586 (364, 4)
62.68365 ( 8, 3)
51.39635 (361, 6)
52.61507 (224, 3)
68.63927 (168, 2)
86.17862 (201, 6)
101.24670 (187, 6)
100.61410 ( 90, 4)
126.53330 (251, 5)
122.60540 (114, 5)
110.25780 (311, 5)
RANGE (METERS)
2900.0
127.13610
122.05170
110.53010
92.30162
84.64579
83.64842
80.48418
51.46545
60.51252
57.69220
63.79101
67.25594
83.64833
100.89970
97.46520
69.37222
85.45117
69.40813
74.74146
85.45511
80.34940
97.75747
102.07530
91.74953
84.59138
71 .44778
60.00572
46.41395
59.31087
72.81631
83.07606
92.13976
82.56648
109.07700
98.13131
91.25549
(162,
(181,
(169,
( 60.
(107,
(176,
(319,
(146.
(250,
(242,
( 8.
(230,
( 28,
( 61.
( 28,
( 33,
(284.
(297,
( 95,
(331.
(346.
( 96,
(134,
(121.
( 30.
(103.
(247,
(185,
(279,
(225,
(338,
(240,
( 60,
(182,
(114,
(311,
7)
1)
8)
3)
6)
6)
5)
3)
5)
6)
5)
7)
5)
6)
6)
6)
5)
6)
8)
1)
4)
3)
5)
7)
8)
6)
3)
6)
8)
8)
1)
6)
7)
7)
5)
5)
3800.0
98.55187
99.86504
101.78350
79.98105
66.12560
74.26916
60.56213
48.56576
47.66616
44.48130
50.85380
63.33672
68.35494
73.74010
76.08708
72.90146
62.47534
56.35768
59.25361
70.64233
60.76622
81.23287
84.07787
76.74586
72.76348
79.23458
52.98865
55.55545
69.35812
69.78111
73.82817
79.12686
67.66446
88.51137
74.72580
75.24200
(162,
(181,
( 37,
( 60,
(107,
(273,
(319,
(347,
(250,
( 65.
( 14,
(288,
(295,
(304.
(192,
(231,
(298,
( 9.
( 4,
(331,
(346,
( 96,
(134,
(121,
( 30,
(347,
( 38,
(280,
(281,
(143,
(213,
(141,
(135,
(162,
(114,
(261,
7)
1)
7)
3)
6)
6)
5)
6)
5)
5)
3)
6)
5)
6)
2)
1)
5)
7)
4)
1)
4)
3)
5)
7)
8)
3)
2)
2)
1)
8)
1)
7)
1)
6)
5)
6)
5000.0
74.79129
80.43840
85.37701
64.20986
49.16914
60.97213
55.14513
45.81242
38.02203
36.76978
44.74441
59.89532
58.74515
69.13866
65.69070
69.56493
47.95334
53.29481
47.17003
54.87646
49.91804
63.22772
65.30240
67.08568
62.75515
82.03964
46.67140
58.98877
70.82138
73.19788
70.39334
66.82823
65.94832
63.99160
57.44133
61.81306
(273, 8)
(201, 3)
(190, 2)
( 60, 3)
(107, 6)
(273, 6)
(229, 7)
(302, 6)
( 97. 2)
(213. 7)
(273. 2)
(288, 6)
(264. 6)
(304, 6)
(192, 2)
( 33, 6)
(298, 5)
( 94, 7)
( 4, 4)
(191, 1)
(156, 8)
( 96, 3)
(134, 5)
(328. 2)
(356, 2)
(347, 3)
(121, 6)
(280, 2)
(279, 8)
( 18, 7)
(292, 7)
(348, 1)
(245, 1)
(162, 6)
(317, 3)
(150, 2)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
*** REFINED EXAMPLE
MAX 50
3-HR
SGROUP* 1
* 50 MAXIMUM 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
00
cn
i
l/i
RANK
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
CON.
211.92870
211.25180
210.53470
207.77570
206.74980
202.56300
193.54840
193.12850
192.77340
192.15820
189.87180
188.47310
187.78100
186.93790
185.56930
184.89810
184.24470
183.59060
183.13560
182.03090
181.81100
180.42310
180.10990
177.99490
177.98980
PER.
4
4
4
4
4
4
4
4
5
5
5
4
5
5
5
6
4
5
4
4
4
4
6
4
4
DAY
195
151
196
196
195
191
151
191
235
188
232
181
235
188
232
162
181
188
196
151
195
191
162
187
125
X Y(METERS)
OR OR
RANGE DIRECTION
(METERS) (DEGREES)
700.0
700.0
700.0
900.0
900.0
900.0
500.0
1100.0
700.0
1100.0
1100.0
900.0
900.0
900.0
1300.0
1300.0
1100.0
1300.0
1100.0
900.0
1100.0
700.0
1100.0
900.0
900.0
50.0
10.0
30.0
30.0
50.0
150.0
10.0
150.0
160.0
360.0
240.0
350.0
160.0
360.0
240.0
30.0
350.0
360.0
30.0
10.0
50.0
150.0
30.0
360.0
350.0
RANK
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CON.
176.44320
175.86650
173.91000
173.29500
173.15560
172.86130
171.63310
170.99780
169.83440
168.43020
168.04350
167.90430
167.59940
165.62960
163.84520
163.72990
163.42380
163.28060
162.95670
162.80420
162.33540
161.22290
161.16740
161.10250
160.72330
PER.
4
4
6
5
4
4
4
7
7
4
4
4
4
5
4
4
5
4
3
4
4
5
4
4
6
DAY
216
125
162
232
187
191
136
162
162
117
108
117
181
235
241
105
226
224
253
258
216
235
181
187
101
X Y(METERS)
OR OR
RANGE DIRECTION
(METERS) (DEGREES)
900.0
700.0
1700.0
900.0
700.0
1300.0
700.0
1700.0
1300.0
1300.0
700.0
1100.0
1300.0
700.0
900.0
900.0
700.0
700.0
1300.0
900.0
1100.0
1100.0
700.0
1100.0
1300.0
230.0
350.0
30.0
240.0
360.0
150.0
140.0
360.0
360.0
350.0
40.0
350.0
350.0
150.0
350.0
180.0
60.0
220.0
200.0
230.0
230.0
160.0
350.0
360.0
30.0
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (coot.)
*** REFINED EXAMPLE
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
HIGH
24-HR
SGROUP* 1
00
Cn
i
tn
Cn
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
23.59056
16.15236
12.93002
11.52223
12.68080
15.15492
9.65970
8.65885
11.28704
12.11389
11.16380
13.25203
15.07839
21.25614
25.38889
23.81118
15.29649
13.63750
14.81499
14.47251
14.94240
12.97850
29.32834
14.36405
13.17590
7.61175
12.91544
10.40655
11.73988
10.47577
12.75259
20.43347
19.74191
23.26310
24.88314
29.45379
500.0
(125, 1)
(125, 1)
(183, 1)
(205, 1)
(189, 1)
(179, 1)
(141, 1)
(127, 1)
(143, 1)
(154, 1)
(154, 1)
(176, 1)
(239, 1)
(168, 1)
(157, 1)
(157, 1)
(247, 1)
(247, 1)
(145, 1)
(223, 1)
(235, 1)
(235, 1)
(136, 1)
(146, 1)
(146, 1)
(146. 1)
(150, 1)
(150, 1)
(122, 1)
(143, 1)
(130, 1)
(195, 1)
(108, 1)
(196, 1)
(151, 1)
(151, 1)
43.12560
31.01683
24.30769
19.82856
21.35324
22.41608
16.24963
17.82383
16.70493
16.77837
17.99284
21.78914
25.87685
31.26625
36.90441
31 .89096
25.92337
20.73384
700.0
(125, 1)
(181, 1)
(189, 1)
(171, 1)
(189, 1)
(179, 1)
(127, 1)
(127, 1)
(127, 1)
(243, 1)
(215, 1)
(215, 1)
(141, 1)
(185, 1)
(157, 1)
(157, 1)
(147, 1)
(247. 1)
21.89243C(105, 1)
23.53411
27.80052
27.25272
54.50301
28.34158
14.32827
11.66714
24.30483
19.62815
16.26970
12.14540
20.63994
32.00277
30.52559
45.28065
46.16023
44.84503
(235, 1)
(235, 1)
(330, 1)
(136, 1)
(136. 1)
(146, 1)
(150. 1)
(150, 1)
(150, 1)
(122, 1)
(130, 1)
(226, 1)
(195, 1)
(108, 1)
(196, 1)
(196, 1)
(151, 1)
RANGE (METERS)
900.0
56.71916 (188,
46.62612 (181,
32.87063 (189,
25.55953 (171,
24.03511 (189,
22.25804 (179,
18.99246 (199,
20.65323 (123,
20.61726 (127,
19.19276 (243,
19.97841 ( 92,
22.33437 (215,
27.47832 (258,
35.76819 (185,
33.80936 (157,
29.99240 (148,
26.05519 (147,
23.63808 (135,
28.33329 (163,
28.06630 (235,
28.56788 (235,
49.33572 (330,
66.25354 (136,
36.70656 (136,
22.32745 ( 93,
13.45914 (225,
27.53702 (150,
22.87436 (150,
13.74461 (122,
15.72274 (130,
21.91960 (130,
36.65903 (195,
36.04193 (108,
57.49986 (196,
63.65774 (196,
52.15211 (151.
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)
1100.0
62.94138
55.92572
37.26219
27.68275
23.49491
19.73589
20.20556
20.34995
21.35312
18.05627
22.60002
23.21512
28.48737
34.25389
29.96552
28.36629
26.83169
24.48669
30.47366
28.51168
27.43301
62.59972
67.45006
39.48106
27.84880
14.78030
26.32169
22.73111
11.53928
16.58025
20.42127
37.09832
37.19594
60.70372
70.89441
52.80206
(188.
(181.
(189.
(171.
(189,
(179,
(199.
(123.
(127.
(243,
( 92,
(144,
(255,
(185.
(148,
(148,
(253,
(135.
(163.
(235,
(191,
(330,
(136,
(136.
( 93,
(262,
(150,
(150,
(130.
(130,
(130,
(195,
(108,
(196,
(196,
(151,
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)
1300.0
63.42328
59.38997
38.28834
27.44992
22.80853
20.98240
19.28458
18.72577
20.36574
16.34893
22.55913
22.17228
30.03775
30.58023
25.68937
25.82368
28.28453
22.84801
29.56120
26.95182
26.47287
67.62091
63.61967
38.91554
29.71229
15.31068
23.52103
21.10663
11.51736
17.33659
18.08025
35.25993
35.77533
58.83536
71.23228
49.99321
(188, 1)
(181, 1)
(189, 1)
(171. 1)
(230. 1)
(172, 1)
(199, 1)
(123, 1)
(127. 1)
(290. 1)
( 92, 1)
(144, 1)
(293, 1)
(185, 1)
(148, 1)
(148, 1)
(253, 1)
(135, 1)
(163, 1)
(235, 1)
(191. 1)
(330, 1)
(136, 1)
(136, 1)
(93, 1)
(262, 1)
(150, 1)
(150, 1)
(130. 1)
(225, 1)
(130, 1)
(195, 1)
(108, 1)
(196, 1)
(196. 1)
(151. 1)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
REFINED EXAMPLE
HIGH '
24-HR
SGROUP# 1
* HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
oo
Ol
I
On
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
1700.0
60.07229
59.43733
39.92115
26.11096
26.02338
20.84504
17.00333
15.31328
16.72372
15.67594
20.08944
(197.
(181.
(169,
(197.
(230.
(172.
(179,
(179,
(127,
(290,
(308,
19.15669CC 71.
28.68137
28.76805
24.48533
28.12546
26.21685
25.22376
27.58646
28.09604
24.58179
68.24962
59.70815
35.95772
29.44438
13.99088
17.68996
18.93005
10.63661
18.99523
17.28425
30.39310
31.91231
51.70441
65.94278
45.04138
(293,
( 18.
( 51,
(263,
(253,
( 94,
( 95,
(191,
(193,
(330,
( 93,
( 31,
( 93,
(262,
(150,
(274,
(281,
(225,
(234,
(195,
(195,
(196,
(196,
( 86,
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)
2200.0
55.55984
54.16423
38.27370
22.96527
26.21514
21.14455
15.01391
13.99684
12.59123
13.08059
17.02712
(197,
(181,
(169,
(197,
(230,
(273.
(319,
(179,
(345,
(290,
(308,
17.84818C( 71,
23.41287
25.96980
21.84520
28.21561
23.26114
24.92035
28.75951
26.16109
20.81355
61.78563
52.56024
38.40534
26.27180
11.38557
12.37312
16.82121
12.89963
19.25435
17.12040
24.86318
27.41913
42.42286
56.44425
43.62751
(293.
( 9,
(309,
(263.
(164,
( 94,
< 95,
(191,
(265,
(330,
( 93,
( 31,
( 93,
(192,
(150,
(274,
(281,
(225,
(338,
(141,
(195,
(196,
(196,
(241.
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)
RANGE (METERS)
2900.0
46.57742
45.10093
33.80228
19.28188
23.76918
19.54329
12.99750
11.60746
10.91866
11.59979
12.78532
(197, 1)
(181, 1)
(261, 1)
( 70, 1)
(230, 1)
(273, 1)
(319, 1)
(179, 1)
(345, 1)
(242, 1)
(308, 1)
15.00992C( 71, 1)
20.89731
24.09589
20.23989
25.34931
20.39752
22.06634
27.32397
21.90633
18.93615
50.71788
42.06430
36.99030
21.31621
13.09544
10.28132
13.98119
14.39369
( 61, 1)
( 61, 1)
(263, 1)
(263, 1)
(164, 1)
( 94, 1)
( 95, 1)
(191, 1)
(265, 1)
(330, 1)
( 93, 1)
( 31, 1)
( 93, 1)
(347, 1)
(357, 1)
(334, 1)
(281, 1)
21.15469C( 63, 1)
16.40903
21 .48906
22.12397
32.23967
44.54742
39.65530
(338, 1)
( 15, 1)
(195. 1)
(196, 1)
(196, 1)
(241, 1)
3800.0
36.50485
35.22897
29.87547
15.83276
19.80763
16.50330
11.01620
10.16910
8.82812
10.30281
8.94922
12.36732
22.29453
22.42791
17.83341
20.89442
17.10391
17.93013
23.99674
17.11046
15.54257
39.08748
32.74397
32.80248
16.31200
15.38502
11.29103
15.42059
15.09001
(197, 1)
(181, 1)
(261, 1)
( 70, 1)
(230, 1)
(273. 1)
(221, 1)
(248, 1)
(97, 1)
(242, 1)
(308, 1)
(288, 1)
( 61, 1)
( 61, 1)
(263, 1)
(263, 1)
(164, 1)
( 94, 1)
( 95. 1)
(191, 1)
(265, 1)
(330. 1)
( 73, 1)
( 31, 1)
( 93, 1)
(357. 1)
(357, 1)
(334, 1)
(281, 1)
21.58637C( 63, 1)
16.06410
23.16645
17.46502
23.52453
33.52338
33.23579
(292, 1)
( 15, 1)
( 77, 1)
(196, 1)
(196, 1)
(241. 1)
5000.0
27.14024 (197, 1)
26.14727 (181, 1)
24.58352 (261, 1)
13.90725C(222, 1)
15.50467 (230, 1)
14.38971 (217, 1)
9.51379 (281, 1)
9.44179 (248, 1)
9.25175 (97, 1)
8.76868 (242. 1)
6.70620 (300, 1)
10.19603 (288, 1)
21.91122 ( 61, 1)
19.16296 (61, 1)
14.56645 (263, 1)
16.15947 (263, 1)
13.66784 (164, 1)
13.79049 (96, 1)
19.71393 ( 95, 1)
12.68602 (191, 1)
11.88078 (265, 1)
28.64983 (330, 1)
25.62815 ( 73, 1)
27.15683 ( 31, 1)
11.90639 (93, 1)
15.84824 (357, 1)
11.08797 (357, 1)
15.16520 (334, 1)
14.50018 (281, 1)
20.27163C( 63, 1)
15.15652 (292, 1)
22.52237 ( 15, 1)
16.34189 (245, 1)
17.51429 (204, 1)
24.20913 (196, 1)
26.10105 (241, 1)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (coot.)
REFINED EXAMPLE
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
2ND HIGH
24-HR
SGROUP* 1
CO
i
tn
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
500.0
19.68907 (188, 1)
14.37100 (128, 1)
12.50563 (170, 1)
10.30354 (169, 1)
12.22000 (179, 1)
9.10536 (141, 1)
9.19057 (115, 1)
8.02914 (123, 1)
7.95145 (154, 1)
10.11977 (143, 1)
10.87582 (215, 1)
13.01954 (220, 1)
14.63785 (141, 1)
16.07513 (185, 1)
19.21127 (168, 1)
15.53533 (148, 1)
14.78374 (147. 1)
13.50369 (145, 1)
12.28339 (223, 1)
10.81724 (235, 1)
9.91001 (223, 1)
12.41497 (191, 1)
15.09327 (139, 1)
13.95726 (136, 1)
9.72628 (132, 1)
7.55250 (103, 1)
8.17951 (145, 1)
9.94351 (122, 1)
9.25919 (143, 1)
7.17945 (122, 1)
10.94549 (226, 1)
18.56078 (120, 1)
16.37912 (195, 1)
15.34237 (151, 1)
21.34978 (196, 1)
18.99603 (162, 1)
42.04620
29.65636
23.40926
18.20208
19.01191
13.12341
15.40639
17.76443
13.99037
15.53213
17.46621
20.02282
23.86555
26.59401
31.71540
28.56395
23.19897
18.52797
20.92060
19.96125
20.40434
24.14993
26.73907
18.19595
13.75402
11.51844
10.73713
13.97586
9.14999
11.79910
20.60570
24.71631
27.64872
28.89368
35.92879
33.41911
700.0
(188,
(188,
(183,
(173,
(126,
(208,
(175,
(123,
(143,
(154,
(154,
(220,
(220,
(168,
(148,
(148,
(247,
(147,
(163,
(223,
(191,
(191,
( 93,
(131.
(132.
(103.
(145.
(122,
(147,
(226,
(130,
(120,
(195,
(162,
(151,
(152,
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)
RANGE
52.73218
42.53397
30.81049
22.94074
19.90388
15.69115
17.84418
18.61237
16.73948
14.93849
18.07512
21 .96542
25.43100
30.45129
33.18087
25.98469
24.18290
22.95965
(METERS)
900.0
(125, 1)
(188, 1)
(198, 1)
(197, 1)
(113, 1)
(172, 1)
(179, 1)
(127, 1)
(123, 1)
(215. 1)
(215, 1)
(144, 1)
(255, 1)
(258, 1)
(148. 1)
(157, 1)
(164, 1)
(142, 1)
27.91004C(105, 1)
21 .67487
26.01785
31.77684
46.86400
29.20890
19.18817
12.63757
13.09734
13.81515
10.32207
12.77329
18.46111
24.92750
33.78455
39.39967
39.55265
44.35168
(185. 1)
(191. 1)
(329. 1)
( 93. 1)
( 93, 1)
(130, 1)
(262. 1)
(243. 1)
(274, 1)
(130, 1)
(225, 1)
(226. 1)
(120, 1)
(195, 1)
(162, 1)
(151. 1)
(152, 1)
1100.0
54.85126
49.23311
35.62434
26.42086
21.94216
19.54932
18.94117
17.95291
16.99012
15.37143
19.30546
19.62736
28.09075
29.56064
29.59336
24.20659
26.01769
23.82853
(125,
(188,
(198,
(197,
(113,
(172,
(179,
(199,
(123,
(290,
(308.
(215,
(293,
(258,
(157,
(191,
(164,
(142,
29.43352C(105,
23.52360
25.81761
40.68677
57.81584
35.39396
21.67114
14.43646
14.87920
17.38978
11.01304
15.64344
17.08791
23.37334
35.73408
42.82666
41.45766
48.05615
(191,
(235,
(329,
( 93.
( 93,
(130.
(225,
(243.
(274,
(122,
(225,
(234,
(141,
(195,
(162,
(120,
(152,
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)
1300.0
58.23609
51.09750
37.95060
27.28848
22.16928
18.76799
18.83709
17.43395
15.80707
15.78127
20.72993
19.80643
28.40211
27.08839
25.62470
24.55450
26.13930
22.61412
(197, 1)
(117, 1)
(169. 1)
(197, 1)
(113, 1)
(248, 1)
(179, 1)
(199, 1)
(123, 1)
(243, 1)
(308, 1)
(288, 1)
(255, 1)
( 18, 1)
(157, 1)
(263. 1)
(164, 1)
(142, 1)
28.53354C(105, 1)
26.54015
26.40819
45.41853
61.13067
37.06158
21.83700
13.82688
15.18022
18.96041
8.79915
15.92638
17.76719
25.61920
35.10015
42.10883
44.25811
47.24284
(191, 1)
(193. 1)
(322, 1)
( 93, 1)
( 93, 1)
(130, 1)
(225, 1)
(243, 1)
(274, 1)
(122, 1)
(130, 1)
(234, 1)
(141, 1)
(195, 1)
(162, 1)
(120, 1)
(152, 1)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cent.)
REFINED EXAMPLE
2ND HIGH
24-HR
SGROUPtf 1
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
00
cn
i
Cn
oo
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
1700.0
59.01674 (188,
51.14470 (117,
36.46970 (189,
24.71966 (171,
21.59547 ( 60,
20.49300 (273,
15.58803 (199,
14.71733 (123,
12.' 076 (345,
15.00834C( 65,
19.33132 ( 92,
18.55386 (288,
24.64212 (255,
26.46140 ( 9,
22.64172 (283,
22.76650 (132.
25.16665 (164,
22.35911 ( 68,
24.72084 (163,
22.01284 (235,
22.81055 (346,
48.30882 (322,
53.52675 (136,
35.82005 ( 93,
20.20150 (130,
13.07617 (149,
13.69379 (243,
16.89245 (150,
10.30537 (130,
16.11387C( 63,
16.23573 (338,
26.72047 (141,
31.46389 (108,
37.54066 (162,
44.00215 (120,
43.72375 (316,
2200.0
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)
50.94363
47.23138
34.83543
21.83847
20.56013
18.60016
13.95331
10.91758
12.47969
12.72485
14.70921
16.62295
19.62844
25.73478
21.16063
19.32101
21.19016
18.74898
19.87340
16.96697
20.80417
45.53621
47.29251
33.02705
17.19959
11.27426
10.97227
12.43679
11.58725
(188,
(117,
(261,
(337,
( 60,
(172,
(179,
(199,
(127,
(242,
( 92,
(288,
(221,
( 18,
( 51.
(132,
(253,
(156,
(263,
( 51,
(193,
(322,
( 50,
( 50,
(130,
(103,
(243,
(150,
(357,
19.20070C( 63.
15.72646
24.69298
26.00108
31.03105
39.43988
43.16281
(234,
(195,
(108,
(162,
(120,
( 86,
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)
RANGE (METERS)
2900.0
40.68444
40.33762
33.70498
18.82731
18.55891
15.09629
12.98175
10.33919
10.45374
9.59138
10.44855
14.52015
17.57777
23.68719
20.06368
15.25426
17.40249
16.91607
17.94323
15.06364
16.30486
38.64420
40.37550
28.80340
14.39273
13.04706
8.17384
13.62656
13.85472
18.11547
15.71239
20.86691
20.40510
23.70515
32.16943
37.29421
(188,
(117.
(169.
(337.
( 58,
(172,
(221,
(248,
( 82,
(290,
(354,
(288,
(221,
< 9,
(309,
(132,
(298.
( 96,
( 74.
( 51,
(346,
(322,
( 50,
( 50,
( 30,
(357.
( 8,
(274,
(357,
(225.
(292,
(141,
( 77,
(162,
(120,
( 86,
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)
3800.0
32.05412 ( 76, 1)
32.44090 (117. 1)
27.96299 (169, 1)
15.70849C(222, 1)
16.08226 ( 58, 1)
13.55110 (217. 1)
9.96285 (319, 1)
8.98149 (179. 1)
8.82399C( 25. 1)
7.83688 (351. 1)
7.90019 (354. 1)
11.68606C( 71, 1)
15.57368 ( 79, 1)
20.73196 ( 9, 1)
16.54980 (309. 1)
11.61732 (132, 1)
14.36740 (298. 1)
15.79074 ( 96, 1)
16.40663 ( 74, 1)
12.31850 ( 51, 1)
12.38743 (346. 1)
30.46323 (322, 1)
32.12024 ( 50, 1)
23.25255 (50. 1)
13.25198 ( 30, 1)
14.57027 (347, 1)
9.37688 ( 22, 1)
13.75996 (212, 1)
14.39424 (357, 1)
15.77103 (225, 1)
14.60826 (338. 1)
16.35929 (141, 1)
17.12774 (195, 1)
19.99756 (204, 1)
25.28861 (316, 1)
29.87026 ( 86, 1)
5000.0
24.59206
25.57654
22.03384
12.16120
13.21840
13.04604
9.15760
8.80096
( 76, 1)
(171, 1)
(169, 1)
(70. 1)
(113, 1)
(273, 1)
(272, 1)
(347, 1)
7.07502C( 25, 1)
6.88383
6.38642
10.01415
13.95271
17.70333
12.62170
10.48075
11.79829
13.65321
13.87598
9.47850
9.68943
22.68899
24.18771
17.69271
11.26961
14.84333
9.60174
14.91622
13.38217
14.02505
14.54425
15.92928
14.02687
16.52918
18.90729
22.57555
( 61. 1)
(273, 1)
(230. 1)
(230, 1)
( 9, 1)
(309. 1)
(231, 1)
(263. 1)
( 94, 1)
( 74, 1)
( 51. 1)
(156. 1)
(322. 1)
( 50, 1)
( 50. 1)
(30, 1)
(347, 1)
( 22. 1)
(212, 1)
(357. 1)
( 18. 1)
( 43. 1)
( 41. 1)
( 77, 1)
(196. 1)
( 76, 1)
( 86. 1)
-------�
TABLE 8.5.6 ISCST EXAMPLE -- OUTPUT (cont.)
*** REFINED EXAMPLE
MAX 50
24-HR
SGROUP* 1
50 MAXIMUM 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
00
Cn
I
cn
RANK
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
CON. PER. DAY
71.23228
70.89441
68.24962
67.62091
67.45006
66.25354
65.94278
63.65774
63.61967
63.42328
62.94138
62.59972
61.78563
61.13067
60.70372
60.07229
59.70815
59.43733
59.38997
59.01674
58.83536
58.23609
57.81584
57.49986
56.71916
196
196
330
330
136
136
196
196
136
188
188
330
330
93
196
197
93
181
181
188
196
197
93
196
188
X
OR
RANGE
(METERS)
1300.0
1100.0
1700.0
1300.0
1100.0
900.0
1700.0
900.0
1300.0
1300.0
1100.0
1100.0
2200.0
1300.0
1100.0
1700.0
1700.0
1700.0
1300.0
1700.0
1300.0
1300.0
1100.0
900.0
900.0
Y(METERS)
OR
DIRECTION
(DEGREES)
20.0
20.0
150.0
150.0
140.0
140.0
20.0
20.0
140.0
360.0
360.0
150.0
150.0
140.0
30.0
360.0
140.0
350.0
350.0
360.0
30.0
360.0
140.0
30.0
360.0
RANK
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CON. PER. DAY
56.44425
55.92572
55.55984
54.85126
54.50301
54.42657
54.16423
53.52675
53.27883
53.08819
52.85453
52.80206
52.73218
52.56024
52.41252
52.15211
51.70441
51.14470
51.09750
196
181
197
125
136
152
181
136
197
152
125
151
125
93
152
151
196
117
117
51.05812 1 188
50.94363 1 188
50.71788 1 330
50.18162 1 50
49.99321 1 151
49.94573 1 114
X
OR
RANGE
(METERS)
2200.0
1100.0
2200.0
1100.0
700.0
1300.0
2200.0
1700.0
1100.0
1100.0
1300.0
1100.0
900.0
2200.0
1700.0
900.0
1700.0
1700.0
1300.0
1300.0
2200.0
2900.0
1700.0
1300.0
1700.0
Y(METERS)
OR
DIRECTION
(DEGREES)
20.0
350.0
360.0
360.0
140.0
360.0
350.0
140.0
360.0
360.0
360.0
10.0
360.0
140.0
360.0
10.0
30.0
350.0
350.0
350.0
360.0
150.0
140.0
10.0
360.0
-------�
TABLE 8.5.7 ISCLT EXAMPLE -- INPUT DATA
ISCLT CLASS EXAMPLE LESSON 8.5
122003 i' 20000000001010001
1 0 10 36 0 0 0 0 0
500.
3800.
10.
700.
5000.
10.
900.
1100.
1300.
1700.
(7X.6F7.0)
N
NNE
NE
ENE
E
ESE
SE
SSE
S
ssu
su
usu
u
UNU
NU
NNU
oo Note
N
T NNE
CT> NE
0 ENE
E
ESE
SE
SSE
S
SSU
su
usu
u
UNU
NU
NNU
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
A
.00014
.00002
.00002
.00002
.00001
.00013
.00013
.00013
.00025
.00013
.00012
.00012
.00013
.00024
.00001
.00001
.00080 .
.00080 .
.00091 .
.00057 .
.00034 .
.00034 .
.00034 .
.00034 .
.00046 .
.00057 .
.00023 .
.00011 .
.00046 .
.00023 .
.00034 .
.00023 .
: Stability classes
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
F
302
2704
1409
1070
683
2094
.00119
.00059
.00083
.00083
.00084
.00106
.00119
.00097
.00212
.00139
.00175
.00223
.00254
.00146
.00130
.00062
.9
.9
.0
.1
.7
.0
.0
.00171 .
.00046 .
.00137 .
.00126 .
.00160 .
.00114 .
.00171 .
.00251 .
.00993 .
.00765 .
.01564 .
.01678 .
.01461 .
.00479 .
.00183 .
.00240 .
298.3
2924.5
2346.9
1510.2
1093.5
1791.7
2478.4
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
B through E
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000 .
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
omitted
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
.00000 .
295.7 292.5
3064.2
2735.2
2082.5
2819.8
3392.6
3220.7
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
from table
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
289.4
3466.7
2979.0
286.6
3363.0
2805.4
2200.
2900.
Note: 17 blank lines have been removed.
1000 0. 0. 35.0
100.0
0. 432.0 11.7 2.4
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (Partial Printout)
ISCLT
-------�
oo
Cn
K)
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (cont.)
*** ISCLT ************* iscLT CLASS EXAMPLE LESSON 8.5
- ISCLT INPUT DATA (CONT.) -
- FREQUENCY OF OCCURRENCE OF VINO SPEED, DIRECTION AND STABILITY -
SEASON 1
STABILITY CATEGORY 1
WIND SPEED WIND SPEED WIND SPEED UIND SPEED WIND SPEED VIINO SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
DIRECTION
(DEGREES)
0.000
22.500
45.000
67.500
90.000
112.500
135.000
157.500
180.000
202.500
225.000
247.500
270.000
292.500
315.000
337.500
( 1.5000MPS)( 2.5000MPSX 4.3000MPSX 6.8000MPS)( 9.5000Mpc>(12.5000MPS:
0.00014000
0.00002000
0.00002000
0.00002000
0.00001000
0.00013000
0.00013000
0.00013000
0.00025000
0.00013000
0.00012000
0.00012000
0.00013000
0.00024000
0.00001000
0.00001000
0.00079999
0.00079999
0.00090999
0.00056999
0.00034000
0.00034000
0.00034000
0.00034000
0.00046000
0.00056999
0.00023000
0.00011000
0.00046000
0.00023000
0.00034000
0.00023000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
O.OOOOUuuo
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
SEASON 1
STABILITY CATEGORY 6
UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
DIRECTION
(DEGREES)
0.000
22.500
45.000
67.500
90.000
112.500
135.000
157.500
180.000
202.500
225.000
247.500
270.000
292.500
315.000
337.500
( 1.5000MPSH 2.5000MPSH 4.3000MPSX 6.8000MPSK 9.5000MPS)(12.5000MPS
0.00118999
0.00058999
0.00082999
0.00082999
0.00083999
0.00105999
0.00118999
0.00096999
0.00211998
0.00138999
0.00174998
0.00222998
0.00253997
0.00145999
0.00129999
0.00061999
0.00170998
0.00046000
0.00136999
0.00125999
0.00159998
0.00113999
0.00170998
0.00250997
0.00992990
0.00764992
0.01563984
0.01677983
0.01460985
0.00478995
0.00182998
0.00239998
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
******** PAGE
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
- ISCLT INPUT DATA (CONT.) -
PAGE
5 ****
- VERTICAL POTENTIAL TEMPERATURE GRADIENT (DEGREES KELVIN/METER) -
STABILITY
STABILITY
STABILITY
STABILITY
STABILITY
STABILITY
CATEGORY
CATEGORY
CATEGORY
CATEGORY
CATEGORY
CATEGORY
WIND SPEED
CATEGORY 1
10.OOOOOOE+000
20.000000E+000,
30.OOOOOOE+000
40.OOOOOOE+000
50.200000E-010
60.350000E-010
oo
en
i
ON
STABILITY
STABILITY
STABILITY
STABILITY
STABILITY
STABILITY
CATEGORY
CATEGORY
CATEGORY
CATEGORY
CATEGORY
CATEGORY
WIND SPEED
CATEGORY 1
10.700000E-010
20.700000E-010
30.100000E+000
40.150000E+000
50.350000E+000
60.550000E+000
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
200000E-010.200000E-010.200000E-010.200000E-010.200000E-01
350000E-010.350000E-010.350000E-010.350000E-010.350000E-01
- WIND PROFILE POWER LAW EXPONENTS -
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
700000E-010.700000E-010.700000E-010.700000E-010.700000E-01
700000E-010.700000E-010.700000E-010.700000E-010.700000E-01
100000E+000.100000E+000.100000E+000.100000E+000.100000E+00
,150000E+000.150000E+000.150000E+000.150000E+000.150000E+00
,350000E+000.350000E+000.350000E+000.3SOOOOE+000.350000E+00
, 550000E+000.550000E+000.SSOOOOE+000.5SOOOOE+000.550000E+00
ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
********
PAGE
- SOURCE INPUT DATA -
C T SOURCE SOURCE X Y EMISSION BASE /
A A NUMBER TYPE COORDINATE COORDINATE HEIGHT ELEV- /
R P (M) (M) (M) ATION /
D E (M) /
- SOURCE DETAILS DEPENDING ON TYPE -
1 STACK 0.00 0.00 35.00 0.00 GAS EXIT TEMP (OEG K) = 432.00, GAS EXIT VEL. (M/SEC)= 11.70,
STACK DIAMETER (M)= 2.400, HEIGHT OF ASSO. BLDG. (M)= 0.00, WIDTH OF
ASSO. BLDG. (H)= 0.00, WAKE EFFECTS FLAG = 0
- SOURCE STRENGTHS ( GRAMS PER SEC ) -
SEASON 1 SEASON 2 SEASON 3 SEASON 4
1.00000E+02
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSOM 8.5
********
PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
) FROM ALL SOURCES COMBINED
500.000 700.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE . METERS) -
900.000 1100.000 1300.000 1700.000 2200.000 2900.000
- CONCENTRATION -
oo
Cn
3800.000
360.000
350.000
340.000
330.000
320.000
310.000
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000
1.662817
1.1286!T
0.748141
0.586717
0.510171
0.464088
0.417829
0.435687
0.526283
0.694699
0.863811
.188820
.234033
.348032
.307853
.087919
.024732
.013207
.158577
0.836320
0.636486
0.580209
0.624771
0.583309
0.427729
0.366315
0.363728
0.421337
0.336991
0.303404
0.343729
0.458135
0.578190
0.771489
0.992120
1.240828
4.285791
~ 974489
312
*72
.^02780
.066915
0.978324
.008078
.265295
.607898
2.015319
2.588021
2.749441
2.935056
2.838662
2.433819
2.256237
2.349631
2.611089
2.061746
.665795
.571068
.664780
.545824
. 168265
0.952261
0.879799
0.878794
0.793048
0.768772
0.888049
1.131299
1.426134
1.873960
2.422077
3.227766
6.452370
4.459962
2.727975
2.031303
.652561
.432582
.299994
.327381
.686128
2.130357
2.636712
3.299743
3.516777
3.735078
3.614855
3.135074
2.916028
3.105765
3.461918
2.841634
2.386143
2.306901
2.458709
2.273238
1 .699827
1.334484
1.199036
.145402
.095349
.123834
.321713
.675187
2.112732
2.753447
3.568806
4.856959
7.888812
5.490659
3.316571
2.433469
.958551
.667461
.494668
.501785
.910016
2.390321
2.937740
3.611623
3.863118
4.092554
3.964234
3.460321
3.225062
3.506948
3.923571
3.291698
2.795412
2.748144
2.933302
2.711504
2.048234
.590318
.435601
.358267
.352377
.428020
.682397
2.086970
2.615076
3.353119
4.331517
5.981202
8.586329
5.994116
3.605739
2.633770
2.111520
1.780554
1.576515
1.561566
1.983104
2.462570
3.010345
3.655611
3.918648
4.143608
4.012937
3.510733
3.273696
3.622673
4.075401
3.453029
2.941581
2.912156
3.114107
2.887244
2.207921
.726642
.582574
.511271
.540957
.658206
.928772
2.341228
2.891279
3.647033
4.687885
6.519034
9.033677
6.332581
3.788730
2.748710
2.188282
1.813397
1.567396
1.508641
1.910705
2.347407
2.844923
3.396770
3.647624
3.844352
3.715661
3.248872
3.030148
3.456949
3.940165
3.379115
2.886965
2.891336
3.109501
2.903984
2.267133
1.810312
1.740410
1.732314
1.827635
2.017491
2.285322
2.666216
3.189831
3.887736
4.925981
6.887225
8.722522
6.136479
^. 65 7539
2.633528
2.075995
1.688049
1.426328
1.334944
1.688639
2.059711
2.476013
2.917402
3.131143
3.287305
3.166584
2.759910
2.575101
3.024613
3.498815
3.025246
2.587983
2.620351
2.837763
2.674468
2.133462
1.756662
1.804717
1.902088
2.057343
2.302660
2.544247
2.859727
3.296888
3.857539
4.783383
6.688512
7.795433 <
5.500951 t
3.270279 2
2.335348 1
1.818749 1
1.450088 1
1.200910 (
1.094989 (
1.381542
1.674805
2.000942
2.335209
2.499489
2.610435
2.503494
2.172752
2.029592
2.451175
2.879295
2.503774
2.143112
2.191599
2.390088
2.278972
1.867503
1 .605263
1.783812
2.001803
2.193804
2.467457
2.665032
2.899250
3.212985
3.587070
4.323486
6.019246
>. 578213
,.653829
!. 761 788
.957759
.507998
.182632
1.966083
). 863055
.082077
.302441
.553154
.803726
.923256
.996101
.905361
.647727
.541552
.903426
>. 263509
.977673
.695278
.746386
.913534
.848676
1.562150
1.411203
1.688740
1.995161
2.199172
2.467211
2.620831
2.781647
2.975637
J.I 77471
J. 71 0252
5.122007
5000.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- GRID SYSTEM RECEPTORS -
- X AXIS (RANGE , METERS) -
- CONCENTRATION -
360.000
350.000
5.284467
3.746109
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (coot.)
**** ISCLT ************* iscLT CLASS EXAMPLE LESSON 8.5
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
******** pAGE s
) FROM ALL SOURCES COMBINED (CONT.) **
5000.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE , METERS) -
- CONCENTRATION -
oo
en
i
Cn
340.000
330.000
320.000
310.000 I
300.000 (
290.000 (
280.000 I
270.000 (
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000 ,
40.000 ,
30.000
20.000
10.000 '
>. 219648
1.564782
1.196541
). 927410
).751166
). 6605 79
). 818904
). 976518
.166365
.353103
.436406
.480586
.406519
.212478
.136072
.427346
.714029
.504821
.294066
.339498
.470649
1.440867
1.258942
1.197001
1.524024
1.870260
2. 0624 79
2.298158
2. 412589
'.515064
2.613362
2.684602
J. 037494
,.151242
*****************************************
OF ISCLT PROGRAM,
1 SOURCES PROCESSED ****************************************
-------�
TABLE 8.5.7 1SCLT EXAMPLE -- INPUT DATA
oo
on
ISCLT CLASS EXAMPLE LESSON 8.5
122003220000000001010001
1 0 10 36 0 0 0 0 0
500
3800
10
"
700.
5000.
10.
900. 1100.
1300. 1700.
(7X.6F7.0)
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSU
SU
USU
U
UNU
NU
NNU
Note
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSU
SU
USU
U
UNU
NU
NNU
Note
A .
A .
A .
A .
A .
B
.
.
.
m
m
m
B
.
f
A .
00014
00002
00002
00002
00001
00013
00013
00013
00025
00013
00012
00012
00013
00024
00001
00001
.00080 .
.00080 .
.00091 .
.00057 .
.00034 .
.00034 .
.00034 .
.00034 .
.00046 .
.00057 .
.00023 .
.00011 .
.00046 .
.00023 .
.00034 .
.00023 .
: Stability classes
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
F .
302.
2704.
1409.
1070.
683.
.
2094.
: 17
1000
100.
00119
00059
00083
00083
00084
00106
00119
00097
00212
00139
00175
00223
00254
00146
00130
00062
9
9
0
1
7
0
0
blank
0
.00171 .
.00046 .
.00137 .
.00126 .
.00160 .
.00114 .
.00171 .
.00251 .
.00993 .
.00765 .
.01564 .
.01678 .
.01461 .
.00479 .
.00183 .
.00240 .
298.3
2924.5
2346.9
1510.2
1093.5
1791.7
2478.4
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
B through E
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
00000
295.
3064.
2735.
2082.
2819.
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
omitted
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
7 292.5
2
2 3392.6
5 3220.7
8
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
from table
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
.00000
289.4 286.
3466.7 3363.
2979.0 2805.
6
0
4
lines have been removed.
0.
0.
35.0 0.
432.0 11.7
2200.
2900.
2.4
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (Partial Printout)
ISCLT (DATED 86324)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 1. GUIDELINE MODELS
IN UNAMAP (VERSION 6) JULY 86. REV. DEC 86
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
- ISCLT INPUT DATA -
********
PAGE
1 ***
10
36
16
1
=0.10000000E+07
oo
Ln
i
NUMBER OF SOURCES = 1
NUMBER OF X AXIS GRID SYSTEM POINTS
NUMBER OF Y AXIS GRID SYSTEM POINTS
NUMBER OF SPECIAL POINTS = 0
NUMBER OF SEASONS = 1
NUMBER OF WIND SPEED CLASSES = 6
NUMBER OF STABILITY CLASSES = 6
NUMBER OF WIND DIRECTION CLASSES =
FILE NUMBER OF DATA FILE USED FOR REPORTS
THE PROGRAM IS RUN IN RURAL MODE
CONCENTRATION (DEPOSITION) UNITS CONVERSION FACTOR
ACCELERATION OF GRAVITY (METERS/SEC**2) = 9.800
HEIGHT OF MEASUREMENT OF UIND SPEED (METERS) = 10.000
CORRECTION ANGLE FOR GRID SYSTEM VERSUS DIRECTION DATA NORTH (DEGREES) =
DECAY COEFFICIENT =O.OOOOOOOOE+00
PROGRAM OPTION SWITCHES = 1, 2, 2, 0. 0, 3, 2, 2, 3, 0, 0, 0, 0, 0, 0, 0. 0, 1, 0,
ALL SOURCES ARE USED TO FORM SOURCE COMBINATION 1
RANGE X AXIS GRID SYSTEM POINTS (METERS )=
2200.00, 2900.00, 3800.00, 5000.00,
AZIMUTH BEARING Y AXIS GRID SYSTEM POINTS (DEGREES)*
70.00, 80.00, 90.00, 100.00,
170.00, 180.00, 190.00, 200.00,
270.00, 280.00, 290.00, 300.00,
- AMBIENT AIR TEMPERATURE (DEGREES KELVIN)
500.00, 700.00,
0.000
900.00,
1, 0, 0, 0, 1,
1100.00, 1300.00,
1700.00,
10.00,
110.00.
210.00,
310.00,
20.00,
120.00,
220.00,
320.00,
30.00,
130.00,
230.00,
330.00,
40.00,
140.00,
240.00,
340.00,
50.00, 60.00,
150.00, 160.00,
250.00, 260.00,
350.00, 360.00,
STABILITY STABILITY STABILITY
CATEGORY 1 CATEGORY 2 CATEGORY 3
SEASON 1 302.9000 298.3000 295.7000
STABILITY STABILITY STABILITY
CATEGORY 4 CATEGORY 5 CATEGORY 6
292.5000 289.4000 286.6000
- MIXING LAYER HEIGHT (METERS) -
SEASON 1
UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
STABILITY CATEGORY 10.270490E+040.292450E+040.292450E+040.292450E+040.292450E+040.292450E+04
STAB ILITY CATEGORY 20.140900E+040.234690E+040.306420E+040.306420E+040.306420E+040.306420E+04
STABILITY CATEGORY 30.10701OE+040.151020E+040.273520E+040.339260E+040.346670E+040.336300E+04
STABIL1TY CATEGORY 40.683700E+030.109350E+040.208250E+040.322070E+040.297900E+040.280540E+04
STAB ILITY CATEGORY 50.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+05
STABILITY CATEGORY 60.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.100000E+050.1OOOOOE+05
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
- ISCLT INPUT DATA (CONT.) -
- FREQUENCY OF OCCURRENCE OF UIND SPEED, DIRECTION AND STABILITY -
SEASON 1
STABILITY CATEGORY 1
UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
oo
en
00
DIRECTION
(DEGREES)
0.000
22.500
45.000
67.500
90.000
112.500
135.000
157.500
180.000
202.500
225.000
247.500
270.000
292.500
315.000
337.500
( 1.5000MPSX 2.5000MPSX 4.3000MPS)( 6.8000MPSX 9.5000MPS)(12.5000HPS:
0.00014000
0.00002000
0.00002000
0.00002000
0.00001000
0.00013000
0.00013000
0.00013000
0.00025000
0.00013000
0.00012000
0.00012000
0.00013000
0.00024000
0.00001000
0.00001000
0.00079999
0.00079999
0.00090999
0.00056999
0.00034000
0.00034000
0.00034000
0.00034000
0.00046000
0.00056999
0.00023000
0.00011000
0.00046000
0.00023000
0.00034000
0.00023000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
SEASON 1
STABILITY CATEGORY 6
UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED UIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
DIRECTION
(DEGREES)
0.000
22.500
45.000
67.500
90.000
112.500
135.000
157.500
180.000
202.500
225.000
247.500
270.000
292.500
315.000
337.500
( 1.5000MPSH 2.5000HPSX 4.3000MPSX 6.8000HPSX 9.5000MPSX12.5000MPS
0.00118999
0.00058999
0.00082999
0.00082999
0.00083999
0.00105999
0.00118999
0.00096999
0.00211998
0.00138999
0.00174998
0.00222998
0.00253997
0.00145999
0.00129999
0.00061999
0.00170998
0.00046000
0.00136999
0.00125999
0.00159998
0.00113999
0.00170998
0.00250997
0.00992990
0.00764992
0.01563984
0.01677983
0.01460985
0.00478995
0.00182998
0.00239998
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
********
PAGE
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
- ISCLT INPUT DATA (CONT.) -
******** PAGE
- VERTICAL POTENTIAL TEMPERATURE GRADIENT (DEGREES KELVIN/METER) -
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
STABIL1TY CATEGORY 10.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
STABILITY CATEGORY 20.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
STABILITY CATEGORY 30.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
STABILITY CATEGORY 40.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+000.OOOOOOE+00
STABILITY CATEGORY 50.200000E-010.200000E-010.200000E-010.200000E-010.200000E-010.200000E-01
STABILITY CATEGORY 60.350000E<-010.350000E-010.350000E-010.350000E-010.350000E-010.350000E-01
- WIND PROFILE POWER LAW EXPONENTS -
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
STABILITY CATEGORY 10.700000E-010.700000E-010.700000E-010.700000E-010.700000E-010.700000E-01
STABILITY CATEGORY 20.700000E-010.700000E-010.700000E-010.700000E-010.700000E-010.700000E-01
STABILITY CATEGORY 30.100000E+000.100000E+000.100000E+000.100000E+000.100000E+000.100000E+00
STABILITY CATEGORY 40.150000E+000.150000E+000.150000E+000.150000E+000.150000E+000.150000E+00
STABILITY CATEGORY 50.350000E+000.350000E+000.350000E+000.350000E+000.350000E+000.350000E+00
STABILITY CATEGORY 60.550000E+000.550000E+000.550000E+000.550000E+000.550000E+000.550000E+00
oo
t/i
i
ON
ID
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
******** PAGE
- SOURCE INPUT DATA
C T SOURCE SOURCE
A A
R P
D E
NUMBER TYPE
X Y EMISSION BASE /
COORDINATE COORDINATE HEIGHT ELEV- /
(M) (M) (M) ATION /
(M) /
- SOURCE DETAILS DEPENDING ON TYPE -
1 STACK 0.00 0.00 35.00 0.00 GAS EXIT TEMP (DEC K)= 432.00, GAS EXIT VEL. (M/SEC)= 11.70,
STACK DIAMETER (H)= 2.400, HEIGHT OF ASSO. BLDG. (M) = 0.00, WIDTH OF
ASSO. BLDG. (H)= 0.00, WAKE EFFECTS FLAG = 0
- SOURCE STRENGTHS ( GRAMS PER SEC ) -
SEASON 1 SEASON 2 SEASON 3 SEASON 4
1.00000E+02
-------�
TABLE 8.5.8 1SCLT EXAMPLE -- OUTPUT (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
********
PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
- X AXIS (RANGE , METERS) -
500.000 700.000 900.000 1100.000 1300.000
Y AXIS (AZIMUTH BEARING, DEGREES ) - CONCENTRATION -
) FROM ALL SOURCES COMBINED
1700.000 2200.000 2900.000
00
Cn
I
O
3800.000
360.000
350.000
340.000
330.000
3?i' noo
i: .i-'O
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
6' 10
>o
,00
30.000
20.000
10.000
1.662817
1.128657
0.748141
0.586717
0.510171
0.464088
0.417829
0.435687
0.526283
0.694699
0.863811
1.188820
1.234033
.348032
.307853
.087919
.024732
.013207
.158577
0.836320
0.636486
0.580209
0.624771
0.583309
0.427729
0.366315
0.363728
0.421337
0.336991
0.303404
0.343729
0.458135
0.578190
0.771489
0.992120
1.240828
4.285791
2.974489
1.879312
1.438472
1.202780
1.066915
0.978324
1.008078
1.265295
1.607898
2.015319
2.588021
2.749441
2.935056
2.838662
2.433819
2.256237
2.349631
2.611089
2.061746
.665795
.571068
.664780
.545824
.168265
0.952261
0.879799
0.878794
0.793048
0.768772
0.888049
1.131299
1.426134
1.873960
2.422077
3.227766
6.452370
4.459962
2.727975
2.031303
1 .652561
1 .432582
1.299994
1.327381
1.686128
2.130357'
2.636712
3.299743
3.516777
3.735078
3.614855
3.135074
2.916028
3.105765
3.461918
2.841634
2.386143
2.306901
2.458709
2.273238
1.699827
1.334484
.199036
.145402
.095349
.123834
.321713
.675187
2.112732
2.753447
3.568806
4.856959
7.888812
5.490659
3.316571
2.433469
1.958551
1.667461
1.494668
1.501785
1.910016
2.390321
2.937740
3.611623
3.863118
4.092554
3.964234
3.460321
3.225062
3.506948
3.923571
3.291698
2.795412
2.748144
2.933302
2.711504
2.048234
1.590318
1.435601
1.358267
1.352377
1.428020
1.682397
2.086970
2.615076
3.353119
4.331517
5.981202
8.586329
5.994116
3.605739
2.633770
2.111520
1.780554
1.576515
1.561566
1.983104
2.462570
3.010345
3.655611
3.918648
4.143608
4.012937
3.510733
3.273696
3.622673
4.075401
3.453029
2.941581
2.912156
3.114107
2.887244
2.207921
1.726642
1.582574
1.511271
1.540957
1.658206
1.928772
2.341228
2.891279
3.647033
4.687885
6.519034
9.033677
6.332581
3.788730
2.748710
2.188282
1.813397
1.567396
1.508641
1.910705
2.347407
2.844923
3.396770
3.647624
3.844352
3.715661
3.248872
3.030148
3.456949
3.940165
3.379115
2.886965
2.891336
3.109501
2.903984
2.267133
1.810312
1.740410
1.732314
1.827635
2.017491
2.285322
2.666216
3.189831
3.887736
4.925981
6.887225
8.722522
6.136479
3.657539
2.633528
2.075995
1.688049
1.426328
1.334944
1.688639
2.059711
2.476013
2.917402
3.131143
3.287305
3.166584
2.759910
2.575101
3.024613
3.498815
3.025246
2.587983
2.620351
2.837763
2.674468
2.133462
1.756662
1.804717
1 .902088
2.057343
2.302660
2.544247
2.859727
3.296888
3.857539
4.783383
6.688512
7.795433 t
5.500951 t
3.270279 !
2.335348
.818749
.450088
.200910 (
.094989 (
.381542
.674805
2.000942
2.335209
2.499489
2.610435
2.503494
2.172752
2.029592
2.451175
2.879295
2.503774
2.143112
2.191599
2.390088
2.278972
1.867503
1.605263
1.783812
2.001803
2.193804
2.467457
2.665032
2.899250
3.212985
3.587070
4.323486
6.019246
i. 578213
,.653829
>. 761 788
.957759
.507998
.182632
3.966083
). 863055
.082077
.302441
.553154
.803726
.923256
.996101
.905361
.647727
.541552
.903426
2. 263509
1.977673
1.695278
.746386
.913534
.848676
.562150
.411203
.688740
1.995161
2.199172
2.467211
2.620831
2.781647
2.975637
3.177471
3.710252
5.122007
5000.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- GRID SYSTEM RECEPTORS -
- X AXIS (RANGE , METERS)
- CONCENTRATION -
360.000
350.000
5.284467
3.746109
-------�
TABLE 8.5.8 ISCLT EXAMPLE -- OUTPUT (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE LESSON 8.5
********
PAGE
8 ****
** ANNUAL GROUND LEVEL CONCENTRATION ( HICROGRAHS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
) FROM ALL SOURCES COMBINED (CONT.) **
5000.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE
METERS) -
CONCENTRATION -
oo
01
340.000 <
330.000 1
320.000 1
310.000 (
300.000 (
290.000 (
280.000 (
270.000 (
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000 '
!. 219648
.564782
.196541
). 927410
). 751166
). 660579
). 818904
). 976518
.166365
.353103
.436406
.480586
.406519
.212478
.136072
.427346
.714029
.504821
.294066
.339498
.470649
.440867
.258942
1.197001
1.524024
1.870260
2.062479
2.298158
2.412589
2.515064
2.613362
2.684602
J. 0374 94
4.151242
**********************
END OF
PROGRAM.
1 SOURCES PROCESSED
*************
*********************
-------�
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\
3
Lesson 9
Complex Terrain Modeling
1 sc
3) Cu?W\
-------�
1 M
a
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-------�
9.1 Introduction
I. Definition of Complex Terrain:
Complex terrain is considered to be an area where some terrain features are higher_
than the top of the stack of the source(s) in question.
II. Complex Terrain Models -- General
A. No Refined Models
The Guideline document indicates that refined models have not been
developed. Several major problems have been identified: (1) valley
stagnation, (2) valley fumigation, (3) downwash on the leeside of terrain, and
(4) conditions which cause plume impaction.
B. Screening and "Refined" Screening
The complex terrain models are to be used to access maximum
concentrations due to plume impaction on high terrain. Terrain heights
between stack height and plume height should be analyzed using both
complex terrain models and simple terrain models and the maximum values
used. The VALLEY and COMPLEXl models should not be used to
determine concentrations that result from: (1) valley stagnation, (2) valley
fumigation, and (3) downwash on the leeside of terrain. These conditions
may be addressed by using a site-specific model.
9.1-3
-------�
COMPLEX TERRAIN MODELS
Initial Screening Models
Rural (F Stability) VALLEY or COMPLEXl
Urban (E Stability) VALLEY or COMPLEXl
Second-Level Screening
Rural COMPLEXl
Urban SHORTZ/LONGZ
Third-Level Screening
Rural RTDM
Urban none
Complicated Sources
Rural/Urban None
III. Complex Terrain Models -- Specific Models
A. VALLEY
VALLEY is the simplest of the terrain screening models. This algorithm is
a steady-state, univariate gaussian plume dispersion algorithm designed for
estimating either 24-hour or annual concentrations resulting from emissions
from up to 50 (total) point and area sources. Calculations of ground-level
pollutant concentrations are made for each frequency designated in an array
defined by six stabilities, 16 wind directions, and six wind speeds for 112
program- designed receptor sites on a radial grid of variable scale. Empirical
dispersion coefficients are used and include adjustments for plume rise and
limited mixing. Plume height is adjusted according to terrain elevation and
stability classes.
B. COMPLEXl
COMPLEXl is a^ multirjlejoiin^source code with terrain adjustment. The
model specifications for testing were suggested by team "B" on complex
terrain at the regional workshop on air quality modeling in Chicago in
February 1980. It is a sequential model utilizing hourly meteorological input.
It assumes a normal distribution in the vertical and a uniform distribution
across a 22.5 degree sector. The initial screening technique for complex
terrain applications, described in the Guideline On Air Quality Models
(Revised), has been incorporated as an option in COMPLEXl.
9.1-4
-------�
C. SHORTZ
SHORTZ is designed to calculate the short-term pollution concentration
produced at a large number of receptors by emissions from multiple stack,
building, and area sources. SHORTZ uses sequential short-term (usually
hourly) meteorological inputs to calculate concentrations for averaging times
ranging from 1 hour to 1 year. The model is applicable in areas of both flat
and complex terrain, including areas where terrain elevations exceed
stack-top elevations. The program requires random-access mass storage
capability. An associated compatible meteorological data processor is
METZ.
D. LONGZ
LONGZ is designed to calculate the long-term pollutant concentration
produced at a large number of receptors by emissions from multiple stack,
building, and area sources. LONGZ uses statistical wind summaries to
calculate long-term (seasonal or annual) average concentrations. The model
is applicable in areas of both flat and complex terrain, including areas where
terrain elevations exceed stack-top elevations. The program requires
random-access mass storage capability.
E. RTDM
The Rough Terrain Diffusion Model is a sequential Gaussian plume model
designed to estimate ground-level concentrations in rough (or flat) terrain in
the vicinity of one or more co-located point sources. It is specifically
designed for applications involving chemically stable atmospheric pollutants
and is best suited for evaluation of buoyant plume behavior within about
15km from the source(s). Model results for receptors beyond about 15 km
can be used with caution to 50 km. RTDM has special algorithms to deal
with plume behavior in complex terrain, and is especially suited for rough
terrain applications.
IV. Summary
V. Questions
9.1-5
-------�
~v
cA <>«1'^'^ (
G
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\ ir^sy^
\)Jy
ti*fM
PTPM
sM^/^^";f
-------�
9.2 Initial Screening Techniques
I. Screening Using VALLEY
A. Applicability
This screening technique is appropriate for point sources with a plume height
less than the highest terrain.
B. Screening Technique - Rural
The "VALLEY Screening Technique" as outlined in the VALLEY User's
Guide should be used as the initial screening level. If violations are
indicated by this method, the refined screening (second-level screening) may
be used.
The VALLEY Screening Technique consists of determining concentrations
using worst-case assumptions, as follows: (l)^tability__class F; (2) wind speed
of 2.5 meters per second; (3) maximum of six hours of occurrence.
Additionally, multiple" "sources should blTmodeled separately and~irTdividuaI
concentrations for each wind direction summed.
The user may elect to use COMPLEX- 1 with the "VALLEY Equivalent"
option rather than using the VALLEY model.
II. Summary
CLIV'-^
III. Questions u
^/ C^'^ £-tA ' O
^^ -" " ^T~iT^
!,/>(}, \ \)
\j dvly-txA ; v/
rj >
-------�
6- M
-------�
9.3 Demonstration of First-Level Screening
I. Screening Using VALLEY - 24-Hour SO2
A. Stack Parameters for Demonstration
Emission Stack Base Stack Stack
Rate Elevation Height Temp.
(g/s) (mAMSL) (m) (K)
100.0
495.
35.0
432.
Velocity Diameter
(m/s) (m)
11.7
2.40
B. Model Options
Model Options:
- 5000 meter mixing height
- 10 meter anemometer height
- default w-s profile exponent
- wind speed 2.5 m/s at 10 meters
C. Procedure
1. Critical Terrain Height
\f
VALLEY limits the plume centerline elevation to a minimum of iO
meters. Therefore, the critical terrain elevation is plume heigrat
minus 10 meters. Determine critical plume height for 2.5 meters per
second and stability class F:
, 3
9.3-1
r-
-------�
From PTPLU: H = 89.3 meters
H, = H + E = 89.3 + 495
H, = 584.3 meters Above Mean Sea Level (AMSL)
He = H, - 10 = 584.3 -10
Hc = 574 meters
Note: Older USGS maps show elevations
in feet AMSL.
In some cases, elevated terrain near the source may cause maximum
concentrations even though the terrain is less than plume height
minus 10 meters.
2. From a topographic map of the area (Figure 9.3-1), determine locations
with elevations in the following ranges: (1) greater than critical height;
(2) between critical height and stack height; and, (3) less than stack
height.
3. Calculate concentrations for locations that exceed stack height using
VALLEY. Areas less than critical height should be modeled using
simple terrain models with the terrain exceeding stack height
"chopped" to stack height. The maximum concentration should be
selected from among all model values.
4. From the Flat Top Mesa Quadrangle, the nearest terrain which exceeds
stack height is 1146 meters toward the east. The nearest terrain that
exceeds critical height is 1524 meters also toward the east. A single
string of receptors toward the east will give the highest values.
VALLEY calculates concentrations along 16 radials at seven equally
spaced ring distances. If the USGS grid factor is selected, the ring
distances are a.r allows:
9.3-2
-------�
Ring 1 487 meters
Ring 2 974 meters
Ring 3 1462 meters
Ring 4 1949 meters
Ring 5 2436 meters
Ring 6 2923 meters
Ring 7 3410 meters
Rings 2 & 3 are approximately equal to the desired distances.
5. Short-term (24 hours and less) averages are calculated by modeling one
direction at a time using a wind speed of 2.5 meters per second and
a stability class of F. This is accomplished by setting all frequencies
of occurrence in the STAR Summary to zero except wind speed class
2 and stability class F for one direction which is set to 1.0.
NOTE: The VALLEY model does not extrapolate wind speeds to
stack height (not extrapolating is required for regulatory applications).
However, for this example extrapolation is used, see below:
Us = U (h/LO)P Where: U is 2.5 m/s
hs is 35 m
Us = 4.98 m/s p is 0.55 (for F stab.)
6. For averaging periods that exceed six hours, only six hours of occurrence
should be assumed. For example, a 24-hour concentration is
calculated from a one-hour value by multiplying the one- hour value
by 6/24. A three-hour value will be assumed to equal the one-hour
value. The VALLEY model includes a 24-hour screening option that
automatically makes the 6-hour persistence calculation.
D. VALLEY Input -- Table 9.3.1
E. VALLEY Results -- Table 9.3.2
The maximum 24-hour concentration is 259 micrograms per cubic meter.
9.3-3
-------�
II. Screening Using COMPLEXl - TSP
A. Stack Parameters for Demonstration
Same as VALLEY
B. Model Options
Model Options:
- 5000 meter mixing height
- 10 meter anemometer height
- default w-s profile exponent
~* .--terrain adjustment factors:
0.5,0.5,0.5,0.5,0.,0.
- set ZMIN = 10.0
C. Procedure
The same procedure used for defining parameters for VALLEY is used for
COMPLEXl. The correct receptor distances can be directly entered into
the COMPLEXl model.
COMPLEXl contains a VALLEY screening option. This option will
calculate 24-hour concentrations in a manner similar to VALLEY.
D. COMPLEXl Input Data - Table 9.3.3
E. COMPLEXl Results -- Table 9.3.4
Compare the COMPLEXl printout shown in Table 9.3.4 with the VALLEY
printout shown in Table 9.3.2.
East North Elevation VALLEY COMPLEX-I
(m) (m) (m) (ug/m3) (ug/m3)
974 0 530.0 14.53 16.05
1462 0 574.3 258.70 266.72
9.3-4
-------�
III. Summary
IV. Questions
9.3-5
-------�
Figure 9.3-1 Topographic Map
-4074
'4073
753
9.3-6
-------�
Table 9.3.1 VALLEY EXAMPLE INPUT
1624.1739.1884.1624.1624.1624.1624.
1013.2 293.1013.2
TEST RUN -- S02 PARTIAL WIND ROSE FOR EASY DUPLICATION.
60.90 1 621 4. 1110
MAIN STACK
100. 35. 432. 11.7 2.4 460. 60. 1624.
1.0 4.98
(6F2.0)
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
9.3-7
-------�
Table 9.3.1 VALLEY EXAMPLE INPUT (cont.)
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0^0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
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.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
o.o.o : o.o.
o.o.o :.o.o.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.1.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
0.0.0.0.0.0.
9.3-8
-------�
TABLE 9.3.2 VALLEY EXAMPLE OUTPUT
to
I
to
VALLEY (VERSION 85338)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 4. ADDITIONAL MODELS FOR REGULATORY USE.
IN UNAMAP (VERSION 6) JULY 86.
TEST RUN -- S02
SPD(MPS) 1.000 4.980 .000 .000 .000 .000
STABILITY WIND D1R
A
A
A
A
A
%
A
A
A
A
A
A
A
A
A
A
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSU
SU
USU
U
UNU
NU
NNU
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSU
SU
USU
U
UNU
NU
NNU
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
-------�
TABLE 9.3.2 VALLEY EXAMPLE OUTPUT (coot.)
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
D
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSU
SU
usu
u
WNU
NU
NNU
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSW
SU
USU
U
UMW
NU
NNU
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0 ;
.00, 0
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
-------�
TABLE 9.3.2 VALLEY EXAMPLE OUTPUT (cont.)
E N
E NNE
E NE
E ENE
E E
E ESE
E SE
E SSE
E S
E SSU
E SW
E USU
E W
E WHU
E NU
E NNU
N
NNE
NE
ENE
E
ESE
SE
SSE
S
SSU
SU
USU
U
UNU
NU
NNU
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
1.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
.0000
-------�
TABLE 9..J.<» VALLEY EXAMPLE OUTPUT (coot.)
This page and following pages are abbreviated.
0 .0 .0
° .0 .0 .0
HL1FE= 4.00 MRS. CONCTR CORRCTD TO STD COND VIA FACTOR .983. MAX TOWARD 90. OEG. NORTH TOWARD TOP. PLOT 258.696
.0 .0
.0 .0
.0
.0 .0 .0 .0
.0 .0
.0 ********* .0 MULTIPLY PRINTED VALUES BY
* COORD * 1.0E+00 TO GET CONC. IN UG/M3
0 .0 .0 .0 .0 .0 .0 * . * .0 14.5 258.7 .8 1.4 2.0 2.5
* 460760* SOR ELEV COORDX COORDY STK HT Q(GM/SEC) FIXD DH
.0 ********* .0 1624.FT 460.00 60.00 35.M 1.0000E+02 ******
.0 .0
.0 .0 .0 .0 BRIG.E BRIG.F DMIX DMNI STAR F WIDTH
.0 ****** 54. o. 100. 1.00*******
.0
.0 .0 .0 BRIGUN P(MB) MWT
.0 .0 422. 1013. .0
.0 .0 .0
.0 W MEAN WIND SPDS(MPS) W .0
.0 1.00000 4.98000 .00000 .00000 .00000 .00000 .0
.0 .0 .0 .0
.0 .0 .0
AIR T GAS T DIAM GAS V FLOW
293. 432. 2.4 11.7 52.9
.0 .0
0 KM .609KM 1.218KM 1.827KM 2.436KM 3.045KM 3.654KM
BRIGGS STABLE CONSTANT IS 2.6. ] * 1 + ] + J + 1 + 1 + 1
BUOYANCY-INDUCED DISPERSION. .0 _RELOCATE 2/3 INCH DOWN
RURL, SHRT-TERM MODE. .0 .O--/ .0 SLOPING TERRAIN CONCEPT.
-------�
TABLE 9.3.2 VALLEY EXAMPLE OUTPUT (cent.)
TEST RUM -- S02
SOURCE DATA. PLOT 258.696
PARTIAL WIND ROSE FOR EASY DUPHCATIOH.
SOURCE NAME
1 MAIN STACK
1280
COORDX COORDY STK HT EM1SS RATE FIXD OH SOR U SOR H BRIGUN BRIGE BRIGF AIR T GAS T DIAM GAS V
460.00 60.00 35. 1.0000E+02********* 0. 1624. 423.******* 54. 293. 432. 2.4 11.7
.0
.0
.0
.0
.0
HLIFE=
.0
.0
4.00 HRS. CONCTR CORRCTD TO STO COND VIA
.0
.0
.0
.0
.0
.0
..0
.0
.0
.0
.0
.0
.0
.0
FACTOR
.0
VALLEY
SUM CONG DUE TO ALL SRCS
.0
.0
.0
TEST RUN -- S02
PARTIAL WIND ROSE FOR EASY DUPLICATION.
.0
.0
.983. MAX TOWARD 90. DEC. NORTH TOWARD TOP. PLOT 258.696
.0
.0
.0
.0 .0
.0 ********* .0
* COORD *
.0 * . * .0
* 460760*
_Q ********* _Q
.0 .0
.0 .0
.0
MULTIPLY PRINTED VALUES BY
1.0E+00 TO GET CONC. IN UG/M3
14.5 258.7 .8 1.4 2.0 2.5
SOR ELEV COORDX COORDY STK HT Q(GM/SEC) FIXD DH
******FT***********************M O.OOOOE+00 ******
.0
.0
.0
.0
BRIG.E BRIG.F
.0
.0
DMIX
0.
DMNI STAR F WIDTH
100. 1.00*******
.0
.0
BRIGUN P(MB) MWT
******* 1013. .0
.0
.0
.0
.0
.0 W MEAN WIND SPDS(MPS) W .0
.00000 .00000 .00000
.0
1.00000 4.98000 .00000
.0
.0
.0
.0
.0
.0
AIR T GAS T
293.********
.0
DIAM GAS V FLOW
.0
BRIGGS STABLE CONSTANT IS 2.6.
BUOYANCY-INDUCED DISPERSION.
RURL, SHRT-TERM MODE.
0 KM
] ____
.0
.0
.609KM 1.218KM 1.827KM
---- ] ---- + ---- ] ---- + ---- 1 ---- + ..
.0 _RELOCATE 2/3 INCH DOWN
.O--/ .0
2.436KM 3.045KM 3.654KM
SLOPING TERRAIN CONCEPT.
-------�
TABLE 9.3.2 VALLEY EXAMPLE OUTPUT (cent.)
49'5 49.5 VALLEY
49.5 GROUND ELEV DIFFERENCES.
49.5 49.5
49.5 49.5
TEST RUN -- S02
PARTIAL WIND ROSE FOR EASY DUPLICATION.
49.5 49.5 49.5
*9-5 49.5 49.5 49.5
NORTH TOWARD TOP. (1/10)((SOURCE HT(1))-(RECPTR HT(N»), HTS IN METERS.
49.5 49.5
49.5 49.5 49.5 49.5
49.5 49.5
49.5 ********* 49.5 MULTIPLY PRINTED VALUES BY
* COORD * 1.0E+01 TO GET GROUND ELEV DIFF IN M
49.5 49.5 49.5 49.5 49.5 49.5 49.5 * . * .0 -3.5 -7.9 .0 .0 .0 .0
* 460760* SOR ELEV COORDX COORDY STK HT Q(GM/SEC) FIXD DH
49.5 ********* 49.5 i£24.FT***********************M o.OOOOE+00 ******
49.5 49.5
49.5 49.5 49.5 49.5 BRIG.E BRIG.F DM1X DMN1 STAR F WIDTH
49.5 *******************************************
49.5 ' 49.5
49.5 49.5 49.5 49.5 BRIGUN P(MB) HUT
49.5 49.5 ******** 1013.******
.<° 49.5 49.5 49.5
W 49.5 W MEAN WIND SPDS(MPS) W 49.5
i 49.5 ****************************************************** 49.5
49.5 49.5 49.5 49.5
49.5
49.5
49.5
49.5
49.5 49.5
AIR T
293.*
49.5
49.5
49.5
49.5
0 KM .609KM 1.218KM 1.827KM 2.436KM
GAS
3.
...1
T DIAH GAS V
045KM 3.654KM
+ 1
FLOW
49.5 _RELOCATE 2/3 INCH DOWN
RURL, SHRT-TERM MODE. 49.5 49.5--/ 49.5 SLOPING TERRAIN CONCEPT.
-------�
Table 9.3.3 COMPLEX-I EXAMPLE INPUT
COMPLEX 1 SCREENING
COURSE 423
SAME SOURCE AS VALLEY
78 1 1 11300 1. 1. 14400.
110110001111001111100000001
10. .07 .07 .1 .15 .35 .55 0.5 0.5 0.5 0.5 0. 0. 10.
SOURCE #1 0.00 0.00 100.0 35.0 432.0 2.4 11.7495.
ENDPOINT
REC1 0.974 0.000 0. 530.0
REC2 1.462 0.000 0. 574.3
ENDREC
293.
270.
9.3-15
-------�
TABLE 9.3.4 COMPLEX-I EXEMPLE OUTPUT
COMPLEX-1 (DATED 86064)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 4. ADDITIONAL MODELS FOR REGULATORY USE
IN UNAMAP (VERSION 6) JULY 86.
COMPLEX I - VERSION 86064
COMPLEX 1 SCREENING
COURSE 423
SAME SOURCE AS VALLEY
GENERAL INPUT INFORMATION
THIS RUN OF COMPLEX I/VALLEY OPTION IS FOR THE POLLUTANT S02 FOR 1 WIND DIRECTIONS.
A FACTOR OF 1.0000000 HAS BEEN SPECIFIED TO CONVERT USER LENGTH UNITS TO KILOMETERS.
0 SIGNIFICANT SOURCES ARE TO BE CONSIDERED.
A HALF-LIFE OF 14400.00 (SECONDS) HAS BEEN ASSUMED BY THE USER.
A FACTOR OF 1.0000000 HAS BEEN SPECIFIED TO CONVERT USER HEIGHT UNITS TO METERS.
OPTION OPTION LIST OPTION SPECIFICATION : 0= IGNORE OPTION
1= USE OPTION
TECHNICAL OPTIONS
1 TERRAIN ADJUSTMENTS 1
2 DO NOT INCLUDE STACK DOUNWASH CALCULATIONS 1
. 3 DO NOT INCLUDE GRADUAL PLUME RISE CALCULATIONS 0
<-H 4 CALCULATE INITIAL PLUME SIZE 1
,1, INPUT OPTIONS
O 5 READ MET DATA FROM CARDS 1
6 READ HOURLY EMISSIONS 0
7 SPECIFY SIGNIFICANT SOURCES 0
8 READ RADIAL DISTANCES TO GENERATE RECEPTORS 0
PRINTED OUTPUT OPTIONS
9 DELETE EMISSIONS WITH HEIGHT TABLE 1
10 DELETE MET DATA SUMMARY FOR AVG PERIOD 1
11 DELETE HOURLY CONTRIBUTIONS 1
12 DELETE MET DATA ON HOURLY CONTRIBUTIONS 1
13 DELETE FINAL PLUME RISE CALC ON HRLY CONTRIBUTIONS 0
14 DELETE HOURLY SUMMARY 0
15 DELETE MET DATA ON HRLY SUMMARY 1
16 DELETE FINAL PLUME RISE CALC ON HRLY SUMMARY 1
17 DELETE AVG-PERIOD CONTRIBUTIONS 1
18 DELETE AVERAGING PERIOD SUMMARY 1
19 DELETE AVG CONCENTRATIONS AND HI-5 TABLES 1
OTHER CONTROL AND OUTPUT OPTIONS
20 RUN IS PART OF A SEGMENTED RUN 0
21 WRITE PARTIAL CONC TO DISK OR TAPE 0
22 WRITE HOURLY CONC TO DISK OR TAPE 0
23 WRITE AVG-PERIOD CONC TO DISK OR TAPE 0
24 PUNCH AVG-PERIOD CONC ONTO CARDS 0
25 COMPLEX TERRAIN OPTION 0
26 CALM PROCESSING OPTION 0
27 VALLEY SCREENING OPTION 1
-------�
TABLE 9.3.4 COMPLEX-I EXEHPLE OUTPUT (cont.)
ANEMOMETER HEIGHT IS: 10.00
EXPONENTS FOR POWER- LAW WIND INCREASE WITH HEIGHT ARE: .07, .07, .10, .15, .35, .55
TERRAIN ADJUSTMENTS ARE: .500, .500, .500, .500, .000, .000 ZM1N IS 10.0
BECAUSE THE VALLEY OPTION HAS BEEN SELECTED, THE FOLLOWING
OPTIONS AND PARAMETERS HAVE BEEN SET BY THE MODEL, OVERRIDING VALUES
PROVIDED BY THE USER:
IOPT(5), IOPT(10), IOPT(12), IOPT(15), IOPT<17), IOPT(18) = 1
IOPT(6), IOPT(20) THRU IOPT(26) = 0
NAVG = 1 NAV5 = 0
IHSTRT * 1 CONTER(6) = 0.
ZMIN = 10. IKST = 6
OU = 2.5 OHL = 9999.
I
f-»
^-J
SOURCE
1 SOURCE
POINT SOURCE INFORMATION
EAST NORTH S02(G/SEC) PART(G/SEC) STACK STACK STACK STACK GRD-LVL BUOY FLUX
COORD COORD EMISSIONS EMISSIONS HT(M) TEMP(K) DIAM(M) VEL(M/SEC) ELEV F
(USER UNITS) USER HT M**4/S**3
UNITS
.00 .00 100.00
ADDITIONAL INFORMATION ON SOURCES.
.00 35.0 432.0
2.4
11.7 495.00
53.16
EMISSION INFORMATION FOR 1 (NPT) POINT SOURCES HAS BEEN INPUT
0 SIGNIFICANT POINT SOURCES(NSIGP) ARE TO BE USED FOR THIS RUN
THE ORDER OF SIGNIFICANCE(IMPS) FOR 25 OR LESS POINT SOURCES USED IN THIS RUN AS LISTED BY POINT SOURCE NUMBER:
-------�
TABLE 9.3.4 COMPLEX-I EXEMPLE OUTPUT (cent.)
RECEPTOR INFORMATION
RECEPTOR IDENTIFICATION EAST NORTH RECEPTOR HT RECEPTOR GROUND LEVEL
COORD COORD ABV LOCAL GRD LVL ELEVATION
(USER UNITS) (METERS) (USER HT UNITS)
1 REC1 .974 .000 .0 530.0
2 REC2 1.462 .000 .0 574.3
VALLEY METEOROLOGICAL INPUT DATA
PRESET BY MODEL:
MIXING HEIGHT (M) = 9999
STABILITY = 6
WIND SPEED (M/SEC) = 2.5
INPUT BY USER:
TEMPERATURE (K) = 293.0
WIND DIRECTIONS (DEG) = 270.0
<£>
00 COMPLEX 1 SCREENING
COURSE 423
SAME SOURCE AS VALLEY
VALLEY: S02 24-HR AVERAGE SUMMARY CONCENTRATION TABLE (MICROGRAMS/M**3) (WIND DIRECTION (DEG) = 270.0)
RECEPTOR EAST NORTH RECEPTOR HT RECEPTOR TOTAL FROM TOTAL FROM CONCENTRATION
NO. NAME COORD COORD ABV GRD (M) GRD -LVL ELEV SIGN1F POINT ALL SOURCES RANK
(USER HT UNITS) SOURCES
1 REC1 .97 .00 .0 530.0 000000.0000 16.0518 2
2 REC2 1.46 .00 .0 574.3 000000.0000 266.7203 1
-------�
9.4 Second-Level Screening Techniques
I. Criteria for Selection of Second-Level Screening Models
A. Rural: COMPLEXl for both short-term and long-term averaging periods.
B. Urban
1. Short-term: SHORTZ
2. Long-term: LONGZ
II. Meteorological Data
At least one year of on-site data is required. On-site data should have been
subjected to quality assurance as listed in the Guideline document.
III. Rural Second-Level Screening -- COMPLEXl
A. Receptor sites
Receptor sites should be utilized in sufficient detail to estimate the highest
concentrations and possible violations of a NAAQS or a PSD increment.
Each receptor location should represent the highest elevation within the area
represented by the receptor not the elevation of actual location of the
receptor.
B. The following options should be selected:
IOPT(1) = 1
IOPT(4) = 1
IOPT(25) = 1
Terrain Adjustment Factors:
0.5, 0.5, 0.5, 0.5, 0.0, 0.0
ZMIN = 10.0
C. Gradual plume rise should be selected unless all elevated locations are further
downwind than the distance to final rise.
9.4-1
-------�
IV. Urban Second-Level Screening -- SHORTZ and LONGZ
A. Receptor sites should be selected as stated above for COMPLEX1.
Additionally, it may be necessary to place receptors over the entire urban
area.
B. The following options should be selected:
Option Selection
I Switch 9 If using NWS data, set=0
I Switch 17 Set = 1 (urban option)
GAMMA 1 Use default values
GAMMA 2
XRY
NS, VS, FRQ (SHORTZ)
NUS, VS, FRQ (LONGZ)
ALPHA
SIGEPU (dispersion
SIGAPU parameter)
P (wind profile)
Always default to stable
Set = 0 (50 m expansion)
Do not use
(Flat terrain, only)
Select 0.9
Use Cramer curves (default)51
Select default values given
in Table 2-2 of User's Guide'
Use site-specific data if available.
V. Summary
VI. Questions
9.4-2
-------�
9.5 Demonstration of Second-Level Screening
I. Second-level Screening Using COMPLEXl
A. Stack Parameters for Demonstration
Emission Stack Stack
Rate Height Temp. Velocity Diameter
(g/s) (m) (K) (m/s) (m)
100.0 35.0 432. 11.7 2.40
B. Model Input Data
Model Options:
IOPT(1) = 1
IOPT(4) = 1
IOPT(25) = 1
Terrain Adjustment Factors:
0.5, 0.5, 0.5, 0.5, 0.0, 0.0
ZMIN = 10.0
C. Receptor Locations and Heights - Table 9.5.1
D. Input Data - Table 9.5.2, 9.5.4, 9.5.6, 9.5.8
E. Output Printout -- Table 9.5.3, 9.5.5, 9.5.7, 9.5.9
II. Summary
9.5-1
-------�
III. Questions
9.5-2
-------�
Table 9.5.1 RECEPTOR ELEVATIONS,(m)
Y-Axis (East)
Y-Axis
(North) 751.6 751.7 751.8 751.9 752.0 752.1 752.2 752.3
4074.0
4073.9
4073.8
4073.7
4073.6
4073.5
4073.4
4073.3
4073.2
4073.1
4073.0
495
495
495
495
495
495
495
510
495
495
495
495
495
505
495
495
520
525
515
495
495
495
495
525
525
495
505
525
540
520
505
505
505
510
530
525
520
510
530
540
520
510
510
505
530
550
535
535
530
535
530
520
530
535
510
550
585
600
580
580
585
565
'535
540
540
530
625
635
660
660
660
650
600
575
575
550
540
660
660
660
660
660
660
630
585
575
550
525
CRITICAL METEOROLOGICAL DATA
STABILITY
UNO SPD (M/S)
TEMP (K)
FLU VEC (DEC)
RRL MX HT (M)
URB MX HT (M)
HOUR =
STABILITY
WND SPD (M/S)
TEMP (K)
FLU VEC (DEC)
RRL MX HT (M)
URB MX HT (M)
HOUR -
STABILITY
UNO SPD (M/S)
TEMP (K)
FLW VEC (DEC)
RRL MX HT (M)
URB MX HT (M)
6
2.06
280.4
23.0
1239.4
204.0
9
3
2.06
284.8
130.0
456.7
590.3
17
5
2.06
290.4
68.0
1333.0
1265.7
6
3.09
280.9
88.0
1245.9
204.0
10
3
2.06
287.6
274.0
630.2
737.1
18
4
3.60
288.2
52.0
1350.5
1350.5
6
3.09
280.4
87.0
1252.4
204.0
11
2
2.06
288.7
316.0
803.6
883.8
19
4
4.12
287.0
46.0
1368.0
1368.0
6
3.09
279.8
79.0
1258.9
204.0
12
3
2.57
290.4
306.0
977.1
1030.5
20
4
3.60
285.9
59.0
1385.6
1385.6
6
2.57
279.3
87.0
1265.4
204.0
13
3
2.06
290.9
254.0
1150.5
1177.3
21
4
3.60
285.4
75.0
1403.1
1403.1
5
3.09
279.8
96.0
1271.9
204.0
14
3
3.09
291.5
219.0
1324.0
1324.0
22
5
3.09
284.3
72.0
1420.6
697.3
4
3.09
279.8
169.0
109.8
296.9
15
3
2.57
292.0
166.0
1324.0
1324.0
23
4
3.60
284.3
81.0
1438.1
1438.1
3
1.54
281.5
6.0
283.3
443.6
16
4
2.06
290.9
266.0
1324.0
1324.0
24
5
3.09
284.3
72.0
1455.7
470.0
9.5-3
-------�
TABLE 9.5.1 EXAMPLE INPUT - 100 METER GRID SPACING
COMPLEX 1 SECOND-LEVEL SCREENING
COURSE 423
LESSON 9.5
83 1
10010
10. 0.07
EXAMPLE
ENOPOINT
2316983
R1C1
R2C1
R3C1
R4C1
R5C1
R6C1
R7C1
R8C1
R1C2
R2C2
R3C2
R4C2
R5C2
R6C2
R7C2
R8C2
R1C3
R2C3
R3C3
R4C3
R5C3
R6C3
R7C3
R8C3
R1C4
R2C4
R3C4
R4C4
R5C4
R6C4
R7C4
R8C4
R1C5
R2C5
R3C5
R4C5
R5C5
R6C5
R7C5
R8C5
R1C6
R2C6
R3C6
R4C6
R5C6
R6C6
R7C6
R8C6
R1C7
R2C7
R3C7
R4C7
R5C7
R6C7
1 365
00011
0.07 0.10
750.65
316083
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
24 4
11111
0.15 0.35
73.22
73.0
73.0
73.0
73.0
73.0
73.0
73.0
73.0
73.1
73.1
72,1
73.1
73.1
73.1
73.1
73.1
73.2
73.2
73.2
73.2
73.2
73.2
73.2
73.2
73.3
73.3
73.3
73.3
73.3
73.3
73.3
73.3
73.4
73.4
73.4
73.4
73.4
73.4
73.4
73,4
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.6
73.6
73.6
73.6
73.6
73.6
1110
0.55 0
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
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.
00000110
.5 0.5 0.5 0.5 0. 0. 10.
100. 35. 432. 2.4
495.
495.
505.
505.
510.
530.
540.
525.
495.
495.
505.
510.
535.
540.
550.
550.
495.
495.
505.
510.
530.
540.
575.
575.
510.
515.
520.
520.
520.
535.
575.
585.
495.
525.
540.
540.
530.
565.
600.
635.
495.
520.
525.
530.
535.
585.
650.
660.
495.
495.
505.
510.
530.
580.
11.7495.
9.5-4
-------�
TABLE 9.5.1 EXAMPLE INPUT -- 100 METER GRID SPACING (cont.)
R7C7
R8C7
R1C8
R2C8
R3C8
R4C8
R5C8
R6C8
R7C8
R8C8
R1C9
R2C9
R3C9
R4C9
R5C9
R6C9
R7C9
R8C9
R1C10
R2C10
R3C10
R4C10
R5C10
R6C10
R7C10
R8C10
R1C11
R2C11
R3C11
R4C11
R5C11
R6C11
R7C11
R8C11
ENDREC
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
751.6
751.7
751.8
751.9
752.0
752.1
752.2
752.3
73.6
73.6
73.7
73.7
73.7
73.7
73.7
73.7
73.7
73.7
73.8
73.8
73.8
73.8
73.8
73.8
73.8
73.8
73.9
73.9
73.9
73.9
73.9
73.9
73.9
73.9
74.0
74.0
74.0
74.0
74.0
74.0
74.0
74.0
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
660.
660.
495.
495.
495.
520.
535.
580.
660.
660.
495.
505.
525.
525.
535.
600.
660.
660.
495.
495.
525.
530.
550.
585.
635.
660.
495.
495.
495.
510.
530.
550.
625.
660.
9.5-5
-------�
Table 9.5.2 COMPLEX-I EXAMPLE OUTPUT
100 METER GRID SPACING (SELECTED PORTIONS)
COMPLEX-1 (DATED 86064)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 4. ADDITIONAL MODELS FOR REGULATORY USE
IN UNAMAP (VERSION 6) JULY 86.
COMPLEX 1 SECOND-LEVEL SCREENING
COURSE 423
LESSON 9.5
COMPLEX I - VERSION 86064
vo
on
i
GENERAL INPUT INFORMATION
THIS RUN OF COMPLEX I -VERSION 36064 IS FOR THE POLLUTANT PART FOR 365 24-HOUR PERIODS.
CONCENTRATION ESTIMATES BEGIN ON HOUR- 1,JULIAN DAY- 1. YEAR-1983.
A FACTOR OF 1.0000000 HAS BEEN SPECIFIED TO CONVERT USER LENGTH UNITS TO KILOMETERS.
0 SIGNIFICANT SOURCES ARE TO BE CONSIDERED.
THIS RUN WILL NOT CONSIDER ANY POLLUTANT LOSS.
HIGH-FIVE SUMMARY CONCENTRATION TABLES WILL BE OUTPUT FOR 4 AVERAGING PERIODS.
AVG TIMES OF 1,3,8, AND 24 HOURS ARE AUTOMATICALLY DISPLAYED.
A FACTOR OF 1.0000000 HAS BEEN SPECIFIED TO CONVERT USER HEIGHT UNITS TO METERS.
OPTION
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
OPTION LIST
OPTION SPECIFICATION
TECHNICAL OPTIONS
TERRAIN ADJUSTMENTS
DO NOT INCLUDE STACK DOWNUASH CALCULATIONS
DO NOT INCLUDE GRADUAL PLUME RISE CALCULATIONS
CALCULATE INITIAL PLUME SIZE
INPUT OPTIONS
READ MET DATA FROM CARDS
READ HOURLY EMISSIONS
SPECIFY SIGNIFICANT SOURCES
READ RADIAL DISTANCES TO GENERATE RECEPTORS
PRINTED OUTPUT OPTIONS
DELETE EMISSIONS WITH HEIGHT TABLE
DELETE MET DATA SUMMARY FOR AVG PERIOD
DELETE HOURLY CONTRIBUTIONS
DELETE MET DATA ON HOURLY CONTRIBUTIONS
DFIETE FINAL PLUME RISE CALC ON HRLY CONTRIBUTIONS
Di E HOURLY SUMMARY
DELETE MET DATA ON HRLY SUMMARY
DELETE FINAL PLUME RISE CALC ON HRLY SUMMARY
DELETE AVG-PERIOD CONTRIBUTIONS
DELETE AVERAGING PERIOD SUMMARY
DELETE AVG CONCENTRATIONS AND HI-5 TABLES
OTHER CONTROL AND OUTPUT OPTIONS
RUN IS PART OF A SEGMENTED RUN
WRITE PARTIAL CONC TO DISK OR TAPE
WRITE HOURLY CONC TO DISK OR TAPE
WRITE AVG-P£RIOD CONC TO DISK OR TAPE
PUNCH AVG-PERIOD CONC ONTO CARDS
COMPLEX TERRAIN OPTION
CALM PROCESSING OPTION
VALLEY SCREENING OPTION
0= IGNORE OPTION
1= USE OPTION
1
0
0
1
0
0
0
0
-------�
Table 9.5.2 COMPLEX-I EXAMPLE OUTPUT (cent.)
ANEMOMETER HEIGHT IS: 10.00
EXPONENTS FOR POWER- LAW WIND INCREASE WITH HEIGHT ARE: .07. .07, .10. .15. .35. .55
TERRAIN ADJUSTMENTS ARE: .500, .500, .500, .500, .000, .000 ZMIN IS 10.0
ID
Ol
I
SOURCE
1 EXAMPLE
POINT SOURCE INFORMATION
EAST NORTH S02(G/SEC) PART(G/SEC) STACK STACK STACK STACK POTEN. IMPACT EFF GRD-LVL BUOY FLUX
COORD COORD EMISSIONS EMISSIONS HT(M) TEMP(K) DIAM(M)VEL(M/SEC)(MICRO G/M**3) HT(M) ELEV F
(USER UNITS) USER HT M**4/S**3
UNITS
750.65 73.22 .00 100.00
ADDITIONAL INFORMATION ON SOURCES.
35.0 432.0
2.4
11.7
184.76 175.60 495.00 53.16
EMISSION INFORMATION FOR 1 (NPT) POINT SOURCES HAS BEEN INPUT
0 SIGNIFICANT POINT SOURCES(NSIGP) ARE TO BE USED FOR THIS RUN
THE ORDER OF SIGNIFICANCE(IMPS) FOR 25 OR LESS POINT SOURCES USED IN THIS RUN AS LISTED BY POINT SOURCE NUMBER:
SURFACE MET DATA FROM STATION(ISFCD) 23169, YEAR(ISFCYR) 1963
MIXING HEIGHT DATA FROM STATION(IMXD) 3160, YEAR(IMXYR) 1983
RECEPTOR INFORMATION
RECEPTOR
85
86
87
88
IDENTIFICATION
R1C1
R2C1
R3C1
R4C1
R5C1
R5C11
R6C11
R7C11
R8C11
CALM HOURS (=1) FOR DAY 23
CALM HOURS (=1) FOR DAY 25
CALM HOURS (=1) FOR DAY 36
CALM HOURS (=1) FOR DAY 37
CALM HOURS (=1) FOR DAY 335
CALM HOURS (=1) FOR DAY 336
CALM HOURS (=1) FOR DAY 340
CALM HOURS (=1) FOR DAY 341
CALM HOURS (=1) FOR DAY 359
CALM HOURS (=1) FOR DAY 363
EAST NORTH
COORD COORD ABV
(USER UNITS)
751.600 73.000
751.700 73.000
751.800 73.000
751.900 73.000
752.000 73.000
752.000 74.000
752.100 74.000
752.200 74.000
752.300
23
25
36
37
135
I36
140
i41
159
;63
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
74.
0
0
0
0
0
0
0
0
0
0
000
0
0
0
0
0
0
0
0
0
0
0
0
0
1
0
0
0
0
0
0
RECEPTOR HT
LOCAL GRD LVL
(METERS)
.0
.0
.0
.0
.0
.0
.0
.0
0
0
0
0
0
0
0
0
0
0
B
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
RECEPTOR GROUND LEVEL
ELEVATION
(USER HT UNITS)
495.0
495.0
505.0
505.0
510.0
530 .0
550.0
625.0
660.0
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
0
0
0
0
0
0
0
0
0
1
0
0
0
1
0
0
0
0
0
0
1
0
0
0
0
0
0
6
0
0
0
0
0
0
1
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
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
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
1
0
0
0
0
0
0
0
-------�
ID
i
00
COMPLEX 1 SFmMO-LEVEL SCREENING
COURSE 423
LESSON 9.5
Table 9.5.2 COMPLEX-I EXAMPLE OUTPUT (coot.)
COMPLEX I - VERSION 86064
75
76
77
78
79
80
81
82
83
84
85
86
87
88
RECEPTORS
IDENTIFICATION
EAST
COORD
NORTH
COORD Al
(USER UNITS)
R1C1
R2C1
R3C1
R4C1
R3C10
R4C10
R5C10
R6C10
R7C10
R8C10
R1C11
R2C11
R3C11
R4C11
R5C11
R6C11
R7C11
R8C11
751.60
751.70
751.80
751.90
751.80
751.90
752.00
752.10
752.20
752.30
751.60
751.70
751.80
751.90
752.00
752.10
752.20
752.30
73.00
73.00
73.00
73.00
73.90
73.90
73.90
73.90
73.90
73.90
74.00
74.00
74.00
74.00
74.00
74.00
74.00
74.00
RECEPTOR HT
ABV LOCAL GRD LVL
(METERS)
.0
.0
.0
.0
RECEPTOR GROUND LEVEL
ELEVATION
(USER HT UNITS)
495.0
495.0
505.0
505.0
525.0
530.0
550.0
585.0
635.0
660.0
495.0
495.0
495.0
510.0
530.0
550.0
625.0
660.0
# CALMS FOR PERIOD: 32
AVG CONC FOR PERIOD
DAY 1.HR 1. TO DAY365.HR24.
(MICROGRAMS/M**3)
1.04
1.09
1.36
1.40
8.00
10.24
25.03
53.21
43.46
37.32
2.61
2.63
2.64
4.40
10.94
24.97
44.37
38.52
-------�
RECEPTOR
Table 9.5.2 COMPLEX-I EXAMPLE OUTPUT (cont.)
FIVE HIGHEST 24-HOUR PARTCONCENTRATIONS((ENDING ON JULIAN DAY, HOUR)
(HICROGRAHS/H**3)
C-FLAG IDENTIFIES CONCENTRATIONS AFFECTED BY CALM HOURS
1 2 3
to
Ul
1( 751.60,
2( 751.70.
3( 751.80,
4( 751.90,
5( 752.00,
6( 752.10,
7( 752.20,
8( 752.30,
9( 751.60,
10( 751.70,
11( 751.80,
12( 751.90,
13( 752.00,
H( 752.10,
15( 752.20,
16( 752.30,
17( 751.60,
18( 751.70,
19( 751.80,
20( 751.90,
21( 752.00,
22( 752.10.
23( 752.20,
24( 752.30,
25( 751.60,
26( 751.70,
27( 751.80,
28( 751.90,
29( 752.00,
30( 752.10,
3U 752.20,
32( 752.30,
33( 751.60,
34( 751.70,
35( 751.80,
36( 751.90,
37( 752.00,
38( 752.10,
39( 752.20,
40( 752.30,
41 ( 751.60,
42( 751.70,
43( 751.80,
44( 751.90,
45( 752.00,
46( 752.10,
47( 752.20,
48( 752.30,
49( 751.60,
50( 751.70,
73.00)
73.00)
73.00)
73.00)
73.00)
73.00)
73.00)
73.00)
73.10)
73.10)
73.10)
73.10)
73.10)
73.10)
73.10)
73.10)
73.20)
73.20)
73.20)
73.20)
73.20)
73.20)
73.20)
73.20)
73.30)
73.30)
73.30)
73.30)
73.30)
73.30)
73.30)
73.30)
73.40)
73.40)
73.40)
73.40)
73.40)
73.40)
73.40)
73.40)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50) *
73.50)
73.50)
73.60)
73.60)
25.45
24.23
23.92
22.07
20.67
25.56
48.22
23.05
30.28
29.63
30.36
29.42
31.59C
42.26C
68.97
66.32
30.30
29.69
30.46
29.53
30.33
49.38
191.98
176.78
26.66
26.31
25.41
23.63
21.88
42.29
210.49
217.62
15.34
20.62C
58.68
58.34
30.64
189.11
245. 30C
208. 27C
14.97
18.93
23.03
30.35
49.78
272.33
214. 43C
191. 95C
24.84
18.48
(150,24)
(150,24)
(150.24)
(150.24)
(150.24)
(355.24)
(355,24)
(150,24)
(150.24)
(150.24)
(150.24)
(150,24)
(341.24)
(341,24)
(355,24)
(355,24)
(150,24)
(150,24)
(150.24)
(150,24)
(150,24)
(342,24)
( 6,24)
( 6,24)
(150,24)
(150,24)
(150.24)
(150,24)
(150,24)
(342,24)
(342,24)
(342,24)
(122,24)
( 63,24)
(342,24)
(342,24)
(279,24)
(342,24)
(335,24)
(335,24)
(122,24)
(130,24)
(309,24)
(309,24)
(309,24)
(320.24) *
(335,24)
(335,24)
(130,24)
(130,24)
16.48
16.66
17.17
13.19
13.94
24.02
39.19
19.19
13.77
12.15
14.78
16.05
30.89
40.69
67. IOC
64.77
15.80
13.83
14.75
16.04
24.82
48.50
184. 58C
172.07C
17.12
16.50
18.28
18.48
18.60
39.23
191.67
208. 49C
11.18
20.25
54.14
54.11
29.42
182.33
240.12
201.92
14.65
17.77
20.32
29.42
45.84C
250.40
204.92
183.14
18.78
15.54
(225,24)
(225,24)
(225,24)
(262,24)
(262,24)
(357,24)
(357,24)
(355,24)
(144,24)
(274,24)
(274,24)
(274,24)
(150.24)
(355,24)
(341,24)
( 6,24)
(122,24)
(122,24)
(274,24)
(274,24)
(342,24)
( 6,24)
(335,24)
(335,24)
(122,24)
(274,24)
(279.24)
(279,24)
(279,24)
(279,24)
( 6,24)
(335,24)
(144,24)
(279.24)
(320,24)
(320,24)
(314,24)
(320,24)
(342,24)
(342,24)
(225.24)
(300.24)
(106,24)
(320,24)
( 63,24)
(342,24)
(342,24)
(342,24)
(226,24)
(225.24)
11.05
11.49
13.18
12.63
13.05
20.15
33.88
17.47
11.04
11.44
13.16
13.22
29.14
32.90
59.66
64.26C
10.94
12.09
12.87
13.24
23.52
43.13C
181.69
168.17
14.27
15.75
18.15
18.19
18.00
37.48
184. 32C
182.34
10.15
19.17
53.61
52.50
28.21
159.83C
211.63
191.66
11.85
16.43
20.18
28.50
44.28
232.43
191.52
172.54
14.88
12.25
(243,24)
(243,24)
(262,24)
(149,24)
(149,24)
(150,24)
(268.24)
(274,24)
(274,24)
(243,24)
(262.24)
(243.24)
(355,24)
(342,24)
(320,24)
(341,24)
(274,24)
(274,24)
(243,24)
(243,24)
( 6,24)
(335,24)
(342,24)
(342,24)
(274,24)
(122,24)
(274,24)
(274,24)
(274,24)
(314,24)
(335.24)
( 6,24)
(147,24)
(106,24)
(279,24)
(279,24)
(342,24)
(341,24)
(314,24)
(314,24)
(130,24)
(271,24)
(224,24)
(314,24)
(320,24)
(309,24)
(320,24)
(320,24)
(225,24)
(142,24)
10.58
11.23
12.85
12.63
12.74
19.07
33.55
16.10
10.93
11.15
12.86
10.37
25.45
32.76
59.41
57.21
10.88
11.42
12.85
11.91
22.68C
42.29C
173.83
160.80
11.87
14.51
14.92
14.56
15.44
34.64
174.95
175.86
9.94
17.93
52.26
51.57C
27.96
156.38
199.02C
166. 54C
11.16
16.03
19.67
26.62C
41.08
219. 55C
187.78
169.58
12.26
10.20
(262,24)
(262,24)
(243,24)
(243,24)
(243.24)
(262.24)
(351,24)
(262,24)
(243,24)
(262,24)
(243,24)
(185,24)
(351,24)
(320,24)
(333,24)
(320,24)
(243,24)
(243,24)
(122.24)
(122,24)
(341,24)
(341,24)
(257,24)
(257.24)
(279,24)
(279,24)
(122.24)
(281,24)
(281,24)
( 6,24)
(320,24)
(257,24)
(175,24)
(314,24)
(309,24)
(341,24)
(351,24)
( 5.24)
(341,24)
(341,24)
(142,24)
(122,24)
(130,24)
( 63,24)
(342,24)
(341,24)
(314,24)
(314,24)
(142,24)
(300,24)
9.75
10.77
12.36
10.64
8.31
19.00
32.66
15.92
10.43
9.23
9.52
9.24
25.20
32.43
54.53
57.08
10.56
9.44
10.10
10.35
22.09C
40.71
142. 81C
131. 52C
11.71
12.43
13.81
14.07
15.20
31.73C
173.56
165.15
9.81
17.64
52.00C
50.39
26.78
154.44
178.30
153.18
9.82
15.41
19.64
26.59
38.82
217. 39C
187.77C
168.86C
10.45
9.34
(149,24)
(149,24)
(149,24)
( 42.24)
(357,24)
(354,24)
(333,24)
(357,24)
(262,24)
(144,24)
(185,24)
(279,24)
(354,24)
( 6,24)
(342,24)
(333,24)
(238,24)
(144,24)
(156,24)
(185,24)
(335,24)
(355,24)
(341,24)
(341,24)
(238,24)
(130,24)
(314,24)
(314,24)
(314,24)
(335,24)
(257,24)
(320,24)
(274,24)
(144,24)
(341,24)
(351,24)
(106,24)
( 6,24)
(351,24)
(351,24)
(271,24)
(279.24)
(271,24)
(106,24)
(314,24)
(313,24)
(313,24)
(313,24)
(234,24)
(126,24)
-------�
Table 9.5.2 COHPLEX-I EXAMPLE OUTPUT (cent.)
en
I
51( 751.80,
52( 751.90,
53( 752.00,
54( 752.10,
55( 752.20,
56( 752.30,
57( 751.60,
58( 751.70,
59( 751.80.
60( 751.90,
61( 752.00,
62( 752.10,
63( 752.20,
64( 752.30,
65( 751.60,
66{ 751.70,
67( 751.80,
68( 751.90,
69( 752.00,
70( 752.10,
71 ( 752.20,
72( 752.30,
73( 751.60,
74( 751.70,
75( 7^80,
76( /M.*},
77( 7S'.
78( 752. to.
79( 752.20,
80( 752.30,
81( 751.60,
82( 751.70,
83( 751.80,
64( 751.90,
85( 752.00,
86( 752.10,
87( 752.20,
88( 752.30,
73.60)
73.60)
73.60)
73.60)
73.60)
73.60)
73.70)
73.70)
73.70)
73.70)
73.70)
73.70)
73.70)
73.70)
73.80)
73.80)
73.80)
73.80)
73.80)
73.80)
73.80)
73.80)
73.90)
73.90)
73.90)
73.90)
73.90)
73.90)
73.90)
73.90)
74.00)
74.00)
74.00)
74.00)
74.00)
74.00)
74.00)
74.00)
17.94
19.64
36.05
225.97
194.86
205.16
18.20
21.03
23.11
28.52
50.64C
220.83
178.02
164.79
22.15
23.44
36.09C
37.02C
57.20C
251.93
191.82
177.95
23.71
26.01
36.07
37.77
112.87
249.41
208.20
181.45
31.90
27.87
22.69
29.00
39.29
104.29
206.51
177.15
(225,24)
(225.24)
(309,24)
(309,24)
(320,24)
(320.24)
(226,24)
(130,24)
(130,24)
(130,24)
( 63,24)
( 1.24)
( 1,24)
( 1,24)
(141,24)
(141,24)
( 63,24)
( 63.24)
( 63,24)
(300,24)
( 1,24)
( 1,24)
(195,24)
(141,24)
(141,24)
( 1,24)
( 1,24)
(300,24)
( 1,24)
( 1,24)
(195,24)
(195,24)
(195,24)
(141,24)
(104,24)
(104,24)
( 1,24)
(300,24)
14.39
17.19C
30.10
204.58
171.66
167.05
17.73
17.51
15.68
26.67
49.81
220.22
168. 83C
156. 25C
17.48
19.29
29.24
28.49
53.50
250.20
171.67
159.42
21.32
21.17
29.82C
36.91C
110.52
243.59
205. 97C
151.12
20.97
21.87
21.98
23.39
37.29
103.85
198.94
176.03
(130,24)
( 63,24)
(300,24)
( 18,24)
(309,24)
(314.24)
(130,24)
(234,24)
(225,24)
(225,24)
(309,24)
(309,24)
(335,24)
(335,24)
(130.24)
(130.24)
(225,24)
( 1,24)
( 1,24)
( 1,24)
(300,24)
( 47,24)
(141,24)
(225,24)
( 63,24)
( 63,24)
(104,24)
( 1,24)
( 63,24)
( 46,24)
( 83,24)
(141,24)
(141,24)
(195,24)
(301,24)
( 1,24)
(104,24)
( 1,24)
13.36C
15.08
29.19
197.21
170.09
158.04
17.28
15.49
13.66
26.32C
49.71
204.28
167.73
154.79
17.44
18.89
28.95
28.09
44.19
213.79
171.51
159.26
17.56
21.03
26.31
34.27
101.86
207.48
174.90
148.75
19.80
18.89
20.13
18.70
37.08C
94.39
198.84
170.56C
( 63.24)
(130,24)
(224,24)
(291,24)
( 18,24)
(309,24)
(234,24)
(226,24)
(226,24)
( 63,24)
( 1.24)
( 18,24)
(309,24)
(309,24)
(234,24)
(234,24)
( 1,24)
(300,24)
(309,24)
( 46,24)
( 18,24)
( 18,24)
(225,24)
(195,24)
( 15,24)
( 2,24)
(289,24)
(104,24)
( 46,24)
(300,24)
(141,24)
( 83,24)
(225.24)
(234.24)
( 63,24)
( 2,24)
(300,24)
( 63,24)
12.16
13.72
29.02C
185.42
154.49
156.82
15.13
15.48
12.16
22.02
43.51
196.11
166. 81C
154.68C
17.03
17.80
25.11
27.18
43.06
192.87C
162.54C
151. IOC
17.52
17.46
25.82
33.63
98.40
207.22
169.98
147. IOC
18.12
17.63
17.05
18.08
37.03
94.29
195. 61C
158.50
(300,24)
(300,24)
( 63,24)
( 7,24)
(314,24)
( 18,24)
(225,24)
(225,24)
(142,24)
(300,24)
( 47,24)
( 47,24)
( 63,24)
( 63,24)
(226,24)
(195,24)
(289,24)
(225,24)
( 46.24)
( 63,24)
( 63,24)
( 63,24)
(234,24)
(234,24)
(104,24)
(104,24)
(300,24)
( 47,24)
(300,24)
( 63,24)
(324,24)
(234,24)
(234,24)
(207,24)
( 15,24)
(288,24)
( 63.24)
( 47.24)
11.83
12.39
28.40
181 .94C
149.99
145.12
14.93
14.05
11.18
18.35
38.97
188.09
166.27
153.65
15.05
16.09
24.73
23.76
42.81
187.41
156.22
150.99
15.16
16.61
25.24
32.76
97.43
204.37
158.35
139.77
17.51
16.29
15.65
17.61
36.71
93.52
185.97
146.44
(142,24)
(142,24)
( 47,24)
(341,24)
( 7,24)
(342,24)
(195,24)
(141,24)
(300,24)
(309,24)
(310,24)
(342,24)
( 18,24)
( 18,24)
(126,24)
(226,24)
( 90,24)
( 90,24)
(300,24)
(308,24)
(309,24)
(309,24)
( 83,24)
(130,24)
(225,24)
(289.24)
(301.24)
( 46.24)
(364,24)
(364.24)
(234,24)
(225,24)
( 83,24)
(130,24)
(141,24)
(300,24)
( 47,24)
( 46,24)
-------�
TABLE 9.5.3 COMPLEX-I EXAMPLE INPUT
VARIANCE WITH HEIGHT AT CRITICAL RECEPTOR
COMPLEX 1 SECOND-LEVEL
COURSE 423
LESSON 9.5
83 320
10010
10. 0.07
EXAMPLE
ENDPOINT
2316983
R7C5A
R7C5B
R7C5C
R7C5D
R7C5E
R7C5F
R7C5G
R7C5H
R7C51
HIGHER1
H1GHER2
HIGHER3
HIGHER4
HIGHER5
HIGHER6
HIGHER7
HIGHER8
ENDREC
1 1
000111
0.07 0.10 0
750.65
316083
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
752.1
SCREENING
24 4
11111
.15 0.35 0.
73.22
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
73.5
1 1 0
55 0
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
1. 1.
00000110
.5 0.5 0.5 0.5 0. 0. 10.
100. 35. 432. 2.4
585.
575.
565.
555.
545.
535.
525.
515.
560.
600.
610.
620.
630.
640.
650.
660.
670.
11.7495.
9.5-11
-------�
Table 9.5.4 COMPLEX-I EXAMPLE OUTPUT
VARIANCE WITH HEIGHT AT CRITICAL RECEPTOR (SELECTED PORTIONS)
FIVE HIGHEST 1-HOUR PART CONCENTRATIONSUENDING ON JULIAN DAY, HOUR)
(MICROGRAMS/M**3)
to
en
RECEPTOR
1( 752.10,
2( 752.10,
3( 752.10,
4( 752.10,
5( 752.10,
6( 752.10,
7( 752.10,
8( 752.10,
9( 752.10,
10( 752.10,
IK 752.10,
12( 752.10,
13( 752.10,
14( 752.10,
15( 752.10,
16( 752.10,
17( 752.10,
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50) *
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
1035.23
1036.18
803.93
518.79
281.45
158.63
86.47
43.78
660.33
1176.89
1165.59
1136.17
1106.75
1077.32
1047.90
1018.48
989.06
(320, 5) *
(320, 5)
(320, 5)
(320, 5)
(320, 2)
(320,17)
(320,22)
(320,22)
(320, 5)
(320.17)
(320.17)
(320,17)
(320,17)
(320,17)
(320,17)
(320,17)
(320,17)
1022.72
881.96
754.65
506.12
280.98
156.33
86.47
43.78
632.66
996.37
970.47
944.56
918.66
892.75
866.85
840.95
815.04
(320,17)
(320, 2)
(320, 2)
(320, 2)
(320, 3)
(320,22)
(320,24)
(320,24)
(320, 2)
(320. 5)
(320, 5)
(320, 5)
(320, 5)
(320, 5)
(320, 5)
(320, 5)
(320, 5)
873.85
881.79
753.89
505.43
280.53
156.33
85.76
42.77
631.90
840.77
818.72
796.68
774.63
752.58
730.53
708.48
686.43
(320, 2)
(320, 3)
(320, 3)
(320, 3)
(320, 4)
(320,24)
(320,17)
(320.17)
(320. 3)
(320. 2)
(320, 2)
(320, 2)
(320, 2)
(320, 2)
(320, 2)
(320, 2)
(320, 2)
873.75
881.63
753.15
504.75
280.25
129.77
49.61
28.55
631.17
840.68
818.64
796.59
774.55
752.50
730.46
708.41
686.37
(320. 3)
(320, 4)
(320, 4)
(320, 4)
(320, 5)
(320, 2)
(320, 2)
(320,21)
(320, 4)
(320, 3)
(320. 3)
(320. 3)
(320, 3)
(320, 3)
(320, 3)
(320, 3)
(320, 3)
873.65
827.98
618.32
425.93
270.64
129.53
49.51
28.13
518.39
840.59
818.55
796.51
774.47
752.43
730.39
708.35
686.31
(320, 4)
(320,17)
(320,17)
(320,17)
(320.17)
(320, 3)
(320, 3)
(320.23)
(320.17)
(320, 4)
(320, 4)
(320, 4)
(320, 4)
(320, 4)
(320. 4)
(320, 4)
(320, 4)
RECEPTOR
FIVE HIGHEST 24-HOUR PARTCONCENTRATIONS((ENDING ON JULIAN DAY, HOUR)
(HICROGRAHS/H**3)
C-FLAG IDENTIFIES CONCENTRATIONS AFFECTED BY CALM HOURS
1 2 3
1C 752.10,
2( 752.10,
3( 752.10,
4( 752.10,
5( 752.10,
6( 752.10,
7( 752.10,
8( 752.10,
9( 752.10.
10( 752.10,
IK 752.10,
12( 752.10,
13( 752.10,
14( 752.10,
15( 752.10,
16( 752.10,
17( 752.10,
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50) *
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
272.33
254.17
206.01
141.10
84.39
44.91
21.98
10.39
173.52
276.88
273.21
269.01
264.98
258.24
251.48
244.72
237.95
(320,24) *
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
(320.24)
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
(320,24)
00 I
00 I
00 1
00 1
00 I
00 I
00 I
00 1
00 I
00 1
00 1
00 1
00 1
00 1
00 I
00 1
00 I
t o,
t o,
t o.
t o,
t o,
[ o,
t o,
t o.
t o.
t o,
: o,
[ o,
t o.
: o.
t o.
: o,
t o,
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
00 1
00 1
00 1
00 1
00 1
00 {
00 1
00 1
00 I
00 1
00 1
00 I
00 I
00 i
00 I
00 i
,00 I
[ o,
: o,
: o,
i o,
: o,
[ o.
i o,
[ o,
[ o,
t o,
[ o,
[ o.
t o,
t o.
t o,
( o,
t o,
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
00 1
00 (
00 (
00 1
00 I
00 1
00 (
00 1
00 1
00 1
00 I
00 i
00 I
,00 i
,00 i
,00 i
,00 <
: o,
: o.
: o.
: o,
: o,
: o,
[ o,
[ o,
[ o,
( o,
t o,
( o,
( o.
c o,
( o,
( o,
( o,
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
0)
.00 (
.00 (
.00 (
.00 (
.00 (
.00 (
.00 (
.00 (
.00 1
.GO 1
.00 1
.00 1
.00 I
.00 1
.00 I
.00 1
.00 i
: o, 0)
: o, 0)
: o, 0)
: o. o)
: o, 0)
: o, o
: o, 0)
: o, o
: o, o)
: o, 0)
: o, o)
[ 0, 0)
[ 0, 0)
[ 0, 0)
[ 0, 0)
t 0, 0)
t 0, 0)
-------�
TABLE 9.5.5 COMPLEX-I EXAMPLE INPUT
50 METER GRID SPACING
COMPLEX 1 SECOND-LEVEL SCREENING
COURSE 423
LESSON 9.5
83 1
10010
10. 0.07
EXAMPLE
ENDPOINT
2316983
R5C5
R5C5M
R6C5
R6CSM
R7C5
R5C5MM
R5C5MM
R6C5MM
R6C5MM
R7C5MM
R5C6
R5C6M
R6C6
R6C6M
R7C6
R5C6MM
R5C6MM
R6C6MM
R6C6MH
R7C6MM
R5C7
R5C7M
R6C7
R6C7H
R7C7
ENDREC
1 365
00011
0.07 0.10
750.65
316083
752.00
752.05
752.10
752.15
752.20
752.00
752.05
752.10
752.15
752.20
752.00
752.05
752.10
752.15
752.20
752.00
752.05
752.10
752.15
752.20
752.00
752.05
752.10
752.15
752.20
24 4
11111
0.15 0.35
73.22
73.40
73.40
73.40
73.40
73.40
73.45
73.45
73.45
73.45
73.45
73.50
73.50
73.50
73.50
73.50
73.55
73.55
73.55
73.55
73.55
73.60
73.60
73.60
73.60
73.60
1110
0.55 0
0.
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.
00000110
.5 0.5 0.5 0.5 0. 0. 10.
100. 35. 432. 2.4
520.
535.
575.
575.
580.
535.
550.
580.
595.
605.
535.
545.
580.
600.
625.
520.
535.
560.
595.
625.
525.
535.
565.
590.
630.
11.7495.
9.5-13
-------�
Table 9.5.6 COMPLEX-I EXAMPLE OUTPUT
50 METER GRID SPACING (SELECTED PORTIONS)
t/1
I
RECEPTOR
FIVE HIGHEST 24-HOUR PARTCOMCENTRATIONS«ENDING ON JULIAN DAY, HOUR)
(MICROGRAMS/M**3)
C-FLAG IDENTIFIES CONCENTRATIONS AFFECTED BY CALM HOURS
1 2 3
1( 752.00,
2( 752.05,
3( 752.10,
4( 752.15,
5( 752.20,
6( 752.00,
7( 752.05,
8( 752.10,
9( 752.15,
10( 752.20,
11( 752.00,
12( 752.05,
13( 752.10,
14( 752.15,
15( 752.20,
16{ 752.00,
17( 752.05,
18( 752.10,
19( 752.15,
20( 752.20,
21( 752.00,
22( 752.05,
23( 752.10,
24( 752.15,
25( 752.20,
73.40)
73.40)
73.40)
73.40)
73.40)
73.45)
73.45)
73.45)
73.45)
73.45)
73.50)
73.50)
73.50)
73.50)
73.50)
73.55)
73.55)
73.55)
73.55)
73.55)
73.60)
73.60)
73.60)
73.60)
73.60)
18.61 (279,24)
41.19 (342,24)
236.50 (342,24)
226.83 (342,24)
228.23 (342,24)
41.04 (342 '<>
103.32 (342,
172.42 (320,24)
264.07 (320,24)
243.81 (320,24)
25.47 (309,24)
49.77 (309,24)
182.07 (309,24)
226.19 (320,24)
210.63 (320,24)
17.08 (106,24)
39.46 (279,24)
222.57 (320,24)
213.58 (320,24)
205. 34C (335,24)
39.16C ( 63,24)
98.82 (320,24)
227.36 (320,24)
222.11 (342,24)
209.97 (342,24)
45.84C ( 63,24)
85.32 (320,24)
242.74 (342,24)
218.57 (320,24)
219.89 (342,24)
17.48 (309,24)
39.30 (320,24)
158.83 (309,24)
205.53 (314,24)
221.71 (309,24)
24.38 (300.24)
38.43 ( 7,24)
157.83 (291,24)
216.86 (309,24)
187.37 (309,24)
16.72 (274,24)
39.04 (314,24)
205.43C (341,24)
196. 81C (341,24)
199. 77C (341,24)
38.75 (314,24)
88.53C (341,24)
220. 86C (335,24)
221.39 (320,24)
209.80 (320,24)
44.28 (320,24)
78.17 (342,24)
230.50 (309,24)
217. 03C (313,24)
202.95 (320.24)
17.19 (106,24)
38.18 (224,24)
135.07 (342,24)
197.80 (342,24)
218.07 (342,24)
22.85 (224,24)
38.23 (224,24)
153.40 ( 18,24)
208.00 ( 18,24)
185.37 ( 18,24)
16.42 (314,24)
37.97 (320,24)
201.52 ( 5,24)
192.98 ( 5,24)
179.52 (314,24)
37.72 (320,24)
85.40 (309,24)
216. 70C (341.24)
211. 52C (313,24)
202.86 (314,24)
41.08 (342,24)
70.58C ( 63,24)
215. 02C (341,24)
209.27 (314,24)
199. 84C (313,24)
16.58 (130.24)
36.74 ( 7,24)
134.87 (291,24)
192.36 (309,24)
196.78 (314,24)
22.70C ( 63,24)
37.75 (300,24)
142.28 (224,24)
187.98 ( 5,24)
165.38 (314,24)
14.29 (351,24)
37.74 (351,24)
197. 08C (335,24)
189. 93C (335.24)
163.13 (279,24)
36.82C (341,24)
81.26 ( 7,24)
210. 66C (313,24)
209. 33C (341,24)
200. 16C (313,24)
38.82 (314,24)
67.69C (341,24)
209. 16C (313,24)
205. 15C (341,24)
198.33 (314,24)
16.32C ( 63,24)
36.12 ( 18,24)
130.63 ( 18.24)
187.73 ( 5.24)
183. 53C (335.24)
21.73 ( 47.24)
37.19 ( 47,24)
138.13 ( 7,24)
186.94 (291,24)
162.49 ( 5,24)
-------�
TABLE 9.5.7 COMPLEX-I EXAMPLE INPUT UNIFORM TERRAIN
COMPLEX 1 SECOND-LEVEL SCREENING
COURSE 423
LESSON 9.5
83 1
10010
10. 0.07
EXAMPLE
ENDPOINT
2316983
R1C1
R1C2
R1C3
R1C4
R1C5
R1C6
R1C7
R1C8
R2C1
R2C2
R2C3
R2C4
R2C5
R2C6
R2C7
R2C8
R3C1
R3C2
R3C3
R3C4
R3CS
R3C6
R3C7
R3C8
R4C1
R4C2
R4C3
R4C4
R4C5
R4C6
R4C7
R4C8
R5C1
R5C2
R5C3
R5C4
R5C5
R5C6
R5C7
R5C8
R6C1
R6C2
R6C3
R6C4
R6C5
R6C6
R6C7
R6C8
R7C1
R7C2
R7C3
R7C4
1 365
00011
0.07 0.10
750.65
316083
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
24 4
11111
0.15 0.35
73.22
72.4
72.4
72.4
72.4
72.4
72.4
72.4
72.4
72.5
72.5
72.5
72.5
72.5
72.5
72.5
72.5
72.6
72.6
72.6
72.6
72.6
72.6
72.6
72.6
72.7
72.7
72.7
72.7
72.7
72.7
72.7
72.7
72.8
72.8
72.8
72.8
72.8
72.8
72.8
72.8
72.9
72.9
72.9
72.9
72.9
72.9
72.9
72.9
73.0
73.0
73.0
73.0
1110
0.55 0
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
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.
00000110
.5 0.5 0.5 0.5 0. 0. 10.
100. 35. 432. 2.4
500.
540.
550.
575.
600.
625.
650.
660.
500.
540.
550.
575.
600.
625.
650.
660.
500.
540.
550.
575.
600.
625.
650.
660.
500.
540.
550.
575.
600.
625.
650.
660.
500.
540.
550.
575.
600.
625.
650.
660.
500.
540.
550.
575.
600.
625.
650.
660.
500.
540.
550.
575.
11.7495.
9.5-15
-------�
TABLE 9.5.7 COMPLEX-I EXAMPLE INPUT UNIFORM TERRAIN (cont.)
R7C5
R7C6
R7C7
R7C8
R8C1
R8C2
R8C3
R8C4
R8C5
R8C6
R8C7
R8C8
R9C1
R9C2
R9C3
R9C4
R9C5
R9C6
R9C7
R9C8
R10C1
R10C2
R10C3
R10C4
R10C5
R10C6
R10C7
R10C8
R11C1
R11C2
R11C3
R11C4
R11C5
R11C6
R11C7
R11C8
R12C1
R12C2
R12C3
R12C4
R12C5
R12C6
R12C7
R12C8
R13C1
R13C2
R13C3
R13C4
R13C5
R13C6
R13C7
R13C8
RUC1
R14C2
R14C3
R14C4
R14C5
R14C6
R14C7
R14C8
R15C1
R15C2
R15C3
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
73.0
73.0
73.0
73.0
73.1
73.1
73.1
73.1
73.1
73.1
73.1
73.1
73.2
73.2
73.2
73.2
73.2
73.2
73.2
73.2
73.3
73.3
73.3
73.3
73.3
73.3
73.3
73.3
73.4
73.4
73.4
73.4
73.4
73.4
73.4
73.4
73.5
73.5
73 5
T"
73.5
73.5
73.6
73.6
73.6
73.6
73.6
73.6
73.6
73.6
73.7
73.7
73.7
73.7
73.7
73.7
73.7
73.7
73.8
73.8
73.8
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
0. 575.
0. 600.
0. 625.
0. 650.
0. 660.
0. 500.
0. 540.
0. 550.
9.5-16
-------�
TABLE 9.5.7 COHPLEX-I EXAMPLE INPUT UNIFORM TERRAIN (cont.)
R15C4
R15C5
R15C6
R15C7
R15C8
R16C1
R16C2
R16C3
R16C4
R16C5
R16C6
R16C7
R16C8
R17C1
R17C2
R17C3
R17C4
R17C5
R17C6
R17C7
R17C8
R18C1
R18C2
R18C3
R18C4
R18C5
R18C6
R18C7
R18C8
R19C1
R19C2
R19C3
R19C4
R19C5
R19C6
R19C7
R19C8
R20C1
R20C2
R20C3
R20C4
R20C5
R20C6
R20C7
R20C8
R21C1
R21C2
R21C3
R21C4
R21CS
R21C6
R21C7
R21C8
R22C1
R22C2
R22C3
R22C4
R22C5
R22C6
R22C7
R22C8
ENDREC
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
751.60
751.80
752.00
752.10
752.18
752.21
752.23
752.23
73.8
73.8
73.8
73.8
73.8
73.9
73.9
73.9
73.9
73.9
73.9
73.9
73.9
74.0
74.0
74.0
74.0
74.0
74.0
74.0
74.0
74.1
74.1
74.1
74.1
74.1
74.1
74.1
74.1
74.2
74.2
74.2
74.2
74.2
74.2
74.2
74.2
74.3
74.3
74.3
74.3
74.3
74.3
74.3
74.3
74.4
74.4
74.4
74.4
74.4
74.4
74.4
74.4
74.5
74.5
74.5
74.5
74.5
74.5
74.5
74.5
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.
575
600
625
650
660
500
540
550
575
600
625
650
660
500
540
550
575
600
625
650
660
500
540
550
575
600
625
650
660
500
540
550
575
600
625
650
660
500
540
550
575
600
625
650
660
500
540
550
575
600
625
650
660
500
540
550
575
600
625
650
660
9.5-17
-------�
l/l
OO
RECEPTOR
Table 9.5.8 COMPLEX-I EXAMPLE OUTPUT
UNIFORM TERRAIN (SELECTED PORTIONS)
FIVE HIGHEST 24-HOUR PARTCONCENTRATIONS((ENOIHG OH JULIAN DAY, HOUR)
(MICROGRAMS/M**3)
C-FLAG IDENTIFIES rr"
-------�
Table 9.5.8 COMPLEX-I EXAMPLE OUTPUT (cant.)
On
<£>
51( 752.00,
52( 752.10,
53( 752.18,
54( 752.21,
55( 752.23,
56( 752.23.
57( 751.60,
58( 751.80,
59( 752.00,
60( 752.10,
61 ( 752.18,
62( 752.21,
63( 752.23,
64( 752.23,
65( 751.60,
66( 751.80,
67( 752.00,
68( 752.10,
69( 752.18,
70( 752.21,
71( 752.23,
72( 752.23,
73( 751.60,
74( 751.80,
75( 752.00,
76( 752.10,
77( 752.18,
78( 752.21,
79( 752.23,
80( 752.23,
81 ( 751.60,
82( 751.80,
83( 752.00,
84( 752.10,
85( 752.18,
86( 752.21,
87( 752.23,
88( 752.23,
89( 751.60,
90( 751.80,
91( 752.00,
92( 752.10,
93( 752.18,
94( 752.21,
95( 752.23,
96( 752.23,
97( 751.60,
98( 751.80,
99{ 752.00,
100( 752.10,
73.00)
73.00)
73.00)
73.00)
73.00)
73.00)
73.10)
73.10)
73.10)
73.10)
73.10)
73.10)
73.10)
73.10)
73.20)
73.20)
73.20)
73.20)
73.20)
73.20)
73.20)
73.20)
73.30)
73.30)
73.30)
73.30)
73.30)
73.30)
73.30)
73.30)
73.40)
73.40)
73.40)
73.40)
73.40)
73.40)
73.40)
73.40)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.50)
73.60)
73.60)
73.60)
73.60)
101.23
193.43
199.89
183.15
167.83
162.94
31.61
50.08
74.75
168.66
174.24
159.72
146.34
142.07
31.64
50.22
91.20
209.47
251. 84C
232. SBC
213. 51C
207. 46C
24.76
58.61
91.11
228.20
252.95
232.54
213. 17C
207. 12C
15.62
58.68
106.03
236.50
249. 56C
230. 55C
211.69C
205. 69C
15.68
69.90
115.07
254.17
237.90
227. 70C
209. 13C
203. 20C
26.68
69.61
113.05
217.36
(355,.24)
(355,24)
(355,24)
(355.24)
(355.24)
(355,24)
(150.24)
(355,24)
(355,24)
(355,24)
(355,24)
(355,24)
(355,24)
(355.24)
(150,24)
(342,24)
( 6.24)
( 6,24)
(335,24)
(335,24)
(335,24)
(335,24)
(150,24)
(342,24)
( 6,24)
(342,24)
(342,24) *
(342,24)
(335,24)
(335,24)
(122,24)
(342.24)
(342,24)
(342,24)
(335,24)
(335,24)
(335.24)
(335,24)
(225,24)
(309.24)
(320,24)
(320.24)
(342.24)
(335.24)
(335.24)
(335,24)
(130,24)
(309,24)
(309,24)
(309,24)
76.47
146.63
155.99
147.66
137.36
134.01
14.22
43.90C
73.34C
155. 11C
154.06C
141. 69C
130.04C
126.33C
16.18
50.05
89.41
198.72C
215.28
197.97
181.45
176.20
16.11
53.73
89.24
209.08
251. 41C
232. 20C
213.16
207.01
11.82
54.14
101.08
222.57
244.33
223.83
205.08
199.10
15.33
54.40
114.27
231.53
213.31
218.04
199.82
193.98
19.14
63.52C
90.66
194.81
(357,24)
( 17,24)
(357,24)
(357.24)
(357.24)
(357.24)
(144.24)
(341.24)
(341,24)
(341,24)
(335,24)
(335,24)
(335,24)
(335,24)
(122,24)
( 6.24)
(342,24)
(335,24)
(342.24)
(342,24)
(342,24)
(342.24)
(122,24)
(279.24)
(342.24)
( 6.24)
(335.24)
(335,24)
(342,24)
(342,24)
(144,24)
(320,24)
(320,24)
(320,24)
(342,24)
(342,24)
(342,24)
(342,24)
(122,24)
(320.24)
(309.24)
(342,24)
(320,24)
(342,24)
(342,24)
(342.24)
(226.24)
( 63,24)
(291.24)
(291.24)
56.59
136.77
151.99
140.35
128.76
125.08
12.05
37.46
65.07
150.37
153.48
141.68
129.95
126.23
11.95
43.92C
77.00C
197.12
196.12
178.74
163.59
158.74
11.99
52.04C
84.67
198. 41C
195.78
182.71
169.07
164.82
10.54
53.61
90.72C
205. 43C
215.05
209.38
195.68
191.27
13.12
51.87
105.06
221.57
211. 73C
201.34
187.04
182.09
15.92
59.83
87.95
193.44
( 6,24)
(333.24)
(342,24)
(342,24)
(342,24)
(342,24)
(274,24)
(150,24)
(320,24)
(333.24)
(342,24)
(342,24)
(342,24)
(342,24)
(274.24)
(341.24)
(335,24)
(342.24)
( 6.24)
( 6.24)
( 6.24)
( 6,24)
(274,24)
(341.24)
(320,24)
(335.24)
( 6,24)
(314,24)
(314,24)
(314,24)
(274,24)
(279,24)
(341,24)
(341,24)
(314,24)
(314,24)
(314,24)
(314,24)
(130,24)
(291,24)
(342,24)
(309,24)
(313,24)
(320.24)
(320,24)
(320,24)
(225,24)
( 1,24)
( 18,24)
( 18,24)
52.63
135.99
149.84
139. 19C
127.93C
124.36C
11.70
35.09
64.56
148.03
152. 91C
139.37C
127. 60C
123.86C
11.66
42.61C
74.91
188.74
189.65
173.05
158.55
153.89
10.81
50.04
82.95
190.28
193.39
178.44
163.32
158.49
10.32
52.26
82.57
201.52
202. 51C
184. 68C
169. 14C
164. 17C
11.70
50.78
90.07C
202. 65C
204.22
198.23C
183.36
179.00
13.01
56.83
84.21
173.71
(354,24)
( 4,24)
( 17,24)
(335,24)
(335,24)
(335,24)
(243,24)
(351,24)
(333,24)
(320,24)
(341,24)
(341,24)
(341,24)
(341,24)
(243,24)
(335,24)
(355.24)
(257,24)
(257,24)
(257,24)
(257,24)
(257.24)
(238,24)
( 6.24)
(279.24)
(320,24)
(314,24)
( 6.24)
( 6,24)
( 6,24)
(147,24)
(309,24)
(279,24)
( 5.24)
(341,24)
(341,24)
(341,24)
(341,24)
(142,24)
( 7,24)
(341,24)
(341,24)
(314,24)
(313,24)
(314,24)
(314,24)
(142,24)
( 47,24)
( 7,24)
( 7,24)
50.53
134.88
146.55C
136.85
125.45
121.77
11.28
34.20
59.11
132.03
144.02
131.82
124.35
122.40
10.86
41.53
73.52C
169.36
169.70C
155.93C
143. OOC
138. 90C
10.61
49.71
77.57
188.41
189.33
172.78
158.30
153.65
10.24
52. OOC
81.25
197.08C
181.49
170.05
155.94
151.47
10.41
50.48
87.16C
198.76
199. 89C
196.74
183.32C
178.35C
10.93
52.23
83.73
173.04
( 4,24)
(351,24)
(335,24)
( 17,24)
( 17,24)
( 17,24)
(262,24)
(354,24)
(351,24)
(342,24)
(333,24)
(212,24)
(212,24)
(212,24)
(238,24)
(355,24)
(341,24)
(355,24)
(336,24)
(336,24)
(336,24)
(336,24)
(147,24)
(314,24)
(314,24)
(257,24)
(257,24)
(257,24)
(257,24)
(257,24)
(175,24)
(341,24)
( 6,24)
(335,24)
(351,24)
(351,24)
(351,24)
(351,24)
(271,24)
( 18,24)
( 63,24)
( 5,24)
(341,24)
(314,24)
(313,24)
(313,24)
(234,24)
( 7,24)
(224,24)
(224,24)
-------�
Table 9.5.8 COMPLEX-I EXAMPLE OUTPUT (cent.)
ID
I
N)
o
10H 752.18,
102( 752.21,
103( 752.23,
104( 752.23,
105( 751.60,
106( 751.80,
107( 752.00,
108( 752.10,
109( 752.18,
110( 752.21,
111( 752.23,
112( 752.23,
113( 751.60,
114( 751.80,
115( 752.00,
116( 752.10,
117( 752.18,
118( 752.21,
119( 752.23,
120( 752.23,
12K 751.60,
122( 751.80,
123( 752.00,
124( 752.10,
125( 752.18,
126( 752.21,
127( 752.23,
128C 752.23,
1?9( 751.60,
1.5 ; ?51.80,
13K 752.00,
132( 752.10,
133( 752.18,
134( 752.21,
135( 752.23,
136( 752.23,
137( 751.60,
138( 751.80.
139( 752.00,
H0( 752.10,
UK 752.18,
142( 752.21,
143( 752.23,
144( 752.23,
H5( 751.60,
U6( 751.80,
147( 752.00,
148( 752.10,
149( 752.18,
150( 752.21,
73.60)
73.60)
73.60)
73.60)
73.70)
73.70)
73.70)
73.70)
73.70)
73.70)
73.70)
73.70)
73.80)
73.80)
73.80)
73.80)
73.80)
73.80)
73.80)
73.80)
73.90)
73.90)
73.90)
73.90)
73.90)
73.90)
73.90)
73.90)
74.00)
74.00)
74.00)
74.00)
74.00)
74.00)
74.00)
74.00)
74.10)
74.10)
74.10)
74.10)
74.10)
74.10)
74.10)
74.10)
74.20)
74.20)
74.20)
74.20)
74.20)
74.20)
222.38
210.39
195.51
190.38
19.06
72.02
111.57
211.97
209.51
194.31
178.86
173.89
23.97
79.48
114.83
240.13
237.06
209.50
192.87
187.49
25.74
74.61
112.87
233.23
230.08
212.00
195.90
190.67
34.37
77.61
119.88
220.00
262.25
205.09
189.65
184.59
38.93
73.15
117.15
236.74
232.49
213.21
195.93
190.13
44.31
72.38
119.84
234.40
225.55
225.51
(320.24)
(320,24)
(320,24)
(320,24)
(130,24)
( 1,24)
( 1.24)
(309,24)
( 1,24)
( ,24)
( .24)
( ,24)
(14 ,24)
( ,24)
( ,24)
(300,24)
(300,24)
( 1,24)
( 1,24)
( 1.24)
(195.24)
(104,24)
( 1,24)
(300,24)
(300,24)
( 1.24)
( 1.24)
( 1.24)
(195,24)
( 2.24)
(104,24)
(104,24)
( 1.24)
( 1.24)
( 1.24)
( 1,24)
(195,24)
(104,24)
(104,24)
( 53,24)
( 53,24)
( 53,24)
( 53,24)
( 53.24)
(195,24)
(104,24)
(300,24)
( 2,24)
(300.24)
(300,24)
206.57
188.39
172.49
167.39
18.64
63.34C
111.35
207.58
201.74
184. 59C
169.71C
164. 90C
18.74
68.85C
102.87C
231.47
226.05
186.30
182.80
177.40
22.89
69.22
110.52
224.26
227.98
208. 31C
194. 84C
190. 35C
23.51
74.25
114.98
217.42
215.50
197.53
182. 60C
178.69C
27.23
65.41
110.89
234.32
226.64
206.61
189.86
184.27
30.56
65.93
113.75
231.36
216.29
205.18
(309.24)
(309.24)
(309.24)
(309,24)
(226,24)
( 63,24)
(309.24)
( 1,24)
(309.24)
(335,24)
(335.24)
(335,24)
(130,24)
( 63,24)
( 63.24)
( 1.24)
( 1,24)
( 18,24)
(309,24)
(309,24)
(141.24)
(301,24)
(104,24)
( 1,24)
( 1,24)
( 63,24)
( 63,24)
( 63,24)
( 83,24)
( 53,24)
( 53,24)
(300,24)
(104,24)
(104,24)
( 63,24)
( 63,24)
( 83,24)
( 15,24)
( 13,24)
( 13,24)
(300,24)
(104,24)
(104,24)
(104,24)
(108,24)
(300,24)
(104,24)
( 53,24)
(104,24)
( 53,24)
203.26
186.36
170.90
165.93
17.97
60.73
90.46
193.16
198.59
184.12
168.67
163.68
18.11
66.66
92.87
190.95
200.44
185.77
172.55
168.05
18.17
66.23
101.86
200.00
218.98C
178.42
163.87
159.11
21.06
74.04
113.50
211.84
214.37
197.49
182.46
177.51
23.63
64.27
110.50
230.20
225.21
190.64
176.23
171.44
30.53
63.74
108.27
230.61
212.46
198.64
( 18,24)
( 18,24)
( 18,24)
( 18,24)
(234,24)
(309,24)
( 47.24)
( 18,24)
( 18,24)
(309,24)
(309,24)
(309,24)
(234,24)
(104,24)
( 46,24)
( 46,24)
( 46,24)
(300,24)
( 47,24)
( 47,24)
(234,24)
( 53,24)
(289,24)
(104,24)
( 63,24)
( 46,24)
( 46,24)
( 46,24)
(141,24)
(104.24)
( 13.24)
( 1,24)
(300,24)
(300,24)
(300,24)
(300,24)
(324.24)
( 13.24)
( 2,24)
(104,24)
(104,24)
(300,24)
(300,24)
(300,24)
( 83,24)
( 13,24)
( 13,24)
(300,24)
( 13.24)
(104.24)
179.06
165.30
154.55
151.01
16.47
60.63
89.65C
182.79
186. 33C
182.22
167.18
163.02C
17.46
65.51
92.59
180.70
199.51
173. 25C
172.43
167.87
18.16
65.43
98.40
187.98
205.69
172.83
160.33
156.31
20.09
65.81
108.96
202.46
206.13
194. 28C
181.40
176.06
21.11
59.72
110.11
229.84
221.04
186. 18C
174.35
169. 99C
29.93
62.56
98.44
224.76
212.26
196.59
( 5,24)
(314.24)
(314,24)
(314,24)
(195,24)
(308,24)
( 63,24)
( 47,24)
( 63,24)
( 18,24)
( 18,24)
( 63,24)
(226,24)
(289.24)
(309,24)
(308,24)
( 18,24)
( 63,24)
( 18,24)
(300,24)
(225.24)
(300,24)
(300,24)
( 47,24)
( 47,24)
(300,24)
(300,24)
(300,24)
(324,24)
( 15.24)
(300,24)
( 2,24)
( 2,24)
( 63.24)
(104,24)
(104,24)
(141,24)
(243,24)
(300,24)
(300,24)
( 13,24)
( 54,24)
( 1.24)
( 54,24)
(317,24)
(347,24)
(347,24)
( 13,24)
(165,24)
(165,24)
177.73
163.45
149.72
145.27
16.19
58.73
89.37
179.70
179.20
177.77C
166.68C
162.32
16.44
61.98
90.55
169.64
187.67
171.44
172.21
167.69
17.11
64.08
97.43
184.90
194.14
160.67
150.02
146.66
18.27
64.96
107.95
201.21
203. 08C
184.67
170.84
166.33
20.33
58.09
108.65
206. 70C
200.53
185.76
174.28C
169.47
28.54
57.51
95.56
220.78
203.62
194.99
(291,24)
( 5,24)
( 5,24)
( 5,24)
(225,24)
( 46,24)
( 18,24)
(342,24)
(342,24)
( 63,24)
( 63,24)
( 18,24)
(195,24)
( 2,24)
(300,24)
(309,24)
(309,24)
(309,24)
(300,24)
( 18,24)
( 83,24)
( 15,24)
(301,24)
( 46,24)
( 46,24)
(364,24)
(364,24)
(364,24)
( 90,24)
(300,24)
(301,24)
(288,24)
( 63,24)
( 47.24)
( 47,24)
( 47,24)
(317,24)
(300,24)
( 53,24)
( 52,24)
(165,24)
(165,24)
( 54,24)
( 1.24)
(120,24)
(245,24)
( 2.24)
(104,24)
(364,24)
( 13,24)
-------�
Table 9.5.8 COMPLEX-I EXAMPLE OUTPUT (cont.)
UD
cn
151( 752.23,
152< 752.23,
153( 751.60,
154( 751.80,
155( 752.00,
156( 752.10,
157( 752.18,
158( 752.21,
159( 752.23,
160( 752.23,
161 ( 751.60,
162( 751.80,
163( 752.00,
164( 752.10,
165( 752.18,
166( 752.21,
167( 752.23,
168( 752.23,
169( 751.60,
170( 751.80,
171( 752.00,
172( 752.10,
173{ 752.18,
174( 752.21,
175( 752.23,
176( 752.23,
74.20)
74.20)
74.30)
74.30)
74.30)
74.30)
74.30)
74.30)
74.30)
74.30)
74.40)
74.40)
74.40)
74.40)
74.40)
74.40)
74.40)
74.40)
74.50)
74.50)
74.50)
74.50)
74.50)
74.50)
74.50)
74.50)
208.32
202.55
36.43
71.52
110.80
241.54
223.57
202.71
186.53
181.03
36.17
54.75
107.81
224.52
196.50
210.16
194.35
188.96
36.54
53.40
93.97
214.64
211.21
194.59
179.36
174.06
(300,24)
(300.24)
(108.24)
(104,24)
(104,24)
(300,24)
(104,24)
( 53,24)
( 53,24)
( 53,24)
(108,24)
(104,24)
(104,24)
(300,24)
(104,24)
(300,24)
(300,24)
(300.24)
(196,24)
(187,24)
(104,24)
(300,24)
(300,24)
(300,24)
(300,24)
(300,24)
188.68
183.09
36.15
58.88
105.58
215.19
220.59
199.92
184.86
179.76
32.75
54.67
107.67
205.74
195.27
180.84
166.51
161.60
35.33
52.42
80.32
191.53
187.85
173.12
159.56
154.86
( 53.24)
( 53.24)
(195,24)
(364,24)
( 13,24)
( 13,24)
( 53,24)
(300,24)
(300,24)
(300,24)
(196,24)
(195,24)
(300,24)
( 13,24)
( 13,24)
(104,24)
(104,24)
(104,24)
(108,24)
(286,24)
(299,24)
(104,24)
(104,24)
(104,24)
(104,24)
(104,24)
182.66
177.78
27.56
57.09
95.24
209.83
216.59
190.60
175.39
170.22
30.99
54.29
102.85
200.57
191.52
179.57
165.28
160.37
30.06
52.15
79.68
179.71
186.85
172.07
158.54
153.82
(104,24)
(165,24)
(120.24)
(195,24)
(300,24)
(104,24)
(300,24)
(104,24)
(104,24)
(104,24)
(195,24)
(147,24)
( 13,24)
(104,24)
(300,24)
( 13,24)
( 13,24)
( 13,24)
(195,24)
(108,24)
(245,24)
( 13,24)
( 13,24)
( 13,24)
( 13,24)
( 13,24)
182.49
177.28
26.78
56.89
84.03
184.67
203.84
187.26
172.25
167.13
26.53
50.90
91.64
183.47
166. 76C
162.92
151.33
147.41
28.51
50.10
78.24
175.19
163.63
150.66
138.78
134.64
(165,24)
(104,24)
( 83,24)
(245,24)
(347,24)
( 2,24)
( 13,24)
( 13,24)
( 13,24)
( 13.24)
(120.24)
(317.24)
(347,24)
( 21.24)
( 52.24)
( 2,24)
( 2,24)
( 2.24)
(324.24)
(199,24)
(347,24)
( 21,24)
( 21,24)
( 21.24)
( 21,24)
( 21,24)
179.24
173.91
25.74
54.99
83.83C
174.40C
183.38
169.86
157.70
153.62
26.03
50.06
91.36
167. 11C
166.42
158.07
147.73
144.31
26.75
49.08
76.47
159.70
158.95
149.01
138.06
134. 34C
( 13,24)
( 13,24)
(196.24)
(147.24)
( 52,24)
( 52,24)
( 2,24)
( 2,24)
( 2,24)
( 2,24)
(324.24)
( 83,24)
( 21.24)
( 52,24)
( 15,24)
( 15,24)
( 15,24)
( 15,24)
(317,24)
(239,24)
(147,24)
(299,24)
(364,24)
(364,24)
(364,24)
( 52,24)
t-o
-------�
9.6 Third-Level Screening Techniques
I. Third-level Screening Techniques
A, EPA Recommendations
1. Use RTDM (rural only)
2. Wind data should be from the lesser of stack-top or 100 meters, or at
plume height using remote sensing.
3. Use preferred screening options in RTDM.
4. Analyze plume height relative to critical dividing streamline.
B. Critical Dividing Streamline
1. Defined as
Hcrit = H (l-Fr)
where
H = height of terrain obstacle above stack
Fr = the Froude number
2. Hen, equals 0 for unstable and neutral - plume follows terrain in RTDM.
3. Hen, > 0 under stable conditions ~ plume < Hcrit impacts terrain.
II. Summary
III. Questions
9.6-1
-------�
9.7 Demonstration of Third-Level Screening
I. Third-level Screening Using RTDM
A. Major RTDM Features
1. Allows on-site meteorological data (On-site data at 10 m and stack
height are required for regulatory applications.)
2. Terrain entered as distances to contour levels.
B. Model Input and Output (the following example is from the RTDM user's
guide)
1. Sample input data ~ Table 9.7.1
2. Sample meteorological data file -- Table 9.7.2
3. Sample output list file -- Table 9.7.3
C. Postprocessor Input and Output
1. Sample input stream file -- Table 9.7.4
2. Sample postprocessor output ~ Table 9.7.5
II. Summary
III. Questions
9.7-1
-------�
III. Questions
9.7-2
-------�
Table 9.7.1 RTDM INPUT DATA FILE EXAMPLE
PARAMETERS
PR003
PR004
PR022
PR018
PR019
PR020
PR021
PR023
PR025
99999
STACKS
600.
STK1
99999
POINTS
99999
TERRAIN
1100.
010
020
030
040
050
060
070
080
090
100
1.
10.0
1.
1.
1.
1. .17
1.
1.
22.5 22.5 22.5
1.
800. 765.
121.92 5.0
603.16 801.61
602.75 799.90
603.46 799.41
600.53 800.63
600.64 800.76
600.80 800.96
600.85 801.01
600.96 801.14
601.09 801.30
601.31 801.56
601.43 801.70
601.61 801.92
601.84 802.19
603.59 804.27
603.70 804.40
603.89 804.63
603.93 804.68
603.96 804.72
603.98 804.74
603.99 804.76
604.00 804.77
604.03 804.80
604.04 804.82
603.35 793.70
598.10 798.23
596.53 799.26
100.
4.46 4.78 5.01
1.50 3.35 3.45
4.80 -999.
1.40 1.50 1.65
1.28 1.40 1.46
1.15 1.30 1.39
2.13 2.22 2.34
1.18 1.29 1.40
2.58 -999.
1.25 1.47 1.60
1.41 1.58 1.70
2.59 -999.
1.64 1.75 1.88
3.08 -999.
1.99 2.09 2.18
0. 0.
22.5 22.5 22.5
S02
20.0 370. 1000.
2782. UEST MT.
2430. BRUSH MT.
2520. WALKER MT.
1100.
1200.
1300.
1400.
1500.
1600.
1700.
1800.
1900.
2000.
2100.
2200.
2300.
2400.
2500.
2600.
2700.
2800.
2900.
3000. TUMBLEDOWN MT.
1631. BUNKER MT.
2440. RECORD HILL
2440. OLD TURK MT.
7.00 7.38 -999.
3.75 3.85 3.95 4.05
3.00 3.10 3.16 3.24
1.53 1.61 1.74 1.88
1.49 1.60 1.69 1.75
-999.
1.48 1.58 1.69 1.80
1.72 1.87 2.03 2.ZD
1.87 2.00 2.12 2.24
1.99 2.09 2.20 2.39
2.30 2.52 2.59 2.66
4.20 4.60 4.70
3.31 3.50 -999
1.98 2.72 -999
1.82 1.94 2.06
1.94 2.10 2.24
2.32 2.47 -999
2.38 2.44 2.49
2.59 2.76 2.94
2.71 2.81 2.95
9.7-3
-------�
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
290
300
310
320
330
340
350
360
99999
EXECUTE
3.09
2.02
2.21
6.73
2.75
-999.
1.22
1.11
1.08
1.01
0.81
4.79
0.79
-999.
0.68
0.71
2.62
0.82
5.58
1.05
2.84
1.05
2.68
1.00
2.30
1.00
2.56
1.03
2.26
1.09
1.97
1.16
3.34
1.28
3.33
1.46
3.98
1.65
8.65
2.18
6.23
4.69
4.31
3.18
2.28
2.41
6.85
5.47
1.29
1.19
1.15
1.12
1.04
4.92
0.90
0.82
0.83
2.73
0.99
5.75
1.21
3.01
1.20
2.80
1.23
2.45
1.11
2.63
1.16
2.49
1.22
2.10
1.28
3.50
1.41
3.96
1.60
4.08
1.85
-999.
2.97
6.42
4.90
6.80
3.29
2.40
2.52
7.07
5.62
6.70
1.24
1.21
1.23
1.18
5.05
1.07
1.00
1.03
-999.
1.25
6.05
1.48
3.17
1.41
2.91
1.31
2.57
1.27
2.73
1.28
2.61
1.34
3.50
1.43
3.65
1.60
4.03
1.75
4.20
2.00
4.42
6.58
-999.
-999.
-999.
2.52
2.63
-999.
5.92
6.80
1.29
1.28
1.34
1.38
-999.
1.23
1.16
1.20
1.32
6.11
1.61
3.21
1.61
3.14
1.40
2.80
1.36
2.84
1.38
-999.
1.43
3.58
1.57
3.79
1.74
4.17
1.90
8.25
3.12
4.61
-999.
2.63
5.75
6.01
6.90
1.32
1.38
1.48
1.51
1.37
1.30
1.43
1.49
6.16
2.02
3.28
1.78
3.31
1.56
-999.
1.49
-999.
1.48
1.54
3.70
1.67
3.90
1.89
-999.
2.90
8.35
3.36
4.78
2.72
5.90
6.70
7.00
-999.
1.42
1.53
1.66
1.50
1.50
1.58
1.70
6.19
2.17
3.32
1.90
3.39
1.70
1.60
1.53
1.63
-999.
1.76
4.05
2.10
3.04
-999.
3.49
-999.
X3.00
6.01
6.90
-999.
5.13
4.98
1.82
1.71
1.68
1.81
2.04
6.21
2.28
7.42
2.04
3.45
1.86
1.78
1.66
1.71
1.83
-999.
2.90
3.42
4.05
3.19
6.18
7.37
5.32
-999.
2.10
1.81
1.95
2.15
2.22
6.23
2.42
7.49
2.16
-999.
1.97
2.09
1.73
1.76
1.98
3.01
3.59
4.20
3.55
6.30
7.48
5.51
2.23
1.91
2.52
2.30
2.50
6.27
2.54
-999.
2.38
2.08
2.27
1.88
1.82
2.13
3.16
3.75
4.42
-999
6.50
7.79
-999
2.31
2.01
-999,
2.52
2.86
6.29
2.67
2.52
2.17
2.45
2.09
1.89
3.26
3.24
3.90
8.55
220. 5.0 3000. 4. 68. 0.08 0.06 0.0 0.0 0.20 0.14 10.
ENDJOB
9.7-4
-------�
Table 9.7.2 RTDM INPUT MET DATA FILE EXAMPLE
7636524 220.
7636604 220.
7636609 220.
7636612 220.
7636614 220.
7636619 220.
1.0
3.0
2.0
4.0
2.0
7.0
3000.
1000.
3000.
700.
3000.
550.
1.
1.
2.
2.
3.
3.
68.
68.
68.
68.
68.
68.
0.22
0.22
0.16
0.16
0.11
0.11
0.20
0.20
0.12
0.12
0.08
0.08
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.1
0.1
0.12
0.12
0.15
0.15
.09
.09
.11
-.11
.12
-.12
2.0
6.0
4.0
7.0
4.0
14.0
7700105 220. 3.0 1000. 4. 68. 0.08 0.06 0.0 0.0 0.20 .14 6.0
7700111 220. 15. 450. 4. 68. 0.08 0.06 0.0 0.0 0.20 -.14 30.0
7700113 220. 2.0 3000. 5. 68. 0.06 0.03 0.02 0.02 0.30 .20 5.0
7700116 220. 4.0 700. 5. 68. 0.06 0.03 0.003 0.005 0.30 -.20 10.0
7700119 220. 2.5 2000. 6. 68. 0.04 0.016 0.006 0.02 0.40 0.30 7.0
7700122 220. 4.0 650. 6. 68. 0.04 0.016 0.04 0.006 0.40 .30 12.0
9.7-5
-------�
Table 9.7.3 RTDH HOOEL OUTPUT EXAMPLE
ROUGH TERRAIN DIFFUSION MODEL VERSION 3.2 LEVEL 861130 PAGE 1
MODEL PARAMETERS:
frtOOl: HORIZONTAL SCALE IS 1000.000 METERS PER USER UNIT
PR002: VERTICAL SCALE IS .305 METERS PER USER UNIT
PR003: WIND SPEED SCALE IS 1.000 M/SEC PER USER UNIT
PR004: ANEMOMETER #1 HEIGHT ABOVE ZA (USED FOR PLUME RISE) IS 10.0 M
IF AVAILABLE, ANEMOMETER #2 HEIGHT ABOVE ZA (USED FOR PLUME DILUTION) IS .0 M
DILUTION WIND SPEED OPTION IS 0 (IF 0, ONE WIND SPEED--AT STACK HEIGHT-IS USED FOR PLUME RISE AND DILUTION
IF 1, WIND SPEED AT LEVEL #1 IS EXTRAPOLATED TO STACK-TOP HEIGHT FOR PLUME RISE AND TO PLUME HEIGHT FOR DILUTION
IF 2, WIND SPEED AT LEVEL #1 IS EXTRAPOLATED TO STACK-TOP HEIGHT FOR PLUME RISE,
AND THE SPEED AT LEVEL #2 IS EXTRAPOLATED TO PLUME HEIGHT FOR DILUTION)
ZA (HEIGHT IN METERS ABOVE STACK BASE ELEVATION WHERE THE WIND SPEED PROFILE IS ASSUMED TO ORIGINATE) = .000
PR005: DEFAULT WIND SPEED PROFILE EXPONENTS AS A FUNCTION OF STABILITY CLASS (1-6, RESPECTIVELY):
.0900 .1100 .1200 .1400 .2000 .3000
PR006: DISPERSION COEFFICIENTS ARE BRIGGS RURAL/ASHE-1979 (UNLESS REPLACED BY ON-SITE TURBULENCE DATA).
PR009: PARTIAL PLUME PENETRATION OF MIXING LIDS IS NOT BEING USED.
PR010: BUOYANCY-ENHANCED PLUME DISPERSION IS USED; PARAMETER ALPHA IS 3.162
^J PR011: UNLIMITED MIXING HEIGHT USED FOR STABLE CONDITIONS
°" PR012: TRANSITIONAL PLUME RISE IS USED.
PR013: PLUME PATH COEFFICIENTS FOR STABILITY CLASSES 1-6: .500 .500 .500 .500 .500 .500
PROU: DEFAULT VERTICAL POTENTIAL TEMPERATURE GRADIENTS USED FOR STABLE PLUME RISE (CLASSES 5 & 6): .0200 .0350
PR015: STACK-TIP DOUNWASH IS NOT USED.
PR016: Y-COMPONENT TURBULENCE INTENSITY VALUES ARE NOT PROVIDED; STABILITY CLASS IS USED TO OBTAIN SIGMA-Y.
PR017: Z-COMPONENT TURBULENCE INTENSITY VALUES ARE NOT PROVIDED; STABILITY CLASS IS USED TO OBTAIN SIGMA-Z.
PR018: HOURLY VERTICAL POTENTIAL TEMPERATURE GRADIENTS ARE PROVIDED FOR COMPUTING STABLE PLUME RISE.
PR019: HOURLY VERTICAL POTENTIAL TEMPERATURE GRADIENTS ARE PROVIDED FOR COMPUTING HCRIT.
PR020: WIND DIRECTION SHEAR IS USED IN COMPUTATION OF SIGMA-Y; COEFFICIENT = .17
PR021: HOURLY VALUES OF WIND SPEED PROFILE EXPONENT ARE PROVIDED.
PR022: PARTIAL REFLECTION ALGORITHM IS BEING USED; KEYWORD TERRAIN MUST BE USED TO READ IN TERRAIN.
PR023: OFF-CENTERLINE CONCENTRATIONS ARE COMPUTED FOR ALL STABILITIES; NO SECTOR AVERAGING IS USED.
PR024: HOURLY EMISSIONS DATA ARE NOT AVAILABLE; CONSTANT VALUES SPECIFIED IN THE STACKS SECTION ARE USED.
PR025: DETAILED INFORMATION ABOUT EACH CASE WILL BE PRINTED.
-------�
Table 9.7.3 RTDH MODEL OUTPUT EXAMPLE (cont.)
ROUGH TERRAIN DIFFUSION MODEL VERSION 3.2 LEVEL 861130 PAGE 2
MODELED STACK PARAMETERS:
X.Y COORDINATE OF ALL SOURCES (USER UNITS) IS ( 600.00
BASE HEIGHT OF ALL SOURCES (USER UNITS) IS 765.000 OR
POLLUTANT IS S02
800.00 ) OR
233.172 METERS
( 600000.00 , 800000.00) METERS
CODE NAME STACK HT (M) DIAMETER (M) EXIT VEL (M/SEC) STACK TEMP (K) EMISSION RATE (G/SEC)
1 STK1 121.920 5.000 20.000
1 ROUGH TERRAIN DIFFUSION MODEL VERSION 3.2 LEVEL 861130
370.000
1000.000
PAGE 3
RECEPTOR POINT INFORMATION (ALL COORDINATES IN USER UNITS):
RECEPTOR
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
26
X-COORD
Y-COORD
HEIGHT
NAME
603.16
602.75
603.46
600.53
600.64
600.80
600.85
600.96
601.09
601.31
601 .43
601.61
601.84
603.59
603.70
603.89
603.93
603.96
603.98
603.99
604.00
604.03
604.04
603.35
598.10
596.53
801.61
799.90
799.41
800.63
800.76
800.96
801.01
801.14
801 .30
801.56
801.70
801.92
802.19
804.27
804.40
804.63
804.68
804.72
804.74
804.76
804.77
804.80
804.82
793.70
798.23
799.26
2782.00** WEST MT.
2430.00** BRUSH MT.
2520.00** WALKER MT.
1100.00
1200.00**
1300.00**
1400.00**
1500.00**
1600.00**
1700.00**
1800.00**
1900.00**
2000.00**
2100.00**
2200.00**
2300.00**
2400.00**
2500.00**
2600.00**
2700.00**
2800.00**
2900.00**
3000.00** TUMBLEDOWN MT.
1631.00** BUNKER MT.
2440.00** RECORD HILL
2440.00** OLD TURK MT.
** THIS RECEPTOR IS HIGHER IN ELEVATION THAN THAT OF THE LOWEST STACK TOP.
SPECIAL ALGORITHMS CONCERNING PLUME IMPINGEMENT AND REFLECTION MAY INFLENCE CONCENTRATIONS MODELED AT THIS RECEPTOR.
-------�
Table 9.7.3 RTDN MODEL OUTPUT EXAMPLE (cent.)
ROUGH TERRAIN DIFFUSION MODEL VERSION 3.2 LEVEL 861130 PAGE 4
10
i
oo
TERRAIN INFORMATION:
TABLE OF DISTANCES (KM) FROM THE SOURCE TO ELEVATION CONTOURS AS A FUNCTION OF WIND DIRECTION
ELEVATION IN USER UNITS:
WIND DIR. 1100. 1200. 1300. 1400. 1500. 1600. 1700. 1800. 1900. 2000. 2100. 2200. 2300. 2400. 2500. 2600. 2700. 2800. 2900. 3000.
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
160
170
180
190
200
210
220
230
240
250
260
270
280
290
300
310
320
330
340
350
360
4.46
1.50
.40
.28
.15
.18
.25
.41
.64
.99
2.02
2.21
2.75
1.22
1.11
1.08
1.01
.81
.79
.68
.71
.82
1.05
1.05
1.00
.00
.03
.09
.16
.28
.46
.65
2.18
6.23
4.69
4.31
4.78 !
3.35 :
.50
.40
.30
.29
.47
.58
.75
2.09 !
2.28 i
2.41 i
5.47 '.
1.29 (
1.19
1.15
1.12
1.04
.90
.82
.83
.99
.21
.20
.23
.11
.16
.22
.28
.41
.60
.85 2
2.97 I
6.42 t
4.90
6.80
J.01
J.45 :
1 .65 :
1.46
1.39
1.40
1.60
1.70
1.88
MB
2.40
2.52 i
5.62 !
i.70 <
1.24
1.21
1.23
.18
.07
.00
.03
.25
.48
.41
.31
.27
.28
.34
.43
.60
.75 1
J.OO ]
i.42 '
>.58
r.OO 7.38
$.75 3.85
5.00 3.10
.53 1.61
.49 1.60
.48 1.58
.72 1.87
.87 2.00
.99 2.09
2.30 2.52
2.52 2.63
2.63 5.75
5.92 6.01
S.80 6.90
.29 1.32
.28 1.38
.34 1.48
.38 1.51
.23 1.37
.16 1.30
.20 1.43
.32 1.49
.61 2.02
.61 1.78
.40 1.56
.36 1.49
.38 1.48
.43 1.54
.57 1.67
.74 1.89
.90 2.90
J.12 3.36
,.61 4.78
3.95
3.16
1.74
1.69
1.69
2.03
2.12
2.20
2.59
2.72
5.90
6.70
7.00
.42
.53
.66
.50
.50
.58
.70
2.17
1.90
1.70
1.60
1.53
1.63
1.76
2.10
3.04
3.49
4.05 4.20
3.24 3.31
1.88 1.98
1.75 1.82
1.80 1.94
2.20 2.32
2.24 2.38
2.39 2.59
2.66 2.71
3.00 3.19
6.01 6.18
6.90 7.37
5.13 5.32
4.98
1.82 2.10
1.71 1.81
1.68 1.95
1.81 2.15
2.04 2.22
2.28 2.42
2.04 2.16
.86 1.97
.78 2.09
.66 1.73
.71 1.76
.83 1.98
2.90 3.01
3.42 3.59
4.05 4.20
4.60
3.50
2.72
1.94
2.10
2.47
2.44
2.76
2.81
3.55
6.30
7.48
5.51
2.23
1.91
2.52
2.30
2.50
2.54
2.38
2.08
2.27
1.88
1.82
2.13
3.16
3.75
4.42
4.70
2.06
2.24
2.49
2.94
2.95
6.50
7.79
2.31
2.01
2.52
2.86
2.67
2.52
2.17
2.45
2.09
1.89
3.26
3.24
3.90
8.55
4.80
2.13
2.58
2.59
3.08
3.09
6.73
4.79
2.62
5.58
2.84
2.68
2.30
2.56
2.26
1.97
3.34
3.33
3.98
8.65
2.22
3.18
6.85
4.92
2.73
5.75
3.01
2.80
2.45
2.63
2.49
2.10
3.50
3.96
4.08
2.34
3.29
7.07
5.05
6.05 6.11 6.16 6.19 6.21 6.23
3.17 3.21 3.28 3.32 7.42 7.49
2.91 3.14 3.31 3.39 3.45
2.57 2.80
2.73 2.84
2.61
3.50 3.58 3.70
3.65 3.79 3.90 4.05
4.03 4.17
4.20 8.25 8.35
6.27 6.29
-------�
Table 9.7.3 RTDH MODEL OUTPUT EXAMPLE (cont.)
MAP OF USER-SPECIFIED TERRAIN: LETTERS (SOME OVERWRITTEN) DENOTE ELEVATIONS (SEE TABLE); "+" = SOURCE; "*" = A RECEPTOR POINT
DISTANCES FROM SOURCE (0,0): XMIN = -6122.80 M, XMAX = 6396.47 M, YMIN = -7267.88 M, YMAX = 5362.31 M
F
D I M
J I H G L * R
H * * 0
G *
F *
E
D C
ML B
K J I
H G CONTOUR
E COOES
A 1100.00
B 1200.00
C 1300.00
D 1400.00
E 1500.00
F 1600.00
G 1700.00
H 1800.00
I 1900.00
J 2000.00
K 2100.00
L 2200.00
M 2300.00
N 2400.00
0 2500.00
P 2600.00
Q 2700.00
R 2800.00
S 2900.00
T 3000.00
A
D
I H C A
G F E C
M B A
L J H E D B
K J I G F D
E
K J G
H F
I
K« J
*
B
C B
D C
E
I G
]
M J
I
E
H F
1
G
H
I
J I
H J
G I H
F F G G G
F E D E F F F
E C C D E E
BBAABCC*
A B * B
A
+
A A
E B A
EGA
G E B
H F C A
B
C
E
F
A
I
H
*
*
C
B
B
B
B
A
A
A
A
A
A
L
J
*
D
C
D
D
D
D
C
C
B
C
C
*
*
E
E
F
E
F
F
F
E
E
D
B
*
H
G
H
G
H
G
H
J
H
F
P
L
J
K M
I J
L M
J K
H I K
J K L
L
I
G
F
D
F
C
D
E
NO*
N
N
*
*
H 0
K M N
H OP
I K
L
G MM
H I
J M
G
H I
A
B A
C B
-------�
Table 9.7.3 RTDN MODEL OUTPUT EXAMPLE (cent.)
ROUGH TERRAIN DIFFUSION HOOEL VERSION 3.2 LEVEL 861130 PAGE 6
THE CODE FOR MISSING DATA IS PRESENTED AS FOLLOWS:
A "1" IS INCLUDED IF WIND DIRECTION IS MISSING.
A "2" IS INCLUDED IF WIND SPEED IS MISSING,
A "3" IS INCLUDED IF MIXING HEIGHT IS MISSING,
A "4" IS INCLUDED IF STABILITY CLASS IS MISSING
A "5" IS INCLUDED IF AMBIENT TEMPERATURE IS MISSING.
IF THERE IS MISSING DATA FOR ANY OF THESE PARAMETERS, THE PREVIOUS GOOD VALUE IS USED.
IF THERE IS MISSING DATA FOR OPTIONAL PARAMETERS, THE DEFAULT VALUE (OBTAINED FROM THE STABILITY CLASS) IS USED.
to
CASE-HOUR # 1
WIND
WIND SPEED #1
DIRECTION (M/SEC)
YEAR, DAY, HOUR: 76 365 24
MIXING AIR TURB. TURB.
HEIGHT STABILITY TEMP INTENSITY INTENSITY
(M) CLASS (K) (Y) (Z)
VPTG, VPTG, DELTA
PLUME HCRIT THETA
(DEC K/M) (DEC K/H) (DEG/M)
WSPD WIND
PROFILE SPEED #2
EXPONENT (M/SEC)
220. 1.00 3000. 1 293.15 .2200* .2000* .0000
* FLAGGED VALUES REPRESENT OPTIONAL METEOROLOGICAL INPUT NOT USED IN THIS RUN
.0000
.1000
.0900
2.00*
STACK # 1: EMISSIONS = 1000.00 G/SEC, EXIT VELOCITY = 20.00 M/SEC, STACK GAS TEMP = 370.00 DEC K, HCRIT = .00 M
UTOP = 1.25 M/SEC, FLUX- 254.59 M**4/S**3, FINAL RISE - 858.18 M, DISTANCE TO FINAL RISE = 1091.15 M, PEN. FRAC. =
.00
HT
ABOVE PLUME HT PLUME HT
STACK BEFORE CORRECTED
SIGMA-Y
CONVENTIONAL REFLECTION
SIGMA-Z HORIZ. VERTICAL VERTICAL
DIST. DIST. DIST.
CHI
REC
#
1
2
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
X
(KM)
3.26
1.69
.82
.99
1.25
1.32
1.49
1.70
2.04
2.22
2.51
2.86
5.58
5.75
6.05
6.11
6.16
6.19
6.21
6.23
6.27
6.29
Y BASE TERRAIN BY
(KM)
-1.39
-2.17
-.00
-.00
.00
-.00
-.00
.00
.00
-.00
.00
-.00
-.01
-.01
-.00
-.00
.00
-.00
.00
.00
-.00
.00
WARNING:
(M)
615.
507.
102.
133.
163.
194.
224.
255.
285.
315.
346.
376.
407.
437.
468.
498.
529.
559.
590.
620.
651.
681.
HOURLY
00
980.10
980.10
833.17
928.15
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
980.10
SEQUENCE
TERRAIN
(M)
672.71
726.36
782.12
861.85
898.57
883.33
868.09
852.85
837.61
822.37
807.13
791.89
776.65
761.41
746.17
730.93
715.69
700.45
685.21
669.97
654.73
639.49
OF INPUT
AMBIENT BUOY SHEAR TOTAL AMBIENT BUOY TOTAL
(N) (M) (M) (M) (M) (M) (M)
623.6271.4 831.1073.9 652.9271.4 707.1
344.1 271.4 431. 614.3 338.2 271.4 433.6
174.1 224.9 174. 333.3 164.7 224.9 278.7
208.5 255.0 238. 406.1 198.7 255.0 323.2
259.2 271.4 318. 492.0 249.9 271.4 368.9
273.0 271.4 336. 511.0 264.0 271.4 378.6
305.9 271.4 379. 557.8 298.1 271.4 403.1
345.1 271.4 432. 615.9 339.3 271.4 434.5
408.5 271.4 519. 713.8 407.4 271.4 489.5
442.1 271.4 566. 767.4 444.3 271.4 520.6
492.9271.4 638. 850.6 501.1271.4 569.9
554.9271.4 728. 954.9 572.1271.4 633.2
983.3 271.4 1420. 1748.6 1115.7 271.4 1148.3
1007.8 271.4 1464. 1797.6 1149.8 271.4 1181.4
1050.2 271.4 1540. 1883.3 1209.4 271.4 1239.5
1059.2 271.4 1556. 1901.6 1222.2 271.4 1252.0
1066.2 271.4 1569. 1915.9 1232.2 271.4 1261.8
1070.2 271.4 1576. 1924.0 1237.9 271.4 1267.3
1073.2 271.4 1581. 1930.2 1242.2 271.4 1271.5
1075.2 271.4 1585. 1934.2 1245.0 271.4 1274.3
1081.1 271.4 1596. 1946.3 1253.5 271.4 1282.5
1084.1 271.4 1601. 1952.5 1257.8 271.4 1286.8
FACTOR
(1/M)
.00016
.00000
.00120
.00098
.00081
.00078
.00072
.00065
.00056
.00052
.00047
.00042
.00023
.00022
.00021
.00021
.00021
.00021
.00021
.00021
.00020
.00020
FACTOR
(1/M)
.71766E-03
.45242E-03
.55872E-04
.70589E-04
.11139E-03
.13861E-03
.19476E-03
.26748E-03
.37706E-03
.44016E-03
.51356E-03
.57645E-03
." '.;r. 03
.S^flyOE-OS
.53740E-03
.53788E-03
.53891E-03
.54100E-03
.54333E-03
.54600E-03
.54688E-03
.54886E-03
DATA HAS BEEN INTERRUPTED AT THE FOLLOWING YEAR/DAY/HOUR: 76 366
FACTOR
(1/M)
.71766E-03
.92337E-03
.14312E-02
.12342E-02
.10813E-02
.10537E-02
.98967E-03
.91862E-03
.81729E-03
.77150E-03
.71269E-03
.66065E-03
.55289E-03
.54887E-03
.53740E-03
.53784E-03
.52714E-03
.52485E-03
.52310E-03
.52197E-03
.51860E-03
.51689E-03
4
R
1.27
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.00
1.01
1.02
1.05
1.59
1.63
1.67
1.69
1.67
1.67
1.67
1.67
1.67
1.67
(UG/
M**3)
93.
0.
53.
55.
72.
86.
111.
138.
168.
183.
192.
192.
101.
97.
91.
90.
88.
87.
86.
86.
85.
84.
-------�
Table 9.7.3 RTDH MODEL OUTPUT EXAMPLE (cont.)
CASE-HOUR # 2
WIND
WIND SPEED #1
DIRECTION (M/SEC)
YEAR, DAY, HOUR: 76 366 4
MIXING AIR TURB. TURB.
HEIGHT STABILITY TEMP INTENSITY INTENSITY
(M) CLASS (K) (Y) (Z)
VPTG, VPTG, DELTA
PLUME HCRIT THETA
(DEG K/M) (DEC K/M) (DEG/M)
USPD WIND
PROFILE SPEED #2
EXPONENT (M/SEC)
220. 3.00 1000. 1 293.15 .2200* .2000* .0000
* FLAGGED VALUES REPRESENT OPTIONAL METEOROLOGICAL INPUT NOT USED IN THIS RUN
.0000
.1000 -.0900
6.00*
STACK # 1: EMISSIONS = 1000.00 G/SEC, EXIT VELOCITY = 20.00 M/SEC, STACK GAS TEMP = 370.00 DEG K, HCRIT = .00 M
UTOP = 2.44 M/SEC, FLUX = 254.59 M**4/S**3, FINAL RISE = 440.76 M, DISTANCE TO FINAL RISE = 1091.15 M, PEN. FRAC. =
.00
--J
I
HT
ABOVE PLUME HT PLUME HT
STACK BEFORE CORRECTED
REC
#
1
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
X
(KM)
3.26
.82
.99
1.25
1.32
1.49
1.70
2.04
2.22
2.51
2.86
5.58
5.75
6.05
6.11
6.16
6.19
6.21
6.23
6.27
6.29
Y BASE TERRAIN BY
(KM)
-1.39
-.00
-.00
.00
-.00
-.00
.00
.00
-.00
.00
-.00
-.01
-.01
-.00
-.00
.00
-.00
.00
.00
-.00
.00
WARNING:
(M)
615.
102.
133.
163.
194.
224.
255.
285.
315.
346.
376.
407.
437.
468.
498.
529.
559.
590.
620.
651.
681.
HOURLY
(M)
562.68
487.22
536.00
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
562.68
SEQUENCE
TERRAIN
(M)
281.34
436.17
469.71
481.15
465.91
450.67
435.43
420.19
404.95
389.71
374.47
359.23
343.99
328.75
313.51
298.27
283.03
281.34
281.34
281.34
281.34
OF INPUT
SIGMA-Y
AMBIENT BUOY SHEAR
(M) (M)
623.6 139.4
174.1 115.5
208.5 130.9
259.2 139.4
273.0 139.4
305.9 139.4
345.1 139.4
408.5 139.4
442.1 139.4
492.9 139.4
554.9 139.4
983.3 139.4
1007.8 139.4
1050.2 139.4
1059.2 139.4
1066.2 139.4
1070.2 139.4
1073.2 139.4
1075.2 139.4
1081.1 139.4
1084.1 139.4
DATA HAS BEEN
(M)
427.
89.
122.
163.
173.
195.
222.
266.
290.
328.
374.
729.
752.
791.
799.
806.
809.
812.
814.
819.
822.
SIGMA-Z
TOTAL AMBIENT BUOY TOTAL
(M) (M) (M) (M)
768.4 652.9 139.4 667.6
227.2 164.7 115.5 201.1
274.8 198.7 130.9 238.0
336.6 249.9 139.4 286.2
351.7 264.0 139.4 298.5
388.5 298.1 139.4 329.1
433.3 339.3 139.4 366.8
507.2 407.4 139.4 430.6
547.0 444.3 139.4 465.6
608.1 501.1 139.4 520.2
683.5 572.1 139.4 588.8
1232.2 1115.7 139.4 1124.4
1265.0 1149.8 139.4 1158.2
1322.0 1209.4 139.4 1217.5
1334.1 1222.2 139.4 1230.2
1343.6 1232.2 139.4 1240.1
1348.9 1237.9 139.4 1245.7
1353.0 1242.2 139.4 1250.0
1355.7 1245.0 139.4 1252.8
1363.7 1253.5 139.4 1261.2
1367.8 1257.8 139.4 1265.5
HORIZ.
DIST.
FACTOR
(1/M)
.00010
.00176
.00145
.00119
.00113
.00103
.00092
.00079
.00073
.00066
.00058
.00032
.00032
.00030
.00030
.00030
.00030
.00029
.00029
.00029
.00029
CONVENTIONAL
VERTICAL
DIST.
FACTOR
(1/M)
.14524E-02
.37787E-03
.47806E-03
.67834E-03
.79094E-03
.94991E-03
.10789E-02
.11712E-02
.12132E-02
.12392E-02
.12541E-02
.12554E-02
.12799E-02
.13054E-02
.13319E-02
.13595E-02
.13882E-02
.14182E-02
.14496E-02
.H823E-02
.15166E-02
INTERRUPTED AT THE FOLLOWING YEAR/DAY/HOUR: 76 366
REFLECTION
VERTICAL
DIST.
FACTOR
(1/M) R
.71019E-03 1.19
.19834E-02
.16781E-02
.14205E-02
.13812E-02
.12936E-02
.12613E-02
.12202E-02
.11284E-02
.10101E-02
.89237E-03
.46731E-03
.45367E-03
.43159E-03
.42713E-03
. 42371 E- 03
.36039E-03
.36904E-03
.38177E-03
.39905E-03
.41986E-03
.00
.00
.02
.03
.07
.16
.32
.32
.32
.32
.32
.32
.32
.32
.32
.13
.16
.20
.26
.33
9
CHI
(UG/
M**3)
30.
272.
285.
330.
368.
400.
407.
378.
337.
272.
214.
62.
59.
53.
52.
52.
44.
45.
46.
48.
50.
-------�
Table 9.7.4 POSTRTDM POSTPROCESSOR INPUT EXAMPLE
TOPVAL
3 1 5
26 1000000.
99999
CUMFREQ
1000000. 1 6 26
100. 200. 500. 1000. 2000. 3000.
99999
PEAK
3 1300.
TRUE 26
99999
ENDJOB
9.7-12
-------�
Table 9.7.5 POSTRTDH POSTPROCESSOR OUTPUT EXAMPLE
POSTRTDM (DATED 87308)
A POSTPROCESSOR FOR RTDH IN
SECTION 5. ADDED MODELS
IN UNAMAP (VERSION 6) JAN. 88.
SOURCE: FILE 69 ON UNAMAP MAGNETIC TAPE FROM NTIS.
POST-PROCESSING ANALYSIS PROGRAM VERSION 2.30 LEVEL 851125 PAGE 1
TOPVAL
LP NH NM DAYS IN HOUR IN
315 0. 0.
NR RFACT
26 1000000.
-------�
Table 9.7.5 POSTRTDN POSTPROCESSOR OUTPUT EXAMPLE (cant.)
POST-PROCESSING ANALYSIS PROGRAM VERSION 2.30 LEVEL 851125 PAGE 2
TOP 5 CONCENTRATIONS OF 3-HOUR AVERAGES FOR 12. HOURS
RECEPTOR
1
DAY/HOUR
2
DAY/HOUR
3
DAY/HOUR
4
DAY/HOUR
5
DAY/HOUR
6
DAY/HOUR
7
DAY/HOUR
8
DAY/HOUR
9
DAY/HOUR
10
DAY/HOUR
11
DAY/HOUR
12
DAY/HOUR
13
DAY/HOUR
14
DAY/HOUR
15
DAY/ HOUR
16
DAY/HOUR
I
I
I
I
I
I
I
I
I
I
1
I
I
I
I
1
I
I
I
I
I
I
1
I
I
I
I
I
TO
50
1
1
0
136
1
269
1
1262
1
3819
1
3899
1
3571
1
3074
1
1835
1
983
1
534
1
252
1
210
1
185
1
P 1
.3199
3
.1518
3
.0000
0
.1602
3
.7670
12
.1850
12
.6690
12
.6630
12
.9360
12
.4730
12
.6550
12
.9475
12
.7793
12
.3061
9
.7244
9
.5454
9
I
I
I
I
1
I
I
I
I
I
I
I
I
I
I
I
I
I
I
1
I
I
I
I
I
I
I
I
I
TOP 2
21.6488
1 6
.0000
0 0
.0000
0 0
83.8222
1 6
245.5854
1 9
920.3137
1 9
2044.5440
1 9
1883.4580
1 9
1657.4470
1 9
1380.3760
1 9
1269.5880
1 9
717.1691
1 9
452.8684
1 9
203.3567
1 12
180.0652
1 6
160.9032
1 6
I
I
I
I
I
1
I
I
I
1
I
I
I
1
I
I
I
!
j
TOP 3
7.5388
1 12
.0000
0 0
.0000
0 0
35.7886
1 12
149.0267
1 3
203.1549
1 6
272.2936
1 6
359.3203
1 6
431.1164
1 6
465.0374
1 6
455.6443
1 6
402.2765
1 6
346.2037
1 6
195.1618
1 6
165.4920
1 12
147.4989
1 12
I
I
I
I
I
I
I
I
1
I
I
I
1
I
I
I
1
I
I
I
I
I
I
I
1
I
TOP 4
4.0718
1 9
.0000
0 0
.0000
0 0
35.5832
1 9
126.6390
1 6
187.3455
1 3
219.7414
1 3
260.5280
1 3
292.3247
1 3
306.3411
1 3
303.7567
1 3
283.5098
1 3
246.5173
1 3
102.6588
1 3
98.4839
1 3
91.1543
1 3
I
I
I
I
I
I
I
I
1
I
I
I
1
I
1
1
I
I
I
1
I
I
I
I
I
I
I
TOP 5 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 1
.0000 I
0 0 I
.0000 I
0 0 I
-------�
POST-PROCESSING ANALYSIS PROGRAM
Table 9.7.5 POSTRTDH POSTPROCESSOR OUTPUT EXAMPLE (coot.)
VERSION 2.30 LEVEL 851125 PAGE 3
TOP 5 CONCENTRATIONS OF 3-HOUR AVERAGES FOR 12. HOURS
RECEPTOR
17
DAY/HOUR
18
DAY/HOUR
19
DAY/HOUR
20
DAY/HOUR
21
DAY/HOUR
22
DAY/HOUR
23
DAY/HOUR
24
DAY/ HOUR
25
DAY/HOUR
26
DAY/HOUR
1
I
I
I
1
I
I
I
I
I
I
1
I
I
I
I
I
I
TOP 1 I
175.6689 I
1 9 I
162.0885 1
1 9 I
172.4079 I
1 9 I
159.9875 I
1 6 I
169.5783 I
1 9 1
172.5279 I
1 9 I
163.9015 1
1 6 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
TOP 2 I
142.9538 I
1 6 I
160.4148 I
1 6 I
141.5300 I
1 6 I
158.0479 I
1 9 I
121.0289 I
1 6 I
148.2005 I
1 6 I
154.1527 I
1 9 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
TOP 3 I
142.1053 I
1 12 I
112.12T7 I
1 12 I
85.5361 I
1 3 1
85.3923 1
1 3 I
85.5868 I
1 3 I
85.3343 I
1 3 I
85.6824 I
1 3 I
.0000 I
0 0 1
.0000 I
0 0 I
.0000 I
0 0 I
TOP 4 I
90.1048 I
1 3 I
88.1402 I
1 3 I
72.4913 I
1 12 I
43.2357 I
1 12 I
23.7747 I
1 12 I
12.0264 I
1 12 I
5.6163 I
1 12 1
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
TOP 5 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
.0000 I
0 0 I
-------�
Table 9.7.5 POSTRTDN POSTPROCESSOR OUTPUT EXAMPLE (cont.)
POST-PROCESSIMG ANALYSIS PROGRAM VERSION 2.30 LEVEL 851125 PAGE 4
TOP 25 HIGHEST AND HIGHEST, SECOND-HIGHEST CONCENTRATIONS
HIGHEST HIGHEST, SECOND-HIGHEST
RANK RECEPTOR CONCENTRATION RECEPTOR CONCENTRATION
ON
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
8
7
9
10
11
6
12
13
5
14
15
16
17
22
19
21
23
18
20
4
1
2
23
24
25
3899.663
3819.669
3571.936
3074.473
1835.655
1262.185
983.948
534.779
269.767
252.306
210.724
185.545
175.669
172.528
172.408
169.578
163.902
162.089
159.988
136.160
50.320
.152
.000
.000
.000
7
8
9
10
11
6
12
13
5
14
15
16
18
20
23
22
17
19
21
4
1
22
23
24
25
2044.544
1883.458
1657.447
1380.376
1269.588
920.314
717.169
452.868
245.585
203.357
180.065
160.903
160.415
158.048
154.153
148.201
142.954
141.530
121.029
83.822
21.649
.000
.000
.000
.000
POST-PROCESSING ANALYSIS PROGRAM
VERSION 2.30
LEVEL 851125
PAGE
CUMFREQ
HOUR IN DAYSIN RFACT
0. 0. 1000000.
NHR NLEV NR
1 6 26
CUMULATIVE LEVELS:
100.0 200.0 500.0 1000.0 2000.0 3000.0
-------�
Table 9.7.5 POSTRTDN POSTPROCESSOR OUTPUT EXAMPLE (cont.)
POST-PROCESSING ANALYSIS PROGRAM VERSION 2.30 LEVEL 851125 PAGE 6
CUMULATIVE FREQUENCIES OF 1-HOUR AVERAGES FOR 12. OBSERVATIONS
RECEPTOR
1
CUM FREQ
2
CUM FREQ
3
CUM FREQ
4
CUM FREQ
5
CUM FREQ
6
CUM FREQ
7
CUM FREQ
8
CUM FREQ
9
CUM FREQ
10
CUM FREQ
11
CUM FREQ
12
CUM FREQ
13
CUM FREQ
14
CUM FREQ
15
CUM FREQ
16
CUM FREQ
I
I
I
I
I
I
1
1
1
1
I
I
I
1
1
1
I
I
I
I
'
I
I
I
I
1
I
I
I
I
LEVEL I
100.01
1.0000 I
1.0000 I
1.0000 I
1.0000 1
1.0000 I
1.0000 I
.8333 1
.8333 1
.5000 I
.5000 I
.2500 1
.2500 1
.2500 I
.2500 I
.1667 I
.1667 1
.0833 1
.0833 I
.0000 I
.0000 I
.0000 I
.0000 I
.0000 I
.0000 I
.0000 I
.0000 I
.2500 I
.2500 I
.5000 I
.5000 I
.5000 I
.5000 I
LEVEL I
200.01
.0000 1
1.0000 1
.0000 I
1.0000 I
.0000 I
1.0000 I
.0833 1
.9167 1
.2500 1
.7500 1
.2500 I
.5000 1
.0000 1
.2500 1
.0833 I
.2500 I
.1667 1
.2500 I
.2500 I
.2500 1
.0833 I
.0833 I
.0833 I
.0833 I
.1667 I
.1667 I
.3333 I
.5833 I
.1667 I
.6667 I
.1667 I
.6667 I
LEVEL I
500.01
.0000 I
1.0000 1
.0000 I
1.0000 I
.0000 I
1.0000 1
.0833 1
1.0000 I
.0833 I
.8333 I
.3333 I
.8333 1
.5000 I
.7500 I
.2500 I
.5000 I
.2500 I
.5000 I
.2500 I
.5000 I
.4167 I
.5000 I
.4167 I
.5000 I
.6667 I
.8333 I
.4167 I
1.0000 I
.3333 I
1.0000 I
.3333 I
1.0000 I
LEVEL I
1000.01
.0000 I
1.0000 I
.0000 I
1.0000 1
.0000 I
1.0000 I
.0000 I
1.0000 I
.1667 1
1.0000 I
.0000 I
.8333 I
.0000 I
.7500 I
.2500 I
.7500 I
.1667 I
.6667 1
.1667 I
.6667 I
.1667 I
.6667 I
.2500 I
.7500 I
.1667 I
1.0000 I
.0000 1
1.0000 1
.0000 I
1.0000 I
.0000 I
1.0000 I
LEVEL I
2000.01
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
.8333 I
.0833 I
.8333 I
.0833 I
.8333 I
.1667 I
.8333 I
.1667 I
.8333 I
.1667 I
.8333 I
.2500 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 1
.0000 I
1.0000 I
.0000 I
1.0000 I
-------�
POST-PROCESSING ANALYSIS PROGRAM
Table 9.7.5 POSTRTDN POSTPROCESSOR OUTPUT EXAMPLE (cont.)
VERSION 2.30 LEVEL 851125 PAGE 7
I
(->
00
CUMULATIVE FREQUENCIES OF 1-HOUR AVERAGES FOR 12. OBSERVATIONS
RECEPTOR
1
CUM FREQ
2
CUM FREQ
3
CUM FREQ
CUM FREQ
CUM FREQ
6
CUM FREQ
7
CUM FREQ
8
CUM FREQ
9
CUM FREO
10
CUM FREQ
11
CUM FREO
12
CUM FREQ
13
CUM FREQ
14
CUM FREQ
15
CUM FREQ
16
CUM FREQ
I
1
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
,
I
I
I
I
I
I
I
I
I
LEVEL I
3000.01
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 1
1.0000 I
.0000 1
1.0000 1
.0833 I
.9167 I
.0000 1
.8333 I
.0000 1
.8333 I
.0000 1
.8333 I
.0000 I
.8333 I
.0833 I
.9167 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 1
.0000 I
1.0000 I
LEVEL IAVG:# OBS= I
**********! 12 0,
.0000 I .0000 I
1.0000 I 20.8948 I
.0000 I .0000 !
1.0000 I .0380 I
.0000 I .0000 I
1.0000 I .0000 I
.0000 I .0000 I
1.0000 1 72.8385 1
.0000 I .0000 I
1.0000 I 197.7546 I
.0833 I .0000 I
1.0000 1 643.2498 I
.1667 I .0000 I
1.0000 I 1589.0620 I
.1667 I .0000 1
1.0000 I 1600.7420 I
.1667 I .0000 1
1.0000 1 1488.2060 I
.1667 I .0000 1
. 1.0000 I 1306.5570 1
.0833 I .0000 I
1.0000 I 966.1608 1
.0000 I .0000 I
1.0000 I 596.7258 I
.0000 I .0000 I
1.0000 I 395.0922 I
.0000 I .0000 I
1.0000 I 188.3708 1
.0000 I .0000 1
1.0000 I 163.6914 1
.0000 I .0000 I
1.0000 I 146.2755 I
. . * +
-------�
POST-PROCESSING ANALYSIS PROGRAM
Table 9.7.5 POSTRTDM POSTPROCESSOR OUTPUT EXAMPLE (cont.)
VERSION 2.30 LEVEL 851125 PAGE 8
CUMULATIVE FREQUENCIES OF
RECEPTOR
17
CUM FREQ
18
CUM FREQ
19
CUM FREQ
20
CUM FREQ
21
CUM FREO
22
CUM FREQ
23
CUM FREQ
24
CUM FREO
25
CUM FREQ
26
CUM FREO
1-HOUR AVERAGES FOR 12. OBSERVATIONS
I
I
1
I
I
I
I
I
1
I
1
,
I
I
I
I
I
LEVEL I
100.01
.5000 1
.5000 1
.5000 I
.5000 1
.5000 I
.5000 I
.5000 1
.5000 1
.5833 I
.5833 1
.5833 I
.5833 I
.5833 I
.5833 I
1.0000 1
1.0000 1
1.0000 1
1.0000 1
1.0000 1
1.0000 I
LEVEL 1
200.01
.1667 I
.6667 I
.1667 1
.6667 1
.2500 1
.7500 1
.2500 1
.7500 1
.2500 1
.8333 1
.1667 I
.7500 I
.1667 I
.7500 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 1
LEVEL I
500.01
.3333 1
1.0000 1
.3333 I
1.0000 1
.2500 I
1.0000 I
.2500 1
1.0000 1
.1667 1
1.0000 I
.2500 1
1.0000 I
.2500 I
1.0000 1
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
LEVEL I
1000.01
.0000 I
1.0000 1
.0000 1
. 1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
LEVEL I
2000.01
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
+
-------�
I
N)
o
Table 9.7.5 POSTRTDN POSTPROCESSOR OUTPUT EXAMPLE (coot.)
POST-PROCESSING ANALYSIS PROGRAM VERSION 2.30 LEVEL 851125 PAGE 9
CUMULATIVE FREQUENCIES OF 1-HOUR AVERAGES FOR 12. OBSERVATIONS
RECEPTOR
17
CUM FREQ
18
CUM FREQ
19
CUM FREQ
20
CUM FREQ
21
CUM FREQ
22
CUM FREQ
23
CUM FREQ
24
CUM FREQ
25
CUM fREQ
26
CUM FREQ
1
I
1
I
I
1
I
I
I
1
I
1
1
1
I
1
1
1
LEVEL 1
3000.01
.0000 1
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 I
.0000 I
1.0000 1
.0000 I
1.0000 1
.0000 1
1.0000 1
.0000 1
1.0000 I
.0000 1
1.0000 I
.0000 I
1.0000 I
.0000 1
1.0000 !
LEVEL 1AVG:#
**********!
.0000 I
1.0000 1 137
.0000 1
1.0000 1 130
.0000 1
1.0000 I 117
.0000 1
1.0000 1 111
.0000 I
1.0000 I 99
.0000 I
1.0000 1 104
.0000 I
1.0000 I 102
.0000 I
1.0000 I
.0000 1
1.0000 1
.0000 I
1.0000 1
OBS= I
12.01
.0000 I
.7082 I
.0000 1
.6913 1
.0000 1
.9913 I
.0000 I
.6659 I
.0000 1
.9922 1
.0000 I
.5223 1
.0000 1
.3382 1
.0000 1
.0000 1
.0000 I
.0000 1
.0000 1
.0000 1
-..+
POST-PROCESSING ANALYSIS PROGRAM
VERSION 2.30
LEVEL 851125
PAGE 10
PEAK
NHR THR HOUR IN DAYSIN NH
3 1300. 0. 0. 1
RFACT UNITS
1000000.
LPRINT NR SCALE
T 26 1.
-------�
Table 9.7.5 POSTRTOM POSTPROCESSOR OUTPUT EXAMPLE (cont.)
ID
I
K)
POST-PROCESSING ANALYSIS PROGRAM
1300.0000 UG/H**3 EXCEEDED AT DAY
**** CONCENTRATIONS (UG/M**3 )
RECORD TOTAL
1 36.6819
2 315.7731
3 5781.1780
MEAN 2044.5440
1300.0000 UG/M**3
**** CONCENTRATIONS
RECORD TOTAL
1 62.0010
2 583.2977
3 5005.0750
MEAN 1883.4580
1300.0000 UG/M**3
**** CONCENTRATIONS
RECORD TOTAL
1 98.6674
2 597.5693
3 4276.1050
MEAN 1657.4470
1300.0000 UG/M**3
**** CONCENTRATIONS
RECORD TOTAL
1 147.6516
2 596.3587
3 3397.1180
MEAN 1380.3760
1300.0000 UG/M**3
**** CONCENTRATIONS
RECORD TOTAL
1 418.7848
2 1036.0460
3 10004.1800
MEAN 3819.6690
1300.0000 UG/M**3
**** CONCENTRATIONS
RECORD TOTAL
1 765.3048
2 1899.2800
3 9034.4030
MEAN 3899.6630
1300.0000 UG/M**3
**** CONCENTRATIONS
RECORD TOTAL
1 1205.0840
2 1659.8770
3 7850.8470
MEAN 3571.9360
EXCEEDED
(UG/M**3
EXCEEDED
(UG/M**3
EXCEEDED
(UG/M**3
EXCEEDED
(UG/M**3
EXCEEDED
(UG/M**3
EXCEEDED
(UG/M**3
MIX
1000
450
9999
AT DAY
)
MIX
1000
450
9999
AT DAY
)
MIX
1000
450
9999
AT DAY
)
MIX
1000
450
9999
AT DAY
)
MIX
9999
9999
9999
AT DAY
)
MIX
9999
9999
9999
AT DAY
)
MIX
9999
9999
9999
DIR STAB SPD
220 4 3
220 4 15
220 5 2
1 HOUR 9 i
WEATHER
DIR STAB SPD
220 4 3
220 4 15
220 5 2
1 HOUR 9 l
WEATHER
DIR STAB SPD
220 4 3
220 4 15
220 5 2
1 HOUR 9 i
WEATHER
DIR STAB SPD
220 4 3
220 4 15
220 5 2
1 HOUR 12 1
WEATHER
DIR STAB SPD
220 5 4
220 6 3
220 6 4
1 HOUR 12 i
WEATHER
DIR STAB SPD
220 5 4
220 6 3
220 6 4
1 HOUR 12 1
WEATHER
DIR STAB SPD
220 5 4
220 6 3
220 6 4
VERSION 2.30 LEVEL 851125
1 HOUR 9 AT RECEPTOR 7
WEATHER
PAGE 11
AT RECEPTOR 8
AT RECEPTOR
AT RECEPTOR 10
AT RECEPTOR
AT RECEPTOR 8
AT RECEPTOR
-------�
<£>
i
K)
K)
Table 9.7.5 POSTRTDN POSTPROCESSOR OUTPUT EXAMPLE (cont.)
POST-PROCESSING ANALYSIS PROGRAM
VERSION 2.30
LEVEL 851125
1300.0000 UG/M**3 EXCEEDED AT DAY 1 HOUR 12 AT RECEPTOR 10
**** CONCENTRATIONS +
2 ]
0 ]
. . i
0 ]
... 1
PAGE 12
PAGE 13
PAGE 14
-------�
A>JU c
^ '
Lesson 10
Toxic Gas Models
">
. v^ - tp a ^
1(M-1 ^
,
-------�
-------�
10.1 Introduction
I. Fundamentals of Puff-type Models
A. Introduction
B. Coordinate System
C. Dispersion Equations
Q -1 x - u(t-t0)
CHI = EXP[ ( ) ' ]
(2 pi)2/3 sigx sigy sigz 2 sigx
where:
Q = Total mass emitted at time tQ
U = Wind speed
x = Downwind location of receptor.
t = Current time
tQ = Time of release
II. Differences between steady-state and puff type models
A. Moving frame of reference
B. Dispersion Coefficients
C. Averaging Periods
III. Summary
IV. Questions
10.1-3
-------�
10.2 SARA Screening
I. Determination of Emission Rates
A. Introduction
B. Estimation of Airborne Quantity Released for Liquids (Technical Guidance for
Hazards Analysis, Appendix G)
C. AP-42
II. SARA Title III Requirements
A. Introduction
B. Estimation of Airborne Quantity Released (QR) (Technical Guidance for
Hazards Analysis, p. 3-1 through 3-18)
1. Gases
2. Liquids
3. Solids
C. Levels of Concern (LOG) (Technical Guidance for Hazards Analysis, p. 3-1
through 3-18)
D. Vulnerable Zone (Technical Guidance for Hazards Analysis, p. 3-1 through 3-
18)
III. Summary
IV. Questions
10.2-1
-------�
10.3 INPUFF & SPILLS
I. INPUFF2.2 Model
A. Introduction
B. Input Data - Table 10.3.1
C. Model Output - Table 10.3.2
II. Shell SPILLS Model
A. Introduction
B. Input Data and Model Output - Table 10.3.3
III. Summary
10.3-1
-------�
IV. Questions
10.3-2
-------�
Table 10.3.1 INPUFF INPUT (EXAMPLE 1 FROM USER'S GUIDE)
EXAMPLE 1 MOVING SOURCE
6,F,F,1,1000,T,F
O.,0.,25,15.
2,1200,1,8
1.54,1.19,0.
1.65,1.35,0.
2.,1.5,0.
2.35,1.35,0.
1.08,1.38,0.
1.3,1.7,0.
2.,2.,0.
2.7,1.7,0.
T,F,F,F,T
-1,60,0,.75,10.
180. 3.5 3000. 3 .074 .105 290. .5
170. 4.0 3000. 4 .047 .067 288. .5
0,.2,2,1200,0.,0.
600.,30.,390.,2.,15.,0.,1.,1.,90.,2.
600.,30.,390.,2.,15.,0,1,1.,45.,2
10.3-3
-------�
Table 10.3.2 INPUFF EXAMPLE 1 OUTPUT FROM USER'S GUIDE
INPUFF 2.2 MULTIPLE SOURCE INTEGRATED PUFF MODEL (DATED 88027)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 2. NON-GUIDELINE MODELS,
IN UNAMAP (VERSION 6) JUL 86.
EXAMPLE 1
MOVING SOURCE
MODELOPTIONS A »T" INDICATES THAT
THE OPTION HAS BEEN EXERCISED
USER SUPPLIED WIND FIELD F
UNIT 22 OUTPUT OPTION F
PRINT PUFF INFORMATION T
INTERMEDIATE CONCENTRATIONS F
DISPERSION CALCULATED USING PASQUILL-G1FFORD (DISTANCE DEPENDENT) SIGMA CURVES,
WITH TRANSITION TO DRAXLER'S LONG RANGE TRANSPORT SIGMA-Y AT SYMAX = 1000.0 METERS.
SOURCE OFT
BEGIN ANALYSIS OF SOURCE NUMBER
0 N S A "T" INDICATES THAT
THE OPTION HAS BEEN EXERCISED
STACK DOUNWASH T
BUOYANCY INDUCED DISPERSION F
DEPOSITION AND SETTLING F
USER PLUME RISE F
PERFORM PUFF COMBINATIONS T
INFUT PARAMETERS
SOURCE UPDATE INTERVAL = 1200 SECONDS. (-1 INDICATES NO UPDATE)
START CONCENTRATION CALCULATIONS AT TIME - 0 SECONDS.
ANEMOMETER HEIGHT = 10.0 METERS.
1*** INFORMATION FOR SOURCE NUMBER 1
SOURCE STACK
STRENGTH HEIGHT
(G/SEC) (M)
STACK
TEMP.
(DEG-K)
STACK GAS STACK VOLUME
VELOCITY DIAMETER FLOW
(M/SEC) (M) (M**3/SEC)
.600E+03 30.00 390.000
SOURCE
SPEED
(M/SEC)
SOURCE
DIRECTION
(DEC)
2.000 90.0
PLUME
HEIGHT
(M)
113.47
15.000 2.000
.000
INITIAL SIGMAS DEPOSITION
(R) (2) VELOCITY
(M} (CM/SEC)
1.0 1.0
.00
COORD. AT TIME
EAST
(KM)
0 SECONDS
.000
SETTLING
VELOCITY
(CM/SEC)
.00
NORTH
(KM)
.200
-------�
Table 10.3.2 INPUFF EXAMPLE 1 OUTPUT FROM USER'S GUIDE (cont.)
METEOROLOGY
WIND DIP.
(DEC)
180.0
WIND SPD. MIXING HGT.
(M/SEC) (M)
3.500
3000.
PROF.EP
(DIMEN)
.100
STABILITY U PLUME TEMP SIGMA TH. SIGMA PH.
(CLASS) (M/SEC) (K) (RAD.) (RAD.)
4.462 290.0 .1050
.0740
SIMULATION PERIOD SIMULATION TIME PUFF RELEASE RATE SOURCE RECEPTOR DISTANCE PUFF COMB. CRITERION
START (SEC) STOP (SEC) (SEC) (SEC) (KM) (SIGMAS)
0 1200 1200 20.000 .50 .750
i
en
F#
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
X
(M)
139.998
359.998
539.998
699.997
859.998
999.999
1100.000
1180.000
1260.000
1340.000
1420.000
1500.000
1580.000
1660.000
1740.000
1800.000
1839.999
1879.999
1919.999
1959.999
1999.999
2039.999
2079.999
2119.999
2159.999
2199.999
2239.999
2279.999
2319.999
2359.999
2399.999
Y
(M)
5242.374
4751.523
4349.918
3992.936
3635.953
3323.594
3100.480
2921.989
2743.497
2565.006
2386.515
2208.024
2029.533
1851.042
1672.551
1538.682
1449.437
1360.191
1270.946
1181.700
1092.455
1003.209
913.964
824.719
735.473
646.228
556.982
467.737
378.491
289.246
200.000
Z
(M)
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
113.471
TIME
(MILLISEC)
69999
179999
270000
350000
430000
499999
550000
590000
630000
670000
710000
750000
790000
830000
870000
900000
920000
940000
960000
980000
1000000
1020000
1040000
1060000
1080000
1100000
1120000
1140000
1160000
1180000
1200000
TOTAL 0
(GRAMS)
72000.00
60000.00
48000.00
48000.00
48000.00
36000.00
24000.00
24000.00
24000.00
24000.00
24000.00
24000.00
24000.00
24000.00
24000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
12000.00
SY
(M)
445.491
406.437
374.129
345.116
315.787
289.869
271.176
256.110
240.938
225.652
210.243
194.702
179.016
163.166
147.145
135.008
126.846
118.625
110.341
101.990
93.565
85.058
76.461
67.762
58.947
49.995
40.880
31.560
21.965
11.953
1.000
SZ
(M)
269.076
245.068
225.262
207.519
189.628
173.853
162.500
153.364
144.177
134.935
125.634
116.268
106.830
97.312
87.708
80.444
75.565
70.656
65.716
60.741
55.727
50.671
45.567
40.409
35.189
29.895
24.512
19.014
13.362
7.468
1.000
TRAV. D.
(KM)
5.042
4.552
4.150
3.793
3.436
3.124
2.900
2.722
2.543
2.365
2.187
2.008
.830
.651
.473
.339
.249
.160
.071
.982
.892
.803
.714
.625
.535
.446
.357
.268
.178
.089
.000
K
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
KEYP
-------�
i
ON
1200 SEC AVG. CONCENTRATION AT RECEPTORS FOR SIMULATION PERIOD
DUE TO SOURCE NUMBER 1
Table 10.3.2 INPUFF EXAMPLE 1 OUTPUT FROM USER'S GUIDE (cent.)
0 TO 1200 SECONDS
RECEPTORS
X (KM) Y (KM) Z (M)
CONCENTRATION (G/M**3)
1.540 1.190 .000 1.353E-04
1.650 1.350 .000 1.667E-04
2.000 1.500 .000 2.165E-05
2.350 1.350 .000 1.211E-08
1.080 1.380 .000 1.803E-04
1.3no 1.700 .000 2.208E-04
2. Out) 2.000 .000 3.692E-06
2.700 1.700 .000 O.OOOE+00
* * *
SOURCE
STRENGTH
(G/SEC)
.600E+03
SOURCE
SPEED
(M/SEC)
INFO
STACK
HEIGHT
(M)
30.00
SOURCE
R M A T I 0
STACK
TEMP.
(DEG-K)
390.000
PLUME
DIRECTION HEIGHT
(DEG)
(M)
N FOR
STACK GAS
VELOCITY
(M/SEC)
15.000
SOUR
STACK
DIAMETER
(M)
2.000
INITIAL SIGMAS
(R)
(2)
(M)
C E NUMB
VOLUME
FLOW
(M**3/SEC)
.000
DEPOSITION
VELOCITY
(CM/SEC)
E R 1 * *
COORD. AT TIME
EAST
(KM)
2.400
SETTLING
VELOCITY
(CM/SEC)
*
1200
NORTH
(KM)
SECONDS
.200
2.000 45.0
100.17
1.0 1.0
.00
.00
*** METEOROLOGY ***
WIND DIR. WIND SPD. MIXING HGT. PROF.EP STABILITY U PLUME TEMP
(DEG) (M/SEC) (M) (DIMEN) (CLASS) (M/SEC) (K)
170.0
4.000
3000.
.150
SIGMA TH. SIGMA PH.
(RAD.) (RAD.)
5.652 288.0 .0670
.0470
SIMULATION PERIOD SIMULATION TIME
START (SEC) STOP (SEC) (SEC)
1200 2400 1200
PUFF RELEASE RATE SOURCE RECEPTOR DISTANCE PUFF COMB. CRITERION
(SEC) (KM) (SIGMAS)
12.000 .50 .750
-------�
Table 10.3.2 IMPUFF EXAMPLE 1 OUTPUT FROM USER'S GUIDE (coot.)
o
0s!
i
F#
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
X
(M)
202.338
502.338
742.338
962.338
1186.135
1380.448
1581.678
1754.162
1869.151
2012.887
2156.623
2271.612
2372.228
2472.843
2602.206
2731.568
2846.557
2947.173
3019.041
3090.909
3162.777
3220.271
3277.766
3320.887
3364.008
3421.502
3464.623
3507.744
3565.238
3608.359
3637.106
3665.854
3694.601
3723.348
3752.095
3780.843
3809.590
3838.337
3867.084
3895.832
3924.579
3953.326
3982.073
4010.820
4039.568
4068.315
4097.062
V
(M)
9154.611
8485.272
7949.802
7458.951
6964.585
6604.855
6256.130
5957.222
5757.950
5508.860
5259.770
5060.499
4886.135
4711.772
4487.591
4263.410
4064.138
3889.775
3765.230
3640.685
3516.140
3416.504
3316.868
3242.141
3167.414
3067.778
2993.051
2918.324
2818.688
2743.960
2694.143
2644.324
2594.506
2544.688
2494.870
2445.052
2395.234
2345.416
2295.598
2245.780
2195.962
2146.144
2096.326
2046.508
1996.690
1946.872
1897.054
Z
(M)
113.471
113.471
113.471
113.471
110.401
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
100.167
TIME
(HILLISEC)
690000
839999
959999
1069999
1181076
1265999
1350000
1422000
1470000
1529999
1590000
1638000
1680000
1722000
1775999
1830000
1878000
1920000
1950000
1980000
2010000
2034000
2058000
2076000
2094000
2118000
2136000
2154000
2178000
2196000
2208000
2220000
2232000
2244000
2256000
2268000
2280000
2292000
2304000
2316000
2328000
2340000
2352000
2364000
2376000
2388000
2400000
TOTAL 0
(GRAMS)
96000.00
84000.00
60000.00
72000.00
62400.00
43200.00
57600.00
28800.00
28800.00
43200.00
28800.00
28800.00
21600.00
28800.00
36000.00
28800.00
28800.00
21600.00
14400.00
21600.00
14400.00
14400.00
14400.00
7200.00
14400.00
14400.00
7200.00
14400.00
14400.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
7200.00
SY
(H)
557.316
508.543
468.597
430.997
392.077
365.951
341.613
320.573
306.448
288.675
270.762
256.325
243.610
230.812
214.223
197.489
182.465
169.197
159.646
150.027
140.337
132.529
124.668
118.735
112.769
104.759
98.706
92.610
84.416
78.217
74.053
69.864
65.648
61.403
57.128
52.819
48.473
44.088
39.658
35.179
30.642
26.039
21.356
16.575
11.662
6.552
1.000
SZ
(H)
249.356
219.018
195.082
173.770
154.160
144.004
135.143
127.450
122.268
115.725
109.103
103.745
99.008
94.224
87.994
81 .677
75.973
70.907
67.241
63.534
59.781
56.743
53.670
51.342
48.991
45.819
43.410
40.971
37.672
35.161
33.464
31.749
30.015
28.260
26.481
24.677
22.845
20.982
19.084
17.145
15.159
13.117
11.006
8.807
6.484
3.967
1.000
TRAV. 0. *
(KM)
9.058
8.388
7.853
7.362
6.861
6.409
5.934
5.527
5.256 1
4.917 1
4.578 1
4.306
4.069
3.832
3.527
3.221
2.950
2.713
2.543
2.374
2.204
2.068
.933
.831
.729
.594
.492
.390
.255
.153
.085
.017
.949
.882
.814
.746
.678
.610
.543
.475
.407
.339 1
.271 1
.203 1
.136 1
.068 1
.000 1
-------�
Table 10.3.2 IMPUFF EXAMPLE 1 OUTPUT FROM USER'S GUIDE (cent.)
1200 SEC AVG. CONCENTRATION AT RECEPTORS FOR SIMULATION PERIOD 1200 TO 2400 SECONDS
DUE TO SOURCE NUMBER 1
RECEPTORS
X (KM) Y (KM) Z (H)
CONCENTRATION (G/M**3)
1.540
1.650
2.000
2.350
1.080
1.300
2.000
2.700
1.190
1.350
1.500
1.350
1.380
1.700
2.000
1.700
.000 1
.000 ;
.000
.000
.000
.000
.000
.000
.129E-07
'.536E-06
.231E-04
.310E-05
.230E-10
.912E-06
.771E-04
.284E-05
.67 HR AVG. CONCENTRATION AT RECEPTORS FOR ALL SIMULATION PERIODS
DUE TO SOURCE NUMBER 1
OO
RECEPTORS
X (KM) Y (KM) Z (M)
CONCENTRATION (G/M**3)
1.540
1.650
2.000
2.350
1.080
1.300
2.000
2.700
.190
.350
.500
.350
.380
1.700
2.000
1.700
.000
.000
.000
1000
.000
.000
.000
.000
6.769E-05
8.711E-05
7.237E-05
6.555E-06
9.016E-05
1.114E-04
9.040E-05
6.421E-06
-------�
Table 10.3.3 SPILLS INPUT AND OUTPUT
Respond to all questions with upper case
letters (ENTER: Y or N not y or n).
Press ENTER to continue >
ENTER THE CODE NUMBER RELATED TO YOUR PROBLEM:
1 = CONTINUOUS LEAK (CONSTANT FLOW RATE, E.G. PIPELINE. TANK CAR)
2 = INSTANTANEOUSLY-FORMED LIQUID POOL
3 OTHER, E.G. STACK
(1-3) > 3
ENTER THE CODE NUMBER OF THE TYPE OF UNITS YOU WANT TO USE:
1 = METRIC SYSTEM
2 = ENGLISH SYSTEM
(1-2) > 1
DO YOU KNOW THE MOLECULAR WEIGHT OF THE SUBSTANCE EMITTED. Y/N ?
HOW MANY EMISSION RATES DO YOU HAVE (UP TO 100) ? 1
THIS PROBLEM WILL BE CONSIDERED AS STEADY STATE
ENTER EMISSION RATE IN KG PER SEC >.1
IS THERE AN ATMOSPHERIC INVERSION LAYER, Y/N ? N
IS THE ATMOSPHERIC STABILITY CLASS KNOWN, Y/N ?Y
ENTER ATMOSPHERIC STABILITY CLASS (1-6) > 3
ENTER WIND SPEED IN METERS PER SEC > 5.63
ENTER STACK HEIGHT ABOVE LOCAL TERRAIN IN METERS > 35.
IS THE PLUME RISE KNOWN(D1ST FROM STACK HEIGHT TO PLUME ELfV), Y/N 7
ENTER STACK GAS TEMPERATURE IN DEC C > 159.
ENTER AMBIENT TEMPERATURE IN DEC C > 20.
ENTER STACK GAS VOLUMETRIC FLOW RATE IN CUBIC METERS PER SEC > 52.93
ENTER ATMOSPHERIC STABILITY CLASS (1-6) > 3
ENTER WIND SPEED IN METERS PER SEC > 5.63
ENTER STACK HEIGHT ABOVE LOCAL TERRAIN IN METERS > 35.
IS THE PLUME RISE KNOWN(DIST FROM STACK HEIGHT TO PLUME ELEV), Y/N ?
ENTER STACK GAS TEMPERATURE IN DEC C > 159.
ENTER AMBIENT TEMPERATURE IN DEC C > 20.
ENTER STACK GAS VOLUMETRIC FLOW RATE IN CUBIC METERS PER SEC > 52.93
THE EFFECTIVE PLUME HEIGHT IS = 109.90 M
IT OCCURS AT X = 586.9 M
10.3-9
-------�
Table 10.3.3 SPILLS INPUT AND OUTPUT
Respond to all questions with upper case
letters (ENTER: Y or N not y or n).
Press ENTER to continue >
ENTER THE CODE NUMBER RELATED TO YOUR PROBLEM:
1 CONTINUOUS LEAK (CONSTANT FLOW RATE, E.G. PIPELINE. TANK CAR)
2 - INSTANTANEOUSLY-FORMED LIQUID POOL
3 = OTHER, E.G. STACK
(1-3) > 3
ENTER THE CODE NUMBER OF THE TYPE OF UNITS YOU WANT TO USE:
1 = METRIC SYSTEM
2 = ENGLISH SYSTEM
(1-2) > 1
DO YOU KNOW THE MOLECULAR WEIGHT OF THE SUBSTANCE EMITTED, Y/N ?
HOW MANY EMISSION RATES DO YOU HAVE (UP TO 100} ? 1
THIS PROBLEM WILL BE CONSIDERED AS STEADY STATE
ENTER EMISSION RATE IN KG PER SEC >.1
IS THERE AN ATMOSPHERIC INVERSION LAYER. Y/N ? N
IS THE ATMOSPHERIC STABILITY CLASS KNOWN, Y/N ?Y
ENTER ATMOSPHERIC STABILITY CLASS <1-6) > 3
ENTER WIND SPEED IN METERS PER SEC > 5.63
ENTER STACK HEIGHT ABOVE LOCAL TERRAIN IN METERS > 35.
IS THE PLUME RISE KNOWN(D1ST FROM STACK HEIGHT TO PLUME ELEV), Y/N ?
ENTER STACK GAS TEMPERATURE IN DEC C > 159.
ENTER AMBIENT TEMPERATURE IN DEC C > 20.
ENTER STACK GAS VOLUMETRIC FLOW RATE IN CUBIC METERS PER SEC > 52.93
ENTER ATMOSPHERIC STABILITY CLASS (1-6) > 3
ENTER WIND SPEED IN METERS PER SEC > 5.63
ENTER STACK HEIGHT ABOVE LOCAL TERRAIN IN METERS > 35.
IS THE PLUME RISE KNOWN(DIST FROM STACK HEIGHT TO PLUME ELEV), Y/N ?
ENTER STACK GAS TEMPER RE IN DEC C > 159.
ENTER AMBIENT TEMPERAT IN OEG C > 20.
ENTER STACK GAS VOLUMETRIC FLOW RATE IN CUBIC METERS PER SEC > 52.93
THE EFFECTIVE PLUME HEIGHT IS = 109.90 M
IT OCCURS AT X = 586.9 M
10.3-10
-------�
Lesson 11
Class Example
-------�
11.1 Modeling Strategies
I. Goal of the Modeling Study
The goal of any PSD ambient air quality study is to demonstrate that the proposed
project will not cause or contribute to a violation of either a PSD Increment limit
or NAAQS. The PSD rules do not require that the applicant calculate the
maximum impact using the most accurate methods. The rules do require that
estimates of ambient concentrations be based on the applicable air quality models,
data bases, and other requirements specified in the Guideline on Air Quality Models
(Revised), 1986 and Supplement A, 1988, 40CFR51.24(1)(1).
II. Procedures
In general, the applicant should use the simplest and most conservative modeling
technique as the first approach. If this technique indicates potential violations, a
more sophisticated and less conservative modeling technique should be selected.
This process continues until either the applicant is successful in demonstrating
compliance or the cost/time of the modeling analysis becomes prohibitive and the
applicant abandons the project or redefines the projects.
III.. Defining the Project
A. Emission rates (one-hour maximum and annual maximum) for each pollutant
B. Stack parameters
If the project is a large source (e.g. 500 MW power plant), emission rates
and stack parameters should be calculated for 50%, 75% and 100% load
conditions. The maximum ground-level concentrations for some large sources
may occur for conditions other than the maximum operating rate.
C. Location of significant structures (buildings) and dimensions ~ Used to
determine if building downwash may be a problem.
D. Property lines and fence lines ~ If the property is secured by fencing,
on-property concentrations may be excluded from the analysis.
11.1-3
-------�
IV. Applicable Regulations
A. Federal
B. State and Local
V. Screening Analysis
A. If maximum impacts of the project are less than the modeling
levels-of-significance or less than the standard and there are no other sources
in the area, no additional modeling is required.
B. If maximum impacts exceed the modeling levels-of-significance, determine
radii-of-impact and areas-of-impact using one year of on-site meteorological
data or five years of NWS data.
C. If the maximum ground-level impact is less than the modeling
level-of-significance for any pollutant, no additional analysis is required for
this pollutant.
VI. Areas-of-Impact and Radii-of-Impact
A. Determine the maximum distance that the project exceeds the modeling
levels-of-significance for each pollutant (radii-of-impact) using the appropriate
models and modeling procedures.
B. On a U.S.G.S. map of the project area, draw a circle using the radius-of-impact
distance as the radius. This circle defines the Area-of-Impact of the project.
C. Determine the maximum distance that the project exceeds the modeling levels-
of-significance for each pollutant for each direction. Outline this ameba-like
figure. This figure is the "actual" area-of-impact.
VII. Emission Inventory of Other Sources
A. An emission inventory must be assembled that includes all sources within 50
kilometers of the Project's Area-of-Impact that has a significant impact within
the Project's Area-of-Impact.
11.1-4
-------�
B. Sources within the Project's Area-of-Impact can be excluded if their maximum
impact is not significant. Their minor impact is assumed to be included with
the background.
C. Generally, the emission inventory to be used for a specific project will be
assembled by the state or local APC agency and furnished to the applicant.
VIII. Critical Areas
Make a screening analysis of each of the sources on the emission inventory that is
in the "actual" area-of-impact. Areas with sources or groups of sources with
relatively high concentrations should be defined. These areas, along with the area
immediately around the Project should be considered as "Critical Areas". The
overall maximum concentration in the "actual" area-of-impact should occur in or
near these critical areas.
IX. Critical Periods
Critical periods can be defined by modeling with a coarse receptor grid in and
around each of the critical areas and including all of the major sources.
X. Maximum Concentrations
After defining the critical areas and critical periods, model runs using a fine grid
(generally 100 meters) and all of the sources can be used to determine the
maximum concentrations (or second highest concentrations, if appropriate).
Receptors are not required to be placed outside of the "actual" area-of-impact.
XL Summary
XII. Questions
11.1-5
-------�
11.2 Simple PSD Source
I. Defining the Project
A. Project Description Industrial natural gas boiler located in an isolated area
of Nevada in a Class II area and no Class I areas are near. The terrain is
flat. The boiler is located in the center of a fenced property. The fence
lines are from 50 meters to 100 meters from the source. All buildings are
less than 4 meters tall.
B. Significant Emission rates:
Emission Rate
Annual Hourly
Pollutant (tpy) (Ib/hr) (g/s)
Nitrogen Oxides 750 171.2 21.58
Carbon Monoxide 300 68.5 8.63
C. Stack parameters:
Stack Height (m) 10.0
Stack Diameter (m) 1.83
Exit Velocity (m/s) 15.13
Temperature (deg K) 400.0
II. Applicable Regulations
A. PSD -- Nitrogen Oxides
B. PSD -- Carbon Monoxide
11.2-1
-------�
III. Stack Height Analysis
The stack is more than 2.5 times the height of any nearby structure and the stack
is less than 65 meters. Therefore, all modeling will use the actual stack height and
building downwash does not need to be considered.
IV. Model Selection
The source in located in a rural area, the terrain is flat, and the buildings will not
create downwash problems. Therefore, the following models are acceptable:
Screening Model PTPLU
Refined Short-term Model CRSTER
Refined Long-term Model ISCLT
V. Screening Analysis PTPLU
A. Because ground-level concentrations are directly proportional to emission rates,
NO2 can be modeled and CO values can be ratioed. PTPLU results are
presented in Tables 11.1. For comparison, Table 11.2 shows CO values.
Using the same procedures outlined in Lesson 8.2, the following conditions
should be evaluated:
Looping 4(a)
Coning 4(c)
Fanning 4(d)
Step 4(a) - Looping: The maximum concentration for stability class A is 116
ug/m3 at 0.44 km downwind.
11.2-2
-------�
Step 4(c) - Coning Plume: The maximum concentration for stability class C
is 259 ug/m3 at 0.28 km.
Step 4(d) - Fanning: The maximum concentration for E and F stability class
is 102 ug/m3 at 5.3 km.
Step 5. The highest NO2 concentration from the above analyses is 259 ug/m3
from 4(c). The maximum CO concentration is calculated to be (259 x
8.63/21.58) = 104 ug/m3. These values should be used as representing
one-hour concentrations. Other averaging periods are as follows:
Concentrations, ug/m3
NO2 CO
One-hour Average: 259 104
Three-hour Average (times 0.9): 233 94
Eight-hour Average (times 0.7): 181 73
24-hour Average (times 0.4): 104 42
NO2 ~ Using the above 24-hour NO2 concentration as a conservative
estimate of the maximum annual concentration indicates that the annual NO2
modeling level-of-significance will be exceeded. The calculated concentration
plus the background concentration exceeds the NAAQS. Therefore, a more
detailed analysis is required for NO2.
CO ~ Both the one-hour and eight-hour concentrations of CO are much,
much less than the levels-of- significance of 2000 ug/m3 and 500 ug/m3.
Therefore, no additional analysis is required for CO.
11.2-3
-------�
NOTE: The maximum concentrations are off-property. What would we do
if they were on-property? Answer: (!"> If the maxima were less than the
levels-of- significance, use the on-prop. rty values, otherwise, use CRSTER,
MPTER or ISCST limited to off-property distances along with hypothetical
meteorological data.
VI. Areas-of-Impact and Radii-of-Impact - NO2
Because there are no other sources within 100 kilometers of the project, the
Radius-of-Impact and Area-of-Impact are superfluous.
VII. Refined NO2 Analysis Using ISCLT
A. Selection of Meteorological Data ~ The nearest NWS station is Las Vegas.
Since neither Las Vegas nor the Project's site is near a large body of water
and the terrain is similar, the Las Vegas data should be representative of the
Project's site. The ISCLT model uses STAR summaries which are available
from NCDC. The modeling will be performed using the NWS data for the
years 1981 through 1985. Each year is to be model separately and the
highest concentration selected from all five years of analyses.
B. Receptor Locations - Using the method described in Lesson 8.5, the following
distances are selected based on the above distance to maximum of 0.283
kilometers:
11.2-4
-------�
Receptor Locations
Calculated Modeled
Distance Distance Distance
Ring Factor (km) (km)
1 1.0 0.283 0.2
2 1.3 0.368 0.3
3 1.7 0.481 0.4
4 2.3 0.651 0.6
5 3.0 0.849 0.8
6 3.9 1.104 1.1
7 5.2 1.472 1.4
8 6.8 1.924 1.9
9 9.0 2.547 2.5
What distance do we use for the tenth ring?
C. Results - Output from ISCLT for 1981 through 1985 are presented in Tables
11.3 through 11.7. A summary is shown below:
Concentrations Receptor
Project Background Total Direction Ring Distance
Year (ug/m3) (ug/m3) (ug/m3) (deg) (meters)
1985 6.28 35 41 360 800
1984 4.46 35 39 360 800
1983 7.62 35 43 360 800
1982 5.95 35 41 360 800
1981 6.41 35 41 360 800
The maximum concentration for the five year period is 43 micrograms per
cubic meter. This value is less than the NAAQS of 100 micrograms per
cubic meter. As can be seen in Tables 11.3 through 11.7, the concentration
gradient is small. Therefore, a finer receptor grid should not produce
concentrations that are significantly higher than the above values.
11.2-5
-------�
For demonstration purposes, Table 11.8 shows an ISCLT printout with a
finer grid. The projects maximum concentration increased by only one
percent. If modeled concentrations have a higher gradient or if the modeled
concentrations are near a standard, a fine grid may be required.
VIII. Summary
IX. Questions
11.2-6
-------�
*** TITLE***
Table 11.2.1 PTPLU SCREENING -- NITROGEN OXIDES
>»INPUT PARAMETERS<«
***OPTIONS***
IF = 1, USE OPTION
IF = 0, IGNORE OPTION
IOPT(1) = 0 (GRAD PLUME RISE)
IOPT(2) = 1 (STACK DOWNWASH)
10PT(3) = 1 (BUOY. INDUCED DISP.J
IDFLT = 1 (1 = USE DEFAULT, 0 = NOT USE DEFAULT)
MUOR = 2 (1 = URBAN, 2 = RURAL)
***METEOROLOGY***
AMBIENT AIR TEMPERATURE =
MIXING HEIGHT =
ANEMOMETER HEIGHT
WIND PROFILE EXPONENTS =
293.00 (K)
5000.00 (M)
10.00 (M)
A:
D:
.07,
.15,
B:
E:
.07,
.35.
C:
F:
.10
.55
***SOURCE***
EMISSION RATE =
STACK HEIGHT =
EXIT
EXIT
STACK
TEMP.
VELOCITY =
DIAM. =
21
10
400
15
1
.58
.00
.00
.13
.83
(G/SEC)
(M)
(K)
(M/SEC)
(M)
***RECEPTOR HEIGHT*** =
.00 (M)
VOLUMETRIC FLOW
39.80 (M**3/SEC)
>»CALCULATED PARAMETERS«<
BUOYANCY FLUX PARAMETER =
33.23 (M**4/SEC**3)
****WINDS CONSTANT WITH HEIGHT****
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
STABILITY
1
1
1
1
1
1
1
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
.50 4.9187E+01
.80 6.4418E+01
1.00 7.2277E+01
1.50 8.7322E+01
2.00 9.8356E+01
2.50 1.0732E+02
3.00 1.1594E+02
DIST OF MAX
(KM)
1.050
.836
.752
.622
.546
.483
.438
****WINDS CONSTANT WITH HEIGHT*
STABILITY
2
2
2
2
2
2
2
2
2
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
.50 2.5593E+01
.80 3.7087E+01
1.00 4.4077E+01
1.50 5.9838E+01
2.00 7.3713E+01
2.50 8.6113E+01
3.00 9.7294E+01
4.00 1.1667E+02
5.00 1.3284E+02
DIST OF MAX
(KM)
3.360
2.199
1.803
1.262
.986
.817
.702
.557
.468
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
***
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
****WINDS CONSTANT WITH HEIGHT****
STABILITY
3
3
3
3
3
3
3
3
3
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
2.00 6.3107E+01
2.50 7.6200E+01
3.00 8.8430E+01
4.00 1.1055E+02
5.00 1.2991E+02
7.00 1.6178E+02
10.00 1.9573E+02
12.00 2.2264E+02
15.00 2.5925E+02
DIST OF MAX
(KM)
1.726
1.381
1.154
.877
.713
.531
.405
.344
.283
PLUME HT
(M)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
WIND SPEED
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
****STACK TOP
WIND SPEED
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
4.00
5.00
****STACK TOP
WIND SPEED
(M/SEC)
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
MAX CONC
(UG/CU M)
4.9187E+01
6.4418E+01
7.2277E+01
8.7322E+01
9.8356E+01
1.0732E+02
1.1594E+02
DIST OF MAX
(KM)
1.050
.836
.752
.622
.546
.483
.438
WINDS (EXTRAPOLATED FROM
MAX CONC
(UG/CU M)
2.5593E+01
3.7087E+01
4.4077E+01
5.9838E+01
7.3713E+01
8.6113E+01
9.7294E+01
1.1667E+02
1.3284E+02
DIST OF MAX
(KM)
3.360
2.199
1.803
1.262
.986
.817
.702
.557
.468
WINDS (EXTRAPOLATED FROM
MAX CONC
(UG/CU M)
6.3107E+01
7.6200E+01
8.8430E+01
1.1055E+02
1.2991E+02
1.6178E+02
1.9573E+02
2.2264E+02
2.5925E+02
DIST OF MAX
(KM)
1.726
1.381
1.154
.877
.713
.531
.405
.344
.283
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
10.0 METERS)****
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
10.0 METERS)****
PLUME HT
(M)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
-------�
Table 11.2.1 PTPLU SCREENING -- NITROGEN OXIDES (cont.)
00
STABILITY
4
4
4
4
4
4
4
4
4
4
4
4
4
4
****WIMOS CONSTANT WITH HEIGHT**** ****STACK TOP
WIND SPEED MAX CONC DIST OF MAX PLUME HT UINU SPEED
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
20.00
(UG/CU M)
4.4317E+00
9.1237E+00
1.2660E+01
2.2243E+01
3.2475E+01
4.3199E+01
5.3763E+01
7.4120E+01
9.3735E+01
1.2895E+02
1.6160E+02
1 .8824E+02
2.2510E+02
2.7562E+02
(KM)
38.900
18.690
12.812
7.110
4.596
3.300
2.672
1.824
1.372
1.000
.743
.613
.488
.379
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
22.1
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
20.00
WINDS (EXTRAPOLATED FROM 10.0 METERS)****
MAX CONC DIST OF MAX PLUME HT
(UG/CU M)
4.4317E+00
9.1237E+00
1.2660E+01
2.2243E+01
3.2475E+01
4.3199E+01
5.3763E+01
7.4120E+01
9.3735E+01
1.2895E+02
1.6160E+02
1.8824E+02
2.2510E+02
2.7562E+02
(KM)
38.900
18.690
12.812
7.110
4.596
3.300
2.672
1.824
1.372
1.000
.743
.613
.488
.379
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
22.1
****WINDS CONSTANT WITH HEIGHT****
STABILITY
5
5
5
5
5
WIND SPEED
(M/SEC)
2.00
2.50
3.00
4.00
5.00
MAX CONC DIST OF MAX
(UG/CU M)
1.0179E+02
9.6049E+01
9.1492E+01
8.4547E+01
7.9366E+01
(KM)
3.422
3.073
2.816
2.459
2.217
PLUME HT
(M)
85.8
80.4
76.3
70.2
65.9
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
WIND SPEED MAX CONC DIST OF MAX PLUME HT
(M/SEC)
2.00
2.50
3.00
4.00
5.00
(UG/CU M)
1.0179E+02
9.6049E+01
9.1492E+01
8.4547E+01
7.9366E+01
(KM)
3.422
3.073
2.816
2.459
2.217
(M)
85.8
80.4
76.3
70.2
65.9
(M/SEC) (UG/CU M)
2.00 1.0217E+02
2.50 9.8000E+01
3.00 9.4574E+01
4.00 8.9U9E+01
5.00 8.4934E+01
(KM)
5.328
4.697
4.246
3.627
3.217
(M)
72.9
68.4
65.0
60.0
56.4
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
2.00 1.0217E+02
2.50 9.8000E+01
3.00 9.4574E+01
4.00 8.9149E+01
5.00 8.4934E+01
DIST OF MAX
(KM)
5.328
4.697
4.246
3.627
3.217
PLUME HT
(M)
72.9
68.4
65.0
60.0
56.4
****WINDS CONSTANT WITH HEIGHT**** ****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
STABILITY WIND SPEED MAX CONC DIST OF MAX PLUME HT
6
6
6
6
6
(1) THE DISTANCE TO THE POINT OF MAXIMUM CONCENTRATION IS SO GREAT THAT THE SAME STABILITY IS HOT LIKELY
TO PERSIST LONG ENOUGH FOR THE PLUME TO TRAVEL THIS FAR.
(2) THE PLUME IS CALCULATED TO BE AT A HEIGHT WHERE CARE SHOULD BE USED IN INTERPRETING THE COMPUTATION.
(3) NO COMPUTATION WAS ATTEMPTED FOR THIS HEIGHT AS THE POINT OF MAXIMUM CONCENTRATION IS GREATER THAN 100 KILOMETERS
FROM THE SOURCE.
-------�
*** TITLE***
Table 11.2.2 PTPLU SCREENING -- CARBON MONOXIDE
>»INPUT PARAMETERS«<
***OPTIONS***
IF = 1, USE OPTION
IF = 0, IGNORE OPTION
IOPT(1) = 0 (GRAO PLUME RISE)
IOPT(2) = 1 (STACK DOUNUASH)
IOPT(3) = 1 (BUOY. INDUCED DISP.)
IDFLT = 1 (1 = USE DEFAULT, 0 = NOT USE DEFAULT)
MUOR = 2 (1 = URBAN, 2 = RURAL)
Table 11.2.2
***RECEPTOR HEIGHT*** = .00 (H)
***METEOROLOGY***
AMBIENT AIR TEMPERATURE
MIXING HEIGHT
ANEMOMETER HEIGHT
WIND PROFILE EXPONENTS
293.00 (K)
5000.00 (H)
10.00 (M)
A:
D:
.07,
.15,
B:
E:
.07,
.35,
C:
F:
.10
.55
***SOURCE***
EMISSION RATE =
STACK HEIGHT =
EXIT
EXIT
STACK
TEMP.
VELOCITY =
DIAM. =
8
10
400
15
1
.63
.00
.00
.13
.83
(G/SEC)
(M)
(K)
(M/SEC)
(M)
PTPLU SCREENING -- CARBON MONOXIDE
VOLUMETRIC FLOW = 39.80 (M**3/SEC)
>»CALCULATED PARAMETERS<«
BUOYANCY FLUX PARAMETER =
33.23 (M**4/SEC**3)
****UINDS CONSTANT WITH HEIGHT****
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
STAE
IILITY WIND SPEED
(M/SEC)
.50
1
1
2
2
3
.80
.00
.50
.00
.50
.00
1
2
2
3
3
4
4
MAX CONC
(UG/CU M)
.9670E+01
.5761E+01
.8904E+01
.4921E+OV
.9333E+01
.2918E+01
.6363E+01
DIST OF MAX
(KM)
1.050
.836
.752
.622
.546
.483
.438
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
****WINDS CONSTANT WITH HEIGHT****
STABILITY WIND
SPEED
(M/SEC)
2
2
2 1
2 1
2 2
2 2
2 3
2 4
2 5
.50
.80
.00
.50
.00
.50
.00
.00
.00
1
1
1
2
2
3
3
4
5
MAX CONC
(UG/CU M)
.0235E+01
.4831E+01
.7627E+01
.3930E+01
.9478E+01
.4437E+01
.8908E+01
.6658E+01
.3125E+01
DIST OF MAX
(KM)
3.360
2.199
1.803
1.262
.986
.817
.702
.557
.468
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
WIND SPEED
(M/SEC)
.50
1
1
2
2
3
****STACK
WIND
.80
.00
.50
.00
.50
.00
MAX CONC
(UG/CU M)
1.9670E+01
2.5761E+01
2.8904E+01
3.4921E+01
3.9333E+01
4.2918E+01
4.6363E+01
DIST OF MAX
(KM)
1.050
.836
.752
.622
.546
.483
.438
TOP WINDS (EXTRAPOLATED FROM
SPEED
(M/SEC)
1
1
2
2
3
4
5
.50
.80
.00
.50
.00
.50
.00
.00
.00
MAX CONC
(UG/CU M)
1.0235E+01
1.4831E+01
1.7627E+01
2.3930E+01
2.9478E+01
3.4437E+01
3.8908E+01
4.6658E+01
5.3125E+01
DIST OF MAX
(KM)
3.360
2.199
1.803
1.262
.986
.817
.702
.557
.468
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
10.0 METERS)***
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
STABILITY
3
3
3
3
3
3
3
3
3
****WINDS CONSTANT WITH HEIGHT*
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
NO SPEED MAX CONC
(M/SEC) (UG/CU M)
2.00 2.5237E+01
2.50 3.0473E+01
3.00 3.5364E+01
4.00 4.4210E+01
5.00 5.1954E+01
7.00 6.4695E+01
10.00 7.8276E+01
12.00 8.9035E+01
15.00 1.0367E+02
DIST OF MAX
(KM)
1.726
1.381
1.154
.877
.713
.531
.405
.344
.283
PLUME HT
(M)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
WIND SPEED MAX CONC DIST OF MAX
(M/SEC)
2.00
.50
.00
.00
.00
.00
10.00
12.00
15.00
(UG/CU M)
2.5237E+01
3.0473E+01
3.5364E+01
4.4210E+01
5.1954E+01
6.4695E+01
7.8276E+01
8.9035E+01
1.0367E+02
(KM)
1.726
1.381
.154
.877
.713
.531
.405
.344
.283
PLUME HT
(M)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
-------�
Table 11.2.2 PTPLU SCREENING -- CARBON MONOXIDE (cent.)
H
H
to
I-1
o
STABILITY
4
4
4
4
4
4
4
4
4
4
4
4
4
4
STABILITY
5
5
5
5
5
*<
'"WINDS COMSTA
WIND SPEED MAX CONC
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
20.00
(UG/CU H)
1.7723E+00
3.6486E+00
5.0629E+00
8.8951E+00
1.2987E+01
1.7276E+01
2.1500E+01
2.9641E+01
3.7486E+01
5.1567E+01
6.4625E+01
7.5278E+01
9.0019E+01
1.1022E+02
NT WITH HEIGHT**** ****STACK TOP
DIST OF MAX
(KM)
38.900
18.690
12.812
7.110
4.596
3.300
2.672
1.824
1.372
1.000
.743
.613
.488
.379
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
22.1
WINDS (EXTRAPOLATED FROM 10.0 METERS)****
WIND SPEED MAX CONC
(M/SEC)
.50
.80
1.00
1.50
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
20.00
(UG/CU M)
1.7723E+00
3.6486E+00
5.0629E+00
8.8951E+00
1.2987E+01
1.7276E+01
2.1500E+01
2.9641E+01
3.7486E+01
5.1567E+01
6.4625E+01
7.5278E+01
9.0019E+01
1.1022E+02
DIST OF MAX
(KM)
38.900
18.690
12.812
7.110
4.596
3.300
2.672
1.824
1.372
1.000
.743
.613
.488
.379
PLUME HT
(M)
603.0(2)
380.6(2)
306.5(2)
207.7(2)
158.3
128.6
108.8
84.1
69.3
52.4
39.7
33.8
28.0
22.1
****WINDS CONSTANT WITH HEIGHT****
WIND SPEED MAX CONC DIST OF MAX PLUME
"STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
HT
WIND SPEED MAX CONC DIST OF MAX
PLUME HT
(M/SEC) (UG/CU M)
2.00 4.0707E+01
2.50 3.8411E+01
3.00 3.6588E+01
4.00 3.3811E+01
5.00 3.1739E+01
(KM)
3.422
3.073
2.816
2.459
2.217
(M)
85.8
80.4
76.3
70.2
65.9
(M/SEC)
2.00
2.50
3.00
4.00
5.00
(UG/CU M)
4.0707E+01
3.8411E+01
3.6588E+01
3.3811E+01
3.1739E+01
(KM)
3.422
3.073
2.816
2.459
2.217
(M)
85.8
80.4
76.3
70.2
65.9
""WINDS CONSTANT WITH HEIGHT""
""STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)"**
STABILITY
6
6
6
6
6
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
2.00 4.0860E+01
2.50 3.9191E+01
3.00 3.7821E+01
4.00 3.5651E+01
5.00 3.3966E+01
DIST OF MAX
(KM)
5.328
4.697
4.246
3.627
3.217
PLUME HT
(M)
72.9
68.4
65.0
60.0
56.4
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
2.00 4.0860E+01
2.50 3.9191E+01
3.00 3.7821E+01
4.00 3.5651E+01
5.00 3.3966E+01
DIST OF MAX
(KM)
5.328
4.697
4.246
3.627
3.217
PLUME HT
(M)
72.9
68.4
65.0
60.0
56.4
(1) THE DISTANCE TO THE POINT OF MAXIMUM CONCENTRATION IS SO GREAT THAT THE SAME STABILITY IS NOT LIKELY
TO PERSIST LONG ENOUGH FOR THE PLUME TO TRAVEL THIS FAR.
(2) THE PLUME IS CALCULATED TO BE AT A HEIGHT WHERE CARE SHOULD BE USED IN INTERPRETING THE COMPUTATION.
(3) NO COMPUTATION WAS ATTEMPTED FOR THIS HEIGHT AS THE POINT OF MAXIMUM CONCENTRATION IS GREATER THAN 100 KILOMETERS
FROM THE SOURCE.
-------�
Table 11.2.3 Annual NOx - 1981
**** ISCLT ************* iscLT CLASS EXAMPLE SIMPLE PSD LESSOM 11 - 1981
PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
200.000 300.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE , METERS) -
400.000 600.000 800.000
- CONCENTRATION -
) FROM ALL SOURCES COMBINED
1100.000 1400.000 1900.000
2500.000
M
V
H
M
360.000
350.000
340.000
330.000
320.000
310.000
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000
0.209959
0.133032
0.080069
0.057096
0.042896
0.036604
0.034504
0.038461
0.045885
0.063823
0.054461
0.059220
0.059565
0.073341
0.071611
0.053037
0.052528
0.068099
0.099387
0.065355
0.044760
0.035544
0.031082
0.032140
0.037186
0.047535
0.069055
0.099012
0.097362
0.111186
0.127489
0.170733
0.174176
0.144882
0.143546
0.160305
1.440396
0.910836
0,491227
0.346258
0.279704
0.263513
0.292197
0.340360
0.388932
0.495427
0.475817
0.535849
0.580356
0.702952
0.693177
0.547004
0.509135
0.569550
0.715302
0.516209
0.389498
0.294886
0.219893
0.182888
0.156118
0.161266
0.206965
0.280833
0.347614
0.478193
0.669489
1.015791
1.092415
0.949526
0.959506
1.117364
3.487810
2.224149
1.141440
0.798618
0.674045
0.647726
0.710040
0.819338
0.980763
.236949
.206703
.308945
.432793
.691807
.675451
.378190
.271988
.380308
.625008
.244964
0.981116
0.767775
0.592788
0.491160
0.420846
0.419802
0.517182
0.667909
0.875883
1.193486
1.658172
2.382461
2.577751
2.329789
2.363652
2.786748
5.670424
3.678344
1.826743
.259232
.089478
.045871
.116718
.266437
.590846
.981390
.961217
2.034549
2.252953
2.604242
2.580141
2.175858
1.977122
2.154015
2.424203
1.958449
1.575727
1.276605
1.026202
0.861677
0.756933
0.744474
0.928527
1.164176
1.555030
2.053932
2.804071
3.804829
4.137195
3.859972
3.929090
4.686561
> 6.407754 <
4.165321
2.033977
.386317
.205574
.143860
.185630
.327458
.724328
2.166235
2.139610
2.181401
2.409110
2.756652
2.729676
2.325175
2.112510
2.310693
2.577935
2.120299
.725287
.429079
.185899
.021749
0.926041
0.935468
.207493
.538177
.990982
2.562622
3.332168
4.300434
4.644268
4.388686
4.484722
5.354301
6.224385
4.070429
.972719
.332138
.164109
.084633
.081808
.189726
.605354
2.040780
2.022061
2.037545
2.239939
2.530452
2.506765
2.168141
1.980866
2.174078
2.402546
2.004340
1 .637391
1.389187
1.194535
1.071065
1.025499
1.094026
1.492887
1.944696
2.403154
2.964072
3.590694
4.309884
4.567564
4.345817
4.432889
5.280375
5.537522 '
3.628505 !
1.753580
1.182589 (
1.037163 (
0.954555 (
0.924757 (
.002022 (
.384496 1
.774727
.765088
.771772
.939446
2.171604
2.152915
1.884036
1.732355
1.903266
2.092706
1.756813
1.437688
1.239903
1.092503 (
1.013447 (
1.016193 (
1.133840
1.608780
2.133249
2.547060 ,
3.057358 :
3.511250 I
3.995362 I
4.151396 :
3.945380 I
4.006986 :
4.740420 :
..514999
>. 962670
.426399
). 958770
). 842702
). 76285 7
). 712361
). 754663
.064896
.375340
.377958
.384123
.505969
.666861
.655241
.472223
.368989
.506688
.650301
.393500
.142372
.005020
). 911844
). 888230
5.951352
1.129400
1.680563
2. 274572
2.618743
5.045242
5.289723
5.502737
5.532216
5.336766
5.354722
5.917537
3.591261
2.360574
1.135298
0.761772
0.670714
0.599018
0.542662
0.561821
0.800977
.037807
.048427
.057383
.143123
.251005
.244147
.123333
1.056883
1.166145
1.275394
1.080860
0.886760
0.793868
0.738296
0.752992
0.852937
1.063229
1.631787
2.231105
2.511207
2.848480
2.951229
2.989655
2.935060
2.752897
2.735770
3.156094
-------�
Table 11.2.4 Annual NOx - 1982
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1982
******** PAGE
** ANNUAL GROUND I EVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
- X AXIS (RANGE , METERS) -
200.000 300.000 400.000 600.000 800 000
Y AXIS (AZIMUTH BEARING, DEGREES )
) FROM ALL SOURCES COMBINED
1100.000 1400.000 1900.000
CONCENTRATION
V
I-1
to
2500.000
360.000
350.000
340.000
330.000
320.000
310.000
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
2' 100
2U,. <00
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000
0.204261
0.127087
0.071125
0.049993
0.039852
0.035239
0.032628
0.036313
0.047686
0.069898
0.057877
0.061185
0.055467
0.056130
0.055786
0.053532
0.059534
0.064495
0.085104
0.056003
0.038525
0.032770
0.034103
0.036613
0.040250
0.049621
0.062749
0.083091
0.098109
0.126681
0.129600
0.143228
0.141502
0.130059
0.137378
0.156214
1.283458 3.138148
0.848664 2.113136
0.524817
1.270941
5
3
2
0.388585 0.933850
0.313176 0.749830
0.280552 0.668786
0.270277 0.655894
0.307399 0.742498
0.434364
0.620370
0.539506
0.543370
0.517234
0.541328
0.537195
0.502589
0.531969
0.588192
0.734299
0.508155
.051528
.450928
.317657
.318197
.314943
.417576
.408344
.283610
.304950
.477737
.795919
.322652
0.356049 0.978303
0.314943 0.878720
0.337846 0.908225
0.314579 0.824472
0.223546 0.584016
0.190409 0.466902
0.209376 0.509498
0.258191 0.604802
0.323579 0.770409
0.443966 1
0.557856 1
0.770182 1
.027277
.334098
.816500
0.842620 2.009251
0.827011 1
.993986
0.900061 2.154440
1.015877 2.522619
2
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
0
0
1
1
1
2
2
3
3
3
4
.224179
.567202
.051154
.467427
.167328
.023715
.007794
.130453
.622273
.172660
.064991
.047854
.135013
.337833
.323506
.090398
.053031
.393355
.836531
.221908
.706728
.550352
.550946
.381341
.005026
.785666
.882895
.026288
.331268
.722233
.254556
.964575
.283316
.262707
.499382
.263341
> 5
4
2
1
1
1
1
1
1
2
2
2
2
2
2
2
2
2
3
2
i
2
.952575 <
.042112
.244080
.568922
.239719
.075881
.053885
.176065
.692603
.248881
.170461
.153510
.290148
.536690
.527438
.265852
.205292
.601187
.074277
.466431
.936005
.763308
.739643
.545671
.157114
.930073
.077620
.272504
.635419
.088427
2.660002
3
3
3
3
4
.381234
.704090
.652182
.900446
.846396
5.902089
3.999051
2.156785
1.477512
1.169124
1.005231
0.973126
1.071526
1.535533
2.017849
1.977178
1 .965082
2.119711
2.357151
2.360789
2.134546
2.078703
2.469697
2.900121
2.372878
.884949
.725115
.690772
.515081
.194011
.019164
.240114
.501088
.894315
2.365246
2.873101
3.461416
3.711694
3.613495
3.822664
4.817505
5.366311
3.624355
1 .923437
1 .306050
1.037069
0.887659
0.847945
0.921094
1.312303
1.711962
1 .693506
1.688162
1.829527
2.032534
2.042458
1.862897
1.822219
2.172360
2.543902
2.098938
.676612
.541046
.511915
.373384
.129429
.017277
.287622
.594567
.976076
2.432130
2.838873
3.283483
3.450067
3.315258
. 3.472866
4.387508
4.533796
3.050391
1.591364
1.069141
0.850790
0.722201
0.676762
0.719889
1 .014063
1.310895
1.308151
1.308425
1.422138
1.576579
1.590356
1.465556
1.444630
1.733218
2.029227
1.688550
1 .357243
1.256651
1.239051
1.152686
1.007435
0.977654
1.304754
1.663931
2.019760
2.442455
2.719678
2.989202
3.051083
2.874969
2.960153
3.726223
3.736931
2.510293
1.296219
0.864054
0.687814
0.579640
0.535868
0.559786
0.777825
0.996305
0.997524
0.997570
1.085447
.201282
.214799
.126933
.117594
.350087
.583000
1.325965
1.071161
0.999037
0.990670
0.945542
0.874038
0.903416
1.253192
1.626639
1 .948271
2.318744
2.501695
2.648251
2.637882
2.444320
2.472587
3.093159
-------�
Table 11.2.5 Annual NOx - 1983
ISCLT (DATED 86167)
AN AIR QUALITY DISPERSION MODEL
SECTION 1. GUIDELINE MODELS
IN UNAMAP (VERSION 6) JAN. 88.
IN
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1983
- ISCLT INPUT DATA -
********
PAGE
NUMBER OF SOURCES = 1
NUMBER OF X AXIS GRID SYSTEM POINTS = 9
NUMBER OF Y AXIS GRID SYSTEM POINTS = 36
NUMBER OF SPECIAL POINTS = 0
NUMBER OF SEASONS = 1
NUMBER OF WIND SPEED CLASSES = 6
NUMBER OF STABILITY CLASSES = 6
NUMBER OF WIND DIRECTION CLASSES = 16
FILE NUMBER OF DATA FILE USED FOR REPORTS - 1
THE PROGRAM IS RUN IN RURAL MODE
CONCENTRATION (DEPOSITION) UNITS CONVERSION FACTOR =0.10000000E+07
ACCELERATION OF GRAVITY (METERS/SEC**2) = 9.800
HEIGHT OF MEASUREMENT OF WIND SPEED (METERS) = 10.000
CORRECTION ANGLE FOR GRID SYSTEM VERSUS DIRECTION DATA NORTH (DEGREES)
DECAY COEFFICIENT =O.OOOOOOOOE+00
PROGRAM OPTION SWITCHES = 1, 2, 2, 0, 0, 3, 2, 2, 3, 0, 0, 0. 0. 0, 0, 0, 0, 1, 0, 1, 0, 0, 1, 1. 0,
ALL SOURCES ARE USED TO FORM SOURCE COMBINATION 1
200.00, 300.00, 400.00, 600.00,
0.000
I
oo
RANGE X AXIS GRID SYSTEM POINTS (METERS )=
UOO.OO, 1900.00, 2500.00,
AZIMUTH BEARING Y AXIS GRID SYSTEM POINTS (DEGREES)^
70.00, 80.00, 90.00, 100.00,
170.00, 180.00. 190.00, 200.00,
270.00, 280.00, 290.00, 300.00,
- AMBIENT AIR TEMPERATURE (DEGREES KELVIN) -
STABILITY STABILITY STABILITY STABILITY STABILITY STABILITY
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
SEASON 1 302.9000 298.3000 295.7000 292.5000 289.4000 286.6000
800.00, 1100.00,
10.00,
110.00,
210.00,
310.00,
20.00,
120.00,
220.00,
320.00,
30.00,
130.00,
230.00,
330.00,
40.00,
140.00,
240.00,
340.00,
50.00, 60.00,
150.00, 160.00,
250.00, 260.00,
350.00, 360.00,
-------�
Table 11.2.5 Annual NOx - 1983 (cont.)
- MIXING LAYER HEIGHT (METERS) -
WIND SPEED
CATEGORY 6
292450E+04
306420E+04
336300E+04
280540E+04
100000E+05
100000E+05
SEASON 1
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5
STABILITY CATEGORY 10.270490E+040.292450E+040.292450E+040.292450E+040.292450E+040
STAB ILITY CATEGORY 20.140900E+040.234690E+040.306420E+040.306420E+040.306420E+040,
STABILITY CATEGORY 30.10701OE+040.151020E+040.273520E+040.339260E+040.346670E+040
STAB ILIT Y CATEGORY 40.683700E+030.109350E+040.208250E+040.322070E+040.297900E+040,
STABILITY CATEGORY 50.100000E+050.100000E+050.100000E+050.100000E+050 100000E+050
STAB ILIT Y CATEGORY 60.10OOOOE+050.10OOOOE+050.10OOOOE+050.100000E+050.10OOOOE+050,
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1983
- ISCLT INPUT DATA (CONT.) -
- FREQUENCY OF OCCURRENCE OF WIND SPEED, DIRECTION AND STABILITY -
SEASON 1
STABILITY CATEGORY 1
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
H
J^
DIRECTION
(DEGREES)
0.000
22.500
45.000
67.500
90.000
112.500
135.000
157.500
180.000
( 1.5000MPSX 2.5000MPSH 4.3000HPSX 6.8000MPSH 9.5000MPS)(12.5000MPS:
0.00014000
0.00002000
0.00002000
0.00002000
0.00001000
0.00013000
0.00013000
0.00013000
0.00025000
0.00079999
0.00079999
0.00090999
0.00056999
0.00034000
0.00034000
0.00034000
0.00034000
0.00046000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
0.00000000
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1983
- SOURCE INPUT DATA -
C T SOURCE SOURCE X
A A NUMBER TYPE COORDINATE
R P (M)
D E
Y EMISSION BASE /
COORDINATE HEIGHT ELEV- /
(M) (M) ATION /
(M) /
******** PAGE
********
PAGE
- SOURCE DETAILS DEPENDING ON TYPE -
1 STACK 0.00 0.00 10.00 0.00 GAS EXIT TEMP (DEC K)= 400.00, GAS EXIT VEL. (M/SEC)= 15.13,
STACK DIAMETER (M)= 1.830, HEIGHT OF ASSO. BLDG. (H)= 0.00, WIDTH OF
ASSO. BLDG. (M)= 0.00, WAKE EFFECTS FLAG = 0
- SOURCE STRENGTHS ( GRAMS PER SEC ) -
SEASON 1 SEASON 2 SEASON 3 SEASON 4
2.15800E+01
-------�
Table 11.2.5 Annual NOx - 1983 (cont.)
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSOM 11 - 1983
PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
) FROM ALL SOURCES COMBINED
200.000 300.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE , METERS) -
400.000 600.000 800.000 1100.000 1400.000 1900.000
- CONCENTRATION -
2500.000
360.000
350.000
340.000
330.000
320.000
310.000
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000
0.312855
0.185915
0.088496
0.056866
0.042037
0.034142
0.025906
0.024325
0.027931
0.037740
0.043582
0.062923
0.060563
0.064802
0.061648
0.047820
0.046192
0.045696
0.057663
0.048700
0.052427
0.060638
0.083574
0.082011
0.052168
0.042257
0.055398
0.075999
0.073348
0.081034
0.101359
0.141798
0.164163
0.189044
0.221460
0.244515
1.832042 '
1.146855 i
0.600533
0.408258
0.317825 (
0.262147 (
0.205144 (
0.195077 (
0.247622 (
0.337466 (
0.415631
0.570122
0.581302
0.622537
0.596980
0.491329
0.464956
0.480641
0.575388
0.482941
0.470236
0.495928
0.598404
0.552668
0.327268 (
0.212264 (
0.217197 (
0.256505 (
0.245940 (
0.274227 (
0.358764 (
0.519510
0.679734
0.930239 !
1.191639 J
1.416465 2
.. 228500
>. 758550
.521193
.053887
). 816365
1.669052
). 545914
). 521586
). 657663
1.860024
.048198
.360232
.419819
.517538
.466706
.250404
.186660
.279643
.506438
.282698
.194451
.242458
.432648
.316256
1.847344
1.577063
1.563221
1.614739
1.607422
1.668108
1.840996
.140990
.489209
2. 011011
J. 587168
5.262578
6.795356
4.604788
2.601554
.807161
.387692
.116353
0.934022
0.880709
.108596
.385758
.698789
2.098629
2.239387
2.377271
2.306365
2.016304
1.906141
2.135612
2.461172
2.162150
1.964638
2.047491
2.294397
2.109799
1.463626
1.033053
1.000572
.025423
.070585
.183570
.454182
.858142
2.377287
3.089705
3.962878
5.267785
> 7.616764 <
5.224747
2.986603
2.074805
1.582703
1.258708
1.049767
0.978110
1.225816
1.511050
1.839920
2.232062
2.392608
2.535638
2.461956
2.162305
2.045673
2.339926
2.703619
2.390750
2.152976
2.241443
2.487923
2.299855
1.662497
1.224008
1.214940
1.261360
1.354123
1.524957
1.807867
2.206062
2.723342
3.398192
4.312863
5.876699
7.413198 <
5.159522 '
2.989045 ,
2.083223
1.589376
1.250229
1.035209
0.946046
1.178467
1.431290
1.736743
2.074414
2.231117
2.355720
2.281523
2.000609
1.887193
2.214121
2.573531
2.278800
2.020086
2.100586
2.314514
2.163584
1.650069
1.297684
1.372515
1.490131
1.636422
1 .854383
2.103616 ,
2.420933 ;
2.836024
3.343969 I
4.144374 I
5.731613 !
S. 642329
..651362
'.714996
.899016
.449594
.135126
1.933896
1.843128
.046852
.262017
.524284
.803188
.938638
>. 039021
.967685
.718367
.616579
.932347
>. 263210
>. 000220
.756077
.822978
>. 0041 01
.894481
.501817
.247366
.395330
.579501
.745144
.979644
>. 179587
2.418910
>. 723605
5.074396
5.720632
>. 149207
5.488341 '
3.864398 :
2.269439
1.589430
1.209940
0.939956 (
0.766999 (
0.682276 (
0.842948 (
1.008372 (
1.210010 (
1.417097
1.518548
1.586990
1.522788
1.321827 (
1.240848 (
1.518643
1.799672
1.588363
1.383407
1.435759
1.577398
1.516891
1.264318
1.129793 (
1.367461
1.633965
1.809534
2.045469
2.186753 !
2.337808 ,
2.509821 ;
2.675947 !
3.118502
4.284505 I
4.422209
5.125821
1.841407
1.289235
1.979011
1.755727
1.613884
1.540344
1.662869
1.786836
1.940225
.093974
.166968
.211194
.155797
1.998393
1.936408
.167644
.397313
.233779
.070750
.111588
.220398
.193693
.040300
1.990206
.275896
.581498
.751031
.963787
?. 064111
>. 154637
>. 233782
>. 277685
>. 561466
5.482732
-------�
Table 11.2.6 Annual NOx - 1984
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1984
********
PAGE
7 ****
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
) FROM ALL SOURCES COMBINED
200.000 300.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE , METERS) -
400.000 600.000 800.000 1100.000 1400.000 1900.000
- CONCENTRATION -
NJ
H
CTi
2500.000
360.000
350.000
340.000
330.000
320.000
310.000
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000
0.168689
0.108395
0.067918
0.050502
0.042235
0.038603
0.035890
0.040950
0.058798
0.089046
0.077920
0.087982
0.084205
0.093519
0.089838
0.068735
0.065826
0.067268
0.086512
0.078837
0.090402
0.075517
0.061187
0.053827
0.044601
0.047989
0.062923
0.084963
0.096975
0.121652
0.128150
0.146457
0.147254
0.139459
0.145173
0.142328
1.063054 !
0.729687
0.490387
0.378734 (
0.315108 I
0.289878 (
0.288660 (
0.335275 (
0.477622
0.681611
0.670044
0.766583
0.777614
0.860798
0.833094
0.679952
0.640309
0.666244
01797138
0.676901
0.661506
0.592715
0.559175
0.475750
0.288510 (
0.197660 (
0.212574 (
0.259683 . (
0.286147 (
0.361298 (
0.467018 1
0.666705 1
0.760568 1
0.807675 1
0.897875 t
0.912122 2
>. 496799
.739894
1.131417
). 867267
).716422
). 6584 75
). 668516
).772002
.087692
.491322
.563882
.800057
.883592
.078149
.019306
.686524
.565907
.648783
.896239
.645986
.558233
.418125
.337574
.133080
). 723804
1.499102
). 558009
).677252
). 737744
1.887255
.141788
.563866
.779609
.869288
t.043473
1.163878
3.987669
2.822220
1.768306
1.323354
1.068960
0.963903
0.982995
1.123133
1.584784
2.098629
2.349614
2.707430
2.927078
3.214070
3.133672
2.676245
2.447844
2.610392
2.887799
2.603451
2.433881
2.242485
2.097672
1.770390
1.206496
0.867168
1.025517
1.239974
1.362758
1.576821
1.992718
2.589151
2.909084
2.994856
3.202099
3.513282
> 4.461368 <
3.152508
.932787
.421305
.132860
.000575
.000420
.127489
.596878
2.099536
2.431007
2.836665
3.104726
3.410483
3.331843
2.860572
2.605492
2.786471
3.047857
2.781580
2.595818
2.400162
2.238663
.901551
.358945
.041046
.290695
.596541
.760876
2.027545
2.457509
3.044807
3.338426
3.342782
3.508459
3.920157
4.382517
3.095982
1.857944
1 .350363
1.078663
0.936192
0.909554
1.000036
1.413152
1.841360
2.202968
2.600021
2.878540
3.158774
3.082824
2.643146
2.385088
2.568669
2.787871
2.562467
2.371593
2.206648
2.067746
.784866
.356107
.130433
.484397
.882688
2.115333
2.439123
2.802996
3.251246
3.430702
3.310403
3.379641
3.845338
3.969523
2.795697
1.653132
1.196118
0.961236
0.828791
0.789914
0.852425
1.198478
1.551876
1.888527
2.242516
2.495048
2.734349
2.663400
2.277501
2.042495
2.210546
2.395734
2.201492
2.023523
.894174
.790964
.574034
.251636
.111374
.517814
.962946
2.234363
2.593278
2.868924
3.177293
3.250616
3.044500
3.038641
3.479351
3.325561
2.329991
1.351070
0.970657
0.785145
0.672768
0.629136
0.665035
0.927735
1.193283
1.469333
1.750680
1.953525
2.135473
2.075459
1.771129
1.581245
.723228
.869630
.710808
.555236
.470334
.412907
.279156
.083750
.044802
.496353
.980234
2.295043
2.688142
2.853294
2.990388
2.937385
2.643605
2.549138
2.922434
2.714352
1.894294
1.081550
0.772307
0.628296
0.536952
0.496768
0.518003
0.717445
0.917803
1.131805
.345773
.501254
.635730
.586560
.352539
.205022
.321660
.436959
.306691
.174053
1.121104
1.095451
1.023206
0.918620
0.947706
1.402437
1.880217
2.212581
2.602258
2.689998
2.708978
2.574616
2.244497
2.095147
2.397174
-------�
Table 11.2.7 Ararat NOx - 1985
**** ISCLT ************* iscLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1985
********
PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
200.000 300.000
Y AXIS (AZIMUTH BEARING, DEGREES )
- X AXIS (RANGE , METERS) -
400.000 600.000 800.000
- CONCENTRATION -
) FROM ALL SOURCES COMBINED
1100.000 1400.000 1900.000
2500.000
360.000
350.000
340.000
330.000
320.000
310.000
300.000
290.000
280.000
270.000
260.000
250.000
240.000
230.000
220.000
210.000
200.000
190.000
180.000
170.000
160.000
150.000
140.000
130.000
120.000
110.000
100.000
90.000
80.000
70.000
60.000
50.000
40.000
30.000
20.000
10.000
0.234847
0.147440
0.085552
0.058784
0.041905
0.035574
0.034961
0.040683
0.057564
0.087670
0.077334
0.089062
0.082276
0.085536
0.079100
0.055032
0.048864
0.049651
0.063077
0.061267
0.073146
0.060797
0.046405
0.041587
0.042068
0.050141
0.065359
0.087669
0.083896
0.089303
0.090310
0.103678
0.136397
0.218450
0.278971
0.232704
1.480053 3.489226 5.598974 > 6.281126 < 6.121676 5.488577 4.538828 3.659932
0.969354 2.324293 3.798762 4.260185 4.153585 3.712255 3.052369 2.450596
0.579132 1.352005 2.145880 2.354717 2.243838 1.971744 1.583291 1.247451
0.416721 0.981807 .543365 1.670696 .566425 1.363388 1.078945 0.839678
0.324648 0.797020 .268333 1.369399 .284521 1.119879 0.887761 0.692589
0.287006 0.708681 .118729 1.195693 .113964 0.971599 0.771410 0.603133
0.281731 0.680839 .063597 1.124197 .044371 0.913396 0.728458 0.571574
0.334457 0.783661 .187721 1.234223 .129796 0.981100 0.775268 0.602881
0.517916 .197206 .787682 1.838605 .652053 1.407720 .080035 0.816397
0.766885 .707801 2.449479 2.484251 2.194021 1.843750 .387197 1.029311
0.728458 .701190 2.568917 2.660467 2.394004 2.031374 .542029 1.150788
0.805489 .868093 2.802227 2.912700 2.627667 2.232387 .697038 1.267833
0.782062 .849996 2.830610 2.961475 2.684667 2.283504 .737977 1.299799
0.813247 .903633 2.880167 3.003193 2.708369 2.294663 .741032 1.300061
0.746985 .757513 2.670045 2.802124 2.545542 2.166016 .653374 1.241476
0.545127 .360430 2.171981 2.345799 2.193424 1.899552 .479029 1.127769
0.461246 .175456 1.908078 2.100669 2.001652 1.755611 .388695 1.072466
0.476173 .255150 2.108563 2.332474 2.228549 1.958719 .554807 1.204267
0.568743 .467398 2.407656 2.638781 2.492634 2.181289 .727112 1.336074
0.475092 .230780 2.086811 2.314441 2.202882 1.929934 .527128 1.179271
0.456062 .123218 1.865084 2.063272 1.947980 1.696606 .332394 1.021768
0.395380 0.980466 1.637584 .816113 1.726585 1.514710 .205426 0.938417
0.351429 0.872002 1.441963 .595715 1.530052 1.359193 .106676 0.882923
0.305135 0.752793 1.228506 .362661 1.336953 1.219706 .035347 0.860025
0.226088 0.570432 0.954467 .094196 1.149626 1.107697 .007623 0.884343
0.194237 0.482098 0.804037 0.962834 1.098593 1.126516 .105787 1.027989
0.190748 0.496198 0.904635 .171945 1.441591 1.548015 .608250 1.556311
0.216830 0.565141 1.055237 .437356 1.835402 2.016562 2.150825 2.113292
0.240132 0.648038 1.219351 .619000 2.013824 2.171194 2.274434 2.215449
0.307748 0.812523 1.469238 .899112 2.280673 2.410558 2.473053 2.371897
0.428785 1.153144 2.078299 2.547972 2.826803 2.816132 2.701324 2.475019
0.662387 1.714061 2.943787 3.431646 3.527895 3.321519 2.967829 2.575523
0.867628 2.109208 3.490809 3.956376 3.919995 3.581794 3.071976 2.574396
1.146999 2.467008 3.793621 4.151016 3.984456 3.562191 2.971053 2.435091
1.397229 2.862133 4.233385 4.548777 4.285501 3.781147 3.092977 2.488696
1.343232 3.034547 4.809676 5.332230 5.161537 4.607435 3.800912 3.067798
-------�
Table 11.2.8 Annual NOx - 1983 Fine Grid
**** ISCLT ************* ISCLT CLASS EXAMPLE SIMPLE PSD LESSON 11 - 1983 FINE GRID
******** PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
- X AXIS (RANGE , METERS) -
600.000 650.000 700.000 750.000 800.000
Y AXIS (AZIMUTH BEARING, DEGREES ) - CONCENTRATION -
) FROM ALL SOURCES COMBINED
850.000
900.000
950.000
1000.000
10.000
5.000
360.000
355.000
350.000
5.267785
6.017914
6.795356
5.695452
4.604788
5.501725
6.292352
7.108492
5.966434
4.833698
5.675491
6.497225
7.342762
6.171072
5.008713
5.797643
6.641966
7.508433
6.317937
5.136698
5.876699
6.736406
7.616764
6.416201
5.224747
5.920128
6.788978
7.677130
6.473719
5.279207
5.934232
6.806981
> 7.697806 <
6.497379
5.305590
5.924418
6.796709
7.685969
6.493179
5.308726
5.895292
6.763539
7.647765
6.466269
5.292787
00
-------�
Lesson 12
Actual Case Study
12-1
-------�
I. Defining the Project
A. Project Description -- Widget International plans to build an oil-fired boiler
located in an industrialized area of Louisiana. The terrain is flat.
B. The boiler is located in the center of a fenced property. The distance to the
fence lines are as follows:
Widget Fence Lines
Direction From
Source to Fence
North
East
South
West
Distance
(m)
50
100
75
75
C. Significant Structures:
Widget Buildings
Structure
Building A
Silo
Building B
Distance
To Stack
(m)
95
35
145
Height
(m)
23.5
35.0
27.4
Cross- Wind
Dimension
(m)
45.0
9.5
25.5
Calculated
GEP
(m)
58.75
49.25
65.65
(m)
117.5
47.5
127.5
Within
Influence
Yes
Yes
No
D. Significant Emission rates (we will limit this example to sulfur oxides emissions
only):
12-3
-------�
Widget Emissions
Averaging Period
Annual 1-Hour 3-Hour 24-Hour
Pollutant (g/s) (g/s) (g/s) (g/s)
Sulfur Oxides 14.0 16.0 16.0 16.0
E. Stack parameters:
Widget Stack Parameters
UTM - East (km) 673.0
UTM - North (km) 3383.0
Stack Height (m) 42.67
Stack Diameter (m) 1.68
Exit Velocity (m/s) 4.00
Temperature (deg K) 505.2
II. Applicable Regulations - PSD Sulfur Dioxide
A. Preconstruction Monitoring - 13 ug/m3 24-hour average
B. PSD Class II Increment:
Averaging Concentration
Period (ug/m3)
Annual 20
24-Hour 91
3-Hour 512
12-4
-------�
C. NAAQS:
Averaging Concentration
Period (ug/m3)
Annual 80
24-Hour 365
3-Hour 1300
III. Stack Height Analysis
Building B has the greatest GEP but it is more than five "characteristic dimensions"
from the stack. Therefore, Building A is the dominate structure. Building
downwash must be considered because the stack height is less than GEP.
IV. Model Selection
The source in located in a rural area, the terrain is flat, and building downwash
must be considered. Therefore, the following models are acceptable:
Screening Model: ISCST
Refined Short-term Model: ISCST
Refined Long-term Model: ISCLT or ISCST
V. Screening Analysis - ISCST
A, The same procedures outlined in Lesson 8.2 will be used.
B. Building Input Parameters
As presented in Lesson 8.2, the ISCST model calculates an equivalent
diameter from the values entered for building width and length and uses this
equivalent diameter as the cross-wind dimension. In order to "force" the
model to use the correct cross-wind dimension, pseudo values must be
calculated for the building width.
12-5
-------�
For a Square Building Bw = B[
We will use S as the side length:
S = Deq (3.1417/4)1/2 = 45.0 (3.1417/4)1/2
S = 39.88 meters
By entering 39.88 meters for building width and length the model will
calculate an equivalent diameter of 45.0 meter which is the correct
cross-wind dimension.
Discussion - Does the model use the cross-wind dimension in its calculations
when the building height is less than the cross-wind dimension? (No.)
C. Step 4.
From Table 8.2.1, a stack height of 42.67 meters indicates that the following
conditions should be evaluated:
Looping 4(a)
Coning 4(c)
Fanning 4(d)
The output of the screening run is shown in Table 12.1. The screening
results are as follows:
Step 4(a) - Looping: The maximum concentration for stability class A is 133
ug/m3 at 0.53 kilometers.
Step 4(c) - Coning Plume: The maximum concentration for stability class C
is 132 ug/m3 at 0.43 kilometers.
Step 4(d) - Fanning: The maximum concentration for E and F stability class
is 329 ug/m3 at 0.24 kilometers.
Step 4(f). Downwash - All values above considered downwash.
Step 5. The highest concentration from the above analyses is 329 ug/m3
from 4(d). This value should be used as representing an one-hour
concentration. Other averaging periods are as follows:
Three-hour Average (times 0.9): 296. ug/m3
24-hour Average (times 0.4): 132. ug/m3
12-6
-------�
Step 6. Since the concentrations in Step 5 are greater than the modeling
level-of-significance, a refined technique is required. (If the Project was an
isolated source, no additional 3-hour analysis would be required. Additional
24-hour analysis is required because the concentration exceeds the PSD
increment.)
NOTE: The maximum concentrations are off-property.
VI. Selection of Meteorological Data
The nearest NWS station is Baton Rouge about 15 kilometers from the Project
site. Since the terrain near Widget is similar to the terrain near the NWS and no
large bodies of water are adjacent to either Widget or the NWS station, the Baton
Rouge data should be representative of the Project site. The ISCST model uses
hourly preprocessed data. These data can be created with the CRSMET
preprocessor program. The most recent five-year data set should be selected. For
this class example, the year 1979 will be used.
The ISCLT model uses STAR summaries available from the National Climatic Data
Center (NCDC). The modeling will be performed using the years 1979 through
1983. Each year is to be modeled separately and the highest concentration selected
from all five years of analyses.
Why does EPA require the most recent five years?
VII. Preconstruction Monitoring
The local agency has determined that a nearby monitor is representative of
concentrations in the vicinity of the Project. The applicant is instructed to use a
background value of 35 ug/m3 for annual SO2, and 47 ug/m3 for short- term
averaging periods. (If preconstruction monitoring data is not available,
preconstruction monitoring can be avoided by demonstrating that the Project will
not cause an increase in ground-level concentrations that exceeds the monitoring
level-of-significance.)
Discussion ~ What criteria should an agency use to determine background
concentrations?
12-7
-------�
VIII. Controlling Standards
The background concentrations plus the maximum allowable increment
consumptions are less than the NAAQS. Therefore, the increment standards are
the controlling limits:
Averaging
Period
Controlling Standards
Background
Concentration
(ug/m3)
Maximum Allowable
Increment
Consumption
(ug/m3)
Background
Plus
Increment
(ug/m3)
NAAQS
(ug/m3)
Controlling
Standard
Inc. or NAAQS
AnnuaI
24-Hour
3-Hour
35
47
47
20
91
512
55
138
559
80
365
1300
Increment
Increment
Increment
IX. Areas-of-Impact and Radii-of-Impact
In order to determine the sources to be included with the analysis, the
area-of-impact must be determined. The area- of-impact is the area within a circle
with a radius equal to the radius-of-impact. The results of the screening analysis
indicates that the impact from the Project is significant.
A. Coarse-grid Run - Use ring distances of 1, 5, 10, 15, and 25 kilometers in the
ISCST model. Coarse-grid results are shown in Table 12.2 and summarized
below:
Radius-of-Impact Coarse-grid Run, km
Year
1979
Averaging Period
Annual 3-Hour 24-Hour
5-10
5-10
10-15
Why use ISCST for annual radius-of-impact rather than ISCLT? (Why not.
Compare Tables 12.2 and 12.3 with Table 12.4)
B. Fine-grid Run - Use ring distances of 6, 7, 8, 12, and 14 kilometers. Fine-grid
results are shown in Table 12.3 and summarized below:
12-8
-------�
Radius-of-Impact Fine-grid Run, km
Averaging Period
Year Annual 3-Hour 24-Hour
1979 5-6 8-10 12-14
C. Comments ~ We would report the radii-of-impact as 6, 10, and 14 kilometers
for the annual, 3-hour and 24-hour, respectively. Additional runs can be
made to define the radius-of-impact to a more accurate distance.
REMEMBER: We are defining the radius-of-impact so that we can
determine the sources that must be included. As long as our estimation of
the radius-of-impact is conservative, we can use the coarse-grid results.
X. Emission Inventory
A. In general, the state or local agency will supply the emission inventory. The
local agency supplied the following data to be used in the Widget analysis.
Emission Inventory
Emission
UTH Location, km Rate Height Diameter Velocity Temp.
Source No. East North (g/s) (n) (m) (m/s) (K)
101 668.5 3384.9 41.55 18.2 1.21 18.5 394.
The Ajax Company has received a permit for a major facility near the
Project site. This plant is the only other facility that consumes increment.
Therefore, total increment consumption will be calculated by combining the
impacts from the Widget plant and the Ajax source. Because the monitoring
data does not include contributions from the Ajax plant, the emissions from
Ajax must be included in the Widget analyses of total concentrations to be
compared with the NAAQS.
B. Screening of inventory sources If the sources in the emission inventory include
sources with large impacts (major sources) as well as sources with very small
impacts (minor sources), the critical locations and critical time periods will
be dictated by the major sources. By including only the major sources along
with the Project source in full-year runs, significant computer time can be
saved. If you have unlimited free computer time on a mainframe, you may
12-9
-------�
wish to include all sources in all runs. After defining the critical times and
locations, the final runs to define maximum concentrations should include all
sources. Because our project only consists of our source and one other
source, no screening is needed.
XL Refined Analysis -- Annual 1979
A. Actual Area of Impact -- Use ISCLT to determine the actual area of impact
of Widget. Results are displayed in Table 12.4.
B. Combined Impacts ~ Use ISCLT to determine the maximum combined impact
of Ajax and Widget within the actual area of impact from Widget. A partial
printout is displayed in Table 12.5. Results are shown below:
Annual Concentrations
Maximum
Combined Contribution
Concentration From Widget Location, km
(ug/m3) (ug/m3) East North Comment
7.9 0.8 668.5 3384.0 Highest Total
3.7 1.0 669.5 3384.0 Near Ajax
5.4 4.8 673.0 3382.5 Near Widget
C. Discussion of Results - Which value from above is our maximum annual
increment consumption? (5.4)
XII. Refined Analysis -- 3-Hour and 24-Hour Averages
In general, the following analysis is performed as if Widget and Ajax consisted of
many sources. (This analysis must be performed for each pollutant and each short-
term averaging period.)
A. Critical Areas - The maximum concentrations will occur either: (1) near Ajax,
(2) near Widget, or (3) on a line of interaction passing through Ajax and
Widget.
Discussion - If the emission inventory contained other facilities with many
sources, the critical areas would include all areas identified from the
screening runs.
12-10
-------�
B. Critical Periods -- The ISCST model is used to define the critical periods. The
only periods that are required to be analyzed are periods when the Project
has a significant impact ("actual" area-of-impact). Therefore, we must
determine the periods when the Project has a significant impact at each of
the critical areas.
C. Analysis of the area near the Project 1979
The first step in determining the maximum concentration near the Project
is to determine the maximum from the Project alone. Obviously, if the
Project (Widget) alone exceeds the increment standard, improvements will
have to be made to the Widget source; these would include cleaner fuel,
better control equipment, taller stack, etc. Next, determine the maximum
from all other sources (Ajax) at the Project. If the sum of Widget and Ajax
does not exceed the increment standard, no additional short-term analyses
are required at Widget. If either Widget alone or Ajax plus Widget exceed
a standard, additional analyses are required for that pollutant and averaging
time.
1. Widget Alone:
Input Data The receptor spacing is determined using the same
methods used in Lesson 8.5. The results of the screening analysis
above indicate that the maximum concentration occurred at a
downwind distance of 0.24 kilometers. The following ring distances
will be used:
Receptors For Widget Analysis
Ring
1
2
3
4
5
6
7
8
9
Factor
1.0
1.3
1.7
2.3
3.0
3.9
5.2
6.8
9.0
Calculated
Distance
(km)
0.240
0.312
0.408
0.552
0.720
0.936
1.248
1.632
2.160
Modeled
Distance
(km)
0.2
0.3
0.4
0,
0,
0.9
1.2
1.6
2.2
,5
,7
A tenth ring distance is selected of 0.1 kilometers.
12-11
-------�
Results From Widget Alone Analysis
(See Table 12.6 For Details)
Location
Averaging Concentration
Period (ug/m3)
2 4 -Hour
Highest
2nd-High
3 -Hour
Highest
2nd-High
95.3
80.2
172.7
153.2
Ring Dist
(km)
0.2
0.2
0.3
0.2
Direction
(deg)
180
180
110
120
Day, Per
8
351
21,2
21,1
2. Ajax at Widget
Input Data ~ A single ring of receptors is place at the distance from
Ajax to Widget. Receptors are placed along the ring from 45 degrees
south of Widget to 45 degrees north of Widget. The receptors are
spaced every 10 degrees.
Averaging
Period
24-Hour
Highest
3-Hour
Highest
Results of Ajax at Widget Analysis
(See Table 12.7 For Details)
------ Location -
Concentration Ring Dist Direction
(ug/mj)
22.2
80.4
(Km)
4.8
4.8
(deg)
100
80
Day,Period
359
187,1
Summary of Preliminary Results at Widget
Averaging
Period
24-Hour
3-Hour
Concentration, ug/m3
Widget Ajax Total
80.2
153.2
22.2
80.4
102.4
233.6
12-12
-------�
Results ~ The above table shows the sum of the highest 2nd-high
from Widget and the highest from Ajax at Widget for both the 24-
hour and 3-hour periods. These totals are a conservative estimate
(upper bound) of the combined impacts from Widget and Ajax. The
combined 24-hour impact exceeds the 24-hour increment standard.
Therefore, additional refinement in the analysis is required for 24-
hour impacts. The combined 3-hour impact is much less than the 3-
hour increment standard. Therefore, no additional analysis is required
for the 3-hour averaging period.
3. Additional 24-hour analyses ~ 1979
Even though the sum of Widget and Ajax exceeds the 24-hour
increment standard, these maxima do not occur on the same day (day
351 verses day 359). We will make additional runs using both Ajax
and Widget to determine their combined maximum.
Receptors. The maximum combined impacts from Widget and Ajax
will occur when the wind blows from Ajax toward Widget. Therefore,
receptors are placed downwind of Widget. The direction from Ajax
to Widget is 113 degrees from north. To be consistent with the
receptor placement used in the "Widget alone" case, polar receptors
will be used. Using the Widget location as the center of our polar
grid places Ajax at -4.5 kilometers east and 1.9 kilometers north.
Results. The 2nd-high 24-hour concentration is 80.2 ug/m3. The
contribution from Ajax to this total is negligible (less then 0.00001).
Table 12.8 shows the combined results.
Comment It is not unusual for the combined maximum value to be
the result of one source dominating.
D. Analysis of the Area near Ajax 1979
The analysis of the area near Ajax is conducted in the same manner as the
analysis of the area near Widget in the previous section. The first step in
determining the maximum concentration near Ajax is to determine the
maxirnums from Ajax alone and Widget alone. If the sum of Widget and
Ajax does not exceed the increment standard, no additional short-term
analyses are required. If either the 3-hour or 24-hour sum exceeds their
respective increment standard, additional analyses are required.
12-13
-------�
1. Ajax Alone
A screening run using PTPLU indicates that the maximum
concentration from Ajax is 322 ug/m3 and occurs under stability class
C at a downwind distance of 0.36 kilometers (see Table 12.9).
Therefore, we will use the following ring distances.
Receptor Locations For Ajax Analysis
Calculated Modeled
Distance Distance
Ring Factor (km) (Ion)
1 1.0 0.360 0.3
2 1.3 0.468 0.4
3 1.7 0.612 0.6
4 2.3 0.828 0.8
5 3.0 1.080 1.0
6 3.9 1.404 1.4
7 5.2 1.872 1.8
8 6.8 2.448 2.4
9 9.0 3.240 3.2
A tenth ring distance is selected of 0.2 kilometers. We are only
interested in concentrations when Widget has a significant impact.
Only receptors placed downwind of Ajax when the wind is blowing
from Widget, need to be considered. (If the sources were close
together, receptors in all directions should be considered.) The line
of interaction between Widget and Ajax is 293 degrees from north
(also 113 degrees from north). Receptors are placed 90 degrees to
either side of the line of interaction, from 200 degrees through 360 to
20 degrees. Note: This technique is only valid for short-term
averages.
12-14
-------�
Results of Ajax Analysis
(See Table 12.10 for details)
Averaging
Period
24-Hour
Highest
2nd-High
3-Hour
Highest
2nd-High
Concentration
(ug/m3)
81.5
74.5
267.7
254.1
Location
Ring Dist Direction
(km) (deg)
0.8
1.0
0.4
0.6
310
300
340
340
Day,Period
303,1
77,1
170,5
97,5
Discussion ~ Ajax alone does not exceed the increment standards.
What would we do if it did? (Determine if Widget has a significant
contribution.)
2. Widget at Ajax:
Input Data A single ring of receptors is place at the distance from
Ajax to Widget. Receptors are placed along the ring from 45 degrees
south of the line of interaction to 45 degrees north. The receptors
are spaced every 10 degrees.
Averaging
Period
24-Hour
Highest
2nd-High
3-Hour
Highest
2nd-High
Results of Widget at Ajax
(See Table 12.11 for details)
Concentration
(ug/m3)
11.7
10.2
38.5
33.6
Location
Ring Dist Direction Day,Period
(km) (deg)
4.8
4.8
4.8
4.8
290
280
290
300
16
25
25,7
79,1
12-15
-------�
Comments ~ The sum of the maximum 3-hour concentrations from
Widget and Ajax is 306.2 ug/m3, which is much less than the 3-hour
increment standard of 512 ug/m3. Therefore, no additional analysis
near Ajax is required for 3-hour averages. The sum of the Ajax'
2nd-high and the highest Widget 24-hour concentrations is 86.2 ug/m3,
which is less than the 24-hour increment standard of 91 ug/m3.
Therefore, no additional analysis is required.
3. Alternate Method (More Refined) - 1979
The more obvious method for calculating the maximum combined
impact from Widget and Ajax at Ajax is to model both Ajax and
Widget in a single model run. The following run will demonstrate
that the above method is, in fact, conservative.
Averaging
Period
24-Hour
Highest
2nd-High
3-Hour
Highest
2nd-High
Results of Combined Analysis at Ajax
(See Table 12.12 for details)
Maximum
Combined
Concentration
(ug/m3)
82.8
78.3
267.7
254.1
Location ~
Ring Dist Direction
(km) (deg)
1,
1.
0.4
0.6
300
300
340
340
Day,Period
76,1
77,1
170,5
97,5
Comparison of Previous Analysis
With Combined Analysis
Averaging
Period
24-Hour
3-Hour
Combined 2nd-High
Concentration
(ug/m3)
78.3
254.1
Sum of
Individual
Runs
(ug/m3)
86.2
306.2
12-16
-------�
Comments -- The above combined run calculated a total 3-hour
concentration of 254.1 ug/m3 compared to the previous value of 306.2
ug/m3. The above 24-hour combined concentration of 78.3 ug/m3 is
less than the previously calculated value of 86.2 ug/m3. Therefore, the
previous method is conservative.
E. Discussion of Results
What would be our next step if a violation was modeled near Ajax?
(Determine the periods when Widget's concentration exceeds the modeling
level-of-significance. All other periods may be ignored. Why? How?)
XIII. Putting It All Together -- 1979
A. Maximum Concentrations from Widget Alone
Results From Widget Alone Analysis
(See Table 12.6 For Details)
Location
Averaging Concentration Ring Dist Direction Day,Period
Period (ug/m3) (km) (deg)
24-Hour
Highest 95.3 0.2 180 8
2nd-High 80.2 0.2 180 351
3-Hour
Highest 172.7 0.3 110 21,2
2nd-High 153.2 0.2 120 21,1
12-17
-------�
B. PSD SO2 Increment Consumption -- The following table includes the "Sum of
Individual Runs" values.
Summary
Increment Analysis
Averaging
Period
Annual
2 4 -Hour
3 -Hour
Class II
Increment
Standard
(ug/m3)
20
91
512
Total <
Increment
Consumption
(ug/m3)
5.4
86.2
306.2
Contribut
From
Widget
(ug/m3)
4.8
11.7
38.5
C. Total Ground-level Impacts (NAAQS)
Summary
NAAQS Analysis
Total Contribution From
Combined Other Monii
Averaging
Period
Annual
2 4 -Hour
3 -Hour
NAAQS
(ug/m3)
80
365
1300
Concentration
(ug/m3)
40.4
133.2
353.2
Widget
(ug/m3)
4.8
11.7
38.5
Sources
(ug/m3)
0.6
74.5
267.7
Data
(ug/m3)
35
47
47
12-18
-------�
D. Discuss Impacts at Class I Areas -- In general, the guideline models can be
used if the Class I area is within 100 kilometers. If greater than 100
kilometers, try modeling at 100 kilometers in the direction of the Class I
area. If the 100 kilometer results are too high, a long-range transport model
will be required. None of the long-range transport models are Guideline
models and, therefore, must be approved by the reviewing agency prior to
use. Additionally, a visibility impact assessment may have to be performed.
E. Presentation of Results ~ Most agencies will require the following information
to be submitted as part of the modeling analysis:
Drawings and Maps. Project location, location of other sources, receptor
locations, fenceline locations, location and size of structures
Tables and Computer Printouts. Tables of results (include reference to
computer printout names), computer printouts
Stack Data. Justification of stack parameters and emission rates
Stack Height/Downwash. GEP stack height analysis, building downwash
parameters
Meteorological Data. Discussion of the selection of representative
meteorological data
Description of the Modeling Methodology. Justification of screening of
sources, receptor placements, treatment of terrain
Summary of Results. Project alone, PSD increment consumption, NAAQS,
Class I Impacts.
12-19
-------�
XIV. Summary
XV. Questions
12-20
-------�
Table 12.1 UIDGET SCREENING (SELECTED PORTIONS)
*** SOURCE DATA ***
T
Y
SOURCE P
NUMBER E
5 0
W
A
K
E
0
NUMBER
PART.
CATS.
0
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND X
*PER METER**2 (METERS)
.16000E+02 .0
BASE
Y ELEV.
(METERS) (METERS)
.0 .0
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
HEIGHT TYPE=1
(METERS) (METERS)
42.67 505.20
EXIT VEL,
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1,2
(METERS)
A. 00
DIAMETER
TYPE=0
(METERS)
1.68
BLDG.
HEIGHT
TYPE=0
(METERS)
23.50
BLDG.
LENGTH
TYPE=0
(METERS)
39.90
BLDG.
WIDTH
TYPE=0
(METERS)
39.90
DAILY:
1-HR/PD
SGROUP*
1
1
1
*** SCREENING RUN - S02
DAILY
ro
M
- X -
1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* ENDING WITH HOUR 1 FOR DAY 1 *
* FROM ALL SOURCES *
* FOR THE DISCRETE RECEPTOR POINTS *
- Y -
CON.
- X
- Y -
CON.
- X -
- Y -
CON.
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
.00000
1.62564
19.26877
50.47194
60.05325
74.98831
CON.
.76426
3.58534
60.37854
122.23620
126.07990
50.93666
CON.
.92994
6.08033
86.46076
132.64480
132.22070
42.06219
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
1.46225
3.38580
21.86781
52.86003
86.31158
CON.
2.97482
10.84044
65.93812
123.39570
126.88030
CON.
4.90174
19.67182
92.03015
132.70950
122.90160
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
1.54149
16.87823
41.14367
55.25743
108.45370
DAILY:
CON.
3.26791
54.78978
95.37054
124.42060
108.77100
DAILY:
CON.
5.46691
80.53178
115.92490
132.65620
97.33639
-------�
Table 12.1 WIDGET SCREENING (SELECTED PORTIONS) (cont.)
- X -
- Y -
NJ
M
CON.
- X -
DAILY:
- Y -
CON.
- X -
- Y -
CON.
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
1 .95793
17.21653
120.98940
125.33840
119.76440
28.99539
CON.
3.90171
32.64368
126.25780
108.48530
101.77730
22.02809
CON.
6.76410
48.22209
121.00070
93.59592
86.94391
17.73803
CON.
11.26808
63.32701
113.53750
81.87093
75.56319
14.84184
CON.
7.84272
19.03911
64.76839
84.28652
87.95734
112.02030
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
13.77748
49.12081
123.57950
124.00590
101.25110
CON.
26.85062
75.38358
126.24460
106.81010
82.66070
CON.
40.92451
92.80493
119.50180
91.90791
69.11651
CON.
55.37922
104.44670
111.19260
80.25612
59.24116
CON.
14.31066
32.26429
67.14744
85.22890
97.36347
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
15.44305
117.70410
127.13230
122.62900
73.26225
DAILY:
CON.
29.69789
125.68520
117.69790
105.13150
57.63701
DAILY:
CON.
44.56002
122.08630
105.36970
90.23540
47.26218
DAILY:
CON.
59.38797
115.61690
94.44577
78.66601
40.00488
DAILY:
CON.
18.07074
62.34859
80.35590
86.15489
107.86800
5
6
7
17
-------�
NJ
U)
- X -
- Y -
CON.
Table 12.1 WIDGET SCREENING (SELECTED PORTIONS) (coot.)
- X - - Y - CON. - X - - Y
DAILY: 18
CON.
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
14.68009
33.28344
89.20888
106.48390
109.27060
110.60690
CON.
24.72536
50.50655
108.77180
121.34010
122.94110
105.68600
CON.
45.99145
80.91433
128.23140
131.23550
130.87360
92.50356
CON.
63.61093
101.19510
132.14180
128.54840
127.02050
80.41696
CON.
84.02512
117.84630
123.36540
113.54710
111.08820
62.57792
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
25.65941
52.01830
91.51786
107.21500
115.54860
CON.
40.17371
72.71526
110.64730
121.77660
125.65450
CON.
67.67825
103.18420
129.02190
131.17330
128.26550
CON.
87.63609
119.19840
132.09240
128.18470
121.52360
CON.
106.43760
126.52720
122.43820
112.93720
103.56240
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
31.80122
86.80478
103.32410
107.92300
120.21700
DAILY:
CON.
48.61487
106.76750
119.33970
122.18860
124.92280
DAILY:
CON.
78.77705
127.30430
131.27800
131.09190
120.69380
DAILY:
CON.
99.28255
132.07900
129.86530
127.80840
110.83980
DAILY:
CON.
116.68070
124.23160
115.94380
112.32380
91.37214
19
20
21
22
-------�
Table 12.1 WIDGET SCREENING (SELECTED PORTIONS) (cont.)
- X -
- Y -
CON.
DAILY: 23
CON.
CON.
NJ
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
91.84505
116.26920
103.71030
91.82705
89.22031
46.39425
CON.
90.56741
109.96830
92.38596
80.64075
78.15330
39.47122
CON.
85.45184
99.41534
78.79514
67.83686
65.58408
32.20834
CON.
34.39468
66.05993
54.92203
55.89505
56.11492
56.72550
CON.
62.53974
108.12050
57.74987
57.94135
58.00126
56.03762
230.0
300.0
440.0
525.0
600.0
X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
108.40360
116.60600
102.41250
91.17178
81.69781
CON.
103.78210
107.48760
91.05991
80.01315
71.09544
CON.
94.94899
94.76617
77.52441
67.26665
59.28542
CON.
58.97193
53.52485
55.02858
55.94995
56.77752
CON.
98.32583
70.53090
57.76374
57.95582
58.20726
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
115.90640
104.99040
94.46650
90.51878
70.45395
DAILY:
CON.
109.90900
93.70864
83.18604
79.38931
60.80179
DAILY:
CON.
99.61336
80.07383
70.16287
66.70111
50.29717
DAILY:
CON.
69.05143
54.81578
55.67628
56.00486
57.87062
DAILY:
CON.
112.50100
57.73799
57.88696
57.97065
58.60061
24
25
40
41
-------�
V
K)
Ul
- X -
- Y -
CON.
Table 12.1 WIDGET SCREENING (SELECTED PORTIONS) (coot.)
X - - Y - CON. - X - - Y
DAILY: 42
CON.
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
90.83111
145.11820
58.89772
58.45059
58.38186
54.50101
CON.
135.63770
194.20230
79.78551
59.29253
57.08855
50.71189
CON.
162.28490
216.26450
97.33173
74.62057
70.77739
46.97659
CON.
88.92373
155.07770
102.97090
95.09925
93.57502
72.08595
CON.
138.64280
219.78600
103.27170
94.60361
92.94032
69.82106
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
133.91110
98.39034
58.83502
58.43253
58.22401
CON.
182.86950
138.96140
76.97701
58.41163
56.41893
CON.
206.28900
160.01210
94.26006
73.62690
61.06202
CON.
142.37450
117.85220
102.00690
94.71122
89.41936
CON.
205.13080
144.05570
102.20250
94.17973
88.42655
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
150.44730
58.96416
58.52919
58.41507
58.06989
DAILY:
CON.
200.33810
82.76357
63.04363
57.55194
55.50911
DAILY:
CON.
222.42310
100.57650
78.83391
72.65560
52.40206
DAILY:
CON.
161.95820
103.95910
96.70004
94.32780
83.65893
DAILY:
CON.
228.37000
104.37040
96.35543
93.76129
82.21290
43
44
45
46
-------�
Table 12.1 WIDGET SCREENING (SELECTED PORTIONS) (cont.)
M
- X -
- Y -
CON.
DAILY: 47
CON.
CON.
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
- X -
100.0
240.0
430.0
520.0
540.0
1000.0
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
.0
180.09900
265.72210
101.62680
92.52399
90.78905
66.93432
CON.
232.68540
310.92310
125.29710
90.43491
85.05360
61 .04830
CON.
255.04700
319.75620
140.69810
105.23000
99.19338
55.79733
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
- X -
230.0
300.0
440.0
525.0
600.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
250.98830
181.25550
100.49780
92.08153
86.09719
CON.
298.34110
223.10570
120.54680
88.92727
80.28127
CON.
309.79960
236.38070
135.92430
103.67000
83.90652
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
- X -
235.0
420.0
500.0
530.0
700.0
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
- Y -
.0
.0
.0
.0
.0
275.12330
102.78860
94.35506
91.64489
79.67175
DAILY: 48
CON.
320.50510
130.32350
96.84784
87.45547
73.79379
DAILY: 49
CON.
328.76460
145.73210
111.83820
102.14450
68.16968
-------�
Table 12.2 RADIUS-OF-IMPACT -- COARSE GRID (SELECTED PORTIONS)
*** SOURCE DATA ***
EMISSION RATE TEMP.
TYPE=0,1 TYPE=0
T W GRAMS/SECOND (DEG.K);
Y A NUMBER TYPE=2 BASE VERT. DIM
SOURCE P K PART. GRAMS/SECOND X Y ELEV. HEIGHT TYPE=1
NUMBER E E CATS. *PER METER**2 (METERS) (METERS) (METERS) (METERS) (METERS)
1001 00 0 .16000E+02
* CALM HOURS (=1) FOR DAY 2 *
* CALM HOURS (=1) FOR DAY 3 *
* CALM HOURS (=1) FOR DAY 4 *
* CALM HOURS (=1) FOR DAY 359 *
* CALM HOURS (=1) FOR DAY 360 *
* CALM HOURS (=1) FOR DAY 361 *
* CALM HOURS (=1) FOR DAY 362 *
* CALM HOURS (=1) FOR DAY 363 *
* CALM HOURS (=1) FOR DAY 364 *
0
0
0
0
1
1
0
0
0
0
0
1
0
1
0
1
0
0
.0
0
1
0
0
0
1
1
0
0
0
1
1
0
1
1
1
0
0
0
1
0
0
0
1
1
0
0
.
0
1
0
0
1
1
0
0
0
0
0
1
0
0
1
1
0
0
0
0
1
0
0
1
1
0
0
0
.0
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
0
42
0
0
0
0
0
0
0
0
0
.67
0
0
0
0
0
0
0
1
0
0
1
0
0
0
0
0
0
0
505
0
1
0
0
0
0
0
0
0
.20
0
1
0
0
0
0
0
0
0
EXIT VEL.
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1,2
(METERS)
DIAMETER
TYPE=0
(METERS)
4.00
0
1
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
1
0
1
1
0
0
0
0
0
1
0
1
1
0
0
0
0
1.68
1
1
0
1
1
0
0
0
0
1
1
0
1
1
0
0
0
0
BLDG. BLDG. BLDG.
HEIGHT LENGTH WIDTH
TYPE=0 TYPE=0 TYPE=0
(METERS) (METERS) (METERS)
23.50 39.90 39.90
1
1
0
1
1
1
1
0
1
0
0
0
0
1
0
0
0
0
-------�
Table 12.2 RADIUS-OP-IMPACT -- COARSE GRU> "ELECTED PORTIONS) (cont.)
LESSON 12 COARSE-GRID R-OF-I
'N'-DAY
365 DAYS
SGROUP# 1
* 365-DAY AVERAGE CONCENTRATION MICROGRAHS/CUB1C METER
M
M
CO
* MAXIMUM VALUE EQUALS
* FROM ALl SOURCES *
* FOR THE RECEPTOR GRID *
1.17754 AND OCCURRED AT ( 5000.0,
300.0)
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170. 0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
5000.0
.62791
.60666
.53874
.55114
.74612
1.01084
1.17754
.78464
.66439
.70940
.55485
.67137
.77330
.84067
.77035
.69397
.60510
.70055
.87847
.59953
.44354
.45186
.40472
.34533
.28502
.26988
.24957
.35363
.27722
.24647
.31060
.34388
.32001
.27716
.25728
.32309
10000.0
.28457
.27756
.23901
.23435
.33346
.46176
.55686
.36361
.31852
.33542
.25633
.32363
.38445
.43906
.38756
.35345
.29100
;33511
.41129
.27297
.19520
.21324
.17725
.14625
.11970
.11650
.10845
.16617
.13570
.11547
.14610
.15654
.13988
.12079
.10667
.13537
20000.0
.12341
.12177
.10302
.09571
.14187
.19906
.24767
.15978
.14615
.15162
.11343
.14981
.17980
.21494
.18296
.16901
.13220
.15292
.18399
.11958
.08293
.09691
.07542
.06072
.05060
.04933
.04645
.07707
.06396
.05190
.06600
.06804
.05903
.05139
.04414
.05579
RANGE
30000.0
.07542
.07484
.06301
.05655
.08555
.12083
.15324
.09841
.09217
.09490
.07021
.09504
.11412
.13969
.11649
.10810
.08233
.09611
.11432
.07360
.05012
.06069
.04573
.03649
.03102
.02995
.02837
.04922
.04081
.03216
.04118
.04154
.03557
.03128
.02661
.03339
(METERS)
40000.0
.05333
.05306
.04465
.03915
.05994
.08504
.10928
.07007
.06653
.06827
.05016
.06890
.08259
.10247
.08437
.07843
.05877
.06921
.08168
.05235
.03520
.04354
.03220
.02561
.02217
.02117
.02010
.03587
.02960
.02290
.02946
.02934
.02495
.02212
.01871
.02333
-------�
Table 12.2 RADIUS-OF-IMPACT -- COARSE GRID (SELECTED PORTIONS) (cont.)
*** LESSON 12 COARSE-GRID R-OF-I
HIGH
3-HR
SGROUPtf 1
HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
K)
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
25.
27.
19.
21.
23.
28.
36.
37.
29.
28.
20.
30.
33.
33.
26.
24.
22.
24.
30.
30.
24.
22.
17.
25.
27.
31.
20.
25.
23.
16.
25.
23.
24.
20.
17.
24.
5000.0
02826 (157,
19949C(124,
54197 (281,
15994 (354,
76820 (357,
34989 (13,
52653 (300,
27153 ( 25,
60748 ( 25,
74779 ( 59,
95306 (287,
22080 (362,
39513 (260,
91537 (290,
18865 (117,
68735 ( 92,
94985 (117,
32383 (198,
46453 (364,
30823 ( 38,
70716 (277,
24669 (175,
68180 ( 21,
32040 ( 23,
71081 ( 21,
87993 ( 21,
89168 (359,
93428C( 60,
20270 (187,
59274C(182,
19147 (183,
85580 (192,
21031 ( 45,
74800 ( 92,
05003 ( 85,
29280 (156,
8)
7)
3)
6)
2)
3)
7)
7)
8)
1)
8)
6)
1)
1)
1)
8)
6)
8)
3)
7)
6)
7)
7)
5)
1)
2)
2)
1)
1)
2)
1)
7)
1)
3)
6)
7)
10000.0
12.77392 (169,
15.40160C(124,
13.21523 (281,
9.70292 (108,
11.32878C(149,
15.56471 (293,
24.78185 (300,
20.68660 ( 25,
17.23581 ( 18,
16.20910 ( 59,
14.45327 (287,
17.12063 (362,
18.05536C(361,
24.68116 (290,
14.58312 (342,
16.90045 (311,
14.47440 (162,
14.52271 (198,
16.79670 (306,
14.91533 ( 38,
12.96803 (197,
11.91893C(277,
11.26260C( 64,
13.96537 ( 23,
14.84871 ( 21,
16.79925 ( 21,
14.42371 (359,
14.59739C( 60,
14.71010 (187,
10.64447C(182,
16.36222 (183,
16.32748 (192,
10.66024 (187,
11.67175 (209,
11.83858 (153,
14.39657 (156,
RANGE (METERS)
20000.0
8)
7)
3)
7)
1)
1)
7)
7)
6)
1)
8)
6)
8)
1)
8)
2)
8)
8)
8)
7)
2)
7)
2)
5)
1)
2)
2)
1)
1)
2)
1)
7)
7)
8)
8)
7)
7.19306 (301,
9.48654C(217,
7.19041 ( 96,
5.05864 (108,
7.19467C(149,
9.26128 (293,
14.19471 (300,
11.08521 ( 25,
9.09371 ( 18,
7.98971 ( 88,
8.47733 (287,
9.46498 (301,
10.24000C(361,
14.58843 (290,
8.37831 (342,
10.21338 (311,
8.24314 (162,
7.27066 (198,
10.14327 (306,
7.20126 (161,
7.52435C(311,
7.19094C(134,
7.16447C( 64,
7.49385 ( 23,
7.98393 ( 21,
8.86293 ( 21,
8.46502 (359,
8.58224 (155,
7.98551 (187,
5.63532C(182,
9.01281 (183,
9.55587 (192,
5.64014 (187,
7.20977 (211,
7.53132 (153,
7.98550 (174,
8)
8)
7)
7)
1)
1)
7)
7)
6)
2)
8)
2)
8)
1)
8)
2)
8)
8)
8)
2)
7)
7)
2)
5)
1)
2)
2)
7)
1)
2)
1)
7)
7)
7)
8)
8)
30000.0
5.26629 (301,
7.11730C(217,
5.26383 ( 96,
3.53205 ( 86,
5.26752C(149,
6.57750 (293,
9.81234 (300,
7.70093 ( 25,
6.35972 ( 25,
5.48459 ( 88,
5.93016 (287,
7.10055 (301,
7.08236C(361,
10.17307 (290,
5.80304 (342,
7.24560 (311,
5.74518 (162,
5.27143 (252,
7.25452 (306,
5.27143 (161,
5.47716C(311,
5.26530C(134,
5.24958C( 64,
5.27224 (197,
5.56608 ( 21,
6.10065 ( 21,
5.92320 (359,
6.08086 (155,
5.38142 (187,
3.71431C(182,
6.11032 (183,
6.73038 (192,
3.71669 (187,
5.27647 (211,
5.48475 (153,
5.56684 (174,
8)
8)
7)
7)
1)
1)
7)
7)
8)
2)
8)
2)
8)
1)
8)
2)
8)
8)
8)
2)
7)
7)
2)
1)
1)
2)
2)
7)
1)
2)
1)
7)
7)
7)
8)
8)
40000.0
4.14605 (301,
5.682260(217,
4.14408 ( 96,
2.73892 ( 86,
4.146960(149,
5.08951 (293,
7.42988 (300,
5.95162 ( 25,
4.94646 ( 25,
4.15074 (240,
4.52245 (287,
5.66926 (301,
5.38716C(361,
7.73551 (290,
4.40134 (342,
5.67163 (150,
4.39558 (162,
4.14962 (252,
5.63591 (306,
4.14962 (161,
4.275160(311,
4.145440(134,
4.13472C( 64,
4.15018 (197,
4.31378 ( 21,
4.68163 ( 21,
4.51786 (359,
4.69379 (155,
4.01388 (187,
2.74121 (277,
4.57612 (183,
5.17532 (192,
2.73354 (187,
4.15307 (211,
4.28190 (153,
4.23716 (174,
8)
8)
7)
7)
1)
1)
7)
7)
8)
7)
8)
2)
8)
1)
8)
8)
8)
8)
8)
2)
7)
7)
2)
1)
1)
2)
2)
7)
1)
1)
1)
7)
7)
7)
8)
8)
-------�
Table 12.2 RADIUS-OF-IMPACT -- COURSE GRID (SELECTED PORTIONS) (cont.)
LESSON 12 COARSE-GRID R-OF-I
HIGH
24-HR
SGROUP# 1
NJ
OJ
O
* HIGHbot 24-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 11.88860 AND OCCURRED AT ( 5000.0, 180.0) *
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
5000.0
7.47801C(313,
5
4
6
6
9
9
11
10
9
5
9
8
7
7
7
8
8
11
7
6
5
4
6
7
5
6
5
6
5
5
4
6
4
5
6
.54949 ( 91,
.98276C(295,
.03933 (123,
.95780 (294,
.63577C( 52,
.63493 (345,
.16251 ( 16,
.55204 ( 26.
.82207C( 18,
.62161 ( 36,
.28897C(362,
.62679C(337,
.37024C(290,
.94649C(136,
.48572 (269,
.39448 (162,
.36968C(198,
.88860 (315,
.78262 (305,
.51679C(277,
.58650 ( 14,
.90072 ( 27,
.24918 ( 27,
.29021C(327,
.98588C( 21,
.83159C{359,
.89442C(223,
.26970C( 66,
.24191C(329,
.13761C(183,
.63233C(279,
.29188 ( 45,
.31498 ( 46,
.91139C( 72,
.996150(156,
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)
10000.0
3.42412C(313,
2.54711 ( 91,
3.20250C(281,
2.45874C( 17,
2.90259 (294,
4.25065C( 52,
4.46325C(300,
4.74180 ( 16,
5.60383C( 25,
5.48080C( 18,
2.93315C(191,
4.64820C(362,
4.84490C(337,
4.51049C(290,
4.43388C(136,
4.30852C(311,
4.16701 (162,
4.43673CO98,
6.05268 (315,
4.17489 (305,
3.28819C(277,
2.92328C(277,
2.32172C( 64,
2.42812 ( 27,
2.99624C(327,
3.10425C( 21,
4.18922C(359,
2.82995C(223,
2.99087C( 66,
2.28498C(329,
3.05086C(183,
2.50196C(185,
2.60841C(187,
2.41210C(180,
2.30646C( 72,
4.14710C(156,
RANGE (METERS)
20000.0
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
1
1
2
2
3
2
1
2
2
2
2
2
1
2
2
2
1
1
1
1
1
2
1
1
1
1
1
1
1
2
.73412C(301,
.58109C(217,
.83084C(281,
.18668C( 17,
.27411 (169,
.94682 (293,
.50976C(300,
.08855C( 15,
.01479C( 25,
.87145C( 18,
.49060C(191,
.28806C(362,
.60972C(337,
.46475C(290,
.30048C(136,
.44139C(311,
.97397 (162,
.07079C(198,
.88088 (315,
.12757 (305,
.66140C(277,
.55553C(277,
.41331C( 64,
.95375 ( 23,
.25923C( 84,
.61169C( 21,
. 2871 9C( 359,
.52325C(359,
.52416C(213,
.95744C(181,
.59663C(183,
.27069C(185,
.22437C(187,
.20133C(180,
.00541C(153,
.13468C(156,
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)
30000.0
1.14903CC301, 1)
1.18622CC217, 1)
1.25319C(281, 1)
.78817C( 17, 1)
.89401 (169, 1)
1.25095 (293, 1)
1.71770C(300, 1)
1.45063C( 15, 1)
2.10150C( 25, 1)
1.94945C( 18, 1)
.99064C(191, 1)
1.50851C(362, 1)
1.78909C(337, 1)
1.75498C(167, 1)
1.53225C(136, 1)
1.67799C(311, 1)
1.26941 (162, 1)
1.28266C(198, 1)
1.84335 (315, 1)
1.41935 (305, 1)
1.11862C(277, 1)
1.03115C(277, 1)
1.00777C( 64, 1)
.66327 (197, 1)
.84775C( 84, 1)
1.09859C( 21, 1)
1.55296C(359, 1)
1.081180(359, 1)
1.04454C(213, 1)
.60618C( 66, 1)
1.12236C(280, 1)
.87832C(192, 1)
.77004CC187, 1)
.77249C(180, 1)
.72591C(153, 1)
1.40602C(156, 1)
40000.0
.85387C(301,
.947050(217,
.941980(281,
.59128C( 17,
.68550 (169,
.920240(142,
1.291810(300,
1.10643C( 15,
1.62918C( 25,
1.4787nc( 18,
.740210(191,
1.120290(362,
1.360490(337,
1.381730(167,
1.139000(136,
1.265670(311,
.92791 (162,
.904780(198,
1.34360 (315,
1.06248 (305,
.84686C(277,
.757880(277,
.77787C( 64,
.52113 (197,
.64568C( 84,
. 836930 ( 21,
1.16478C(359,
.836840(359,
.789210(213,
.44592C( 66,
.860790(280,
.675240(192,
.552420(187,
.566460(180,
.564440(153,
1.035300(156,
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)
-------�
H
to
Co
Table 12.3 RADIUS-OF-IMPACT FINE GRID (SELECTED PORTIONS)
ISCST (DATED 88207)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 1. GUIDELINE MODELS
IN UNAMAP (VERSION 6) JUNE 88.
SOURCE: UNAMAP FILE ON EPA'S UNIVAC AT RTP, NC.
NOTE THAT THE BUILDING DIMENSIONS ON CARD 6,V FOR SOURCE NO. 1001 DO NOT MEET THE SCHULMAN-SCIRE CRITERIA.
THEREFORE, DIRECTION SPECIFIC BUILDING DIMENSIONS WILL NOT BE USED BY THE MODEL.
*** METEOROLOGICAL DAYS TO BE PROCESSED ***
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
1111
1111
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
«
4
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
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
*** RANGES OF POLAR GRID SYSTEM ***
(METERS)
6000.0, 7000.0, 8000.0, 12000.0, UOOO.O,
*** RADIAL ANGLES OF POLAR GRID SYSTEM ***
(DEGREES)
10.0,
110.0,
210.0,
310.0,
20.0,
120.0,
220.0,
320.0,
30.0,
130.0,
230.0,
330.0,
40.0;
140.0,
240.0,
340.0,
50.0,
150.0,
250.0,
350.0,
60.0,
160.0,
260.0,
360.0,
70.0,
170.0,
270.0,
80.0,
180.0,
280.0,
90.0,
190.0,
290.0,
100.0,
200.0,
300.0,
T W
Y A NUMBER
SOURCE P K PART.
*** LESSON 12 FINE-GRID R-OF-I
*** SOURCE DATA ***
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND
BASE
ELEV.
HEIGHT
TEMP.
TYPE=0
(DEG.K);
VERT.DIM
TYPE=1
NUMBER E E CATS. *PER METER**2 (METERS) (METERS) (METERS) (METERS) (METERS)
EXIT VEL.
TYPE=0
(H/SEC); BLDG. BLDG. BLDG.
HORZ.DIM DIAMETER HEIGHT LENGTH WIDTH
TYPE=1,2 TYPE=0 TYPE=0 TYPE=0 TYPE=0
(METERS) (METERS) (METERS) (METERS) (METERS)
1001 0 0
.16000E+02
.0
.0
.0
42.67 505.20
4.00
1.68 23.50 39.90 39.90
-------�
Table 12.3 RADIUS-OF-IMPACT FINE GRID (SELECTED PORTIONS) (cent.)
LESSON 12 FINE-GRID R-OF-I
'N'-OAY
365 DAYS
SGROUPtf 1
* 365-DAY AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
H
KJ
U)
N)
* MAXIMUM VALUE EQUALS
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
.97453 AND OCCURRED AT ( 6000.0, 300.0) *
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
6000.0
.51245
.49610
.43648
.44255
.60729
.82858
.97453
.64569
.55039
.58587
.45522
.55622
.64719
.71221
.64653
.58396
.50168
.58018
.72321
.48973
.35901
.37186
.32702
.27644
.22709
.21702
.20076
.29003
.23027
.20257
.25569
.28100
.25868
.22337
.20422
.25749
7000.0
.43010
.41721
.36443
.36617
.50820
.69701
.82621
.54489
.46780
.49646
.38376
.47325
.55484
.61729
.55566
.50320
.42676
.49295
.61142
.41137
.29925
.31477
.27227
.22838
.18715
.18010
.16677
.24513
.19655
.17127
.21641
.23609
.21535
.18574
.16781
.21218
8000.0
.36867
.35833
.31121
.30995
.43432
.59810
.71365
.46885
.40543
.42904
.33023
.41074
.48430
.54412
.48614
.44137
.37010
.42699
.52739
.35294
.25506
.27207
.23185
.19322
.15818
.15302
.14190
.21183
.17117
.14786
.18694
.20255
.18330
.15808
.14148
.17924
RANGE
12000.0
.22941
.22449
.19216
.18579
.26757
.37201
.45248
.29418
.26071
.27338
.20768
.26556
.31695
.36682
.32059
.29354
.23810
.27396
.33446
.22061
.15641
.17426
.14196
.11622
.09535
.09309
.08698
.13619
.11197
.09408
.11907
.12632
.11180
.09671
.08464
.10744
(METERS)
14000.0
.19004
.18633
.15892
.15210
.22077
.30782
.37673
.24449
.21855
.22855
.17286
.22295
.26653
.31108
.26993
.24775
.19897
.22932
.27871
.18305
.12904
.14550
.11712
.09543
.07861
.07679
.07179
.11433
.09434
.07857
.09954
.10470
.09222
.07977
.06935
.08798
-------�
Table 12.3 RADIUS-OF-IMPACT FINE GRID (SELECTED PORTIONS) (cont.)
*** LESSON 12 FINE-GRID R-OF-I
HIGH
3-HR
SGROUPff 1
to
U)
U)
* HIGHEST 3-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 33.49711 AND OCCURRED AT ( 6000.0, 300.0) *
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
6000.0
20.80358 (157,
23.99607C(124,
18.13773 (281,
17.23121 (354,
18.99164 (357,
23.15854 ( 13,
33.49711 (300,
32.20634 ( 25,
25.85778 ( 18,
25.26634 ( 59,
19.23519 (287,
26.27789 (362,
27.58066 (260,
31.86351 (290,
21.73787 (117,
21.77288 (311,
20.06381 (162.
21.73180 (198.
25.25579 (364,
25.72853 ( 38,
20.84620 (277,
17.78514 (175,
14.87038 ( 21,
21.87401 ( 23,
23.52510 ( 21,
26.93387 ( 21,
19.18349 (359,
22.85673C( 60,
20.90671 (187,
15.14355C(182,
22.88616 (183,
21.89142 (192,
19.53340 ( 45,
17.14059 ( 92,
14.47540 (153,
21.64256 (156,
8)
7)
3)
6)
2)
3)
7)
7)
6)
1)
8)
6)
1)
1)
1)
2)
8)
8)
3)
7)
6)
7)
7)
5)
1)
2)
2)
1)
1)
2)
1)
7)
1)
3)
8)
7)
7000.0
17.65630 (157.
21.27018C(124,
16.76655 (281,
14.35024 (354,
15.60090 (357.
19.31166 ( 13,
30.87207 (300.
28.29855 ( 25,
23.07774 ( 18,
22.36497 ( 59,
17.78322 (287,
23.22292 (362,
23.19349 (260,
29.88144 (290,
18.44067 (117,
20.33448 (311,
18.31445 (162,
19.49829 (198,
21.29491 (364,
22.08291 ( 38,
18.04617 (277,
15.15362 (365,
13.18391C( 64,
19.17549 ( 23,
20.47391 ( 21,
23.35622 ( 21,
17.73899 (359,
20.23634C( 60,
18.97649 (187,
T3.81797C(182,
20.89683 (183,
20.20323 (192,
16.14344 ( 45,
14.96050 (209,
13.73240 (153,
19.37952 (156,
RANGE (METERS)
8000.0
8)
7)
3)
6)
2)
3)
7)
7)
6)
1)
8)
6)
1)
1)
1)
2)
8)
8)
3)
7)
6)
7)
2)
5)
1)
2)
2)
1)
1)
2)
1)
7)
1)
8)
8)
7)
15.23660 (157,
18.97208C(124,
15.48887 (281,
12.17362 (354,
13.74934 ( 89,
17.79843 (293,
28.58060 (300.
25.21247 ( 25,
20.78593 ( 18,
19.94693 ( 59,
16.52813 (287,
20.78279 (362,
20.97684C(361,
28.02380 (290,
16.78867 (342,
19.06243 (311,
16.83398 (162,
17.58475 (198,
19.07630 (306,
19.16269 ( 38,
15.92397 (277,
13.70502C(277,
12.48665C( 64,
17.04930 ( 23,
18.15379 ( 21,
20.64443 ( 21,
16.48983 (359,
18.02723C( 60,
17.33576 (187,
12.63587C(182,
19.17470 (183,
18.73877 (192,
13.60407 ( 45,
13.68476 (209,
13.05069 (153,
17.45329 (156,
8)
7)
3)
6)
7)
1)
7)
7)
6)
1)
8)
6)
8)
1)
8)
2)
8)
8)
8)
7)
6)
7)
2)
5)
1)
2)
2)
1)
1)
2)
1)
7)
1)
8)
8)
7)
11.
13.
11.
8.
10.
13.
21.
17.
14.
13.
12.
14.
12000.0
03268 (169,
11204C(217,
44961 (281,
29995 (108,
28270C(149,
80084 (293,
80150 (300,
56448 ( 25,
68694 ( 18,
52934 ( 59,
80196 (287,
53603 (362,
15.79607C(361,
21.
12.
15.
12.
12.
14.
11.
11.
10.
10.
11.
12.
14.
12.
12.
12.
9.
14.
14.
9.
10.
10.
12.
96329 (290,
84765 (342,
13035 (311,
66645 (162,
26582 (198,
97050 (306,
99951 ( 38,
02452 (197,
50205C(277,
22857C( 64,
85264 ( 23,
61065 ( 21,
19645 ( 21,
77849 (359,
87488 (155,
72152 (187,
13885C(182,
20743 (183,
43951 (192,
15055 (187,
30984 (211,
79396 (153,
15228 (156,
8)
8)
3)
7)
1)
1)
7)
7)
6)
1)
8)
6)
8)
1)
8)
2)
8)
8)
8)
7)
2)
7)
2)
5)
1)
2)
2)
7)
1)
2)
1)
7)
7)
7)
8)
7)
14000.0
9.60286 (169,
11.73655C(217,
10.03368 (281,
7.20234 (108,
9.14802C(149,
12.18331 (293,
19.08140 (300,
15.28687 ( 25,
12.76033 ( 18,
11.52244 ( 59,
11.24372 (287,
12.60894 (362,
13.84087C(361,
19.37575 (290,
11.22383 (342,
13.33588 (311,
11.08152 (162,
10.54154 (198,
13.23904 (306,
9.91066 ( 38,
9.61556 (197.
9.16331C(277,
9.10163C( 64,
10.31894 ( 23,
10.98377 ( 21,
12.31415 ( 21,
11.22391 (359,
11.31043 (155,
11.03575 (187,
7.95647C(182,
12.38174 (183,
12.67425 (192,
7.96544 (187,
9.17126 (211,
9.55992 (153,
10.63268 (174,
8)
8)
3)
7)
1)
1)
7)
7)
6)
1)
8)
6)
8)
1)
8)
2)
8)
8)
8)
7)
2)
7)
2)
5)
1)
2)
2)
7)
1)
2)
1)
7)
7)
7)
8)
8)
-------�
Table 12.3 RADIUS-OF-IMPACT FINE GRID (SELECTED PORTIONS) (cont.)
LESSON 12 FINE-GRID R-OF-I
HIGH
24-HR
SGROUP* 1
U)
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 10.03077 AND OCCURRED AT ( 6000.0, 180.0) *
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
6
4
4
4
5
7
7
9
8
8
4
7
7
6
6
6
7
7
10
6
5
4
4
4
5
5
6
4
5
4
4
3
4
3
4
6
6000.0
.141870(313,
.56909 ( 91,
.25776C(281.
.81278 (123,
.57978 (294,
.88455C( 52,
.74978 (345,
.02083 ( 16,
.91022 ( 26,
.52428C( 18,
.62716C(191,
.77173C(362,
.397290(337.
.53474C(290.
.835520(136,
.37356 (269.
.01036 (162,
.19474C(198.
.03077 (315.
.63579 (305,
.44796C(277.
.40666 ( 14,
.00721 ( 27,
.90728 ( 27,
.833910(327.
.03591C( 21.
.056040(359,
. 86371 C( 223,
.18561C( 66,
.268320(329,
.531650(183,
,94896C(185,
.99019 ( 45,
.535860(180,
.65781C( 72,
.198430(156,
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)
7000.0
5.17005C(313,
3.85145 ( 91,
3.959680(281.
3.94397 (123.
4.60046 (294,
6.59198C( 52,
6.39803 (345,
7.46767 ( 16,
7.69152 ( 26,
7.50218C( 18,
4.05533C(191.
6.666250(362,
6.508460(337,
5.87859C(290,
6.010630(136.
5.52054 (269,
6.00340 (162,
6.27473C(198,
8.64400 (315,
5.78318 (305,
4.67831C(277,
3.881000(272,
3.38176 (197,
3.97734 ( 27,
4.79456C(327,
4.35147C( 21,
5.446160(359,
4.134410(223,
4.40161C( 66,
3.556260(329.
4.05194C(183,
3.449520(185,
4.06948 ( 45.
3.200210(180,
3.78213C( 72,
5.54293C(156,
RANGE (METERS)
8000.0
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)
4.43647C(313,
3.30619 ( 91.
3.685560(281,
3.30381 (123,
3.87554 (294,
5.60893C( 52,
5.39150 (345,
6.30619 ( 16,
6.81451C( 25.
6.68747C( 18,
3.60349C(191.
5.828000(362,
5.82907C(337,
5.34392C(290,
5.36933C(136,
4.989140(311,
5.23826 (162,
5.536980(198,
7.57359 (315.
5.12377 (305,
4. 09901 C( 277,
3.481440(272,
2.92659 (197,
3.30444 ( 27,
4.02472C(327,
3.83445C( 21,
4.950000(359,
3.58949C(223,
3.81038C( 66,
3.019080(329,
3.658580(183,
3.063320(185,
3.39246 ( 45,
2.90206CO80,
3.14404C( 72,
4.997220(156,
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)
12000.0
2.874330(301,
2.185340(217,
2.818800(281,
2.02480C( 17,
2.27667 (294,
3.37900 (293,
3.907190(300.
3.74003 ( 16.
4.76289C( 25,
4.64014C( 18,
2.467980(191,
3.860390(362.
4.152290(337,
3.901140(290,
3.776060(136,
3.77882C(311,
3.44250 (162,
3.668720(198,
5.01380 (315,
3.51783 (305,
2.746140(277,
2.516900(277,
2.08454C( 64,
1.88111 ( 27,
2.336840(327,
2.61242C( 21,
3.624510(359,
2.320060(223,
2.44397C( 66,
1.807950(329,
2.605620(183,
2.110660(185,
2.151710(187,
2.040020(180,
1. 778870 ( 72,
3.525520(156,
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)
14000.0
2.456480(301,
1.95609C(217,
2.477990(281,
1.71947C( 17,
1.84746 (294,
2.85202 (293,
3.404410(300,
3.06036 ( 16,
4.14B48C( 25,
4.02103C( 18,
2.124900(191,
3.297350(362,
3.596420(337,
3.381860(290,
3.230480(136,
3.299280(311,
2.90214 (162.
3.103270(198,
4.23490 (315.
3.01577 (305,
2.358840(277,
2.172300(277,
1.83709C( 64,
1.51366 ( 27,
1.886890(327.
2.25802C( 21,
3.139470(359,
2.009780(359,
2.077280(213,
1.473890(329.
2.24671C(183,
1.806410(185,
1.821060(187.
1.746920(180.
1.42349C( 72,
3.031540(156.
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)
-------�
Table 12.4 ACTUAL AREA OF IMPACT -- UIOGET (SELECTED PORTIONS)
fSCLT (DATED 88167)
AN AIR QUALITY DISPERSION MODEL
SECTION 1. GUIDELINE MODELS
IN UNAMAP (VERSION 6) JAN. 88.
IN
*** ISCLT ************* LESSON 12 COARSE-GRID -- 1979
********
PAGE
- ISCLT INPUT DATA -
DISTANCE X AXIS GRID SYSTEM POINTS (METERS )= 65500.00, 66000.00, 66500.00, 67000.00, 67500.00, 68000.00,
68500.00, 69000.00, 69500.00. 70000.00, 70500.00, 71000.00, 71500.00, 72000.00, 72500.00, 73000.00,
73500.00, 74000.00, 74500.00, 75000.00, 75500.00,
DISTANCE Y AXIS GRID SYSTEM POINTS (METERS )= 80000.00. 80500.00, 81000.00, 81500.00, 82000.00, 82500.00,
83000.00, 83500.00, 84000.00, 84500.00, 85000.00, 85500.00, 86000.00, 86500.00, 87000.00, 87500.00,
88000.00,
- AMBIENT AIR TEMPERATURE (DEGREES KELVIN) -
STABILITY STABILITY STABILITY STABILITY STABILITY STABILITY
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
SEASON 1 302.4000 298.7000 296.5000 290.5000 290.4000 288.0000
H
10
u>
en
- MIXING LAYER HEIGHT (METERS) -
SEASON 1
WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED WIND SPEED
CATEGORY 1 CATEGORY 2 CATEGORY 3 CATEGORY 4 CATEGORY 5 CATEGORY 6
STABI LITY CATEGORY 10.110990E+040.120630E+040.120630E+040.120630E+040.120630E+040.120630E+04
STABILITY CATEGORY 20.101130E+040.101190E+040.113990E+040.113990E+040.113990E+040.113990E+04
STABILITY CATEGORY 30.944000E+030.883200E+030.961700E+030.109340E+040.127690E+040.926000E+03
STABILITY CATEGORY 40.713100E+030.730700E+030.773900E+030.824700E+030.841300E+030.636100E+03
STABILITY CATEGORY 50.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+050.1OOOOOE+05
STAB ILITY CATEGORY 60.10OOOOE+050.10OOOOE+050.10OOOOE+050.100000E+050.10OOOOE+050.10OOOOE+05
**** ISCLT ************* LESSON 12 COARSE-GRID -- 1979
********
PAGE
- SOURCE INPUT DATA -
C T SOURCE SOURCE X
A A NUMBER TYPE COORDINATE
R P (M)
D E
Y EMISSION BASE /
COORDINATE HEIGHT ELEV- /
(M) (M) ATION /
(M) /
- SOURCE DETAILS DEPENDING ON TYPE -
X 1001 STACK 73000.00 83000.00 42.67
WARNING - DISTANCE BETWEEN SOURCE 1001 AND POINT
0.00 GAS EXIT TEMP (DEC K)= 505.20, GAS EXIT VEL. (M/SEC)= 4.00,
STACK DIAMETER (M)= 1.680, HEIGHT OF ASSO. BLDG. (M)= 23.50,
ASSO. BLDG. (M)= 39.90, WAKE EFFECTS FLAG = 0
- SOURCE STRENGTHS ( GRAMS PER SEC
SEASON 1 SEASON 2 SEASON 3 SEASON 4
1.40000E+01
X,Y= 73000.00, 83000.00 IS LESS THAN PERMITTED
WIDTH OF
) -
-------�
ISCLT
Table 12.4 ACTUAL AREA OF IMPACT -- WIDGET (SELECTED PORTIONS) (cont.)
****** LESSON 12 COARSE-GRID -- 1979
********
PAGE
) DUE TO SOURCE 1001
K)
d,
cn
** ANNUAL GROUND LEVEL CONCENTRATION < MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
- X AXIS (DISTANCE, METERS) -
65500.000 66000.000 66500.000 67000.000 67500.000 68000.000 68500.000 69000.000 69500.000
Y AXIS (DISTANCE . METERS ) - CONCENTRATION -
88000.000
87500.000
87000.000
86500.000
86000.000
85500.000
85000.000
84500.000
84000.000
83500.000
83000.000
82500.000
82000.000
81500.000
81000.000
80500.000
80000.000
0.385820
0.408607
0.432137
0.456164
0.476049
0.478637
0.478878
0.476580
0.471637
0.464046
0.453916
0.441532
0.427442
0.411977
0.395497
0.378364
0.360921
0.399681
0.425116
0.451601
0.478872
0.506567
0.514985
0.516038
0.514061
0.508893
0.500511
0.489051
0.474215
0.457337
0.438867
O.«n-""!
0.3,. i
0.383208
0.413601
0.442014
0.471886
0.502941
0.5.U770
0.556253
0.558490
0.557084
0.551788
0.542545
0.529521
0.511559
0.491121
0.468839
0.445380
0.421386
0.413023
0.427359
0.459101
0.492840
0.528305
0.565053
0.602419
0.607320
0.606877
0.601640
0.591489
0.576627
0.554610
0.529556
0.502369
0.473980
0.446131
0.446667
0.440667
0.476094
0.514219
0.554814
0.597417
0.641286
0.663886
0.665012
0.660167
0.649119
0.632108
0.604728
0.573583
0.539989
0.505269
0.486077
0.484787
0.453160
0.492609
0.535659
0.582175
0.631736
0.683531
0.729866
0.733504
0.729633
0.717811
0.698313
0.663688
0.624342
0.582248
0.539322
0.532064
0.528119
0.454521
0.508156
0.556640
0.609912
0.667678
0.729138
0.792818
0.814942
0.813047
0.800798
0.778484
0.733822
0.683196
0.629646
0.589839
0.585277
0.577471
0.451541
0.509335
0.576480
0.637305
0.704620
0.777788
0.855234
0.912607
0.913987
0.904277
0.876612
0.820298
0.751202
0.682436
0.656777
0.647051
0.633650
0.443069
0.504431
0.577238
0.663388
0.741548
0.828651
0.924610
1.029341
1.046098
1.036129
1 .007849
0.928158
0.839105
0.756884
0.739925
0.718758
0.697348
70000.000 70500.000
Y AXIS (DISTANCE , METERS )
- GRID SYSTEM RECEPTORS -
- X AXIS (DISTANCE, METERS) -
71000.000 71500.000 72000.000
- CONCENTRATION -
72500.000
73000.000
73500.000
74000.000
88000.000 (
87500.000 (
87000.000 (
86500.000 (
86000.000 (
85500.000 (
85000.000
84500.000
84000.000
83500.000
83000.000
82500.000
82000.000 (
81500.000 (
81000.000 (
80500.000 (
80000.000 (
). 427896 1
). 491711 (
). 5691 26 1
). 663175 (
). 777075 I
). 885969 I
.002463
.128610
.202236
.197900
.167841
.055639
1.932141
). 863973 (
). 841691 I
1.813520 (
1.768915 (
). 404909 (
). 469422 I
). 549449 I
).649372 (
). 779461 (
). 936279 (
.078270
.238710
.404437
.413164
.385054
.219625
.042671
). 996892
). 956042
). 909830 (
1.800932 (
). 385747
). 4361 29
). 515685
1.619153
1.754595
1.928135
.154327
.362946
.600336
.702707
.688157
.427688
.233673
.167236
.090951
1.934197
1.810604
0.439018
0.472492
0.509008
0.568631
0.700919
0.881772
1.137399
1.494685
1.807591
2.089458
2.124853
1.682760
1.501649
1.378920
1.126043
0.941504
0.806989
0.493063
0.539160
0.592432
0.659162
0.730539
0.812061
1.046131
1.436795
2.045908
2.553601
2.804950
2.077358
1.873310
1.414239
1.125267
0.952925
0.907116
0.545489
0.604404
0.676595
0.768413
0.877979
1.019736
1.199337
1.417982
1 .855043
3.054394
3.697898
2.937469
.862297
.590000
.452044
.292208
.147641
0.593660 C
0.664276 0
0.751562 C
0.869317 C
1.015635 (
1.218525 (
1.506259 C
1.940803 (
2.667109 C
3.888414 1
o.oooooo ;
4.759393
3.399256
2.538637
2.007411
1 .647434
1.390361
.489463
.535129
.588256
1.653684
1.723680
1.802195
1.873082
1.887588
1.949119
1.415260
J.307272
.856892
.390634
.308692
.259044
.151424
.040125
0.383910
0.404879
0.423881
0.440361
0.440510
0.412341
0.494881
0.650127
0.867778
0.977223
1.563774
1.097666
1.079881
0.906256
0.768395
0.685335
0.699168
-------�
Table 12.4 ACTUAL AREA OF IMPACT -- HIDGET {SELECTED PORTIONS) (cent.)
**** ISCLT ************* LESSON 12 COARSE-GRID -- 1979 ******** PAGE
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
- X AXIS (DISTANCE, METERS)
74500.000 75000.000 75500.000
Y AXIS (DISTANCE . METERS ) - CONCENTRATION -
) DUE TO SOURCE 1001 (CONT.) **
86000.000
87500.000
87000.000
86500.000
86000.000
85500.000
85000.000
84500.000
84000.000
83500.000
83000.000
82500.000
82000.000
81500.000
81000.000
80500.000
80000.000
0.281893
0.280769
0.270857
0.266366
0.320950
0.392560
0.488738
0.613093
0.669466
0.777247
1.114701
0.811137
0.760777
0.735325
0.651233
0.577960
0.517411
0.187301
0.199688
0.232062
0.273154
0.324925
0.388545
0.466940
0.502941
0.528391
0.660496
0.855504
0.668364
0.552719
0.562855
0.544201
0.498856
0.457164
0.180212
0.205760
0.236686
0.274189
0.321843
0.376375
0.399651
0.417789
0.436843
0.563277
0.687374
0.560839
0.426752
0.437172
0.439393
0.427554
0.400167
U>
-------�
Table 12.5 COMBINED AJAX AND MIDGET IMPACT (SELECTED PORTIONS)
**** ISCLT ************* LESSON 12 COARSE-GRID -- 1979
******** PAGE
- SOURCE INPUT DATA -
C T SOURCE SOURCE X Y
A A NUMBER TYPE COORDINATE COORDINATE
R P (M) (M)
D E
EMISSION BASE /
HEIGHT ELEV- /
(M) ATION /
(M) /
- SOURCE DETAILS DEPENDING ON TYPE -
101 STACK 68500.00 84900.0,0 18.20
0.00 GAS EXIT TEMP (DEC K)= 394.00. GAS EXIT VEL. (M/SEC)= 18.50,
STACK DIAMETER (M)= 1.210, HEIGHT OF ASSO. BLDG. (M)= 0.00, WIDTH OF
ASSO. BLDG. (M)= 0.00, WAKE EFFECTS FLAG = 0
- SOURCE STRENGTHS ( GRAMS PER SEC ) -
SEASON 1 SEASON 2 SEASON 3 SEASON 4
3.00000E+01
**** ISCLT ************* LESSON 12 COARSE-GRID -- 1979
******** PAGE
9 ****
H
to
U)
00
- SOURCE INPUT DATA -
C T SOURCE SOURCE X
A A NUMBER TYPE COORDINATE
R P (M)
D E
Y EMISSION BASE /
COORDINATE HEIGHT ELEV- /
(M) (M) ATION /
(M) /
- SOURCE DETAILS DEPENDING ON TYPE -
1001 STACK . 73000.00 83000.00 42.67
WARNING - DISTANCE BETWEEN SOURCE
0.00 GAS EXIT TEMP (DEC K)= 505.20, GAS EXIT VEL. (M/SEC)=
STACK DIAMETER (H)= 1.680, HEIGHT OF ASSO. BLDG. (M)=
ASSO. BLDG. (M)= 39.90, WAKE EFFECTS FLAG = 0
- SOURCE STRENGTHS ( GRAMS PER SEC
SEASON 1 SEASON 2 SEASON 3
1.40000E+01
1001 AND POINT X,Y= 73000.00, 83000.00 IS LESS THAN PERMITTED
4.00,
23.50, WIDTH OF
SEASON 4
-------�
H
to
U)
Table 12.5 COMBINED AJAX AND WIDGET IMPACT (SELECTED PORTIONS) (coot.)
**** ISCLT ************* LESSON 12 COARSE-GRID -- 1979
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC HETER
- GRID SYSTEM RECEPTORS -
******** PAGE 12 ****
FROM COMBINED SOURCES 101, 1001,
- X AXIS (DISTANCE, METERS) -
65500.000 66000.000 66500.000 67000.000 67500.000 68000.000 68500.000 69000.000 69500.000
Y AXIS (DISTANCE , METERS ) - CONCENTRATION -
88000.000
87500.000
87000.000
86500.000
86000.000
85500.000
85000.000
84500.000
84000.000
83500.000
83000.000
82500.000
82000.000
81500.000
81000.000
80500.000
80000.000
2.522558
2.808372
3.102495
3.419467
3.654351
3.619400
3.539371
3.297798
3.017089
2.828314
2.818837
2.805699
2.780306
2.596727
2.398928
2.223300
2.066555
2.496049
2.909061
3.277371
3.652028
4.045026
4.063478
3.982687
3.634271
3.241508
3.118688
3.101761
3.067698
2.843897
2.607351
2.400895
2.219590
2.063477
2.411558
2.853797
3.412961
3.884396
4.355605
4.608118
4.543928
4.021172
3.507085
3.430368
3.397397
3.133231
2.844893
2.601342
2.390753
2.206662
2.073687
2.260028
2.706326
3.290884
4.073958
4.683836
5.222585
5.219229
4.393296
3.876827
3.779722
3.430585
3.103198
2.827241
2.583188
2.457464
2.381294
2.315860
2.385591
2.577340
3.026292
3.825540
4.951021
5.643331
5.986969
4.671384
4.310419
3.773064
3.376150
3.061998
3.064985
2.967243
2.831266
2.696306
2.577667
2.774568
3.089094
3.463300
3.875661
4.448386
5.532576
4.857932
4.862138
4.290433
4.050651
4.163610
4.000113
3.763777
3.495804
3.236591
3.032448
2.852222
3.139931
3.600079
4.195994
4.996136
6.160220
6.719737
0.793429
5.611121
7.884726
6.749580
5.816862
5.091478
4.525698
4.048834
3.664857
3.376160
3.130539
2.389980
2.592113
2.780104
2.844784
2.798277
3.217617
3.771078
4.359182
4.099653
3.886184
3.982270
3.829051
3.600949
3.345898
3.138730
2.961109
2.795520
1.657426
1.640595
1.810924
2.195274
2.617641
2.785071
3.768415
3.605620
3.671260
3.319985
3.012500
2.722205
2.746405
2.682847
2.634357
2.555752
2.465356
Y AXIS (DISTANCE
70000.000 70500.000
, METERS )
- GRID SYSTEM RECEPTORS -
- X AXIS (DISTANCE, METERS) -
71000.000 71500.000 72000.000
- CONCENTRATION -
72500.000 73000.000 73500.000
74000.000
88000
87500
87000
86500
86000
85500
85000
84500
84000
83500
83000
82500
82000
81500
81000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
.000
80500.000
80000
.000
1.282905
1.514737
1.797710
2.136914
2.321562
2.427464
3.265074
3.170341
3.085541
3.089952
2.895044
2.636402
2.392084
2.218561
2.193647
2.199789
2.158654
1.281502
1.499458
1.759777
1.924922
2.058490
2.387036
2.977434
2.941107
2.790643
2.868642
2.836011
2.587032
2.326135
2.206493
2.098874
1.992053
1.842147
1.269842
1.456293
1.596063
1.720323
1.849396
2.262564
2.790637
2.830500
2.761258
2.840523
2.860527
2.592080
2.350809
2.235778
2.113676
1.913552
1.748800
.317789
.401621
.463470
.534436
.719753
2.110041
.305227
.376489
.446813
.519418
.694835
.936620
2.582237 2.332372
2.794975 2.601240
2.858109 3.006782
2.995961 3.315153
3.080234 3.593838
2.655105 2.894955
2.466876 2.699673
2.316883 2.234526
2.034951 1.929724
1.821477
1.658131
.739855
.675402
.288507
.365808
.449625
.557600
.786608
2.054348
2.358797
2.473962
2.742196
3.773957
4.357965
3.631025
2.573477
2.305911
2.162921
1.993923
1.838780
1.277832
1.362226
1.457723
1.626137
1 .870376
2.174333
2.561101
2.906994
3.491336
4.570544
0.559507
5.353427
4.015331
3.165966
2.637246
2.273026
2.010783
1
1
1
1
1
1
1
1
1
.123129
.179374
.238503
.376915
.528187
.689275
.840483
.778354
.719008
2.063475
2
.838290
2.370570
.928129
.861129
.818849
.712416
.597449
0.973816
1.003102
1.048038
1.130333
1.198728
1.239093
1.387957
1.476420
1.590033
1.594355
2.078598
1 .545920
1.552191
1.395370
1.267869
1.189683
1.203510
-------�
Table 12.5 COMBINED AJAX AND WIDGET IMPACT (SELECTED PORTIONS)
**** ISCLT ************* LESSON 12 COARSE-GRID -- 1979
******** PAGE
13
** ANNUAL GROUND LEVEL CONCENTRATION ( MICROGRAMS PER CUBIC METER
- GRID SYSTEM RECEPTORS -
- X AX;S (DISTANCE, METERS)
74500.000 75000.000 75500.000
AXIS (DISTANCE . METERS ) - CONCENTRATION -
) (CONT.) FROM COMBINED SOURCES 101 1001,
88000.000 (
87500.000 (
87000.000 (
86500.000 (
86000.000
85500.000
85000.000
84500.000
84000.000
83500.000
83000.000
82500.000
82000.000
81500.000
81000.000
80500.000
80000.000 (
1.833516 (
1.839072 (
1.872132 (
). 924219 (
.036721
.165984
.317747
.383489
.349476
.365690
.613325
.224100
.178690 (
.170749 (
.098725 (
.032439 (
1.974770 (
1.704776 (
). 730661 (
1.810332 (
1.900403 (
.001806 (
.114493
.240072
.224284
.170570
.222328
.338035
.074548 (
1.924842 (
1.952401 (
1.946495 (
1.909717 (
1.872933 (
1.666779
1.718923
1.791909
1.872414
1.963063
.059786
.123542
.095657
.044861
.100324
.153945
1.958999
1.759925
1.787283
1.802595
1.800249
). 779133
A**************************************** END OF ISCLT PROGRAM, 2 SOURCES PROCESSED ****************************************
-------�
Table 12.6 WIDGET AT WIDGET (SELECTED PORTIONS)
SOURCE
NUMBER
*** SOURCE DATA ***
T U
Y A NUMBER
P K
E E
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
PART. GRAMS/SECOND
BASE
ELEV.
HEIGHT
CATS. *PER METER**2 (METERS) (METERS) (METERS) (METERS)
TEMP.
TYPE=0
(DEG.K);
VERT.DIM
TYPE=1
(METERS)
EXIT VEL.
TYPE=0
(M/SEC); BLDG. BLDG. BLDG.
HORZ.DIM DIAMETER HEIGHT LENGTH WIDTH
TYPE=1,2 TYPE=0 TYPE=0 TYPE=0 TYPE=0
(METERS) (METERS) (METERS) (METERS) (METERS)
1001 0 0
.16000E+02
.0
.0
.0 42.67 505.20
4.00
1.68 23.50 39.90 39.90
-------�
Table 12.6 WIDGET AT UIDGET (SELECTED PORTIONS) (cant.)
*** LESSON 12 AREA NEAR PROJECT - 1979
HIGH
3-HR
SGROUP* 1
KJ
*»
NJ
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 172.70600 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30 0 /
20.0 /
10.0 /
116.96790
98.85799
98.28539
98.17015
94.00271
111.14830
100.31810
85.84162
92.13950
71.42412
80.63538
100.16150
100.0
( 91, 6)
(207, 4)
( 87, 6)
(140, 1)
(206, 7)
(293, 1)
(324, 7)
( 77, 6)
(324, 8)
(263, 1)
(204, 2)
(137, 1)
104.25180C(139. 2)
119.84990
92.33008
91.71875
107.91090
107.98000
120.58860
109.66740
129.40350
112.41250
107.26390
115.85320
127.04110
117.90180
77.56066
79.70324
81.67902
99.37536
80.97849
104.95040
104.42980
112.00140
100.95770
92.35942
(203, 2)
(117, 1)
(287, 1)
(252, 1)
( 54, 7)
(363, 1)
( 31, 6)
(143, 8)
( 14, 2)
(365, 8)
( 56, 3)
( 56, 7)
( 21, 2)
(359, 3)
(358, 8)
(358, 7)
(264, 1)
( 66, 2)
(185, 8)
(183. 8)
(276, 7)
( 45, 5)
(174, 8)
142.23530
114.93350
117.16100
117.98340
110.36490
151.48730
126.63850
102.83180
111.62360
89.31677
105.57140
125.86460
200.0
(281,
(207,
( 87,
(140,
(206,
(293,
(324,
( 77,
( 76,
(263,
(287,
(137,
140.194500(139,
159.56070
123.78540
120.38500
139.43080
122.40230
160.73720
135.99350
162.82580
134.10000
134.83710
137.86470
160.67430
154.37830
102.81500
99.78913
101.78740
123.01720
(203,
(342,
(287,
(252,
(257,
(363,
( 31,
(143,
( H.
(365,
( 56,
( 56,
( 21,
(359,
(358,
(358,
(264.
98.89506C(180,
129.04490
133.75880
135.67250
120.07080
124.84670
(185,
(183,
(276,
( «,
(174,
8)
4)
6)
1)
7)
1)
7)
6)
7)
1)
8)
1)
2)
2)
8)
1)
1)
8)
1)
6)
8)
2)
8)
3)
7)
2)
2)
8)
7)
1)
2)
8)
8)
7)
5)
8)
RANGE
136.75760
114.10070
128.10480
103.60720
124.98950
142.43070
123.57850
113.01380
114.74030
103.82760
105.77960
107.98020
133.36230
124.10960
126.52830
102.13520
134.39150
131.59340
133.92260
134.51070
129.50690
129.75260
111.48390
134.90960
154.47060
172.70600
90.86145
103.69880
87.12136
100.94390
(METERS)
300.0
( 19, 8)
(207, 4)
( 97, 5)
(101, 3)
(122, 6)
(346, 4)
( 76, 8)
(100, 5)
(288. 6)
(262, 8)
(262, 7)
(287, 3)
(204. 1)
(242, 1)
(117, 1)
(336. 5)
(255. 5)
(258. 6)
(162, 5)
( 8, 4)
( 14, 5)
( 14, 2)
( 13, 8)
( 56, 3)
( 21, 1)
( 21, 2)
( 37, 8)
(103, 4)
( 66, 4)
(264, 1)
87.61993C(180, 2)
106.61790
117.22690
119.28250
122.04170
104.78770
( 46, 5)
( 73, 1)
(276, 7)
( 45. 5)
(208, 6)
119.15710
106.65130
121.92910
89.34844
116.53860
131.47270
120.12990
105.79820
104.74100
104.91080
100.14990
106.91340
123.78020
90.87958
107.92140
99.49188
118.50390
120.33380
126.00940
121.17450
113.92120
111.79080
101.47920
115.79380
135.06420
154.69370
96.57546
120.22740
96.15108
96.07718
87.62920
97.69091
107.95480
90.17554
117.61680
102.78450
400.0
( 19. 8)
(140. 4)
( 97, 5)
( 78, 6)
(357. 2)
(346. 4)
(261, 4)
(100, 5)
(288, 6)
(160, 5)
(135, 5)
(120, 4)
(204, 1)
(242, 1)
(136, 6)
(336. 5)
(255. 5)
(258. 6)
(162. 5)
( 8. 4)
( 14, 5)
( 14. 2)
(364. 5)
( 56, 3)
( 21. 1)
( 21. 2)
(116, 4)
(103, 4)
( 66, 4)
(209, 5)
(279, 5)
(279, 5)
( 73, 1)
(276, 7)
( 85, 6)
(208. 6)
124.00070
103.37120
113.23810
85.24573
112.94870
125.91140
119.25940
102.97750
103.82860
111.74890
103.45800
105.30870
119.26310
83.74999
107.46440
95.51966
109.16180
114.59380
118.01530
113.61920
104.64420
106.83630
96.68165
103.97310
123.80000
145.08310
98.05566
122.07010
98.13372
95.78402
90.25839
94.37588
103.42800
82.00006
114.62310
98.90272
500.0
(158. 6)
(140, 4)
(170, 5)
( 78. 6)
(357. 2)
(346, 4)
(261, 4)
(100, 5)
(288, 6)
(160. 5)
(135, 5)
(120, 4)
(204, 1)
(257, 4)
(136. 6)
(336, 5)
(255. 5)
(258, 6)
(133. 6)
( 8, 4)
( 14. 5)
(175, 7)
(364. 5)
( 56, 3)
( 21, 1)
( 21. 2)
(116, 4)
(103. 4)
( 66, 4)
(209, 5)
( 43, 5)
(279, 5)
( 73. 1)
(147, 4)
( 85, 6)
(208. 6)
-------�
Table 12.6 WIDGET AT WIDGET {SELECTED PORTIONS) (cent.)
*** LESSON 12 AREA NEAR PROJECT - 1979
HIGH
3-HR
SGROUP* 1
* HIGHEST 3-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
H
to
U)
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140. 0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
700.0
114.26460 (158, 6)
83.78020 (140, 4)
92.55312 (170, 5)
77.24721 ( 78, 6)
105.40220 (357, 2)
115.37510 (346, 4)
103.58050 ( 76, 8)
97.12157 (100, 5)
96.76440 (288, 6)
95.77157 (160, 5)
87.60885 (262, 7)
88.37883 (120, 4)
110.44060 (204, 1)
73.04536 (253, 6)
93.88204 (117, 1)
83.81712 (132, 3)
94.52179 (255, 5)
104.62300 (258. 6)
109.29970 (133, 6)
100.93180 ( 8, 4)
92.54983 ( 31, 2)
98.92101 (175, 7)
87.99288 (364, 5)
87.20101 ( 28, 4)
107.65720 ( 21, 1)
130.05580 ( 21. 2)
93.30018 (220, 6)
108.02440 (103, 4)
90.20788 ( 66, 4)
75.84175 (211. 3)
83.58341 ( 43, 5)
76.60512 (279, 5)
95.01677 ( 73, 1)
74.23837 (147. 4)
103.41130 ( 85, 6)
86.65461 (208, 6)
97.17014
66.62049
73.81052
71.03873
97.41580
105.23830
98.27039
90.72291
85.93551
82.13503
80.58969
81.32358
101.60730
68.05185
86.08912
85.48727
82.83957
95.53112
97.40939
90.06652
82.32074
91.10201
79.87722
73.79895
95.90041
117.59230
94.17147
90.55224
78.18340
68.14358
72.90005
63.99341
86.91317
62.04455
91.19994
74.24460
900.0
(158, 6)
(126. 6)
( 97. 5)
(113. 6)
(357. 2)
(346, 4)
(113. 8)
(100, 5)
(288, 6)
( 50, 4)
(262, 7)
(319, 4)
(204, 1)
(253, 6)
(117, 1)
(132, 3)
(255, 5)
(258, 6)
(133, 6)
( 8. 4)
( 31, 2)
(175, 7)
(364, 5)
( 56, 3)
( 21, 1)
( 21, 2)
(220, 6)
(103, 4)
( 66, 4)
(211, 3)
( 43, 5)
(175, 6)
( 73, 1)
(147, 4)
( 85, 6)
(208, 6)
RANGE (METERS)
1200.0
78.25827
57.80047
58.33972
62.21441
85.70298
91.31527
90.06289
83.92125
72.23873
72.55601
70.49931
67.02095
89.05080
59.88402
76.60615
76.75305
68.89071
83.26306
80.76952
76.36032
69.50446
79.98650
68.90787
59.57726
82.60155
101.76130
83.64976
69.54745
62.12906
56.51307
59.03684
53.91375
75.66032
49.23612
75.47076
59.13751
(103,
(195,
( 41.
(113,
(357.
(346.
(113,
( 25.
(288.
( 50.
(262,
(319,
(204,
(119,
(117,
(132.
(255.
(258,
(133,
< 8.
( 31.
(175,
(364,
( 56,
( 21,
< 21,
(220,
(103,
( 66,
(211,
( «,
(175.
( 73.
(209,
( 85.
(208,
1)
1)
4)
6)
2)
4)
8)
7)
6)
4)
7)
4)
1)
5)
1)
3)
5)
6)
6)
4)
2)
7)
5)
3)
1)
2)
6)
4)
4)
3)
5)
6)
1)
3)
6)
6)
1600.0
64.52496
49.96202
45.81099
52.62663
71 .99458
75.80901
78.69184
75.92355
58.53576
62.00233
58.85110
59.01984
74.63458
55.60949
65.93024
63.61800
55.03565
69.58795
63.64003
62.09925
60.71218
67.16567
56.83001
46.93253
69.52511
84.87204
67.99283
50.94756
46.95775
44.36669
45.91627
43.60600
64.98652
45.69990
59.81802
45.00634
(103,
(195.
(295.
(354,
(357,
(346,
(113.
( 25,
(288,
( 50.
(262.
(362,
(204,
(119,
(117,
(132,
(255,
(258,
(133,
( 8,
(277,
(175,
(364,
( 94,
( 21,
( 21,
(220,
(103,
( 66.
(211,
( 43.
(175,
( 45.
( 92.
( 85,
(208,
1)
1)
2)
6)
2)
4)
8)
7)
6)
4)
7)
6)
1)
5)
1)
3)
5)
6)
6)
4)
6)
7)
5)
2)
1)
2)
6)
4)
4)
3)
5)
6)
1)
3)
6)
6)
2200.0
50.23061
40.77518
34.85936
44.14650
56.14802
59.70828
63.84292
65.07025
48.72551
50.16469
45.53390
52.71028
62.90913
47.75419
53.61312
49.42336
42.48266
54.16038
56.38066
48.68008
49.75574
52.41872
43.49376
38.33949
55.65704
66.56378
50.75498
36.51431
33.80288
32.26845
34.79660
33.20230
53.01147
39.82835
44.19355
37.75030
(157, 8)
(195. 1)
(295. 3)
(354, 6)
(357, 2)
(110, 6)
(113, 8)
( 25, 7)
( 25, 8)
( 50, 4)
(262, 7)
(362, 6)
(260, 1)
(119, 5)
(117, 1)
(132, 3)
(117, 6)
(258, 6)
(364, 3)
( 38, 7)
(277, 6)
(175, 7)
(364, 5)
( 23, 5)
( 21, 1)
( 21, 2)
(220, 6)
( 73, 3)
(187, 1)
(211, 3)
(183, 1)
( 45, 3)
( 45, 1)
( 92, 3)
( 85, 6)
( 72, 4)
-------�
H
to
Table 12.6 WIDGET AT UIDGET (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979 **<
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 95.34115 AND OCCURRED AT (
HIGH
24-HR
SGROUP* 1
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
I'1"1 0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
37.
31.
27.
43.
45.
56.
55.
34.
35.
24.
37.
45.
29.
33.
35.
31.
53.
33.
77.
38.
34.
48.
34.
43.
51.
26.
28.
23.
28.
25.
21.
32.
32.
27.
32.
22.
100.0
66672 (101,
82699 ( 91,
56151C( 97,
44617 (101,
44833 (294,
12524 (303,
63268 ( 77.
59235 ( 77.
90125 (204.
56505 (204,
96839 ( 36,
18209 ( 36,
40333 (11.
26316 (253,
336070(336,
31867C(257,
03542 (162,
83208 (162,
85375 ( 8,
54738C( 31,
84975C( 31,
58414 ( 14,
41357 ( 27,
16475 ( 56,
40861 ( 56,
46573 ( 56,
584610(359,
846330(223,
95852 (358,
48390C( 66,
773890(279,
230090(279,
03513 ( 98,
037030(276,
92199C( 72,
077710(313,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
T)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
200.0
44.80991 (102,
38.05516 ( 91,
33.96197C( 97,
50.31338 (101,
55.47338 (294,
67.88498 (303,
67.38881 ( 77,
41.26372 ( 77,
42.77660 (204.
28.79172 (204,
45.83019 ( 36,
55.23696 ( 36,
36.40556 (11,
44.01396 (253,
43.239820(336,
40.614280(257,
65.88039 (162.
38.69656 (162.
95.34115 ( 8,
45. 56001 C( 31,
42.34593C( 31,
58.17288 ( 14,
41.64699 ( 27,
49.31375 ( 56,
59.16299 ( 56,
35.29128C( 21,
38.650360(359,
31.660550(223,
35.31816 (358,
30.49862C( 66,
26.496540(180,
40.189070(279,
39.56348 ( 98.
32.439680(276,
41.01298C( 72,
29.221080(174,
RANGE (METERS)
300.0
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)
50
39
39
49
56
65
65
40
45
36
47
58
37
41
45
44
65
36
84
43
43
56
38
50
52
38
32
43
35
30
29
41
42
31
45
30
.61587 (102.
.82697 (102.
.25588C( 97,
.93945 (101,
.63356 (294,
.89507 (303,
.02948 ( 77.
.98007 ( 77.
.24146 (204,
.368180(160,
.80564 ( 36,
.18978 ( 36.
.77002 ( 11,
.18745 (253.
.895090(136,
.591350(257,
.21028 (162,
.61901 (162,
.74927 ( 8,
.78163C( 31,
.48237C( 31,
.09599 ( 14,
.62329 ( 27,
.51580 ( 27,
.04696 ( 56,
.62938C( 21,
.608270(359,
.021930(223,
.13761C( 66,
.138790(279,
.541420(279,
.618070(279,
.85693 ( 98,
.11551 ( 46,
.03654C( 72,
.622320(174,
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)
400.0
45.15719 (102, 1)
35.31567 (123, 1)
36.58582C( 97, 1)
42.18680 (101, 1)
47.43115 (294, 1)
53.59501 (303, 1)
53.08913 ( 77, 1)
37.72232 ( 16, 1)
39.07436 (204, 1)
41.700600(160, 1)
42.06149 (36, 1)
51.52756 (36, 1)
32.92683 ( 11, 1)
33.78623 (253, 1)
50.523310(136, 1)
39.825390(257, 1)
55.44769 (162, 1)
31.845960(198, 1)
66.85857 ( 8, 1)
36.44895C( 31, 1)
38.31170C( 31, 1)
47.99258 ( 14, 1)
31.45505 (27, 1)
46.19908 (27, 1)
41.56588 (56, 1)
33.83438C( 21, 1)
26.123250(359, 1)
45.346860(223, 1)
34.17128C( 66, 1)
28.125590(279, 1)
28.789410(279, 1)
36.978680(279, 1)
37.90704 (98, 1)
27.88272 ( 46, 1)
40.04709C( 72, 1)
30.771570(139, 1)
500.0
42.15544 (102,
32.93047 (123,
34.15562C( 97,
37.43931 (101,
42.24368 (294.
48.26878 (303,
47.49118 ( 76,
37.60685 ( 16,
36.07121 ( 26,
40.736320(160,
38.86735 ( 36,
47.83379 ( 36,
30.736180(120,
32.320700(228,
49.08571CO36,
37.019090(257,
49.81194 (162,
32.707560(198,
57.48824 ( 8,
32.22299C( 31,
35.25256C( 31,
43.15688 ( 14,
28.22810C( 57,
43.48473 ( 27,
35.87289 ( 56,
31.12664C( 21,
23.397240(359,
44.169410(223,
33.21739C( 66,
26.30898 (211,
26.747200(279.
34.369660(279,
35.02836 ( 98,
26.516220(156,
37.24935C( 72,
28.933600(139,
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)
-------�
Table 12.6 WIDGET AT WIDGET (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979
HIGH
24-HR
SGROUPtf 1
* HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER
" FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
H
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
700.0
37.27905 (102,
29.12485 (123,
29.10590C( 97.
30.66840 (101,
35.79896 (294,
41.06734 (303,
41.32723 ( 76,
37.00216 ( 16,
34.40744 ( 26,
32.72408CO60,
33.87267 ( 36,
41.95581 ( 36,
30.24390C(337,
29.06518 (253,
41.28995C(136,
31.98968C(257,
41.99356 (162,
29.25583C(198,
51.40219 ( 49,
27.41855 (305,
30.49173C( 31,
36.16604 ( 14,
25.73156C( 57,
38.40446 ( 27,
29.87704C(327,
27.09822C( 21,
20.26685C(359,
38.23578C(223,
30.14592C( 66,
22.34470 (211,
25.37676C(233,
28.86959C(279.
31.04062C(282,
23.24526 ( 46,
32.79148C( 72,
22.27512CO74,
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)
33.
25.
24.
25.
31.
35.
38.
35.
32.
25.
29.
37.
29.
25.
34.
27.
35.
25.
46.
24.
26.
31.
22.
33.
27.
23.
18.
32.
26.
18.
22.
24.
26.
20.
29.
18.
900.0
17599 (102,
95809 (123,
78851C( 97,
82561 (101,
62102 (325,
67607 (303,
04401 (345,
77778 ( 16,
47506 ( 26,
58028C(160,
82622 ( 36,
11353 ( 36,
07142C(337,
60520 (253,
01853C(136,
76827C(257,
95227 (162,
10080C(198,
37193 ( 49,
75468 (305,
47446C( 31,
02113 ( 14,
23938C( 57,
76433 ( 27,
98722C(327,
98349C( 21,
03093C(359,
07883C(223,
82812C( 66,
36736 (211,
18532C(233,
07726C(279,
94482 ( 45,
77985 ( 46,
11967C( 72,
28462C(174,
RANGE (METERS)
1200.0
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)
28.03264 (102,
22.00078 (123,
19.90825C( 97,
22.36643 (123.
26.78875 (325,
29.70459 (303,
33.66029 (345,
33.22708 ( 16,
29.36836 ( 26.
20.80901 (262,
24.90268 ( 36,
31.14694 ( 36,
26.09026C(337,
21.45695 (253,
26.61575C(136,
22.97512C(257,
29.50208 (162,
21.17460C(198,
39.78062 ( 49,
21.70230 (305,
21.76260C( 31,
25.25603 ( 14,
17.96685C( 57,
27.96911 ( 27,
25.02160C(327,
20.28729C( 21,
15.68848C(359,
25.20910C(223,
22.51545C( 66,
15.87487C(329,
17.63283C(233,
19.04405C(279,
23.46788 ( 45,
17.64853 ( 46,
24.58150C( 72,
15.09728C( 72,
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)
1600.0
22.69581 (102,
17.88817 (123,
15.44365C( 97,
18.63695 (123,
21.74766 (294,
24.44550C( 52,
28.36230 (345,
29.43299 ( 16,
25.47108 ( 26,
17.49256 (260,
19.92652 ( 36,
25.05121 ( 36,
22.07778C(337,
17.52055 (253,
21.80476C( 12,
18.63736 ( 48,
23.66096 (162,
17.93553C(198,
32.67529 ( 49,
18.55376 (305,
17.98373 (125,
19.83509 ( 14,
14.99993C(364,
22.18544 ( 27,
21.34495C(327,
16.59277C( 21,
13.53935CC359,
19.24208C(223,
18.19486CC 66,
13.79120C(329,
14.14334C( 43,
14.72941C(279,
19.58382 ( 45,
14.36118 ( 46,
19.91103CC 72,
12.69392C( 72,
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)
2200.0
17.06178 (102,
13.52551 (123,
11.91534C(295,
14.44229 (123,
16.62893 (294,
20.10241C( 52,
22.27104 (345,
24.20872 ( 16,
20.78454 ( 26,
15.19629C( 18,
14.79134 ( 36,
19.35331C(362,
17.51595C(337,
13.81181 (253,
17.63020C( 12,
15.38683 ( 48,
18.13091 (162,
14.98129C(198,
24.93306 ( 49,
15.10686 (305,
14.23743 (125,
14.54750 ( 14,
11.64625C(364,
16.36857 ( 27,
16.89267C(327,
12.80138C( 21,
11.40646C(359,
14.01230C(223,
13.89309C( 66,
11.22887C(329,
10.79212C( 43,
10.89056C(279,
15.19157 ( 45,
10.85596 ( 46,
14.99341C( 72,
10.80760C(156,
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)
-------�
Table 12.6 WIDGET AT UIDGET (SELECTED PORTIONS) (cent.)
LESSON 12 AREA NEAR PROJECT - 1979
2ND HIGH
24-HR
SGROUP0 1
H
N)
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 80.22511 AND OCCURRED AT ( 200.0, 180.0) *
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
35
31
27
29
39
40
48
32
29
19
20
23
22
100.0
.88617 (102,
.25989 (102,
.38677 (123,
.620030 ( 88,
.63727 (206,
.54621 (294,
.06479 ( 76,
.49921 ( 76.
.28146 f 76,
.754.,? 2,
.539. 'L Udi,
.40544 (262,
.34969C(362.
32.491520(242.
32
26
30
29
66
36
31
42
28
38
31
25
24
23
24
.825210(342,
.87878C(163,
.22478 (348,
.46811 (296,
.14200 (351,
.93425 ( 8,
.17367 ( 14,
.82147C( 2,
.37899C( 13,
.32567 ( 27,
.14423C( 24,
.53197C( 21,
.43561CC 84,
.37794 (358,
.534380(181.
22.70425C(274.
21
28
26
22
26
21
.58934C( 66,
.41567C(185,
.04749 ( 45,
.92579 ( 62,
.75021 ( 45,
.460810(174,
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)
43
37
33
33
47
49
59
37
35
25
25
29
28
42
43
34
38
34
80
44
37
50
33
46
37
29
200.0
.85090 (101,
.05666 (102,
.665090(138,
.60887C( 88.
.43030 (206,
.98012 (294,
.14424 ( 76,
.49725 ( 76,
.16817 ( 76,
.36203 (262,
.58705 (262,
.51770 (262,
.673940(362,
.94567C(242,
.17241C(342,
.230460(163,
.791400(267,
.97293 (296,
.22511 (351,
.98022 (305,
.70636 ( 14,
.54769C( 2,
.98154C( 13,
.97242 ( 27.
.05996C( 24.
.56071 ( 56.
28.24805C( 84.
28
31
27
26
36
32
27
32
25
.98421 (358,
.179570(181,
.417860(274,
.18556C( 66,
.39185C(185,
.77403 ( 45,
.70541 ( 46,
.28717 ( 45,
.024990(313,
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)
RANGE (METERS)
300.0
43.457870(313, 1)
39.69064 (123, 1)
34.57897 (123, 1)
35.69454 (123, 1)
47.79203 (325, 1)
54.06615 (294, 1)
60.98296 ( 76, 1)
39.58784 ( 16, 1)
39.44315 ( 26, 1)
31.64109 (262, 1)
30.41942 (262, 1)
38.46513 (203, 1)
32.696220(362, 1)
35.70427C(242. 1)
45.415240(342, 1)
35.87555C(163, 1)
43.72821 (348, 1)
35.66379C( 47, 1)
72.99441 (351, 1)
41.73169 (305, 1)
37.95972 ( 14, 1)
48.77610C( 2, 1)
34.14220C( 13, 1)
45.94014 (56, 1)
36.68393C( 24, 1)
25.61517 (56, 1)
22.83984C( 84, 1)
27.17973 (358, 1)
33.23171 (358, 1)
27.18776C( 66, 1)
26.661030(182, 1)
32.882410(185. 1)
37.56468 (45, 1)
28.608710(276, 1)
38.41721CO57, 1)
29.09677 (208, 1)
400.0
37.50980 ( 19,
34.53543 (102,
29.78536 (123,
32.49265 (123,
42.72904 (325.
46.93373 (294,
52.25337 ( 76,
34.30505 ( 77,
36.87511 ( 26,
30.07882 (262,
27.54153 (262,
39.22712 (203,
31.71356 (203,
32.094260(228,
43.429640(342,
32.050480(163,
39.93879 (348,
31.70959C( 47.
60.35018 ( 49,
35.10213 ( 8.
32.52751 ( 14,
42.60183C( 2,
29.58520C( 13,
38.11386 ( 56,
32.289710(327,
22.495570(143,
21.617970(173,
27.64779 (116,
26.51686 (358,
25.83517 (211,
24.813360(182,
29.927750(185,
35.307610(282.
27.242310(157,
39.006860(157.
28.876940(174,
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)
500.0
35.33510 (158,
31.55589 (102,
27.07729 (123,
30.90702 (123,
39.96530 (325,
43.12925 (294,
46.35290 ( 77,
31.17592C(129,
35.46291 (204,
29.20454 (262,
26.13161 (262,
37.99768 (203,
30.69426 (11,
31.84475 (253,
41.843300(342,
29.279780(136,
38.07779 (348,
29.60460C( 47,
57.05454 ( 49,
31.57860 ( 8,
31.08338 (125,
38.37199C( 2,
27.36204 ( 27,
33.36163 ( 56,
31.530270(327,
22.50462C(274,
22.033990(173,
26.98429 (116,
25.99319 (211,
26.050670(279,
25.598680(233,
28.766080(282,
34.733890(282,
26.13010 ( 46,
37.158320(157,
27.264860(174,
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)
-------�
Table 12.6 WIDGET AT WIDGET (SELECTED PORTIONS) (cent.)
*** LESSON 12 AREA NEAR PROJECT - 1979
2ND HIGH
24-HR
SGROUP0 1
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
DIRECTION /
(DEGREES) /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
10.0 /
700.0
30.47938C<313,
27.22542CO93,
23.05235 (123,
28.18922 (123,
35.44966 (325,
37.88991 (294,
40.74211 (345,
28.08922C(129,
30.08001 (204,
26.85730 (262,
23.68021 (262,
32.90168 (203,
27.45594C(120,
26.430060(228,
36.97562C(342,
24.28700 ( 48,
34.74748 (348,
26.24567C( 47,
48.65646 ( 8,
27.18335C( 31,
27.52601 (125,
31.67629C( 2,
23.56555 ( 27,
26.87630 ( 56.
28.48949 ( 56,
21.43139C(274,
19.92071C(213,
23.35063 (116,
21.23123 (211,
21.61379C(279,
23.81426C( 43,
25.47780C(282.
30.52723 ( 98,
21.31908C(156,
31.17951C(157,
22.13462 (208,
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)
900.0
27.49065C(313,
23.59395 (102,
20.98058C(295,
25.71308 (123,
31.55824 (294,
33.93097 (294,
36.82488 ( 76,
24.16172C(129,
25.98400 (204,
24.31302 (262,
21.44018 (262,
29.12980C(362,
24.30282C(362,
22.62480C(337,
31.99682C(342,
23.09534 ( 48,
31.62616 (348,
23.43173C( 47,
42.26007 ( 8,
23.42922C( 31,
24.64185 (125,
26.60468C( 2,
20.66274 ( 27,
22.47153 ( 56,
23.87798 ( 56,
18.12351C(274,
16.86721C(213,
19.79068 (116,
17.38094 (358,
17.98803C(279,
21.16167C( 43,
21.406180(282,
26.92005 ( 98,
17.03266CO57,
25.67161C(157,
18.01609 (208,
RANGE (METERS)
1200.0
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)
23.98783C(313,
19.48962 (102,
18.329600(295,
20.57434 (101,
26.66323 (294,
29.00858 (294,
31.37775 ( 76,
19.69131C(129,
21.26901 (204,
20.50971 (260,
18.44193 (262,
27.04351C(362,
20.668290(362,
20.10982C(337,
25.962180(342,
21.15978 ( 48,
27.37113 (348,
19.89461C( 47,
35.57390 ( 8,
19.26915C( 31,
21.34119 (125,
21.07418C( 2,
17.90728C(364,
18.69390C(327,
19.17578 ( 56,
13.51313C(274,
14.59989C(280,
15.99238 (116.
14.61971 (358,
14.229340(279,
17.60181C( 43,
16.586090(185,
22.57373 ( 98,
12.92852C(157,
19.57401CO57,
14.18651C(174,
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)
20.
15.
15.
16.
21.
24.
25.
17.
17.
17.
15.
23.
16.
17.
20.
18.
22.
16.
29.
15.
17.
16.
14.
16.
15.
9.
11.
12.
11.
11.
13.
12.
18.
10.
14.
1600.0
27112C(313,
45043 (102,
330670(295,
68902 (113,
74357 (325,
00941 (303,
72621 ( 76,
20311C( 51,
81907C( 25,
01498 (262,
15448 (262,
799920(362,
769150(362,
104890(337,
746880(136,
587830(257,
64247 (348,
51327C( 12,
26138 ( 8,
31292C( 31,
19150C( 31,
15025C( 2,
18684 ( 27,
155290(327,
03724 ( 56,
304670(274,
468780(280,
78597 (116,
91601 (358,
065010(173,
234800(233,
850210(185,
20229 ( 98,
38183 ( 45,
346850(157,
12.119770(156,
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)
2200.0
16.150130(313.
12.01005 ( 91.
11.22163C( 97,
13.19694 (113,
16.38957 (325,
18.31474 (303,
19.69744 ( 76,
14.76467C( 51,
15.97841C( 25,
13.83505 (260,
11.53010 (262,
18.70274 ( 36,
12.714270(362,
13.780110(337,
15.869540(136,
14.450000(257,
17.37775 (348,
14.22720C( 12,
22.99772 (315,
11.40297C( 31,
13.653920(277,
11.63548C( 2,
10.97877 ( 27,
12.985430(327,
11.20206 ( 56,
6.485620(213,
8.459160(220,
9.91738 (116,
9.14857 (358,
8.583770(173,
9.074580(233,
9.72287C( 39,
13.68196 ( 98,
7.76759 ( 45,
9.805350(157,
9.96242C( 72,
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)
-------�
Table 12.6 WIDGET AT WIDGET (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979
MAX 50
24 -HR
SGROUP* 1
* 50 MAXIMUM 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
V
.u
00
RANK
1
2
3
4
5
6
7
8
9
10
11
12
13
U
15
16
17
18
19
20
21
22
23
24
25
CON. PER. DAY
95.34115
84.74927
80.22511
77.85375
72.99441
67.88498
67.38881
66.85857
66.56972
66.14200
65.89507
65.88039
65.52672
65.21028
65.02948
61.34805
60.98296
60.35018
59.16299
59.14424
58.18978
58.17288
57.91161
57.48824
57.05454
8
8
351
8
351
303
77
8
49
351
303
162
306
162
77
49
76
49
56
76
36
14
351
8
49
X Y(METERS)
OR OR
RANGE DIRECTION
(METERS) (DEGREES)
200.0
300.0
200.0
100.0
300.0
200.0
200.0
400.0
300.0
100.0
300.0
200.0
200.0
300.0
300.0
200.0
300.0
400.0
200.0
200.0
300.0
200.0
400.0
500.0
500.0
180.0
180.0
180.0
180.0
180.0
310.0
300.0
180.0
180.0
180.0
310.0
200.0
180.0
200.0
300.0
180.0
300.0
180.0
120.0
300.0
250.0
150.0
180.0
180.0
180.0
RANK
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CON. PER.
56.98452
56.63356
56.62914
56.12524
56.09599
55.63268
55.47338
55.44769
55.23696
54.19638
54.06615
53.59501
53.08913
53.03542
52.25337
52.04696
51.52951
51.52756
51.40861
51.40219
51.33950
50.61587
50.54769C
50. 5233 1C
50.51580
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
X Y(METERS)
OR OR
RANGE DIRECTION
DAY (METERS) (DEGREES)
133
294
306
303
14
77
294
162
36
133
294
303
77
162
76
56
133
36
56
49
306
102
2
136
27
300.0
300.0
300.0
100.0
300.0
100.0
200.0
400.0
200.0
200.0
300.0
400.0
400.0
100.0
400.0
300.0
400.0
400.0
100.0
700.0
100.0
300.0
200.0
400.0
300.0
180.0
320.0
180.0
310.0
150.0
300.0
320.0
200.0
250.0
180.0
310.0
310.0
300.0
200.0
300.0
120.0
180.0
250.0
120.0
180.0
180.0
360.0
150.0
220.0
130.0
-------�
Table 12.7 AJAX AT WIDGET (SELECTED PORTIONS)
*** LESSpN 12 AREA NEAR PROJECT - 1979 AJAX ALONE
*** SOURCE DATA ***
SOURCE
NUMBER
101
T
Y
P
E
0
U
A
K
E
0
NUMBER
PART.
CATS.
0
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND X
*PER METER**2 (METERS)
.30000E+02 .0
BASE
Y ELEV.
(METERS) (METERS)
.0 .0
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
HEIGHT TYPE=1
(METERS) (METERS)
18.20 394.00
EXIT VEL,
TYPE=0
(M/SEC);
HORZ.D1M
TYPE=1.2
(METERS)
18.50
DIAMETER
TYPE=0
(METERS)
1.21
BLDG.
HEIGHT
TYPE=0
(METERS)
.00
BLDG.
LENGTH
TYPE=0
(METERS)
.00
BLDG.
WIDTH
TYPE=0
(METERS)
.00
HIGH
3-HR
SGROUP* 1
*** LESSON 12 AREA NEAR PROJECT - 1979 AJAX ALONE
N)
1
vo
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
80.41373 AND OCCURRED AT ( 4800.0,
80.0)
DIRECTION /
(DEGREES) /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
4800.0
62.43321 (143,
61.97869C(277,
56.61130 (144,
65.96000 (364,
64.54465 ( 56,
70.51854 ( 21,
72.23076 (359,
72.90567 (155,
80.41373 (187,
RANGE (METERS)
8)
7)
1)
7)
7)
2)
2)
7)
1)
70.0
-------�
Table 12.7 AJAX AT WIDGET (SELECTED PORTIONS) (cont.)
LESSON 12 AREA NEAR PROJECT - 1979 AJAX ALONE
HIGH
24-HR
SGROUP# 1
DIRECTION /
(DEGREES) /
* HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOK !HE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 22.16634 AND OCCURRED Ai ( 4800.0,
RANGE (METERS)
4800.0
100.0)
U1
o
160.0 / 15.65578 (125, 1)
150.0 / 15.42436C(277, 1)
140.0 / 13.64693 (27, 1)
130.0 / 15.40837 (27, 1)
120.0 / 17.42754C(327, 1)
110.0 / 17.87759C( 21, 1)
100.0 / 22.16634C(359, 1)
90.0 / 16.37423C(223, 1)
80.0 / 15.91765C( 66, 1)
70.0 / 12.06352C(329, 1)
2ND HIGH
24 -HR
SGROUP* 1
*** LESSON 12 AREA NEAR PROJECT - 1979 AJAX ALONE
DIRECTION /
(DEGREES) /
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS
4800.0
15.38841 AND OCCURRED AT ( 4800.0,
RANGE (METERS)
150.0)
160.0 / 14.61581C(277, 1)
150.0 / 15.38841C(272, 1)
140.0 / 12.98921 (197, 1)
130.0 / 13.34026C(327, 1)
120.0 / 14.12953 ( 56, 1)
110.0 / 6.99342C(215, 1)
100.0 / 9.19216C(185, 1)
90.0 / 14.16795 (116, 1)
80.0 / 15.22147C(213, 1)
70.0 / 10.57824C(279, 1)
-------�
Table 12.7 AJAX AT UIOGET (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979 AJAX ALONE
MAX 50
24-HR
SGROUP* 1
* 50 MAXIMUM 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
NJ
RANK
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
CON. PER. DAY
22.16634C
17.87759C
17.42754C
16.37423C
15.91765C
15.65578
15.42436C
15.40837
15.38841C
15.22147C
14.61581C
14.23704
14.16795
14.12953
13.73058C
13.64693
13.48767
13.34026C
12.98921
12.93152C
12.87169C
12.78146C
12.52597C
359
21
327
223
66
125
277
27
272
213
277
14
116
56
359
27
326
327
197
24
64
57
161
12.24352C 1 181
12.17934C 1 264
X
OR
RANGE
(METERS)
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
Y(METERS)
OR
DIRECTION
(DEGREES)
100.0
110.0
120.0
90.0
80.0
160.0
150.0
130.0
150.0
80.0
160.0
150.0
90.0
120.0
90.0
140.0
160.0
130.0
140.0
120.0
150.0
140.0
150.0
80.0
160.0
RANK
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CON. PER. DAY
12. 0635 2C
12.05211C
12.04644C
12.03783C
12.03759C
11.71803C
11.60446C
11.60017C
10.91692
10.86954
10.57824C
10.55435C
10.54922
10.53467C
10.46085
10.44515C
10.44338
10.32530
10.18399C
10.17737C
10.17236
10.04886C
10.04097
10.04010
10.03779C
329
187
214
2
31
327
364
84
358
365
279
64
358
264
116
21
365
23
181
155
63
24
14
83
271
X
OR
RANGE
(METERS)
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
4800.0
Y(METERS)
OR
DIRECTION
(DEGREES)
70.0
80.0
80.0
150.0
160.0
150.0
140.0
120.0
80.0
130.0
70.0
140.0
90.0
70.0
80.0
120.0
140.0
90.0
90.0
90.0
150.0
130.0
160.0
120.0
150.0
-------�
Table 12.8 COMBINED ANALYSIS (SELECTED PORTIONS)
*** LESSON 12 AREA NEAR PROJECT - 1979 WIDGET PLUS AJAX
*** SOURCE DATA ***
***
T
Y
SOURCE P
NUMBER E
101 0
1001 0
U
A
K
E
0
0
NUMBER
PART.
CATS.
0
0
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND X
PER METER**2 (METERS)
.30000E+02 -4500.0
.16000E+02 .0
BASE
Y ELEV.
(METERS) (METERS)
1900.0 .0
.0 .0
HEIGHT
(METERS)
18.20
42.67
TEMP.
TYPE=0
(DEG.K);
VERT.DIM
TYPE=1
(METERS)
394.00
505.20
EXIT VEL.
TYPE=O
,-VSEC);
HORZ.DIM
TYPE=1,2
(METERS)
18.50
4.00
DIAMETER
TYPE=0
(METERS)
1.21
1.68
BLDG.
HEIGHT
TYPE=0
(METERS)
.00
23.50
BLDG.
LENGTH
TYPE=0
(METERS)
.00
39.90
BLDG.
WIDTH
TYPE=0
(METERS)
.00
39.90
MAX 50
24 -HR
SGROUP* 1
*** LESSON 12 AREA NEAR PROJECT - 1979 WIDGET PLUS AJAX
* 50 MAXIMUM 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES:
101.
cn
to
RANK
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
CON. PER. DAY
18.09686C 21
17.89197C 21
17.80996C 21
17.66000C 21
17.62995C 21
17.59261C 21
17.50699C 1 21
17.27182C 1 21
17.27105C 1 21
16.99996C 1 21
16.93021C 21
16.87219C 21
16.76592C 21
16.75375C 21
16.71472C 21
16.71015C 213
16.70919C 21
16.43712C 21
16.35326C 213
16.31916C 21
16.30422C 21
16.06704C 21
16.05341C 21
16.03366C 21
16.02028C 21
X Y(METERS)
OR Oft
RANGE DIRECTION
(METERS) (DEGREES)
300.0 20.0
300.0 30.0
400.0 20.0
400.0 30.0
300.0 40.0
400.0 40.0
400.0 50.0
300.0 50.0
400.0 60.0
500.0 60.0
500.0 70.0
200.0 20.0
300.0 60.0
400.0 70.0
500.0 50.0
500.0 20.0
200.0 30.0
200.0 40.0
500.0 30.0
500.0 40.0
500.0 80.0
300.0 70.0
200.0 50.0
500.0 30.0
500.0 20.0
RANK
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
CON. PER. DAY
15.86742C 21
15.60512C 213
15.55381C 21
15.15665C 21
15.05269C 21
14.93862C 21
14.60998C 21
14.58373C 21
14.50736C 1 21
14.35620C 1 21
14.23166 1 56
14.21854C 1 21
14.13518C 1 21
14.13352C 1 213
14.05849C 21
13.85253 56
13.85094C 21
13.82117C 327
13.59243C 213
13.51224C 21
13.45108 56
13.41829C 21
13.33330 56
13.30464C 21
13.13021C 21
X Y(METERS)
OR OR
RANGE DIRECTION
(METERS) (DEGREES)
400.0 80.0
500.0 40.0
200.0 60.0
300.0 80.0
500.0 90.0
200.0 70.0
400.0 90.0
100.0 20.0
100.0 30.0
100.0 40.0
500.0 200.0
200.0 80.0
100.0 50.0
500.0 50.0
300.0 90.0
500.0 190.0
100.0 60.0
500.0 200.0
400.0 20.0
100.0 70.0
400.0 200.0
200.0 90.0
500.0 180.0
500.0 100.0
100.0 80.0
-------�
H
to
oo
Table 12.8 COMBINED ANALYSIS (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979 WIDGET PLUS AJAX ***
* HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER *
* FROM SOURCES: 1001,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 95.34115 AND OCCURRED AT ( 200.0, 180.0)
HIGH
24 -HR
SGROUPff 2
DIRECTION /
(DEGREES) /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
100.0
53.03542 (162, 1)
33.83208 (162, 1)
77.85375 ( 8, 1)
38.54738C( 31, 1)
34.84975C( 31, 1)
48.58414 ( 14, 1)
34.41357 (27, 1)
43.16475 (56, 1)
51.40861 (56, 1)
26.46573 ( 56, 1)
28.584610(359, 1)
23.84633C(223, 1)
28.95852 (358, 1)
25.48390C( 66, 1)
21.773890(279, 1)
32.23009C(279, 1)
32.03513 (98, 1)
27.03703C(276, 1)
32.92199C( 72, 1)
65.
38.
95.
45.
42.
58.
41.
49.
59.
35.
38.
31.
35.
30.
26.
40.
200.0
88039 (162,
69656 (162,
34115 ( 8,
56001C( 31,
34593C( 31,
17288 ( 14,
64699 ( 27,
31375 ( 56,
16299 ( 56,
29128C( 21,
65036C(359,
66055C(223,
31816 (358,
49862C( 66,
49654C(180,
18907C(279.
39.56348 ( 98,
32.43968C(276,
41.01298C( 72,
RANGE (METERS)
300.0
1)
.1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
65
36
84
43
43
56
38
50
52
38
32
43
35
30
29
41
42
31
45
.21028 (162,
.61901 (162,
.74927 ( 8,
.78163C( 31.
.48237C( 31,
.09599 ( 14,
.62329 ( 27,
.51580 ( 27,
.04696 ( 56,
.62938C( 21,
.608270(359,
.021930(223,
,13761C( 66,
.138790(279,
.541420(279,
.618070(279,
.85693 ( 98,
.11551 ( 46,
.03654C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
400.0
55.44769 (162,
31.845960(198,
66.85857 ( 8,
36.44895C( 31,
38.31170C( 31,
47.99258 ( 14,
31.45505 ( 27,
46.19908 ( 27,
41.56588 ( 56,
33.83438C( 21,
26.123250(359,
45.346860(223,
34.17128C( 66,
28.125590(279,
28.789410(279,
36.978680(279,
37.90704 ( 98,
27.88272 ( 46,
40.04709C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
500.0
49.81194 (162,
32.707560(198,
57.48824 ( 8,
32.22299C( 31,
35.25256C( 31,
43.15688 ( 14,
28.22810C( 57,
43.48473 ( 27,
35.87289 ( 56,
31.12664C{ 21,
23.397240(359,
44.169410(223,
33.21739C( 66,
26.30898 (211,
26.747200(279.
34.369660(279,
35.02836 ( 98,
26.516220(156,
37.24935C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.8 COMBINED ANALYSIS (SELECTED PORTIONS) (cont.)
LESSON 12 AREA NEAR PROJECT - 1979 WIDGET PLUS AJAX
2ND HIGH
24-HR
SGROUPtf 2
NJ
£
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM SOURCES: 1001,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 80.22511 AND OCCURRED AT ( 200.0, 180.0) *
DIRECTION /
(DEGREES) /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
30
29
66
36
31
42
28
38
31
25
24
23
24
22
21
28
26
22
26
100.0
.22478 (348,
.46811 (296,
.14200 (351,
.93425 ( 8,
.17367 ( 14,
.82147C( 2,
.37899C( 13,
.32567 ( 27,
.14423C( 24,
.53197C( 21,
.43561C( 84,
.37794 (358,
.534380(181,
.70425C(274,
.58934C( 66,
.415670(185,
.04749 ( 45,
.92579 ( 62,
.75021 ( 45,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
200.0
38.79140C(267,
34.97293 (296,
80.22511 (351,
44.98022 (305,
37.70636 ( 14,
50.54769C( 2,
33.98154C( 13,
46.97242 ( 27,
37.05996C( 24,
29.56071 ( 56,
28.24805C( 84,
28.98421 (358,
31.17957C(181,
27.41786C(274,
26.18556C( 66,
36.391850(185,
32.77403 ( 45,
27.70541 ( 46,
32.28717 ( 45,
RANGE (METERS)
300.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
43.72821 (348,
35.66379C( 47,
72.99441 (351,
41.73169 (305,
37.95972 ( 14,
48.77610C( 2,
34.14220C( 13,
45.94014 ( 56,
36.68393C( 24,
25.61517 ( 56,
22.83984C( 84,
27.17973 (358,
33.23171 (358,
27.18776C( 66,
26.661030(182,
32.882410(185,
37.56468 ( 45.
28.608710(276,
38.41721C(157.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
400.0
39.93879 (348,
31.70959C( 47,
60.35018 ( 49,
35.10213 ( 8,
32.52751 ( 14.
42.60183C( 2,
29.58520C( 13,
38.11386 ( 56,
32.28971C(327.
22.495570(143,
21.617970(173,
27.64779 (116,
26.51686 (358,
25.83517 (211,
24.813360(182,
29.927750(185,
35.307610(282.
27.24231C(157,
39.006860(157.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
500.0
38.07779 (348,
29.60460C( 47,
57.05454 ( 49,
31.57860 ( 8,
31.08338 (125,
3B.37199C( 2,
27.36204 ( 27,
33.36163 ( 56,
31.530270(327,
22.504620(274,
22.033990(173,
26.98429 (116,
25.99319 (211.
26.050670(279,
25.598680(233,
28.766080(282,
34.733890(282,
26.13010 ( 46,
37.158320(157,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.8 COMBINED ANALYSIS (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979 WIDGET PLUS AJAX
HIGH
24-HR
SGROUPtf 3
to
cn
cn
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 95.34115 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
100.0
53.03542 (162.
33.83208 (162,
77.85375 ( 8,
38.55254C( 31.
34.85532C( 31,
48.58414 ( 14,
34.89530 ( 27,
52.59430 ( 56,
60.61668 ( 56,
37.39945C( 21,
34.41994C(359,
28.24509 (358,
33.92136 (358,
31.75549C( 66,
27.95673C( 66,
32.23009C(279,
32.03513 { 98,
27.03703C(276,
32.92199C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1.)
1)
1)
1)
1)
1)
1)
1)
200.0
65.88039 (162,
38.69656 (162,
95.34115 ( 8,
45.56266C( 31.
42.34901C( 31,
58.17288 ( 14,
42.14756 ( 27.
58.85034 ( 56,
68.28071 ( 56,
47.03249C( 21,
43.84346C(359,
33.94394 (358,
40.41965 (358,
36.95562C( 66,
32.71853C( 66,
40.18907C(279,
39.56348 ( 98,
32.439680(276,
41.01298C( 72,
RANGE (METERS)
300.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
65.21028 (162,
38.70212C( 47,
84.74927 ( 8,
43.78304C( 31,
43.48411C( 31,
56.09599 ( 14,
39.74181 ( 83,
55.55848 ( 56,
61.06950 ( 56,
50.24693C( 21,
37.20851C(359,
43.98159C(223,
41.46639C( 66,
33.53497C( 66,
32.04036C(182,
41.61807C(279.
42.85693 ( 98,
31.11551 ( 46,
45.03654C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
55
34
66
36
38
47
36
47
50
45
30
46
40
28
29
36
37
27
40
400.0
.44769 (162,
.01267C( 47,
.85857 ( 8,
.44987C( 31,
.31276C( 31,
.99258 ( 14.
.61042C( 57,
.79176 ( 56,
.48957 ( 56,
.33071C( 21,
.18228C(359,
.72967C(223,
.32655C( 66,
.12559C(279,
.69819C(182,
.97868C(279,
.90704 ( 98,
.88272 ( 46,
.04709C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
500.0
49.81194 (162,
32.70785C(198,
57.48824 ( 8,
32.22392C( 31,
35.25338C( 31,
43.15688 ( 14,
35.25795C( 57,
43.96745 ( 27,
44.69497 ( 56,
42.50411C( 21,
26.96697C(359,
46.12255C(223,
39.05870C( 66,
27.59412 (211,
27.53814C(182.
38.62981C(213,
35.02836 ( 98,
26.51622CO56,
37.24935C( 72,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.8 COMBINED ANALYSIS (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR PROJECT - 1979 WIDGET PLUS AJAX
2ND HIGH
24-HR
SGROUP0 3
NJ
cn
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION NICROGRAHS/CUBIC METER *
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 80.22511 AND OCCURRED AT ( 200.0, 180.0)
DIRECTION /
(DEGREES) /
200.0 /
190.0 /
180.0 /
170.0 /
160.0 /
150.0 /
140.0 /
130.0 /
120.0 /
110.0 /
100.0 /
90.0 /
80.0 /
70.0 /
60.0 /
50.0 /
40.0 /
30.0 /
20.0 /
30
29
66
36
31
42
33
38
36
35
28
26
29
25
24
30
26
22
26
100.0
.22478 (348,
.46811 (296,
.14200 (351,
.93425 ( 8,
.17367 ( 14,
.82147C( 2,
.25615 ( 83,
.79298 ( 27,
.95451C( 21,
.45312 ( 56,
.60513C( 84,
.75393C(359,
.99363C(181,
,55502C(274,
.70445C(182.
.07541C(185,
.04749 ( 45,
.92580 ( 62,
.75021 ( 45,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
38.
34.
80.
44.
37.
50.
39.
47.
41.
200.0
79140C(267,
97293 (296,
22511 (351,
98022 (305,
70636 ( 14,
54769C( 2,
14604 ( 83,
44601 ( 27,
44961 ( 83,
38.25937 ( 56.
32.
32.
36.
30.
30.
38.
32.
27.
32.
40170C( 84,
46941C(359,
28293CO81,
29034C(274,
98180C(182,
53734C(185,
77403 ( 45,
70541 ( 46,
28717 ( 45,
RANGE (METERS)
300.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
43.72821 (348,
36.61901 (162,
72.99441 (351,
41.73169 (305,
37.95972 ( 14,
48.77610C( 2,
39.13935 ( 27,
50.99389 ( 27,
41.01938 ( 83,
34.04010 ( 56,
27.01387C( 84.
32.17742 (358.
38.39405 (358,
30.13879C(279,
29.54142C(279,
35.67329C(185.
37.56468 ( 45,
28.60871C(276,
38.41721C(157,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
400.0
39.93879 (348, 1)
31.84597C(198, 1)
60.35018 (49, 1)
35.10213 ( 8, 1)
35.39812 (125, 1)
42.60183C( 2, 1)
35.74609 (83, 1)
46.68012 ( 27, 1)
35.75436 (83, 1)
28.00469 ( 56, 1)
22.67661C(213, 1)
30.28766 (116. 1)
31.70746 (358. 1)
27.19970C(226, 1)
28.78941C(279. 1)
36.73539C(213. 1)
35.30761C(282, 1)
27.24231C(157, 1)
39.00686C(157, 1)
500.0
38.07779 (348,
31.17797C( 47,
57.05454 ( 49,
31.57860 ( 8,
34.63100 (125,
38.37199C( 2,
33.66568 ( 83,
43.07880 ( 56,
33.56634C(327,
24.90466C(274,
23.98906C(213,
29.85987 (116,
28.50305 (358,
26.212500(226,
26.74720C(279.
34.36966C(279,
34.73389C(282,
26.13010 ( 46,
37.15832C(157.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.10 AJAX AT AJAX ALONE (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
2ND HIGH
3-HR
SGROUPff 1
to
* SECOND HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 254.10150 AND OCCURRED AT ( 600.0, 340.0) *
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
50.34964
68.07846
61.42494
56.89342
48.94431
46.54458
37.87858
53.88545
49.79251
58.01932
47.61434
49.98119
44.41006
46.13591
50.91697
55.01468
50.59608
54.33493
55.49731
200.0
(183, 5)
(139, 4)
(183, 5)
(168, 4)
(146, 5)
(130. 5)
(130, 5)
(138, 5)
(130, 5)
(160, 4)
(243, 4)
(243, 4)
(160, 4)
(165, 4)
(228, 4)
(136, 4)
(136, 5)
(198, 4)
(198. 5)
142.18500
185.96920
167.23400
151.38910
154.25300
132.11150
126.18770
167.02410
134.47660
164.85100
151.74710
165.06130
149.86110
138.74740
158.52470
161 .67660
179.55450
177.68180
169.43170
300.0
(139, 4)
(183, 5)
(129, 4)
(153, 4)
( 97, 5)
(170, 5)
( 58, 4)
(159, 4)
(130, 5)
(159, 4)
(243, 4)
(160, 5)
(135, 5)
(135, 5)
(228, 4)
(164, 4)
(136, 5)
(136, 5)
(198. 5)
RANGE
173.72070
204.81070
198.84030
190.26480
228.24740
164.62790
175.24650
212.64710
182.64800
175.13710
193.10830
204.83250
184.50390
186.27960
191 .69960
193.35770
232.38820
210.16640
199.85460
(METERS)
400.0
(157, 5)
(183. 5)
( 89, 5)
(158, 4)
( 97, 5)
( 97, 4)
( 58, 4)
(107, 4)
(261, 4)
(241, 4)
(160. 5)
(243, 4)
(165, 4)
(135, 5)
(228, 4)
(164, 4)
(136, 5)
(198, 5)
(218, 5)
170.32080
187.13940
230.42780
178.38170
254.10150
155.63780
170.33670
198.66420
174.83220
163.87730
179.09690
207.69200
169.94690
195.17390
182.89110
190.27420
215.98740
198.68190
171.36670
600.0
(157,
(276,
(158,
(207,
( 97,
(101,
(207,
(107,
(106,
(108,
(165,
(243,
(120,
(203.
(203,
(253.
(265,
(163,
(198,
5)
5)
6)
4)
5)
3)
3)
4)
5)
4)
6)
4)
5)
5)
5)
5)
4)
5)
5)
184.87790
171.91430
214.47070
181.97060
203.97910
146.99720
176.75600
193.02690
162.37780
158.14400
153.63360
176.58950
173.39490
173.11950
167.00970
158.68780
173.68470
153.66880
172.81910
800.0
( 45, 5)
(276, 5)
( 91, 6)
(207. 4)
(170, 5)
(101, 1)
(207, 3)
(205, 6)
( 76, 8)
( 76, 6)
(165, 6)
(243, 4)
(253, 3)
(203, 6)
(308, 5)
(255, 3)
(136, 6)
(163, 5)
(162, 6)
-------�
Table 12.10 AJAX AT AJAX ALONE (SELECTED PORTIONS)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
*** SOURCE DATA ***
SOURCE
NUMBER
101
T
Y
P
E
0
U
A
K
E
0
NUMBER
PART.
CATS.
0
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND X
*PER METER**2 (METERS)
.30000E+02 .0
BASE
Y ELEV.
(METERS) (METERS)
.0 .0
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
HEIGHT TYPE=1
(METERS) (METERS)
18.20 394.00
EXIT VEL
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1.2
(METERS)
18.50
DIAMETER
TYPE=0
(METERS)
1.21
BLDG.
HEIGHT
TYPE=0
(METERS)
.00
BLDG.
LENGTH
TYPE=0
(METERS)
.00
BLDG.
WIDTH
TYPE=0
(METERS)
.00
HIGH
3-HR
SGROUP* 1
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
H
to
Ul
00
* HIGHEST 3-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
DIRECTION /
(DEGRFES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
200.0
56.00471 (156,
70.92096 (183,
74.61827 (221,
74.61697 (221,
63.67800 (170,
47.65584 (170,
39.56117 (138,
63.09909 (159,
101.41370 (159,
82.46130 (159,
88.00731 (160,
68.98858 (160,
46.81931 (165,
81.23583C(152,
73.73926C(152,
58.82997 (228,
54.99479 (265,
61.75127 (198,
63.43410 (218.
4)
5)
5)
5)
5)
5)
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
5)
152.73190
206.68730
170.01240
176.87630
202.88840
135.26090
141.14910
186.67790
215.95960
187.70340
217.10970
173.08020
151.87310
150.29250
167.64160
167.99730
182.69440
179.85950
175.39970
300.0
(156,
(139,
(139,
(140,
(170,
(107,
(138,
( 96,
(159,
(106,
(160,
(160,
(165,
(165,
(219,
(228,
(265,
(198,
(218,
4)
4)
4)
4)
5)
5)
4)
5)
4)
4)
4)
4)
4)
4)
5)
4)
4)
5)
5)
RANGE
178.48410
237.18490
202.06830
246.52650
267.65390
181 .33870
177.30620
244.75310
219.74840
240.63680
232.78640
242.77840
216.11100
194.70180
210.36840
196.55020
234.64340
229.44810
203.82510
(METERS)
400.0
(170, 4)
(139, 4)
(208, 5)
(140, 4)
(170, 5)
(107, 5)
(138, 4)
( 96, 5)
(159, 4)
(106, 4)
(160, 4)
(160. 5)
(135, 5)
(203, 5)
(219, 5)
(228, 4)
(265, 4)
(136. 5)
(198, 5)
170.89230
198.01880
231.11840
240.02140
259.18870
169.61030
170.55110
224.06940
214.12420
214.91260
195.07770
253.27710
224.88140
200.77630
183.12240
198.51080
230.12630
208.48730
181.62210
600.0
( 85, 6)
(126, 5)
( 89, 5)
(140. 4)
(170, 5)
(107, 5)
( 58. 4)
( 96, 5)
(261, 4)
(106, 4)
(160, 5)
(160, 5)
(135, 5)
(120, 4)
(219, 5)
(257. 4)
(255, 3)
(136, 5)
(268, 3)
192.58090
183.39020
231.14370
185.98420
220.39130
160.08580
180.13540
201.43330
201.87280
161.68550
171.80980
197.87580
178.60400
178.43740
188.69980
159.99770
226.64860
160.72590
205.30670
800.0
( 85, 6)
(208, 6)
(158, 6)
(140. 4)
( 97. 5)
(101, 3)
(122, 6)
(346, 4)
(261. 4)
(106, 4)
(288, 6)
(160, 5)
(135, 5)
(120. 4)
(204, 1)
(257, 4)
(255. 3)
(336. 5)
(255, 5)
-------�
Table 12.9 AJAX SCREENING ANALYSIS Ccont.)
Ul
10
****WINDS CONSTANT WITH HEIGHT****
STABILITY
4
4
4
4
4
4
4
4
4
4
4
4
4
4
WIND SPEED MAX CONC
(H/SEC) (UG/CU H)
.50 2.0550E+01
.80 3.9100E+01
1.00 5.1515E+01
1.50 8.2694E+01
2.00 1.1187E+02
2.50 1.3721E+02
3.00 1.5986E+02
4.00 1.9759E+02
5.00 2.2665E+02
7.00 2.5438E+02
10.00 2.6624E+02
12.00 2.6571E+02
15.00 2.7136E+02
20.00 2.7063E+02
DIST OF MAX
(KM)
18.850
9.392
6.790
3.853
2.761
2.119
1.724
1.269
1.019
.874
.699
.633
.552
.470
PLUME HT
(M)
377.3(2)
242.6(2)
197.7
137.9
108.0
90.0
78.0
63.1
54.1
43.8
36.2
33.2
29.5
25.8
****UINDS CONSTANT UITH HEIGHT****
STABILITY
5
5
5
5
5
WIND SPEED MAX CONC
(H/SEC) (UG/CU M)
2.00 .6922E+02
2.50 .5602E+02
3.00 .4572E+02
4.00 .3037E+02
5.00 .1920E+02
DIST OF MAX
(KM)
3.202
2.924
2.717
2.427
2.229
PLUME HT
(M)
78.9
74.5
71.2
66.4
62.9
****UINDS CONSTANT UITH HEIGHT****
STABILITY
6
6
6
6
6
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
2.00 1.5989E+02
2.50 1.4892E+02
3.00 1.4019E+02
4.00 1.2689E+02
5.00 1.1700E+02
DIST OF MAX
(KM)
5.359
4.830
4.446
3.910
3.551
PLUME HT
(M)
68.6
64.9
62.2
58.2
55.3
****STACK TOP
WIND SPEED
(M/SEC)
.55
.88
1.09
1.64
2.19
2.73
3.28
4.38
5.47
7.66
10.94
13.13
16.41
21.88
****STACK TOP
WIND SPEED
(M/SEC)
2.47
3.08
3.70
4.93
6.17
****STACK TOP
WIND SPEED
(M/SEC)
2.78
3.48
4.17
5.56
6.95
WINDS (EXTRAPOLATED FROM
MAX CONC
(UG/CU M)
2.3314E+01
4.3739E+01
5.7402E+01
9.1297E+01
1.2171E+02
1.4819E+02
1.7148E+02
2.0944E+02
2.3696E+02
2.5890E+02
2.6655E+02
2.6775E+02
2.7238E+02
2.6804E+02
DIST OF MAX
(KM)
16.260
8.246
5.976
3.414
2.478
1.912
1.562
1.160
1.000
.823
.665
.599
.523
.449
WINDS (EXTRAPOLATED FROM
MAX CONC
(UG/CU M)
.5680E+02
.4422E+02
.3443E+02
.1986E+02
.0930E+02
DIST OF MAX
(KM)
2.940
2.687
2.502
2.240
2.061
WINDS (EXTRAPOLATED FROM
MAX CONC
(UG/CU M)
.4381E+02
.3332E+02
.2501E+02
.1243E+02
.0314E+02
DIST OF MAX
(KM)
4.598
4.160
3.839
3.395
3.092
10.0 METERS)****
PLUME HT
(M)
346.4(2)
223.4(2)
182.3
127.6
100.3
83.8
72.9
59.2
51.0
41.6
34.6
31.7
28.2
24.8
10.0 METERS)****
PLUME HT
(M)
74.8
70.7
67.6
63.1
59.9
10.0 METERS)****
PLUME HT
(M)
63.3
60.1
57.6
54.0
51.4
(1) THE DISTANCE TO THE POINT OF MAXIMUM CONCENTRATION IS SO GREAT THAT THE SAME STABILITY IS NOT LIKELY
TO PERSIST LONG ENOUGH FOR THE PLUME TO TRAVEL THIS FAR.
(2) THE PLUME IS CALCULATED TO BE AT A HEIGHT WHERE CARE SHOULD BE USED IN INTERPRETING THE COMPUTATION.
(3) NO COMPUTATION WAS ATTEMPTED FOR THIS HEIGHT AS THE POINT OF MAXIMUM CONCENTRATION IS GREATER THAN 100 KILOMETERS
FROM THE SOURCE.
-------�
Table 12.9 AJAX SCREENING ANALYSIS
PTPLU-2.0 (DATED 86196)
*** TITLE***
>»INPUT PARAHETERS<«
***OPTIONS***
IF = 1, USE OPTION
IF = 0, IGNORE OPTION
0 (GRAD PLUME RISE)
(STACK OOUMWASH)
(BUOY. INDUCED DISP
(1 = USE DEFAULT, 0
IOPT(1)
IOPT(2)
IOPT(3)
IDFLT
HUOR
= 1
= 1 (BUOY. INDUCED DISP.)
= 1
=2(1= URBAN, 2 = RURAL)
***METEOROLOGY***
AMBIENT AIR TEMPERATURE =
MIXING HEIGHT =
ANEMOMETER HEIGHT =
WIND PROFILE EXPONENTS =
NOT USE DEFAULT)
293.00 (K)
5000.00 (M)
10.00 (H)
A:
D:
.07,
.15,
B:
E:
.07,
.35,
C:
F:
.10
.55
***SOURCE***
EMISSION RATE
STACK HEIGHT
EXIT TEMP.
EXIT VELOCITY
STACK DIAM.
a
a
a
a
a
30
18
394
18
1
.00
.20
.00
.50
.21
(G/SEC)
(M)
(K)
(M/SEC)
(M)
***RECEPTOR HEIGHT***
.00 (H)
VOLUMETRIC FLOU = 21.27 (M**3/SEC)
>»CALCULATED PARAMETERS<«
BUOYANCY FLUX PARAMETER =
17.02 (M**4/SEC**3>
****UINDS CONSTANT WITH HEIGHT****
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
to
(T>
O
STABILITY
1
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
.50 1.4602E+02
.80 1.8063E+02
1.00 1.9684E+02
1.50 2.2424E+02
2.00 2.4512E+02
2.50 2.6081E+02
3.00 2.7488E+02
DIST OF MAX
(KM)
.833
.672
.609
.513
.439
.383
.347
PLUME HT
(M)
377.3(2)
242.6(2)
197.7
137.9
108.0
90.0
78.0
****UINDS CONSTANT WITH HEIGHT****
STABILITY
2
2
2
2
2
2
2
2
2
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
.50 8.3806E+01
.80 1.1726E+02
1.00 1.3623E+02
1.50 1.7516E+02
2.00 2.0501E+02
2.50 2.2824E+02
3.00 2.4642E+02
4.00 2.7183E+02
5.00 2.8867E+02
DIST OF MAX
(KM)
2.190
1.464
1.216
.879
.707
.601
.530
.440
.372
PLUME HT
(H)
377.3(2)
242.6(2)
197.7
137.9
108.0
90.0
78.0
63.1
54.1
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
.52 1.4907E+02
.83 1.8371E+02
1.04 1.9983E+02
1.56 2.2684E+02
2.09 2.4803E+02
2.61 2.6421E+02
3.13 2.7782E+02
DIST OF MAX
(KM)
.817
.659
.598
.495
.430
.374
.339
****STACK TOP WINDS (EXTRAPOLATED FROM
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
.52 8.6433E+01
.83 1.2067E+02
1.04 1.4001E+02
1.56 1.7943E+02
2.09 2.0941E+02
2.61 2.3251E+02
3.13 2.5042E+02
4.17 2.7505E+02
5.21 2.9172E+02
DIST OF MAX
(KM)
2.111
1.414
1.175
.851
.685
.584
.516
.429
.362
PLUME HT
(M)
362.6(2)
233.4(2)
190.4
133.0
104.3
87.1
75.6
10.0 METERS)****
PLUME HT
(M)
362.6(2)
233.4(2)
190.4
133.0
104.3
87.1
75.6
61.2
52.6
****WINDS CONSTANT WITH HEIGHT*
STABILITY WIND SPEED MAX CONC DIST OF MAX
****STACK TOP WINDS (EXTRAPOLATED FROM 10.0 METERS)****
(M/SEC) (UG/CU M)
2.00
2.50
3.00
4.00
5.00
7.00
10.00
12.00
15.00
1.8588E+02
2.1306E+02
2.3539E+02
2.6880E+02
2.9117E+02
3.1496E+02
3.2269E+02
3.1894E+02
3.2134E+02
OF MAX
(KM)
1.167
.964
.830
.665
.567
.456
.374
.342
.302
PLUME HT
(M)
108.0
90.0
78.0
63.1
54.1
43.8
36.2
33.2
29.5
WIND SPEED MAX CONC
(M/SEC) (UG/CU M)
2.12 1.9309E+02
2.65 2.2042E+02
3.19 2.4261E+02
4.25 2.7520E+02
5.31 2.9640E+02
7.43 3.1761E+02
10.62 3.2203E+02
12.74 3.1892E+02
15.93 3.2117E+02
DIST OF MAX
(KM)
1.108
.917
.791
.636
.544
.440
.363
.331
.293
PLUME HT
(M)
102.8
85.8
74.6
60.5
52.0
42.4
35.1
32.2
28.7
-------�
Table 12.1O AJAX AT AJAX ALONE (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
HIGH
24 -HR
SGROUP# 1
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 81.51737 AND OCCURRED AT ( 800.0, 310.0) *
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
200.0
11.610550(139,
15.11540CO39,
12.436450(221,
12.444720(221,
11.449580(170,
7.793960(107,
11.34015C(138,
13.863420(159,
20.606410(159,
17.490870(159,
16.738170(160,
16.499670(160,
11.032040(165,
13.916410(152,
14.224300(228,
15.967380(228,
16.930180(136,
18.207930(198.
17.926360(198.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
300.0
43.344380(157,
49.926060(139,
41.706990(139,
44.75119 (140,
35.38930C(170,
34. 8991 4C( 107,
39.547310(138,
43.23565C( 96,
56.960080(159,
46.576360(159,
54.663960(160,
59.417730(160,
36.303150(160,
39.12474 (203,
46.479240(228,
50.138560(228,
60.487090(136,
55.18168C(198,
55.992560(198,
RANGE (METERS)
400.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
62.
61.
57.
62.
50.
49.
623420(157,
349390(139,
79297 (158,
01224 (140,
33685C( 97,
51642C(107,
49.571650(138,
55.
67.
54.
70.
79.
44.
61.
59.
62.
78.
65.
68.
09171C( 96.
102830(159.
154140(159,
10569C(160,
159940(160,
972080(160,
20968 (203,
29794C(228,
382220(228,
973020(136,
15414C(198,
092680(198,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
600.0
71.083030(157,
55.87399 (208,
68.05121 (101,
63.00685 (140,
59.31226C( 97,
71.58576 (101,
58.99526 (303,
71.78517 (303,
57.40458 ( 77,
51.60446C(106,
66.850110(160,
78.03935C(160,
40.525150(135.
73.80366 (203,
65.62880 (203.
57.247690(228,
75.766890(136,
50.33810C(198,
74.46028 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
800.0
65.002320(157,
48.59921 (208,
70.16095 (102,
55.55084 (123,
57.81352C( 97,
76.00575 (101,
66.36111 (303,
81.51737 (303,
72.79253 ( 76,
50.20086 ( 77,
65.24101 (204,
63.750560(160,
55.89021 ( 36,
69.06136 ( 36,
57.14759 (203,
43.001990(228,
61.917600(136,
49.920400(257,
80.01038 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.10 AJAX AT AJAX ALONE (SELECTED PORTIONS) (coot.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
HIGH
24-HR
SGROUP0 1
NJ
a\
ro
* HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUBIC METER
" FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 81.51737 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
65.
40.
74.
58.
53.
69.
70.
79.
78.
53.
64.
51.
60.
75.
47.
38.
51.
48.
76.
1000.0
30875C( 72,
67836 (208,
68170 (102,
69736 (123,
44813C( 97,
38086 (101,
37419 (325,
49136 (303,
15698 ( 76,
19716 ( 16,
08752 (204,
64675C(160,
78123 ( 36,
52271 ( 36,
88629 (11,
49187 (269,
913180(136,
04832C(257,
34334 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1400.0
55.94486C( 72,
30.15898C( 72,
64.58287 (102,
50.71304 (123,
42.06564C( 97,
51.89254 (101,
61.24988 (325,
65.96838 (303,
69.72267 ( 76,
57.73094 ( 16,
52.58526 ( 26,
43.91305 (262,
53.37018 ( 36,
66.79895 ( 36,
43.27895 (11,
37.20418 (269,
44.67588C( 12,
40.76585C(257,
62.96862 (162,
RANGE (METERS)
1800.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
46.09385C( 72,
26.22800C( 72,
53.24868 (102,
41.93786 (123.
34.422810(295,
42.52120 (123,
51.12536 (294,
55.26807 (294,
59.31537 ( 76,
55.28523 ( 16,
48.92394 ( 26,
37.24506 (262,
44.27413 ( 36,
55.70207 ( 36,
37.56135C(337,
33.81146 (269,
41.89540C( 12,
35.99583C(257,
53.31090 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
2400.0
34.69411C{ 72,
25.044980(156.
39.96513 (102.
31.64801 (123,
27.052740(295,
33.15365 (123,
40.16067 (294,
43.55862 (303,
48.01851 (345,
48.05317 ( 16,
41.64175 ( 26,
29.97156 (260,
33.31998 ( 36,
42.16302 ( 36,
33.93463C(337,
31.68336 (253,
35.65298C( 12,
31.42667C(257,
43.28001 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
3200.0
24.84260C( 72,
25.23187C(156,
29.62965C(313.
22.96967 ( 91.
20.031950(295,
24.42975 (123,
29.98645 (294,
33.49312 (303,
37.47510 (345,
38.56464 ( 16,
33.52519 ( 26,
26.33460C( 18.
23.73100 ( 36.
32.94205C(362.
29.505250(337,
28.62818 (253,
28.32005C(136,
27.41938C(257,
34.58595 (162.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.10 AJAX AT AJAX ALONE (SELECTED PORTIONS) (cent.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
2ND HIGH
24-HR
SGROUP* 1
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAHS/CUB1C METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
U>
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
200.0
10.54232C(157,
12.02608C(183,
12.07899C{183,
11.48153 (140,
9.02640C(146,
7.76044C(146,
8.24950C(107,
13.161840(138,
9.20676C( 96,
10.08138C(106,
9.05759C(159,
11.18636C(165,
10.79657C(160,
9.36590C(135,
12.608200(164,
15.55509CO64,
14.51628CO64,
11.31058C(136,
13.90677C(218,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
300.0
38.84615CM39,
38.29065 (208,
38.86144 (158,
32.69680 (158,
34.84313C( 97.
31.05873C(146,
32.27831C(107,
42.76206C(159,
35.13718C( 96,
39.87703C(106,
34.49157C(220/
37.25760C(165,
35.61752C(165,
35.92353C(135,
41.54710C(164,
45.77000C(164,
40.68035C(164,
40.256990(136,
48.101260(218,
RANGE (METERS)
400.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
47.34096C(139,
52.83473 (208,
52.45368C(139,
46.32815 (158,
44.69817C(170,
41.07152C(146,
45.12787C( 58,
51.442100(138,
49.55149C(106,
53.50093C(106,
45.50701C(220,
47.19375C(165,
43.22500C(165,
47.87569C(135,
57.11249 (203,
53.02547C(164,
53.60975C(163,
51.17883C(136,
63.081830(218,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
600.0
48.41083C( 72,
51.55784C(139,
66.35569 (158,
46.67041 (158,
40.31846 (101,
53.45275C(107,
50.53143 (294,
49.86397 (205,
55.06247C(159,
45.908840(108,
54.95835 (204,
43.14846C(165,
39.95314 ( 36,
48.98751 ( 36,
58.018150(228,
45.304410(136,
58.964350(163,
48.051770(265,
61.163280(218,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
62
45
69
53
46
49
65
66
72
48
53
45
39
68
51
39
54
40
51
800.0
.57518C( 72,
.421680(157,
.16626 (101,
.05697 (102,
.14537 (123,
.76576 (123,
.82391 (325,
.76443 (294,
.18132 ( 77,
.29949 ( 76,
.02403C(160,
.25513 (262,
.28981C( 74,
.68653 (203,
.19203C(120,
.41547 (253,
.615130(163,
.758990(336,
.69414 (348,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.10 AJAX AT AJAX ALONE (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX ALONE
2ND HIGH
24-HR
SGROUPO 1
to
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION HU.POGRAHS/CUB1C METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 74.54904 AND OCCURRED AT ( 1000.0, 300.0) *
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
^20.0 /
210.0 /
200.0 /
1000.0
56.49785C(157,
38.16293C(157,
62.50941 ( 19,
54.50161 (102,
46.91636 (123,
54.79136 (123,
67.47276 (294,
72.55974 (294,
74.54904 ( 77,
50.89484 ( 77,
50.67930 ( 26,
48.98705 (262,
43.18964 (262,
60.20650 (203,
46.94913 (203,
38.35860 (253,
49.53988C(342,
38.820360(336,
60.14724 (348,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
40.
28.
52.
45.
39.
49.
59.
65.
64.
42.
51.
41.
39.
49.
39.
35.
41.
37.
56.
1400.0
84108C(157,
18922 (208,
14698C(313,
32242 (102,
89896C(295,
73999 (123,
84336 (294,
04678 (294,
50333 ( 77,
50723 ( 77,
34779 (204,
40024 (260,
75147 (262,
78623C(362.
29181C(337,
30178 (253,
54625C(342,
15681 ( 48,
72808 (348,
RANGE (METERS)
1800.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
30.63847C(157,
22.76111C(156,
46.081780(313,
36.46203 (102,
33.57400C( 97,
39.40231 (101,
50.72500 (325,
55.16580 (303,
57.61368 (345,
34.69666 ( 77,
40.52058 (204,
36.97144 (260,
33.93445 (262.
47.31467C(362,
36.81450 (11,
33.79283 (253,
36.14235C(342,
34.62678 ( 48,
49.18438 (348.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
2400.0
21.24811C(157,
21.05704C( 72,
37.86246C(313,
29.30113 ( 91,
24.81096C( 97,
29.22840 (113,
38.23935 (325,
42.86458 (294,
46.19929 ( 76.
28.71708C( 4,
31.55398C( 4.
28.77130 (262,
26.19538 (262,
40.84581C(362,
28.52335 (11,
28.37990 (269,
31.40047C(136,
29.61394 ( 48,
38.60276 (348,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
3200.0
14.79652 ( 45,
16.43395C(174,
28.48891 (102,
22.70772 (123,
18.20646C( 68,
22.17353 (113,
27.36098 (325,
32.38878C( 52,
34.12928 ( 76,
23.64069C( 4,
28.89935C( 4,
22.68105 (260.
18.99385 (262,
30.20256 ( 36,
23.40294C(242,
24.49290C(337.
28.09937C( 12,
25.56526 (269,
28.59655C(267,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.11 WIDGET AT AJAX (SELECTED PORTIONS)
*** LESSON 12 AREA NEAR AJAX - 1979 WIDGET ALONE
*** SOURCE DATA ***
EMISSION RATE
TYPE=0,1
T W GRAMS/SECOND
Y A NUMBER TYPE=2
SOURCE P K PART. GRAMS/SECOND
BASE
ELEV.
HEIGHT
TEMP. EXIT VEL.
TYPE=0 TYPE=0
(DEG.K); (H/SEC); BLDG.
VERT.DIM HORZ.DIM DIAMETER HEIGHT
TYPE=1 TYPE=1,2 TYPE=0 TYPE=0
BLDG. BLDG.
LENGTH WIDTH
TYPE=0 TYPE=0
NUMBER E E CATS. *PER METER**2 (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS) (METERS)
1001 0 0
.16000E+02
.0
.0
.0 42.67 505.20
A.00
1.68 23.50 39.90 39.90
HIGH
3-HR
SGROUP# 1
*** LESSON 12 AREA NEAR AJAX - 1979 WIDGET ALONE
cn
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS
38.46821 AND OCCURRED AT ( 4800.0,
290.0) *
DIRECTION /
(DEGREES) /
340
.0 /
330.0 /
320
310
300
290
280
270
260
250
.0 /
.0 /
.0 /
.0 /
.0 /
.0 /
.0 /
.0 /
19
22
24
29
37
38
30
29
21
31
4800.0
.81420
.11671
.95645
.60266
.18775
.46821
.50081
.52203
.33785
.15698
(281,
(354,
(357,
( 13,
(300.
( 25.
( 25.
( 59.
(287,
(362,
RANGE (METERS)
3)
6)
2)
3)
7)
7)
8)
1)
8)
6)
-------�
Table 12.11 UIDGET AT AJAX (SELECTED PORTIONS) (cont.)
*** LESSOH 12 AREA NEAR AJAX - 1979 UIDGET ALONE
2ND HIGH
3-HR
SGROUP* 1
r
-------�
Table 12.11 WIDGET AT AJAX (SELECTED PORTIONS) (coot.)
2ND HIGH
24-HR
SGROUP* 1
*** LESSON 12 AREA NEAR AJAX - 1979 WIDGET ALONE ***
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM ALL SOURCES *
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 10.21634 AND OCCURRED AT ( 4800.0, 280.0) *
DIRECTION /
(DEGREES) /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
4800.0
4.64927C( 68,
6.04135 (113,
6.81135 (325,
8.47512 (205,
8.72000 (356,
7.68825C( 51,
10.21634C( 25,
6.15163 (260,
5.55255C(191,
7.61581 { 36.
RANGE (METERS)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX (SELECTED PORTIONS)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET ***
*** SOURCE DATA ***
T
Y
SOURCE P
NUMBER E
101 0
1001 0
U
A
K
E
0
0
NUMBER
PART.
CATS.
0
0
EMISSION RATE
TYPE=0.1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND
*PER METER**2
.30000E+02
.16000E+02
BASE
X Y ELEV.
(METERS) (METERS) (METERS)
.0 .0 .0
4500.0 -1900.0 .0
HEIGHT
(METERS)
18.20
42.67
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
TYPE=1
(METERS)
394.00
505.20
EXIT VEL,
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1,2
(METERS)
18.50
4.00
DIAMETER
TYPE=0
(METERS)
1.21
1.68
BLDG.
HEIGHT
TYPE=0
(METERS)
.00
23.50
BLDG.
LENGTH
TYPE=0
(METERS)
.00
39.90
BLDG.
WIDTH
TYPE=0
(METERS)
.00
39.90
HIGH
3-HR
SGROUP* 3
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
V
00
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
200.0
56.01029 (156,
70.92096 (183,
74.61902 (221,
74.61778 (221,
63.67800 (170,
48.22370 (130,
39.57509 (138,
64.49924 (159,
102.77640 (159,
83.78661 (159,
88.58298 (160,
69.60744 (160,
46.84066 (165,
81.23583C(152,
73.73926C(152,
58.82997 (228,
54.99479 (265,
61.75127 (198,
63.43410 (218,
4)
5)
5)
5)
5)
5)
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
4)
5)
5)
152.74570
206.68730
170.96810
176.87630
202.88840
136.58300
141.16550
187.27770
217.29930
190.74200
217.68740
173.72090
151.89870
150.32390
167.64160
167.99730
182.69440
179.85950
175.39970
300.0
(156,
(139,
(129,
(140,
(170,
(107,
(138,
( 96,
(159,
(106,
(160,
(160,
(165,
(165,
(219,
(228,
(265,
(198,
(218,
4)
4)
4)
4)
5)
5)
4)
5)
4)
4)
4)
4)
4)
4)
5)
4)
4)
5)
5)
RANGE
178.48410
237.18490
202.06830
246.52650
267.65390
182.78370
177.32540
245.36730
221.06570
243.58070
233.36530
242.88850
216.11100
194.70180
210.36840
196.55020
234.64340
229.44810
203.82510
(METERS)
400.0
(170, 4)
(139, 4)
(208, 5)
(140, 4)
(170, 5)
(107. 5)
(138, 4)
( 96, 5)
(159, 4)
(106, 4)
(160, 4)
(160, 5)
(135, 5)
(203, 5)
(219, 5)
(228, 4)
(265, 4)
(136, 5)
(198, 5)
170.89230
198.01880
231.11840
240.02140
259.18870
171.24850
170.62740
224.70840
216.31110
217.68010
195.16660
253.40860
224.88140
200.77630
183.12240
198.51080
230.12630
208.48730
181.62210
600.0
( 85, 6)
(126, 5)
( 89, 5)
(HO, 4)
(170. 5)
(107, 5)
( 58, 4)
( 96, 5)
(261, 4)
(106, 4)
(160, 5)
(160, 5)
(135, 5)
(120, 4)
(219. 5)
(257, 4)
(255, 3)
(136, 5)
(268, 3)
192.58090
183.39020
231.14370
185.98420
220.39130
160.08580
180.13540
201.43550
204.15820
173.16040
172.31440
198.02960
178.60400
178.43740
188.69980
159.99770
226.64860
161). 72590
205.30670
800.0
( 85. 6)
(208. 6)
(158, 6)
(140. 4)
( 97. 5)
(101, 3)
(122, 6)
(346, 4)
(261, 4)
(100, 5)
(288, 6)
(160, 5)
(135, 5)
(120, 4)
(204, 1)
(257. 4)
(255, 3)
(336. 5)
(255, 5)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX (SELECTED PORTIONS) (cent.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
HIGH
3-HR
SGROUP* 3
* HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
N)
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
1000.0
190.89860
170.59880
208.01500
162.02790
180.96900
151.65250
196.25470
226.25490
196.21850
197.03340
173.43530
162.95690
163.08830
149.77570
214.05700
135.41110
201.70100
152.85730
205.26380
< 85,
(208,
(158.
(207,
< 97,
(113,
(122,
(346,
< 76,
(100,
(288,
(262,
(262,
(120,
(204.
(255,
(255,
(336,
(255,
6)
6)
6)
4)
5)
6)
6)
4)
8)
5)
6)
4)
7)
4)
1)
3)
3)
5)
5)
1400.0
158.66000
130.88990
176.53280
120.98300
138.43100
140.56080
183.13610
206.50760
187.40810
188.71210
151.68620
147.91270
153.81340
130.69040
198.53480
113.10430
162.39800
127.69300
167.84290
( 85, 6)
(208, 6)
(103, 1)
(293, 6)
(295, 2)
(113, 6)
(357, 2)
(346, 4)
( 76, 8)
(100, 5)
(288, 6)
(262, 8)
(262. 7)
(287. 3)
(204, 1)
(269. 6)
(117, 1)
(257, 3)
(255. 5)
RANGE (METERS)
1800.0
129.50580
101.01560
149.31780
114.06800
110.58900
120.84540
160.28030
175.90540
170.47850
167.83460
131 .96940
128.13340
133.16470
113.60600
171.18370
105.07000
150.55650
109.54670
134.27280
( 85, 6)
(208. 6)
(103. 1)
(195, 1)
(295, 2)
(113, 6)
(357, 2)
(346, 4)
(113, 8)
(100, 5)
(288, 6)
(262, 8)
(262. 7)
(362, 6)
(204, 1)
(269. 6)
(117, 1)
(257, 3)
(255, 5)
2400.0
97.23105
93.98013
121.76120
99.17109
80.79874
94.41315
127.08210
136.31410
143.75010
149.14460
108.28030
100.65950
104.28870
111.59830
134.26310
95.27823
128.94540
90.42764
98.33448
( 85, 6)
(156, 7)
(157, 8)
(195, 1)
(295, 2)
(113, 6)
(357, 2)
(346, 4)
(113, 8)
( 25, 7)
(288, 6)
(262. 8)
(262, 7)
(362, 6)
(204, 1)
(119. 5)
(117. 1)
( 92, 8)
(255, 5)
3200.0
69.75753
93.25377
99.93462
81.12271
61.27393
75.15869
94.63660
101.23810
131.89870
129.53020
91.26986
85.27105
76.71462
99.30665
103.92470
99.12467
104.19860
( 85, 6)
(156, 7)
(157, 8)
( 91, 2)
( 68, 8)
(354. 6)
(357, 2)
(110, 6)
(300, 7)
( 25, 7)
( 18. 6)
(59. 1)
(262, 7)
(362, 6)
(260, 1)
(242, 1)
(117, 1)
80.94495C(200, 7)
81.04891
(162, 8)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
2ND HIGH
3-HR
SGROUPtf 3
* SECOND HIGHEST 3-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
50.34964
68.07846
63.27360
56.89342
48.94437
47.65584
39.43113
54.04807
51.09862
58.55334
47.78181
50.17060
45.07244
46.16044
50.91697
55.01474
50.59608
54.33493
55.49731
200.0
(183, 5)
(139, 4)
(129, 4)
(168, 4)
(146, 5)
(170, 5)
(130, 5)
(138, 5)
(130, 5)
(160, 4)
(243, 4)
(243, 4)
(160, 4)
(165, 4)
(228, 4)
(136, 4)
(136, 5)
(198, 4)
(198, 5)
142.18500
185.96920
170.01240
151.38910
154.25300
132.11150
126.22650
168.41630
135.77050
166.13700
151.92220
165.16130
149.86110
138.74740
158.52470
161.67660
179.55450
177.68180
169.43170
300.0
(139, 4)
(183, 5)
(139, 4)
(153, 4)
( 97, 5)
(170, 5)
( 58, 4)
(159, 4)
(130, 5)
(159, 4)
(243, 4)
(160, 5)
(135. 5)
(135, 5)
(228, 4)
(164, 4)
(136, 5)
(136, 5)
(198, 5)
RANGE
173.72070
204.81070
198.84030
190.26480
228.24740
164.73470
175.29590
212.79840
184.72710
177.46010
193.19190
205.06240
184.53440
186.27960
191.69960
193.35770
232.38820
210.16640
199.85460
(METERS)
400.0
(157,
(183,
( 89,
(158,
( 97,
( 97,
( 58,
(107,
(261,
(241,
(160,
(243,
(165,
(135.
(228.
(164.
(136,
(198,
(218,
5)
5)
5)
4)
5)
4)
4)
4)
4)
4)
5)
4)
4)
5)
4)
4)
5)
5)
5)
170.32080
187.13940
230.42780
178.38170
254.10150
155.63780
170.33690
198.83740
176.52040
166.89060
179.86480
207.96480
169.94690
195.17390
182.89110
190.27420
215.98740
198.68190
171.36670
600.0
(157, 5)
(276, 5)
(158, 6)
(207, 4)
( 97, 5)
(101. 3)
(207, 3)
(107, 4)
(106, 5)
(108, 4)
(220, 4)
(243. 4)
(120, 5)
(203, 5)
(203, 5)
(253, 5)
(265, 4)
(163, 5)
(198, 5)
800.0
184.87790 ( 45.
171.91430 (276,
214.47070 ( 91,
181.97060 (207,
203.97910 (170.
146.99720 (101,
176.75630 (207,
193.30380 (205,
170.13680 ( 76,
166.77880 ( 77,
153.92200 (165,
176.90680 (243,
173.39490 (253,
173.11950 (203,
167.00970 (308,
158.68780 (255,
173.68470 (136.
153.66880 (163,
172.81910 (162,
5)
5)
6)
4)
5)
1)
3)
6)
8)
6)
6)
4)
3)
6)
5)
3)
6)
5)
6)
-------�
Table 1Z.12 COMBINED ANALYSIS AT AJAX (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
2ND HIGH
3-HR
SGROUPff 3
* SECOND HIGHEST 3-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 254.10150 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
1
173.46790
143.18010
199.67080
144.85190
172.75710
150.87540
191.41340
207.60420
183.61120
161 .90380
135.46030
157.77810
157.52150
146.58580
151.51310
134.65250
163.18040
148.39290
162.76010
000.0
( 45, 5)
(276, 5)
( 19, 8)
(301, 4)
( 87, 6)
( 78, 6)
(357, 2)
(294, 2)
(204, 8)
( 76, 6)
(171, 6)
(262, 8)
(253, 3)
(203, 6)
(254, 3)
(118, 3)
(117, 1)
(283, 2)
(162, 6)
1
132.99420
101.67560
159.60990
120.74770
132.42560
134.98840
174.08100
186.62960
184.28500
168.82640
126.33310
127.87260
133.91210
129.78900
137.99010
110.00250
152.77390
126.48500
126.13500
400.0
( 45, 5)
( 59, 5)
( 19, 8)
(195, 1)
( 87, 6)
( 78, 6)
(122, 6)
(294, 2)
(113, 8)
( 4, 6)
( 78, 2)
(262, 4)
( 93, 5)
(362, 7)
( 50, 2)
(253, 6)
(255, 3)
(283, 2)
(162, 6)
RANGE
1
108.60800
83.34897
138.25650
103.13550
102.09510
114.02060
145.91720
157.99160
165.48320
163.64020
110.36580
110.76580
119.16860
113.52840
123.69300
103.60790
120.74450
107.01360
103.91500
(METERS)
I800.0
(150, 4)
( 59, 5)
(157, 8)
(293, 6)
( 87. 6)
( 78. 6)
(122, 6)
(294, 2)
( 76, 8)
( 25, 7)
( 78, 2)
( 50, 4)
( 93, 5)
(261, 8)
( 50, 2)
(119, 5)
(255, 3)
( 92, 8)
(348, 2)
81.32781
73.64792
114.75970
90.54550
77.84288
91.21773
111.41200
129.61100
141.97380
136.84970
92.99811
97.28220
95.62125
91.77056
119.06390
90.13693
101.73860
86.19166
84.00177
!400.0
(150,
( 72.
(103,
( 91,
(295,
(354,
(122.
(110,
(114,
( 4.
(261.
(289,
( 93,
(261,
(260,
(269,
( 11,
(347,
( 12,
4)
4)
1)
2)
3)
6)
6)
6)
7)
6)
6)
3)
5)
8)
1)
6)
1)
5)
4)
58.19769
74.54973
83.40581
80.87885
60.32026
69.64457
80.71429
100.02000
118.89870
109.40240
85.73565
83.14141
75.14594
76.90825
99.37189
98.94989
79.35919
78.83424
69.69169
5200.0
(150, 4)
(174, 8)
(103, 1)
(195, 1)
(281, 3)
(113, 6)
(122. 6)
(346. 4)
(114, 7)
( 4. 6)
(288, 6)
(289, 3)
(261, 2)
(261, 1)
(204, 1)
(290, 1)
( 11. 1)
(269, 8)
(117, 6)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX (SELECTED PORTIONS) (cont.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
HIGH
24 -HR
SGROUP* 3
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAHS/CUBIC HETER
* FROM SOURCES: 101, 1001.
* FOR THE RECEPTOR GRID *
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
200.0
12.70185C(157,
15.11540CO39,
15.55120C(129,
12.763460(221.
12.76406C(170,
9.80705 ( 16,
11.37116CO38,
16.33625CC159,
23.03079C(159,
19.85403C(159,
17.19054CM60,
16.984740(160,
12.78868CO65,
15.72755C(152,
14.224300(228,
15.96738C(228,
16.93019CO36,
18.20793C(198,
17.92636C(198,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
300.0
45.54731C(157,
49.926060(139,
41.70699C(139,
44.82797 (140,
36.409050(170,
35.15362C(107,
39.581680(138,
45.20131C(159,
59.34245CO59,
48.87259C(159,
55.119320(160,
59.92154C(160,
37.79584C(165,
41.10232 (203,
46.479240(228,
50.138560(228,
60.487120(136,
55.181680(198,
55.99256C(198,
RANGE (METERS)
400.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
64.634800(157,
61.349400(139,
57.97264 (158,
62.18908 (140,
50.36641C( 97,
49.79826C(107,
49.609420(138,
55.53129C( 96,
69.442660(159,
56.38627C(159,
70.563430(160,
79.68173C(160,
45.803840(165.
63.61950 (203,
59.72746 (203,
62.382220(228,
78.97306C(136,
65.15414C(198,
68.092680(198,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
72.
56.
68.
63.
59.
71.
60.
73.
61.
52.
67.
78.
40.
76.
67.
57.
75.
50.
74.
600.0
48122C{157,
36548 (208,
05121 (101,
61653 (140,
38235C( 97,
58576 (101,
19253 (303,
07212 (303,
41496 ( 77,
300040(106,
311200(160,
596180(160,
52515C(135,
25598 (203,
59200 (203,
24770C(228,
76704C(136,
33810C(198,
46028 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
800.0
66.50258C(157,
49.40522 (208,
70.16095 (102,
55.97771 (123,
57.96257C( 97,
76.00575 (101,
68.74213 (325,
82.78838 (303,
77.50467 ( 76.
53.88377 ( 77,
68.56854 (204,
64.342830(160,
55.89021 ( 36.
70.22296 (203,
57.93917 (203,
43.002020(228,
61.918040(136,
49.92040C(257,
80.01038 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX CSELECTED PORTIONS) (coot.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
* HIGHEST 24-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 82.84127 AND OCCURRED AT (
HIGH
24-HR
SGROUP* 3
N)
-J.
U)
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
1000.0
66.96948CC 72,
42.01124 (208,
74.68170 (102,
58.91466 (123,
53.72812C( 97,
69.38086 (101,
73.18286 (325,
80.63929 (303,
82.84127 ( 76,
62.04656 ( 16,
67.33740 (204,
52.27596C(160,
60.78125 ( 36,
75.52287 ( 36,
47.88629 (11,
38.49791 (269,
51.91424CO36,
48.04832C(257,
76.34334 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1400.0
56.36437C( 72,
30.80147C( 72,
64.58287 (102,
50.86969 (123,
42.75162C( 97,
51.89255 (101,
63.68524 (325,
66.74454 (303,
74.34448 ( 76,
65.93661 ( 16,
56.58559 ( 26,
43.91589 (262,
53.37037 ( 36,
66.80123 ( 36,
43.27895 (11,
37.28345 (269,
44.67588C( 12,
40.76585C(257,
62.96862 (162,
RANGE (METERS)
1800.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
46
26
53
42
35
42
52
56
63
62
52
37
44
55
37
34
41
35
53
,11610C( 72,
.29885C( 72,
.24868 (102,
.38006 (123,
,02507C(295,
.63803 (123,
.69571 (325,
.10651 (294,
.86125 ( 76,
.91759 ( 16.
.72243 ( 26,
.25043 (262,
.27520 ( 36,
.71805 ( 36,
.89062C(337,
.16337 (269.
.89540C( 12,
.99583C(257,
.31090 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
2400.0
34.69418C( 72,
25.86308C(156,
39.96517 (102,
32.59671 (123,
28.23100C(295,
33.43399 (113,
41.78477 (294,
44.14036 (205,
50.93165 (345,
54.93714 ( 16,
45.31227 ( 26,
30.06617 (260,
33.32791 ( 36,
42.27849 ( 36,
34.13377C(337,
31.89151 (253,
35.65298C( 12,
31.42667C(257,
43.28001 (162.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
3200.0
26.3B885C( 72.
25.44300C(156,
29.62965C(313,
23.90876 (123,
21.18034C(295,
26.00041 (113,
32.01308 (294.
34.71309C{ 52.
40.19402 (345,
44.61984 ( 16,
37.19549 ( 26,
29.18644C( 18,
23.77824 ( 36,
32.94629C(362,
29.74179C(337,
29.34775 (253,
28.37531C(136,
27.419380(257,
34.58595 (162,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX (SELECTED PORTIONS) (cant.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
2ND HIGH
24 -HR
SGROUP* 3
* SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION HICROGRAMS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
MAXIMUM VALUE EQUALS
78.26305 AND OCCURRED AT (
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
11
12
12
12
9
9
10
13
10
10
11
12
11
11
13
15
14
11
13
200.0
.61055C(139,
.026080(183,
.76254C(221,
.15715C(129,
.71621 ( 16,
.07062 (130,
.35856 (130,
.189360(138,
.52288 (130,
.87524C(106,
.35069C(159,
.686430(165,
.314820(160,
.00424 ( 16,
.56347CO52,
.67794C(164,
.631860(164,
.41252 ( 16,
.90677C(218,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
300.0
38.846160(139,
38.48476 (208,
38.95311 (158,
3? 76903 (158,
34.6: !74C( 97,
31.076810(146,
33.07542C( 58,
43.69253C( 96,
35.59461C( 96,
40.644290(106,
34.720320(220,
39.02793C(165,
36.857830(160,
35.923530(135,
41.638100(164,
45.853340(164,
40.760000(164,
40.257020(136,
48.101260(218,
RANGE (METERS)
400.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
47.34096C(139,
53.11108 (208,
52.453680(139,
46.46341 (158,
45.426360(170,
41.092480(146,
47.68719C( 58,
53.623080(159,
50.27900C(106,
54.243000(106,
45.73575C(220.
49.23797C(165,
45.563960(160,
47.87569C(135,
59.297940(228,
53.092360(164,
53.60975C(163,
51.17889C(136,
63.081830(218,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
600.0
50.87265C( 72,
51.864230(157,
66.86317 (158,
47.03749 (158,
40.438750(170,
53.783530(107,
51.62842 (325,
53.85547 (205,
59.51699 ( 76,
49.302090(129,
58.35757 (204,
45.693480(165,
39.99875 (203,
48.98751 ( 36,
58.018150(228,
45.30451C(136,
58.964350(163,
48.051770(265,
61.163280(218,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
800.0
64.43963C( 72,
46.781150(157,
69.16627 (101,
53.05697 (102,
46.72323 (123,
50.50007 (123,
67.22526 (303,
68.56286 (205,
76.03792 ( 77,
52.02004 ( 76,
53.487060(160,
45.25604 (262,
40.46247C( 74,
69.06139 ( 36.
53.26713C(120,
39.41627 (253,
54.615130(163,
40.758990(336,
51.69414 (348,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Table 12.12 COMBINED ANALYSIS AT AJAX {SELECTED PORTIONS) (coot.)
*** LESSON 12 AREA NEAR AJAX - 1979 AJAX PLUS WIDGET
2ND HIGH
24-HR
SGROUP* 3
SECOND HIGHEST 24-HOUR AVERAGE CONCENTRATION NICROGRAHS/CUBIC METER
* FROM SOURCES: 101, 1001,
* FOR THE RECEPTOR GRID *
DIRECTION /
(DEGREES) /
20.0 /
10.0 /
360.0 /
350.0 /
340.0 /
330.0 /
320.0 /
310.0 /
300.0 /
290.0 /
280.0 /
270.0 /
260.0 /
250.0 /
240.0 /
230.0 /
220.0 /
210.0 /
200.0 /
1000.0
58.61892C(157,
40.10762C(157,
64.92846 ( 19,
54.50161 (102,
47.27400 (123,
55.35029 (123,
68.47856 (294,
73.36034 (294,
78.26305 ( 77,
54.40293 ( 77,
55.01532 ( 26,
48.98843 (262,
43.19423 (262,
60.89425 (203,
47.48554C(120,
38.36119 (253,
49.53988C(342,
38.82036C(336,
60.14724 (348,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1400.0
41.55904C(157,
30.43935 (208.
53.49788 ( 19,
45.32242 (102,
40.12239C(295,
49.99982 (123,
60.97720 (294,
65.87283 (294,
67.96140 ( 77,
45.70465 ( 77,
54.42948 (204,
41.67409 (260,
39.76556 (262,
49.78623C(362,
39.66240C(337,
35.31800 (253,
41.54625C(342,
37.28000 ( 48,
56.72808 (348,
RANGE (METERS)
1800.0
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
30.65417C(157,
23.61873C(156,
46.08178C(313,
37.01149 ( 91,
34.69614C( 97.
39.46958 (113,
52.43460 (294,
56.00613 (205,
60.67305 (345,
37.62682 ( 77,
43.42508 (204,
37.10951 (260,
33.97340 (262,
47.31467C(362,
36.81450 (11,
33.85108 (253.
36.14235C(342,
35.22285 ( 48,
49.18438 (348,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
21
21
37
30
26
33
39
43
50
32
36
29
26
40
29
29
31
30
38
2400.0
.28341 ( 62,
.05742C( 72,
.86246C(313.
.20278 ( 91,
.20352C( 97,
.27960 (123,
.66574 (325,
.87355 (303,
.60360 ( 76,
.07075C( 4,
.22620C( 4,
.30859C( 18,
.33386 (262,
.84594C(362,
.28264 (262,
.10521 (269.
.43200C(136,
.14626 ( 48,
.60276 (348.
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
3200.0
14.99825C(150,
16.43617C(174,
28.49833 (102,
23.22070 ( 91,
18.58320C( 97,
24.75306 (123,
28.63813 (325,
33.94335 (303,
38.30296 ( 76,
26.92928C( 51,
33.01196C( 4,
22.86171 (260,
19.69586C(191,
30.68979 ( 36,
23.80990C(242,
26.40363C(290,
28.09937C( 12,
25.59523 (269.
28.59655C(267,
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
1)
-------�
Lesson 13
Other Modeling Considerations
13-1
-------�
I. Fugitive Dust and Fugitive Emissions
Example Source
Source Type Area
Emission Rate (g/s/m2) 0.001
Side Length (m) 30.0
Settling Categories 6
Mass Fraction
.10000, .40000, .28000, .12000, .0 ,uO, .04000,
Settling Velocity (m/s)
.0010, .0070, .0190, .0370, .0610, .0990,
Surface Reflection Coefficient
1.00000, .82000, .72000, .65000, .59000, .50000,
Note: Settling parameters are from the ISCST User's Guide Example. See
Table 13.1 for details.
Concentrations With and Without Settling
Baton Rouge 1979
Downwind Source Ht. 1.0 m
Distance Without With
(m) Settling Settling
-source Ht. lo.o m-
Without with
Settling Settling
25
50
100
200
300
500
1000
2000
3000
5000
10000
20000
30000
10808.28
8076.10
5597.82
3449.06
2333.99
1203.38
426.87
150.79
84.20
42.00
16.67
6.93
4.25
9757.80
7805.12
4945.92
2774.51
1784.53
866.69
281.62
88.25
44.71
18.88
5.63
1.54
0.72
786.39
821.15
911.50
658.22
540.23
613.06
332.41
135.75
78.69
40.27
16.29
6.84
4.20
723.97
779.80
980.77
734.42
980.67
768.55
309.45
101.36
51.54
21.72
6.41
1.73
0.80
Are concentrations always reduced by using settling? (No.)
13-2
-------�
II. Velocity dependent emissions
The ISC models allow the user to scale emission rates dependent on wind speed
and stability class. The following is one technique for calculating scalars:
v2j Where:
Si = Scalar for wind-speed class i
Vj = Average wind-speed for class i
Fj = Freq. of occurrence of class i
(F; v2j)
EXAMPLE 1
SCALARS FOR FUGITIVE EMISSIONS
TYPICAL AVERAGE WIND SPEEDS
Class 1 Class 2
Wind-Speed Class
Class 3 Class 4
Class 5 Class 6 TOTAL
Ave Sp (v)
Freq. (F)
v2
F*v2
Scalar (S)
CHECK
1.5
0.16644
2.250
0.3745
0.1378
2.5
0.43242
6.250
2.703
0.383
4.3
0.22032
18.490
4.074
1.132
6.8
0.16381
46.240
7.575
2.832
9.5
0.01598
90.250
1.442
5.527
12.5
0.00103
156.250
0.1609
9.569
1.000
16.329
0.0229
0.1656
0.2494
0.4639
0.0883
0.0099
1.000
NOTE: The wind-speed class boundaries are the default values used in ISCST. The ISCLT values
are used for the average speed for each class. The frequency of occurrence was calculated from the
Baton Rouge 1979 hourly binary file.
EXAMPLE 2
SCALARS FOR FUGITIVE EMISSIONS
ACTUAL AVERAGE WIND SPEEDS
Wind-Speed Class
Class 1 Class 2 Class 3 Class 4
Class 5 Class 6 TOTAL
Ave Sp (v)
Freq. (F)
v2
F*v2
Scalar (S)
1.001
0.16644
1.002
0.1668
0.0759
2.311
0.43242
5.341
2.310
0.405
4.031
0.22032
16.249
3.580
1.231
5.920
0.16381
35.046
5.741
2.655
8.870
0.01598
78.677
1.257
5.961
11.832
0.00103
139.996
0.1442
10.61
1.000
276.311
13.199
CHECK
0.0126
0.1751
0.2712
0.4349 0.0953
0.0109
1.000
NOTE: The wind-speed class boundaries are the ISCST default values. The average speed for each
class and the frequency of occurrence was calculated from the Baton Rouge 1979 hourly binary file.
13-3
-------�
Comparison of Concentrations With and Without
Velocity Dependent Emission Rates
(Same Source and Met. Data as Section I)
1.0
Source Ht.
Downwind Uith With
Distance Without Example 1 Example 2
(m) Scalars Scalars SeaLars
Source Ht. 10.0 m
With With
Without Example 1 Example 2
Scalars Scalars Scalars
25
50
100
200
300
500
1000
2000
3000
5000
10000
20000
30000
10808.28
8076.10
5597.82
3449.06
2333.99
1203.38
426.87
150.79
84.20
42.00
16.67
6.93
4.25
9242.93
5565.66
3091.28
1320.99
893.92
460.89
163.50
57.75
32.25
16.09
6.39
3.25
2.30
10248.45
6171.14
2898.07
1396.87
945.26
487.36
172.88
61.07
34.10
17.01
6.75
3.04
2.15
786.39
821.15
911.50
658.22
540.23
613.06
332.41
135.75
78.69
40.27
16.29
6.84
4.20
214.44
597.43
687.20
559.15
396.38
234.80
127.32
51.99
30.14
15.42
6.24
3.25
2.30
226.76
560.09
644.24
588.41
417.12
248.29
134.62
54.97
31.86
16.30
6.59
3.04
2.15
Table 13.2 presents details of the above comparison.
III. Expected Exceedance
Goal -- To determine the probability of a power plant causing a violation of a
short-term standard.
Methodology ~ Determine the frequency distribution of SO2 emission rates.
Randomize the emission data between multiple runs of ISCST. Express results of
the multiple runs as Violation Probability -vs- Mean Emission Rate.
IV. Chemical Transformation
A. NOX If site specific data is available, it is allowed to be used. Some states
and locals may allow "typical" values (e.g. TACB regulations contain factors
to be used for 1C engines).
B. SO2 - Generally, use a half-life of 4 hours for urban areas. No decay for
rural areas.
C. Discuss other considerations
13-4
-------�
V. Background Pollutant Concentrations
A. Use monitoring data from a nearby monitor or from a monitor in a similar
area.
B. Eliminate values when the wind is blowing from an existing source.
VI. Accuracy and Uncertainty of Model Results (50% to 200%)
VII. Summary
VIII. Questions
13-5
-------�
Table 13.1 GRAVITATIONAL SETTLING (SELECETED PORTIONS)
ISCST (DATED 88207)
AN AIR QUALITY DISPERSION MODEL IN
SECTION 1. GUIDELINE MODELS
IN UNAMAP (VERSION 6) JUNE 88.
SOURCE: UNAMAP FILE ON ERA'S UNIVAC AT RTP, NC.
*** LESSON 13 - GRAVITATIONAL SETTLING
*** SOURCE DATA ***
T W
Y A
SOURCE P K
NUMBER E E
1 2 0
220
320
420
NUMBER
PART.
CATS.
0
6
0
6
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE =2
GRAMS/SECOND
*PER METER**2
.10000E-02
.10000E-02
.10000E-02
.10000E-02
X
(METERS)
-15.0
-15.0
-15.0
-15.0
Y
(METERS)
-15.0
-15.0
-15.0
-15.0
BASE
ELEV.
(METERS)
o o o o
HEIGHT
(METERS)
1.00
1.00
10.00
10.00
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
TYPE=1
(METERS)
.00
.00
.00
.00
EXIT VEL.
TYPE=0
(M/SEC);
HORZ.DIM DIAMETER
TYPE=1,2 TYPE=0
(METERS) (METERS)
30.00 .00
30.00 .00
30.00 .00
30.00 .00
BLDG.
HEIGHT
TYPE=0
(METERS)
.00
.00
.00
.00
BLDG.
LENGTH
TYPE=0
(METERS)
.00
.00
.00
.00
BLDG.
WIDTH
TYPE=0
(METERS)
.00
.00
.00
.00
*** LESSON 13 - GRAVITATIONAL SETTLING
*** SOURCE PARTICULATE DATA ***
*** SOURCE NUMBER
2 ***
MASS FRACTION =
.10000, .40000, .28000, .12000, .06000, .04000,
SETTLING VELOCITY(METERS/SEC) =
.0010, .0070, .0190, .0370. .0610, .0990,
SURFACE REFLECTION COEFFICIENT =
1.00000, .82000, .72000, .65000, .59000, .50000,
*** SOURCE NUMBER = 4 ***
MASS FRACTION =
.10000, .40000, .28000, .12000, .06000, .04000,
SETTLING VELOCITY(METERSXSEC) =
.0010, .0070, .0190, .0370, .0610, .0990,
SURFACE REFLECTION COEFFICIENT =
1.00000, .82000, .72000, .65000, .59000, .50000,
-------�
Table 13.1 GRAVITATIONAL SETTLING (SELECETED PORTIONS)
-------�
I
oo
Y-AXIS
(METERS)
Y-AXIS
(METERS)
Y-AXIS
(METERS)
.0
Y-AXIS
(METERS)
.0
Y-AXIS
(METERS)
.0
Y-AXIS
(METERS)
Table 13.1 GRAVITATIONAL SETTLING (SELECETED PORTIONS) (cent.)
*** LESSON 13 - GRAVITATIONAL SETTLING
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES: 3,
* FOR THE RECEPTOR GRID *
HIGH
1-HR
SGROUPtf 3
* MAXIMUM VALUE EQUALS 911.50990 AND OCCURRED AT ( 100.0, .0) *
X-AXIS (METERS)
25.0 50.0 100.0 200.0
300.0
.0 / 786.39320 (233,12) 821.15920 (179,11) 911.50990 (201,19) 658.22190 ( 60, 3) 540.23150 ( 3, 1)
X-AXIS (METERS)
500.0 1000.0 2000.0 3000.0 5000.0
.0 / 613.06760 ( 3, 1) 332.41660 ( 3, 1) 135.75220 ( 3, 1) 78.69114 ( 3, 1) 40.27111 ( 3, 1)
10000.0 20000.0
X-AXIS (METERS)
30000.0
16.29500 ( 3, 1) 6.84367 ( 3, 1) 4.20966 ( 3, 1)
*** LESSON 13 - GRAVITATIONAL SETTLING ***
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM SOURCES: 4,
HIGH
1-HR
SGROUPfl 4
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 980.77010 AND OCCURRED AT ( 100.0,
.0)
25.0
50.0
X-AXIS (METERS)
100.0
200.0
300.0
723.97130 (233,12) 779.80070 ( 60,15) 980.77010 (201,19) 734.42710 (365, 1) 980.67590 ( 3, 1)
X-AXIS (METERS)
500.0 1000.0 2000.0 3000.0 5000.0
768.55250 ( 3, 1) 309.45210 ( 3, 1) 101.36180 ( 3, 1) 51.54033 ( 3, 1) 21.72863 ( 3, 1)
10000.0 20000.0
X-AXIS (METERS)
30000.0
.0
6.41751 ( 3, 1) 1.73227 (116, 5)
.80155 (359. 3)
-------�
Table 13.2 VELOCITY DEPENDENT EMISSION RATES 1979 (SELECETED PORTIONS)
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES ***
*** SOURCE DATA ***
T U
Y A
SOURCE P K
NUMBER E E
1 2 0
220
320
420
520
620
NUMBER
PART.
CATS.
0
0
0
0
0
0
EMISSION RATE
TYPE=0,1
GRAMS/SECOND
TYPE=2
GRAMS/SECOND
*PER METER**2
.10000E-02
.10000E-02
.10000E-02
.10000E-02
.10000E-02
.10000E-02
X
(METERS)
-15.0
-15.0
-15.0
-15;0
-15.0
-15.0
Y
(METERS)
-15.0
-15.0
-15.0
-15.0
-15.0
-15.0
BASE
ELEV.
(METERS)
.0
.0
.0
.0
.0
.0
HEIGHT
(METERS)
1.00
1.00
1.00
10.00
10.00
10.00
TEMP.
TYPE=0
(DEG.K);
VERT. DIM
TYPE=1
(METERS)
.00
.00
.00
.00
.00
.00
EXIT VEL,
TYPE=0
(M/SEC);
HORZ.DIM
TYPE=1,2
(METERS)
30.00
30.00
30.00
30.00
30.00
30.00
DIAMETER
TYPE=0
(METERS)
.00
.00
.00
.00
.00
.00
BLDG.
HEIGHT
TYPE=0
(METERS)
.00
.00
.00
.00
.00
.00
BLDG.
LENGTH
TYPE=0
(METERS)
.00
.00
.00
.00
.00
.00
BLDG.
WIDTH
TYPE=0
(METERS)
.00
.00
.00
.00
.00
.00
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES ***
* SOURCE EMISSION RATE SCALARS WHICH VARY WITH STABILITY AND WIND SPEED *
i
10
STABILITY
CATEGORY 1
SOURCE NO. =
SOURCE NO. =
SOURCE NO. =
SOURCE NO. =
2
A
B
C
D
E
F
3
A
B
C
D
E
F
5
A
B
C
D
E
F
6
A
B
C
D
E
F
.13800E+00
.13800E+00
.13800E+00
.13800E+00
.13800E+00
.13800E+00
.75900E-01
.75900E-01
.75900E-01
.75900E-01
.75900E-01
.75900E-01
.13800E+00
.13800E+00
.13800E+00
.13800E+00
.13800E+00
.13800E+00
.75900E-01
.75900E-01
.75900E-01
.75900E-01
.75900E-01
.75900E-01
WIND SPEED CATEGORY
234
.38300E+00
.38300E+00
.38300E+00
.38300E+00
.38300E+00
.38300E+00
.40500E+00
.40500E+00
.40500E+00
.40500E+00
.40500E+00
.40500E+00
.38300E+00
.38300E+00
.38300E+00
.38300E+00
.38300E+00
.38300E+00
.40500E+00
.40500E+00
.40500E+00
.40500E+00
.40500E+00
.40500E+00
.11320E+01
.11320E+01
.11320E+01
.11320E+01
.11320E+01
.11320E+01
.12310E+01
.12310E+01
.12310E+01
.12310E+01
.12310E+01
.12310E+01
.11320E+01
.11320E+01
.11320E+01
.11320E+01
.11320E+01
.11320E+01
.12310E+01
.12310E+01
.12310E+01
.12310E+01
.12310E+01
.12310E+01
.28320E+01
.28320E+01
.28320E+01
.28320E+01
.28320E+01
.28320E+01
.26550E+01
.26550E+01
.26550E+01
.26550E+01
.26550E+01
.26550E+01
.28320E+01
.28320E+01
.28320E+01
.28320E+01
.28320E+01
.28320E+01
.26550E+01
.26550E+01
.26550E+01
.26550E+01
.26550E+01
.26550E+01
5
.55270E+01
.55270E+01
.55270E+01
.55270E+01
.55270E+01
.55270E+01
.59610E+01
.59610E+01
.59610E+01
.59610E+01
.59610E+01
.59610E+01
.55270E+01
.55270E+01
.55270E+01
.55270E+01
.55270E+01
.55270E+01
.59610E+01
.59610E+01
.59610E+01
.59610E+01
.59610E+01
.59610E+01
6
.95690E+01
.95690E+01
.95690E+01
.95690E+01
.95690E+01
.95690E+01
.10610E+02
.10610E+02
.10610E+02
.10610E+02
.10610E+02
.10610E+02
.95690E+01
.95690E+01
.95690E+01
.95690E+01
.95690E+01
.95690E+01
.10610E+02
.10610E+02
.10610E+02
.10610E+02
.10610E+02
.10610E+02
-------�
I
M
O
Table 13.2 VELOCITY DEPENDENT EMISSION RATES 1979 (SELECETED PORTIONS) (cont.)
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM ^XIRCES: 1,
HIGH
1-HR
SGROUP* 1
***
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 10808.28000 AND OCCURRED AT (
Y-AXIS /
(METERS) /
25.0
50.0
X-AXIS (METERS)
100.0
25.0, .0) *
200.0
300.0
.0 / 10808.28000 ( 37,21) 8076.10700 ( 59,24) 5597.82700 ( 79. 6) 3449.06300 ( 3, 1) 2333.99000 ( 3, 1)
X-AXIS (METERS)
500.0 1000.0 2000.0 3000.0 5000.0
Y-AXIS /
(METERS) /
.0 / 1203.38000 ( 3, 1) 426.87960 ( 3, 1) 150.79300 ( 3, 1) 84.20695 ( 3, 1) 42.00693 ( 3, 1)
10000.0 20000.0
Y-AXIS /
(METERS) /
X-AXIS (METERS)
30000.0
.0 / 16.67384 ( 3, 1) 6.93745 ( 3. 1) 4.25386 ( 3, 1)
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES: 2,
* FOR THE RECEPTOR GRID *
HIGH
1-HR
SGROUP* 2
Y-AXIS /
(METERS) /
* MAXIMUM VALUE EQUALS 9242.92700 AND OCCURRED AT (
25.0 50.0
X-AXIS (METERS)
100.0
25.0, .0)
200.0
300.0
Y-AXIS /
(METERS) /
5000.0
.0 / 9242.92700 ( 56, 1) 5565.66300 ( 82,11) 3091.27600 (358,22) 1320.99100 ( 3, 1) 893.91810 ( 3, 1)
X-AXIS (METERS)
500.0 1000.0 2000.0 3000.0
.0 / 460.89460 ( 3, 1) 163.49490 ( 3, 1) 57.75372 ( 3, 1) 32.25126 ( 3, 1)
X-AXIS (METERS)
10000.0 20000.0 30000.0
.0 / 6.38608 ( 3, 1) 3.24873 (234,12) 2.29624 (234,12)
16.08865 ( 3, 1)
Y-AXIS /
(METERS) /
-------�
CM
i
Table 13.2 VELOCITY DEPENDENT EMISSION RATES 197V (SELECETED PORTIONS) (coot.)
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES ***
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUB1C METER *
* FROM SOURCES: 3,
* FOR THE RECEPTOR GRID *
HIGH
1-HR
SGROUP* 3
Y-AXIS /
(METERS) /
* MAXIMUM VALUE EQUALS 10248.45000 AND OCCURRED AT (
25.0 50.0
X'AXIS (METERS)
100.0
25.0, .0) *
200.0
300.0
.0 / 10248.45000 ( 56, 1) 6171.14500 ( 82,11) 2898.07100 (358,22) 1396.87000 ( 3, 1) 945.26600 ( 3. 1)
X-AXIS (METERS)
500.0 1000.0 2000.0 3000.0 5000.0
Y-AXIS /
(METERS) /
Y-AXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
.0 /
.0 / 487.36900 ( 3, 1) 172.88620 ( 3, 1) 61.07118 ( 3. 1) 34.10381 ( 3, 1) 17.01281 ( 3, 1)
10000.0 20000.0
X-AXIS (METERS)
30000.0
6.75291 ( 3, 1) 3.04568 (234,12) 2.15273 (234,12)
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER
* FROM SOURCES: 4,
HIGH
1-HR
SGROUP* 4
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 911.50990 AND OCCURRED AT (
25.0
50.0
X-AXIS (METERS)
100.0
100.0, .0)
200,0
300.0
786.39320 (233,12) 821.15920 (179.11) 911.50990 (201,19) 658.22190 ( 60, 3) 540.23150 ( 3, 1)
X-AXIS (METERS)
500.0 1000.0 2000.0 3000.0 5000.0
613.06760 ( 3, 1) 332.41660 ( 3, 1) 135.75220 ( 3, 1) 78.69114 ( 3, 1) 40.27111 ( 3, 1)
X-AXIS (METERS)
10000.0 20000.0 30000.0
16.29500 ( 3, 1) 6.84367 ( 3. 1) 4.20966 ( 3, 1)
-------�
Table 13.2 VELOCITY DEPENDENT EMISSION RATES 1979 (SELECETED PORTIONS) (cont.)
I
(-»
tsj
Y-AXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
.0 /
Y-HXIS /
(METERS) /
.0 /
Y-AXIS /
(METERS) /
HIGH
1-HR
SGROUPtf 5
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES ***
* HIGHEST 1-HOUR AVERAGE CONCENTRATION M1CROGRAMS/CUB1C METER *
* FROM SOUK 5,
* FOR THt HttfcPIOR GRID *
* MAXIMUM VALUE EQUALS 687.19930 AND OCCURRED AT ( 100.0, .0) *
X-AXIS (METERS)
25.0 50.0 100.0 200.0 300.0
214.44310 (179,11) 597.43280 (234,12)
500.0 1000.0
234.80490 ( 3, 1) 127.31560 ( 3, 1)
10000.0 20000.0
687.19930 (278,14) 559.15390 (358, 6) 396.38030 (358, 6)
X-AXIS (METERS)
2000.0 3000.0 5000.0
51.99309 ( 3, 1) 30.13870 ( 3, 1) 15.42383 ( 3. 1)
X-AXIS (METERS)
30000.0
6.24098 ( 3, 1) 3.24873 (234,12) 2.29624 (234,12)
HIGH
1-HR
SGROUPtf 6
*** LESSON 13 - VELOCITY DEPENDENT EMISSION RATES ***
* HIGHEST 1-HOUR AVERAGE CONCENTRATION MICROGRAMS/CUBIC METER *
* FROM SOURCES: 6,
* FOR THE RECEPTOR GRID *
* MAXIMUM VALUE EQUALS 644.24930 AND OCCURRED AT ( 100.0, .0) *
X-AXIS (METERS)
25.0 50.0 100.0 200.0 300.0
226.76110 (179,11) 560.09310 (234,12)
500.0 1000.0
248.29240 ( 3, 1) 134.62870 ( 3, 1)
10000.0 20000.0
644.24930 (278,14) 588.41570 ( 82,14) 417.12330 ( 82,14)
X-AXIS (METERS)
2000.0 3000.0 5000.0
54.97966 ( 3, 1) 31.86991 ( 3, 1) 16.30980 ( 3, 1)
X-AXIS (METERS)
30000.0
.0 / 6.59948 ( 3, 1) 3.04568 (234,12) 2.15273 (234.12)
-------�
TECHNICAL REPORT DATA
/Please read Inunicnons or. tin i\ , crS(. bt.ton (O
EPA-450/2-90-003
2.
3. RECIPIENT'S ACCESSIO^NC.
Ti i LE AND SUBTITLE
APTI Course 423, "Dispersion of Air Pollution-
Model Applications" - Student Manual
5 REPORT DATE
January 1990
6 PERFORMING ORGANIZATION CODE
7 AUTHOR(S)
8. PERFORMING ORGANIZATION REPORT NO.
J. Thomas Bowman and Jerry W. Crowder
9. PERFORMING ORGANIZATION NAME AND ADDRESS
University of Texas at Dallas
P.O. Box 830688
Richardson, TX 75083-0688
10. PROGRAM ELEMENT NO.
11. CONTRACT,/GRANT NO.
Air Pollution Training
Grant No. T901600
12. SPONSORING AGENCY NAME AND ADDRESS
U.S. Environmental Protection Agency
Office of Air Quality Planning and Standards
Manpower and Technical Information Branch, MD-17
Research Triangle Park, North Carolina 27711
13. TYPE OF REPORT AND PERIOD COVERED
Self-Instructional Course
14. SPONSORING AGENCY CODE
15. SUPPLEMENTARY NOTES
Leo Stander, M.S.Project Officer, U.S. Environmental Protection
Agency, Manpower and Technical Information Branch, MD-17, Research Triangle Park
Nnrt-h ra-rnl i na 77711
16. ABSTRACT
The instructor's guide is used in a classroom training study program
designed to help students develop a working knowledge of the theory and
application of dispersion modeling. It presents detailed information on several
aspects of dispersion modeling such as: the habitat of modeling, basics of
computer modeling, meteorological parameters required for modeling, etc. A
comprehensive study of modeling strategies is discussed and an actual case study
application is included at the end of the course.
7.
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS
b.lDENTIFIERS/OPEN ENDED TERMS C. COS AT I Field/Group
PSD
SIP
NAAQS
PTPLU
ISCST
CRSTER
RTDM
GEP
SARA
VALLEY
COMPLEX I
INPUFF
SPILLS
8. DISTRIBUTION STATEMENT
Release Unlimited
19
. SECURITY CLASS/:
Unclassified
TMs Report)
21. NO. OF PAGES
20. SECURITY CLASS (Thispage)
Unclassified
22. PRICE
EPA Form 2220-1 (9-73)
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