ML19331E207
| ML19331E207 | |
| Person / Time | |
|---|---|
| Site: | Pilgrim |
| Issue date: | 09/01/1980 |
| From: | Sowdon T, Ziemianski E BOSTON EDISON CO. |
| To: | |
| Shared Package | |
| ML19331E206 | List: |
| References | |
| NUDOCS 8009090267 | |
| Download: ML19331E207 (74) | |
Text
_ _ _ _
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PILGRIM NUCLEAR POWER STATION RADI0 ACTIVE EFFLUENT AND WASTE DISPOSAL REPORT INCLUDING RADIOLOGICAL IMPACT ON HUMANS I
I JANUARY l THROUGH JUNE 30, 1980 I
I Prepared by:
N Thomas L. Sowdon I
Senior L diological z.ngineer Approved by:
-w Edward J. M mianski Plant Support Group Leader I
I I
g
- e.. - Sm=m; S.,<.me.,1.1,ee I
800 Lo'bW
"?o!!\\"ut?oyb9 t
e I
I Page Seccion 1
1 Introduction and Su= mary 1
2 Effluent, Waste Disposal and Wind Data 3
Off-Site Doses Resulting from Radioactive Liquid Effluents 41 lI Off-Site Doses Resulting from Radioactive Gaseous Effluents 46 4
69 5
Off-Site Doses from Direct Radiation I
LIST OF TABLES Page Table 2
Supplemental Information 1A Gaseous Effluents - Summation of All Releases 3
IB Gaseous Effluents - Elevated Release 4
1C Gaseous Effluents - Ground Level Release 5
2A Liquid Effluents - Summation of All Releases 6
7 2B Liquid-Effluents 3
Solid Waste and Irradiated Fuel Shipments 8
I 41.-l Distribution of Wind Directions and Speeds - 33 ft Level 9
4A-2 Distribution of Wind Directions and Speeds - 160 ft Level 25 i
3.2-1 January-June 1980 Liquid Release Maximum Individual Doses from all Pathways for Adults (MREM) 62 3.2-2 January-June 1980 Liquid Release Maximum Individual I
Doses. rom all Pathways for Teenagers (MREM) 43 3.2-3 January-June 1980 Liquid Release Maximum Individual Doses from all Pathways for Childrem (MREM) 44 3.3-1 Population Doses Resulting from the January-June 1980 45 Liquid Effluents 4.1-1 Undepleted Relative Concentrations per Unit EmiEsion for Building Reactor Vent for January-March 1980 48 4.1-2 Depleted Relative Concentrations per Unit Emission for I
Building Reactor Vent for January-March 1980 49 B
iii I
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I 1,lST OF TAPLES @
P, age a
Table 4.1-3 Relative Deposition Concentrations per Unit Emission for I
Building Reactor Vent for January-March 1980 50 4.1-4 Undepleted Relative Concentrations per Unit Emission for Building Reactor Vent for April-June 1980 51 4.1-5 Depleted Relative Concentrations per Unit Emission for Building Reactor for April-June 1980 52 4.1-6 Relative Deposition Concentrations per Unit Emission for Puilding Reactor for April-June 1980 53 3
4.1-7 Undepleted Relative Concentrations per Unit Emission for 5
M^1n st*ck for 3*nu^r7-March 980 54 4.1-8 Depleted Relative Concentrations per Unit Emission for Main Stack for January-March 1980 55 I
4.1-9 Re'_ative Deposition Concentrations per Unit Emission for Main Stack for January-March 1980 56 I
4.1-10' Undepleted Rel tive Concentrations per Unit Emission for Main Stack for April-June 1980 57 4.1-11 Depleted Relative Concentrations per Unit Emission for I
Main Stack for April-June 1980 58 4.1-12 Relative Deposition Concentrations per Unit Emission for Main Stack for April-June 1980 59 I
4.1-13 Special Parameters Used in Finite Cloud Model 60 4.2-1 Maximum Individual Locations and Pathways 61 4.2-2 January-June 1980 Gaseous Release Maximus Indiviiual Doses from all Pathways for Adults (MREM) 62 4.2-3 January-June 1980 Gaseous Release Max 1=um Individutl I
Doses from all Pathways for Teenagers (MREM) 63 4.2-4 January-June 1980 Gaseous Release Maximum Individual Doses from all Pathways for Children (MREM) 64 4.2-5 January-June 1980 Gaseous Release Maximum Individual Doses from all Pathways for Infants (MREM) 65 4.2-6 January-June 1980 Gaseous Release Maximum Individual Doses (0.8 Miles WSU) 66 4.3-1.
Population Distribution 67
,I 4.3-2 Population Deses Via Major Pathways Resulting from Gaseous Effluents During January-June 1980 68 I
iv
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I 1.
INTRODUCTION AND
SUMMARY
This report is issued for the period January-June 1980 in accoruance with NRC Regulatory Guide 1.21 " Measuring, Evaluating and Reporting Radioactivity in Solid Wastes and Releases of Radioactive Materials I
in Liquid and Gaseous Effluents from Light-Water Cooled Nuclear Power Plants" (Rev. 1).
The infor=ation supplied includes actual effluent releases, radioactive waste and meteorological data; doses from liquid I
releases, doses from gaseous releases and direct ga==s radiation doses.
The calculated doses are below the limits specified in 10 CFR 50, I
Appendix I,
2.
EFFLUENT, WASTE DISPOSAL AND WIND DATA Radioactive liquid and gaseous releases, wind speed data together I
with measurement errors and solid waste disposal information are given in Tab N 1A, 1B, 1C, 2A, 2B, 3, 4A-1, 4A-2 and supplemental information section in the standard Regulatory Guide 1.21 format.
As a resuJ t of equipment disruption resulting of the instaliation of new wiring and instruments required by the NRC and due to a lightning strike on the Meteorological Tower in June, data recovery for this period fell I
belnw the target of 90%. Data recovery for the remainder of 1980 is ex-pected to improve.
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I' EFFt.UENT AND WASTE DISPOSAL SEMIANNUAL REPORT Supplemental Information I
January - June, 1980 Faility Pilgrim Nuclear Power Station Ucensee DPR 35 1.
Regulatory Umits Os I
g a.
Fission and activation gases:
, 4 0.25/E 0.10/E h.
lodines. 2 C1/ Quarter Particulates. half-lives >M davs 13 (1.8E4Qs + 1.8E5Qv) e 1 e.
d.
Uquid ellluenis: 10 Ci/ Quarter I
2.
Masimum Permissible Concentration I
Piovide she MPCs used in determinmg allowable release rates or concentrations.
a.
Fissen and activation gases:
10 CFR 20 h.
lodmes:
Appendix B e.
Particulates. half hves >N days:
Table !!
d.
Uquid efiluent s: H -'3 = 1 X 101 pCi/mt; all rest,10 CFR 20, Appendix B. Table 11 3.
Average Energy Provide the average energy IU of the radmn.clide misture in releases of fission and acuvation gases. it aspheable; a
1st Quarter, MS = 1.028 & RBV = 0.293: 2nd Quarter, MS = 0.660 & RBV = 0.622 4.
Measurements and Approsimations of Total Radioactivity Provide the methods used to measure or approumate the total radioactivii) m ef0uents and the nwthods used to I
determine radionuchde composition.
a.
Fisson and activation gases:
c,ti b.
lodmes:
g,,,p,
g c.
Pa ticulates:
I
^^*37 d5 d.
Uquid ettluents:
5.
Batch Releases Provide ihe following informatson relatmg io batch releases of radmactive materials in liquid and gaseous efiluents.
a.
Uquid I
1.
Number of ba:ch releases: 228 2.
Total tune penod for hatch releases: 263.50 hrs.
3.
Maumum time period for a batch release: - 8.9 2 hre.
4.
Average time permd for batch releases: 1.16 hr.
I 5.
Mmimum time penod for a batch release:
- 0. 25 hr.
6.
Average stream flow dunng penods of release of eftluent mto a flowmg stream: 1.81E + 5 GPM b.
Gaseous (Not Applicable) 6.
Abnormal Releases a.
I b.
None I
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-1
1 I
I TABLE 1 A EFFLUENT AND WASTE DISPOSAL SEMIANI UAL REPORT (1980)
GASEOUS EFFLUENTS-SUMMATION OF ALL RELEASES January - June, 1980 Quarter Quarter Est. Total
'l Unit 1
2 Error, %
l s
g A. Fissia and activation gases
- 1. Total release Ci 2.69E+2 4.13E+2 3.00E+1
- 2. Average release rate for period gCi/sec 3.42E+1 5.25E+1 I
- 3. Percent of Technict 1 Specification limit 1.39E-2
- 1. 73 E-2 B. Iodines
- 1. Totallodine-131 Ci 44.12E-3 3.21E-3 2.50E+1 l
- 2. Average release rate for period gCi/sec 4 5.24E-4 4.08E-4
- 3. Percent of Technical Specification limit 2.06E-1 1.61E-1 C. Particulates
- 1. Particulates with half. lives > 8 days Ci 43.23E-3 4.79E-3 3.00E+1 l
- 2. Average release rate for period pCi/sec 44.IlE-4 6.09E-4 I
- 3. Percent of Technical Specification limit 8.77E-2 2.63E-2
- 4. Gross alpha radioactivity Ci 47.00E-7 3.90E-7 D. Tritium
- 1. Total release Ci 3.65E0 6.75E0
- 3. 0'JE+1 l
- 2. Average release rate for period gCi/sec 4.64E-1 8.59E-1
- 3. Percent of Technical Specification limit I
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TABLE 1B E3 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT ( 1980)
GASEOUS EFFLUENTS - ELEVATED RELEASE January - June, 1980 CONTINUOUS MODE BATCH MODE l Nuclides Released l
Unit l
Quarter l
Quarter l
Quarter l
Quarter
- 1. Fission gases I
krypton-85 Ci 6.35E-4 2 72E-3 krypton-85m Ci 5.70E+1 6.95E+1 krypton-87 Ci 2.95E+1 2.62E+1 krypton-88 Ci 1.11E+2 1.00E+2 I
_ xenon 133 Ci 5.41E+1 5.55E+1 xenon 135 Ci 1,54E0 1.20E+1 xenon 135m C1 1.20E-1 4.55EO xenon-138 Ci 3.41EO 7.14E+1 xenon-131m Ci renon-137 Ci xenon-133m Ci l
Total for period Ci 2.57E+2 3.39E+2
- 2. Iodines I
Ci 4 5.26E-4 2.73E-3 iodine-133 Ci 4.1.38E-5 2.42E-2 iodine-135 Ci 2.83E-2 Total for perii d Ci 4.5.40E-4 5.52E-2
- 3. Particulates strontium-89 Ci 3.62E-5 8.16E-4 strontium-90 Ci 5.50E-6 9.71E-6 cesium-134 Ci 4.54E-7 cesium 137 Ci 2.16E-5 1.94E-5 barium lanthanum 140 Ci 1.98E-4 3.25E-3 chromium 51 Ci manganese-54 Ci 3.82E-6 1.08E-5 I
cobalt-58 Ci iron-59 Ci cobalt-60 Ci 4.23E-5 4.07E-5 zinc-65 Ci zirconium-niobium-95 Ci cerium 141 Ci cerium 144 Ci 3.42E-5 ruthenium-103 Ci I
ruthenium-106 Ci 1,61E-~ _.
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TABLE 1C EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1980)
GASEOUS EFFLUENTS - GROUND LEVEL RELEASE January - June, 1980 CONTINUOUS MODE BATCH MODE Nuclides Released Unit Quarter Quarter Quarter Quarter I
- 1. Fission gases I
krypton-85 Ci 4 3.87E-8 44.65E-8 krypton-85m Ci 9.10E-2 1.10E-1 I
krypton 87 Ci 1.52E-1 1.26E0 krypton-88 Ci 2.83E-1 4.62E0 xenon-133 Ci 3.04E-1 8.11E0 xenon-135 Ci 1.11E+1 6'.02E+1 xenon-135m Ci xenon-138 Ci I
Total for period Ci 1.19E+1 7.43E+1 I
- 2. lodines
^ Iodine-131 Ci 43.59E-3 4.76E-4 iodine-133 Ci 2.99E-3 3.05E-3 iodine-135 Ci 4.61E-3 Total for period Ci 41.12E-2 3.53E-3
- 3. Particulates strontium-89 Ci 7.00E-5 6.02E-5 I
strontium-90 Ci 6.21E-7 1.02E-6 cesium-134 Ci 5.70E-6 8.82E-6 cesium-137 Ci 6.75E-5 4 93E-5 barium-lanthanum 140 Ci
/.2.35E-3 1.99E-4 manganese-54 Ci 2.92E-5 1.10E-5 cobalt Ci 2.39E-6 I
iron 59 Ci cobalt-60 Ci 3.73E-4 1.17E-4 zinc-65 Ci 4.68E-6 zirconium niobium-95 Ci cerium-141 Ci 1.74E-5 ruthenium 103 Ci ruthenium 106 Ci I
I _ __
I TABLE 2A I
EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1980)
LIQUID EFFLUENTS-SUMMATION OF ALL RELCASES January - June, 1980 I
Quarter Quarter Est. Total Unit 1
2 Error, %
A. Fission and activation products
- 1. Total release (not including tritium, Ci noble gases, or alpha) 8.77E-1 5.65E-1 3.00E+1
- 2. Average diluted concentration gCi/ml I
1.07E-7 2.17E-7 during period
- 3. Percent of applicable limit 8.77E0 5.65EO I
B. Tritium
- 1. Total release Ci 2.59E+1 9.13E0 3.00E+1
- 2. Average d ted concentration gCi/ml 3.15E-6 3.51E-6 during period
- 3. Percent of applicable limit 3.15E+1 3.51E+1 C. thssolved and entrained gases I_
- 1. Total release Ci 4.55E-3 1.51E-3 4.00E+1
- 2. Average diluted concentration gCi/ml
-0 L8E0 1
during period
- 3. Percent of applicable limit D. Gross alpha radioactivity l
- 1. Total release l
Ci l 41.94E-4 l4.9.17E-5 l 4.00E+1 l
E. Volume of waste released (prior liters 2.59E+6 1.78E+6 2.00E+1 to dilution)
F. Volume of dilution water used liters 8.22E+9 2.60E+9 2.00E+1 during period I
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-e-
=
4
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TABLE 2B EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1980)
LIQUID EFFLUENTS January - June, 1980 CONTINUOUS MODE BATCH MODE Nuclides Released Unit Quarter Quarter Quarter Quarter strontium-89 Ci 1.84E-3 5.62E 4 strontium-90 Ci 5.26E-4 5.31E-4 cesium-134 Ci 6.46E-3 2.81E-2 I
cesium-137 Ci 3.34E-2 9.17E-2 iodine-131 Ci 1.07E-4 7.92E-5 I
cobalt-58 Ci 7.51E-3 5.14E-3 cobalt-60 Ci 3.36E-1 1.57E-1 iron 59 Ci 4.31E-3 zine-65 Ci 2.20E-3 1.01E-3 manganese-54 Ci 3.41E-2 1.39E-2 I
chromium-51 Ci 1.61E-2 I
zirconimum-niobium-95 Ci 8.81E-4 1.78E-5 molybdenum 99-technetium 99m C
2.08E-3 barium-lanthanum 140 Ci 6.36E-3 cerium-141 Ci 4.52E-3 I
iodine-133 Ci 2.35E-4 4.77E-5 cerium 144 Ci 5.62E-4 1.35E-4 I
silver-110m Ci iron 55 Ci 2.12E-1 1.87E-1 l
unidentified l
Ci l
2.08E-1 7.95E-2 Total for period (above)
Ci 8.77E-1 5.65E-1 xenon-133 Ci 8.85E-4 3.97E-4 xenon 135 Ci 3.66E-3 1.11E-3 I
g
4 5
TABLE 3 EFFLUENT AND WASTE DISPOSAL SEMI-ANNUAL REPORT (1980)
I SOLID WASTE AND IRRADIATED FUEL SHIPMENTS JANUARY-JUNE 1980
- 5. SI: lid Waste Shipped Offsite for Burial or Disposal (Not Irradiated Fuel) 1.
TYPE OF WASTE UNIT 6 MONTH PERIOD ESTIMAT'7 TOTAL ERRA. t a.
spent resins, filter sludges, m3 160.557 evaporator bottoms, etc.
Ci 610.281 N/A I
b.
Dry compressible waste, contamina-m3 1889.828 tei aquipment, etc.
C1 25.81 N/A c.
Irradiated components, control m3 None rods, etc.
Ci N/A d.
other (describe) m3 None Misc. low-level waste Ci N/A I
2 ESTIMATED OF MAJOR NUCLIDE COMPOSISTION (BY TYPE OF WASTE) a.
Spent resins, filter, sludges, evap bottoms, diatomateous earth, etc.
1 ISOTOPE
% COMP E (CURIES)
Ba/La-140
.439 2.984 CO-60 33.720 205.787 l
.211 1.288 W
ZN-65
.157
.958 U
MN-54 3.620 22.092 CO-58 1.169 7.134 I
ZR/NB-95
.005
.031 CS-137 17.832 108.825 CS-134 4.69 28.622 I-131
.084
.513 CR-51
.886 5.407 CE-141
.082
.500 FE-55 34.01 207.557 t
RU-103
.029
.177 I-135
.004
.024 ll SR-90
.048
.293 3
SR-89 2.961 18.070 Unidentified
.003
.018 TOTALS 100.000 610.281
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- 8A -
B.
DRY COMPRESSIBIZ WASTE, CONTAMINATED EQUIPMENT
% COMP E (CURIES) fl CO-60 44.472 11.418 l
FE-59 2.428
.627 E
ZN-65 6.153 1.588 E
MN-54 5.837 1.507 l
CO-58 38.693 9.987 ZR/NB-95
.042
.011 E
.208
.054 CR-51
.184
.047 FE-55 1.423
.367 E
RU-lO3
.211
.054 Unidentified
.349
.090 l
TOTALS 100 25.810 C.
IRRADIATED COMPONENTS, CONTROL RODS, etc.
% COMP E (CURIES)
E NONE 3A.
Solid Waste Disposition Number of Shipments Mode of Transportation Destination 81 Tractor Trailer Barnwell, S.C.
5 Tractor Trailer Beatty, Nev.
B.
Irradiated Fuel Shipments (Disposition)
Number of Shipments Mode of Transportation Destination I
None N/A N/A
[
[
[
[
f
- 8B -
M M
M M
M m
M M
M m
m m
m m
m m
m a
m 228 FT TOWER - 33 FT 33.B FT WIND DATA JAN - MAR 1980 STABILITY CLASS A-- DELTA T LESS THAN -1.9 DEG C PER IBB HETERS CLASS FREOUENCY iPERCENT) =
12.48 WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
WNW NV NNW TOTAL
-CALH B
B B
B B
B B
B B
B B
B B
B B
B B
(})
B.B B.0 0.0 0.8 B.0 B.B 0.0 B.O B.B B.B B.B B.B B.O 0.8 B.B B.B B.B (2) 0.0 B.U 0.8 B.D B.B B.O B.B B.B B.B B.B B.D B.B B.B B.B B.O B.O 0.8 CALM-3.5 0
0 8
0 0
0 B
B B
B B
B B
B B
B B
(1)
B.0 B.B B.O 0.0 0.0 F.0 0.0 B.O B.0 D.B B.B B.B 0.9 B.O B.B B.B 0.B (2)
B.B B.B 0.0 0.0 B.B B.O B.B B.B 9.9 8.8 B.B B.O B.B B.O B.B B.B 2.0 3.6-7.5 15 7
3 0
2 1
0 1
8 2
1 1
11 16 19 15 94 H
i (1) 7.4 3.5 1.5 0.8 1.0 0.5 0.0 0.5 0.0 1.8 B.5 9.5 5.4 7.9 9.4 7.4 46.5 (2) 0.9 B.4 B.2 0.0 0.1 B.1 0.8 0.1 B.B 0.1 U.I B.1 U.7 1.0 1.2 B.9 5.8 ga i
7.6-12.5 12 4
0 0
0 0
0 0
B 14 B
8 36 17 8
94 c-(1) 5.9 2.0 0.0 0.0 B.B 0.9 B.B B.B B.O 6.9 1.5 B.O 4.0 17.8 8.4 B.B 46.5 Y
i (2) 0.7 8.2 0.0 0.0 U.B 0.8 B.O B.O 0.B U.9 8.2 B.0 U.S 2.2 1.1 0.0 5.0 1
12.6-18.5 0
0 0
0 0
0 B
B B
C D
0 8
6 0
8 14 (11 0.0 0.0 0.0 B.O 0.0 0.0 0.0 B.0 B.O 0.0 D.B 0.0 4.0 3.0 0.0 8.0 6.9 (2) 0.0 B.B B.O B.O 0.0 0.8 8.8 B.0 B.B B.B B.B B.B B.5 9.4 0.0 0.0 B.9 18.6-24.0 8
0 0
0 0
B B
B B
B B
B B
U 0
B B
(1) 0.0 0.0 0.0 0.0 6.0 0.0 B.O B.O 0.9 B.B B.B 0.0 B.U B.U 0.0 B.O D.0 (2) 0.0 B.B U.0 0.0 0.0 0.0 B.B B.O B.B 0.0 9.8 0.8 U.0 0.0 0.0 0.0 0.0 OVER-24.0 0
0 0
0 0
0 B
D 0
0 0
0 0
0 0
B B
(l) 0.0 0.0 0.0 0.0 0.0 B.B 0.8 B.O B.O 0.0 B.B B.B 0.0 0.0 0.0 0.0 0.0 (2) 0.8 B.U U.0 U.0 U.0 0.8 0.0 0.0 U.S 0.0 9.0 0.0 U.H U.D B.B B.B 0.0 ALL SPEEDS 27 11 3
0 2
1 0
1 0
16 4
1 27 58 36 15 202 (1) 13.4 5.4 1.5 0.0 1.0 B.5 0.8 B.S 0.0 7.9 2.0 0.5 13.4 28.7 17.8 7.4 100.U (2) 1.7 0.7 U.2 U.H U.!
8.1 U.S 0.1 U.S 1.0 0.2 0.1 1.7 3.6 2.2 B.S 12.5 (1)= PERCENT OF ALL GOOD OnSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD 1
NUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 202 CALM =UIND SPEED LESS THAN 1.BB 11Pil l
M M
M M
M -m M
M M
M M
M M
M M
M M
M M
22B FT TOWER - 33 FT 33.8 FT WIND DATA JAN - MAR 1988 STABILITY CLASS B-- DELTA T -1.9 TO -1.7 DEG C PER 188 HETERS CLASS FREQUENCY (PERCENT) 1.11
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNW NW NNW TOTAL
-CALil 0
B B
B B
B B
B B
B B
B B
B B
B B
(1) 0.0 B.O B.O B.0 0.0 B.O B.O B.0 B.B B.O B.B B.B 0.0 B.0 0.0 B. R.
B.B (21 0.0 B.O B.0 B.B 9,0 B.0 B.B B.B 0.0 B.B B.B 0.0 B.O B.B B.0 B.B B.B CALM-3..
0 0
0 B
B B
B C
0 0
B B
B B
B B
B (1) 0.0 0.0 0.0 0.0 0.8 B.O B.B B.B B.O B.B B.B B.B B.O B.O B.0 0.0 8.0 (2)
B.B B.B 2.0 0.0 0.0 B.B 0.0 0.0 B.B B.B B.B B.B 0.0 U.B B.B B.B B.B 4m 3.6-7.5 1
B 1
1 0
8 0
0 0
B B
1 3
2 0
1 1B (1) 5.G B.B 5.6 5.6 B.B B.B B.B B.B B.B B.B B.B 5.6 16.7 11.1 B.B 5.6 55.6 e
i2) 0.1 0.0 0.1 0.1 B.6 B.O B.B B.0 9.8 B.B B.B B.1 B.2 B.1 8.8 B.1 8.6.
p.
t 7.6-12.5 B
B B
B B
B 0
0 1
3 8
1 B
1 B
1 7
f
$5 (1) 0.0 0.B 0.0 0.0 B.0 B.0 0.0 B.O 5.6 16.7 B.B 5.6 B.0 5.6 B.B 5.6 38.9
~
(2) 8.8 B.O B.B B.B B.B B.B B.B R.B B.:
8.2 B.O B.1 B.O B.1 B.0 B.1 B.4
,,n 12.6-18.5 9
1 B
B B
B B
B B
B B
B B
B B
B 1
0' (1) 8.9 5.6 0.0 0.0 0.0 B.O 0.0 B.B 0.8 B.B B.B B.B 0.0 B.B 0.8 B.B 5.G n
(2)
B.B B.1 B.B B.B
[.0 B.B B.O B.0 B.B B.B 0.B B.B B.B B.O B.B B.B 0.1 18.6-24.0 0
0 0
0 0
B B
D 0
0 B
B B
B B
B B
(1) 0.0 B.O B.B 0.0 8.0 B.O 0.0 B.B B.B B.O B.B B.O 0.8 B.O 0.0 B.B B.B (2) 0.0 0.0 0.8 B.O B.B B.B B.B B.B D.B B.B 9.9 B.B 0.2 B.0 0.9 B.O 0.0 i
DVER-24.0 B
B B
B
.i B
B B
B B
B B
B B
B B
B j
(1) 0.0 B.B 0.0 0.0 0.L' 0.B B.O D.0 B.8 B.0 0.0 B.O B.H B.0 0.8 B.B 0.0 (2)
B.B 2.0 8.0 B.D U.2 9.8 0.0 0.8 B.B B.B B.O B.O U.B B.B 2.0 B.B B.6 ALL SPEEDS 1
1 1
1 0
0 0
0 1
3 0
2 3
3 8
2 to (1) 5,6 5.6 5.6 5.6 0.0 0.0 0.8 0.0 5.6 16.7 0.B 11.1 16.7 16.7 0.0 11.1 I BI.. !J (2) 0.1 0.1 0.1 8.1 U.0 B.B B.O 0.0 B.1 0.2 0.0 B.1 0.2 0.2 B.B B.I 1.*
(1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBoERVATIONS ON THIS PAGE=
la CALH= WIND SPEED LESS THAN 1.00 f1PH
M M
M M
M M
M M
M M
M M
We m
W W
W m
W-228 FT TOVER - 33'FT 33.0 FT WIND DATA JAN - MAR 1900 STABILITY CLASS C-- DELTA T -1,6 TO -1.5 DEG C PER 100 HETERS CLASS FREQUENCY (PERCENT) 3.48
=
VIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
WNW NW NNW TOTAL
-CALK 0
0 0
B J
B B
B B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 B.B 0.0 0.0 8.0 0.0 0.0 B.B B.B B.B B.B B.O B.B B.B B.B (2) 0.0 8.0 0.0 B.B 0.8 B.B B.B B.B 0.8 8.8 B.0 B.B B.O 0.0 0.0 B.B 0.0 CALH-3.5 B
B B
B B
B B
B B
B B
I B
B B
B 1
(1) 0.8 B.0 0.0 B.O B.B B.B B.B B.B B.B B.B B.B 1.8 B.B B.0 B.B B.B 1.8 (2) 0.8 0.0 0.0 8.0 0.0 B.B B.0 0.0 B.B B.B B.B B.1 B.O 0.8 B.B B.B B.1 ng m
3.6-7.5 0
1 2
1 B
B B
B B
B 2
3 1
1 4
1 16 (1) 0.0 1.8 3.6 1.8 B.O B.B B.0 0.0 0.0 B.B 3.6 5.5 1.8 1.8 7.3 1.8 29.1 m
(2) 0.0 B.I B.I 0.1 0.0 0.0 0.8 B.B B.B B.B B.I B.2 B.1 0.1 B.2 B.1 1.0 y
8 7.6-12.5 1
3 0
0 0
3 8
B B
5 5
1 5
7 4
1 32 Y
r.
(1) 1.8 5.5 0.0 0.0 0.0 B.B B.0 B.8 0.0 9.1 9.1 1.8 9.1 12.7 7.3 1.8 58.2 g
(2) 8.1 0.2 B.B 0.0 3.5 B.O B.B B.B 0.8 0.3 B.3 B.1 0.3 8.4 B.2 B.1 2.0 9-12.6-18.5 0
0 B
B B
B B
B B
B B
B 2
4 8
8 6
a (l) 0.0 8.0 B.O 0^ 0 0.0 B.O B.O B.O B.B B.O B.B B.B 3.6 7.3 B.0 B.O 18.9 n
(2) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.8 0.0 B.B B.1 0.2 B.O 0.0 B.4 s
18.6-24.8 0
0 0
0 0
0 B
B B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 0.0 8.2 0.0 0.0 9.8 F4 B.0 B.O B.B B.O 0.0 B.B B.B B.O (2) 0.0 0.8 0.6 B.0 0.0 8.0 B.B B.B B.B D.0 0.0 B.O B.D B.0 0.8 B.B B.B OVER-24.8 8
0 0
0 0
0 0
0 0
8 8
0 9
0 0
0 0
(l)
B.R B.0 0.0 B.0 B.B B.O B.O 0.B B.O B.0 B.0 B.O B.D B.O B.B B.B 0.0 (2) 0.0 0.0 U.B 0.8 0.8 0.0 0.0 0.0 0.0 B.O 0.0 B.8 0.0 0.0 B.O B.B 0.0 ALL SPEEDS 1
4 2
1 0
B B
B B
5 7
5 8
12 8
2 55 (1)
I8 7.3 3.6 1.8 0.0 0.0 B.D 0.0 0.0 9.1 12.7 9.1 14.5 21.0 14.5 3.6 100.0 (2) 0.1 0.2 0.1 0.1 0.0 0.0 0.0 0.0 0.0 B.3 B.4 B.3 B.5 0.7 B.5 B.1 3.4 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE
( 2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE=
i CALH= WIND SPEED LESS THAN 1.80 MPH i
O E
U U
U E
M U
E E
E E
E E
E E
E E
M 228 FT TOWER - 33 FT 33.8 FT WIND DATA JAN - MAR 1988 STABILITY CLASS'D-- DELTA T -1.4 TO -0.5 DEG C PER 188 HETERS CLASS FREQUENCY (PERCENT) 26.21
=
VIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
WWJ NV NNV TOTAL
-CALH B
B B
B B
B B
B B
B B
B M
B B
B B
(l) 8.8 0.0 B.O B.O B.O B.B B.B B.O B.B B.B 0.8 B.B B.d 8.0 B.0 8.0 B.B (2) 0.8 B.O B.B B.0 0.0 B.B B.B B.B B.B B.B R.3 B.B B.B B.B B.B 2.0 B.B CALH-3.5 8
0 1
B 1
1 2
i B
B B
B 2
2 2
2 14 (1) 0.0 0.0 B.2 0.B B.2 0.2 B.5 B.2 B.B B.B B.B 0.0 B.5 0.5 0.5 B.5 3.3 (2) 0.0 B.0 D.1 0.0 0.1 0.1 0.1 B.1 0.0 0.9 8.9 B.B 0.1 0.1 0.1 0.1 0.9 Y
tr 3.6-7.5 5
4 4
7 2
3 1
6 5
7 5
14 17 28 9
6 123 Nf (1) 1.2 p.9 B9 1.7 B.5 0.7 B.2 1.4 1.2 1.7 1.2 3.3 4.0 6.6 2.1 1.4 29.0 (2)
B.3 B.2 B.2 B.4 B.1 9.2 8.1 0.4 B.3 B.4 B.3 9.9 1.1 1.7 0.6 B.4 7.6 I
.7.6-12.5 3
13 5
19 6
4 3
3 6
10 11 4
40 40 19 17 211 d.
N (1) 8.7 3.1 1.2 4.5 1.4 B.9 B.7 B.7 1.4 2.4 2.6 B.9 9.4 11.3 4.5 4.0 49.8 (2) 8.2 0.8 0.3 1.2 B.4 B.2 8.2 0.2 B.4 B.6 0.7 B.2 2.5 3.0 1.2 1.1 13.0 El o
12.6-18.5 4
22 5
8 8
8 0
0 1
1 1
0 9
15 2
1 69 (1) 0.9 5.2 1.2 1.9 B.B B.3 0.0 B.0 B.2 B.2 B.2 B.B 2.1 3.5 0.5 0.2 16.3 (2)
H.2 1.4 0.3 0.5 0.0 0.0 0.0 0.8 B.1 B.1 B.1 B.B 0.6 B.9 0.1 B.1 4.3 18.6-24.B B
B 5
2 8
0 0
B B
B B
B B
B B
B 7
(l) 0.0 0.0 1.2 B.5 0.8 B.B B.B B.B B.B B.O B.0 B.B B.B B.O B.O B.D l.7 (2) 0.0 B.O B.3 B.1 B.8 8.0 0.8 0.0 B.U B.B B.B B.O 0.8 8.8 0.8 B.O B.4 OVER-24.8 9
0 0
0 0
B B
B B
B B
B B
B B
B B
(1) 0.0 B.B 0.0 0.0 B.B B.O B.0 0.8 B.B B.B B.B B.O B.B B.O B.0 B.B 0.0 (2) 0.0 0.0 0.8 0.B 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 B.B 2.0 9.8 ALL SPEEDS 12 39 20 36 9
8 6
10 12 10 17 10 60 93 32 26 424 (1) 2.0 9.2 4.7 8.5 2.1 1.9 1.4 2.4 2.8 4.2 4.0 4.2 16.0 21.9 7.5 6.1 100.B (2)
U.7 2.4 1.2 2.2 B.6 0.5 0.4 0.6 B.7 1.1 1.1 1.1 4.2 5.7 2.8 1.6 26.2 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 424 CALM =VIND SPEED LESS THAN 1.08 HPH
mM M
M M
M M
M M
M M
M M
M M
M M
M W
y 228 FT TOWER - 33 FT 33.8 FT WIND DATA JAN - MAR 1988 STABILITY CLASS E-- DELTA T -B.4 TO +1.5 DEG C PER 100 METERS CLA.S FREQUENCY (PERCENT) 46.23
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
WNU NW NNW TOTAL
-CALH U
0 0
0 6
0 0
B B
B B
B B
B B
B B
(1>
D.0 0.0 0.0 0.0 B.0 B.0 0.0 0.0 B.D B.B B.B B.B B.S 8.8 0.0 B.O B.B (2)
B.B 0.0 0.0 0.0 0.0 B.8 B.0 B.B B.B 0.B B.B B.5 B.O U.D B.B B.B B.0 CTdM-3.5 2
4 3
4 0
0 1
3 10 4
1 9
13 0
7 3
72 (1)
B.3 0.5 0.4 D.5 B.B 0.0 B.!
D.4 1.3 B.5 B.1 1.2 1.7 1.1 B.9 8.4 9.6 (2) 0.1 0.2 0.2 B.2 U.0 0.0 B.1 U.2 F.6 B.2 0.1 B.6 B.8 B.5 9.4 0.2 4.4 p
tr 3.6-7.5 6
B 5
0 0
0 18 12 12 6
35 42 128 55 29 17 373 y'
(1)
U.B 0.0 U.7 0.0 0.0 1.1 2.4 1.6 1.6 B.8 4.7 5.6 17.1 7.4 3.9 2.3 49.9 (2)
>B.4 0.0 U.3 B.B B.B B.5 1.1 U.7 B.7 B.4 2.2 2.6 7.9 3.4 1.8 1.1 23.1
'g 7.6-12.5 5
26 6
4 1
3 11 0
7 6
32 8
56 32 IB 3
218 d.
(1) 0.7 3.5 0.8 B.5 0.1 0.4 1.5 1.1 B.9 0.8 4.3 1.1 7.5 4.3 1.3 8.4 29.1-1 (2)
U.3 1.6 U.4 0.2 U.1 B.2 U.7 U.S 0.4 B.4 2.8 B.5 3.5 2.8 B.6 U.2 13.5
'9' 12.6-18.5 3
21 11 0
2 5
B B
IB 8
2 B
3 2
0 B
64 (1) 0.0 2.8 1.5 0.0 D.3 0.7 B.0 B.D 1.3 1.1 B.3 0.0 S.4 B.3 B.O F.B 8.6 (2) 0.0 1.3 U.7 U.D B.1 0.3 0.0 U.B U.6 0.5 0.1 B.B B.2 U.1 0.0 B.B 4.0 18.6-24.5 0
1 6
4 3
3 D
8 0
4 0
0 D
D B
B 21 (l>
B.B B.1 9.8 B.5 D.4 B.4 B.8 B.0 0.0 D.5 B.0 0.0 0.0 B.O B.B B.O 2.0 (2) 0.0 B.
B.4 B.2 0.2 B.2 B.B B.B 0.0 0.2 0.0 B.O 0.0 9.6 0.8 B.B 1.3 OVER-24.0 D
D 0
B D
D B
B B
B D
D 8
0 0
0 0
(l) 0.0 0.0 0.8 0.0 9.9 0.8 B.D B.U 0.0 0.0 B.9 9.0 0.0 B.O B.0 0.0 0.8 (2) 0.0 0.D B.U U.B 2.0 9.0 D.0 U.0 0.0 0.9 B0 0.8 U.S U.0 8.0 B.0 U.0 ALL SPEEDS 13 52 31 12 6
19 30 23 39 28 7B 59 200 97 46 23 740 (1) 1.7 7.0 4.1 1.6 U.8 2.5 4.n 3.1 5.2 3.7 9.4 7.9 26.7 13.8 6.1 3.1 100.0 (2) 0.8 3.2 1.9 U.7 U.4 1.2 1.9 1.4 2.4 1.7 4.3 3.6 12.4 6.0 2.8 1.4 46.2 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OCSEltVATIONS FOR Tile PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 748 CALH: WIND CPEED LESS THAH 1. fl0 MPH
mW M
M M
M M
Mm m
m W
M M
M M
M M
M 220 FT TOWER - 33 FT 33.0 FT. WIND DATA JAN - MAR 1988 STABILITY CLASS F-- DELTA T 1.6 TO 4.R DEG C PER IB0llETERS CLASS FREQUENCY (PERCENT) 9.39
=
VIND DISTRIDUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNU NW NNW TOTAL
-CALH 0
0 B
B B
G B
B B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 0.0 0.0 B.B B.O B.O B.O B.B
-B.B B.B B.B 2.0 B.O B.B B.B (2) 0.0 0.0 B.0 0.9 8.8 0.0 B.B 0.0 0.8 B.B B.B D.B B.B B.B B.B B.B B.0 CALH-3.5 2
1 1
0 0
2 1
1 3
0 3
5 4
6' 3
1 33 (1) 1.3 B.7 B.7 B.B 0.0 1.3 B.7 0.7 2.8 0.0 2.0 3.3 2.6 3.9 2.0 B.7 21.7' (2) 0.1 B.1 B.1 B.B B.O B.1 0.1 0.1 0.2 B.B 0.2 B.3 0.2 B.4 B.2 B.1 2.B Q
rr 3.6-7.5 1
0 0
1 2
1 0
11 7
7 28 18 12 3
4 8
87 7
(1) 8.7 0.0 0.0 B.7 1.3 B.7 B.B 7.2 4.6 4.6 13.2 11.8 7.9 2.0 2.6 B.B 57.2 (2) 3.1 B.B B.O B.1 0.1 B.1 B.B B.7 B.4 B.4 1.2 1.1 B.7 8.2 B.2 B.B 5.4 f'
i
~
7.6-12.5 0
0 2
3 B
1 4
2 3
3 5
1 1
0 1
1 27 d.
(1) 0.0 0.0 1.3 2.8 B.O B.7 2.6 1.3 2.8 2.0 3.3 8.7 0.7 B.O 0.7 B.7 17.8 g
(2) 8.8 B.B 0.1 0.2 0.0 B.1 0.2 0.1 B.2 B.2 B.3 B.l-8.1 0.0 B.l B.!
1.7 12.6-18.5 8
1 2
8 0
0 B
B B
2 B
B C
D B
B 5
k (11 0.0 0.7 1.3 0.0 0.0 0.0 B.B 0.0 B.B 1.3 B.B B.B 0.B 0.0 B.B B.B 3.3 l
~'
(2) 0.8 0.1 0.1 B.B 0.8 B.B B.B B.B D.B 0.1 B.B B.B B.B B.B B.B B.B B.3 1
j 18.6-24.0 0
0 8
8 0
0 0
B B
B B
B B
B B
B B
(11 0.0 0.8 B.B B.O B.B B.O 0.0 B.B B.B B.B B.B B.O B.O B.O B.O B.B 0.8
\\
(2) 9.B B.O 0.0 0.0 0.0 B.O B.B 0.0 B.9 B.B B.B B.B B.O U.S B.8 8.8 B.B OVER-24.0 0
0 0
0 0
0 B
B B
B B
B B
B 0
D 0
(1) 0.0 0.0 0.0 0.0 0.8 8.0 B.B B.B B.O B.B B.B 2.0 0.8 8.0 B.B B.B B.B j
(2)
B.8 B.B 0.0 B.B 0.0 0.0 B.B B.O B.B B.B B.B B.B B.O B.B B.0 0.0 B.O ALL SPEEDS 3
2 5
4 2
4 5
14 13 12 28 24 17 9
8 2
152 (1) 2.8 1.3 3.3 2.G 1.3 2.6 3.3 9.2 0.6 7.9 10.4 15.8 11.2 5.9 5.3 1.3 198.0 (2) 0.2 B.1 0.3 B.2 0.1 B.2 0.3 B.9 0.8 0.7 1.7 1.5 1.1 B.6 8.5 B.1 9.4 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL COOD OBSLRVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 152 CALit=UIND SPEED LESS THAN 1.00 MPH
mmM m
M M
M M
M M
M M
M M
M M
M M
W.
t 228 FT TOWER - 33 FT I
33.B FT WIND DATA JAN - MAR 1988 1.17 STABILITY CLASS G-- DELTA T GREATER THAN 4.8 DEG C PER 188 METERS-CLASS FREQUENCY (PERCENT)
=
VIND DISTRIBUTION
SUMMARY
DIRECTION SPLtD(MPH)
H NNE NE ENE E
ESE SF SSE S
WNV NV NkV TOTAL
-CALH B
B B
B B
B B
B B
B B
B B
B B
B B
(1) 0.0 B.B B.B B.0 B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B (2) 8.8 0.0 0.0 B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B CALH-3.5 0
0 B
B B
B B
B B
B B
1 2
8 1
8 4
(1) 0.0 B.B B.O 0.0 8.0 B.B 0.8 B.0 B.B B.B B.B 5.3 10.5 B.O 5.3 B.B 21.1 (2) 0.0 B.O B.B B.B 0.0 B.B B.B B.O B.9 0.9 B.9 B.1 B.1 B.O B.1 B.B B.2 Y
o*
3.6-7.5 L
0 0
B B
B B
B B
B 6
5 1
0 0
8 13 Nf (1) 5.3 0.0 B.O B.D B.D B.B 0.0 B.B B.B B.B 31.6 26.3 5.3 B.B B.B
'B.B 68.4 (2)
B.1 B.0 0.0 B.B B.O B.B 0.0 B.B B.B B.B B.4 B.3 B.1 B.B B.O B.O B.8 I
w 7.6-12.5 0
B B
B B
B B
B B
B B
2 B
B B
B 2
J.
(1)
B.0 B.B 0.0 B.B B.B B.B B.O B.O B.B B.B B.8 18.5 B.B B.B B.B B.B 18.5 l
-(2) 0.0 B.O B.B D.B B.O B.O B.B B.B B.B B.B 9.B B.1 B.0 0.0 B.B B.0 0.1 12.6-18.5 B
B B
B B
B B
B B
B B
B B
B B
B B
R (1) 0.0 0.B 0.0 B.O B.O B.0 B.O 0.0 9.9 B.B B.B B.B B.B 0.6 B.B B.B 0.8
- ~'
(2) 0.0 0.0 0.0 B.O B.B B.B B.B B.B 0.B B.B B.B B.B B.B B.B B.B B.B B.B 18.6-24.0 B
B B
B B
B B
B B
B B
B B
B B
B B
(l) 0.8 B.B 0.B 0.B B.O 0.0 B.B B.B B.B B.B 9.8 0.8 B.O B.D B.D D.9 B.B (2) 0.8 B.B 0.8 B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.D B.8 0.0 0.0 OVER-24.0 0
B B
B B
B B
B B
B B
B B
B B
B B
(1) 0.0 B.D 0.0 0.0 0.0 9.0 B.B B.B B.B B.B B.B B.B 0.9 B.O B.B B.O 0.0 (2) 0.8 8.0 0.8 0.8 B.B B.B B.B 0.0 0.0 B.B B.B 0.8 B.B B.0 0.8 B.B 0.0 ALL SPEEDS I
O O
B B
B B
B B
B 6
8 3
0 1
0 19 (1) 5.3 0.0 0.0 0.0 B.B 0.0 0.0 B.B F.0 B.0 31.6 42.1 15.8 0.0 5.3 0.0 180.8 (2)
B.I 0.8 B.B B.O B.O B.B B.B 0.0 0.0 B.B D.4 0.5 0.2 U.0 0.1 0.0 1.2 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE=
IP CALH= WIND SPEED LESS THAN 1.08 MPH
M M
M M
M M
M M-M M
M M
M M
M m' W M
M 228 FT TOWER - 33 FT 33.8 FT WIND DATA JAN - MAR 1988 STABILITY CLASS ALL-- ALL STABILITIES COMBINED CLASS FREQUENCY (PERCENT) 188.98
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
W WNW NW NNW TOTAL
-CALH D
B B
B D
B B
D B
B B
B B
B B
B B
(1)
B.D B.B B.D D.D D.D D.D B.B B.D B.B B.B B.D D.D D.U B.B E.0 B.D D.B (2) 8.8 B.0 B.B B.D B.B B.D D.8 B.B B.B B.B B.B B.B B.B B.D 9.8 0.8 B.B*
CALM-3.5 4
5 5
4 1
3 4
5 13 4
4 16 21 16 13 6
124 (1) 0.2 B.3 D.3 D.2 D.1 U.2 B.2 B.3 B.8 0.2 B.2 1.0 1.3 1.8 B.0 B.4 7.7 (2)
D.2 0.3 0.3 D.2 0.1 B.2 0.2 B.3 B.O B.2 D.2 1.0 1.3 1.0 B.O B.4 7.7 gm 3.6-7.5 29 12 15 IB 6
13 19 30 24 22 69 04 173 185 65 4D 716
(!)
1.0 B.7 U.9 B.6 D.4 0.8 1.2 1.9 1.5 1.4 4.3 5.2 18.7 6.5 4.0 2.5 44.3 m
(2) 1.8 8.7 B.9 3.6 B.4 B.8 1.2 1.9 1.5 1.4 4.3 5.2 10.7 6.5 4.8 2.5 44.3 p.
1 Y.
7.6-12.5 21 46 13 26 7
8 18 13 17 41 56 17
!!B 124 51 23 591 r.
c' (1) 1.3 2.8 B.8 1.6 B.4 B.5 1.1 B.8 1.1 2.5 3.5 1.1 6.8 7.7 3.2 1.4 36.5 r
e (2) 1.3 2.8 B.B 1.6 0.4 0.5 1.1 B.8 1.1 2.5 3.5 1.1 6.8 7.7 3.2 1.4 36.5
,,n 12.6-10.5 4
45 10 8
2 5
B B
11 11 3
0 22 27 2
1 159 (1)
D.2 2.8 1.1 0.0 D.1 B.3 0.D B.D D.7 B.7 8.2 0.0 1.4 1.7 0.1 B.1 9.8 n
(2) 0.2 2.0 1.1 0.5 D.1 0.3 B.D D.D B.7 B.7 B.2 B.B 1.4 1.7 B.1 0.1 9.0 18.6-24.0 B
1 11 6
3 3
D B
B 4
B D
D B
B B
20 (1) 0.0 0.1 9.7 D.4 B.2 0.2 0.8 B.D B.B D.2 0.8 B.D D.D B.D D.D B.0 1.7 (2)
D.0 D.1 U.7 0.4 8.2 U.2 0.0 U.U D.D B.2 U.B B.D D.D B.B B.D D.0 1.7 OVER-24.8 0
D D
D B
B B
B D
D B
B B
D D
8 D.
4 (l) 0.0 B.B D.D D.D D.0 D.D B.B D.0 U.U D.D D.B B.D B.D B.D B.D D.9 0.0 (2)
U.8 0.0 0.0 U.U U.D D.0 D.D D.x U.D D.D D.B D.D B.O B.D D.D B.B D.0 ALL SPEEDS 50 ID9 62 54 19 32 41 48 65 02 132 117 326 272 131 78 l'618 l
(1) 3.6 6.7 3.0 3.3 1.2 2.H 2.5 3.0 4.0 5.1 0.2 7.2 20.1 16.8 8.1 4.3 180.0 (2) 3.6 6.7 3.0 3.3 1.2 2.0 2.5 3.0 4.8 5.1 8.2 7.2 20.1 16.0 8.1 4.3 I Drr. D (1)= PERCENT OF ALL C00D 00 SERVAT 10NS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD HUftBFP OF GOOD OBSEP,VATIONS ON THIS PAGE=1610 74..
PERCENT DATA RECOVERY HUNNER OF HOUliS In THIS PE!!!OD= ZIU4 CALH=WlHD SPEED LESS THAN 1.00 MPH i
.m W
M M
M M
M M
M M
M M
M M
M M
M M
M 220 FT TOUER - 220 FT 228.B FT WIND DATA JAN - HAR 1980 STABILITY CLASS A-- DELTA T LESS THAN -1.9 DEG C PER IDE METERS CLASS FRE00EHCY (PERCENT) 12.40
=
UIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNV NV NNW TOTAL
-CALM 0
0 0
0 0
0 B
B B
B B
B B
B B
B B
(1) 0.0 9.2 0.0 0.0 0.0 B.O B.B 0.8 B.B 0.8 0.8 B.O B.B B.B B.B B.O B.B (2) 0.0 0.9 B.0 B.B 0.0 0.B B.B U.B B.B U.0 0.8 B.B 0.0 0.0 B.B B.B B.B CALM-3.5 0
0 0
0 B
B B
B B
B B
B B
B B
B B
(11 0.0 0.0 0.0 B.O B.O
.B.O B.B B.B 0.8 B.0 B.B B.B B.B B.B B.B B.B B.O Y
(2) 0.0 0.0 0.0 B.O U.B 0.0 0.8 U.B U.B 0.0 B.O B.O B.B B.0 B.B B.B B.B 3.6-7.5 1
3 0
0 0
0 0
0 8
0 B
B B
1 3
7 15 (1)
B.5 1.5 B.B 0.0 B.9 0.0 0.9 B.O B.9 B.B B.B B.B B.O B5 1.5 3.5 7.4
?
t21 0.1 G.2 0.0 0.0 0.8 B.0 0.8 0.0 0.0 B.B B.B 0.B B.B B.I B.2 B.4 B.9 7.6-12.5 6
5 0
0 0
2 1
U B
3 2
1 9
5 11 5
50 (1) 3.0 2.5 0.0 0.0 0.0 1.0 9.5 0.0 0.8 1.5 1.8 D.5 4.5 2.5 5.4 2.5 24.0 I
(2) 0.4 0.3 0.0 0.0 0.0 0.1 0.1 0.0 0.0 8.2 B.1 8.1 0.6 B.3 B.7 8.3 3.1 n
12.6-10.5 13 4
0 B
B D
0 1
8 la 1
1 6
10 17 6
77 (1) 6.4 2.B 0.8 B.O 0.0 B.O B.O B.5 B.B 5.0 B.5 B.5 3.0 8.9 8.4 3.8 38.1 (2) 0.0 0.2 0.0 0.0 U.0 8.0 B.O B.1 0.9 0.6 0.1 0.1 0.4 1.1 1.1 0.4 4.8 10.6-24.0 4
1 8
0 0
0 0
0 B
3 0
0 4
10 8
8 30 (1) 2.0 D.5 B.O B.O 0.0 0.8 0.0 0.8 0.0 1.5 B.8 0.0 2.0 5.0 4.0 B.0 14.9 (2) 0.2 0.1 0.0 U.0 U.0 9.0 B.B 0.0 0.0 B.2 8.8 B.O B.2 0.6 B.5 0.0 1.9 OVER-24.0 2
1 0
0 0
0 8
0 0
0 0
0 3
10 6
0 30 (1) 1.0 0.5 0.0 0.0 0.0 0.0 0.0 B.0 B.O B.H B.B B.U l.5 8.9 3.0 0.0 14.9 (2) 0.1 U.!
U.U U.0 U.U 0.0 0.0 0.0 0.0 B.O B.O B.B 0.2 1.1 B.4 0.0 1.9 ALL SPEEDS 26 14 0
0 B
2 I
I B
16 3
2 22 52 45 la 202 (1) 12.9 G.9 0.0 0.0 0.0 1.H 0.5 B.5 0.8 7.9 1.5 1.0 18.9 25.7 22.3 B.9 100.0 (2) 1.6 0.9 U.D 0.0 U.0 0.1 0.1 0.1 U.D 1.8 B.2 0.1 1.4 3.2 2.8 1.1 12.5 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAG" (2)=PERCEHT OF ALL GOOD OUSERVATIONS FOR THE PERRI' NUMBER OF GOOD ODSERVATIONS ON THIS PAGE= 2B2 CALM =UIND SPEED LESS THAM 1.00 f tPH
M M
M M
M M
M M
M M
M M
M M
M M -m m
m' 220 FT TOVER - 220 FT 220.0 FT WIND DATA JAN - MAR 1980 STABILITY CLASS B-- DELTA T -1.9 TO -1.7 DEG C PER IBO METERS CLASS FREQUENCY (PERCENT) 1.11
=
WIND DISTRIBUTION SUMHARY DIRECTION S P E E D( MPil )
N NNE NE ENE E
WNW NW NNW TOTAL
-CALM 0
8 0
0 0
B B
B B
B B
B B
B B
B B
(l1 S.U 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 B.B B.O 0.B 0.8 0.0 0.0 B.8 0.0 (h) 0.0 0.0 U.B 0.0 U.S B.0 B.O B.B U.B U.B B.B B.8 U.S B.9 8.9 0.0 0.8 CALM-3.5 0
0
-Q 0
0 0
B B
B B
B C
B B
B B
B (1)
B.B B.B B.4 0.0 0.0 B.O 0.8 0.8 B.B B.B B.B b.B B.O B.O B.B 0.8 B.B (2) 0.0 B.0 U.S 0.0 0.B B.O B.B 0.8 0.0 B.B B.O B.U B.B B.9 0.0 B.B B.B Q
cr 3.6-7.5 0
B 1
1 0
0 0
B B
B B
B B
l 0
1 4
(1)
B.0 B.B 5.6 5.6 0.0 B.B B.0 0.8 B.0 B.B B.B 0.0 0.0 5.6 B.O 5.6.
22.2 (2) 9.6 B.B U.1 H.I B.O B.B 0.B 0.8 8.0 0.0 9.8 B.B B.B B.1 0.0 B.1 B.2
?'
s 7.6-12.5 1
0 0
0 0
0 B
B B
B B
1 2
0 B
B 4
),
w.
03 (1) 5.6 B.B 0.0 0.0 B.O B.0 B.B B.B B.0 B.0 B.B 5.6 11.1 B.0 B.O 0.0 22.2 g
(2) 0.1 B.F B.B 2.0 0.0 B.9 0.2 B.B B.B B.B B.B B.1 0.1 B.O B.O B.O 0.2
}{
o 12.6-18.5 8
8 8
0 0
0 B
B 1
1 B
B B
2 0
0 4
(l) 0.8 0.0 B.O B.0 0.0 B.B 0.0 0.0 5.6 5.6 B.B B.B 3.0 11.1 H.B B.9 22.2
~'
(2) 0.8 B.B 0.8 0.8 B.B B.B B.B B.B U.1 0.1 B.B B.B J.B 0.1 0.0 0.0 B.2 18.6-24.0 0
0 0
0 0
0 0
0 0
2 B
1 0
1 8
8 4
(1) 0.8 U.0 0.0 0.0 0.0 0.0 9.8 0.0 0.0 11.1 0.8 5.6 0.0 5.6 B.O 0.0 22.2 (2) 0.8 0.0 U.0 U.0 0.0 0.0 0.0 U.U B.O B.1 B.3 B.1 U.U B.1 B.O 0.8 B.2 OVER-24.0 0
1 0
0 0
0 0
0 0
0 B
C D
0 B
1 2
(l) 0.0 5.6 U.U R.U 0.0 0.0 0.0 9.6 B.U B.B B.B B.O B.0 0.0 8.0 5.6 11.1 (2) 0.8 0.1 U.0 0.9 0.0 B.B D.B 0.8 B.U B.B 0.8 9.9 U.B 0.0 B.D 0.1 B.1 ALL SPEEDS 1
1 1
1 0
0 0
0 1
3 0
2 2
4 8
2 18 (1) 5.6 5.6 5.G 5.6 0.0 0.0 0.0 0.0 5.6 16.7 B.O 11.1 11.1 22.2 U.0 11.1 100.0 (2) 0.1 B.1 0.1 U.1 U.0 0.0 D.0 U.9 e.1 U.2 8.0 8.1 0.1 U.2 B.B B.1 1.1 (1)= PERCENT OF ALL GOOD OBSERVATIONS FGR THIS PAGE (2 bPERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOCD OBSERVATIONS ON THIS PAGE=
LC CALH= WIND SPEED LESS TilAN 1.09 HPH
E E
E-M M
M M
M M
m e
m e
mm e
e m
228 FT TOWER - 228 FT 228.8 FT WIND DATA JAN - HAR 1988-3.48 STABILITY CLASS C-- DELTA T -1.6 TO -1.5 DEG C PER 188 HETERS CLASS FREQUENCY (PERCENT)
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNW NW MNW TOTAL
-CALH B
B B
B B
B B
B B
B B
B B
B B
B B
(1) 0.0 B.O B.D B.D B.B B.B B.B B.B B.B B.B B.B B.B B.B B.O B.B B.B B.B (2) 0.8 B.B D.D B.D B.B B.B D.B B.B B.B B.B B.B B.B B.3 B.B B.B B.B' B.B CALM-3.5 B
B B
D D
8 8
0 8
8 B
B B
B B
B B
(1) 0.8 B.B B.D B.O D.8 B.O 2.8 B.D B.B B.B B.B B.B B.B D.D B.B B.B B.B (2) 9.8 0.0 9.9 0.8 B.B B.D B.B 6.8 B.D D.B B.B B.B B.B B.B B.9 B.3 B.B Qw 3.6-7.5 0
1 3
D B
B B
B B
B 2
B B
B 1
8 7
H*
(1)
B.D 1.8 5.5 0.0 D.D D.B B.D D.D D.B D.B 3.6 B.B B.B B.D 1.8 B.B 12.7 (2)
U.8 B.1 B.2 B.B D.B B.B B.D B.B D.B B.B D.1 B.B B.B B.B B.1 8.8 B.4 f'
g Q*
7.6-12.5 D
D B
D B
D D
D D
B I
2 2
U 2
1 8
8, (1) 0.8 B.D D.B 2.D B.B D.D D.D D.B B.B B.B 1.8 3.6 3.E B.D 3.6 1.8 14.5 I
(2) 0.0 B.O D.B B.B B.D B.D D.D D.B D.D B.B B.1 0.1 B.1 B.O B.1 B.1 0.5
'9 12.6-18.5 0
B D
D D
D B
B B
2 4
2 2
1 3
1 15 D
(1) 0.0 B.D D.D B.D B.D B.B D.D B.B D.B 3.6 7.3 3.6 3.6 1.8 5.5 1.8 27.3 I
(2) 8.9 B.B D.B D.B B.B D.D B.B B.B B.B B.1 B.2 B.1 0.1 B.1 B.2 B.1 B.9 18.6-24.8 B
B B
B B
B B
B B
1 1
1 3
1 1
1 9
(1) 8.8 B.D D.D D.D B.B D.D B.B D.B B.B 1.8 1.8 1.8 5.5 1.8 1.8 1.8 16.4 (2) 0.8 B.B D.0 B.B D.B B.B B.B B.B B.B B.1 B.1 B.1 0.2 B.1 0.1 0.1 B.6 OVER-24.0 1
3 D
8 B
B B
B B
B B
B D
10 2
8 16 (1) 1.8 5.5 D.0 B.0 0.8 B.D B.B B.D B.B B.B B.B D.B B.D 18.2 3.6 B.B 29.1 (2) 0.1 0.2 B.B B.D B.0 B.B B.B D.0 B.B B.B B.B B.B B.D B6 B.1 0.0 1.8 ALL SPEEDS 1
4 3
0 0
0 B
B B
3 8
5 7
12 9
3 55 (1) 1.8 7.3 5.5 0.8 0.0 0.0 0.8 B.D D.B 5.5 14.5 9.1 12.7 21.8 16.4 5.5 100.0 (2) 0.1 B.2 B.2 0.0 D.D D.B B.B D.D D.0 0.2 0.5 B.3 B.4 B.7 B.6 8.2 3.4 (1)= PERCENT OF ALL GOOD ODSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF COOD OBSERVATIONS ON THIS PAGE= 55 CALH=VIND SPEED LESS THAN 1.DD HPH
m W
W W
W W
W W
W W
m W
W W
W W
W'M 220 FT TOWER - 228 FT 228.B FT WIND DATA JAN - MAR 1988 26.21 STABILITY CLASS D-- DELTA T -1.4 TO -B.5 DEC C PER 188 METERS CLASS FREQUENCY (PERCENJ)
=
VIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
VNV NV NNV TOTAL
-CALM B
B B
D D
B B
B B
B B
B B
3 3
8 6
(l)
B.D D.D D.B B.B B.D B.D B.B B.B B.B B.B B.B B.B B.B B.7 B.7 B.B 1.4 (2) 8.8 0.0 U.D D.B B.D D.B B.B B.B B.B B.B B.B B.B B.B B.2 B.2 B.B B.4 CALM-3.5 8
0 0
B B
B B
B B
B B
B 1
1 B
B 2
(1)
B.D B.B B.B B.D B.B B.B B.D D.D B.B B.B B.B B.D B.2 B.2 B.B B.B B.5 (2)
B.0 B.B B.B B.B B.B D.D B.B B.B E.D B.D B.D B.B B.i B.I D.B D.B B.1
&?
tt 3.6-7.5 1
1 3
0 1
2 2
1 B
B B
4 8
2 7
1 20 7
(1) 8.2 0.2 0.7 1.9 B.2 0.5 B.5 B.2 B.B B.D B.B B.9 B.B B.5 B.f B.2 C.6 (2) 8.1 B.1 B.2 B.5 B.I B.1 B.1 0.1 B.B D.B B.B B.2 B.D B.1 B.)
B.1 1.7
?
i 3
M 7.6-12.5 3
3 1
17 4
0 4
4 4
7 4
0 5
6 1
2 73 1
(1)
B.7 B.7 U.2 4.c B.9 B.B B.9 B.9 B9 1.7 B.9 1.9 1.2 1.4 B.2 B.5 17.2 I
(2) 0.2 0.2 U.1 1.1 U.2 0.0 B.2 B.2 B.2 U.4 B.2 B.5 0.3 B.4 B.1 0.1 4.5 7$
o 12.6-10.5 1
1 2
4 3
3 1
2 4
8 4
5 16 23 28 0
185 N
(1) 0.2 B.2 0.5 0.9 D.7 B.7 B.2 B.5 0.9 1.9 U.9 1.2 3.0 5.4 4.7 1.9 24.0 (2) 0.1 0.1 0.1 0.2 0.2 D.2 0.1 8.1 H.2 B.5 0.2 0.3 1.0 1.4 1.2 B.5 6.5 1
18.6-24.0 1
5 2
4 3
1 0
3 2
B 9
2 11 17 8
11 79 (1) 8.2 1.2 0.5 D.9 D.7 U.2 B.0 D.7 B.5 0.8 2.1 B.5 2.6 4.0.
1.9 2.6 18.6 i
(2) 0.1 0.3 0.1 D.2 0.2 0.1 0.0 8.2 B.1 0.0 B.6 D.1 0.7 1.1 0.5 B.7 4.9 OVER-24.8 0
29 0
3 0
0 0
0 1
2 8
8 8
42 14 16 131 (1) 1.9 6.0 1.9 D.7 D.D D.D B.D D.D B.2 U.S B.D D.D 1.9 9.9 3.3 3.0 30.9 (2) 0.5 1.0 0.5 0.2 0.0 U.0 B.B B.B B.!
8.1 0.0 B.D D.5 2.6 B.9 1.8 8.1 ALL SPEEDS 14 39 16 36 11 6
7 18 11 17 17 19 41 94 48 38 424-(1) 3.3 9.2 3.0 0.5 2.6 1.4 1.7 2.4 2.6 4.0 4.D 4.5 9.7 22.2 11.3 9.0 180.0 i
(i) 8.9 2.4 1.8 2.2 U.7 U.4 B.4 U.6 0.7 1.1 1.1 1.2 2.5 5.0 3.0 2.3 26.2
)
(1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL C00D OBSERVATIONS FOR THE PERIOD NUVBER OF GOOD OBSERVATIONS ON THIS PAGE= 424 CALM =VIND SPEED LESS THAN 1.00 MPH
mm m
m m
m W
W W
W W
W W
W W
W M-W 228 FT TOWER - 228 FT 228.0 FT WIND DATA JAN - MAk-1988 STABILITY CLASS E-- DELTA T -D.4 TO +1.5 DEG C PER 108 HETERS CLASS FREQUENCY (PERCENT) 46.23
=
VIND DISTR 12"T10N
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
VNV NV NNV TOTAL
-CALM D
B B
B D
D B
B B
B B
B B
D 5
8 5
(l1 D.D D.D D.D B.O B.B B.D B.B B.D B.B B.B B.B B.B B.B B.B D.7 B.3 B.7 1
(2) 8.8 U.S D.0 U.B B.B B.B B.D B.B B.8 B.B B.B B.B B.B B.B B.3 B.8 B.3 CALM-3.5 2
9 1
1 1
B 1
B B
B B
1 1
B B
1 9
(1)
U.3 D.B B.1 0.1 D.1 B.D D.1 B.D B.B D.B B.B B.1 B.1 B.B B.B D.I 1.2 (2) 0.1 9.8 0.1 0.1 0.1 0.0 D.1 B.B B.B B.B D.D B.1 B.1 B.9 B.B B.l' D.G Y
tt 3.6-7.5 5
0 1
2 3
1 1
4 2
2 1
0 2
6 0
18 40 7
(1) 0.7 0.0 0.1 B.3 B.4 B.1 B.1 B.5 B.3 B.3 B.1 H.8 8.3 B.8 1.1 1.3 6.4 (2) 8.3 B.B U.1 0.1 0.2 B.1 B.1 D.2 B.1 B.1 D.1 B.B D.I B.4 B.5 S.6 3.8 8
- N 7.6-12.5 0
2 3
3 1
2 5
7 5
2 3
13 9
27 12 18 112 1
(1) 1.1 9.3 D.4 0.4 B.1 B.3 B.7 0.9 B.7 B.3 B.4 1.7 1.2 3.6 1.6 8.3 15.8 I
(2) 8.5 U.I U.2 0.2 B.1 0.1 H.3 B.4 8.3 0.1 B.2 B.O D.6 1.7 8.7 0.6 6.9
{
12.6-18.5 6
1 7
0 2
2 IB 14 5
9 28 26 60 66 49 14 311 S
(1) 0.0 0.1 0.9 0.0 D.3 B.3 1.3 1.9 B.7 1.2 2.7 3.5 8.8 11.5 6.6 1.9 41.6 (2)
B.4 B.1 0.4 B.B B.1 0.1 B.6 U.9 B.3 0.6 1.2 1.6 3.7 5.3 3.8 U.9 19.2 10.6-24.0 10 10 3
4 0
2 7
5 6
5 38 4
13 32 11 2
149 (1) 1.3 1.3 D.4 0.5 D.D B.3 B.9 0.7 B.8 B.7 4.9 U.S 2.4 4.3 1.5 B.3 19.9 (2) 8.6 9.6 U.2 U.2 0.8 U.1 U.4 8.3 U.4 D.3 1.9 U.2 1.1 2.0 B.7 9.1 9.2 OVER-24.D 4
35 12 1
3 9
2 2
5 16 7
D 3
13 1
1 114 (1) 9.5 4.7 1.G D.1 H.4 1.2 B.3 0.3 B.7 2.1 B.9 B.8 U.4 1.7 d.1 B.1 15.2 (2) 8.2 2.2 0.7 U.1 U.2 B.G D.!
8.1 B.3 1.0 D.4 0.0 U.2 0.0 D.!
8.1 7.8 ALL SPEEDS 35 48 27 11 ID 16 26 32 23 34 61 44 93 164 06 30 740 (1) 4.7 6.4 3.6 1.5 1.3 2.1 3.5 4.3 3.1 4.5 8.2 5.9 12.4 21.9 11.5 5.1 IDD.B (2) 2.2 3.0 1.7 U.7 U.6 1.0 1.6 2.8 1.4 2.1 3.0 2.7 5.7 10.1 5.3 2.3 46.2 (1)= PERCENT OF ALL C00D OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD nBSERVATIONS ON THIS PAGE= 740 CALit=VIND SPEED LESS THAN 1.UD HPH
.m W
M
.m m
m mm m
m m
m m
m m
W W
220 FT TOWER - 220 FT 220.8 FT WIND DATA JAN - MAR 1980 STABILITY CLASS F-- DELTA T 1.6 TO 4.0 DEG C PER IDBHETERS CLASS FREQUENCY (PERCENT) 9.39
=
WIND DISTRIBUTION
SUMMARY
c li:ECTION SPEED (HPH)
N NNE NE ENE E
ESE SE SJE S
VNV NV NNV TOTAL
-CALH 0
6 0
D D
D 0
2 B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 0.0 B.B B.O B.B R.2 0.8 B.B B.B 0.0 0.0 0.0 B.B B.B B.B (2)
B.B B.0 U.S B.B B.D B.B B.B U.B B.B B.B B.B B.O U.B B.0 B.B B.B B.B CALH-3.5 B
1 D
D o
B 1
0 1
8 I
I B
2 8
8 7
(1) 0.0 B.7 B.B 0.0 B.B B.O B.7 B.B B.7 B.B B.7 B.7 0.8 1.3 B.B B.B 4.6 (2)
B.B B.1 B.D U.B B.U B.B D.1 U.9 U.1 B.0 B.I B.1 U.S B.1 B.B 0.0 B.4 Yo' 3.6-7.5 1
2 D
1 0
1 D
B 1
1 2
1 1
6 2
4 23 (1) 8.7 1.3 B.B B.7 B.0 0.7 B.B B.B B.7 B.7 1.3 B.7 B.7 3.9 1.3 2.6 15.1 (2)
U.S B.1 0.0 B.1 B.B B.I B.B B.B B.1 B.I B.1 8.1 0.1 B.4 B.I B.2 1.4
?>
7.6-12.5 1
B B
2 2
B B
1 1
5 2
2 5
11 3
5 48 1
g m
(1)
B.7 B.B B.D 1.3 1.3 B.8 D.B B.7 B.7 3.3 1.3 1.3 3.3 7.2 2.8 3.3 26.3 (2)
B.1 B.B B.B B.1 B.1 B.B B.B B.I B.1 B.3 B.1 B.1 B.3 B.7 B.2 B.3 2.5 1$
o 12.6-18.5 1
B D
1 g
B B
8 5
3 8
7 9
5 8
1 48 N
(1) 8.7 B.B B.D B.7 B.B G.B B.B 5.3 3.3 2.8 5.3 4.6 5.9 3.3 B.B B.7 31.6 (2)
B.1 B.B B.B B.1 B.B B.B B.O 0.5 B.3 B.2 B.5 B.4 B.6 B.3 B.O B.1 3.8 10.6-24.0 1
B 1
1 2
1 2
5 2
2 6
2 1
D 8
1 2/
41)
D.7 B.B D.7 B.7 1.3 0.7 1.3 3.3 1.3 1.3 3.9 1.3 U.7 B.B D.D B.7 17.8 (2)
U.1 B.0 0.1 0.1 U.1 U.1 B.1 H.3 U.I B.1 D.4 B.1 0.1 U.D U.B B.1 1.7 OVER-24.8 D
1 2
0 0
D D
B D
2 9
B D
D D
2 7
(1) 0.0 B.7 1.3 0.0 B.D R.D D.0 0.0 B.O 1.3 0.0 B.B 0.0 0.0 0.0 1.3 4.6 (2)
U.B 0.1 U.1 U.U 0.0 0.0 B.B U.0 0.0 U.1 B.B B.O B.B D.U B.B B.1
'B.4 ALL SPEEDS 4
4 3
S 4
2 3
14 1B 13 19 13 16 24 5
13 152 (1) 2.6 2.6 2.0 3.3 2.6 1.3 2.0 9.2 6.6 8.6 12.5 8.6 18.5 15.0 3.3 8.6 170.D (2) 0.2 0.2 U.2 U.3 U.2 B.1 0.2 B.9 U.6 U.8 1.2 B.8 1.8 1.5 U.3 B.8 9.4 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD HUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 152 CALM =VIND SPEED LESS THAN 1.BB MPH
M M
M M
M M
M M
M M
M M
M M
M M
220 FT TOWER - 229 FT 220.D
' WIND DATA JAN - MAR 1988 1.17 STABILITY CLASS G-- DELTA T GREATER THAN 4.8 DEG C PER 100 METERS CLASS FREQUENCY (PERCENT)
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NME NE EHE E
WNW NW NNW TOTAL
-CALM U
S B
B B
B B
B B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 B.B B.B B.0 0.8 0.8 B.B B.B B.0 B.B B.B B.B B.B B.B B.B (2) 0.0 B.B B.O B.B B.B B.B 0.8 B.0 0.0 B.B B.B B.O 0.8 B.B B.B B.B B.B CALM-3.5 B
B B
B B
B B
B B
B B
B B
B 1
B 1
(1)
B.0 0.0 0.0 0.0 0.0 B.B B.B B.B 0.B B.B B.B B.B B.B B.O 5.3 B.B 5.3 (2) 0.8 0.0 U.B D.0 B.B B.'
O.8 U.B 0.B B.B B.B B.O 9.8 B.O B.I B.B B.1 y
a' 3.6-7.5 B
B B
B B
B B
B B
B B
B B
2 0
8 2
(1)
B.E B.B 9.0 0.0 B.D D.B D.B B.8 9.8 B.B B.8 B.B B.O 18.5 8.9 0.8 18.5 (2)
U.B 0.0 U.S U.a 0.0 B.O 0.0 0.0 B.B B.B 9.8 B.B B.B B.1 B.O 0.0 B.1 i
7.G-12.5 0
0 0
B B
B B
0 B
B B
2 3
0 8
9 5
J.
n V
(1) 0.0 0.0 0.0 d.0 B.B B.O B.O B.O B.B B.B B.B 18.5 15.8 B.0 B.O B.O 26.3 g
(2) 0.0 0.0 U.S D.B 8.0 0.0 0.0 0.0 D.6 B.B B.B B.I B.2 B.D B.0 B.9 B.3 12.6-18.5 B
D D
D B
B D
0 0
B 1
3 5
1 0
0 la R
(l) 0.0 8.0 0.0 0.0 0.0 B.B O.0 B.D 0.0 B.B 5.3 15.0 26.3 5.3 0.8 B.O 52.6
=
(2) 0.0 B.O U.0 0.0 0.0 0.0 0.0 B.B B.B B.B B.1 B.2 0.3 U.S 0.0 B.B 0.6 18.6-24.0 0
0 0
0 0
0 0
0 0
8 8
8
[
0 0
0 0
(l) 0.0 0.0 2.0 0.0 0.0 0.0 0.0 0.9 B.B B.0 B.B B.O 0.0 B.O 0.0 0.8 B.0 (2) 0.0 0.0 U.D U.8 0.0 0.0 B.0 B.B B.O D.0 B.B 0.0 0.0 0.0 0.8 B.O 0.0 OVER-24.0 1
0 0
D B
B B
B B
B B
B D
0 0
0 1
(l) 5.3 B.O 0.0 U.8 B.O B.D B.O B.0 B.0 B.B B.9 B.O 0.0 0.0 0.0 0.0 5.3 (2>
B.1 U.0 U.U B.0 D.0 n.0 0.0 0.0 0.0 B.0 B.D U.0 9.6 0.0 B.D B.B 0.1 ALL SPEEDS 1
0 0
0 0
0 B
B D
B 1
5 8
3 1
0 19 (1) 5.3 B.O 0.0 B.0 0.0 B.D D.0 0.0 0.f B.B 5.3 26.3 42.1 15.0 5.3 0.0 100.0 (2) 0.1 U.B U.0 U.U U.B B.O 0.0 B.D U.B B.O Q.1 0.3 0.5 0.2 0.1 B.0 1.2 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2 )= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUNDER OF GOOD 00SERVATIONS ON THIS PAGE=
19 CALM =UIND SPEED LESS THAN 1.00 MPH
m m
m m
m m
m m
m m
m m
220 FT TOWER - 220 FT 228.8 FT WIND DATA JAN - MAR 1988 STABILITY CLASS ALL-- ALL STABILITIES COMBINED CLASS FREQUENCY (PERCENT) 100.08
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE ME ENE E
VNV NW NNW TOTAL
-CALH D
D D
B B
B B
B B
B B
B B
3 8
8 11 (1)
B.D B.D D.D B.B D.D B.D B.B B.D B.B h.B B.B B.D D.D B.2 B.5 0.8 D.7 (2)
B.B B.D B.B B.B B.B D.B D.B B.B B.B B.B B.B B.0 D.B B.2 B.5 B.B B.7 CALH-3.5 2
1 1
1 1
0 2
B 1
0 1
2 2
3 1
1 19 (1) 0.1 0.1 B.1 B.1 0.1 0.8 8.1 0.0 B.1 B.8 B.1 B.1 B.I B.2 B.1 B.1 1.2 (2) 0.1 B.1 U.1 0.1 0.1 B.D B.1 B.8 B.1 0.0 B.1 B.1 0.1 B.2 0.1 0.1 1.2 y
c:r 3.6-7.5 0
7 8
12 4
4 3
5 3
3 5
5 3
18 16 23 127 M*
(1)
D.5 8.4 U.S D.7 B.2 0.2 0.2 0.3 B.2 U.2 B.3 B.3 0.2 1.1 1.8 1.4 7.8 (2) 0.5 0.4 0.5 0.7 B.2 B.2 0.2 U.3 B.2 B.2 0.3 B.3 0.2 1.1 1.8 1.4 7.8 7'
i y
7.6-12.5 19 10 4
22 7
4 1B 12 is 17 12 29 35 49 29 23 292 1
(1) 1.2 D.6 D.2 1.4 U.4 B.2 0.6 B.7 B.6 1.1 U.7 1.8 2.2 3.0 1.8 1.4 18.0 8
(2) 1.2 B.6 U.2 1.4 0.4 0.2 0.6 U.7 0.6 1.1 B.7 1.0 2.2 3.0 1.8 1.4 18.8
'9' 12.6-18.5 21 6
9 5
5 5
11 25 15 33 38 44 98 136 89 38 578 D
(1) 1.3 D.4 D.6 B.3 0.3 0.3 B.7 1.5 0.9 2.0 2.3 2.7 6.1 8.4 5.5 1.9 35.2 Eb (2) 1.3 D.4 0.6 0.3 0.3 0.3 B.7 1.5 0.9 2.0 2.3 2.7 6.1 8.4 5.5 1.9 35.2 18.G-24.D IG 16 6
9 5
4 9
13 10 13 46 ID 37 61 28 15 298 (1) 1.0 1.0 0.4 0.6 0.3 0.2 8.6 B.8 0.6 0.0 2.8 B.6 2.3 3.8 1.7 D.9 18.4 (2) 1.0 1.0 D.4 8.6 U.3 0.2 B.6 0.8 8.6 B.8 2.8 0.G 2.3 3.8 1.7 8.9 18.4 j
OVER-24.0 16 70 22 4
3 9
2 2
6 2B 7
D 14 83 23 20 381 (1) 1.D 4.3 1.4 B.2 B.2 0.6 B.!
D1 0.4 1.2 0.4 B.D D.9 5.1 1.4 1.2 18.6 (2) 1.8 4.3 1.4 0.2 0.2 B.6 B.1 B.1 B.4 1.2 B.4 B.B D.9 5.1 1.4 1.2 18.6 ALL SPEEDS 82 110 53 53 25 26 37 57 45 86 ID9 90 189 353 194 112 1618 (1) 5.1 6.8 3.1 3.3 1.5 1.G 2.3 3.5 2.8 5.3 6.7 5.6 11.7 21.8 12.0 6.9 IDD.D (2) 5.1 6.8 3.1 3.3 1.5 1.6 2.3 3.5 2.8 5.3 6.7 5.6 11.7 21.8 12.8 6.9 100.0 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUllCER OF GOOD OBSERVATIOllS ON Tills PAGE=1618 74.1 PERCENT DATA RECOVERY llul10ER OF HOURS IN THIS l'ERIOD= 2184 Call 1=UlHD SPEED LESS TilAN 1.00 t1P H
E E
W E
E 228 FT TOWER - 33 FT 33.8 FT WIND DATA APR - JUN 1988 14.39 STABILITY CLASS A-- DELTA T LESS THAN -1.9 DEG C PER 180 METERS CLASS FREQUENCY (PERCENT)
=
WIND DISTRIBUTION
SUMMARY
N NNE NE ENE E
WNV NV NNV TOTAL
-CALK 0
0 0
0 0
B B
B B
B B
B B
B B
B B
(1)
B.O B.O B.B B.B B.B B.B B.D D.0 B.B B.B B.B B.B B.B B.B B.B B.B B.B (2) 0.8 0.0 0.0 B.B B.B B.O B.B B.B B.B B.B B.B B.B B.B B.B B.D D.B B.B CALH-3.5 1
0 0
0 B
B B
B B
B B
B 1
1 B
B 3
(1)
D.6 0.0 0.0 0.0 0.0 B.0 B.B B.B B.B B.B B.B B.B B.6 B.6 B.8 B.B 1.7 (2) 0.1 B.B 0.0 0.8 B.B B.D 0.0 0.8 0.8 B.0 B.B B.B B.I B.1 B.B B.B B.2 3.6-7.S 18 21 12 1
13 7
0 0
0 B
B 2
4 12 9
8 107 H
(1) 10.3 12.1 6.9 D.6 7.5 4.0 0.0 B.B s
D.0 B.B 1.1 2.3 6.9 5.2 4.6 61.5 e
(2) 1.5 1.7 1.0 U.1 1.1 B.6 B.O D.9 0.0 U.0 0.8 B.2 B.3 1.9 B.7 0.7 8.9 Hm U$
7.6-12.5 3
7 10 2
1 7
2 4
8 8
7 4
2 4
2 1
64 d
(1) 1.7 4.0 5.7 1.1 D.6 4.0 1.1 2.3 D.D 4.6 4.0 2.3 1.1 2.3 1.1 B.6 35.a f
(2)
U.2 B.6 9.0 0.2 B.1 B.6 B.2 U.3 0.0 B.7 U.6 B.3 0.2 0.3 B.2 B.1 5.3 N
12.6-18.5 0
0 0
0 B
B B
B B
B B
B B
D 8
0 0
(1>
0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 B.B B.0 B.B B.B B.B 0.0 B.O 0.0 B.B (2)
U.0 U.U 0.0 0.0 0.0 d.B 0.0 0.0 0.0 2.0 D.B 0.0 0.8 9.0 0.0 0.0 0.0 18.G-24.0 B
B D
0 0
0 0
0 B
B B
B D
D B
D B
(1) 0.0 B.R 0.0 0.0 0.0 B.D B.B D.0 0.0 0.0 B.B B.B 0.0 0.9 B.O B.*
9.0 (2) 0.0 0.0 0.9 0.0 0.0 B.O D.0 0.0 B.0 0.0 0.0 0.0 0.0 B.O B.O 0.U D.B OVER-24.8 0
0 0
B B
B B
B B
B B
D 9
U 0
0 B
(1) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 B.O BaB B.B B.B D.0 0.H 0.0 0.0 9.0 B.B (2) 8.9 B.U U.D U.U U.S B.B B.0 U.0 B.0 0.0 0.8 0.0 U.B U.0 B.B B.D 0.0 ALL-SPEEDS 22 28 22 3
14 14 2
4 8
8 7
6 7
17 11 9
174 (1) 12.6 16.
12.6 1.7 11. 0 0.0 1.1 2.3 B.O 4.6 4.8 3.4 4.0 9.8 6.3 5.2 IDS.8 (2) 1.0 2.3 1.0 0.2 1.2 1.2 0.2 0.3 U.0 U.7 U.6 U.S U.6 1.4 0.9 0.7 14.4 (1)=PERCrdT OF ALL GOOD OBSERVATIONS FOR THIS PAGE
( 2 )=PL'.ENT Of ALL GOOD Ol;SERVATIoHs l'on 1HE pen t0D NUMBER OF COOD OBSERVATIONS ON THIS PAGE= 174 CALH=WlHD SPEED LESS THAN 1.00 MPH
)
M M
M M
M M
M 225 FT TOWER - 33 FT 33.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS B-- DELTA T -1.9 TO -1.7 DEG C PER IBB HETERS CLASS FREQUENCY (PERCENT) 1.41
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
WNW NV NNW TOTAL
-CALM B
B B
D D
B B
B B
B 2
B B
B B
B B
(1) 8.B 0.0 0.0 0.0 B.O B.B B.B B.0 0.0 B.B B.B B.B D.U B.O B.B B.B B.B (2) 0.0 0.0 0.0 0.8 0.8 0.0 B.B B.B D.D B.B B.0 B.B 0.0 0.0 B.D B.B D.B CALM-3.5 0
0 0
0 0
0 0
0 B
B B
B B
D D
B D
(1)
U.0 B.D U.0 B.B B.0 0.0 0.8 0.0 B.6 B.O B.B B.D 0.0 B.O 0.0 0.0 B.0 (2) 0.0 0.0 U.0 B.B U.S B.B B.O B.8 0.0 B.B B.B B.B U.6 B.0 0.0 3.0 0.0 Y
tt 3.6-7.5 2
0 3
2 1
1 1
1 8
D B
2 1
1 8
a 15 7
(1) 11.0 0.0 17.6 11.8 5.9 5.9 S.9 5.9 B.O B.B B.B 11.8 5.9 5.9 B.D B.0 88.2 (2)
B,2 B.0 D.2 0.2 0.1 B.1 B.1 U.1 0.0 B.8 0.0 B.2 B.I B.1 B.0 0.0 1.2 7.6-12.5 0
0 0
g g
a B
D D
D 1
0 0
1 B
B 2
b gm (1) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 B.O B.0 0.0 5.9 B.D D.0 5.9 0.9 0.0 11.8 t2)
B.B B.B B.D B.B B.B B.0 B.B B.B B.B B.B B.1 B.B B.B B.1 0.0 B.B B.2 o
12.6-18.5 0
B D
U B
U D
0 B
B B
B B
C D
B D
5 (1) 0.0 B.O 0.8 B.B B.O D.0 B.B B.D D.B B.B B.B B.B 0.0 0.0 B.B B.B B.B (2) 0.0 0.0 0.0 0.0 U.S 9.8 0.0 B.O B.O B.B B.B B.B 0.6 B.O B.0 B.B B.B 18.6-24 B 0
0 0
0 0
B B
B B
B 2
B B
B B
B B
(1)
B.0 B.B 0.0 0.0 D.B B.B B.B B.B B.B B.B B.B B.O B.B 0.D 0.0
%.B B.B (2) 8.8 B.0 0.0 B.B B.B B.O B.B B.B D.0 B.B B.B B.B B.B B.0 0.8 t.0 9.8 OVER-24.8 B
B B
B B
B B
B B
B B
B C
B B
B B
(11 0.0 B.O H.0 0.0 0.H D.U B.B H.S 9.0 0.0 0.0 B.0 0.0 B.O B.D B.9 B.0 (2) 0.0 0.0 U.D U.5 0.x 0.0 0.0 0.0 0.0 0.0 B.B B.O 0.8 B.0 B.D 0.0 U.0 ALL SPEEDS 2
0 3
2 1
1 1
I D
D 1
2 1
2 0
0 17 (1) 11.8 U.D 17.6 11.8 5.9 5.9 5 '. 9 5.9 8.0 D.D 5.9 11.0 5.9 11.8 B.O D.0 180.0 (2) 0.2 B.D U.2 U.2 U.1 U.1 B.1 U.I U.D U.0 U.1 0.2 0.1 B.2 B.B 0.U
!.4 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE=
17 CALH=UIHD SPEED LESS THAN 1.UU HPH
M M
M M
M M
M M
M M
M M
M M
M 220 FT TOWER - 33 FT 33.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS C-- DELTA T -1.6 TO -1.5 DEG C PER IBB HETERS CLASS FREQUENCY (PERCENT) 3.64
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNW NW NNW TOTAL
-CALH 0
0 0
0 0
0 0
B s
B B
B B
B B
B B
(1) 0.0 B.B O.0 0.0 8.0 0.0 B.O B.O B.I S.B B.B B.B 0.0 B.O B.B B.B B.B (2)
B.O B.B 0.0 0.0 B.B B.O 0.8 B.B B.h B.B B.B B.B 0.0 9.8 B.B 0.8 0.0 CALM-3.5 0
0 0
1 8
0 0
B B
B B
B B
B B
B 1
(1) 0.0 B.0 0.0 2.3 B.B B.O B.B B.B B.B
'.0 0.0 0.0 0.0 0.0 0.0 0.0 2.3 (2) 0.0 0.0 0.0 0.1 0.0 0.0 0.0 0.8 B.0
..B B.O B.B B.0 B.0 8.0 B.B B.1
&?
a-3.6-7.5 3
0 0
2 2
'4 2
8 8
8 2
i B
4 8
2 22
$f (1) 6.0 0.0 0.0 4.5 4.5 9.1 4.5 B.O B.O 0.0 4.5 2.3 0.8 9.1 B.O 4.5 50.0 (2)
B.2 B.O 0.0 0.2 B.2 0.3 B.2 U.8 0.0 6.0 0.2 0.1 0.8 B.3 B.0 0.2 1.8 T
I 7.6-12.5 0
1 1
0 0
3 3
2 0
8 1
0 1
1 8
8 21 os U
(1) 0.0 2.3 2.3 0.0 0.0 6.0 6.8 4.5 B.0 18.2 2.3 B.O 2.3 2.3 0.0 0.0 47.7 (2) 0.0 0.1 0.1 F.0 0.0 0.2 0.2 0.2 0.0 B.7 0.1 0.0 0.1 0.1 0.0 B.B 1.7 n
I o
12.G-10.5 0
0 0
0 0
0 0
0 0
0 0
B B
C D
D D
5 (1) 0.8 B.0 0.0 0.0 0.0 0.0 8.0 8.0 B.O B.8 B.O B.B U.0 B.O 0.0 8.0 0.0 (2) 0.8 B.O 0.0 0.0 0.0 0.0 0.8 0.0 0.6 0.0 0.0 B.O 0.8 0.0 0.8 0.B 0.0 18.6-24.0 0
0 0
0 0
0 8
0 0
0 0
0 0
0 0
0 B
(l) 8.8 B.O 0.0 0.0 B.B 0.0 0.8 B.0 0.0 B.B 9.0 B.U 0.0 0.0 0.0 0.0 0.0 (2) 8.9 B.O 0.0 0.8 0.0 B.0 B.B 0.0 B.8 B.B B.O B.O 0.0 0.0 G.0 8.0 0.0 DVER-24.0 0
0 0
0 0
B B
B B
B B
B U
0 0
0 0
(1) 0.0 B.B 0.0 0.0 0.0 0.8 B.O D.0 B.B B.B B.B B.O 0.8 0.0 0.0 B.O 0.0 (2) 8.8 B.0 0.0 B.0 B.O B.9 B.B B.O B.O 0.0 0.0 8.0 0.0 0.0 0.0 0.0 0.0 ALL SPEEDS 3
1 1
3 2
7 5
2 B
B 3
1 1
5 0
2 44 (1) 6.8 2.3 2.3 G.0 4.5 15.9 11.4 4.5 B.O 18.2 6.8 2.3 2.3 11.4 8.0 4.5 100.0 (2) 0.2 0.1 0.1 0.2 0.2 0.6 0.4 0.2 0.0 0.7 0.2 0.1 0.1 U.4 0.0 0.2 3.6 (1)= PERCENT OF ALL GOOD OllSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD ODSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE=
44 CALM = WIND SPEED LESS THAN 1.03 HPH
)
m W
W W
W W
W W
M M
M M
M M
M M
M M
M 228 FT TOVER - 33 FT 33.5 FT WIND DATA APR - JUN 1988 STABILITY CLASS D-- DELTA T -1.4 TO -0.5 DEG C PER IBB METERS CLASS FREQUENCY (PERCENT) 28.18
=
VIND DISTRIBt, TION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
VNV NV NNV TOTAL
-CALM S
9 5
a a
a B
g B
B B
B B
B B
B B
(1) 8.8 0.8 B.B B.B B.B B.B B.B B.B B.B B.B B.B B.B B.R B.B B.B B.B B.B (2)
U.S B.8 0.0 0.0 B.B B.B B.B B.B B.B B.B B.8 8.0 B.B 9.0 0.8 0.0 0.0 CALH-3.5 2
1 3
6 2
8 2
4 8
1 B
I B
B 2
2 26 (11 B.8 B.4 1.2 2.5 B.8 B.B B.8 1.6 B.B B.4 B.B B.4
'B.O B.R B.8 B.8 18.7 y
(2)
U.2 B.1 B.2 U.5 0.2 B.B B.2 B.3 B.8 B.!
8.0 B.I B.B B.8 B.2 B.2 2.2 o'
3.6-7.5 3
8 9
14 24 27 13 0
5 5
8 2
7 6
3 4
138 s
(!1 1.2 B.B 3.7 5.7 9.0 11.1 5.3 3.3 2.0 2.8 3.3 B.8 2.9 2.5 1.2 1.6 56.6 (2)
B.2 B.B B.7 1.2 2.8 2.2 1.1 B.7 B.4 B.4 B.7 B.2 8.6 B.5 0.2 B.3 11.4 g
g CD N
7.6-12.5 0
3 7
2 D
3 3
2 1
16 15
,5 3
3 6
7 76 (1) 0. 51 1.2 2.9 B.O 11. 0 1.2 1.2 D.n B.4 6.6 6.1 2.0 1.2 1.2 2.5 2.9 31.1 Q
(2) 0.0 B.2 U.6 U.2 U.B B.2 U.2 U.2 0.1 1.3 1.2 B.4 U.2 0.2 0.5 0.6 6.3 on 12.6-10.5 1
0 2
11 0
0 B
11 D
8 0
D D
D 1
4 0
(1) 0.4 B.O 17. 0 11. 0 0. 11 B.11 0. 11 U.D U.D B.D B.11 B.H 18. 9 B.O S.O B.4 1.6 12)
U.1 0.0 U.2 U.U U.U U.U U.0 U.0 U.D B.11 0.0 B.6 U.0 0.0 0. 11 B.1 U.3 18.6-24.0 H
U U
U U
B D
D U
8 8
0 0
0 0
8 8
(lI L1. 0 B. k1 11. 0 H. Il 11. 0 11. 8 B.H K1. II
- 11. H B.B U.0 0.0 U.11 0. 11 0.0 B.U 11. 0 l
(2)
JJ. U 0.0 U.0 Kr. 0
!). U 11. 0 9.8 U.H U.2 B.9 U.S 9.0 9.8 U.0 0.0 B.D U.S I
OVER-24.0 0
0 U
H 0
R B
B D
B B
D e
U B
B B
(l)
U.U 0.0 B.if H.H 11. 11 U.0 0.0
- 11. U 11. 0 0.8 U.S 9.0 0.0 8.0 B.0 B.D 0.0 (2)
U.U U.0 U.U U.U U.0 U.0 0.0 U.U U.U B.U B.9 0.0 0.0 9.8 B.8 B.B B.B ALL SPEEDS 6
4 21 22 26 30 to 14 6
22 23 0
IU 9
11 14 244 (1) 2.5 1.6 0.6 9.0 1;f. 7 12.3 7.4 5.7 2.5 9.U 9.4 3.3 4.1 3.7 4.5 5.7 100.0 (2) 0.5 ti. 3 1.7 1.3 J.2 2.5 1.5 1.2 U.S 1.0 1.9 B.7 0.0 B.7 B.9 1.2 2D.2 (1)= PERCENT OF ALL GOOD OBSEl1VATIONS FOR Tills PAGE
( 2 )=PE!!CEtli 0F ALL GOOD OBSEltVAfluNG l'O R Tile PEltIOD 1
NUllBElt OF COOD OBSERVATIONS ON THIS PAGE= 244 CALH=VIND SPEED LESS TilAtl 1.00 HPil J
N W
W W
W W
W W
W W
W M
W W
WW W ' ' W '~ ' f l
l 228 FT TOVER - 33 FT 33.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS'E-- GELTA T -F.4 TO +1.5 DEG C PER 188 METERS CLASS FREOUENCY (PERCENT) = 45.88 VIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
VNV NV NNV TOTAL
-CALH 0
B B
B B
B B
B B
B B
B B
B B
B B
(1)
B.B B.B B.B 0.8 0.0 B.B B.B B.B B.B B.B B.B B.B B.B B.B B.O B.B B.B (2) 8.B 9.0 B.D 0.8 0.0 9.8 D.B B.B 0.0 0.8 B.B B.B B.B B.9 0.8 B.B B.B CALH-3.5 4
2 3
6 17 5
2 7
4 6
4 5
7 18 6
10 98 (1) 8.7 B.4 0.6 1.1 3.1 B.9 B.4 1.3 0.7 1.1 0.7 8.9 1.3 1.8 1.1 1.8 18.8 (L) 8.3 0.2 0.2 B.5 1.4 B.4 B.2 8.6 B.3 B.5 0.3 8.4 B.6 B.8 B.5 B.8 8.1 p
a*
3.6-7.5 23 6
13 8
14 14 30 14 28 18 23 13 23 17 18 21 275 y'
(1) 4.2 1.1 2.4 1.5 2.6 2.6 5.5 2.6 3.7 3.3 4.2 2.4 4.2 3.1 3.3 3.9 50.6 (2) 1.9 B.5 1.1 B.7 1.2 1.2 2.5 1.2 1.7 1.5 1.9 1.1 1.9 1.4 1.5 1.7 22.7 7'>
7.6-12.5 6
1 4
5 13 3
6 28 14 27 22 5
4 2
8 1
141 4
(1) 1.1 0.2 0.7 B.9 2.4 B.6 1.1 3.7 2.6 5.0 4.8 0.9 B.7 0.4 1.5 B.2 25.9 (2) 0.5 0.1 9.3 U.4 1.1 B.2 0.5 1.7 1.2 2.2 1.8 B.4 B.3 B.2 8.7 0.1 11.7 73 I
O 12.6-18.5 2
IB B
B 9
0 0
8 6
2 1
B B
B B
B 30 (1) 0.4 1.8 0.9 0.8 1.7 B.B D.B B.B 1.1 B.4 0.2 B.B 0.8 B.8 0.8 B.B 5.5 (2) 8.2 B.8 8.8 U.B B.7 B.B B.B B.0 B.5 B.2 0.1 B.8 0.8 B.D B.B D.B 2.5 18.6-24.0 D
B B
B B
B B
B B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 0.0 B.B B.O B.B B.O D.B B.B B.B B.R B.B D.0 B.0 0.8 D.B (2) 0.0 B.B B.B B.0 0.8 B.B B.O B.B 0.0 0.8 B.B b.G B.0 B.0 0.0 0.0 B.0 DVER-24.0 0
0 B
B R
8 8
0 0
0 0
0 0
0 0
C D
(1) 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 B.B 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 (2) 0.8 8.0 U.S 6.0 B.8 U.B C.0 0.0 0.0 0.0 U.0 8.0 0.0 0.U U.S 8.0 0.0 ALL SPEEDS 35 19 20 19 53 22 38 41 44 53 50 23 34 29 32 32 544 (1) 6.4 3.5 3.7 3.5 9.7 4.0 7.9 7.5 8.1 9.7 9.2 4.2 6.2 5.3 5.9 5.9 190.0 (2) 2.9 1.6 1.7 1.G 4.4 1.0 3.1 3.4 3.6 4.4 4.1 1.9 2.8 2.4 2.6 2.6 45.0 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD ODSERVATIONS FOR THE PERIOD NUMBER CF GOOD OBSERVATIONS ON THIS PAGE= 544 cal.M=VIND SPEED LESS THAN I.00 f1PH
W W
W M
M M
M M
M M
M M
M M
M M
M M
M 228 FT TOWER - 33 FT 33.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS F-- DCLTA T 1.6 TO 4.B DEG C PER IBBHETERS CLASS FREOUENCY (PERCEMT) 13.15
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
VNV NV NNV TOTAL
-CALH B
..?
0 0
B B
B B
B B
B B
B B
B B
B (1) 0.0 B.O 0.9 B.B 0.0 B.B B.B 0.5 B.B B.B B.B B.B B.O B.o 0.8 B.B B.O (2) 0.8 8.0 B.8 B.B B.B 0.8 B.B B.B 0.8 0.8 B.8 8.8 B.B B.B B.B B.O 0.8 CALH-3.5 1
1 8
0 0
0 1
B B
B 2
8 15 2
7 8
37 (l}
B.6 B.6 B.O B.B 0.0 B.B 9.6 B.B B.8 B.O l.3 5.8 9.4 1.3 4.A B.O 23.3 (2) 8.1 B.1 B.B B.B B.O B.B 0.1 B.B 0.8 B.8 8.2 B.7 1.2 0.2 B.6 0.0 3.1 Y
tr 3.6-7.5 3
8 4
8 1
0 2
5 2
5 10 31 28 11 2
3 99 7
(1) 1.9 0.0 2.5 0.0 0.6 B.B 1.3 3.1 1.3 3.1 6.3 19.S 12.6 6.9 1.3 1.9 62.3 (2)
U.2 0.0 0.3 0.8 B.1 0.0 B.2 B.4 B.2 U.4 0.0 2.6 1.7 U.9 0.2 0.2 8.2 i
u 7.6-12.5 0
8 2
B 1
1 B
8 0
11 7
8 1
0 0
23 b
C) gi) 0.0 B.B l.3 B.O 0.6 0.G 0.0 0.8 B.O B.D 6.9 4.4 B.O 0.G B.9 B.B 14.5 l
t2)
B.O 0.8 9.2 0.8 B.1 0.1 0.u n.0 B.B 0.0 B.9 B.G B.B B.I B.O B.B 1.9 12.6-18.5 0
0 0
0 0
0 0
0 B
B B
B B
B B
B B
(l)
B.O 0.0 B.O Q.0 0.0 B.O B.O 0.0 B.B B.O B.B B.B B.0 B.O B.O B.0 B.B (2) 0.9 B.B 2.0 8.0 B.B B.B O.0 0.0 B.8 0.8 8.8 0.0 0.0 B.B B.8 B.O B.B 18.6-24.0 0
0 0
8 0
0 8
0 B
B B
B B
B B
B B
(1) 0.0 0.0 0.0 0.0 0.0 U.B 0.0 00 B.B B.B B.B B.O B.O 9.0 B.B B.O 0.B (2) 8.8 0.0 B.O D.0 0.0 B.B B.B B.O B.8 8.0 0.8 B.0 B.O B.0 B.O B.0 0.0 OVER-24.8 0
B 0
0 0
0 B
B B
B B
B B
B B
B B
(1) 0.H 0.0 0.0 0.0 0.0 0.0 0.0 B.0 0.8 0.8 B.B B.O 0.0 0.0 0.0 0.0 0.8 (2) 8.4 0.0 0.0 0.8 0.0 0.8 0.0 0.0 8.0 B.B B.B B.B 0.9 0.0 B.B B.D D.B ALL SPEEDS 4
1 6
B 2
1 3
5 2
5 23 46 35 14 9
3 159 (1) 2.5 0.6 3.0 F.0 1.3 0.6 1.9 3.1 1.3 3.1 14.5 28.9 22.0 8.8 5.7 1.9 100.0 (2) 0.3 B.1 0.5 B.0 0.2 0.1 0.2 p.4 B.2 B.4 1.9 3.0 2.9 1.2 B.7 B.2 13.2 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUHRER OF GOOD OCSERVATIONS ON THIS PAGE= 159 CALibVIND SPEED LESS THAN 1.00 MPli
?rY * >h M
t B B. B.
B 0. O.
0 O. B.
B B. 0 702 312 187 312 LA M
2 2
T BB 1B 71 1B 0B BB B0 02 3
O 1
7 1
0 2
T 1
2 V B O. 8 B 0. O.
8 8. B.
0 O. O.
D O. B.
0 O. 0 0 O. 0 000 M
N N
BB BB 0B BB BB B0 B0 00 8 =
8 9
)
1 T
W B O. 0 B 0. B.
0 8. B.
000 D U. O.
800 000 00.O.
N N
M E
B8 0B 0B 0B 0B 20 00 0B N
C U
R J
E P
V B08 B00 0 B. O.
0 O. 0 D 0. U.
0 B. O.
000 000
(
NV 00 B8 BB B0 BB BB 00 00 R Y P
C A
N E
W B08 B08 796 000 D00 U00 0 M. 0 796 U
Q B0 00 50 00 0U 00 B0 5U E
2 2
7 M
R 2
F W B06 i71 179 242 B U. 0 B00 8 O. U.
492 S
S 1
1 e
S W
BB 3B 80 7B BB 00 B0 11 E
A 4
5 G
L A
M C
P V B B. 8 171 B00 B O. 0 0 B. 0 s
l71 31 2
554 S
B0 3B 1B 30 00 B0 B0 8U l
l 1
1 i
Y T
R m
A W B B. B.
B 8. B.
B B. 8 B08 B 9. S.
0 B. 0 0 O. 0 0 0. U.
N M
S O
M S
BB 0B BB 00 8U B0 B0 00 U
S S
N S
O R
N S
B80 B O. 0 B B. H.
a80 B88 008 000 0 O. 0 I
m E
O N
T T
I O
00 B0 BB 09 00 00 0U B0 A
E T
I V
M U
T R
T B
C F
F 0
I EE B08 B00 B88 n J. 0 B00 000 0 O. U.
0 O. 0 S
F R
RS D
m J'
1 T
IS 00 00 00 00 00 00 BU B0 O
3 S
D R
I D
E D
O P
E B00 171 B00 B00 B00 008 000 171 O
R D
S D
G E
C N
00 3U 00 00 0B 00 00 30 EO m
W I
GI F
O C
W AR O T
E PE B B. O.
008 B00 B00 0 B. 0 000 0 D. 9 0 U. 8 D
E P
R T
S S
E 0
E BB B0 B0 B0 B0 00 L8 B0 IE B
F HH M
m 0
4 TT U
2 N
2 N
E B08 000 B00 B 8. B. 000 D00 880 D D. U.
RR A
OO H
00 08 00 0H 0B 00 00 0U FF T
SS M
R NN H
E E
000 800 000 B00 008 B80 000 B 0. U.
OO P
T N
II M
A E
0B 00 0U 0U 00 0U 00 00 TT E
AA R
VV J
/
G Rl 0
M E
008 0 0. U. 000 B00 090 0 U. S.
000 D00 FE T
N SS 1
00 0U 00 00 B0 0U 0U 00 l
C l
A OO N
T A
L DD i
l E
E 000 0 0. B.
0 O. 0 B 0. B.
0 O. 0 000 0 O. S.
C00 OO T
M D
N OO N
00 0B B0 0B B0 00 BU 00 GC S
S A -
LL E
T G LL L
A N S06 000 000 008 000 000 000 B O. 0 AA D
S M
D S
0U 00 0U 00 0U 00 00 B0 FF E
D A
OO E
N L
P I
C TT S
V
)
S NN Y
H M) 5.12 5.12
- 5. l 2 5.12
- 0. l 0.12
)
1)
) )
) )
) )
))
) )
D)
)
EE D
T T
P L12 M
2 E12 CC N
F I
H A((
3((
7((
2( (
0( (
4( (
4( (
E( (
RR I
L
(
C 1
1 2
2 P
EE U
0 I
D S
PP
=
B E
H 6
6 6
6 R
H 3
A E
L E
L
) )
L 3
I P
A 3
7 2
8 V
L 1
2 A
S S
C 1
1 M
O A
( (
C m
I w~
g
M Y
M M
M M
M M
M M
M' O
M M
M M
W 228 FT TOWER - 33 FT 33.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS ALL-- ALL STABILITIES COH03NED CLASS FREQUEhCY (PERCENT) = 188.88 WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (HPH)
N NNE NE ENE E
S5W SW WSW W
WNW NW NNW TOTAL
-CALH B
B B
B B
B B
B B
B B
B B
B B
B B
(1)
B.0 0.8 B.O B.O B.B B.B B.B 0.8 B.B B.B B.B B.O B.B B.B B.B B.B B.B (2)
B.B B.B B.B 0.9 B.B B.B B.B B.0 B.B B.B B.O B.B B.B B.B B.B B.O B.B CALM-3.5 0
4 6
13 19 5
6 11 4
7 7
15 23 13 15 12 168 (1) 8.7 8.3 0.5 1.1 1.6 B.4 B.5 0.9 B.3 B.6 B.6 1.2 1.9 1.1 1.2 1.B 13.9 g
(2) 8.7 8.3 0.5 1.1 1.6 B.4 B.5 B.9 B.3 B.6 B.6 1.2 1.9 1.1 1.2 1.8 13.9 me 3.6-7.5 52 27 41 27 55 53 40 28 27 28 46 62 62 51 32 38 677 7
(1) 4.3 2.2 3.4 2.2 4.5 4.4 4.8 2.1 2.2 2.3 3.8 5.1 5.1 4.2 2.6 3.1 56.8 (2) 4.3 2.2 3.4 2.2 4.3 4.4 4.8 2.3 2.2 2.3 3.0 5.1 5.1 4.2 2.6 3.1 56.8 1
f 7.6-12.5 9
12 24 9
15 17 14 20 15 59 58 23 18 12 16 9
330 ba g
i ba (1) 8.7 1.8 2.0 0.7 1.2 1.4 1.2 2.3 1.2 4.9 4.0 1.9 B.0 1.B 1.3 8.7 27.3 (2) 0.7 1.0 2.8 0.7 1.2 1.4 1.2 2.3 1.2 4.9 4.8 1.9 0.8 1.0 1.3 B.7 27.3 g
12.6-18.5 3
18 2
6 9
0 0
0 6
2 i
B B
B B
1 34 S
(1>
0.2 0.8 0.2 B.O 0.7 B.B B.O 0.8 B.5 B.2 B.1 0.0 0.0 0.0 0.0 d.1 2.8 (2)
B.2 8.8 B.2 0.0 0.7 B.0 B.D B.B 0.5 B.2 B.1 B.O B.B B.B 0.8 B.!
2.8 18.G-24.0 0
0 B
B B
B B
B B
B B
B B
B B
B B
(1) 8.9 0.0 0.0 0.0 0.B 0.0 0.8 0.0 0.0 B.B B.B B.B B.O B.O B.O B.O B.0 (2) 0.0 8.0 0.0 0.0 B.0 B.O B.B 0.8 B.O B.0 0.8 B.B B.O B.0 0.0 0.0 B.B DVER-24.0 0
0 0
0 0
0 0
0 B
B B
B B
0 0
8 8
(l) 0.0 B.B 0.0 0.0 0.0 0.0 0.8 0.0 B.B B.B 0.0 B.O 8.0 0.0 0.8 B.0 B.B (2) 8.9 0.8
- 0. 0 '
B.0 B.B B.O 0.0 0.0 G.0 U.S B.0 B.B B.B B.B B.0 B.B B.D ALL SPEEDS 72 53 73 49 90 75 60 67 52 96 112 IDB 95 76 63 68 1209 (1) 6.0 4.4 G.0 4.1 0.1 6.2 5.6 5.5 4.3 7.9 9.3 0.3 7.9 6.3 5.2 5.8 100.0 (2)
- 6. 9 4.4 6.8 4.1 U.1 G.2 5.6 5.5 4.3 7.9 9.3 8.3 7.9 6.3 5.2 5.0 100.8 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR Tile PERIOD NUMBER OF GOOD OBSf *VATIONS ON TiliS PAGE=1209 55.4 PERCENT DATA RECOVERY NUMBEll OF llOUlls U. ills PERIOD = 2104 CALH= WIND SPEED LESS TilAN 1.00 HPH
._.E E
E E
E E
E E
E E
M M3 M
M-g g
g 220 FT TOWER - 220 FT 220.8 FT WIND DATA APR - JUN 1980 STABILITY CLASS A-- DELTA T 1ESS THAN -1.9 DEG C PER 100 HETERS CLASS FREQUENCY (PERCENT) b 14.39
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNV NV
's TOTAL
-CALH H
0 0
0 0
0 0
0 0
B B
B B
B B
B B
(1) 0.0 B.O 0.0 9.0 B.0 0.0 0.0 B.C 0.0 0.0 8.0 0.0 5.0 0.0 B.O 0.d B.B (2) 8.8 B.B 0.0 B.B.
B.O B.B 0.8 B.B B.B B.B B.B B.B 0.8 8.8 B.B B.B B.B CALH-3.5 0
0 0
l 0
B 3
0 0
B B
B B
B B
B I
(1) 0.0 B.O 0.0 0.6 0.0 B.O 0.0 0.8 B.0 B.B B.B B.B B.B B.O B.B B.B B.6 h
(2) 8.8 B.0 8.0 B.1 0.0 B.B B.B 0.8 B.B B.0 B.B B.B B.B B.B 0.8 0.8 B.1 o'
m 3.6-7.5 4
3 2
2 3
2 B
B B
P B
B 2
1 2
2 23 (1) 2.3 1.7 1.1 1.1 1.7 1.1 B.B B.B B.O B.B 0.0 B.O 1.1 8.6 1.1 1.1 13.2 I
(21 8.3 B.2 0.2 0.2 0.2 B.2 01 0.0 B.B B.B B.O B.B B.2 B.I B.2 B.2 1.9
}
I 7.6-12.5 12 19 2
0 6
3 4
0 8
0 2
1 6
0 4
1 68 jf (1) 6.9 10.9 1.1 0.0 3.4 1.7 "c. 3 B.B B.B B.B 1.1 0.6 3.4 4.6 2.3 0.6 39.1 (2) 1.0 1.6 0.2 B.O 0.5 8.2 0.3 0.0 B.B B.B B.2 0.1 B.5 0.7 8.3 B.I 5.6
,n 12.6-10.5 la IB 5
8 1
0 9
i B
6 3
3 1
4 6
6 65 (1) 5.7 5.7 2.9 0.0 0.6 0.0 5.2 0.6 B.O 3.4 1.7 1.7 0.6 2.3 3.4 3.4 37.4 (2)
U.0 0.0 0.4 0.0 U.1 8.8 B.7 U.1 B.B 0.5 0.2 B.2 0.1 B.3 B.5 B.5 5.4 10.6-24.0 2
1 1
0 0
8 1
3 0
5 1
0 1
1 0
1 1/
(1) 1.1 0.6 0.6 0.0 B.O B.O B.6 1.7 B.0 2.9 B.6 0.0 0.6 0.6 B.0 0.6 9.0 (2) 0.2 B.!
0.1 B.B B.0 B.O 0.1 0.2 0.0 0.4 B.1 0.0 0.1 B.1 0.8 0.1 1.4 OVER-24.0 0
8 0
0 0
0 0
8 B
B B
B B
D e
a B
(l) 0.0 0.8 U.0 0.0 0.0 B.O 0.0 B.8 B.0 B.B 0.0 B.0 B.O B.O B.0 0.9 B.O
\\
(2)
B.0 0.0 U.0 U.0 0.0 0.0 0.0 U.0 0.0 0.0 0.0 0.0 0.8 0.5
'6. 0 0,8 0.V ALL SPEEDS 28 33 IB 3
10 5
14 4
0 11 6
4 10 14 12 10
- 74 (1) 16.1 19.0 5.7 1.7 5.7 2.9 U.0 2.3 0.H 3
3.4 2.3 5.7 8.0 T.9 5./
180.0 (2) 2.3 2.7 U.0 0.2 U.u B.4 1.2 0.3 U.S
~.9 0.5 0.3 0.0 1.2 1.0 B.8 14.4 i
( 11= PERCENT OF ALL GOOD OBSERVAllol S FOR THIS PAGE
( 2 )=PEttCENT OF ALL GOOD OBSERVAT10f'S FOR THE PERIOD NUNDER OF GOOD OBSERVATIONS ON THIS PAGE= 174 CALH= WIND SPEED LESS THAN 1.80 HPH
W W
W W
W W
M ' M g ' ' ' g ' ' ' g '
g," g ' g --' g - g -
228 FT TOWER - 228 FT 228.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS'B-- DELTA T -1.9 TO -1.7 DEG C PER IBB METERS CLASS FREOUENCY (PERCENT) 1.41
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE HE ENE E
WNW NW NNW TOTAL
-CALH B
3 0
0 0
0 0
B B
B B
B B
B B
B B
(1) 0.0 B.B B.B B.B 0.0 B.D B.B B.B B.B B.B B.B B.B B.B B.D B.B B.B B.B (2) 0.0 B.B B.0 B.B B.B B.B B.B U.B B.0 B.O B.B B.B B.B B.D B.B B.B B.B CALH-3.5 0
0 0
0 0
0 0
0 B
B B
B B
B B
B B
(1) 0.8 B.0 B.B 0.0 0.0 0.0 0.0 0.0 B.B B.B 0.8 B.B B.O B.B B.B B.O B.B (2) 8.B 0.0 B.B B.0 0.0 B.B B.B D.8 B.B B.B B.B B.B B.6 B.B B.B B.B B.B Y
o~
3.6-7.5 0
1 1
2 B
B B
B B
B B
B B
B B
1 5
Y (1)
B.B 5.9 5.9 11.8 B.B B.B B.O B.B 0.B B.B B.B B.B B.B B.0 B.O 5.9 29.4 (2) 0.9 B.1 0.1 0.2 0.8 B.O B.9 B.O B.B B.B B.B B.B 0.0 B.O B.O B.1 8.4 8
7.6-12.5 8
1 0
B B
1 2
1 B
D 0
2 B
2 B
B 9
0 y
(1) 0.0 5.9 0.0 B.B D.0 5.9 11.8 5.9 8.8 B.D B.B 11.8 B.0 11.8 B.B 0.0 52.9 (2) 0.9 B.1 0.0 B.8 B.B B.1 B.2 8.1 B.B B.B B.B 0.2 0.0 8.2 B.B B.O B.7 12.6-10.5 1
B D
0 0
8 8
8 8
B B
B B
B B
B l
5 (l) 5.9 0.0 0.B B.D B.O B.O B.O 0.0 0.0 B.B B.B B.B D.B B.B B.B 0.8 5.9 (2)
B.1 B.B B.
B.B B.D B.B B.O 0.8 B.B B.B B.B B.B B.B B.B B.O B.B B.1 18.6-24.0 0
0 0
0 0
0 B
B B
B I
9 0
1 0
0 2
(1) 0.0 0.0 0.0 0.0 0.0 0.8 B.O 0.0 0.0 B.O 5.9 B.B U.0 5.9 B.0 B.O 11.8 (2) 0.U U.S U.9 U.0 0.0 B.H 0.0 U.S 0.0 B.B B.1 0.0 8.0 B.1 B.0 B.B 8.2 OVER-24.0 0
D 0
0 0
0 0
0 B
B B
B 0
0 0
0 B
(l)
R.0 B.O D.0 0.0 B.B B.0 0.8 0.9 B.B 0.0 B.O D.0 0.0 0.0 0.0 9.8 0.0 (2) 0.0 0.0 U.0 U.0 U.0 0.0 U.s 0.0 U.S B.8 0.8 8.U 0.J U.0 B.0 B.U 0.0 ALL SPEEDS I
2 1
2 B
I 2
1 0
0 1
2 0
3 8
1 17 (1) 5.9 11.0 5.9 11.0 0.0 5.9 11.0 5.9 U.B 0.8 5.9 11.a 0.0 17.6 0.0 5.9 1D0.0
- 2)
U.1 0.2 U.1 0.2 U.D B.1 B.2 U.1 0.0 0.8 0.1 0.2 U.S 0.2 B.O B.1 1.4 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL C000 OllSERVATIONS FOR THE PERIOD NUIfDER OF GOOD OBSERVATIONS ON THIS PACE = 17 l
l CALH=UIND SPEED LESS THAH 1.80 f tPH l
l
N N
N W
W W
W W 'W W
M M
M M'
M 'M- ~ M 228 FT TOWER - 220 FT 228.8 FT WIND DATA APR - JUN 1980 STABILITY CLASS C-- DELTA T -1.6 TO -1.5 DEG C PER 100 METERS CLASS FREOUENCY (PERCENT) 3.64
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNW NW NNW TOTAL
-CALH B
B B
B B
B B
B B
B B
B 0
0 B
B B
(1) 8.9 B.B D.0 B.B B.B 0.8 B.B B.0 B.B B.B B.B B.O 0.0 B.O B.O B.C B.B (2) 8.B B.B B.B B.B B.B B.0 B.B B.0 B.B B.B B.B B.B B.B B.B 2.B B.B B.B CALH-3.5 0
0 D
1 0
B B
B B
B B
B B
B 1
B 2
(1)
B.B B.B 9.B 2.3 B.B B.B B.B B.B B.B B.B B.B B.B B.O B.D 2.3 B.8 4.5 (2) 0.8 B.B B.B 0.1 B.B B.B B.B B.B B.B B.B B.B B.B B.B B.O B.i B.B B.2 y
o*
3.6-7.5 2
1 1
1 2
1 0
B B
B B
1 B
2 B
B 11 7
(1) 4.5 2.3 2.3 2.3 4.5 2.3 B.B B.0 B.B B.B B.B 2.3 B.B 4.5 B.B B.B 25.8 (2) 8.2 B.1 0.1 0.1 B.2 B.1 B.B B.D B.3 B.B B.0 B.1 B.O B.2 B.B B.O B.9 8
7.6-12.5 1
B B
B 1
2 3
B B
B 2
B B
1 0
8 IB 4
W (11 2.3 B.O B.B B.O 2.3 4.5 6.8 B.B B.B B.B 4.5 B.B B.D 2.3 B.B B.D 22.7 (21 8.1 B.B B.B B.B B.1 B.2 B.2 B.B B.B B.B B.2 B.B B.B B.1 B.9 B.B B.8 s
12.6-18.5 0
I s
B B
1 4
2 8
5 1
B B
1 8
0 15 (1)
B.B 2.3 0.0 0.0 B.B 2.3 9.1 4.5 B.B 11.4 2.3 B.B B.D 2.3 B.D B.B 34.1 (2) 0.0 B.1 0.0 B.0 0.0 B.1 B.3 B.2 B.B B.4 B.1 B.B B.B.
B.1 B.B B.O l.2 18.6-24.B B
B B
B B
B B
B B
3 8
8 1
1 B
B 5
(1) 0.0 B.O 0.0 0.0 B.O B.B B.B B.B D.B 6.8 B.B B.B 2.3 2.3 B.0 B.B 11.4 (2) 2.8 0.8 0.0 B.B B.O B.B B.B B.B B.O B.2 B.0 8.0 0.1 B.I B.O B.B B.4 OVER-24.0 0
1 0
0 B
B B
B B
B B
B B
B B
B 1
(1) 0.0 2.3 B.U B.O B.B B.B B.O 0.8 B.B B.B B.B 0.B B.O B.O B.O B.B 2.3 (2) 9.8 B.1 0.8 B.B B.B B.B B.O B.B B.B B.B 2.0 B.B 0.0 0.0 B.B B.B B.1 ALL SPEEDS 3
3 1
2 3
4 7
2 4
0 3
1 1
5 1
8 44 (1) 6.0 6.0 2.3 4.5 6.0 9.1 15.9 4.5 B.O 18.2 6.0 2.3 2.3 11.4 2.3 B.B 180.8 (2) 0.2 0.2 U.1 0.2 0.2 0.3 0.6 0;
D.B B.7 0.2 0.1 0.1 B.4 B.I B.B 3.6 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THF PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 44 I
CALM = WIND SPEED LESS THAN 1.00 MPH
m M
M M
M M
M m
m m
m m
m M
M M
M M
M 228 FT TOWER - 225 FT 228.F F'
..!D DATA APR - JUN 1988 STABillTY CLASS D-- DELTA T -1.4 TO -0.5 DEG C PER 188 HETERS CLASS FREOUENCY (PERCENT) 28.18
=
VIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNV i*k NNW TOTAL
-CALM D
D D
D B
D B
B D
B D
B B
B B
B B
(l)
B.8 B.B D.D D.0 D.D D.0 0.0 0.8 B.B B.D B.8 B.B B.D D.D B.B B.B B.D (2) 8.8 U.0 D.D D.B B.D B.B B.O D.B B.D D.B B.D B.D B.B B.B B.B B.B B.B CALM-3.5 8
0 3
5 2
1 B
B B
B B
B B
B B
D 11 (1)
D.D D.D 1.2 2.0 B.B B.4 B.B D.D B.B B.D B.B B.D B.D B.D B.8 B.D 4.5 (2) 9.D D.D D.2 9.4 0.2 0.1 0.8 8.8 B.B B.D D.D B.D D.0 B.D B.B B.B D.9 Y
W 3.6-7.5 2
4 6
4 12 18 12 1
B B
1 1
1 D
1 2
57 7
(I)
U.S 1.6 2.5 1.6 4.9 4.1 4.9 U.4 8.D F.D B.4 D.4 B.4 B.D D.4 B.8 23.4 (2)
U.2 B.3 D.5 8.3 1.0 0.8 1.3 0.1 D.D U.D B.I S.1 0.1 B.D 3.1 0.2 4.7 f>
8 7.6-12.5 3
4 5
2 4
13 IB 3
3 5
1 3
2 3
3 75 b
u (1) 1.2 1.6 2.0 0.0 1.6 4.5 5.3 4.1 1.2 1.2 2.0 B.4 1.2 B.O 1.2 1.2 38.7 jf (2) 0.2 B.3 0.4 0.2 B.3 B.9 1.1 U.0 B.2 B.2 0.4 B.1 B.2 0.2 0.2 0.2 6.2 12.6-10.5 1
1 5
D D
6 3
3 1
16 9
0 4
5 1
1 64 S
(1)
U.4 S.4 2.0 0.0 0.0 2.5 1.2 1.2 B.4 6.6 3.7 3.3 1.6 2.0 B.4 B.4 26.2 (2)
D.1 B.1 U.4 B.D D.B B.5 0.2 8.2 U.1 1.3 B.7 B.7 B.3 0.4 B.1 0.1 5.3 18.6-24.8 1
1 3
8 8
0 2
I B
5 4
8 8
2 2
3 24 (1) 0.4 B.4 1.2 0.0 B.D D.B B.8 B.4 B.B 2.0 1.6 B.9 D.D F.8 0.8 1.2 9.8 (2)
D.I D.!
D.2 0.0 D.0 0.0 0.2 U.I B.D D.4 B.3 0.8 0.0 8.2 B.2 B.2 2.0 OVER-24.0 2
I D
B D
D D
D D
D D
D D
1 3
6 13 (1) 0.0 D.4 D.D D.D D.B D.D B.B D.D B.D D.D D.B B.D D.D D.4 1.2 2.5 5.3 (2) 0.2 0.1 0.0 9.9 D.D D.D U.0 D.D D.D D.B D.D D.D D.D D.1 0.2 B.5 1.1 ALL SPEEDS 9
11 22 11 10 20 30 15 4
24 19 ID 0
10 18 15 244 (1) 3.7 4.5 9.D 4.5 7.4 11.5 12.3 6.1 1.6 9.0 7.0 4.1 3.3 4.1 4.1 6.1 100.0 (2) 0.7 8.9 1.0 U.9 1.5 2.3 2.5 1.2 D.3 2.0 1.6 8.8 D.7 0.0 0.8 1.2 2u.2 (1)= PERCENT OF ALL COOD OBSERVATIONS FOR Tills PAGE (2)= PERCENT OF ALL GOOD ouSERVATIONS FOR THE PERIOD NUMPER OF C00D 0 SERVATIONS ON THIS PACE = 244 CALibVIND SPEED LESS THAN 1.0D HPH
m M
M M
M M
M e
m m
m m
m m
m m
M M
M 228 FT TOWER - 2?D FT 220.0 riT WIND DATA APR - JUN 1980 STABILITY CLASS E-- DELTA T -0.4 TO +1.5 DEG C PER 100 METERS CLASS FREQUENCY (PERCENT) 45.88
=
VIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNV NW NNW TOTAL
.B
-CALH D
8 B
B B
B B
B B
B B
D D
B B
B (1) 8.D G.B D.D D.D B.B B.D D.D D.B BD B.B B.B B.D B.D B.D B.D D.D B.B (2) 0.8 B.D D.B B.D B.B B.0 B.B B.B B.B D.B B.B B.B B.D 0.8 B.B B.D B.B CALM-3.5 B
B 3
6 2
1 3
8 9
B D
D 3
1 B
B 19 (1) 9.0 B.B B.6 1.1 B.4 0.2 B.6 9.0 D.B B.B B.B B.D B.6 0.2 B.D B.D 3.5 (2)
D.B B.B D.2 B.5 0.2 0.1 0.2 U.S D.0 B.B D.0 0.0 B.2 0.1 B.0 B.D 1.6
&?
tr 3.6-7.5 6
1 5
9 11 6
8 6
1 8
7 2
1 1
3
.3 78 Nf (1) 1.1 0.2 B.9 1.7 2.8 1.1 1.5 1.1 B.2 B.B
?.3 B.4 0.2 B.2 D.6 B.6 12.9 (2) 8.5 B.1 0.4 U.7 U.9 B.5 0.7 0.5 0.1 B.D B.6 s.2 B.1 B.1 S.2 B.2 5.8 i
w 7.6-12.5 16 4
9 8
3 9
6 12 7
7 1
4 1
7 11 12 117 b
(1) 2.9 B.7 1.7 1.5 B.6 1.7 1.1 2.2 1.'
l.3 0.2 U.7 8.2 1.3 2.0 2.2 21.5 I
(2) 1.3 B.3 0.7 D.7 U.2 B.7 B.5 1.0 0.6 0.6 D.1 0.3 0.1 B.6 B.9 1.0 9.7 j
12.6-10.5 22 5
5 3
18 3
17 19 18 16 19 6
5 19 17 10 194 S
(1) 4.0 B.9 0.9 0.6 1.8 B.6 3.1 3.5 3.3 2.9 3.5 1.1 D.9 3.5 3.1 1.8 35.7 (2) 1.8 D.4 U.4 U.2 D.0 8.2 1.4 1.6 1.5 1.3 1.6 B.5 9.4 1.6 1.4 B.O 16.0 18.6-24.0 6
B 1
0 7
1 7
13 7
14 27 0
7 5
4 4
103 (1) 1.1 D.0 D.2 0.0 1.3 0.2 1.3 2.4 1.3 2.6 5.8 0.0 1.3 B.9 B.7 B.7 10.9 (2) 0.5 B.B D.'
D.D B.6 0.1 0.6 1.1 0.6 1.2 2.2 B.D D.6 8.4 0.3 0.3 U.S OVER-24.0 13 1
B D
2 B
B 9
5 0
5 D
B D
3 3
41 (1) 2.4 8.2 0.0 D.0 B.4 B.D B.0 1.7 B.9 0.0 0.9 0.0 0.0 B.D D.6 B.G 7.5 (2) 1.1 0.1 0.0 0.0 0.2 0.0 D.D D.7 B.4 D.D D.4 B.D B.D D.D D.2 0.2 3.4 ALL SPEEDS 63 11 23 26 35 20 41 59 38 37 59 12 17 33 38 32 544 (1) 11.6 2.0 4.2 4.0 6.4 3.7 7.5 10.8 7.8 6.0 18.8 2.2 3.1 6.1 7.0 5.9 100.0 (2) 5.2 D.9 1.9 2.2 2.9 1.7 3.4 4.9 3.1 3.1 4.9 1.8 1.4 2.7 3.1 2.6 45.8 l
(1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE= 544 CALH= WIND SPEED LESS THAN 1.DD MPH i
l
M M
M M
M M
M M
M M
M M
M M
M M
M M
M 228 FT TOWER - 220 FT 220.0 FT WIND DATA APR - JUN 1988 13.15 STABILITY CLASS F-- DELTA T 1.G TO 4.0 DEG C PER ID3HETERS CLASS FREQUEhCY (PERCENT)
=
WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNU NW NNW TOTAL
-CALH D
B B
D D
B B
B B
D 8
8 0
0 B
B B
(11 0.0 0.0 0.0 0.0 B.O B.B B.B 0.0 B.B B.O B.0 B.B D.0 B.0 B.B B.B B.B (2) 0.8 B.5 0.0 U.S B.0 0.8 B.B B.B D.0 0.0 D.B B.B U.S 8.0 B.B B.B B.9 CALM-3.5 0
B 1
1 B
1 2
8 8
8 1
B B
B B
B 6
(1) 0.0 B.G 0.6 B.6 B.O 0.6 1.3 0.0 B.B B.B B.6 B.8 U.0 B.O B.B B.O 3.8 (2h 0.0 B.B U.1 0.1 0.0 0.1 B.2 0.0 B.O B.O B.1 B.O B.8 B.B B.B B.B B.5 Q
cr 3.6-7.5 3
2 1
1 1
B B
1 0
0 0
1 0
3 6
4 23 Nf (1) 1.9 1.3 0.6 B.6 0.6 B.#
B.D B.6 B.B B.B B.B 0.6 B.O 1.9 3.8 2.5 14.5 (2)
U.2 B.2 0.1 0.1 U.1 B.B B.B B.1 B.O 9.9 0.0 B.1 B.0 B.2 8.5 B.3 1.9 I
7.6-12.5 2
2 3
0 1
B B
B 1
B 1
2 9
13 8
5 47 h
w 03 (1) 1.3 1.3 1.9 B.B B.6 0.0 0.0 0.0 B.6 B.D D.6 1.3 5.7 8.2 5.D 3.1 29.6 (2)
D.2 0.2 U.2 B.0 0.1 0.0 8.0 0.8 0.1 B.B 0.1 0.2 0.7 1.1 8.7 B.4 3.9 12.6-18.5 i
B 2
0 B
1 3
4 3
2 9
7 12 5
7 5
56 (1)
D.6 B.0 1.3 D.B D.D B.6 1.9 2.5 1.9 1.3 2.5 4.4 7.5 3.1 4.4 3.1 35.2
's (2) 0.1 B.B D.2 0.0 0.0 B.I 0.2 0.3 0.2 B.2 B.3 B.6 1.0 B.4 0.6 8.4 4.6 10.6-24.0 D
D D
D D
D D
D 1
4 18 1
5 1
2 2
26 (1) 0.0 B.D B.O 0.0 D.9 0.0 0.0 0.0 B.6 2.5 6.3 0.6 3.1 5.6 1.3 1.3 16.4 (2) 8.8 B.S 0.0 0.0 U.S 8.8 B.0 0.0 0.1 B.3 B.8 0.1 8.4 0.1 0.2 0.2 2.2 OVER-24.0 B
B B
0 1
0 0
0 0
8 8
8 0
0 0
8 I
(1)
B.0 0.D D.D D.0 0.G D.B D.9 0.0 B.B B.B B.B B.B 0.0 B.O D.0 0.0 B.6 (2) 0.0 B.O D.0 D.B D.1 B.B B.0 U.8 0.0 U.B 0.0 8.0 U.0 D.0 0.0 0.0 B.1 ALL SPEEDS 6
4 7
2 3
2 5
5 5
6 16 11 16 22 23 16 159 (1) 3.8 2.5 4.4 1.3 1.9 1.3 3.1 3.1 3.1 3.8 19.1 6.9 16.4 13.8 14.5 10.1 198.8 (2) 8.5 0.3 U.6 U.2 0.2 0.2 8.4 U.4 U.4 B.5 1.3 0.9 2.2 1.8 1.9 1.3 13.2 (1)= PERCENT OF ALL COOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD HUMBER OF GOOD ODSERVATIOJS ON THIS PAGE= 159 CALH= WIND SPEED LESS THAN 1.00 MPH 4
M M
M M
M M
M M
M M
M M
M M
M M
M s
228 FT TOWER - 228 FT 228.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS G-- DELTA T GREATER THAN 4.8 DEG C PER 100 METERS CLASS FREQUENCY iPERCTNT) 2.23
=
VIND DISTRIBUTION SUMitARY DIRECTION SPIED (HPH)
N NNE NE ENE E
VNV NW NMW TOTAL
-CALH B
B B
D B
B B
B B
B B
G B
M k
B B
(1) 0.0 B.0 B.0 0.0 B.B B.O B.B B.B B.B B.B B.B B.B B.0 B.d B.B B.B 0.8 (2)
B.O 0.8 B.B B.B 0.8
- B.B B.B B.B B.D D.8 B.D B.B 0.0 B.B B.B B.B B.B
~
CALH-3.5 0
B B
B B
B B
B 1
8.
B 6
. R 0
0 0
1 (1)
B.B B.0 B.O B.R B.B 0.0 B.B B.0 3.7 B.B B.B B.0 B.O B.B B.B B.B 3.7 (2) 0.0 0.0 0.0 0.8 0.0 B.B 0.0 0.0 0.1 B.B 0.0 B.B B.B B.0 B.0 0.0 B.1 y
c' 3.6-7.5 0
0 B
B B
B B
B 1
1 l
B B
1 B
B 4
y t '. )
0.8 B.0 0.0 0.0 0.0 0.0 B.B B.B 3.7 3.7 3.7 B.B B.B 3.7 B.8 B.B 14.8 (2) 0.0 0.8 0.0 B.0 0.0 B.O B.B 0.0 B.1 0,1 0.1 B.B 0.0 B.1 B.0 B.O B.3
['
i u
7.6-12.5 B
B B
B a
a B
D B
B B
3 1
2 1
1 8
0 (1) 0.0 0.0 B.0 0.8 B.0 B.B 0.0 B.B B.B B.B B.B 11.1 3.7 7.4 3.7 3.7 29.6 l
(2) 0.8 0.8 0.8 0.0 0.8 B.B B.B B.B B.B B.B B.B B.2 0.1 0.2 B.1 B.1 0.7 12.6-18.5 0
B B
B B
B B
B B
B l
B 6
2 2
0 11 l
l (l) 0.8 B.B 0.8 0.0 B.O B.0 B.O B.0 B.B B.B 3.7 B.B 22.2 7.4 7.4 B.B 49.7 (2) 0.0 0.0 9.0 0.0 0.0 0.0 0.0 B.B 0.0 B.B B.1 B.B 0.5 0.2 B.2 B.B B.9 18.6-24.0 0
0 0
B B
B B
B B
B B
l 1
1 0
6 3
(1) 8.8 0.8 D.D B.O B.O B.O B.B B.B B.B B.O B.B 3.7 3.7 3.7 B.B B.9 11.1 (2) 9.9 0.8 0.0 0.0 B.B B.B B.B 2.0 B.O B.B B.B B.I B.1 0.1 B.B B.0 8.2 OVER-24.8 B
B B
B B
B B
B B
B B
B B
B B
B B
l (1)
B.0 B.B 0.0 0.8 B.0 B.O B.B 0.0 9.9 0.8 B.B B.O B.B B.O B.B B.O 0.0 (2) 8.8 0.0 B.O B.B 0.0 B.B 0.0 0.0 B.B B.O B.0 0.8 0.0 0.0 B.B
,.B U.0 ALL SPEEDS 0
0 0
0 0
0 0
0 2
1 2
4 0
6 3
1 27 (I) 0.8 0.0 0.0 0.0 0.0 0.0 B.B B.O 7.4 3.7 7.4 14.8 29.6 22.:
11.1 3.7 180.0 (2) 8.D 9.0 0.0 0.0 U.0 B.0 B.D B.O 0.2 B.1 B.2 0.3 0.7 05 8.2 B.1 2.2 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OCSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS ON THIS PAGE=
27 CALH=UIND SPEED LESS THAN 1.00 HPH I
l I
m m
m m
m mm m
m m
m m
m mM M
M M
M 22B FT TOWER - 22B FT 228.8 FT WIND DATA APR - JUN 1988 STABILITY CLASS ALL-- ALL STABILITIES COMBINED CLASS FREQUENCY (PERCENT) = 188.8B WIND DISTRIBUTION
SUMMARY
DIRECTION SPEED (MPH)
N NNE NE ENE E
WNil NW NNW TOTAL
-CALH B
D 8
B B
B B
B B
B B
B B
B B
B B
(1)
B.B B.B B.B B.B B.B B.B B.B B.D B.B B.B B.B B.B B.B B.B B.B B.B B.B (2)
B.B B.B D.B B.D D.B B.B B.B B.B B.D B.B B.B B.B B.B B.B D.B B.B B.B CALM-3.5 0
8 7
14 4
3 5
0 1
8 I
B 3
1 1
B 48 (1) 0.0 B.D D.6 1.2 B.3 0.2 0.4 0.0 B.I B.B B.1 B.D B.2 B.1 0.1 B.B 3.3 (2) 8.8 0.8 D.G l.2 0.3 0.2 8.4 B.0 0.1 B.D B.1 B.B B.2 B.1 0.1 B.B 3.*
Q tr 3.6-7.5 17 12 16 19 29 19 28 8
2 9
5 4
8 12 12 15 M'
(1) 1.4 1.0 1.3 1.6 2.4 1.6 1.7 B.7 8.2 B.1 8.7 B.4 U.3 B.7 1.8 1.0 16.B 8
(2) 1.4 1.8 1.3 1.6 2.4 1.6 1.7 0.7 B.2 0.1 B.7 8.4 B.3 8.7 1,8 1.0 16.8 f*>
7.6-12.5 34 30 19 18 15 26 28 23 11 IB 11 13 28 35 27 22 334 8"
(1) 2.0 2.5 1.6 0.0 1.2 2.2 2.3 1.9 D.9 9.8 B.9 1.1 1.7 2.9 2.2 1.8 27.6 (2) 2.0 2.5 1.6 0.8 1.2 2.2 2.3 1.9 B.9 B.8 0.9 1.1 1.7 2.9 2.2 1.0 27.6
'9' 12.6-1G.5 35 17 17 3
11 11 36 29 22 45 37 24 28 36 33 22 406 (1) 2.9 1.4 1.4 U.2 0.9 6.9 3.0 2.4 1.0 3.7 3.1 2.0 2.3 3.0 2.7 1.0 33.6 se (2) 2.9 1.4 1.4 8.2 B.9 B.9 3.0 2.4 1.0 3.7 3.1 2.0 2.3 3.8 2.7 1.0 33.6 10.6-24.0 9
2 5
0 7
1 IB 17 0
31 43 2
15 12 8
10 180 (1)
U.7 B.2 9.4 0.0 0.6 0.1 0.0 1.4 B.7 2.6 3.6 D.2 1.2 1.0 B.7 B.O 14.9 (2) 8.7 8.2 D.4 U.D U.6 0.1 0.0 1.4 0.7 2.6 3.6 B.2 1.2 1.0 U.7 B.0 14.9 OVER-24.8 15 3
D D
3 D
B 9
5 B
5 D
D 1
6 9
56 (I) 1.2 0.2 0.0 0.0 0.2 9.D B.B D.7 8.4 9.B 8.4 B.D D.H D.l D.5 0.7 4.6 (2) 1.2 0.2 U.B U.8 0.2 0.8 B.B U.7 B.4 U.S D.4 B.0 B.8 8.1 B.5 8.7 4.6 ALL SPEEDS 110 G4 64 46 69 6D 99 06 49 07 106 44 70 93 07 75 1209 (1) 9.1 5.3 5.3 3.0 5.7 5.0 0.2 7.1 4.1 7.2 0.0 3.6 5.8 7.7 7.2 6.2 100.0 (2) 9.1 5.3 5.3 3.0 S.7 5.0 8.2 7.1 4.1 7.2 8.0 3.5 5.8 7.7 7.2 6.2 100.0 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THE PERIOD NUMBER OF GOOD OBSERVATIONS OH THIS PAGE=1209 55.4 PERCENT DATA RECOVERY UUMBER OF HOURS IN Tills PERIOD = 2104 CALHaWIND SPEED LESS THAN 1.00 llP H
I I
3.
OFF-SITE DOSES RESULTING FROM RADIOACTIVE LIQUID EFFLUENTS 3.1 General Dose Assessment The methods and parameters used to calculate the off-site doses I
are presented in the Appendix I analysis for Unit #1.
Population 3
data are those of the Appendix I submittal; effluent releases are given elsewhere in this report.
Numerical constants used in the analyses have been updated to conform to Revision 1 of Regulatory Guide 1.109 dated October 1977.
3.2 Maximus Individual Doses The maximum individual doses and pathways considered are shown in Tables 3.2-1 through 3.2-3.
3.3 Population Doses i
The population doses are shown in Table 3.3-1.
'I
- I
'I I
I I
I I
I I
41 I
M M
M M
M M
M M
M m
e a
mm Table 3.2-1
, January-June 1980 Liquid Helease Maximum Individual Doses from all l'atliways for Adults (MitEM) lione I.tver Thyroid Kidney I.ung 01-I.LI Skin Total Body l'a thwa y Salt Ifater 0.73 0.65
<0.01
<0.07 0.26 0.84 0.0 0.27 Fish 1.1 0.90
<0.01 0.08 0.39 1.5 0.0 0.35 Salt ifater Shell I'ish Total 1.8 1.6 40.01 0.15 0.65 2.4 0.6 0.61 c.
PJ i
i i
i l
i i
i i
M M
M M
M M
M M
M m
m a
m m
I Table 3.2-2 January-June 1980 Liquid Release Maximura Individual Doses from all Pathways for Teenagers (MREM)
Pathway Bone Liver Thyroid Kielney I.ung CI-LLI Skin Total Body Salt Water 0.76 0.69 40,01 0.07 0.32 0.61 0.0 0.23 Fish Salt Water 1.1 0.95 40.01 0.08 0.48 1.1 0.0 0.35 Shell Fish i
Total 1.9 1.6 4 0.01 0.15 0.79 1.7 0.0 0.58 l
O i
i i
1 4
1 4
l l
i
M M
M M
M M
M m
m m
m m
m m
e e
e e
m Table 3.2-3 January-June 1980 Litluid Release Haximum Individual Doses f rom all l'athways for Children (HREM) l'a t hway lione Liver Thyroid Kidney Lung CI-1.L1 Skin Total llody Sait Water 0.99 0.65 40.01 0.06 0.28 0.23 0.0 0.23 Fish Salt Water 1.5 0.93 40.01 0.06 0.43 0.42 0.0 0.43 Shell Fish Total 2.5 1.6 40.01 0.12 0.71 0.65 0.0 0.66 1
4 4
1 i
1 1
j
I I
I Table 3.3-1 Population Doses Resulting from the a
January-June 1980 Liquid Ef fluents
)
g Thyroid Total Body I
Pathway (MAN-REM)
(MAN-REM) 6 Salt Water
<0.01 0.27 Fish Salt Water
<0.01 0.41 Shell Fish I
Salt Water
<0.01
<0.01 Plants lE Ocean Shoreline 0.52 0.52 5
Deposits 0.05 0.05 Swicaing Total 0.57 1.3 I
Note:
These are the major pathways for liquid effluents.
I I
,I
[I I
I I
5
I I
OFF-SITE DOSES RESULTING FROM RADIOACTIVE GASEOUS EFFLUE';TS 4
p 4.1 General Dose Assessment The methods and parameters used to calculate the off-site doses are I
preseni.d in the Appendix I analysis for Unit
- 1 The gaseouc release; for both reactor buildit.g vent and the main stack, for the period Jan-June 1980 are elsewhere in this report.
I Meteorological information for calculating dispersion of these releases are shown in Tables 4.1-1 through 4.1-12.
For each quarter year, values of X/Q, X/Q depleted and D/Q are tabulated for twenty-r.nree I
radial distances at sixteen compass directions usin'; the AEOLUS program which was provided to Boston Edison by the Yankee Atomic Electric Company.
AEOLUS is a computer code for evaluating atmospheric dispersion of routine radioactive effluents from commercial nuclear power stations, and for computing statistical distributions of radiation I
doses which would result from postulated accidental releases of assumed intensity.
The code is based, in part, on Regulatory Guide 1.111 developed by the U.S. Nuclear Regulatory Commission I
as guidance toward implementation of Appendix I to 10 CFR Part 50 and the "as low as reasonably achievable" objectives. Tables 4.1-1 and 220 foot through 4.1-12, are based on data taken at the 33 foot I
elevations.
I I
I I
I I
I I
g e
I I
I 4.2 Maximum Individual Doses The maximum individual dose locations and pathways assumed are presented in Table 4.2-1.
The resultant maximum individual adult, I
teenage, child and infant doses are reported in Tables 4.2-2 through 4.2-5.
In the summary Table 4.2-6, doses from noble gas immersion are included for skin and total body; individual organ I
doses are due to iodine and air particulates only.
4.3 Population Doses The assumed population distribution is shown in Table 4,3-1.
The population doses by pathway are presented in Table 4.3-2.
In accordance with Regulatory Guide 1.21, only pathways yielding significant contribution to the total dose have been included; those pathways not included account for a total of less than I
5% of the overall population dose.
I I
I I
I I
I I
I 47
M M
M M
M M
M M
M M
M M
M M
M M
M UNDEPLETED DISPERSION FACTOR - REACTOR BUILDING VENT - JAN - MAR 1908 RECPTR DOWNWIND UFICHTFD AVFRACrs V/O NO.
DISTANCE S - (Il SSV - (2)
SU - (3) WSV - (4)
V- ( 5 ) JNW - (G) NW - ( 7) NNW - (8)
METERS D.B 22.5 45.8 67.5 98.8 112.5 135.9 157.5 1
291.20 7.52DE-07
- 2. GIBE-DG 1.71DE-86 1.2DDE-DG G.4GBE-D7 6.57BE-07 0.190E-87 E.00DE-87 2
492.38 1.500E-DG 3.190E-U6 3.848:-06 1.030E-DG 6.G9DE-87 3.13DE-07 2.500E-07 2.76&E-H7 3
004.78 1.040E-DG 1.240E-DG 1.U602-06 6.70DE-U7 2.5GDE-87 5.99BE-07 1.130E-07 9.67BE-D0 4
1207.D0 5.190E-87 G.390E-D7 5.84DE-87 3.05DE-87 1.37BE-07 3.50HE-U7 1.D30E-07 6.55DE-98 5
1659.4D 3.25DE-07 4.85DE-07 3.66BC-97 2.54cE-07 d.77BE-80 2.33ME-07 9.71DE-38 5.67BE-80 6
2411.DD 1.690E-07 2.090F-U7 1.9BDE-87 1.33UE-8/ 4.G4UE-80 1.200E-87 0.87DE-DU 5.87BE-80 7
3210.79 1.09DE-U7 1.33SE-97 1.210E-87 0.5tHE-90 2.04&E-98 0.38BE-UU G.51DE-D8 4.608E-90 0
4023.40 7.74HE-D0 9.44DE-00 0.61DE-80 6.02DE-DO 2.84DE-00 6.D6DE-Ub 5.290E-DC 4.IIBE-00 9
4020.10 5.91DE-Do 7.200E-DO G.57DE-00 4.530E-DU l.560E-DU 4.67BE-DU 4.300E-DG 3.640E-D0 IB 5632.70 4.72BE-00 5.73UE-00 5.243E-B0 3.50DE-DU l.240E-80 3.75BE-Du 3.780E-FU 3.24DE-00 11 G437.4D 3.9BdE-D0 4.71DE-80 4.31BE-00 2.92BE-BU l.B20E-DC 3.IIBE-ou 3.lu?E-GU 2.910E-00 12 7242.10 3.290E-90 3.9GUE-D0 3.62DE-D0 2.45UE-UB 0.G4HE-D9 2.630E-Du 2.77HE-90 2.62DE-BU 13 004G.08 2.046E-00 3.390E-UG 3.llDE-DO 2.090E-80 7.67DE-09 2.27DE-Du 3.12nE-DU 2.839E-80 14 12d70.18 1.640E-00 1.92nE-UG 1.76DE-D0 1.17UE-Du 4.350E-89
- 1. 3 D tlE -90 1.019E-DU 2.869E-Du 15 16093.49 1.12ME-00 1.290E-UG 1.190E-Bb 7.74DE-B9 2.940E-U9 8.91BE-09 1.209E-UU l.94DE-DO 16 24148.29 6.57DE-09 7.44UE-D9 6.930E-09 4.290E-99 1.78FE-89 5.250E-09 7.399E-09 1.13DE-CD j
17 32107.00 4.54UE-U9 5.00DE-09 4.75DE-D9 2.07UE-U9 1.179E-D9 3.600E-09 5.HS9E-U9 7.71HE-09 10 4U233.79 3.430E-09 3.GnpE-09 3.57aE-09 2.120E-09 a.784E-lu 2. 71:0E-U9 3.779E-Us S.700E-09 7
19 40200.40 2.75HE-U9 3.uzuE-09 2.USOE-09
- 1. 66'f E -F9
/.Hlft-la 2.23NE-09 3.UUUE-u9 4. rofME-89 20 56327.29 2.200E-09 2.490E-D9 2.3 SUE-09 1.36uE-09 5.UHUE-lu 1.040E-U9 2.469E-09 3.79UE-09 I
21 64373.99 1.94DE-D9 2.1#UE-09 1.990E-09 1.14UE-39 4.91DE-1B 1.5GUE-09 2.DU9E-09 3.190E-09 22 72428.75
- 1. 611H E -09 1.02nE-09 1.730E-09 9.740E-10 4.259E-ID 1.350E-09 1.799E-09 2.75UE-D9
/
pm 23 00467.44 1.400E-89 1.598E-09 1.52ME-89 8.499E-Is 3.74BE-ID 1.190E-09 1.56UE-09 2.48DE-09 RECPTR DOWfull ND UEICHTED AVEPACF9 X/O fiO.
DISTANCE N- (9)
NNE
-( ID I NE -(III ENE -(12)
E-(13) ESE -(141 SE -(15) ISE -(16)
METERS 100.0 202.5 225.0 247.5 279.6 292.5 315.0 337.5 1
201.25 1.#7DE-DG 1.G90E-UG 2.76DE-BG 2.UUHE-UG 4.99BE-DL 3.700E-UG 1.738E-DG 9 UU9E-D7 2
402.30 3.27DE-U7 G. 2 tin E -U 7 U.94HE-07 G.969E-97 1.71DE-D0 1.Su9E-Ub it.519E-U7 S.15HE-07 3
Un4.70 1.24DE-D7 2.u:lHE-07 2.96HE-81 2.34HE-F7 6.44'E-H7 G.27HE-07 3.369E-U) 2.299E-07 4
12D7.UU 11.07HE-UU l.2nUE-U7 1.uGUE-07 1.S3HL-H7
- 4. G u6;E-6 7 4.799E-DI 2.GUUE-07
- 1. U tt 9E-D 7 5
1609.4U H.DG9E-DH 9.111HE-U U l.SlHE-D7 1.3 SUE-U7 4.220E-U/ 4.17UE-27 2.3b1E-D7 1.SS9E-D7 6
2414.UU 7.3uuE-Un G. 7 UNE -Ull 1.21HE-07 1.22HC-U7 3.6tHE-U7 3.209E-07 i.999E-07 1.lD!!E-07 7
3210.70 6.620E-U3 S.430E-Un 1.H30E-D7 1.l#HE-07 3.H2WE-U7 2.509E-U7
- 1. 4 6!> E-U7 U.2SHE-DD 0
4023.41f S. u 3 0 E -flu 4.549E-UU U.78HE-HO 9.74HE-Ull 2.5391-37 2. UU 6] E -U 7 1.lSUE-U/ G.420E-90 9
4020.10 S.129E-UU 3.H64E-na 7.6LHE-UU G.599E-pu 2.146iE-97
- 1. 6 4 61E - 0 7 9.459E-Un 5.199E-90 IB 5G32.70 4.530E-nu 3.14dE-Du 6.690E-Ua 7.64HE-UU l.uduE-07 1.3tt90-H7 7.949E-r0 4.319E-90 11 G137.40 4.04ME-Un 2.940E-Un S.960E-UU G.HSUE-Fu 1.61FE-07
- 1. l H!J C -U 7 G. t:9 JE -UU 3.GGOE-00 12 7242.10 3.630E-UU 2.61HE-Un 5.3SHE-UU 6.lHFL-UU l.42CE-U7
- 1. M;"JE -U 7 ti. 91 d E -U U 3.SG9E-90 13 004G.UU 3.2nUE-Ull 2.340E-DH 4.HlHE-UU ti. G l ul -UU l.206d-07 9. utv> E - UU S.2100-Un 3.200E-DU 14 12070.10 2.17DE-#8
- 1. 'i l D E -UU 3.2GnE-Du 3.7810E-UU u.UU!>E-Du S.S76!E-FM J.2tFE-Ou
- 1. 9 0,J E - 0 0 15 16H93.49 1.59HE-HD 1.lHHE-UU 2.439E-UU 2.11190-80 S. 7 2 6si. -PC 3.929E-Ul:
2.269E-UU l.329E-DO 16 24140.29
- 1. n i n E -n!I G. 91 Hl. -9 9 1.SuuE-Cu 2.H3UE-FU 3.52"E-HC 2.3/NE-Un 1.379E-Un 7.7HvE-U9 17 321u/.nu 7.29nt-99 4.960E-H9 1.17HE-nu 1.5b0E-90
?.495{-Ua:
- 1. b 1?f t:-UU l. ! 31!E -ta. S.3E E-09 in 4H233.79 S.GSOC-H9 3.Ul4L-H9 9.lSOE-U9 1.3691-DH ?.009E-UU I. 3"9E-f g D.S' ML-b9 1.9J/E-09 19 4H200.4U 4.5990-09 3.f14E-U9 7.SlHE-H9 I. t h96 -ml 1.lin :F-UU l.1 1 "E-L '
- 6. HOE-U9 3.llWE-F9 2H S632/.29 3.u19E-U9
.'.69HE-09 6.340E-U9 9.1390-D9 l.Sh6E-UU 9.2!'E-H9 S.H 8E-n9
.'.6 "f-U9 21 64373.99 4. th.4E -U9.. M9E-49 S. lune-09 7.70VI'-b9 1.310E-FU 7.UfoE-U9
- 4. 0 9 f E-5N 2.22nE-U9 22
/242H.7S 3.58H0-09 1.95HE-U9 4.329E-09 6.76W-09 1.125E-UU 6. 7 / "i.- 09 4 lDE a 'i L.9 WL-D9 23 uu467.44 3.1353E-09 1.72HE-U9 4.290E-99 S.95UE-09 9.949E-09 borSME-09 3. 60:!E - 0 9
- 1. 6 9,.T - B 9
E E
E E
E E
E E
E E
E E
E E
E E
DEPLETED DISPERSION FACTOR - REACTOR BUILDING VENT - JAN - HAR 1988 RECPTR DOWNWIND WFICNTID AVERAGES X/O DEPE NO.
DISTANCE S-(1)
SSW - (2)
SW - (3) USW - (4)
U- ( 5 )
JNW - (6) NV - ( 7 )
NNW - (8)
HETERS 0.D 22.5 45.0 67.5 90.0 112.5 135.8 157.5 1
201.2D 7.1#UE-07 2.440E-06 1.600E-06 1.12HE-06 5.12FE-B7 6.lEFE-U7 7.65.7E-D7 8.28DE-B7 2
4 02. 3 ff 1.47UC-U6 2.920E-UG 2.75HE-06
- 1. 6 9 +> E -0 6 6.15eE-87 2.88SE-07 2.230E-87
- 2. #. 7 e E -07 3
8F4.78 0.97UE-87 1.D6DE-H6 9.290E-07 6.H68E-U7 2.27UE-07 5.44BE-07 1.019E-07 U.399E-J8 4
12U7.U8 4.290E-07 5.27DE-D7 4.030E-07 3.290E-97 1.10BE-07 3.120E-U7 9.469E-UU 5.67DE-D0 5
1G09.40 2.59nE-D7 3.230E-U7 2.910E-87 2.890E-87 7.15HE-BU 2.046E-U7
- 9. U4 6E -91) 4.989E-00 6
2414.00 1.29BE-07 1.60UE-07 1.458E-07 1.069E-87 3.75BE-BU l.1F9E-U7 7.6cDE-D0 4.590E-D8 7
3218.70 7.978E-DO 9.79BE-00 0.090E-D0'6.520E-EB 2.31DE-BU 7.94UE-UG 6.149E-FU 4.220E-D8 0
41f23.40 5.191JE-US 6.71BE-DB 6.llDE-D0 4.40UE-88 1.62DE-De 5.UUUE-DC 4. 5 d H E -U t' 3.790E-D0 9
4028.18 4.06DE-Du 4.95SE-80 4.51DE-00 3.20DE-su 1.218E-00 3.70HE-HH 4.120E-DU 3.36DE-D8 18 5632.78 3.15DE-D8 3.04BE-00 3.58DE-80 2.52ME-D0 9.450E-89 2.990E-OH 3.478E-DU 2.999E-J8 11 6437.48 2.540E-UU 3.DU0E-83 2.810E-80 2.82sE-88 7.65DE-89 2.44BE-UH 2.970E-cu 2.608E-28 12 7242.13 2.lBBE-88 2.530E-BB 2.31DE-00 1.669E-DO 6.360E-PQ 2.040E-DO 2.580E-D0 2.420E-D8 13 0046.80 1.78BE-#8 2.139E-98 1.950E-08 1.390E-B8 4.02PE-09 1.749E-DB 2.729E-90 2.639E-B0 14 12076.1U 9.470E-09 1.IlUE-UU l.H2HE-UU 7.249E-99 2.53VE-89 9.42WE-U9 1.5H9E-Da 1.099E-DH 15 16693.49 6.060E-09 7.0288'-D9 G.45UE-09 4.51FE-F9 1.6000-29 6.U69E-09 0.E79E-UU l.964E-D8 16 2 140.29 3.198E-D9 3.G2ME-H9 3.37UE-D9 2.26HE-U9 H.32HE-lF 3.10VE-09 4.16?E-09 5.529E-D9 17 421u7.D0 2.ul0E-09 2.26UE-U9 2.In6E-U9 1.34HE-b9 5.200E-1B 1.Bl#E-U9 2.359E-D9 3.440E-09 y
i f) 4U233.79 1.4390-89
19 4u20s.48 1.h5UE-99 1.16HE-n9 1.U9BE-99 6.439E-18 2.799E-lu D. 5 2 5;E-l u 1.159E-U9 1.73DE-09 7
28 56327.29 0.21UE-IH 9.UIDE-lu G.490E-In 4.949E-lu 2.U9EE-1B 6.646E-1H 8.070E-lh 1.38UE-09 1
21 64373.99 6.61UE-lu 7.218E-ID G.H1HE-lu 3.92UE-l#
1.60FE-ID 5.349E-14 7.H09E-IL
- 1. Ilf 9E -09 22 72420.75 b.46UE-ID 5.94sE-lu 5. 62!JE - l u 3.17H1-10 1.3CHE-10 4.41BE-In 5.UI9E-lO 9.956E-1B e
23 UU467.44 4.590E-lu 4.900E-lu 4.729E-In 2.649E-ID 1.lEUE-19 3.790E-In 4.059E-16 7.569E-lu b
p.
I RECPTR DOWNWIND UrfcHTrn Avrpure um rot NO.
DISTANCE N- (9)
HNE -t19)
NE -tII) ENE -t12)
E-(13) :SE -(14)
SE -(ISI 3SE -(16) tlE T E ttS 100.0 202.5 225.0 217.5 270.0 292.5 315.0 337.5 1
2Hl.20 9.900E-07 1.590E-H6 2.500E-06 1.949E-U6 4.669E-06 3.47DE-06 1.62DE-D6 0.52BE-b.'
2 4D2.30 2.939E-U7 5.120E-07 0.U79E-07 6.290E-97 1.55UE-U6 1.45HE-U6 7.930E-D7 4.839E-D7 3
uu4.70 1.90nE-07 1.799E-87 2.S8HE-U/ 2.U4FE-97 5.67FE-87
- 5. 6 0 6f E-D 7
- 3. HUGE-U7 2.120E-07 4
12H7.UU 7.740E-na 1.H40E-07 1.6 HUE-07 1.33HF-U7 4.15PE-U7 4.37BE-U/
2.459E-U/
1.7tvE-07 5
1609.4U 7.2unE-UH 7.95HE-afu 1.32nE-87 1.19PE-97 3.nlHE-07 3.83eE-07 2.166E-07 1.44eE-07 6
2414.H0 G. U l OE -Ufl 5.07#E-03 1.UUHE-D7
- 1. l ?.U E -9 7 3.339E-U7 2.9564E-97 1.779E-U7 1.929E-D7 7
3210.70 6.179E-UH 4.73RE-pfl 9.26UE-DO 1.02FE-07 2.790L-07 2.3HME-U7 1.350E-U7 7.629E-UU 8
4023.49 5.47DE-Un 4.4tCE-00 7.9/UE-UU 9.4/UE-Un 2.34UE-U7 1.U30E-97 1.U69E-U7 5.U99E-00 9
4028.10 4.ulHE-Hu 3. 4nsiE -UO 6.91DE-UH U. n l 8;E -Un 1.90nE-07 1.499E-07 U.6G3E-90 4.73DE-00 IU 5632.70 4 26HE-Hu 2.94HE-Da G.U90E-DII 7.14HL-Un 1.7FFE-D7 I.CSUE-U7 7.21!1E-UU 3.9tME-Du 11 6437.48
- 3. unde-nu 2.SunE-na 5.42ME-UU 6.4UGE-Un 1.481E-U7 1.879E-U/
6.Ind:E-Un 3.3 nee-00 12 7242.1U 3.420E-nu 2.290E-uu 4.u7nt:~D0 5.7u00-00 1.3 hut-U/ 9.2bUE-OH 5.349E-PU 3.lbOE-DU 13 HH4G.HH 3.H9flE-HH 2.459E-UU 4.41HE-UU 5.25HE-UH 1.16Hi-07 ti.13 " E -L il 4. f W:'E -HU 2.660E-DH 14 12H70.lu 2. 049E -Ull 1.: tine-UU 2.97DE-Un 3.S39E-UH 7.2 H$iE -BH 4.92PE-Pu 2...
- E-L.
l.469E-UG 15 16493.49 1.49HE-nu 9.4300-u9 2.21UE-UD 2. 6 2 U 1- -88 5.170E-UU 3.4240-03 l.4W1E-UC 7.27UE-D9 16 24144.29 9.44HE-09 5.039E-U9 1.44HE-U3 1.U9HL-HU 3.15Hi-DH 2.HRE-HU l.lS9E-rn 3.nl4E-D9 17 1210 7. Ifu 6.700E-09 4.12HE-09 1.JPiHE-Un 1.4 HUE-ru 2.210E-FU l.34bE-Pu 6.4tlE-09 2.3uoE-09 13 4H233.79 S.*.tHE-99 3.I4HE-H9 3.'2HE-09 1.H2NE-Du i.4396-Un 9. St.? l. -D9 4.4S9E-09 1.663E-U9
'OE-WI G.729E-09 7.1124 E -P 9
- 1. hbI. - 4 U 7.2 WI.-09 3. 2 8.N E -U 4 1.249E-M9 19
' U%03. 4 38 4.24HE-H9 2.SH91 -D9 9.61Hi-lp
'. / 5',' l - H 4 MH G6327.29 3.54HE-H9
'HE-99 5.6 SUE-u9
- 6., JS '-s 9 0. H001 -E9
./m E-04
- 1. 9 9 0 r'. - H 9 7.7M90-lu 21
. t::73.99 1.aunE-H9 1.
.0E-09 4.:HWE-H9 5.14 41.-l 0
(.
4390-D9 22
/2420.75 1.199E-79 B.'.tHC-U9 4.2diHE-99 4.3SME-P? S..S"1
.,9 4bSE -M
- 1. 6:19 E - W 6.3 EE-lu 23 und67.44 9.095JE-lu 1..t49E-09 3.7U90'-09 3.74UL-D9 4.449E-U9 3.37hE-09 1.369E-09 S.3tUE-lu
W W
m W
M M
M M
M M
M M
M W
W W
DEPOSITION FACTOR - REACTOR BUILDING VENT - JAN - MAR 1983 RECPTR DOWNWIND WEIGHTED AVERAGES D/O NO.
DISTANCE S-(1)
SSW - ( 2 )
SW - ( 3 )
WSW - (4)
W- ( 5 )
JNW - (6)
NW - (7)
MNW - ( 8 )
HETERS D.B 22.5 45.0 67.5 90.0 112.5 135.8 157.5 1
2B1.28 1.80DE-B8 7.46DE-00 4.61HE-00 2.96.9E-BB 1.360E-80 1.459E-DB 0.370E-89 8.558E-89 2
402.30 2.630E-D0 5.840E-B0 3.190E-08 2.S4Dr.-00 9.37BE-89 7.350E-99 3.25DE-89 3.360E-B9 3
084.7B 1.UHOE-UG 2.b:#E-DU
!.07sE-Du 9.056.-99 3.180E-89 3.37DE-09 1.3MUE-09 1.38DE-89 4
1207.00 5.3H8E-09 9.93DE-09 5.S7DE-09 4.61BE-99 1.550E-09 1.60dE-D9 7.660E-lO 8.640E-ID 5
1639.40 3.160E-09 5.940E-09 3.38DE-09 2.050E-H9 9.260E-ID 1.83SE-D9 5.!!UE-IP 6.12DE-1B 6
2414.00 1.52DE-09 2.uSDE-09 1.62SE-09 1.37DE-D9 4.500E-le 5.36HE-lo 2.728E-10 3.490E-18 7
3210.70 9.USUE-lU
!.78UE-09 9.67DE-lu 8.100E-lh 2.61CE-10 3.67UE-10 1.729E-lo 2.303E-18 0
4623.40 6.iDUE-ID 1.15DE-39 6.52BE-10 5.52nE-lu 1.798E-10 2.730E-lo 1.2#8E-In 1.639E-18 9
4020.1D 4.5UDE-ID 0.45HE-ID 4.t110E-1D 4.D40E-te 1.20BE-lu 1.989E-1U 0.810E-Il I.22DE-ID IB 5632.7D 3.4sDE-lu 6.47DE-lo 3.600E-lo 3.D99E-10 9.788E-Il 1.43UE-IP G.76hE-11 9.*38E-11 6437.40 2.710E-ID 5.198E-19 2.9unE-ID 2.43HE-lu 7.640E-11 1.13HE-ID 5.359E-Il 7.55DE-Il 12 7242.10
- 2. lube-10 4.luSE-ID 2.33c[-10 i.9SHE-1B 6.17BE-Il 9.lSDE-Il 4.389E-Il G.15DE-Il 13 0046.00 1.790E-ID 3.3GUE-ID 1.91BE-lo 1.610E-19 5.020E-Il 7.718E-Il 5.849E-Il 5.140E-Il 14 12U78.1H 0.230E-Il 1.5SDE-19 0.008[-11 7.648E-!!
2.600E-Il 6.200E-Il 7.509E-11 2.498E-Il 15 16093.49 4.73UE-!!
0.000E-11 5.dSUE-Il 4.SUUE-Il 1.549E-Il 5.435fE-11 6.44cE-Il 3.890E-11 li 24148.29 2.!DUE-Il 4.luuE-Il 2.330E-Il 2.lUUF-il 7.160E-12 2.150E-li 2.590E-Il 1.HDUE-If 17 3?l07.Ud 1.27BE-Il 2.390E-Il 1.360E-Il 1.2CHE-Il 4.100i-62 0.71BE-12 9.750E-12 1.DSUE-Il y
la 40233.79 0.35DE-12 1.57DE-Il 8.920E-12 7.75HE-12 2.760E-12 4.65DE-12 6.MSOE-12 6.87BE-12 cr 19 40208.40 5.93DE-12 1.IIDE-!!
6.340E-12 5.51BE-12 1.969E-12 3.270E-12 4.19BE-12 4.80DE-12 7
20 SG327.29 4.430E-12 0.32DE-12 4.73HC-12 4.12BE-12 1.456E-12 2.44BE-12 3.130E-12 3.659E-12 el 44373.99 3.430E-12
- 6. 4 tid E - 12 3.67BE-12 3.199E-l?
1.12hE-12 1.090E-12 2.43DE-12 2.030E-12 f
22
- d?0.75 2.770E-12 5.2ndE-12 2.960E-12 2.5UUE-12 9.009E-13 1.530E-12 1.969E-12 2.28UE-12 23 bC367.44 2.27BE-12 4.260E-12 2.42cE-12 2.11UE-12 7.440E-13 1.25DE-12 1.6DGE-12 1.07UE-12 1
8 RECPTR DOWNulND WEIGHTED AVERAGES D/0 NO.
DISTAWCE N-(9)
NNE -(in)
NE -(11)
LHE -(12)
E-(13)
- SE -(141 SE -(15) 3SE -(15:
HETERS 100.0 202.5 225.0 247.5 278.8 292.5 315.0 337.5 1
201.2D 1.690E-00 3.96DE-DO 3.22HE-80 1.91DE-DD 0.290E-BC 9.05BE-DO 3.59BE-DD 1.79BE-00 2
432.3D 6.45DE-09 1.83HE-Du 1.4DfE-Du 0.630E-89 3.65DE-90 5.14DE-UU 2.4 SUE-DU l.25DE-D0 3
004.78 2.430E-D9 7.300E-09 5.60HE-09 3.640E-99 1.500E-BU 2.28HE-DB 1.lF9E-UU 6.249E-09 4
1297.00 1.37DE-09 3.87DE-99 3.DSBE-D9 2.85DE-09 9.510E-99 1.27BE-Ba 6.DS9E-89 3.52DE-09 5
1689.48 8.90DE-IB 2.42BE-09 1.930E-09 1.34HE-09 6.41EE-09 0.17DE-09 3.04BE-09 2.280E-D9 6
2414.D8 4.76DE-ID 1.230E-09 9.91HE-ID 7.12FE-ID 3.460E-99 4.19BE-D9 1.900E-09 1.lHBE-D9 7
3210.70 3.82WE-tu 7.EuoE-18 6.218E-10 4.54UE-10 2.22HE-U9 2.628E-09 1.22ME-99 6.8UME-10 0
4023.40 2.11DE-1B 5.3BDE-ID 4.289E-10 3.160E-1B 1.55DE-B9 1.889E-D9 8.3 TIDE-10 4.630E-ID 9
4828.18 1.560E-10 3.07BE-18 3.130E-10 2.32BE-10 1.140E-D9 1.320E-D9 6.lDDE-1B 3.35BE-18 18 5632.70 1.20DE-ID 2.960E-18 2.4DBE-ID 1.78DE-18 0.77FE-la I.DBOE-D9 4.6SBE-IP 2.55DE-lH 11 6437.40 9.530E-Il
- 2. 3 tiU E - i n 1.990E-1B 1.42DE-1B 6.95DE-ID 7.938E-lu 3.670E-10
- 2. BIDE-18 12 7242.1D 7.72HE-Il 1.910E-10 1.S4BC-10 1.160E-10 5.620E-lp 6.42HE-In 2.90HE-lo 1.65DE-ln 13 0046.00 G.390E-Il 1.59BE-10 1.289[-10 9.6?6fE-Il 4.659E-ID S.319E-IU 2.479E-ID 1.529E-10 14 12070.10 3 UDOE-Il 7.736E-Il 6.170E-Il 4.700E-Il 2.26FE-ID 2.560E-lU l.190E-In 1.14BE-18 15 16093.49 1.04HE-Il 4.649E-Il 3.709E-Il 2.04uE-Il 1.30eE-ID 1.SS9E-In 7.lfME-Il 5.729E-Il 16 24140.29
- 11. 9 *:0f-1; 2.310E-Il
- 1. H 4 'IE - I l 1.41N1-11 6.78El-Il 7.74FE-Il 3.6 ??;E-I l
- 2. 6 7:K - I l 17 32187.H4 S.41HE-12 L. lmiE-I l 1.15HE-Il 9.199E-12 4.1160-11 S.619E-Il 4.G 1E-Il 1.57DE-Il 1 38 1D233./9 J.69hE-12
- 1. 9.1H L - 1 1 H. Hine-12
/.7tnE-1; 7.6 PIE-12 6.H00E-12 1.244E-Il 4.99ME-11 3.lUSE-Il 1.tm E-Il 7.44"E-12 24
%6327.29 13HE-l' S.renE-12 4.759E-12 1.H/9E-11 3.61El-ll 2.S19E-Il 1.3/hE-Il
- 5. ? m: { - 12 21 M 37 3.49 J.WlHE-12 4./,9E-12 3.929E-12 9.3291:-12 2.7'F1-11 2.!GJE-fl 1.419E-Il 4. W W. - 12 22
/.:4 2F. / S 1.thnE-12
- 3. w snE - l ' 3.3JnE-12 II. Ha y l. - 12
- 2. I nt -i l 1.719E-Il H.2?oE-12 3.td.C-12 23 UU46~ 44 2.SUVE-12 3.259E-12 2.uunE-12 6.969E-12 1.789E-11 1.4P>E-Il 6.646E-l? 2.1 UE-12
m m
m M
m m
M M
M M
M UNDEPLETED DISPERSION FACTOR - REACTOR BUILDING VENT - APR - JUN 1905 RECPTR DOWNWIND WEIGHTED AVERAGFS X/O NO.
DISTANCE 5 - (1) 55W - (2)
W-(3)
UW - (4)
W- ( 5 ) WNW - ( 6 ) NW - (7) NNW - (8)
HETERS 3.0 22.5 45.0 67.G-98.D 112.5 135.8 157.5 1
201.20 1.lDFE-06 1.26DE-D6 1.57HE-f6 5.130E-07 1.490E-Ofi 1.22DE-00 1.138E-90 1.388E-BG 2
402.30 3.95HE-J6 1.84DE-Ub 5.42ME-DC ?.27UE-86 5.H60E-Ut 7.69BE-07 3.95DE-07 4.lD6E-07 3
004.70 2.390E-06 1.12DE-06 1.82HE-Db 1.25cE-D6
- 7. 5 9 0 E -D(,
1.789E-UL 2.45UE-D7 1.61DE-07 4
!?D7.fB 1.200E-D6 5.74HE-07'9.95DE-87 8.340E-87 1.4318E-00 9:520E-07 2.580E-07 1.15DE-07 5
1609.48 7.520E-D7 3.G2DE-97 6.32DE-07 5.69CE-B7 9.17EE-07 6.280E-07 2.390E-D/
1.090E-07 6
2414.80 3.00DE-07 1.090E-07 3.27HE-07 3.88UE-D7 5.22DE-87 3.358E-D7 1.92DE-D7 1.U58E-07 7
3218.70 2.466E-07 1.210E -if 7 2.87DE-07 1.92DE-07 3.458E-07 2.159E-D7 1.49UE-D7 9.340E-Du 8
4U23.40 1.75DE-07 0.64nE-Du 1.47HE-07 1.360E-07 2.5DDE-D7 1.539E-07 1.18DE-D7 8.D9DE-DO 9
4020.10 1.340E-07 6.65DE-DU l.12DE-07 1.D34E-07 1.930E-87 1.178E-U7 9.609E-BU 6.969E-00 10 5632.70 1.07DE-07 5.340E-UU 8.940E-DU 0.2DHE-D0 1.558E-87 9.27DE-DU B.110E-DU 6.DUGE-90 11 6437.4D 0.02HE-Du 4.43DE-Da 7.35HE-Du 6.71HE-Du 1.20HE-07 7.6 DOE-Db 6.920E-DU 5.340E-08 12 7242.10 7.420E-00 3.'4UE-U3 6.!UUE-B0 5.68HE-D0 1.UUNE-07 6.369E-UU 5.999E-DU 4.740E-DO 13 0846.80 6.37UE-Du
- 3. 230 E -if u 5.3nUE-Do 4.7DifE-DU 9.63&E-BU 5.440E-DU 6.749E-DU 4.740E-Du 14 12070.10 3.620E-d8 1.079E-nB 3.DutJE-u0 2.6651E-UU 5.383E-UU 3.DSHE-DU 3.Bu9E-DU 3.120E-DU 15 16093.49 2.46DE-Du 1.28UE-UU 2.02dE-00 1.769E-bu 3.590E-00 2.830E-UU 2.798E-UU 2.52BE-00 16 24140.29 1.440E-DO 7.6 HUE-09 1.16UE-nu 9.925d-D9 2.05HE-BU l.15UE-DU l.6IBE-Dn 1.44UE-08 17 32107.00 9.ouuE-89 5.2110E-99 7.930E-09 6.689E-D9 1.399E-UU
- 7. fl30 E -D9 1.110E-DU 9.77DE-D9 Y
IU 48233.79 7.430E-D9 4.DJUE-09 5.93dE-09 4.95HE-89 1.03UE-00 5.830E-99 8.29dE-69 7.27DE-99 c'
19 40208.40 5.93DE-D9 3.21HE-09 4.71HE-Un 3.9 HUE-C'l 0.16HE-00 4.68UE-U9 6.599E-09 5.7 SUE-D9 7
20 56327.29 4.901fE-U9 2.66UE-09 3.000E-09 3.lCHE-09 6.7DtfE-09 3.77BE-99 5.42DE-09 4.720E-09 1
21 G4373.99 4.15DE-09 2.26HE-D9 3.27HE-n9 2.67HE-99 5. 0 % E-89 3.100E-U9 4.509E-D9 3.979E-09 I
u 22 72420.75 3.59BE-U9
- 1. 9 6UE -119 2.030E-09 2.38UE-D9 4.078E-D9 7.74HE-U9 3.953E-89 3.43DE-D9 23 00467.44 3.15CE-99 1.730E-09 2.400E-89 2.HluE-09 4.26HE-D9 2.400E-D9 3.460E-09 2.990E-D9
~
a RECPTR HOUNWIND UEIGHTED AVERAGES X/O NO.
DISTANCE H-(9)
NNE -(IH)
NE -(lI) ENE -(12)
E-(13) ESE -(14)
Sr -t15) 3SE -(16)
HETERS 188.8 202.5 225.0 247.5 270.8 292.5 315.8 337.5 1
2Hl.2D 1.24DE-D6 2.86DE-DG 3.H7DE-D6 2.679E-D3 1.479E-06 1.B64E-#6 7.720E-07 7.300E-07 2
402.30 3.S60E-87 6.660E-n7 9.52DE-U7 U.359E-U7 4.90DE-07 S.84HE-07 3.S79E-D7 3.290E-07 3
334.70 1.390E-D7 2.730E-H7 3.47HE-D7 2.730E-07 1.DIUE-07 2.lH9E-D7 1.759E-D7 2.15UE-D7 4
1207.03 l.H!iDE-07 1.990E-9/ 2.40UE-07 1.699E-U7 1.2M;t-87 1.79nE-U7 1.030E-07 2.72sE-D7 5
1609.4U l.fil#E-H7 1.70DE-n7 2.n60E-97 1.369E-97 1.19!!E-07 1.75HE-D7 1.U7DE-B7 2.290E-D7 6
2414.00 9.3GHE-UU l.S2nE-D7 1.699E-07 1.17!!E -0 7 1.19HE-Hi 1.SS9E-07
- 1. 8 5'J E -U 7
- 1. H 6 *]E - 07 7
3210.7H n. ff 3 9E -Uli 1.279E-U7 1.410E-97 1.H99E-H7 1.169E-D7 1.32HE-e7 1.52ME-D?
1.S49E-97 l
8 4023.40 6.76'iE-Un 1.n6uE-H/
1.199E-07 1.HH9L-07 1.UU9E-D7 1.11FE-U7 1.179E-97 1.lH9E-07 9
4U20.16 S.739E-Du 0.94HE-Un 1.UltfE-U7 9.lH9E-D0 9.67PE-Du 9.379E-UU l.H49E-U7 9.02DE-88 10 5632.7#
4.929E-nu 7.6SHE-DO U.77DE-nu n.29ut-FU 9. H 1.fj E - 3 0 U.U6HE-UU 0.UUUE-Du D.IS9E-DO 11 6437.40 4. U n ?> C - 0 0 6.6SNE-nu 7.690E-UU
- 7. S 7HE -1;n u.2:wf-OH 7.H29E-eu 7.649E-Ub 6.919E-Du 12 7242.10 3.76nE-Du 5.udHE-nu 6.0ZHE-Du 6.919E-Un 7.54FE-un 6.109E-Un
- 6. 68:!E-rb 6.7113E-00 13 D u 4 6. !!U 3.34HE-UU 5. 4 9f fE-03 6.lHf>[-Hu
- 6. :ltNt:-Fu 6.93!!E-UU S.5fiME-vu 5.9ft!E-Du 6.130E-90 14 12H7D.1#
2. # 7# E -U11 3. ??JE-Un 3.939E-HU 4.499E-Pu 4.u3FE-UD 3.470E-UU 3.6S9E-nu 3.4ME-D8 l
IS 16H93.49 1.4690-nu 2 ' n!!E -nu 2.050E-nu
- 3. 43nt -Dit 3.bboE-Du 2.*U!!E-nu 2.Wut-UU 2.419E-60 16
'41.49.29 n.uSUE-U9 1.
'lE-UU l.799E-UU 2.6?1-bu
- 2. 4 F L -Ull I. S4 9E-U.
I.57-lE-61:
1.39lfE-48 17
.Mia/.H3 6.luuE-09
- 9. nNC-nq 1.2tmE-nu 2.nmst-pu 1.7 wE-ou 1.zinE-nu l.:w,E-s :
- 9. 4 ME -sm lu 44H23J./9 4.6HDE-D9
/.4/HE-49 9.u99E-H9
- 1. lt 9HE -l'n
.'.bb4E-Du 9. l W'E-P9 9.159E-09 7."/?'L-09 19
' iu,.9H.4U l. /SHi>D9 S.98'E-D9 n.HZnE-#9
- 1. S J 4 0 -!.n 1.6M L-Du 7.37sE-pr9
- 7. SJ JE-0, S.01.E-09 1
"U G6:27.29 J.th0E-H9 4. 9; a lE -H9 6.7190-U9 1.21:HL-FM l. :.7h E -ru
- 6. l l' E-U9 S.219E-r" 4.6190-19 1.swsE-bu 1.10 F l. -l' n b.lU'st-09 S. ;"W E -J "
- 3. U '? n -4 9 21 64373.99 2.379E-u9 4.thrE-nq S./SHL-u9 s
22 72429.75 2.5 Hot-U9 3.h t9E-99 S.92nE-n9
- 9. 4 7;)L -U9 1.UUFE-Un 4.499E-U9 4.539E-on 3.36f T-W 23 UU467.44 2.199E-h9 3. l u!/E-99 4.44SE-99 U.35VL-U9 U.029E-UU 3.959E-u9 3.9C>E-U> 2.9'9E-UU
m M
M M
DEPLETED DISPERSION FACTOR - REACTOR BUILDlHG VENT - APR - JUN 1985 RECPTR DOWNWIND WEIGHTED AVERAGES X/O DEPL NO.
DISTANCE S - (1)
SSU - (2)
SV - (3) USV - (4)
U- ( 5 )
JNW - (6) 1W - (7)
NNW - ( 8 )
HETERS D.B 22.5 45.8 67.5 90.D 112.5 135.8 157.5 1
201.2D 1.03DE-D6 1.190E-06 1.4UBE-DG 4.020E-07 1.418E-06 1.16HE-06 1.BSUE-00 1.220E-D6 2
402.30 3.7200-06 1.7UUE-U6 4.930E-06 2.164E-86 4.77HE-D0 7.199E-u7 3.579E-87 3.6BDE-07 3
004.70 2.DSUE-06
- 9. 611b E -U7 1.600E-D6 1.17UE-n6 2.429E-D0 1.589E-U0 2.24HE-07 1.4H JE-D7 4
1207.00 9.91HE-U7 4.730E-U7 0.25DE-87 7.320E-U7 1.33HE-00 8.73BE-U7 2.3 SUE-U7 1.dl#E-D7 5
1689.48 6.UlBE-07 2.0UDE-U7 5.07DE-07 4.90FE-97 0.599E-U7 5.599E-U7 2.278E-D7 9.HSHE-00 6
2414.00 2.97DE-07 1.44BE-87 2.520E-07 2.5UBE-U7 4.829E-U7 2.91BE-U/
1.03SE-07 9.7U9E-US 7
3210.70 1.01UE-U7 0 07DE-DU l.54DE-07 1.56HE-B7 3.159E-07 1.039E-H7 1.42HE-U2 0.779E-00 8
4923.40 1.240E-87 6.136E-HH 1.D69E-U7 1.UU9E-U7 2.260E-D7 1.20BE-07 1.139E-87 7.699E-BU 9
4020.1B 9.230E-UO 4.57#E-UU
- 7. HIJUE-D u D.UUUE-DU l.720E-97 9.57FE-UD 9.17DE-in:
6.SS6JE-90 10 S632.78 7.17DE-US 3.57HE-DO 6.05HE-Du 6.210E-UU 1.37sE-97 7.490E-DH 7.650E-00 5.70DE-D0 11 6437.40 5.76DE-UU 2.000E-UG 4.USDE-uu 4.990E-UU l.120E-D7 6.9 SUE-DU 6.SIBE-DO 5.UHDE-DO 12 7242.10 4.75DE-UD 2.390E-DH 3.99HE-UU 4.thBE-UU 9.33BE-DO 5.UlHE-DH S.62ME-Dtl 4.439E-90 13 0046.00 4.UUUE-UD 2.H2HE-nu 3. 3 6B E-Dil 3.45!1E-BU 6.UUBE-U" 4.23UE-UU 6.F4JE-DO 4.449E-D0 14 12D79.18 2.lDOE-Du 1.UUUE-UU l.76DE-Du 1.lHJnE-Fu 3.14FE-00 2.249E-Du 3.349E-00 2.07BE-D0 15 16093.49 1.34HE-00 6.94HC-09 1.119E-UU l.130E-hu 1.97sE-DU 1.41UE-UU l. 000E-Dil 1.390E-00 16 2414U.29 7.DibE-U9 3.690E-09 5.74DE-09 5.719E-99 1.DIBE-00 7. 28 5'E -U9 9.699E-D9 7.17DE-D9 17 32107.00 4.390E-09 2.330E-09 3.57DE-89 3.2 SUE-D9 6.27DE-09 4.969E-U9 5.30BE-D9 4.440E-09 g
10 4H233.79 3.06HE-09
- 1. 6 4 !J E-09 2.47DE-09 2.H4HE-09 4.290E-D9 2.399E-99 3.SSBE-H9 3.969E-D9 m
19 40200.40 2.200E-89 1.230E-09 1.040E-89 l.SUUE-89 3.17#E-09 1.'760E-U9 2.52nE-D9 2.279E-09 20 56327.29 1.7UDE-09 9.59HE-lu l.43HE-09 1.16UE-09 2.41eE-D9
- 1. 36!JE-!J 9 1.959E-09 1.76DE-09 m
21 64373.99 1.43UE-U9 7.720E-ID 1.140E-09 9.228E-In 1.930E-09 1.UU9E-09 1.569E-09 1.40UE-09 22 72428.75 1.100E-09 G.390E-lu 9.42HE-lu 7.499E-IB 1.5UDE-09 0.91HE-1H 1.299E-09 1.15DE-D9 23 00467.44 9.07DE-10 5.37DE-tu 7.98HE-!D 6.25UE-lO 1.32BE-99 7.45UE-10 1.DOBE-U9 9.64HE-10 j*
w n
RECPTR DOWNWIND WEIGHTED AVERAGES X/O DEPL 8
HO.
DISTANCE N-(9)
NNE -(lu)
NE -(l1) ENE -(12)
E-(13) ESE -t14)
SC -(15)
SSE -(16) 11E TE RS 10#.5 202.5 225.8 247.5 278.8 292.5 315.0 337.5 1
201.28 1.16DE-06 1.92DE-06 2.87DE-06 2.499E-D6 1.300E-86 9.969E-87 7.239E-07 6.040E-07 2
402.30 3.170E-07
- 5. 9 90 E -1J 7 U.530E-07 7.499E-U7 4.518E-07 4.690E-H7 3.310E-07
- 3. P S?)E -D 7 004.70 1.2#UE-H7 2.4HnE-U7 3.UIDE-07 2.37FE-87 1.589E-97 1.92nE-07 1.62HE-D7 2.U2ME-97 1207.00 9.15DE-HH 1.75BE-87 2.fi9BE-07 1.45HE-07 1.110E-07 1.67DE-87 1.74SE-ui 2.610E-07 b
1609.40 9.06DE-Un
- 1. 6H6E -iJ 7 1.02HE-07 1.17HE-D7 1.07HE-B7 1.65UE-07
- 1. Ulff E -0 7 2.209E-D7 6
2414.DD 0.71DE-#H 1.400E-H7 1.53HE-07 1.04HE-U7 1.IIME-07 1./U9E-67
- 1. 79lJC -# 7 1.Un9E-D7 7
3210.78 7.540E-UU l.luuE-u7 1.299E-U7 9.91UE-UD 1.lBOE-B7 1.269E-07 1.479E-H7 1.499E-D7 6
4U23.49 6.37UE-US 9.85nE-Un 1.9990-07 9.23HE-DU 1.8300-97 1.H6FE-U7 1.13 0 E -U'/
1.USUE-07 9
Au20.10 5.399E-UD 0.299E-UU 9.250E-00 0.430E-UU 9.43ME-DD 0.95DE-UU l.019E-D7 0.650E-UD 10 6632.70 A.63nE-Un 7.H9HF-HO n.DHHE-00 7.7dnE-FU 0.62PE-UU 7.69HE-D3 0.533E-DU 7.800E-00 11 6437.4H 4.02nE-HU 6. l SUE-11H 7.H2HE-Un 1.nSNE-pu 7.110Hi -Ut; 6.699E-DH 7.39?fE-UU 6.6CDE-Du 12 7242.lu 3.54UE-Hit S. AHHE-Hit 6.22HE-Un 6.47DE-UU 7.2391:-90 S.uu9E-pu
- 6. 419 C -U:; 6.318E-DO 13 UH46.30 3.149E-HH 4.79HE-UH
- 5. 5601;-U1) 5.979E-00 6. E S 01:-U t' b.230E-un S. 6 S'!E -Un 5. 3 4 DE -00 14 1207H.lu 1.940E-UU
- 2. 9fif f E -HH 3.67HE-90 4. 21 VE -Fl! 4.649E-Ub 3.2H!'E-DH
- 3. A MC-iQ 2.890E-00 15 16093.49 1.36DE-HU 2.HnUE-Hu
- 2. 5 71r E -nu 3.2inE-UU 3.SIME-UC 2.339C-Du 2.419E-Du 1.330E-PO 16 2A140.29 H.14NE-#9
- 1. 2 tiO E -H H 1.6MDE-Ud 2.469E-HH 2.326sE-FL 1.42ME-Du l. 4 39E-l'h b.90cE-09 1/
6.:187.!J9 b. 63 rJ E -H 9 U WiHE-09 1.140E-HH I. UUHl:-OH 1.71PE-Fu 9.3440-U9
'/.6H9E-09 4.20DE-39 lu 4H233.79
- 4. ;:WlE -H 9 6.'MUC-H9 tl.7/H1-H4 1.41HE-Un
- 1. 31i U E -UU 6.67HE-F9 11.1/9E-09
'.96"E-H9 19 1H2UU.43
.l.CHC-H9 t;
"UE-09 7.HHul:-09
- 1. HIDH. - D U 9.6H"l.-U9 1..h70E-f9
- 3. 7 6'IE -H9 2.199E-H9 MH M32/ %9
.UFOE-99 J
'NE-H9 S. 9!lHE -H'l ll. 615H E -h D 7. 41 M -S9 8flBE-H9
- 2. U G:/E -H' t 1.79ME-09 l
J SHE-09 OE-49 5.HIME-H9 7. I Sul:-U9 L. 9 2'i0 -09
.27DE-49
- 2. 5SE-f f 9 I.369C-D9 1
21 W J / 3. 9') I u,,rt46-lH 22
<242d.7G
!'E-H9 4.33HE-Hij 6.HSrT-09 4.H/Fl'-US
,. 7 59 E -19 1.H19E-49 1.12HE-D9 23 30461.44 6.U'f uE-lu 2. 2:UC-U9 3.uGUE-09 S.196fE-H9 4.UU9E-H9 2.349E-H9 l.S39E-09 9.359E-Id i
I
E E
E E
E E
E E
M DEPOSITION FACTOR - REACTOR Bull.DlHG VENT - APR - JUN 1983 REEPTR DOWNUIND UFIGHTED AVERAGES D/O HO.
DISTANCE G - (1)
SSU - (2)
M1 (3)
U!P.f - (4)
U-(5)
JNU - (6) W-(7)
NMI - (0)
METERS D.S 22.G 45.U G7.6 90.8 112.5 135.8 157.5 1
281.20 2.JGUE-UD 3.2 SUE-ifa 3.290E-US 9.46UE-49 2.7290-60 2.72DE-UD
- 1. 6DDE-if 0 1.853E-DO 2
402.30 2./luE-UU 3.410E-Hu 4.400E-UH 1.4SDE-UU 2.96HL-Uti 2.29pE-UU U.299E-89 7.440E-89 3
0U4.75 1.770E-DO 1.290E-Ull I.600E-UD 6.290E-UP 1.12HL-BI:
1.10'J E -DI:
3.639E-09 2.956E-09 4
12H7.00 U.690E-D9 G. 4 u13E -U9 0.87DE-D9 3.S40E-09 5.31UE-09 6.30DE-09 2.199E-U9 1.73EE-09 5
16119. 4 U 5.220E-09 3. Il6 H E -09 5.32DE-89 2.710E-09 3.140E-09 3.796E-89 1.409E-09 1.100E-09 6
2414.00
- 2. ti t uC -U9
- 1. 0Sff E-If 9 2.S5HE-09 1.37DE-D9 1.62HE-09 1.05HE-09 7.920E-lo 6.519E-18 7
3210.7U l.SDDE-09 1.IluE-09 1.52nE-09 0.00&E-lb 1.IluE-D9 1.16HE-09 5.H69E-lo 4. 2 3 'J E - 18 0
4023. 4 ff 1.111 HE -U 9 7.46HE-10 1.030E-09 6.10HE-lu 0.328E-10 0.23HE-10 3. ?i29E - l o 2.999E-1B 9
4820.10
- 7. 4 tiCE -I D 5.SHUE-18 7.54HE-lu 4.360E-lu 5.69BE-10 5.7553E-10 2.599E-10 2.239E-1B 10 5632.78 li. 7Hif E-I D 4.211JE-In 5.770E-lO 3.211HE-10 4.25HE-10 4.319E-le 1.909E-ID 1.73srE-10 l1 6437.40 4.49nt-lu 3.32HE-In 4.S59E-In 2.57DE-lO 3.3SOE-IP 3.399E-10 1.57HE-lo 1.3R9E-lU 12 7242.10 3.6100-in ?.67DE-lu 3.659E-10 2.UUHE-lb 2.72ME-lo 2.7SHE-lp 1.26:!E-ID 1.12EE-IH 13 8846.00 2.96DE-lu 2.19H E - lif 3.UHUE-19 1.73HE-ID
- 4. AfDBE-10 2.30ME-10 1.2InE-lu 9. 39ff E - I I 14 12H78.IU l. 36HC-lif 1.HIHE-lH 1.33DE-ID 1.HtiUE-10 1.049E-lo 1.7U9E-lo 1.329E-lo 4.559E-Il l 'i 16093.49 7.03cE-Il ti. 7 90E - 11 7.92ME-Il 7.37DE-Il 1.BSUE-10 I.SSUE-ID 1.779E-lO 7.260E-!!
16 24140.29 3.u2HE-Il 2.G7DE-11 3.660E-11 3.1400-11 4.H09E-Il 6.27DE-Il 6.H20E-Il 3.359E-!!
17 32107.UD 2.IluE-Il
- 1. tiG U E - I l 2.130E-Il 1.4SHL-11 2.H40E-Il
- 2. DIME-Il 2.44SE-II I. 96 5f E - ! !
IU 41f 233. 7 9 1.39pE-Il 1.82HE-11
- 1. 4Ulf E - 31 9.410E-l?
1.U7UE-11 1.44UE-Il 1.300E-Il 1.209E-Il H
19 40200.40 9.dSOE-12 7.260E-12 9.940E-12 6.700E-12 1.33BE-!!
1.839E-Il 9.31HE-12 9.IIBE-12 20 56327.29 7.360E-12 5.42nE-12 7.43nE-12 5.UlHE-12 1.UUBE-Il 7.67DE-l?
6.959E-I? 6.Ul#E-12 H*
21 64373.119 S.71HE-12 4.2DnE-l? 5.760E-12 3.uunt -IP 7.760E-12
- 5. 9 4 0E-1; S.390E-12 5.286E-12 u
22
" 428.75 4.61ME-12 3.39#E-12 4.640E-12 3.13HE-l?
6.2700-l?
4.UU9E-l? 4.3 SUE-IP 4.26f1E-12 d
'u 23 Pi7.44 3.77DE-12 2.7UUE-12 3.UUUE-12 2.578E-12 S.130E-12 3.93VE-12 3.S64E-12 3.43'JE-12 e
I RECPTR DOlHaul ND UEIGHTED AVERAGIS 11 / 0 HO.
Ol3TANCE H-(9)
HHE -(19)
NE -(11)
ENL
-( IP )
L-(13)
ESE -(14)
SE -(IS) 3SE -(16) 11ETERS 100.0 282. ti 225.F 247.5 278.U 292.5 315.0 337.5 1
2#1.20 1.579E-#8 3.!i40E-00 3.77HE-00 2.16nE-FU l. 4 0HE-et:
1.76dE-UU 1.239E-DU l.230E-90 2
402.30 fi.25uE-09 1.530E-U0 1.51fut-08 9.n6FL-U9 6.779E-UP 1.194E-UU 7. 6 E!!E -Ho 7.9#VE-D9 3
004.70 1.700E-h9 G.219E-U9 5.96UE-89 3.S89E-89 2.HHUE-09 S.SlHE-U9 3.56NE-UU 4.U64E-09 4
121f 7.00 9.930E-In 3.S60E-09
- 3. 4 tiU E -U9 1.97!JE-U9 1.67UE-UP 3.02PC-H9 2. !>2 V E -U 9 2.379E-U9 S
1609.40 6.520E-ID 2. 3tiHL -if 9 2.29dC-If9 1.27UE-09 1.llPL-U9 1.9100-i19
- 1. 3#1VE -nD 1.47BE-U9 6
2414.HH 3.46f>E-ID 1.24HE-09 1.22nE-09 6.6fDfE-lu
- 6. UH 53 E - l O 9.H20E-lo 6.Uf;SE-lo 7.59??E-lu 7
3213.7H P.190E-ID 7.93nE-lu 7.769E-ID 4.169E-lp 3.U ML-10 6.2H9E-ID 4.3IDE-10 4.709E-In U
4H23.4H 1.G290-10 S.S2HE-lu S.41HE-IU 2.I!990-10 2.7UwE-lO 4.299E-ID 2.96bE-10 3.26FE-lu 9
4U20.1H 1.13CE-IH 4.U6HE-lu 3.99HE-ID 2.12HL-ID 1.99HE-lu 3.12HE-lo 2.179E-lo 2.379E-10 la 5632.78 U./4HE-Il 3.12nE-lu 3.U6HE-lo
- 1. 6 3 Hl:- l o 1.53NE-lo 2. 30'iE -I D 1.60uC-lo 1.01DE-le 11 6437.40 6.93HE-il 2.47DE-lif 2.43HE-ID 1.290E-!U l.220E-lh
- 1. 09!1 E - I D 1.319E-lo 1.430E-ID 12 7242.18 S. ti9HE - I l 2.HunE-lu 1.9690-ID 1.USUE-In 9.97hl-11
- 1. 5 4 !J E-l o 1.!!69E-In 1.199E-10 13 DU46.811 4.6101:-11 1.66!fE-lH 1.62HE-ID 0.7P9E-Il H.3]ME-Il 1.29n0-In 0.H290-11 1.240E-1D 14 12070.1#
2.200E-Il H. H.19 E - I l 7.03HE-Il 4.22HL-il 4.HUUE-Il 6.299E-11 4.2/UE-Il 1.45UE-lo 15 16:193.49 1.3n0E-1I 4.u wl:-11 4. fi9 H E-1 I 2. S 391:- ! l 2.47!{-11 3.H39E-1i
- 2. Sim E - 11 6.66BE-1I 16 24144.29 6.IIUE-12 2.MiGE-11 2.29HE-11 1.?S9E-11
- 1. ? '.MK - 1 1
- 1. 9 3'IE - 1 1 1.319E-11 3. !TSE - 11 17 32107.UU 3.6lHE-12 1.4/4E-Il 1.399L-ll U.3491-l? 7.7hME-l?
1.444L-il 3.9t"E-Il I.799E-Il 10 4H733.79
.44n0-12 1.HmfE-Il 9.409E-12 1.7796-11 3.47ME-11 1.WPil:-ll
.!.P ME-Il I.lWJE-11 19 4H204.40 1.ulHE.-12
- 7. ngE-lp 6.94nt-1?
1.619E-11
- 2. J I.q - 1 1
- 1. yR {- 11 1.4p"E-Il n. p f x1. - l p 29 58W2/.29 f.4 Wl-l? U.649E-l? S.4tDE-IP 1.29FF-il
- 1. 6 4 'd - I l
- 1. H. !{ -I l
- 1. H pie -I l 6.29fK-12 Ut W.3/3.99 6.SSNE-1; d. %!K - 12 4.J2pE-1; 1.1191-11 1.
2nt-il it. 6 wE - 1 ;
7.69 K-tv
- 4. r: "E-1 '
??
/D' 29. i ti J.3SNE-l?
3.//DE-12 3.72ME-l?
9.46"l.-17 9.fbOL-IP 7.27DE-1; S.imlfE-12 3.914-12 23 U13467.44 2.74uE-12 3.199E-12 2.2HME-12 0.12NE-12 7.499E-l? 6.lfwE-12 4.72ME-12 3.22ML-12
M M
M M
M M
M M
M M
M M
M UNDEPLETED DISPERSION FACTOR - MAIN STACK - JAN - HAR 1983 j
RECPTR DOWNWIND WEIGHTED AVERAGES X/O NO.
DISTANCE S-(1)
SSW - (2)
SW - ( 3 ) WSW - (4)
W- ( 5 ) WNW - ( 6 ) NW - ( 7 )
1NW - ( 8 )
HETERS 6.D 22.5 45.8 67.5 90.0 112.5 135.8 157.5 1
201.28 5.5DBE-09 6.36HE-D9 4.71BE-09 2.12HE-99 2.690E-IF 6.666E-ID 4.64DE-1B 9.42DE-Il 2
4112.3 0 1.51DE-D7 1.0lHE-07 7.17DE-D0 3.300E-DH 5.H40E-81 2.DSUE-00 0.61DE-09 2.62DE-D9 3
084,70 1.26DE-07 1.H50E-D7 4.54uE-D0 3.39BE-FU l.38UE-Bt 1.31DE-Du 4.76HE-DS 1.338E-99 4
12D7.00 1.120E-97
- 1. 691f E -D 7 4.52HE-BU 7.58HE-00 1.03HE-B0 1.87BE-UH 3.2tDE-09 1.750E-D9 5
1699.40 1.47BE-97 2.07BE-07 4.77BE-00 0.54DE-B0 1.95BE-60 1.020E-DO 3.958E-09 3.134E-09 6
2414.HD 1.lDDE-87 1.11BE-D7 3.G3HE-80 6.134E-PC 1.70FE-00 9.26BE-09 6.429E-09 5.709E-09 7
3210.7U 7.6DDE-Du 7.17DE-D0 2.75DE-BU 4.52DE-Du
- 1. 4 9 0E -Dli 0.18eE-99 7.57nE-89 6.9dSE-09 0
4823.40 5.500E-UD 5.14DE-DO 2.15DE-00 3.47&E-BH 1.246E-00 7.D8dE-99 7.6UME-09 7.llDE-99 9
4020.10 4.25BE-B0 3.95BE-80 1.730E-00 2.769E-00 1.030E-00 6.05DE-49 7.20?>E-09 6.07DE-89 10 5632.75 3.41DE-DO 3.17DE-DB 1.440E-D0 2.260E-BU 0.0!ME-09 5.31BE-09 6.UD9E-09 6.52BE-D9 11 6437.40 2.03sE-UU 2.62HE-Du 1.22AIE-D0 1.90DE-90 7.62ME-09 4.700E-09 6.31sE-09 6.149E-09 12 7242.10 2.390E-90 2.22HE-BU 1.fJSHE-DH 1.62ME-DI.
6.608E-89 4.21UE-D9 5.u7dE-99 5.70.9E-09 13 8046.00 2.06DE-00 1.92HE-DO 9.161fE-99 1.41HE-U0 0.660E-09 4.120E-09 0.#7DE-89 5.449E-99 14 12070.10 1.190E-DU l.llnE-Du 5.47DC-09 it.254E-D9 5.IIME-09 2.670E-09 5.239E-D9 4.04PE-09 15 16U93.49 0.lBUE-09 7.590E-U9 3.790E-D9 S.590E-H9 3.fi2ME-09 1.94DE-D9 4.27BE-09 7.93UE-09 16 24140.29 4.73HE-09 4.4 sue-99 2.249E-D9
- 3. lune-09 2.969E-09 1.23HE-09 2.503E-09 4.6n9E-D9 17 32107.H8 3.26HE-09 3.000E-09 1.560E-09 2.100E-09 1.43HE-89 9.73DE-lo 1.07DE-09 3.24DE-09 Y
10 4U233.79 2.46aE-09 2.32HE-U9 1.lGHE-99 1.720E-99 1.H00E-89 U.3 SUE-lo 1.449E-09 2.440E-D9 o'
19 40200.40 1.96DE-09 1.06HE-09 9.42ME-1D 1.3SHE-U9 8.62BE-ID 6.900E-lU l.273E-09 1.959E-09 7
20 56327.29 1.62DE-U9 1.54HE-09 7.94BE-la 1.lHHE-09 7.09HE-lo 5.760E-lu 1.H WL-09 1.610E-09 21 64373.99 1.37DE-09 1.3HHE-09 ti.73HE-10 9.230E-lu 6.670E-lO 4.07DE-lH 0.799E-lo 1.3buE-09 22 72420.75 1.190E-u9 1.13HE-99 5.039E-10 7.999E-lo 5.764E-ID 4.21DE-lu 7. 5 Cl> E - l u 1.189E-D9 23 00467.44 1.048E-U9 9.090E-lu 5.120E-ID 6.9bME-lH 5.05UE-10 3.690E-lu 6.639E-10 1.039E-09 h
RECPTR DOWHWIND WEIGHTED AVERAGES X/O I
HO.
DISTANCE H-(9)
HNE -(lu)
NE -(11)
ENE
-( 12 )
E-(13) ISE -(14)
-( I S ) sSE -(16) 11ETERS IUD.U 202.5 225.0 2 4 7. ti 27U.8 292.5 315.0 337.5 1
201.20 2.550E-ID 2.H0HE-09 1.49BE-09 1.4DDE-99 2.95HE-99 6.25pE-09 5.239E-D9 2.73HE-D9 2
402.30 7.U2UE-09 5.62ME-nu 4.62HE-Dit 4.699E-D0 0.43CE-90 1.57UE-u?
- 1. 51!!> E -0 7 1.410E-97 3
UU4.70 4. ti 4 0E-09 2.SlHE-nu 1.66HC-Du 2.16HE-HU 3.34UE-UU 5.96HE-UU 5.12HE-DH 7.7BhE-00 4
12177. H#
3.378E-09 1.32HE-HU 8.24DE-09 1.13HE-Un 1.99UE-80 3.SHME-HU
- 2. 6 6 AiE -O H U.439E-Du 5
16U9.49 3.SUDE-09 1.nttuE-Du 3.U3HE-09 9.27DE-D9 2.UU$-Hu 3.73HE-UU 2.76HE-DU U.209E-Du 6
2414.00 4.61HE-U9 9.fl2nE-09 9.76HE-09 9.529E-U9 2.bHM -BU 4.61HE-UH 3.339E-Du 7.HS9E-UU 7
3210.70 S.2390-#9 9. SIDE-09 1.D7DE-DO 1.U3HE-HU 2. blue-BU 4.UUDE-nu 3.629E-UU S.Un9E-D3 0
4023.4U S.30DE-09 H.300E-09 1.UBUE-UU l.H4HE-UU 2.ti?HL-90 4.760E-UO 3.6H9E-DH 4.7U9E-Du 9
4U20.lu 5.H00E-99 H.I'ME-99 1.n20E-DH 9.91HE-h9 2.33BE-DU 4.46CE-60 3.SHUE-Du 4.DirF-D0 ID 5632.7n 4.ulHE-n9 7.4tHE-09 9.64HE-09
- 9. 3 Hul:-0 9 2.134E-UU 4.17 C E -L'u 3.469E-00 3.429E-00 11 6437.40 4.539E-U9 6.790E-H9 9.04HE-09 U.USHE-99 1.96HE-#H 3.U189E-00 3.32HE-DH 2.978E-00 12 7242.10 4.27HE-U9 6.2600-H9 U.490E-09 U.3SDE-U9 1.Il04E-UU 3. 6 WJ E -H U
- 3. lilHE-UO 2.618E-90 13 0H46.H0 4.02nE-u9 ti. / HOE-09 7.9600-99 7.06DE-09 1.66"E-#H 3.399E-HU 3.UJ9E-90 2.31eE-B0 14 120/3.10 2.99HE-D9 4.999E-H9 ti.U7#E-09 ti. H 4 HE -H9 1.16 k E -Fil 2.47HC-UU 2.339E-90 1.45UE-00 15 16H93.49 2.310E-D9 3.12HE-09 4.57HE-69 4. li 7H E -H9 0.7396:-F9 1.91HE-Dil 1.H40E-Un 1.159E-Du 86 24149.29 1.nlHE-09 2.Un9E-H9 3.130E-09 3.14HE-P9 b.69fE-99
- 1. Z u!f E -Hil 1.2SHE-Ma 6.92ME-09 t
!J10/.UU l.22HE-99 1.SnHE-H9 2.3 HOE-09 2.399E-P9
- 4. lite-89 1.H9HE-UH 1.130E-Fu 4.UPE-P9
/H233.79
- 9. 3 3!)E - l u 1.ElHE-H9 1.94HE-H9 2.32Hi-09 n. TUDI.-09 U.SP90-H9 G.719E-D9 3. 7H 'E-D9 3
4Uun.4H U.17DE-lu l.*NE-99
- 1. 'i an E -H 9 1.929E-b4 3.42ni-99 6.9:,oE-H9 7. H M -- 0 9 2.9u;E-99 20 E!?/.29 6.990E-jp 3.?tdE-lH
- 1. TIME-H4 1.63HE-D4..U7hE-H9 b. u20E -f 4 S. H6?!E -99
/.47Di~-U9 21 h4373.99 H 42HE-!D 7.CHE-lu 1.!H9E-H9 1.41UE-D9 2.47HL-D9 S. HINE-H9 S.HH9E-H9 2.llHL-D9 22 72420.7S H./6nE-jp 6
';E - l u 1.HSUC-U9 1.2 SUE-09 2.169E-H9 A.990E-H9 4.3b9E-H9
- 1. H FE -09 23 UdiG7.44 7.72HC-lu 6.
JE-lO 9.429E-Id 1.lE4E-H9 1.929E-09 UUVE-U9 3.U49E-09 1.689E-09
E E
E E
E E
E g
g g
DEPLETED DISPERSION FACTOR - MAIN STACK - JAN - MAR 1982 RECPTR DOWNWIND VEIGHTED AVERAGES X/O DEPL NO.
DISTANCE S- (1)
SSW - (2)
M1 - (3) USW - (4)
V- (5) JNW - ( 6 ) MW - (7) iNV - ( 6 )
METERS H.D 22.5 45.8 67.5 90.0 112.S 135.D 157.5 1
201.20 5.56BE-09 6.36DE-09 4.71DE-09 2.12HE-09 2.69BE-l?
6.669E-10 4.64DE-ID 9.42BE-11 2
402.30 1.46HE-U7 1.76DE-07 7.D6DE-DO 3.349E-00 4.9/UE-99 2.93HE-00 U.52BE-99 2.590E-99 3
804.70 1.220E-D7 1.HlffE-U7 4.400E-D0 3.349E-UC 1.34DE-D0 1.269E-DO 4.61UE-09 1.290E-09 4
1207.00 1.090E-D7 1.599E-07 4.300E-Dtl 7.319E-98 1.78HE-00 1.83DE-UU 3.89BE-D9 1.699E-09 5
1609.48 1.4HDE-07 1.76DE-87 4.61DE-00 0.14UE-00
- 1. 090E-if 0 9.749E-09 3.830E-D9 3.U59E-09 6
2414.DU l.UluE-07 9.190E-DU 3.47BE-DO 5.730E-00 1.720E-90 0.87DE-09 6.26DE-09 5.62DE-09 7
3210.70 6.710E-UU 5.791fE-na 2.61DE-D0 4.16UE-D0 1.42DE-DO 7.728E-DU 7.35UE-U9 6.659E-99 0
4023.48 4.790E-DH 4.87FE-#3 2.030E-DO 3.15 D E -ff 0 1.17BE-80 6.65DE-UU 7.430E-09 6.02DE-99 9
4020.lu 3.650E-DO 3.ff6DE-UD 1.630E-U 2.*78E-98 9.72SE-Di' 5.740E-09 7.If4ME-09 6.57DE-99 10 SG32.70 2.9UBE-UD 2.41DE-DO 1.34HE-UU
- 2. D11H E-Du 8.240E-H9 5.920E-99 6.569E-D9 6.22DE-99 11 6437.40 2.37DE-00 1.960E-08 1.130E-Da 1.66UE-D0 7.lDUE-D9 4.430E-D9 6.DHBE-U9 5.8SDE-D9 12 7242.10 1.990E-Ju 1.640E-UU 9.70HE-BP 1.41DE-FU 6.2&BE-H9 3.96DE-09 S.649E-99 5.SisE-29 13 D U 4 ti. 8D 1.70DE-DO
- 1. 4 n9E-If u D.44DE-U9 1.21HE-Up 7.U3ME-09 3.87DE-09 7.769E-D9 5.17BE-09 14 12070.10 9.27BE-A!9
- 7. ti90 E-89 4.940E-09 6.899E-U9 4.S19E-89 2.490E-L9 4.999E-09
- 3. 890E-119 15 16H93.49 5.97DE-09 4.09nE-H9 3.350E-D9 4. ti7D E -99 3.DIUE-D9 1.790E-09 4.04DE-D9 6.910E-09 16 24140.29 3 IluE-09 2.560E-89 1.99BE-89 2.49BE-09 1.67BE-99 1.12SE-09 2.428E-D9 3.71FE-D9 17 32107.00 1.92BE-09 1.590E-D9 1.200E-09 1.62ME-H9 1.H90E-09 0.630E-ID 1.69BE-09 2.359E-09 Y
10 40233.79 1.31DE-09 1.n90E-09 9.300E-11J 9.31HE-lu 7.8MBE-lu 5.330E-lo 1.25DE-D!
1.64FE-09 19 40200.48
- 9. 5 0ff E-I D D.040E-ID 7.290E-lo fi.82FE-1B 5.95BE-10 2.67DE-lo 4.8GDE-lp 1.22FE-09 to 20 56327.29 7.33BE-lu 6.1HDE-1B 5.200E-IH S.230E-ID 2.090E-ID 2.DUGE-10 3.760E-IP 9.459E-10 8
21 64373.99 5.UUDE-lu 4.91DE-ID 4.329E-lu 4.lS4E-10 2.200E-lO 1.660E-10 3.HDUE-ID
- 7. ti9 0E - 10 3
u 22 72420.75 4.75DE-lu 4.32DE-ID 3.64DE-In 2.71UE-19 1.07UE-ID 1.37DE-lo 2.47DE-lO G.29VE-l#
7 23 0U467.44 3.950E-10 3.34BE-ID 3.110E-lo 2.26UE-1B 1.578E-ID 1.15DE-lo 2.06DE-!U 5.3UDE-10 m
I RECPTR DOWNWIND UEIGHTED AVERACES X/O MPL if 0.
DISTANCE N-(9)
HNE -(10)
NE -(lI)
EHE -(12)
E-(13) ESE -( 14 )
SE -(151 3SE -(16)
HETERS 100.0 282. ti 225.D 247.S 270.D 292.5 315.D 337.5 1
201.20 2.55DE-10 2.00DE-09 1.49BE-09 1.4DHE-09 2.959E-99 6.259E-09 5.230E-00 2.73DE-99 2
402.30
- 6. 91i1JE -0 9 5.560E-UU 4.57UE-Da 4.64DE-Un 0.34sE-00
- 1. 5 69 E-IP 1.490E-U/
1.39NE-07 3
804.70 4.4UUE-09 2.43DE-nu 1.61DE-80 2.U9FE-Hu 3.234E-FH S.779E-00 4. 959 E -iJ:. 7.449E-D0 4
12H7.D0 3.21UE-09 1.259E-UU 7.04HE-U9 1.U7HE-FH 1.9HBE-OH 3.340E-nu 2.549E-DC U.15HE-en 5
1609.4D 3.343E-U9 1.H10E-00
- 7. fiDH E -H 9 8.718E-U9 1.980E-D0 3.56HE-UU 2.639E-Du 7.99sE-Du 6
2414.HD 4.43DE-D9 9.22ME-U9 9.31DE-99 9.HIHE-D9 2.39'/E-98 4.410E-IJU 3.189E-UU 6.769E-Utl 7
321U.70 S.nl0E-U9 H.uuuE-09 1.U29E-Du 9.779E-99 2.4UME-DO 4.6 SUE-UU 3.469E-UG 5.539E-60 0
AU23.4U
- 5. utlUE -H 9 U.279E-H9 1.H3ME-HU 9.8440-U9 2.37FE-hH 4.S20E-90 3.51HE-nu 4. ti 4 9E -D 0 9
4 tl2 0. l H 4.U7dE-09 7.540E-D9 9.75DE-H9 9.42FE-04 2.199E-ru 4.240E-Un 3.4tnE-C:
3.793E-UB 10 S632.70 4.GHME-U9 6.07HE-99 9.17DE-99 U.910E-n9 2.009E-0H 3.949E-FU 3. 2 99 t'-D u 3.229E-08 11 6437.40 4.339E-09 6.27UE-09 8.ti9nE-49 0.4#UE-D9 1.839E-FU 3.669E-UU 3.1 % E-en 2.7U9E-Du 12 7242.1U 4.uunE-09 S.76UE-09 U.n6HE-09
- 7. 92 6f E -D 9 1.009E-FH 3.419E-Un 3.HluE-m 2.449E-UU 13 U046.00 3.039E-09 U.3f0fE-09 7. tis!J E-H9 7.449E-U9 1.549E-UU 3.189E 08 2. U 63 E -!!o 2.lG9E-D8 14 12078.18
- 2. U 3!JE -0 9 3.G9dE-U9 S.S2ME-U9 S.SH!'E-69 1.P(>FE-UU 2.2H9E-fJn 2.169 E -im 1.349E-D0 15 16093.49 2.20HE-09 2.700E-09 4.23H0-09 4.279E-U9 7 UboE-U9 1.73UE-Pu 1.63nE-ru 1.U20E-08 16 24140.29 1.510E-n9 1.320E-U9 2.9H9E-09 2.91HE-H4 S.H/YE-09 1.149E-D3 1.119E-f:
5.9H:JE-09 17 32187.H9 1.140E-99 1.34HE-H9 2.19HE-09 2.19d E -119 3.66NE-U9 9. 6TUE -fB 9. 97DE - f"'
3.999E-09 t il 4H233.79 9.140E-In 1.hSHC-09 1.749E-H9 2.1590-U9 3.NHL-09 7.4F?iE-n9
- 7. ti%l:-0 9 2.939E-I.9 19 418230.43
/.57HE-lO U.53HC-lH 1.44HE-D9 1.7640-U9 3.FH?4-H9 5.9/30-D9 6.H l!K-Ja 2.29fE-09 20 56327.29 6.46HE-lu 7.17dE-Id 1.22HE-99 1.4990-09 2.SUUE-09 4.9/110-U9 4.9590-H4
- 1. U R T. - D '.1 21 64373.99 7.94UE-In 6.17#E-lu 1.HriNE-99 1.299E-99 2.ldt-09 4.24SE-U9 4.1 :PK -D
l.50E-09 j
22 7242d.75 7.hndE-lO b.4tHE-In 9.39?>E-In 1.13HC-u9 1.tv C-U9
.:.699E-U9 3.619E-em I.3t?E-09 23 0d467.44 6.lDUE-lu 4.UnuE-10 U.4UuC-lu 1.hlsL-D9 1.649E-09 3.250E-U9 3.169E-v/
1.11 E-U3 J
DEPOSITION FACTOR - HAIN STACK - JAN - MAR 1900 RECPT3t DOWNWIND WElGHTED AVFRAGES D/O NO.
DISTANCE S -(1) SSW - (2)
SU - (3) USu - (4)
W- (5) WNW - ( 6 ) NW - ( 7 )
NNW - (0)
METERS D.D 22.5 45.0 67.5 90.0 112.5 135.0 157.5 1
201.20 2.37DE-99 3.00DE-09 0.0GDE-ID 3.76BE-10 2.730E-ID 4.090E-10 2.3HME-ID 1.53DE-ID 2
402.3D
- 1. 22fiE-00 1.560E-D0 3.UGUE-09 1.000E-D9 9.29UE-ID l.329E-D9 4.069E-ID 3.268E-lu 3
004.7H 6.090E-H9 0.440E-09 2.460E-09 1.91HE-H9 7.24BE-10 7.93ME-lif 3. 4 79E-lu 2. 82!rE-!#
4 12D7.00 3.500E-09 5.62HE-09 1.520E-09 2.H70E-D9 5.7UHE-10 4.9 HUE-18 2.649E-lu 3.04CE-l#
5 1609.40 2.37DE-U9 4.920E-09 1. D 41f E-89 1.66DE-09 4.339E-ID 3.3bOE-lu 2.15#E-If' 2.92nE-lu 6
2414.DU l.2UDE-89 2.49BE-09 5.390E-lu 8.94BE-lu 2.SSUE-18 1.066E-lu 1.42BE-lu 2.159E-16 7
3210.7D
- 0. H 7DE - 115 1.570E-09 3.370E-lu ti.67HE-10 1.718E-ID 1.220E-lu 9.049E-11 1.559E-10 0
4023.40 5.94EE-10 1.!DDE-09 2.3dHE-Id 3.900E-lo 1.21BE-10 0.62EE-11 7.220E-11 1.17#E-lu 9
4020.18 4.llDE-10 7.930E-ID 1.6GUE-1H 2.029E-19 0.94BE-Il G.389E-!! 5.469E-11 9.DD9E-Il 10 5632.7D 3.DDDE-10 6.030E-13 1.2GDE-1B 2.13UE-ID 6.07DE-Il 4.04SE-11 4.320E-!! 7.19BE-11 11 6437.40 2.44DE-ID 4.76HE-10 9.090E-Il I.67FE-18 5.4SHE-Il 3.064E-Il 3.520E-Il 5.9H9E-11 12 7242.10 1.900E-lu 3.040E-III 7.90nE-Il 1.32ME-lu 4.49EE-Il 3.17UE-Il 2.959E-Il 4.919E-Il 13 0046.00 1.678E-lu 3 IU0E-lu 6.590E-Il 1.lHME-lH 3.71BE-11 2.679E-Il 2.60VE-Il 4. 2 4.1E - 1 1 14 12D70.10 1.fi30E-10 1.72HE-1H 3.17DE-11 5.2390-11 2.U3HE-11 1.33nE-II 1.39:1E-Il 2.179E-II, 15 16093.49 1.500E-IH 1.12HE-10 1.91HE-Il 3.12E0-11 1.71&E-!! 8.luvE-12 7.H29E-12 S.91SE-11 16 24140.29 6.22ME-Il-4.9HnE-!! 9.65DE-12 1.51HE-Il 0.99hE-12 4.220E-12 3. ;951E-12 3. lS'JE-I l 17 32107.00 3.12HE-!! 2.7 SUE-Il 6.330E-12 9.U70E-12 S.SisWE-12 2.73HE-12 2.S6UE-12 1.115!> E - 1 1 Y
10 4#233.79
- 1. H 71J E - I l 1.77DE-Il 4.819E-12 9.29nE-12 3.09BE-12 6.77sE-12 2.2SEE-12 1.21HE-Il 19 40200.40 1.26DE-Il 1.2SOE-Il 3.97DE-12 6.428E-12 2.928:#E-12 2.66UE-12 3.7USE-l? 0.629E-12 7
2D fig 327.29 9.07pC-12 9.23nE-12 4.54HE-12 4.690E-12 1.96FE-12 1.99UE-12 2.039E-12 6.41ME-12 e
21 64173.99 6.u2HE-12 7.110E-12 3.04dE-12 3.57DE-12 1.409E-12 1.540E-12 2.199E-12 4.939E-12 22 72420.75 5.361+C-12 5.7 HUE-12 3.240E-12 2.599E-12 1.190E-12 1.24HE-12 1.779E-12 3.91?;E-12 23 08467.44 4.290E-12 4.64HE-12 2.778E-12 2.lluE-12 9.700E-13 1.82HE-12 1.459E-12 3.159E-12 e
w RECPTR DOWNWlHD UEIGHTED AVERACES D/O NO.
DISTANCE N - (9) Nile -(18)
HE -(l1) ENE -(12)
E-(13) ESE -(14)
HE TEtts 100.0 21J2. 5 225.0 247.5 270.0 292.5 315.0 337.5 1
201.20 3.33DE-Iff 2. 3 7 DE -fl9 1.450E-09 1.45DE-99 3.149E-99 7.359E-99 4.029E-09 2.37DE-09 2
482.36 U.H9DE-lu 5.UUUE-09 3.07HE-09 3.1"'HE-D9 6. 63BE-09 1.SSDE-UU l.#E9E-Du 6.73nE-09 3
004.70 ti. 6 49 E - l ff 3.20nE-09 2.HGUE-09 2.n UE-D9 4. fig U E-99 1.BSOE-nu 6.9#UE-U9 6. 2 u:JE-09 4
1297.80 4. UGBE - lil 1.97DE-D9 1.33HE-09 1.23DE-49 3.17BE-D9 6.U7DE-09 4. 4110 E -D 9 4.H39E-09 5
1609.40 3.190E-10 1.349E-H9 9.620E-lu U.47DE-lH 2.430E-09 5.93DE-D9 3.2tiUE-99 2.679E-09 G
2414.D0 2.DSUE-ID 7.!i90E-10 5.789E-lo 4.11590-10 1.538E-89 3.US9E-il9
- 1. 9 tiU E -H 9 1.419E-09 7
3210.7H 1.4tDE-lH 4.920E-In 3.US9E-10 3.16HE-lu 1.04ME-H9 2.17590-H9 1.3H9E-09 U.93tE-la U
AU23.4U l.03DE-10 3.4SHE-lu.'.75HE-ID 2.22HE-lu 7.SGUE-ID 1.47HE-09 9.32sE-!H 6.179E-10 9
/320.In 7.71UE-Il 2. Side-lfi ?.U40E-ID 1.62DE-lO S.6 CUE-lu 1.090E-09 6.U9?>C-lu 4.478E-10 10 b632.7H 6.H70E-Il 1.440E-lU l.59nE-lii 1.2huf-lu 4.4SOE-ID 0.SthE-Ist S.37UE-lu 3.410E-ID 11 6437.4H 4.94DE-Il 1.SGHE-lu 1.29HE-lu 1.UlHE-lu 3.618E-10 6.u9nE-lu 4.3S9E-10 2.69fE-10 j
12 7242.lu 4.140E-Il 1.3tHE-lu 1.HHUE-lu 8.4990-11 3.#39E-ID 5.70UE-IH 3.649E-10 2.179E-10 13 UUiG.0H 3.53nt-11 1.129E-In 9.2 HUE-Il 7.240E-Il
- 2. fiU VE - 10 4.92H1-1H 3.Ilh)E-13 1.09FE-la 14 12H70.1H 1.u2DE-Il S.7SOE-Il 4.75HE-Il 3.7301:-11 1.339E-lu.*.54HE-IH 1.696E-10 0.759E-Il 15 16993.49 1.120E-Il
- 3. !i?HE -I l 2.930E-Il 2.3tHE-11 H.196E-11 1.S /ME-lu 9.pti9E-11 5.169E-Il 16 T1140.29 S. 62nl: ~ l ? 1.070E-Il 1.UHHE-Il 1.21HE-11 4.14HE-11 H.HHME-Il S.HSUE-Il 2.64SE-11 17 M 13 7.His 3.S4HE-l? 1. MDE-I l
- 9. 72HC-12 7.9001 -12 ?.6391:-11 U.1553 E - 1 1 3.169E-11 1.744-11 d
l l1 H233.79 P. 4 SHE-12 f t. hiUE-l ? 6. h?HE-l ? S.6%t -12 1.7%E-Il 3.b700-Il
- 2. Pf L 'E-11
- 1. 3siJ E - I l 19 3:!UH. h 1.7%C-l? 6.CHE-12 S.049E-t ? A.1711 -1; 1.399E-11 2.61H1-11 1.6290-11 1.F6X-11 2H 00327.:9 I.. ~/ H E - 1 ;: S. !::nE-12
- 1. H79C-12 3..!! pE-I P 9. t.S! T - l ? 1.4990-11 I.2600-1I U.9lnE-12 21 64373.91 t.12HC-l;: A.H/nE-l? 3.H69E-l?. 54?>E-12 7.7tWE-12 1.5601.-11 l.Cl!H:-ll 7.66FC-l?
- M24.75
,.ruC-IP 3. PiHE-12 2.SHDE-l?.'. Hu oT - 1 ;: 6.2H96-12 1.27?4-11 U.339E-l? 6.6v T-t?
23 00467.44 2.2HuC-12.*./UUC-12 2.070E-12 1.72dE-12 S.190E-12
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DEPOSITION FACTOR - HAIN STACK - APR - JUN 1900 RECPTR DOWNWIND UElGHTED AVERACES D/O NO.
DISTANCE S - (1) SSU - (2)
SU - (3) USM - (4)
W- ( S ) WNW - (G) %I - (7) NNW - (8)
HETERS D.D 22.5 45.0 67.5 90.8 112.5 135.8 157.5 1
201.2D 3.31DE-09 4.lSUE-09 1.690E-H9 7.4CHE-In 1.449E-D9 1.87BE-If9 2.399E-09 7.17DE-10 2
402.30 1.StiUE-Du 1.0 40E-Uli S.21nE-U9 2.199E-99 4. SIDE-B9 3.87!JE-09 5.UdnE-09 1.52ME-09 3
Uu4.7#
7.76f>E-89 0.!i4DE-09 3.UOME-09 1.44BE-09 2.74DC-D9 2.2490-99 3.414E-09 1.#79E-D9 4
12n7.UU 3.93HE-09 S.H90E-D9 2.4 HUE-09 1.14HE-H9 1. H 4 'J E - 0 9 1.760E-09 2.324E-U9 H.#1DE-lu 5
1609.4U 2.52BE-09 3.S7UE-09 1.7SHE-09 0.630E-15 1.32ME-09 1. 3 0ff E -D9 1.75'fE-D9 6.433E-13 6
2414 i10 1.340E-09 1.709E-09 9.33HE-10 4.73HE-18 7.52ME-10 B.46UE-lO 1.#UME-89 4.219E-10 S210.70 1.090E-09 1.130E-09 S. 930E-1H 3.H78E-l u S.Du!>E-lu S. 7U6E-10 7. 3S'JE-ID 2. 918E-18 8
4023.40 0.900E-lO 7.95HE-lu 4.luME-la 2.! SUE-10 3.569E-lu 4.18UE-lH S.31HE-l# 2.139E-lu 9
4020.1D S.000E-lu S.696E-18 2.93nE-lH 1. 5790-lH 2. 62ME-18 3. I n nE-18 3.96!!E-liJ 1.619E-10 IU tiG 32. 70 4.350E-IH 4.32DE-lif 2.27nE-!U l.2#UE-ID 2.H29E-18 2.4113E-1B 3.110E-18 1.279E-lu 11 G437.40 3.46HE-l# 3.41HE-lU 1.799C-10 9.47UE-Il 1.01BE-10 1.93HE-18 2.52HE-10 1. 84!)E - 10 12 7242.10 2.H49E-lu 2.760E-10 1.44DE-lu 7.6600-11 1.319C-10 1.57HE-lu 2.llHE-In U.699E-Il 13 11046.00 2.460E-Id 2.30DE-10 1.19dE-lu 6.3 SUE-Il 1.H9HE-18 1.329E-lu 1.UGUE-l# 7.464E-!!
14 1297#.13 3.24DE-lO 1. 400E-l u S. 79'JE-I l 3.129E-11 S.93NE-Il 6.599E-Il 9.32HE-Il 3. U 2f> E - I l 15 16093.49 3.77hE-lO 1.nlHE-lu 3.Sint-il 1.966E-11 4.83PE-11 4.64UE-11 S.61DE-Il 1.319E
- 6 16 21140.29 1.430E-lif 4.3H4E-Il 1. 7 681C - I l 9.59hE-12 2.04rt-il 2. U!4]E -I l 2.H39E-11 6.85FE-In 17 32107.UU 6.UGUE-11 2.36HE-Il 1.1213E - I l 6.26HE-12 1.91FE-!! 1.2U9E-l! 1.78ME-Il 3.97#E-Il g
IU 4H233.79 3.979E-11 1.SOUE-11 0.USUE-12 1. 6!LJE - I l 1.4SvE-Il 1.42HE-11 1.369E-Il 2.S99E-Il m
19 4 H2116. 4 0 2.610E-11 1.uGUE-Il G.34HC-12 1.#7hE-11 1.13YE-Il 8.21EE-12 1.36FE-Il 1.U3uE-Il 2#
56327.29 1.l40E-Il 7 HDfE-12 6. 74iHC-12 7.S9hE-12 7.14 9E-12 6.139E-12 1.#19E-Il 1.369E-fl m
21 64373.99 1.36DE-11 6.H3ME-12 S.079E 12 S.6S!>E-12 S.47DE-12 4.7bOE-12 7.049E-12 1.H4CE-Il p
22 72426.75 1.UGUE-Il
23 Uu4G7.44 0.4UUE-12 3.92nE-12 4.44UE-12 2.ll2ME-12 3.GIME-12 3.140E-12 S.199E-12 G.67ME-12 N
i REEPTR DOUHWIND UCIGHTED AVERAGES D/O NO.
DIGIANCE N- (9) NNE -(10)
HE
-( ! ! ) ENE -(12)
E-(13) ESE -(l4)
IlETERS 108.D 202.5 225.D 247.5 278.0 292.5 315.0 337.5 1
201.211 1.690E-13 1.950E-09 1.02DE-09 7.178E-lu 1.130E-99 2.258E-D9 1.339E-09 1.139E-09 2
402.30 1.3 HUE-12 4.llDE-D9 2.16uE-09 1.St#E-D9 2.3 HUE-U9 4. 7 SDE -II9 2.01DE-09 3.2nDE-09 3
004.70 2.664E-Il 2.0U4E-D9 1.52UE-09 1.04HE-#9 1.SHUE-09 3.120E-D9 1.000E-09 3.!'69E-09 4
1207.UH 6.66HE-11 1.99HE-H9 1.1#HE-09 7. llWE-lH 9.99BE-18 1.9FFE-09 1.24ME-H9 2.HIFE-99 S
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- 1. 3 S!>E -0 9 6
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7 3210.7H 4.64HE-11 S.9/nE-In 3.UUUE-lu 2.334E-lu 2.77BE-lU 4.U4SE-lu 3.369E-In 4.GGUE-lo 0
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4U20.lu
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2..* 41]E - 1 1 2.S2HE-lH 1.GUHE-lu 9.9300-11 1.13 FJ E-l H 1.92HE-lu 1.37HE-lp 1.740E-ID 11 6437.40 1.U4HE-Il 2.d4HE-ID 1.37HL-l# U.U6HE-fi 9.129E-11
- 1. !iSH E - l H 1.llHE-In 1.370E-10 i
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14 12H70.id 6.77HE-l? 7.S4HE-Il S.#4HE-Il 2.97UE-Il 3.3700-11 S.7190-11 4.#/SE-Il 4.479E-11 15 16093.49 4.IIHE-12 4.64HE-Il 3.luhE-Il 1.03ML-il 2.800E-11 3.S4HE-Il 2.S2HE-Il 2.669E-Il 16 24146.29
- 1. 9 '/ H C - 12 ?.3G4E-Il 1.SSUE-Il 9.2SHE-12 1.07FE-Il 1.HSUE-Il 1.m!9E-Il 1.429E-Il 17 3':107.00 1.17U0 - 1 ;
- 1. M 00 - I l 9.7HHE-12 S.UHDE-!? 6.99NE-12 1.2240-11 H.219E-12 1.H10E-Il 10 4H233.79 7.71HE-13 1.9%HE-Il 6.7#HE-12 4.HHHL-l? 4.86UE-12 U.619E-12 S tE/ut-l ? 0. ti7HE-12 1
19 4H230.40 S.4HHC-13 7./!9E-l?.l.9.;HL-l ? 2. 9hni'- I P 3. 5091: ~ 12 6.1001:-12 4.H!!JE-l ? H.H 19E-12 20 Sh3c/.29 4.999C-13 S.9udE-12.l.764E-12 2.2S40-12 2. 76!T-12 4.9 t!+1 -12 3. 6P:!E-12 7.1ME-12
.21 6iJ/3.49 S.H7HE-13 4. 6691 - 12.'. 969 E- ! ? 1. 7 7!'l.- l
- 2.21FE-12 1.huol-12 3.14HE-82 6.7:00-12 7
7P42H.75 3.660E -12 3. /q:f E-l? 2. lone-12 1. 4 3Fl:- 12 1.019E-12 :.17:4E-12 ?.749E-12 6.H ME-l?
23 04467.44 3.46bE-12 3.6?nE-12 1.9/nE-12 1.lUUL-12
- 1. G l HL-12 2. 6 2Hl:- 12 2.439E-12 S.469C-12
I TABLE 4.1-13 SPECIAL PARAMETERS USED IN FIMITE CLOUD MODEL Stack Height 100 meters (above grade)
Shielding Factor 0.7 Depth for total Body Dose 5 cm.
Human Tissue Density 1 gm./cm.3 I
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Table 4. 2-1 i
Haximum Inillvlilual locations anil l'athways January - June 1980 l'a tliwa y 0.6 miles 0.7 miles 2.2 miles 2.') miles ES E W
W S
tioble Gas Yes Yes Yes yes Inuners ion Inhalatton Yes Yes Yes Yts Fruit t.
Yes yes yes yp3 Vegetable Garden Cows Hilk No tai Yes No j$
Goats Hilk No No No No l.
Yes indicates that the giathway in analyzeil.
No indicates that it is nos conuietered.
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65 I
Table 4.2-6 January-June 1980 Caseous Release Maximum Individual Doses 0.6 Miles ESE Ilone 1.tver Thyroid Kidney Lung CI-1.LI Skin Total Body
)
Age Group (HRDQ (HRIH)
(HRDI)
(tlRDI)
(HRDI)
(HRDI)
(HRDI)
(HRD1)
Adult 4 0.01 Z0.01 0.02
<.0.01 4 0.01 4 0.01 0.02 0.02 Teenager Z0.01 40.01 0.02
< 0.01 4 0.01 40.01 0.03 0,02 Ch11d 40.01 40.01 0.02 40.01 4 0.01 4 0.01 0.02 0.02 Infant 40.01 40.01 4 0.01 40.01 4 0.01 g 0.01 0.02 0.02 Note -- (1) Organ Doses are based on radioiodine and particulates only, i
(2) Total body doses are from all isotopes (3) Skin doses are from noble gases only i
j' 1
,1 1lI l
8 m
5 5
.5 6
5 4
05 2
2 0
0
'O 0
0 0
G 0
0 50 e
I 4
1 1
i 1
6 42 E
E E
E E
E E
E E
m 4
0 0
4 7
7 5
l 5
1 2
6 4
9 5
0 0
2 1
1 7
7 2
7 3
3 1
1 4
3 O
O O
0 0
0
)(
00 3
2 i
4 5
5 5
4 3
4 3
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n 0
0 0
0 0
0 0
0 57 e
4 e
1 1
t 4
1 l
l 1
32 E
E 0
E E
E E
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E 1
3 9
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7 7
3 9
6 9
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m 9
0 8
0 6
1 3
1 1
1 7
1 5
5 2
9 9
1 1
8 3
D O
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3 1
3 0
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4 5
4 4
5 5
4 3
3 4
4 4
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0 0
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53 4
1 1
1 4
l t
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2 l
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c 1
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3 3
1 3
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O O
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2 t
a n
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l u
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s 57 2
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7 o
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0 0
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D 32 t
+
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6 6
2 b
6 8
7 5
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t l.
4 2
/
6 1
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1 O
O O
O O
O O
D O
0 7
M 54 2
1 2
2 2
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0 0
9 2
9 ll 0
/
t.
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4 7
3 5
M 3
9 1
7 3
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O O
O O
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9 7
)(
50 2
1 1
2 2
1 2
7 0
0 0
O 0
0 O
M 1
i 4
1 i
0 1 4 8
s E
E E
E E
E i
1 4
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9 0
1
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4 8
6 9
6 3
7 t
7 5
5 1
2 4
0
)
O O
O O
O O
1
(
t M
0 0
0 2
0 1
l
/
57 0
0 l
0 0
0 0
0 l
i i
1 8
l 1
4 1
l 1
s t
4 E
E E
E E
E E
'1 E
0 0
0 0
0 0
4 0
1 0
8 M
0 4
0 0
0 4
0 1
f 8
1 1
lf 8
1 1
0 0
0 H
0 0
D 5
I t
M loT i
i i
J l
E E
1 E
S t
t t
1 E
C S
s J
i l
l li E
t l
i 1
3 E
S S
S i
1 i
i t
1 L
1 l
t N
F E
1 S
S l
i S
M I
i' ;
l i
I I
Table 4.3-2 Population Doses Via Major Pathways Resulting from l
Gaseous Effluents during January-June 1980 I
Thyroid Total Body Pathway (MAN-PS O (MAN-RDO Noble Gas Imersion 0.24 0.24 (Gama) j Ground Plane 0.04 0.04 Deposition Inhalation 0.04 0.005 I
I I
I I.
I l
I I
I-68 I
I.
I 5.
OFF-SITE DOSES FROM DIRECT RADIATION Doses due to direct radiation as measured by thermoluminescent dosimeter for the period January-June,1980 were as follows.
Average Desc Rate uR/ hour Exclusion Area (0.25-0.68 }iles from the Plant) 16.3 I
Distant Neighborhood (0.7-6.5 Miles from the Plant) 14.2 Background.(8-23 liles from the Plant) 16.7 l
These measured values indicate a small but measurable dose contribution due to direct radiation at locations near the Pilgrim Station
- I
,;I l
I I
i i
2 I
I
- Including natural background radiation 69
\\
,g-:
4 REFERENCES I
1.
" Pilgrim Station Unit 1 Appendix I Evaluation" Submitted in Accordance with 10CFR 50 Appendix I, April 1977.
}i 2.
Pilgrim Station Environmental Report, Amendment 4 April 1975 pg. 2-329/330.
4 i
s i
4 4!I
!,I lI l
i l
1
!I 70