Effluent & Waste Disposal Semiannual Rept,Jul-Dec 1981

ML093451356
Person / Time
Site:	Indian Point
Issue date:	03/12/1982
From:	Power Authority of the State of New York
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affluent and Waste Disposal Semi-Annual Report July 1 -

December 31, 1981 Facility Indian Point 3 Licensee Power Authority of the State of New York This information is provided in accordance with the requirements of Regulatory Guide 1.21. The numbered sections of this report reference corresponding sections of the subject Regulatory Guide, pages 1.21-10 to 12.

A.

Supplemental Information

1.

Regulatory Limits Indian Point Unit 3 is presently subject to limits on radioactive waste releases that are set forth in sections 2.4 and 3.4 of Appendix B to Docket

1. 50-286 entitled "Environmental Technical Specification Requirements for Once-Through Cooling" (T.S.). The percentages of technical specification limits reported in Table IA are the percent of one half of the quarterly limits specified in the ETSR.

2.

Maximum Permissible Concentrations

a.

Fission and Activation Gases The quarterly limits for those specifications stated in the ETSR have been used to calculate the percent of technical specification limit.

The K, L, M, N values for vent release points are based on the isotopic concentrations reported in Table 1C and on the individual isotopic K, L, M, N values in Table 2.4-5 of the ETSR. The percent of permissible discharges reported for IP-3 are based on assuming that IP-3 can use only 50% of the T.S. limits measured in Curies/ second and detailed in Memorandum of Understanding between PASNY and Con Edison.

b&c. lodines & Pariculates The quarterly limits for iodine-131 and particulates with half-lives greater than 8 days in section 2.4.2.b.3 of the ETSR have been used as the maximum permissible concentration for the purpose of calculating the percent of technical specification limit. Again only one half of the permissible limit is used for IP-3 as stated in 2(a) above.

8205 7'04

d.

Liquid Effluents All liquid discharges from Indian Point are made through a common discharge canal with a minimum of 100,000 gpm dilution water. The isotopic content, excluding tritium and dissolved noble gas, of continuous and batch mode discharges from the site for the third and fourth calendar quarters have been added and a weighted average fraction of MPC has been calculated for this isotopic mixture as described in 10 CFR 20.

The percent of applicable limit reported is the percent of MPC concentration of the time averaged diluted concentration for the calendar quarter.

The tritium limit has been established in the same manner as the other isotopes in liquid effluents.

Since there is no limit stated for dissolved nobli gases in 10 CFR 20, we have established a limit of 2.55 x 10 uCi/cc based on a dose calculation that has been provided to USNRC inspectors.

3.

Average Energy The average energy (E) of the radionuclide mixture in releases of fission and activation gases was as follows:

3rd Quarter:

E

= 1.58 E-1 MeV/dis E.

5.51 E-2 MeV/dis 4th Quarter:

Ea 1.96 E-I MeV/dis E=

Y 8.32 E-2 MeV/dis

4.

Measurements and Approximations of Total Radioactivity

a.

Fission and Activation Gases Analysis of effluent gases has been performed in compliance with the requirements of Table 2.4-2 of the ETSR. In the case of isolated tanks (batch release) the total activity discharged is based on an isotopic analysis of each batch and the volume of gas in the batch corrected to standard temperature and pressure.

Vapor containment purge and pressure relief discharges have been treated as batch releases. At least one complete isotopic concen tration analysis of containment air is performed per month and this is applied to a gross analysis of the ventilation air performed prior to each pressure relief. Isotopic analyses for each vapor containment purge are taken prior to and during the purge. This in formation is combined with the volume of air in each discharge to calculate the radionuclide composition of these discharges.

The continuous discharges are based on weekly samples of ventilation air for isotopic content. This information is combined with total air volume discharged and the process radiation monitor readings to determine the continuous discharges.

b&c lodines and Particulates Iodine-131 and particulate releases are quantified by collecting a continuous sample of ventilation air on a potassium-iodide impregnated activated charcoal cartridge and a glass-fiber filter paper. These samples are chang ed weekly as required in Table 2.4-2 of the ETSR and the concentration of isotopes found by analysis of these samples is combined with the volume of air discharged during the sampling period to calculate the amount of activity discharged.

For other iodine isotopes the ratio of each isotope to iodine-131 is determined for a monthly 24-hour sample.

These ratios are then used, along with the total monthly discharge of iodine-131, to calculate the amount of these other isotopes discharged in this monthly period.

d.

Liquid Effluents A proportional composite sample of each batch discharge is taken and an isotopic analysis is performed in com pliance with requirements specified in Table 2.4-1 of the ETSR. This isotopic concentration data is combined with information on volume discharged to determine the amount of each isotope discharged in this period.

.Samples of continuous discharges have been taken and analyzed in compliance with Table 2.4-1 of the ETSR.

This concentration data is combined with the volume discharged to calculate the total activity discharged.

5.

Batch Releases

a.

Liquid 0

1981 3rd Quarter 4th Quarter Number of Batch Releases Total Time Period Batch Releases Maximum to To I"

Average t"

Minimum to Average Stream Flow (cfs)

b.

Gaseous Number of Batch Releases Total Time Period Batch Releases Maximum Average Minimum (Min.)

If It 57 1.35 E+4 9.85 E+2 2.37 E+2 2.00 E+l 6790 39 3.81 E+4 min.

3.17 E+4 min.

9.77 E+2 min.

6.00 EQ min.

6.

Abnormal Releases

a.

Liquid None

b.

Gaseous None 64 1.55 E+4 1.07 E+3 2.42 E+2 2.00 E+l 15467 55 1.46 E+4 3.91 E+3 2.65 E+2 3.00 E+l

Indian Point 3 EFFLUENT AND WASTE DISPOSAL SEMI -

ANNUAL REPORT B.

GASEOUS EFFLUENTS THIRD AND FOURTH

QUARTERS, 1981

0 TABLE 1A 0

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT ( 1981 )

GASEOUS EFFLUENTS - SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Total Error,%

3rd 4th A. Fission & activation gases

1. Total release Ci 2.14 E+3 1.97 E+3 2.5 E+l

2. Average release rate for period uCi/sec 2.69 E+2 2.48 E+2

3. Percent of Technical soecification limit 7.20 EQ 8.75 EQ B. Iodines

1. Total iodine-131 Ci 3.03 E-4 9.38 E-4 2.5 E+l

2. Average release rate for period uCi/sec 3.81 E-5 1.18 E-4

3. Percent of technical specification limit 3.23 E-2 1.06-E-1 C. Particulates

1. Particulates with half-lives 8 days Ci 3.40 E-4 i.i E-3 2.5 E+l

2. Average release rate for period uCi/sec 4.28 E-5 1.40 E-4

3. Percent of technical specification limit 3.23 E-2 1.06 E-1

4. Gross alpha radioactivity Ci (1.11 E-7

<1.90 E-7 D. Tritium

1. Total release Ci

1. 11 EQ 8.08 E-I 2.5 E+l

2. Averaqe release rate for period uCi/sec

3. Percent of technical specification limit 1.40 E-1 1.02 E-1

0 TABLE 1C EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (

1981 GASEOUS EFFLUENTS-GROUND-LEVEL RELEASES CONTINUOUS MODE BATCH MODE 3rd 4th 3rd 4th iclides Released Unit Quarter Quarter Quarter Quarter Fission gases krypton-85 Ci E

2.78 E+2 1.42 EO 1.36 E-1 krypton-85m Ci 2.23 E+1 4.91 E+I 2.64 E-1 1.65 E krypton-87 Ci E

2.32 E-2

.1.64 E-2 1.22 E-1 krypton-88 Ci E

4.17 E-2 5.30 E-2 1.32 E) xenon-133 Ci 1.48 E+3 3.44 E+2 5.40 E+2 8.81 E+2 xenon-135 Ci 7.90 E+I 3.41 E+2 6.67 EQ 4.38 E+1 xenon-135m Ci E

4.32 E-2 E

9.03 E-3 xenon-138 Ci E

2.1 E-2 E

E Others (specify)

Ci E

E E

E xenon -

133m Ci E

1.66 E-2 4.97 E0 2.24 E +1 xenon -

131m Ci E

4.90 E-2 8.32 E0 4.37 E -1 Ci E

E E

E Ci E

E E

E Ci E

E E

E

.unidentified Ci E

E E

E Total for period Ci 1.58 E+3 1.01 E+3 5.62 E +2 9.51 E +2 lodines iodine-131 Ci 3.03 E-4 9.38 E-4 E

E iodine-133 Ci 0.00 E0 E

E E

iodine-135 Ci 0.00 EQ E

E E

Total for period Ci 3.03 E-4 9.38 E-4 E

E Particulates strontium-89 Ci 0.00 E E

E E

strontium-90 Ci 0.00 E E

E E

cesium-134 Ci 3.56 E-6 1.32 E-6 E

E cesium-137 Ci 9.69 E-6 1.04 E-5 E

E barium-lanthium-140 Ci E

1.90 E-6 E

E cobalt - 60 Ci E

2.82 E-5 E

E cobalt - 58 Ci 7.16 E-6 7.16 E-5 E

E iron - 55 Ci 3.97 E-6 5.53 E-5 E

E nickel.- 63 Ci E

2.68 E-6 E

E phosphorus - 32 Ci E

3.26 E-7 E

E cerium - 141 Ci 2.00 E-7 E

E E

cerium - 144 Ci 8.95 E-7 8.32 E-7 E

E tin - 113 Ci 1.13 E-7 E

E E

Barium - 133 Ci 1.17 E-6 4.69 E-7 E

E Chromium.-- 51 Ci 4.84 E-6 E

E E

Cadmium -

109 Ci 3.96 E-6 Cobalt -

57 Ci 1.91 E-7 7.79 E-7 Cerium -

139 Ci 7.77 E-7 2.44 E-7

.Strotium 85 Ci 2.37 E-7

,:zinc-b Ci 1.91 E-6

Indian Point.3 EFFLUENT AND WASTE DISPOSAL-SEMI

-ANNUAL REPORT C. LIQUID EFFLUENTS THIRD AND FOURTH

QUARTERS, 1981.

.TF LUENT AND WASTE DISPOSAL SEMIANNUAL REPORT ( 1981

)

LIQUID EFFLUEN S-SUMMATION OF ALL RELEASES Unit Quarter Quarter Est. Totalt

.3rd 4th Error, %

Fission and activation products

1. Total release (not including tritium, gases, alpha)

Ci

7. 66 E-1 1.09 E o 2.5-E+1

2. Average diluted concentrafion during period 2.Ci/m 2.44 E-9 6.*_6 [,9

3. Percent of applicable limit S. 50 E-3 3.64 E-2 Tritium

1. Total release Ci

1. 45 E-2 3.69

+2 2.5 E+1

2. Average diluted concentration during period 7Ci/ml 4.62 E-7 2.08 E-6

3. Percent of applicable limit j 1. 14 E-2 6.93 E-2 Dissolved and entrained gases

1. Total release Ci 4.67 E-1 1.07 E 0 2.5 E +]

2. Average diluted concentration du ring period

/1Ci/ml 1.42 E -9 r,.0 5 E-9

3. Percent of applicable limit 1 5.57 E -5

2. 37 E-4 Gross alpha radioactivity

1. Total release Ci 1<3.66 E-4! <2.86 E-31 2.5 5

+]

Volume of waste released (prior to dilution) liters 3

.67 F6 1. 97 E7, 1 0 E+l1 Volume of dilution water used during period liters 13.14 E+lld 1. 77 &

l1.0 E +1

.LDlj.IQ 41D EFFLUENT AN STE DISPOSAL SEMIANNUAL REPOR'1981)

LIQUID EFFLUENTS NUCLIDES RELEASED UNIT Strontium - 89 Strontium - 90 cesium -

134 cesium - 137 iodine -

131 cobalt -

58 cobalt - 60 iron - 59 zinc - 65 manganese - 54 chromium -

51 zirconium-niobium molybdenum - 99 technetium - 99m barium-lanthanum cerium -

141 sodium -

24 iron -

55 nickel -

63:

manganese -

56 antimonv -

122 antimony -

124 antimony -

125 silver -

110m niobium -

97 cadmium -

109 ruthenium -

103 phosphorus -

32 cerium -

144 cerium -

139 zirconium - 97 yttrium -

92 mercury - 203 rhodium -

106 cesium -

138 strontium -

92 strontium " 85 iodine -

133 tin -113 cobalt -

57 Todine -

132 ci ci ci ci ci ci ci ci ci

-95 ci ci ci

-140 ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci ci C).

ci ci ci ci BATCH MODE 3rd Quarter 4th Quarter cesium -

136 ci B

E 1.45 E-4 E

Yttrium -

91m ci E

1.54 E-3 8.81 E-6 2.92 E-6 Rubidium -

88 ci.....

E E

E 5.52 E-4 tungsten - 187 ci E

E 8.43 E-5 E

Neptunium -

239 ci E

3.09 E-4 E

E Iodine -

134 ci E

1.90 E-3 1.18 E-4 E

Iodine - 135 ci E

6.45 E-3 E

E Yttrium -

88 ci E

E E

3.07 E-5 Barium -

133 ci E

1.19 E-3 6.64 E-6 1.73 E-5 Unidentified ci E

0.00 E 0.00 E 0.00 F Total for Period (Above) ci E

4"7q E-I 7.66 E-I 6.16 E-1 Xenon - 133 ci B

i0 E-3 4,61 E-1 1.03 BO xenon -

135 ci E

2.04 E-3 6.72 E-2 3.49 E-2 CONTINUOUS MODE 3rd Ouarter 4th Quarter E

2.84 E-4 E

E E

B 1.18 E-3 E

2.69 E-3 E

9.34 E-3 E

2.81 E-1 E

7.44 E-2 E

4.61 E-3 E

E E

5.03 E-2 E

4.52 E-3 E

1.12 E-3 E

E E

1.20 E-4 E

E E

4.37 E-4 E

4.16 E-4 E

8.91 E-3 E

E E

8.20 E-4 E

1.49 E-4 E

8.00 E-4 E

3.23 E-3 E

E E

1.17 E-4 E

2.05 E-3 E

4.40 E-5 E

E E

1.54'E-4 E

1.01 E-4 E

5.59 E-5 E

7.22 E-4 E

1.96 E-4 E

7.28 E-4 E

5.29 E-4 E

7.88 E-4 E

5.68 E-5

" E 1.29 E-2 E

2.26 E-5

" E 7.78 E-4 E

4.26 E-3 5.15 E-5 4.33 E-4 3.11 E-2 6.04 E-2 2.93 E-3 3.90 E-1 6.41 E-2 2.50 E-3 5.18 -E-4 2.92 E-3 1.37 E-2 7.70 E-4 3.29 E-3 4.47 E-4 2.19 E-3 2.54 E-4 3.17 E-4 5.55 E-2 5.59 E-2 8.09 E-6 4.84 E-3 1.25 E-2 4.94 E-2 1.79 E-3 1.61 E-3 1.97 E-4 E

6.39 E-3 B

4.72 E-5 E

E 5.07 E-6 5.71 E-5 1.13 E-4 7.20 E-4 1.39 E-5 1.74 E-5 E

4.18 E-4 E

4.45 E-5 1.85 E-5 6.21 E-3 1.09 E-2 1.46 E-3 9.41 E-2 2.89 E-2 8.45 E-4 4.83 E-4 7.64 E-3 8.66 E-3 4.09 E-4 1.30 E-3 1.16 E-4 1.13 E-3 2.17 E*4 2.54 E-4 3.79 E-i 4.02 E-2 1.81 E-3 5.24 E-4 1.10 E-2 1.64 E-2 4.94 E-4 5.31 E-6 E

E 1.81 E-3 4.86 E-6 5.34 E-5 E

8.70 E-6 5.30 E-6 2.74 E-5 6.69 E-4 2.97 E-4 2.34 E-5 5.13 E-6 8.86 E-6 2.35 E-4 1.14 E-5

0 Indian Point 3 EFFLUENT AND WASTE DISPOSAL SEMI ANNUAL REPORT D. SOLID WASTE THIRD AND FOURTH

QUARTERS, 1981 I

b

TABLE 3 EFFLUENT AND W#E DISPOSAL SEMIANNUAL IW ORT (1981);

SOLID WASTE AND IRRADIATED FUEL SHIPMENTS July - December 1981 A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel)

1. Type of waste Unit 6-month Est. Total Period Error, %

a. Spent resins, filter sludges, evaporator n3

2.

9 8 E+l bottoms, etc.

Ci 1.34 E+! i. oo E+q

b. Dry compressible waste, contaminated e

9.81 E+l equip, etc.

Ci 4.74 E+o 1. oo E+2

c. Irradiated components, control

m.

E rods, etc.

Ci E

E

d. Other (describe)

E C1 E

2. Estimate of major nuclide composition (by type of waste) a.

4.21 E+I t..%J- -- l.J Co-60 2.44 E+I 1.17 E+l1 Cs-137 2.05 E+1 Mn-54 T

1.30 E+

E Co-58 3.21 E+I Co-60

=_._0__

i Cs-134 1.90 E0 Cs-137 7.70 E0 Mn-54 4.30 E-O Cr-51 3.00 &,0

3.

Solid Waste Disposition Number of Shipments 10 2

Mode of Transportation Truck Truck Destination Barnwell, South Carolina Richland, Washington B. IRRADIATED FUEL SHIPMENTS (Disposition)

Number of Shipments None Mode of Transportation Destination It

Indian Point 3 EFFLUENT AND WASTE DISPOSAL SEMI -

ANNUAL REPORT E.

RADIOLOGIAL IMPACT ON MAN THIRD AND FOURTH

QUARTERS, 1981

RADIOLOGICAL IMPACT EVALUATION Doses from noble gas immersion, inhalation, ground deposi tion, and vegetation ingestion were evaluated for the nearest residence likely to be occupied in the critical sector for each pathway and were combined to provide a conservative determination of the maximum individual offsite radiation dose from these pathways. Doses were also evaluated for an individual ingesting milk and meat from a cow located about 8.9 miles to the ESE. In all cases, these evaluations were performed using the models presented in Regulatory.Guide 1.109. Noble gas releases were considered to be either batch or continuous, while all iodine and particulate release were considered to be continuous. For the purpose of analysis, noble gas release from containment pressure reliefs and purges were treated as a continuous release, because of the large number of such releases. Other releases (e.g. gas decay tank releases) were considered as batch and were evaluated using actual meteorological condi tions existing during the release period. Continuous releases were evaluated using average-meteorological conditions based on the six month release period. Estimates of relative deposition per unit area were obtained from the numerical approximation presented in the NRC computer program XOQDOQ for ground releases. Values of atmospheric dispersion factors (X/Q) were computed using the Sagendorf straight line air flow model, assuming a ground leVel release, and the subroutine POLYN (from XOQDOQ) for computing standard deviations in the horizontal direction ( 6-Ty) and vertical direction ( G z).

Integrated doses for the population within 50 miles of Indian Point from gaseous effluents were computed based on linear interpolation of 1970 - 2010 population data con tained in the Indian Point Unit No. 3 FSAR.

Dose calculations for liquid pathways to individuals and populations are computed for a year. The LADTAP computer program that is utilized for these calculations incorporated the calculational model and parameters that are presented in Regulatory Guide 1.109.

The fish, invertebrate, algae, drinking, shoreline, swimming, and boating pathways are calculated for the adult, teenager, child, and infant. These calculations are performed for reasons such as estimating the population water consumption dose, the population recreation dose, and cost-benefit analysis.

0 0

NUREG-0017, "Calculation of Release of Radioactive Materials in Gaseous and Liquid effluents from Pressurized Water Reactors", assumes an annual release of 8.OCi/yr of Carbon-14.

Therefore, to be consistent with NUREG-0017, a release of 4.0 Curies of Carbon-14 was assumed for the six month period in addition to the radioactive materials measured in Indian Point gaseous effluents.

Indian Point Unit 3 RADIOLOGICAL IMPACT ON MAN (Reference Regulatory Guide 1.21, page 12)

A.

Maximum Individual Doses Pathways (Gaseous)

Noble Gas Immersion a) Batch Releases b) Continuous Releases Inhalation Ground Deposition Milk Ingestion*

Meat Ingestion***

Vegetable Ingestion***

Total Body (mr)

.011

.250 3.llxlO-3 2.53xi0- 2 3.75xi0-3 5.70xi0 - 4 1.40x10- 2 Skin (mr) 0.29

.681 N/A 2.95xi0 - 2 N/A N/A N/A Thyroid (mr)

N/A N/A N/A 5.61x10- 3

4. 44x10- 3 5.71xi0 - 4 1.93xi0 - 2 Bone (mr)

N/A N/A N/A 1.58xi0 - 2 1.79xi0- 2

2. 85xi0 - 3

7. 02xi0 - 2 Infants are critical age group Adults are critical age group Children are critical age group Pathways (Liquid)

All See Attached "LADTAP" printout Attachment I N/A = Not Applicable

B.

Population Doses Pathways (Gaseous)

Total Body (man-rem)

Thyroid (man-thyroid rem)

Noble Gas Immersion a)

Batch Release b)

Continuous Release Inhalation Ground Deposition Totals

.408 10.80

.190

.705 12.103 Pathways (Liquid)

See attached "rADTAP" printout Attachment I C.

Average Doses to Individuals

1. Liquid-Total Body 1.78x10- 4 mr

2. Gaseous-Total Body 6.30x10"4 mr N/A = Not Applicable N/A N/A

.291 N/A

.291 All

,.4 W

U AS LOW AS REASONABLY ACHIEVABLE w

AODU LT DOSES5

.~~ ~

~

.DOSE__(HREI PER YEAR-INTAKE

.PATHWAY SKIN BONE LIVER TOTAL BODY THYROID KIDNEY LUNG GI-LLI

• FISH 1.26E*00 2.88E-01 1.97E-01 3.23E-03 4.95E-02 3.45E-09

1.. E-01

_INVERTEBRATE..

7.45E-02 1.23E-01

.6-2 33EO ----.

7-0 ----

$.59E-2 ~17E 1 ALGAE 2.71E-06 2.50E-07 1.39E-07 3.74E-09 1.21E-08 1.4i2E-07 3.82E-07 DRINKING 1.03E-12 3.4i8E-12 3.05E-12 3.09E-12 t.62E-12 3.45E-12 3.E1 SHORELINE 2.M9-03 1.38E-03 2.38E-03 2.38E-03 2.38E-03 2.38E-03 2.38E-03 1.38E-03 HIIIG

0. 0

.130 473-5...4;71E-O5---- 4.:71E-05.......

71 5---*7 O

-^--4.71E"0O5

• BOATING 0.0 4.71E-05 4.71E-05 4.71E-05 4.71E-65 4.71E-05 4.713-05

..71E-05 TOTAL 2.793-03 1.3'iE*0O 4.14E-01 9.32E-01 6.04E-0 8.56E-02 1.239-01 3.20E-01 USAGE (KG/YR9HR/YRj-.----

DILUTION --------

TII1E(HR)--------.HO....

~

FACTORN02----------------...

FISH 21.0 5.0 95.00 S INVERTEBRATE S.0

5.0 25.00

• ALGAE.

0.0.

t" 5.0 25.00

-DRINKING w.....

0. 0--------- 0----1 00 SHORELINE

.50.0 1.0 1.00 SIMMIIING 50.0 5.0 1.0 BOATING 100.0 5.0 i.00.

.i T 9E A

P NffA a, E Rnnawo DOSE_(fREN PER YEAR INTAKE)____________________

PATHWAY SKIN DONE LIVER TPA OYTYODKIDNEY LUG61-L

-IH9 923 1 t.69E-01 1.193-127E-01, 5,29-02.

35395-i02 1.09E-01

'INVERTEBRATE 0.72E-02 9.40E-02 i.463-02 2.61E-04 1.04E-02 6.54E-02 1.313-01 ALGAE......

7 0

....5..-.....-

1636E-07 4.27E"09.....1.21-08

..-.44-7-----383 DRINKING 1.18E-12 3.13E-12 2.48E-2

~

6E1

.2-12 3.12E-12-.

2831 SHORELINE 3,'EQ

.9-3 3.19Em03 3.19-03

.3.19E-03 3.19E-03 3.199-03 3.193-03 SHIIIIG

,09.2305,

.43-5

.43-59.421-05.

9.42-05 9.42-05 9.42E-05 BOATING

0.

Q0......--4.714o-05.......

4,711-Q5

-4. 719-0 713

- 4.1-S..711-05' TOTAL

$.74E-03 1,09g*oo 3.673-01 2I.47-01 6.33E-03.

6.6792-02 1.04E-01 2.43E-01 UlAGE IKO/YRoHR/YR0 DILUTION TIJIE(HR)

SOREIITH FACTORag.8 INVERTEBRATE 3.6 5.0 25.00..

ALGAE 0.0 5.0 M5.0 DRI(IG0.0 500.0 112.00 SHIORE LINE..

67.0 1.06..-

-. 1.0 SWItIMING 100.0 5.0 1.00 BOATING 5,o0d

..6 C H L,O O

.9 DOSE__INREI PER YEAR INTAKE)

.. PATHWAY....

SKI.....

BO......

E..

LIVER FISH 5.29E-01 2.08E-01 INVERTEBRATE 2.71E-02 4.34E-02 ALGAE 2.76E-03 2.923-04#

DRINKING__-

7 5.61E-09.

SHORELINE 7.82-04 6.67E-04 6.67E-04 SWIMMING 0.0 2.36E-OS 2.363-05 BO0ATING

.0.0 4.713-05 4.71E-OS

--- TOTAL...........

2.53E- 01.

.TOTAL BODY THYROID.

..... KIDNEY................

LUNG.

GI-LLI 4.80E-02 2.77E-03 Z.ZOE-02 2.47E-02

'..67E-02 1.15E-02 2-.65E-04 4..65E-03 2.94E-02

.5.82E-02 1.39E-04 1.01E-05 1.21E-05 1.47E-04

-3.78E-04 4.39E-09.,........50.48E-09.:....

2.62E-09

-,4.96E.

...... 4,53E-09 6.67E-04 6.67E-04 6.67E-04 6.67E-04 6.67E-04

.2.36E-05 2.36E-05 2.36flL05 2.36E-05 Z2.36E-05 4.71E-05 4..71E-09.

.130 4.71E-05 4.71E-05

-. 6.04E-02..

3,78E-03 5.0E-2.

1.06E-01 I.

USAGE (KG/YRjHy YR OIL TION JI 11iHR)

SHORENIOTH FACTOR=D.t ALGAE

.0.0 5.0 25.00 DRINKING.

0.0 0.0- -- - 11.0 SH1ORELINE 14.04 5.0 1.00 SHIIIi 5.0 5.0 1.00 BOATING 100.0 5.0 1.00

~

~

I NF A NT DOS ES3

____________________________________DOSE_tREfi PER YEAR INTAKE)____________________

PATHWAY SKIN BONE LIVER TOTAL BODY THYROID KIDNEY LUNG.S-L FISH 5.06E-02 3.t5E-02 3.31E-03 4.69E-01#

1.65E-03 3.90E-03 3.8-3 INVERTEBRATE

1.74E-03 2:74E-03

1.

714E-04 3 e#7I.-0

.74E-04 I 7E03 3.42E-03 DRINKING q

3.46E-12" 9.34E-12 6.47E-12 9.89E-12

'.2-27.7-26.39E-12 p SHORELINE 1.68

~

~

143E04.~1.43E-04...

.143E-04 1.43E-04 1.43E-04 1,43i 04 1443E:0O4 BOATING_............

0.0 2,6E-07 236 E -- iC.36 E-07--

$446E-07..---i 36E-0-'-.2 36E-07.:

TTL.1.68E-0.4 4,4-Z

~

5E0

.17E-03 6.47E-04 2.07E-0$

5.79E-03.:

.4E0 FISHSAG (Kr/YR HR/YR)

I DILUTION TIM1E(NR SH0AEMIDT" FACTOR"A0t INVERTEBRATE 0.1 5.0 25.00, ALC-AE 0.0 5.0250 DRINKING 0.9

506.d 1L12.00 SIMMIIING 0.0 5.0 1.006 BOATING 0.5 5010 L~~

~~~~

___=

SELECTED LOCATION

• U LOCATION IS DOWNSTREAM1

__________________________________DOSE_(REI PER YEAR INTAE___________________

PAT1114AY

...... SKIN---.

BONE

....... LIVER.--

TO..

TAL PODY....

..... THYROID KIDNEY L.

LUNG 61-LU FISH a.91E-o1 2.05E-01 1.40E-01 2.26E-03 4.96E-02 2.4.6E-02 l1.02E-01 INVERTEBRATE 5.28E-02 H.7-2

.3-02 2.32E-04 9.77E-03 6.13E-02 1.23E-01 ALGAE 1.91E-06 1.77E-07 9.869-08 2.61E-09 a.60E-09 1.02E-07

2. 70E-07 DRIIIK(ING E-1 49E-10.......218E-10-'---- 9.39E-10..-...

7E-10....250E-40....2.48E.

SHORELINE 2.O0E-03 1.70E-03 1.70E-03 1.70E-03 1.70E-03 1.70E-03 1:70E-03 1.70E-03 SWIMINlG 0.0 3.3-05

-3,33E-OS 3.33E-05 3.33E-05 3.33E-05 3.3-05.

3.33E-05 BOATING 0.0 3.33E-0.

3.33E-05 3.33E-0$_

3.33E-05 3.3-53.33E-05 31.33E-OS TOTAL..,

9-45E-01-------2.95E-01 1 65E01-' 4igoE-03'7 8

70 67E222EO USAGE (K9/YR*HR/YN)

DILUTION TII1E(HRI SHORENII2TH FACTOR0O.2 V FISH 21.0.

7.0 31.00 INVERTEBRATE.

5.0 DO:

.0-3DO ALGAE 0.0 7.0 31.00 DRINKING 0.0 7.0 19.00 SHOREIINE.----

50.0 7.0----

7.00----- ~

~.

BOATING 1007.0 7.00 LOCATION IS DOWNSTREAM POSE_(REM PER YEAR.INTAEI___________________

PAHA'SKIN 00ONE

LIVER, TOTAL BODY THYROID KIDNEY LUGG-4LI FISH 7.O1E-01 1.92E-01 0.47E-02 1.91E-03

.1.780-02

.2.52E-02 7.69E-02 INVERTEBRATE 44S5E-02, 6.71E-02 1.76E-02 1.83E-04 7.43E-03 4.47E-02::

9.33E-02 ALA 1,921-06 I-

• 183E-07.-

9.599-08.....-.....

2 198E-0 9 8 s

---O60E-0 9 103E -07:--

.69E-0 7....

DRINKING 8.49E-11 2.24E-16 1.77E-20 2.131-10 1.691-10

.2.23E-10 2.05E-10 SHORELINE t.676-03 9.2aE-63 2.28E-03 2,28E-03

'2,28E-03 2.26E-03 2.28E-03 2.28E-03 SIIIIIIIG

0.

6.67E-OS 6.67E-05 6.67E-05

,6.679-05 6610

.7-566E0 BOATING........

0.0 10 05 0

3,33E-05.....

33E-05----- 3.33E-05--

--l33E 3.33E TOTAL 2.67E-03

.7.44~E-01 2.61E-01 LOSE-0 4.eE0

.76E-0 7.42E-1.73E-0 USAGE (K6/YRIIR/TR)

DILUTION TIME(HR)

SHOREHIDTH FACTORaO.2 FISH

16. 0 -

7.0.. --...

31.00 -

INVERTEBRATE 3.8 7.0 31.00 ALGAE 0.0 7.0 31.00 DRINIKING 0.0 7..8 SHORELINE

.7.

7.0...

00.

5111IG7.0 7.00

-...LOCATION. IS. DOWNISTREAMI......

C HI LD DOS 3ES D...

OSE.

IIIREII PER -YEAR. IN4TAKE I._.__...._..._._.____..__________________..

PATHWAY SKIN BONE LIVER TOTAL BODY THYRO 0 KIDNEY LUNG0 G1-LLI FISH 3.75E-01.

1.49E-01 3.42E-09 1.94t% ~

1.63E-02 1.76E-02 3.30E-02

-,.INVERTEBRATE.....

9.9E1-0 2............

3.10E-02'....

1.86E-0 ~--$310---210-241E0..

v-!

Jl LGAE0.7031 0

s5I ItHING 25.0 7.0 7.0005--

s

' O A T I N G 1 0 0.0 7.0E

-0 7.0 00 9 1 1 q :,

E LOCATION_

DO N TR A

1.

7E 0 1

~

67E-0..5

- ~~3E O

33E-0 A.

.P E

DOSE_

PER YE R..................

3 0

1. E 0 3NETBRT

.97E-01 1.80E-01 4.30E-02 3.9-886E0

.93E-02 7.53E-02

~5NOREIHE 1.0E-04

.02E-0 1.02E04 1.0E-04 2.66E-03 2.02E-02 10E0410E0 USAGE IKG/YRsHR/YR)

DILUTION-

- TIME(HR)

SNOREWIOTH FACTOR0.2-'

6.9 -

0-57,0

31. 00- -- -- -....

INVERTEBRATE 0.1 7.0 31.00 ALGAE 0.0 7.0 31.00 D INKING

.~

0.0 70- --

1 00-.

ORELINE,3.0 7.0 79.00.

BOATING 087.0 7.00 IlIG0.0 7.0 7.00

.1 LOCATIO DOWNSTREAM

.11.........

00..............-YEAR-......

~ ~ ~.

1 2 E3 M

1 8E.

-0

- ~.

06.

UUUFISH COH5Ul1AT F4 POPULATION DOSES UU 4"A SPORTFZ8H. HARVEST_____....

-DOSE (hAN-REM I-------------------------

PATHWAY AGE GROUP USAGE BONE LIVER TOTAL BODY THYROID KIDNEY LUNG GI-LLI.

FISH....ADULT

-7.24E+4O'.2.37EGOO-6i5'.E-O1 4.49E-O1-5.09E-03 1.68E-O1 c.33E-02 --.fl-FISH TEENAGER 1.16E+04i 3.95E-01 1.30E-01 S.61E-02 8.80E-04~ 2.68E-02.1.79E-02 4b.29E-02 FISH CHILD

.7.00E+03 3.11E-O1 1.44E-01 3.16E-02 i.23E-03 1.62E-02 1.75E-02 2.S79-02 FISH TOTAL 4.10E#04 3.07E400 9.27E-01 5.36E-01 7.20E-03 2.11E-01 1.19E-01 3.40E-01 DILUTION CATCH TIIIE(HR)-INCLUDES FOOD PROCESSING TIME OF 1.68E+02 HR.

POPtJLATIOH:1.59EO0i 7.00E+00O 9.10E#04 1.68E402

...AVERAGE 1CIVIDUAL -COHSU1PTION(KU/YRI--AULU649OE.O...... TEE~m5.ZOE*O----CNIW8OE,9Oi..-............

V.~

~

~ ~

~ ~

,~

~

~

WWFISH CONSUM Tlff POPULAT1ON DOSES W

________COMMlERCIAL HARVEST_____

DOSE (IIAH-REI) ----- ---------------------

PATHWAY AGE GROUP USAGE BONE LIVER TOTAL BODY THYROID KIDNEY LUlIG GI-LLI FISH....ADULT 4.-

.74E#07 8.90E*00. £.70E+00 1.86Et00 -'178E-02 7.12E-01--3.54E-O1 -'.OeE+0OO-- --

~

FISH TEENAGER 1.40E+07 1.49E*00 5.39E-01 2.31E-01 3.03E-03 1.14.E-01 7.59E-02 1.61E-01 K FISH

CHILD, 8.'SE+06 1.1.O6.04.E-01 1.30E-01 4.20E-03 6.8SE-02 7.4i5E-02 9.66E-02 FISH TOTAL 1.10E+08 1.16E+01 3.85E+00 2.22E*00 9.50E-02 8.95E-01 5.04E-01 1.28E+00 DILUTIO CATCH TIHE(HR)-INCLUDES FOOD PROCESSING TIME Of 2.40E+02 HR OUAIH19E0 7.OOE+O0 1.55E+05 2.4OE402 AVERAGE INDIVIDUAL. CONSUMPTION (KG/YR)-..---ADULTr6&9OE4O0

---

TEEN.Bie0E,0O+---CHILDct22OE400.........

________EPA DOSES.

HTE--TOATL NEPA DOSE MIST INCLUOE IPOIRT CATCH DOSES BELOW ARE-FOR COtMMERCIALCA~TH:ONLY...........

DOSE (hIA-REII)----------------

PATHWAY-.

AGL GROUP.;:

USAGE-B.....

ONE LIVER --

TOTAL -BODY T HYROID....

KIDNEY:

LUII 10 GI-LLI --

FtSH ADULT 1.939+05

$4S69+00 1.085400 7.459-01 7.135-03 2.851-01.1.499-01 4.095-01*

FISH TEENAGER 1.97E+04 5.97E-01 2.16E-01 9.255-02 1.21E-03 4.56E-02 3.04E-02 6.451-09 FISH CHILD 1.19E*04 4.04E-01 2.42E-01 S.19E-02 1.68E-03 2.76E-02 2.98E-02 3.87E-02 FISH TOTAL.

5.

4 64E+00-1,.54E*0O-'8 89E-01 1'40E-02 3-59E-01--;2-151E0 S..-

~..

.7......

~~~.

. ~.

.... if INVERTEBRA kIOSU, PTION POPULATION DOSES i

SPORTFISH HARVEST__

."...........-DOSE

( AN-REH PATHWAY AGE GROUP USAGE.

BONE LIVER TOTAL BODY THYROID KIDNEY LUNG GI-LLI 7IIVER ADULT

... 7.94E*03.6.80E-02...

35E-O1..

55E-02.- 2.68E-04 -- I. SIE-02

9. 54E-02--1.89E-01.....:..............................

IIVER TEEIAGER 1.26E403 1.10E-02 2.16E-02 5.61E-03 4.23E-05 2.40E-03 1.52E-02 e.99E-02 INVER.

CHILD 7.9ttOZ 7.38E-03 1.40E-02 3.69E-03 5.90E-05 1.51E-03 9.60E-03 i.87E-O2 INVER TOTAL 1.00E404 8.64E-02 1.71E-01 4.48E-02 3.69E-04 1.90E-02 1.10E-01 2.37E-01

..DILUTION CATCH:

TItE(HRI-INCLUWES FOOD PROCESSING TINE OF 1.68E+02 HR POPULATIO4:zI.OEO0 7.OOE+00. OQE*@'b 1.6$E+02

-- AVERAGE INDIVIDUAL. ONsUtPTZOH..K/YR-.---ADULTm 1

+0.O TEEN?, 0- 01--01 LOOS, 301-01.-,- -...........

I...................................

I i

INVERTEBRA iEOSUMPTION POPULATION DOSES i COMMERCIAL HARVEST_________

---

POSE ItIAN-REf)------------

PATHWAY AGE GROUP USAGE BONE LIVER TOTAL BODY THYROID KIDNEY LUNG GI-LLI INVER ADULT 1.27E*07.4.30E-02 9.31E-02 -.2.44E -1.63E-04 l04E-O2 660E-02 1; 30E-01.........

1NVER TEENAGER 2.02E*06 6.92E-03 1.49E-02 3.85E-03 2.51E-05 1.65E-03 1.05E-02 2.05E-02 INVER CHILD 1.27E+06 4.69E-03 9.66E-03 2.53E-03 3.45E-05 1.04~E-03 6.64E-03 1.28E-02 '

INVER TOTAL 1.60E+07 5.46E-02 1.18E-01 3.08E-02 2.23E-04 1.31E-02 8.32E-02 1.63E-01 DILUTION CATCH TIME(HR)-INCLUDES FOOD PROCESSING TIME OF 2.40E*02 HR POPUL TION:1.92E*07 7.00E#00 1.00E*03 2.'40E*02I AVERAGE.

INDIVIDUAL! CONSUMPTION (KG/YR I.

ADULT=.OOE0.

TEEH 7,50E-01:-- -CHILD 3.3OE-01

______HEPA DOSES_ __

NOTE--TOATL EPA DOSE IJST.INCLDE.,SPORT CATCH,- DOSES BELOW -ARE FOR CO ERCAL CATCH ONLY DOSE (ttN-RD3----K-PATHWAY

..- AGE, GROUP BUSAGE ONE -..

LIVER --. TOTAL BODY -THYROID KIDNEY.............LUN-----GI-LLI.""

INVER ADULT 7.941*02 6.19E-04 1.34E-02 3.1-35E3 g.35-05 i.toE-03. 9.!2k-43 1.87E-02.

INVER TEENAGER 1.26E.02 9.981-04 2.151-03 3.55E-04 1.62-06 f.381-04 1.52-003 1.91...i.

1"0

".E

.eg INVER CHILD 7.941*01 6.769-04 1.39E-03 3.65E-04 4.98E-06 1.50E-04. 9.58E-04 1.83E-03 INE TTL--

... 1. 00E+103..78EO-..0-24450321 6~9-3:

1o10E....3-T E-A4 M............

IWIPOPULATION WATER CONSUM1PTIONI DOSES I*K

......-.-.----------------------------- DOSE (I1Ati-9EM)--------- ------------------------......~.....

-,5 PATHWAY AGE GROUP USAGE*

BONE LIVER TOTAL BODY THYROID KIDNEY LUNG G1-LLI DRINING TEENAGER

. ~'EO 4.23E-09 8.081-10 4.0'4E-10 5.1-12.01E-10 1;24E-lQ - 4iZE-10............................-----

DRNIG CHILD 5.20E+01 7.24E-09 2.01E-09 6.75E-10 1.59E 10 2.88E-10.3.33E-10 2.501-10 F) ~

I TOTAL 3.3+23.89E-08 7.53E-09 4.29E-09 7.1OE-10 4.'E0

.3E0 2E0 AVERAGE INDIVIDUAL CONSUMIPTION (1./R)

AOULT=3.70E*02 TEEH;2.60E*02 CHILD=2.68E402

---CUIIULTIVE TOTAL-r DRNKN CUIIUL TOTAL 3.33E402 3.89E-08 7.531-09 4.29E-09 7.10E-40 1.84E-09 1. 93E-09 1.28E-09 AGE..

GRUP.AG.-~

.OE--IE TOTAL BOD THYROI.

.INY---

LUN 01111~....

ADULT

.L

........ '. e -

3. i - 9.

E i.... -0

E :

L_

PTWY AGE GROUP USAGE.

BONE LIVER TOTAL BODY THYROID KIDNEY LIO

-LLI.

WATER TOTAL 8.909+00 -5.38E-63 5.38E-03 5.36E-03 5.38E-03 5.381-03 1.8-55.38E-03

.~~~~~~

~ ~

~

Jl,

iW N N

RECREATION POPULATION DOSES 0

N OSE(MAN-REM)

PATHWAY AGE GROUP USAGE SKIN TOTAL BODY THYROID SHORELINE TOTAL POPUL 1.66E+07 6.62E-01 5.65E-01 5.65E-01 L OCATION-DOWNSTREAM

~

L O..TI O N -

____________DOSE(IMAN-REN 3 PATHWAY AGE GROUP USAGE SKIM TOTAL bODY THlYROID SWItNIIG TOTAL POPUL, 1~E0 0.0 1.11E-02 lilik-62 0!UI

• 0 K rIA jr~U

.v~u L

A O

D N

R

.I t

ILiT..N.0PATHWAY TRANSIT TIllE8.4OE*01 HR LO. ATION.DOW T...

. TOTA.

PUL LOCATION-DOWNST DILUT IO 7E01 TRANSIT TIME=O...E.

HR_.

.'I T.T.

.............T........R..........

A.....

I k Nu N

N DOSE TO BIOTA N

V MIRADS PER YEAR

.......I ILUTION=

7.OOE*O0 TRANSIT TIME=

4.00E00 HR INTERNAL EXTERNAL TOTAL F I S H.

3.0 3 E

• O 0

-- 1.5 E 0 0........

4 i5 3 E 0 0..

INVERTEBRATE 2.38EO0 2.99E+00 5.37E00.

ALGAE 1.lE*01 5.86E-03 1.41E#01 h

hUSKRAT 2.42E401 9.96E-01 2.52E*01

.1.64E+00.

6E 1......

38E+O0.

HEROH 1.57E+01 9.95E-01 1.67E01

~

DUCK 2.39E+01 1.29E+OO t.54E+01 j

..i........................

S..

4...

. ~ -

COST-BENEFIT ANALYSIS *.

HUCLIDE I..H

-3 38SR 89 p

38SR 90 55CS 134 55SCS 137..

531 131 27C0 58 27C0 60 301 65 25111 54 24CR 51 40AZR 95 421,10 99

1) 43TC 9914 56BA 140 WA141.

1111IA 24 26FE 55 28141

63.

25t111 -56 515fl 124 5158 125 47AG 110"t 4OZR 97,_.

44RU 103 I5F 32 58CE 144 4..

4OZR 97..

39Y 92 55C8 130 27CO 6W 531S 136 53!S 136 37RB 88 531 133 39VY..... 91h4 37R 68 RELEAS Cl/YR 5.14E+02..

8.80E-04.

4.5EE-04 3.85E-02 7.39E-02 1.37E-b2 7.65E-01 1.67E-01

.7.96E- 03 I.OOE-03 I

5. 79E-02 I 2.69E-02 2.30E-03 I 4.59E-03I 6.63e-04I 3.329-43 1.08E-04.

9 87E-64 4:63E-01 9.62E-02

.2.64E-03 6.90E-02 0.28E-03 4.40E-65 8.20E-03 I, 59E-04 S. 55E-0B5 7.3iE-04 1.31t-03I 1.43t-01

_4.27E-031 1.45E-04 3.07E-05I 1.21E-03 5.52E-04

,MAN-REII TOTAL BODY I 71-

.75E-01 -.

3.65E-05 1.88E-03I 1.07E109 1,.26E+00 1.170-04I 4.73E-61

..00E-03 3,03E-02

e. 131E-05

.#4i5-07.

4. 77E-10 2.81E-05

.8.59E-02 1.2Z1-0s5 1.95E-03.

4.75E- 02 4.67E-01, 9.76E-06 3.15E-07I 6.551-07 1.201-0?

3.429-03

...2.37E-O5

3. 94E-04 I. 2SE-11 4.57E-06I 2.32E-07.

2.31E-10 DOSE THYROID 1.91E-08 1.03E-09 2.90E-02

.8.29E-02 Z.511-02 3.76E-02 3.93E-01 3.08SE-04 8.50E-05 9.06E-03 9.05E-05 1.06E-05 4.45E-07 1.419-06

~4.77E-10~

• 2.811-05 1.25E-07 0.0 I. RZE4-1.951-03 i.75E-02I 9.03E-04 9.76M-06 6.85E-07 2.20E-07 1.251-06,

• 3.151-07..

6.551-07 1.2at-07 3.371-03

2. 37E-05 4.81E-06 1.28E-11 5.87E-06 2.32E-07.,

2.31E-10 MAN-REM Pl TOTAL BODY 1.51SI-05 4.I51-02 8.58E*00 2.70E*01 1.71E+01..

8.55E-03 6.19E-02 2.391*00

1. 26E-01 1.99E+06 5.24E-01 7.91E-04

3. 354 2.42E-03 6.5RE-04 5.65E-04 5.26E-0?.

2.851-02 1.86E-01 8.02E-62 2.54E-01 3.96E-Ot 1.58E-02 0.03E-03 0.64E-63 8.96E-04 9.76E-00 9.391*00 9.56E-03.:

2.72E+00 4.18E-01

3. 78E-03 1.501-04...

4..18E-07

'R CURIE THYiROID 9.17t-05 2.28E-06 7.531-01 1.83E+00 4.91E-02 2.35E+00 a.s0t-02 1.56E-01 7.64E-04 3, 3SE-02

a. 32E-03 6,521-04 4.2SE-03 5.2E6107 2.651,02.

t.70E-07 0.0 4.64E-03 6.0it-00 1.539-01 3:96E-61 0 *64E-03 i.66E-702 2.681-05 1.88E-01 9..6491-03 8.96C-04 9.141-04 2135 + 00 0,56E-03 3.329-02 4.181-07 4.861-01 I. s0l-04..

4.181-07

.W TTL3.41E*09 6.099-01 T............

L..................................

..I........................

4,...

Indian Point 3 EFFLUENT AND WASTE DISPOSAL SEMI -

ANNUAL REPORT F.

METEOROLOGICAL DATA THIRD AND FOURTH

QUARTERS, 1981

HOURS *EACH WIND SPEED AND DIRECON a PERIOD OF RECORD:

STABILITY CLASS:

ELEVATION:

July.1 September 30, 1981 A

10 Meters Wind Wind Direction N

NNE NE ENE E E ESE SE SSE S

SSW SW WSW W

WNW NW NNW VARIABLE Total 4.7 24 44

7.

0 3

5

.1 21 22 17 18 18 18 21 234 238 Wind Speed (mph) at lOm Level 8-12 13-18 19-24 o

o o

1 0

0 0

0 0

2 01 0

o 0

0 0

0 0

0.

0 0

0 0

'0 0

0 0

0 0

0 0

0 0

0 0'

0 0

0 0

S0 0

0 0

O

1.

0

.0

>24 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

TOTAL 46 61

12.

12 6

2 5

10 55 75 52 30 37 23 22 33 0

481 Periods of calm (hours):

O.

Hours of missing data:,

Total hours of missing data for all stability classes this quarter = 9 a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20 1

TABLE4A HOURS*

EACH WIND SPEED AND DIREON a PERIOD OF RECORD:

July 1 September 30, 1981 STABILITY CLASS:

B ELEVATION:

10 Meters Wind Speed (mph) at 10m Level Wind Direction 1-3 4-7 8.12 13-18 19-24

>24 TOTAL N

4 4

0 0

0 0

8 NNE 6

7 0

0 0

0 13 NE 1

3 0

0 0

0 4

ENE 3

4 0

0 0

0 7

E 2

L 0

0 0

0 3

ESE 0

0 0

0 0

1.

SE 2

0 0

0 0

0 2

SSE 0

1 0

0 0

0 1

s 4

-2 0

0 0

0 6

SSW 7

1 0

0 0

0 8

SW 3

0 0

0 0

6 WSW 3

1 0

0 0

0 4

W 3

3 0

0 0

0 6

WNW 2

4 0

0 0

0 6

NW 3

4 1

0 0

0 8

NNW 4

--3 0

0 0

0 7

"VARIABLE Total 48-41 1

0 00 90 Periods of calm (hours):

0 Hours of missing data:.

aIn the table, record the total number of hours of each category of wind direction for each calendar -quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

HOURS~ EACH WIND SPEED AND DIRE"ON a PERIOD OF RECORD:

STABILITY CLASS:

ELEVATION:

July 1 September 30, 1981 C

10 Meters Wind Speed (mph) at 1Om Level Wind Direction 1-3 N

-0 NNE NE 3

ENE ESE 3

SE 0

SSE 2

S 3

SSW 8

SW I

WSW 5

W 4

WNW

4.

NW 0

NNW 1

VARIABLE Total

' 46 Periods of calm (hours):

Hours of missing data:

8-12

.0 0

0 0O 0

0 0

0 0

0 0

0, 0

13-18 0

0 0 0

0 0

0 0 0

0 0

0 0 0

0 0

3

.0.

19-24 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0

.0 a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

>24 0

0 0:

0 0

0 0

0

0.

0 0

0 0

0 0

TOTAL 4

7 6

12 3

3 0

3 3

i0 4,

9 6

7 2

TABLE4A HOURS*

EACH WIND SPEED AND DIRE*ON a PERIOD OF RECORD:

July 1 September 30, 1981 STABI LITY CLASS:

D ELEVATION:

10 Meters Wind Speed (mph) at 1Oin Level Wind Direction 1-3 7 8-12 13-18 19-24

>24 TOTAL N

10 0*

0 0

0 11 NNE 17 23 0

0 0

0 40 NE 32 20 0

0 0

0 52 ENE 39 9

0 0

0 0

48 E

27 7

0.

0 0

0 34 ESE 14 2

0 0

0 0

16 SE 14*

0 0

0 0

0 14 SSE 17 1

0 0

0 0

18 S

30 9

0 0

0 0

39 SSW 30 110 0

0 0

41 SW 18 U.

1 0

0 0

30 WSW 7

1 0

0 0

0 8

W 8

0 0

0 0

0 8

WNW 7

11 0

0 0

0 18 NW 4

12 2

0 0

0 18 NNW 9

15 2

0 0

0 26 VARIABLE Total 274 142 5

0 0

0 421 Periods of calm (hours): i Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

HOURS @EACH WIND SPEED AND.DIREON a PERIOD OF RECORD:

July 1 September 30, 1981 STABILITY CLASS:

E ELEVATION:.

10 Meters Wind Speed (mph) at 1Om Level Wind Direction N

NNE NE ENE E

ESE SE SSE S

SSW SW WSW 1-3 28 49 72 63, 48 27 33 36

71.

71.

35 18 8-12 0

0 0

0 0

0*

0 0

0 0

0 0

13-18 0

0 0

0 0

0 0

0 0

0 0

0.

19-24 0

0 0

0 0

0 0

0 0

0 0

0

>24

.0 0

0 0

0 0

0 0

0 0

0 0

W 21 WNW 18 NW 10 NNW 10 VARIABLE Total 610 Periods of calm (hours):

Hours of missing data:

6 21 11 10 0

0 0

0 214 0

824 a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.2 1-20.

TOTAL 56 78 102 70 5o 30 33 36 75 102 67 18

TABLE 4A HOURS *EACH WIND SPEED AND DIREC*N a, PERIOD OF RECORD:

July 1 September 30, 1981 STABILITY CLASS:

F ELEVATION:

10 Meters Wind Speed (mph) at lOre Level Wind Direction 1.3.

N

.8 NNE 15 NE 41 ENE 39 E

34 ESE 20 SE 13 SSE 13 S

16 SSW 14 SW 3

WSW 2'

W 4

WNW 3

NW 0

NNW 2

VARIABLE Total 227 Periods of calm (hours):

Hours of missing data:

8-12 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 13-18

,0 0

0 0

0 0

0 0

0 0

0 0

19-24

>24 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 TOTAL 8

16 53 54 34 20 13 13 16 14 3

2 0

0 0 0 255 a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20,

Wind Direction 1-3 N

2 NNE 2

NE 5

ENE 8

E 3

ESE1 SE:

SSE 1

S 0

SSW 0

SW 0

WSW 1

W 0

WNW 0

NW i

NNW 0

VARIABLE Total 25 Periods of calm (hours):

0 Hours of missing data:

8-12 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

13-18 0

0 0

02 0:'

0 0

0 0

0 0

0 0

0

-0 19-24 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0

>24 0

0 0

0 0

0 0

0 0

0 0

0 0

0 0

0 TOTAL 2

2 8

10 3

1 1

1 0

0 0

0 0

1 0

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20 TABLE 4A HOURS 0 EACH WIND SPEED AND DIRE(WN a PERIOD OF RECORD:

July 1 September 30, 1981 STABILITY CLASS:

G ELEVATION:

10 Meters Wind Speed (mph) at 1Om Level

TABLE 4A HOURS&

EACH WIND SPEED AND DIRE*ONa PERIOD OF RECORD:

October 1 December 31, 1981 STABILITY CLASS:

A ELEVATION:

10 Meters Wind Speed (mph) at 10m Level Wind Direction 1-3 4-7 8-12.

13-18 19-24

>24 TOTAL N

2 18 4

.0 0

0 24 NNE 3

14 2

0 0

0 19 NE.

0 5

1 0

0 0

6 ENE 0

1 0

0.

0 0

1 E

0 0

0 0

0 0

0 ESE 0

0 0

0 0

0 SE, 0

0 0

0 0

O 0

SSE-4-

1 0

0 0

5 S

13 1

0 0

0 0

14 SSW 5

7 0

0 0

0 12 SW 4

2.

0 0

0 0

6 WSW 2

2 0

0 0

0 4

W 0

4 0

0

-0 0

4 WNW 0

6 1

0 0

0 7

NW 0

14 5

1.

0 0

20 NNW 0

9-3 0

0 0

12 VARIABLE Total 33 84 16-0 0

.0 134 Periods of calm (hours):

0 Hours of missing data:

Total hours of missing data for all stability classes this quarter = '8 a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

TABLE 4A HOURS

• EACH WIND SPEED AND DIRE*IONa PERIOD OF RECORD:

October 1 -

December 31, 1981 STABILITY CLASS:

B ELEVATION:

10 Meters Wind Speed (mph) at 10m Level Wind Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

1.

4 4

0 0

0 9

NNE 1

10 9

1 0

0 21 NE 1

1 0

0

.0 0

2 ENE 1

0 0

0 0

0 1

E 0

0 0

0 0

0 0

ESE 0

0 0

0 0

0 0

SE 1

0 0

0 0

0 1

SSE 0

0 0

0 0

0 0

S 1

2 0

0

0.

0 3

SSW 0

1 0

0 0

0 1

SW 1

1 0

0 0

0 2

WSW 1

0 0

0 0

0 1

W 1

0 0

0 0

0 1

WNW 0

6 2

0 0

0 8

NW 0

5 4

0 0

0 9

NNW 0

2 4

0 0

6 VARIABLE Total 9

32 23 1

0 65 Periods of calm (hours):

0 Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

C.I

,iD LI HOURS *EACH WIND SPEED AND DIRE iON a PERIOD OF RECORD:

October I December 31, 1981 STABILITY CLASS:

C ELEVATION:.

10 Meters Wind Speed (mph) at 10m Level Wind Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

3 11 4

0 0

0 18 NNE 5

10 3

0 0

0 18 NE 1

2 0

0 0

0 3

ENE 2

2 0

0 0

0 4

E 2

1 0

0 0

0 3

ESE 0

0 0

0 0

0 0

SE 0

0 0

0 0

0 0

SSE 2

0 0

0 0

0 2

S 4

0 0

0 0

0 4

SSW 3

1 0

0 0

0 4

SW 10 0

0 0

0 1

WSW 3

0.

0 0

0 0

3 W

1 2

.2 0

0 0

5 WNW 2

5 0

0 0

0 7

NW 1

6 0

0 0

13 NNW 2

9 5

0 0

16 VARIABLE Total 32 49 20

.0 0

0 101 Periods of calm (hours):

0 Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

I A'D LE-G#M HOURS&

EACH WIND SPEED AND DIR*OION a PERIOD OF RECORD:

October 1 December 31, 1981 STABILITY CLASS:

D ELEVATION:

10 Meters Wind Speed (mph) at 1Om Level Wind Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

40 56 19 0

0 0

115 NNE 52 101 83 7

0 0

243 NE 45 63 22 0

0 0

130 ENE 28 7

0 0

0 0

35 E

24 2

.0 0

0 0

26 ESE 10 0

..0 0

0 0

10 SE 9

1

-0 0

0 0

10 SSE 10 1

0 0

0 0

11 S

12 2

-0

0.

0 01 14 SSW 10 13 0

0 0

0

.23 SW 9

8

-0 0

0 0

17 WSW 16 2

0 0

0 0

18 W

20 20 6

0 0

0

46.

WNW 19 75 13 0

0 0

107 NW 8

89 42 3

0 0

142 NNW 20 84 65

-.14 0

0 183 VARIABLE Total 332 524 250 24 0

0 1130 Periods of calm (hours):

3 Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

TABLE 4A HOURS*

EACH WIND SPEED AND DIREION a PERIOD OF RECORD:

October 1 December 31, 1981 STABI LITY CLASS:

E ELEVATION:

10 Meters Wind Speed (mph) at 10m Level Wind Direction 1-3 4.7 8-12 13-18 19-24

>24 TOTAL N

24 2

1 0

0 0

27 NNE 22 10 1

2 0

0 35 NE 77 22 0

0 0

0 99 ENE 77 9

0 0

0 0

86 E

57 0

0 0

0 0

57 ESE 25 0

0 0

0 0

25 SE 9

0 0

0 0

0 9

SSE 25 0

0 0

0 0

25 S

28 4

0 0

0 0

32 SSW 22 9

0 0

0 0

31 SW 22 6

0 0

0 0

28 WSW 7

1 1

0 0

0 9

W 14 2

0 0

0 0

16 WNW 15 10 0

0 0

0 25 NW 9

.6 4

0 0

0 19 NNW 3

3 1

0 0

VARIABLE Total 436 84 8

2 0

0 530 Periods of calm (hours):

12 Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

TABLE 4A S

'HOURS EACH WIND SPEED AND DIR ION a PERIOD OF RECORD:.

October 1 December 31, 1981 STABILITY CLASS:

F ELEVATION:

10 Meters Wind Speed (mph) at 1Om Level Wind Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

5 0

0 0

0 0

5 NNE 20 0

0 0

0 0

20 NE 50 11 0

0 0

0 61 ENE 31 21 0

0 0

0 52 E

16

2.

0 0

0 0

18 ESE 7

0 0

0 0

0 7

SE 2

0 0

0 0

0 2

SSE 3

0 0

0 0

0 3

S 4

0 0

0 0

0 4

SSW 2

0 0

0 0

0 2

SW 2

0 0

0 0

0 2

WSW 0

0 0-0 0

0 0

W 4

0 0

0 0

0 4

WNW 1

0 0

0 0

0 1

NW 0

0 0

0 0

0 0

NNW 1

0

.0

.. 0 0

0 1

VARIABLE Total 148 34 0

0 0

0 182 Periods of calm (hours):

2 Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1.21-20

-TABLE 4A HOURSO EACH WIND SPEED AND DIR*

ION a PERIOD OF RECORD:

October 1 December 31, 1981 STABILITY CLASS:

G ELEVATION:

10 Meters Wind Speed (mph) at 10n Level Wind Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 0

0 0

0 NNE 9

0 0

0 0

0 9

NE 11 2

0 0

0 0

13 ENE 7

7 0

0 0

0 14 E

2 0

0 0

0 0

2 ESE 0

0 0

0 0

0 0

SE 1

0 0

0 0

0 1

SSE 1

0 0

0 0

0-1 S

0 0

0 0

0 0

0 SSW 0

0 0

0 0

0

0.

SW 0

0 0

0 0

0 0

WSW 0

0 0

0 0

0 0

W 0

0 0

0 0

0 0

WNW 0

0 0

0 0

0 0

NW 1

0 0

0 0

0 1

NNW 0

0 0

-.0 0

0 0

VARIABLE Total 32 9

0 0

0 0

41 Periods of calm (hours):

0 Hours of missing data:

a In the table, record the total number of hours of each category of wind direction for each calendar quarter. Provide similar tables separately for each atmospheric stability class and elevation.

1 1.1711