Text

Semiannual Radioactive Effluent Release Rept,Jan-June 1982
	ML20081F510
Person / Time
Site:	Farley
Issue date:	06/30/1982
From:	Clayton F; ALABAMA POWER CO.
To:	James O'Reilly; NRC OFFICE OF INSPECTION & ENFORCEMENT (IE REGION II)
References
	NUDOCS 8311030112
	Download: ML20081F510 (129)
	v • d • e

g 1

ALABAMA POWER COMPANY FARLEY NUCLEAR PLANT UNIT NO. ONE LICENSE NO. NPF-2 AND FARLEY NUCLEAR PLANT UNIT NO. TWO LICENSE NO. NPF-8 SEMI-ANNUAL RADIOACTIVE EFFLUENT RELEASE _mPORT JANUARY 1, 1982 THROUGH JUNE 30, 1982 Y [!

f 8311030112 820630 DR ADOCK 05000

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TABLE OF CONTENTS SUBJECT PAGE A.

Introduction 1

B.

Effluent and Waste Disposal Semiannual Report Supplemental Information 1.

Regulatory Limits 2

a.

Fission and Activation Gases b.

Iodines and Particulates c.

Liquid Effluents 2.

Maximum Permissible Concentrations 2

a.

Airborne b.

Liquid 3.

Average Energy 3

4.

Measurements and Approximations of Total 3

Activity a.

Fission and Activation Gases

-b.

Iodines c.

Particulates d.

Liquid Effluents 5.

Batch Releases 7

a.

Liquid b.

Gaseous 6.

Abnormal Releases 7

a.

Liquid b.

Gaseous 2

7 TABLE OF CONTENTS (con't)

SUBJECT PAGE 7.

Estimate of Total Error 8

8.

Solid Waste 9

9.

Radiological Impact on Man 9

10. Meteorological Data 11

11. Liquid' Release " Principal Gamma Emitter" 11 Evaluation i

l l

L- -

I l-t i

i

,..... -..,. ~.,.. - _ - _. -.,.

1 LIST OF TABLES TABLE PAGE 1A-1Q1 Gaseous Effluents - Summation of All 12 Releases, Unit 1 - 1st Quarter, 1982 1A-1Q2 Gaseous Effluents - Summation of All 13 Releases, Unit 1 - 2nd Quarter, 1982 1A-2Q1 Gaseous Effluents - Summation of All 14 Releases, Unit 2 - 1st Quarter, 1982 1A-2Q2 Gaseous Effluents - Summation of All 15 Releases, Unit 2 - 2nd Quarter, 1982 1B-1Q1 Gaseous Effluents - Elevated Release 16 Unit 1, 1st Quarter, 1982 1B-1Q2 Gaseous Effleunts - Elevated Release 17 Unit 1, 2nd Quarter, 1982 1B-2Q1 Gaseous Effluents - Elevated Release 18 Unit 2, 1st Quarter, 1982 1B-2Q2 Gaseous Effluents - Elevated Release 19 Unit 2, 2nd Quarter, 1982 1C-1Q1 Gaseous Effluents - Ground Level 20 Release, Unit 1 - 1st Quarter, 1982

.1C-1Q2 Gaseous Effluents - Ground Level 21 Release, Unit 1 - 2nd Quarter, 1982 1C-2Q1 Gaseous Effluents - Ground Level 22 Release, Unit 2 - 1st quarter, 1982

-1C-2Q2 Gaseous Effluents - Ground Level 23 Release, Unit 2 - 2nd Quarter, 1982 2A-1 Liquid Effluents - Summation of All 24 Releases, Unit 1 - 1st Half, 1982 2A-2 Liquid Effluents - Summation of All 25 Releaes, Unit 2 - 1st Half, 1982 2B-1B Liquid Effluents - Batch, Unit 1 -

26 1st Half, 1982-2B-1C Liquid Effluents - Continuous, Unit 1 27

- 1st Half, 1982

LIST OF TABLES (CONTINUED)

TABLE PAGE 2B-2B Liquid Effluents - Batch, Unit 2 -

28 1st Half, 1982 L' quid Effluents - Continuous, Unit 2 29 i

2B-2C

- 1st Half, 1982 3

Solid Waste and Irradiated Fuel 30 Shipments, 1st Half, 1982 4A-CQ1 Cumulative Joint Frequency 32 Distribution, Continuous Mode - 1st Quarter, 1982 4A-CQ2 Cumulative Joint Frequency 46 Distribution, Continuous Mode - 2nd Quarter, 1982 4A-1BQ1 Cumulative Joint Frequency 60 Distribution,_ Unit 1 Batch Mode

- 1st Quarter, 1982 4A-1BQ2 Cumulative Joint Frequency 74 Distribution, Unit 2 Batch Mode -

2nd Quarter, 1982 4A-2BQ1 Cumulative Joint Frequency 88 Distribution, Unit 2 Batch Mode -

ist Quarter, 1982 i

4A-2BQ2 Cumulative Joint Frequency 102 Distribution Unit 2 Batch Mode -

2nd Quarter, 1982 l

4B Classification of Atmospheric 116 Stability 5-1 Radioactive Liquid Waste Sampling and 117 Analysis Program, Unit 1 l

5-2 Radioactive Liquid Waste Sampling and 118 Analysis Program, Unit 2 6-1 Radioactive Gaseous Waste Sampling and 121 Analysis Program, Unit 1 6-2 Radioactive Gaseous Waste Sampling and 122 Analysis Program, Unit 2 7

Liquid Discharges Not Meeting 125 Specified Detection Limits, Unit 1

~

- 1st Half, 1982

IyRODUCTION This semi-annual radioactive release report for the period JANUARY 1 to JUNE 30, 1982 is submitted in accordance with Appendix A to rarley Nuclear Plant License No. NPF-2 and NPF-8. Appendix A will hereinafter be referred to as the Standard Technical Specifications or STS. Several isotopes which are not normally' reported are included herein in compliance with the requirements of the NPF-2 Environmental Technical Specifications (cancelled by Amendment 26 on March 1, 1982) 1

EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT SUPPLEMENTARY INFORMATION 1.

Regulatory Limits a.

Fission and Activation Gases The release rate limit at any time of noble gases to areas at or beyond the site boundary shall be such that 14 2

6 EEi I K I (X/Q)s, Q

<500 mrem /yr 10 iy uCi i v

and 14 2-6 10 pCi I

(Lg + 1.1 Mg) I (X/Q),Qiy

<3000 mrem /yr uCi i

v wheretheterdsaredefinedinsection4.11.2.1oftheODCM.

b.

Indines and Particulates The release rate limit for sampling period of all radioiodines and radioactive materials in particulate form and radionuclides other than noble gases released to the environs as part of the gaseous wastes from the site shall be such that 18 2

6 l

10 gCi I P

I (X/Q),y Q

<6.3 mrem /yr g

iy uCt i v

l L

l where the terms re defined in Section 4.11.2.1 of the ODCM c.

Liquid Effluents The concentration of radioactive materials released in liquid effluents to unrestricted areas from all reactors at the site shall not exceed at any time the values specified in 10 CFR Part 20, Appendix B, Table II, Column 2.

The concentration of dissolved or l

entraine,1 noble gases, released in liquid effluents to unrestricted areas from all reactors at the site, shall not exceed at any time 4 E-5 pCi/ml in water.

2.

Maximum' Permissible Concentrations a.

. Airborne - The maximum permissible concentration of radioactive materials in gaseous effluents is limited by the dose rate restrictions of 10CFR20.

In this case, the maximum permissible concentrations are actually determined by the dose factors in the ODCM.

2

b.

Liquid - 10 CFR Part 20, Appendix B Table II, Column 2.*

NOTE: The MPC chosen is the most conservative value of either the soluble or insoluble MPC for each isotope.

3.

Ayerage Energy Not Applicable for Farley's STS.

4.

Measurements and Approximations of Total Activity The following discussion details the methods used to measure and approximate total activity for the following:

a.

Fission and Activation Gases b.

Iodines c.

Particulates d.

Liquid Effluents Tables 5 and 6 give sampling frequencies and minimum detectable concentration requirements for the analysis of liquid and gaseous effluent streams.

Values in the attached tables given as zero do not mean that the nuclides were not present. A zero indicates that the nuclide was not present at levels greater than the sensitivity requirements shown in Tables 5 and 6.

For some nuclides, lower detection limits than required may be readily achievable; when a nuclide is measured below its stated limits, it is reported.

Fission and Activation Gases The following noble gases are considered in evaluating gaseous airborne discharge:

Ar-41 Kr-89 Xe-135m l

Kr-85m Kr-90 Xe-135 Kr-85 Xe-131m Xe-137 Kr-87 Xe-133m Xe-138 l

Kr-88 XE-133 l

l Periodic grab samples from plant effluent streams are analyzed by a computerized pulse height analyzer system utilizing high resolution germanium detectors.

(See Table 6 for sampling and analytical requirements).

Isotopic values thus obtained are used for dose release rate calculations as given in section la of this report. Only those nuclides that are detected are used in this compu?.ation. During the period between grab samples, the amount of radioactivity released is based on the effluent monitor readings. Monitors are assigned a calibration factor based upon the last isotopic analysis using the following relationship:

CFi = Ai.+ m, where CFi = isotopic calibration factor for isotope 1.

3

Ai = concentration of isotope i in the grab sample, in pCi/ml.

m =_ net monitor reading associated with the effluent stream.

(determined at time of grab sample)

These calibration factors along with the hourly effluent monitor readings are input to the laboratory _ computer where the release rates for individual nuclides-are calculated and stored.

To ensure that isotopic distributions do not change significantly during major operational occurences, the frequency of grab sampling is increased to satisfy the requirements of Fcotnotes b & d of Table 4.11-2, " Radioactive GaseousLWaste, Sampling and Analysis", (STS Table 4.11-2).

Particulate and Iodine 1The radiciodines and radioactive materials in particulate forms to be considered are:

P-32 Sr-89 cs-134 Cr-51 Sr-90 cs-136 Mn-54 Zr-95 cs-137

-Fe-55 Sb-124 Ba-140 Fe-59 I-131 ce-141 Co-58 I-133 Ce-144 Co-60 Other nuclides with half-life greater than 8 days Continuous Releases Continuous sampling is performed on the continuous release points-(i.e.

.the Plant Vent Stack, Containment Purge and the Turbine Building Vent).

Particulate material is collected by filtration. Iodines are collected

.by: adsorption on a charcoal filter. Periodically these filters are removed and analyzed on the pulse' height analyzer to identify and_ quantify

' radioactive materials collected on the filters. Particulate filters are then analyzed for gross alpha, strontium,_ phosphorus, and iron as required.

Gross alpha determinations are made using a 2 pi gas flow proportional counter. Sr-89 and 90, P-32 and Fe-55 values are obtained by chemical separation and subsequent analysis using 2 pi gas flow proportional counters.

Batch Releases The processing of batch type releases (from Containment Purge and Waste Gas Decay. Tanks) is analogous to that for continuous releases, except

.that the release is not' commenced until grab samples have been obtained and analyzed.

Liquid Effluents The radionuclides listed below are considered when evaluating liquid

' effluents:

4

1 H-3 Sr-91 Cs-134 Cr-51 Mo-99 Cs-136 Mn-54 Tc-99m Cs-137 Fe-59 Ru-103 Ba-140 Co-58 Ru-106 La-140 Co-60 I-131 Ce-141 Zn-65 I-132 Ce-144 I-133 Sr-89 Sr-90 I-135 Batch Releases - Representative pre-release grab samples are obtained and analyzed per Table 5-1 or 5-2.

Isotopic analyses are performed using the computerized pulse height analysis system previously described.

Aliquots of each pre-release sample proportional to the waste volume released are composited in accordance with requirements in Table 5-1 or 5-2.

Strontium, Phosphorus and Iron determinations are made by performing a chemical separation and counting the isotope thus separated using a 2 pi gas flow proportional counter. Gross beta-gamma and gross alpha determinations are made using 2 pi gas flow proportional counters.

Tritium concentrations are determined by using liquid scintillation techniques. Dissolved gases are determined employing grab sampling techniques and then counting on the pulse height analyzer system.

Continuous Releases Continuous Releases (from the Steam Generator Blowdown) are analogous to that of the batch releases except that they are to be analyzed on a weekly composite basis per Table 5-1 or 5-2.

i 5

UNIT #1 5.

Batch Releases a.

Liquid Quarter 1 Quarter 2 1.

Number of batch releases:

142 147 2.

Total time period for batch releases:

89514 min. 147852 min.

3.

Maximum time period for a batch release:

10470 min.

11468 min.

4.

Average time period for a batch release:

630 min.

1006 min.

5.

Minimum time period for a batch release:

48 min.

25 min.

6.

Average stream flow during periods of release of effluent into a flowing stream:

11,500 cfs* 11,500 cfs*

b.

Gaseous Quarter 1 Quarter 2 1.

Number of batch releases:

6 0

2.

Total time period for batch releases:

73 hr.

0 3.

Maximum time period for a batch 22 hr.

O release:

4.

Average time period for a batch 12 hr.

O release:

5.

Minimum time period for a batch 4 hr.

O release:

6.

Abnormal Release a.

Liquid 1.

Number of releases: None 2.

Total activity released: N/A NOTE 1: See Table 7 for listing of Liquid Bate'.i releases that did not meet specified detection limits.

b.

Gaseous 1.

Number of releases: None 2.

Total activity released: N/A

Annual Average River Flow Rate.

6

F UNIT #2 5.

Batch Releases a.

Liquid Quarter 1 Quarter 2 1.

Number of batch releases:

172 106 2.

Total time period for batch releases:

143347 min.

152657 min.

3._

Maximum time period for a batch release: 10825 min.

11422 min.

4.

Average time period for a batch release:

833 min.

1440 min.

5.

Minimum time period for a batch release:

21 min.

50 min.

6.

Average stream flow during periods of release of effluent into a flowing stream:

11,500 cfs*

b.

Gaseous Quarter 1 Quarter 2 1.

Number of batch releases:

7 3

2.

Total time period for batch releases: 66 hr.

51 hr.

3.

Maximum time period for a batch 11 hr.

25 hr.

release:

4.

Average time period for a batch 9 hr.

17 hr.

release:

5.

Minimum time period for a batch 7 hr.

7 hr.

6.

Abnormal Release a.

Liquid 1.

Number of releases: None 2.

Total activity released: N/A NOTE 1: See Table 7 for listing of Liquid Batch releases that did not meet specified detection limits.

b.

Gaseous 1.

Number of releases: None 2.

Total activity released: N/A

Annual Average River Flow Rate.

7

7.

Estimate of Total Error a.

Liquid 1.

The maximum error associated with volume and flow measurements, based upon plant calibration practice is estimated to be i 10%.

2.

The average error associated with counting is estimated to be less than + 15%.

b.

Gaseous 1.

The maximum errors associated with monitor readings, sample flow, vent flow, sample collection, monitor calibration and laboratory procedure are collectively estimated to be:

Fission and Activation Gases Iodine Particulates Tritium 75%

60%

50%

45%

2.

The average error associated with counting is estimated to be:

Fission and Activation Gases Iodine Particulates Tritium 6%

18%

19%

12%

c.

Solid Radwaste l

The error involved in determining the contents of solid radwaste shipments is estimated to less than 1 15%.

i e

8.

UNIT #1 8.

Solid Waste See Table 3

' 1 -;

9.

Radiolo.gical Impact On Man a.

Water Related Exposure Pathways 1st Quarter 2nd Quarter Total Body = 1.3E-1 mrem 1.2E-1 arem Bone = 2.0E-1 mrem 1.0E-1 mrem Liver = 1.7E-1 mrem 1.5E-1 mrem Thyroid = 6.2E-3 mrem 3.3E-3 mrem Kidney = 5.9E-2 mrem 5.1E-2 mrem Lungs = 2.3E-2 mrem 1.9E-2 mrem GI Tract = 1.1E-1 mrem 3.0E-2 mrem b.

Gaseous Related Exposure Pathways 1st Quarter 2nd Quarter Total Body = 9.03E-5 mrem 2.25E-4 mrem Skin = 3.18E-5 mrem 3.29E-4 mrem c.

Particulate and Iodine 1st Quarter 2nd Quarter Organ Dose = 9.73E-5 mrem 1.96E-2 mrem 9

s i

UNIT #2 3

8.,

Solid Waste See Table 3 9.

Radiological Impact On Man a.

Water Related Exposure Pathways 1st Quarter 2nd Quarter Total Body = 7.5E-2 mrem 7.5E-2 mrem Bone = 3.8E-1 mrem 1.1E-1 mrem s

Liver = 1.1E-1 mrem 1.0E-1 mrem Thyroid = 4.5E-3 mrem 2.1E-3 mcem Kidney = 2.7E-2 mrem 3.3E-2 mrem Lungs = 6.1E-2 mrem 1.3E-2 mrem GI Tract = 6.0E-2 mrem 2.3E-2 mrem b.

Gaseous Related Exposure Pathways 1st Quarter 2nd Quarter

~

Total Body = 9.21E-5 mrem 1.58E-2 mrem Skin = 4.78E-5 mrem 4.66E-1 mrem c.

Particulate and Iodine 1st Quarter 2nd Quarter Organ Dose = 2.32E-4 mrem 3.59E-4 mrem s

10

l 1

s

)

\\

10.

Meteorological Data See Table 4A and 8, "Cumula'tive Joint Frequency Distribution".

Continuous Release. Mode:

1st Quarter, 1982 2nd Quarter, 1982 Batch Release Mode (Units 1 and 2):

1st Quarter, 1982 2nd Quarter, 1982 11.

Liquid Release " Principal Gamma Emitter" Evaluation Detectable limits for activity analyses are based upon the technical feasibility and on the potential significance in the environment of the quantities released.

In practice, when an isotope's MDC could not be met due to other nuclides being present in much greater concentrations, computations were made to determine if the isotope (s) of interest were actually " Principal Gamma Emitters" by the following definition:

" Principal Gamma Emitters" - Those gamma emitters which when quantified represent greater than 1% of the total activity or total dose commitment of the effluent release in question.

a

?

1 11

' TABLE iA-iGi GASEOUS EFFLUENTS--SUMMATION OF ALL RELEASES Farley Unit 1 - ist Quarter, 1982 UNITS OTR i Est Error A

Fission & activation gases:

1.

Total' release Ci 7.24E 00 6.02E-Oi 2.

Average. Release rate for period UCi/sec 9.32E-Oi 3.

% of-Technical specification limit 7.40E-05*

1.38E-04**

B.

Iodines 1.

Total iodine-131 Ci 1.iSE-05 6.80E-07 2.

Averaae Release rate for period UCi/sec 1.48E-06 3.

% of Technical specification limit 4.50E-09***

C. Particulates

-1.

Particulates with Ti/2)8 days Ci-4.86E-05 1.73E-05 2

Average-Release rate for period UCi/sec 6.25E-06 3.

% of Technical specification limit 2.71E-06***

4.

Gross alpha radioactivity Ci 0.00E 00 D.

Tritiun

i. Total release Ci 1.16E 01 2.97E-01

2. Average Release rate for period-uCi/sec 1.49E 00

_3. % of Technical-specification, limit 4.06E-03***

0: Whole body limit (<500 mren/vr)

Extrem. limit ((3000 nren/vr)

- - :% of'6 3 nren/yr~for all 19 isotopes 4>

12 m

TABLE iA-iO2 GASEOUS EFFLUENTS--SUMMATION OF ALL RELEASES Farley Unit i - 2nd Quarter, 1982 UNITS OTR 2 Est Error A. Fission & activation gasesc 1.' Total release Ci 3.82E 02 5.0BE 01 2.

Averace Release-rate for period UCi/sec 4.06E 01

3. % of Technical specification limit 3.16E-03*

6.16E-03**

B.-Iodines

.i.. Total iodine-131 Ci 8.97E-03 6.52E-05 2.

Average Release-rate for period UCi/sec 1.14E-03 3.'%.of Technical specification limit 3.48E-06***

Ci Particulates

i. Particulates with Ti/2>8 days Ci 1.99E-03 2.51E-05

-2.

Average' Release rate for period UCi/4ec 2.53E-04 3.

% of Technical specification limit 7.73E-07***

4.

Gross alpha radioactivity Ci 0.00E 00

- D.

Tritiun

-1.

Total release Ci 3.42E 01 1.35E-01 2.

Averaae Release rate for period uCi/sec 4.34E 00 3.1% of Technical specification limit 1.19E-02***

-Whole body limit (<500 nram/yr)

- t Extrem. limit (<3000 nren/vr)

- G:

% of 6.3 mren/yr for all 19 isotopes 9

13 n

TABLE 1A-201 GASEQUS EFFLUENTS--SUMMATION OF ALL RELEASES Farley Unit 2 - ist Guarter, 1982 UNITS OTR i Est Error A. Fission & activation gases:

1.

Total release Ci 4.73E 01 2.52E 00 2.

Average Release rate for period uCi/sec 6.09E 00 3.

% of Technical specification limit-0.70E-04*

1.36E-03**

b.

Iodines

.i.-Total iodine-131 Ci 3.10E-08 8.77E-09 2.

Averaae Release rate for period uCi/sec 3.98E-09 3.

% of Technical specification limit 2.55E-ii***

g C.

Particulates 1.

Particulates with Ti/2)B days Ci

'4.24E-05 1.07E-05

.2.

Average Release rate for period UCi/sec 5.45E-06 3.

% of Technical specification limit 5.77E-06***

4.

Gross alpha radioactivity.

Ci 0.00E 00 D. Trition Li.. Total release.

Ci 1.24E 01 4.51E-01 2.

Average Release rate for period UCi/sec 1.60E 00 3.

% of Technical specification limit 4.36E-03***

limit (<500 nren/yr)

Whole body it Extren. lim

(<3000 nren/vr)

% of 6.3 nren/yr for all 19 isotopes 14

TABLE iA-202 GASEOUS EFFLUENTS--SUMMATION OF ALL RELEASES Farley Unit-2

.2nd. Quarter. 1982 UNITS QTR 2 Est Error A. Fission & activation.gasesi

1. Total release Ci 1.06E 02 6.76E 00 2.

Averace Release rate for period UCi/ set i.35E 01 3.

% of. Technical specification limit 8.60E-04*

1.61E-03**

B.

Iodines Ci 2.69E-07 5.44E-08'

.i. Total iodine-131 UCi/sec 3.42E-08

2. Averaoe Release rate for period 3.

% of Technical. specification limit 1.06E-10***

C.

Particulates i.'Particulates with Ti/2>8 days Ci 5.71E-07 1.26E-07 3.1C of Technical-specification limit ~ uCi/sec 7.26E-08 2.

Averace Release rate for period 2.43E-08***-

4. Gross alpha radioactivity Ci 0.00E 00 D.. Tritium 1.

Total release Ci

-5.07E 01 1.36E-01 2.

Average Release rate for period-uCi/sec 6.45E 00 3.

% ofz Technical specification limit 1.76E-02***

Whole body limit (<500 mrem /yr)

- i Extrem. limit (<3000 mren/vr)

- 0:

% of 6.3 mren/yr for all 19 isotopes o

15

TABLE iP-iQi GASEOUS EFFLUENTS--El.EVATED RELEASE Farley Unit i-ist Quarter, 1902 l

CONTINUOUS BATCH Mode Mode Nuclides Released Unit QTR4 i QTRt i

i. Fission gases Ar-41 Ci-7.47E-Oi 0.00E~00 Xe-137 Ci 0.00E 00 0.00E 00

-Kr-90 Ci 0.00E 00 0.00E 00 Xe-135M Ci 0.00E 00-0.00E 00 Kr-85 Ci 5.00E 00 1.50E-01 Xe-138 Ci 0.00E 00 0.00E 00 K r.

Cj 0.00E 00 0.00E 00 Kr-85H C1 0.00E 00 0.00E 00 Xe-135 Ci 3.27E 00 0.00E 00 Xe-133M Ci 0.00E 00 0.00E 00 Kr-89 Ci 0.00E 00 0.00E 00 Kr-88 Ci 0.00E 00 0.00E 00 Xe-131M Ci 0.00E 00 0.00E 00 Xe-133 Ci 2.31E 00 4.57E-03 Total for period Ci 6.33E 00 1.55E-01 2.

Iodines 1-133 Ci

.7.iBE-06 0.00E 00 I-131 Ci 1.04E-05 0.00E 00 Total for period C1 1.75E-05 0.00E 00 3.

Particulates-Sb-124 Ci 0.00E 00 0.00E 00 Co-60 Ci 7.iSE-06 0.00E 00-Zn-65 Ci 0.00E 00 0.00. RD O

.Fe-59 Ci 0.00E 00 0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 Cs-136 Ci 0.00E 00 0.00E 00

~Co-58 Ci 5.85E-06 1.05E-08 Zr-95 Ci 0.00E 00 0.00E 00 Cs-137 Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E 00 0.00E 00 Ba-140.

Ci 0.00E 00 0.00E 00 I-133 Ci 7.18E-06 0.00E 00 1-131 Ci 1.04E-05 0.00E 00 Cr-Si Ci 2.03E-05 0.00E 00 Ce-141 Ci 0.00E 00 0.00E 00 Sr Ci 0.00E 00 3.80E-10 Sr-90 Ci 0.00E 00 0.00E 00 Total for period Ci 5.09E-05 1.0YE-08 16

t s

TABLE iB-iG2

~

GASEGUS EFFLUENTS--ELEVATED RELEASE Farley Unit 1 - 2nd Quarter, 1982 CONTINUOUS BATCH Mode Mode Nuclides' Released Unit QTRt 2 QTRt 2

i. Fission gases Ar Ci 1.08E 01 0.00E 00 Xe-137-Ci 0.00E.00 0.00E 00 LKr-90 Ci 3.52E-07 0.00E 00' Xe-135M Ci 9.89E-01 0.00E 00 Kr Ci 6.43E 00 0.00E 00 Xe-138 Ci-5.16E-01 0.00E.00 Kr-87 Ci 8.41E-01 0.00E 00 Kr-85M Ci-

-1.04E 00 0.00E'00 Xe-135 Ci 2.06E 02~

0.00E 00 h

Xe-133M Ci 0.00E 00 0.00E.00

.Kr-89 Ci 0.00E 00 0.00E 00

.Kr-88 Ci 7.62E 00 0.00E 00 Xe-131M Ci 0.00E 00 0.00E 00 Xe-133-Ci 1.45E 02 0.00E 00

Total.for period.

Ci 3.79E:02 0.00E 00 2.

Iodines I-133-Ci~

'8.00E-02 0.00E 00 I-131' Ci 8.93E-03 0.00E 00 Total for period Ci-8.89E-02 0.00E 00 3.,Particulates Sb-124 Ci 0.00E 00 0.00E 00

'Co-60 Ci 0.00E 00 0.00E 00

Zr.-65 Ci 0.00E 00 0.00E 00 Fe-59 Ci 0.00E.00 0.00E 00 Mn-54 Ci-0.00E 00 0.00E 00 Cs-136 Ci 0,00E 00 0.00E 00

Co-58 Ci 4.45E-10 0.00E 00

'Zr-95 Ci 0.00E 00 0.00E 00 Cs-137-.

Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E 00

- 0.00E 00 Ba-140 Ci 0.00E 00 0.00E 00

'I-133-Ci 5.41E-02 0.00E 00

'I-131 Ci

'i.98E-03 0.00E 00 Cr Ci 0.00E 00 0.00E 00

~Ce-141 Ci 0.00E 00 0.00E 00 Sr-89 Ci 0.00E 00 0.00E 00 Sr-90 Ci 0.00E 00 0.00E 00 Total forl period.

Ci 5.61E-02 0.00E 00 5'

a 17 v

+

w------

T e

'-e-er w

3 we - m - 4 r w a

-m---

.v~ ~., y

-w-yemv-yr--w.**a-*ae

,r----mra-.---,,e-- w eve r ~

p-I:

TABLE 1B-201 GASEOUS EFFLUENTS--ELEVATED RELEASE Farley Unit 2 - ist Quarter, 1982 CONTINUOUS BATCH Mode Mode Nuclides Released Unit OTRt i OTRt i

i. Fission gases Ar-41 Ci 1.58E 01 0.00E OG Xe-137 Ci 0.00E 00 2.12E-04 Kr-90 Ci 0.00E 00 0.00E 00 Xe-135M Ci 0.00E 00 0.00E 00 Kr-85 Ci 0.00E 00 1.18E-01 Xe-138 Ci 0.00E 00 0.00E 00 Kr-87 Ci b.00E 00 3.74E-04 Kr-85M Ci 0.00E 00 3.29E-03 Xe-135 Ci 8.84E 00 2.57E-04 Xe-133M Ci 0.00E 00 4.iSE-02 Kr-89 Ci 0.00E 00 0.00E 00 Kr-88 Ci 0.00E 00 0.00E 00 Xe-131M; Ci 0.00E 00 1.29E-01.

Xe-133 Ci 1.03E 01 7.26E 00 Total for period Ci 3.50E 01 7.56E 00 2.-Iodines I-133~

Ci 0.00E 00 0.00E 00 I-131 Ci 2.25E-08 0.00E 00-

' Total for period Ci 2.2UE-08 0.00E 00 3.

Particulates Sb-124 Ci 0.00E 00 0.00E 00 Co-60 Ci 1.46E-05 9.82E-09 Zn-65 Ci 0.00E 00 0.00E 00 Fe-59' Ci 0.00E 00 0.00E 00 Mn-54 Ci 1.80E-06 0.00E 00 Cs-136' Ci.

0.00E 00 0.00E 00 Co-58 Ci 1.24E-05 8.04E-09 Zr-95 Ci 0.00E 00 0.00E 00 Cs-137

' Ci' O.00E 00 0.00E 00

'Cs-134 Ci 1.53E-08 0.00E 00 Ba-140 Ci 9.45E-06 0.00E 00 I-133.

Ci 0.00E 00 0.00E 00 I-131 Ci 2.25E-08 0.00E 00 Cr-Si Ci 0.00E 00 0.00E 00 Ce-141 Ci 0.00E-00 0.00E 00 Sr-89 Ci 0.00E 00 4.30E-10

'Sr-90 Ci 0.00E 00 0.00E 00 Total'for period Ci 3.83E-05 1.83E-08 18

TABLE iB-202 GASEOUS EFFLUENTS--ELEVATED RELEASE t:

Farley Unit '2'- 2nd Quarter, 1982 CONTINb0US BATCH Mode Mode 0IRt 2-

.Nuclides Released Unit-QTRt 2

1.. Fission. gases Ar-41 Ci 1.17E 01 0.00E 00 Xe-137 Ci-0.00E 00 0.00E 00 Kr-90 Ci' O.00E 00 0.00E 00

-Xe-135M Ci 0.00E 00 0.00E 00 Kr-65

'Ci 1.04E 01 8.50E-02 Xe-138 Ci 0.00E 00 0.00E 00 Kr-87 Ci 0.00E 00 0.00E 00 lKr-85M Ci 0.00E 00 4.19E-02 Xe-135 Ci 2.93E 01 1.83E-02 Xe-133M Ci 0.00E-00 3.63E-03

.Kr-89 Ci 0.00E 00 0.00E 00-Kr-88 Ci 0.00E 00 0.00E 00 Xe-131H Ci 0.00E 00 1.80E-Oi

-Xe-133 Ci 4.82E 01-4.26E 00 Total for: period Ci 9.96E~01 4.59E 00

-2.

Iodines

'I-133 Ci 2.65E-04 0.00E 00 I-131 Ci 2.67E 0.00E 00 Total lfor period Ci 2.65E-04 0.00E 00 3.

Particulates.

Sb-124-Ci 0.00E 00-0.00E 00 Co-60 Ci 0.00E 00 0.00E 00 Zn-65 Ci 0.00E 00 0.00E 00 Fe-59 Ci 0.00E 00-0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 Cs-136 Ci 2.36E-00 0.00E 00 Co Ci 4.02E-07 0.00E-00 Zr-95 Ci 0.00E.00 0.00E 00 Cs-137 Ci.

0.00E 00 0.00E 00 Cs-134 C1 1.42E-07 0.00E 00 Ba-140 Ci 0.00E-00 0.00E 00 1-133-:

Ci 2.65E-04 0.00E 00 I-131 Ci 0.00E 00 0.00E 00 Cr-Si Ci 0.00E-00 0.00E 00 Ce-141 Ci-0.00E 00 0.00E 00 Sr-891 Ci 0.00E 00 0.00E 00 Sr-90, Ci 0.00E 00 0.00E 00 Total-for period C1 2.65E-04 0.00E 00 19

TABLE iC-iQi GASEOUS EFFLUENTS--GROUND-LEVEL RELEASE Farley Unitll - ist. Quarter,-1982 CONTINUOUS BATCH Hode Mode Nuclides-Released Unit QTRt i QTRt 1 1.

Fission gases Ar-41 Ci 9.30E-02 0.00E 00 Xe-137 Ci 0.00E 00 0.00E 00 Kr-90 Ci 0.00E 00 0.00E 00 Xe-135M.

Ci 0.00E 00 0.00E 00 Kr-85 Ci 0.00E 00 1.67E Xe-138 Ci 0.00E 00-0.00E 00 Kr-87 Ci 0.00E 00 0.00E 00 Kr-85M Ci 0.00E 00 0.00E 00-Ye-135 Ci 3. 84 E 0.00E.00 Xe-133M Ci 0.00E 00 0.00E 00

'Kr-89 Ci 0.00E 00 0.00E 00

- Kr-88 Ci 0.00E 00 0.00E 00 Xe-131H Ci 0.00E 00 0.00E 00 Xe-133 Ci 2.76E-01.

5.08E-04 Total for period Ci

-7.43E-01 1.72E-02 2.

Iodines I-133 Ci 2.69E-06 0.00E 00 I-131 Ci 1.iSE-06 0.00E 00

. Total for period Ci 3.84E-06 0.00E 00 3.

Particulates Sb-124 Ci 0.00E 00 0.00E 00 Co-60 Ci 8.28E-07 0.00E 00

-Zn-65 Ci 0.00E 00 0.00E 00 Fe-59 Ci 0.00E 00 0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 Cs-136 Ci 0.00E'00 0.00E 00 Co-58 C1 6.64E-07 1.17E-09

-Zr-95 Ci 0.00E'00 0.00E 00 Cs-137 Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E-00 0.00E 00 Ba-140 Ci 0.00E 00 0.00E 00

-I-133 Ci 2.69E-06 0.00E 00 1-131 Ci 1.iSE-06 0.00E 00

.Cr-Si Ci 2.26E-06 0.00E 00

.Ce-141 Ci 0.00E 00 0.00E 00 Sr-89 Ci 0.00E 00 4.22E-ii Sr-90 Ci 0.00E 00 0.00E 00 Total for period Ci 7.5VE-06 1.21E-09 20

L.

TABLE iC-iO2-GASEOUS EFFLUENTS--GROUND-LEVEL RELEASE Farley Unit i'- 2nd Quarter, 1982 w

CONTINUOUS BATCH Mode Mode Nuclides Released Unit QTRt 2 QTRt 2

1. Fission gases Ar-41 Ci 4.57E-02 0.00E 00 Xe-137 Ci 0.00E 00 0.00E ~00-

.Kr Ci 1.48E-09 0.00E 00 Xe-135M-Ci

4.17E-03 0.00E 00

.Kr-85 Ci 2.07E-Oi 0.00E 00 Xe-138 C i' 2.iBE-03 0.00E 00 t

Kr-87 Ci 3.55E-03 0.00E 00 Kr-85M Ci 4.37E-03' O.00E 00 Xe-135 Ci 1.27E 00 0.00E'00 Xe-133M Ci 0.00ERDO 0.00E 00 Kr-89 Ci 0.00E-00 0.00E 00 Kr-88 Ci 7.83E-02 0.00E 00 Xe-131M Ci 0.00E 00 0.00E 00 Xe-133-Ci 7.25E-01 0.00E 00 Total for period Ci 2.34E 00-0.00E 00 2.

Iodines I-133 lCi 3.37E-04 0.00E 06

-I-131 Ci

3. 77E- 0 5

'0.00E 00 Total for period Ci-

-3.75E-04 0.00E 00

~ 3.

Particulates Sb-124 Ci 0.00E-00

'0.00E 00 Co-60 Ci 0.00E 00 0.00E 00 l

Zn-65 Ci 0.00E 00 0.00E 00 Fe-59 Ci 0.00E 00 0.00E 00 Mn-54 Ci 1.08E-08' O.00E 00 Cs-136~

Ci 0.00E 00 0.00E 00 Co-58.

Ci 0.00E 00 0.00E 00 Zr-95 Ci 0.00E 00 0.00EH00 JCs-137

.Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E 00 0.00E 00 Ba-140 Ci 0.00E 00 0.00E 00 I-133 C1 2.28E-04 0.00E 00 I-131.

Ci 8.37E-06

-0.00E 00 Cr-51 Ci 0.00E 00 0.00E~00

'Ce-141 Ci

.0.00E 00 0.00E 00

'Sr-89 Ci 0.00E 00 0.00E 00 Sr-90 Ci 0.00E 00 0.00E 00

-Total:for period Ci 2.36E-04 0.00E 00 21

TABLE iC-201 GASEOUS EFFLUENTS--GROUND-LEVEL ~ RELEASE Farley-Unit 2-ist Guarter, 1982 CONTINUGUS BATCH Hode Mode Nuclides Released Un i. t QTRt i QTR4 1 1.

Fission gases Ar-41 Ci 1.76E 00 0.00E 00 Xe-137-Ci 0.00E 00 2.36E-05 Kr-90 Ci 0.00E 00 0.00E 00 Xe-135M Ci 0.00E 00 0.00E 00 Kr-85 Ci 0.00E 00 1.31E-02 Xe-138 Ci 0.00E 00 0.00E 00 Kr-87 Ci 0.00E 00 4.iSE-05 Kr-85M Ci 0.00E 00 3.66E-04 Xe-135 Ci 1.02E 00 2.85E-05 Xe-133M-Ci 9.00E 00 4.61E-03 Kr-89 Ci 0.00E 00 0.00E 00 Kr-88 Ci 0.00E 00 0.00E 00 Xe-131M Ci 0.00E 00 1.44E-02 Xe-133 Ci 1.19E 00 8.07E-01 Total for period Ci 3.97E 00 8.39E-01 2.' Iodines I-133 Ci 0.00E 00 0.00E 00 I-131 Ci 8.46E-09 0.00E 00 Total for period Ci 8.46E-09 0.00E 00 3.

Particulates Sb-124 Ci 0.00E 00 0.00E 00 Co-60 Ci 1.79E-06 1.09E-09 Zn-65 Ci 0.00E-00 0.00E 00 Fe-59 Ci-0.00E 00 0.00E'00 Mn-54 Ci 5.70E-08 0.00E 00 Cs-136 Ci 0.00E 00 0.00E 00 Co-58 Ci 1.16E-06 8.93E-10 Zr-95 Ci 0.00E 00 0.00E 00 Cs-137 Ci 0.00E 00 0.00E 00 Cs-134 Ci 1.70E-09 0.00E 00 Ba-140 Ci 1.05E-06 0.00E 00 I-133 Ci 0.00E 00 0.00E 00 I-131 Ci 8.46E-09 0.00E 00 Cr-51 Ci 0.00E.00 0.00E 00 Ce-141 Ci 0.00E 00 0.00E 00 Sr-89 Ci 0.00E 00 4.87E-11 Sr-90 Ci 0.00E 00 0.00E 00 Total for period Ci 4.07E-06 2.03E-09 22 a

O.

f TABLE iC-2Q2

. GASEOUS EFFLUENTS--GROUND-LEVEL RELEASE Farley Unit 2 - 2nd Quarter, 1982 CONTINUOUS BATCH Mode Mode Unit QTRt 2 QTRt 2

___'Nuclides Released

- i '. Fission. gases Ar-41 Ci 4.93E-02 0.00E 00 Xe-137 Ci 0.00E 00 0.00E 00 Kr-90 Ci 0.00E 00 0.00E 00 Xe-135M Ci 0.00E 00 0.00E 00

~Kr-85 Ci 1.16E 00 3.59E-04 Xe-138' Ci 0.00E 00 0.00E 00

'Kr-87 Ci 0.00E 00 0.00E 00-Kr-85M Ci 0.00E 00 1.77E-04 Xe-135-Ci 3.63E-Oi 7.73E-05 Xe-133M Ci-0.00E 00 1.53E-05 Kr-89 Ci 0.00E 00 0.00E 00 Kr-88 Ci 0.00E 00 0.00E 00 Xe-131M Ci 0.00E 00 7.60E-04 Xe-133 Ci 3.52E-01 1.80E-02 Total for period Ci 1.92E 00 1.94E-02 2.-Iodines

'I-133-Ci 1.12E-06 0.00E 00 I-131 Ci 1.95E-09 0.00E 00

-Total for period Ci 1.12E-06 0.00E 00

3. Particulates Sb-124 Ci 0.00E 00 0.00E 00

'Co-60 Ci 0.00E 00 0.00E 00

'Zn-65 Ci 0.00E 00 0.00E 00

'Fe-59 Ci 0.00E 00 0.00E 00

'Mn-54 Ci 0.00E 00 0.00E 00 Cs-136 Ci 9.95E-ii 0.00E 00 Co-58 Ci 1.70E-09 0.00E 00 Zr-95 Ci 0.00E 00 0.00E 00

-Cs-137.

Ci 0.00E 00 0.00E 00 Cs-134 C1 6.0iE'10 0.00E 00 Ba-140 Ci 0.00E 00 0.00E 00 I-133 Ci 1.12E-06 0.00E 00 1-131 Ci 0.00E 00 0.00E 00

.Cr-51 Ci 0.00E 00 0.00E 00

'Ce-141 Ci 0.00E 00 0.00E 00 Sr-89 Ci 0.00E 00 0.00E 00 Sr Ci 0.00E 00 0.00E 00 Total.for period Ci 1.12E-06 0.00E 00 23

TABLE 2A-1 LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES Farley Unit i - ist Half, 1982 Unit Quarter i, 82 Quarter 2, 82 A. Fission and Activation Products

i. Total Release Ci 4.84e 01 6.31e 01

2. Average Diluted Concentration

-During Period Note (i) uCi/n1 5.51e-05 7.16e-05

3. Percent of Applicable Limit

-During_ Period Note (i) 5.39e-08 6.90e-08 B. Tritium

1. Total Release Ci 4.84e 01 6.24e 01

2. Average Diluted Concentration During Period Note (i) uCi/nl 5.50e-05 7.10e-05

3. Percent of Applicable Limit During Period Note (i) 1.83e 00 2.37e 00 C. Dissolved and Entrained Gases-

1. Total Release Ci 6.35e-03 5.53e-01 2.

Average Diluted Concentration i

During Period Note (i) eCi/nl 6.78e-09 6.25e-07 3.

Percent of Applicable Limit L

During Period Note (i) 1.70e-02 1.56e 00 D. Gross Alpha Radioactivity

i. Total Release Ci 6.6ie-07 0.00e 00 E. Volume of Waste Released liters i.70e 07 9.05e 07 t

(prior to dilution)

F. Volume of Dilution Water Used During Period Note (i) liters 6.54e 09 1.16e 10 NOTE:

(i) During Period of Discharge 24-I

TABLE 2A-2

-LIQUID EFFLUENTS-SUMMATION OF ALL. RELEASES Farley Unit 2

-ist Half, 1982 Unit Quarter i, 82 Quarter 2, 82,

A. Fission'and Activation Products Total Release Ci 9.71e 01 5.23e 01 2.

Average Diluted Concentration During Period Note (i) uCi/n1 3.65e-05 3.33e-05

3. Percent of Applicable Limit

.During Period Note (i) i.0ie-02 2.20e-02

. B. Tritium

i. Total Release Ci 9.69e 01 5.18e 01 2.

Average Diluted Concentration During Period Note (i) uCi/nl 3.65e-05 3.30e-05 3.

Percent of Applicable Limit During Period Note (i) 1.22e 00 1.10e 00 C. Dissolved and Entrained Gases

i. Total Release Ci 2.43e-02 5.28e-01

2. Average Diluted Concentration During. Period Note (i) uCi/n1 9.33e-09 3.29e-07 3.

Percent of Applicable Limit During Period Note (i) 2.33e-02 8.23e-01 D.

Gross Alpha Radioactivity

1. Total Release Ci 1.69e-05 0.00e 00 E. Volune of Waste Released liters 3.86e 07 5.43e 07 (prior to dilution).

F. Volume of Dilution Water Used During Period Note (i) liters 1.55e 10 1.67e 10 NOTE:

3 L(i).During Period.of Discharge 25

4 TABLE 2B-iB LIQUID EFFLUENTS-BATCH Farley Unit 1 - ist Half, 1982 Nuclides Quarter i, 1982

_ Quarter 2, 1982 Released Unit Measured MDC*

Measured MDC*

Sr-89 Ci 3.98e-04 0.00e 00

~Sr-90 Ci 0.00e 00 0.00e 00

- H-3 Ci 4.84e 01 6.24e 01 P-32 Ci 0.00e 00 0.00e 00 Fe-55 Ci 0.00e 00 3.17e-05 Co-57 Ci 6.55e-06 2.16e-06 Ce-144 Ci 0.00e 00 1.15e-04

- Tc-99M.

Ci 1.89e-06 1.iie-05 Ce-141' Ci 0.00e 00 1.05e-06 Np-239 Ci 4.05e-04 1.08e-03 Cr-51 Ci.

8.24e-04 3.65e-05 I-131 Ci

-i.08e-05 6.73e-05 Ru-iO3-Ci G.00e 00 2.29e-06 I-133 Ci 1.32e-05 6.64e-06 Ba-140 Ci 0.00e 00 2.08e-06 As-76 Ci

-0.00e 00 0.00e 00 Cs-134 Ci 6.60e-04 5.16e-04 Ru-iO6-Ci 1.39e-05 0.00e 00 Cs-137-Ci 3.45e-04 6.50e-04 Mo-99 Ci 0.00e 00 0.00e 00

~ Zr-95 Ci 4.72e-05 9.86e-06 Nb-95 Ci i.69e-04 5.12e-05 I-132' Ci 0.00e 00 0.00e 00 (1.17e-05 Co-58.

Ci 4.06e-03 1.44e-03 Cs-136 Ci 1.04e-05 8.67e-07 Mn-54 Ci 3.71e-04 2.43e-04 Ag-iiOM Ci 3.23e-04 1.33e-04 Sr-91 Ci 1.56e-06 0.00e 00 Zn-65 lCi 0.00e 00 0.00e 00 I-135 Ci 0.00e 00 0.00e 00 Fe-59 Ci 7.19e-05 4.2ie-06

- Co-60 Ci 3.49e-03 3.82e-03

' Cu-64 Ci 0.00e 00 (6.03e-03 9.24e-04 (6.14e-03 Na Ci 5.00e-06 4.53e-06 La-140 Ci 1.55e 9.73e-05 4

TOTALS-Ci 4.84e 01 (6.03e-03 6.30e 01 (6.15e-03 1

Xe-133-Ci 5.88e-03 5.49e-Oi

'Xe-135 Ci 1.44e-05 7.88e-05 4

0

MDC's are those MDC's } detection requirement i

26

.~ ~,

. - _ _. _ _. _.,.. _,.., _ _ _ _,.. _ _.. _ _. _, ~ _.. _... _.. _.. _.. -

TABLE 2B-iC LIQUID EFFLUENTS-CONTINUOUS Farley Unit i - ist Half, 1982 Nuclides Quarter i, 1982 Quarter 2, 1982 Released Unit Measured MDC*

Measured MDC*

Sr-89 Ci 3.03e 0.00e 00 Sr-90 Ci-0.00e 00 0.00e 00 H-3 Ci 0.00e 00 1.43e-02 P-32 Ci 0.00e 00 0.00e 00 Fe-55 Ci 0.00e 00 0.00e 00 (3.91e-04 Co-57 Ci 0.00e 00 0.00e 00 Ce-144 Ci 0.00e 00 1.45e-04 Tc-99M Ci' O.00e 00 0.00e 00 Ce-141 Ci 0.00e 00 0.00e 00 Np-239 Ci 0.00e 00 0.00e 00 Cr-Si Ci 0.00e 00 1.92e-04 I-131 Ci

-0.00e 00 2.48e-05 Ru-103 Ci 0.00e 00 0.00e 00 I-133 Ci 0.00e 00 0.00e 00 Ba-140 Ci 0.00e 00 0.00e 00 As-76 Ci 0.00e 00 0.00e 00 Cs-134 Ci 0.00e 00 1.05e-05 R u-iO 6 C;i -

0.00e 00 0.00e 00 Cs-137.

Ci 7.85e-05 0.00e 00 Mo-99 Ci 0.00e 00 0.00e 00 Zr-95 Ci 0~.00e 00 0.00e 00 Nb-95 Ci 0.00e 00 0.00e 00 I-132 Ci-0.00e 00 0.00e 00 Co-58 Ci 0.00e 00 3.49e-05 Cs-136 Ci 0.00e 00 0.00e 00 Mn-54 Ci 0.00e 00 0.00e 00 Ag-iiOM Ci 0.00e 00 4.92e-06 Sr-91 Ci 0.00e 00 0.00e 00 Zn-65 Ci 0.00e 00 0.00e 00 I-135 Ci 0.00e 00 0.00e 00 Fe-59 Ci 0.00e 00 0.00e 00 Co-60 Ci 4.76e-05 0.00e 00 Co-64 Ci-0.00e 00 (4.56e-02 0.00e 00 (2.57e-01 Na-24 Ci 0.00e 00 0.00e 00 La-140-Ci 0.00e 00 0.00e 00 j

TOTALS Ci 8.85e-04 (4.56e-02 1.82e-02 (2.57e-01

.Xe-133 Ci 4.56e-04 3.Sie-03

MDC's are those MDC's } detection requirement 27

TABLE 2B-2B LIQUID EFFLUENTS-BATCH Farley Unit'2 - ist Half, 1982 Nuclides Quarter 1,

1982 Quarter 2, 1982 Released Unit-Measured MDC*

Measured MDC*

-Sr-89 Ci 0.00e 00 0.00e 00 Sr-90 C:L 0.00e 00 0.00e 00 H-3 Ci 9.69e 01 5.02e 01 P-32 Ci 3.89e-05 (2.3e-05 0.00e 00

-Fe-55 Ci 1.81e-04 9.70e-06 Co-57 Ci 1.44e-06 4.61e-06 Ce-144 Ci 8.57e-05 1.57e-06 (8.95e-06 Tc-99M Ci 2.93e-06 2.72e-06 Ce-141

~Ci 0.00e'00 0.00e 00 Np-239 Ci.

i'.29e-04 4.54e-04 Cr-51 Ci-1.63e-03 1.70e-05 I-131 Ci 1.08e-05 4.38e-05

'Ru-iO3 Ci 0.00e 00 0.00e 00 I-133

.Ci 1.41e-05 1.29e-06 Ba-140 Ci 0.00e 00 0.00e 00 As-76 Ci 0.00e 00 0.00e 00 Cs-134 Ci 6.59e-04 5.47e-04 Ru-iO6 Ci 1.57e-06 0.00e 00

Cs-137 C1

-3.00e-04 5.39e-04 Mo-99 Ci 0.00e 00 0.00e 00 Zr Ci 9.67e-06 1.26e-06 Nb-95 Ci 6.87e-05 1.24e I-132 Ci 0.00e 00 0.00e 00 Co-58 Ci-3.55e-03 7.30e-04 Cs-136 Ci 0.00e 00 0.00e 00 Mn-54 Ci 9.2ie-05 1.80e-05 Ag-iiOM Ci 1.2ie-04 5.35e-05 Sr-91' Ci 0.00e 00 0.00e 00

~Zn-65 Ci 0.00e 00 0.00e 00 I-135 Ci 2.76e-07 0.00e 00 Fe-59 Ci 1.46e-04 5.73e-07 Co-60 Ci 8.44e-04 3.97e-04 Cu-64 lCi 3.73e-05 (4.84e-03 0.00e 00 (3 35e-03 Na-24 Ci 5.18e-06 1.20e-06 La-140 Ci 2.39e-05 4.64e-05 TOTALS Ci 9.70e Oi (4.86e-03 5.07e 01 (3.36e-03 Xe-133 Ci' 2.39e-02 5.26e-01 Xe-135 Ci 3.59e-05 7.80e-05

MDC's are those MDC's > detection requirement 28

=

TABLE 2B-2C LIQUID: EFFLUENTS-CONTINUOUS

.Farley Unit'2 - ist Half, 1982 Nuclides Quarter i, 1982 Quarter 2, 1982 Released Unit' Measured HDC*

Measured MDC*

Sr-89 Ci 4.0ie-04 0.00e 00 Sr Ci -

0.00e 00 0.00e 00 H Ci 3.82e-02 i.64e 00

.P-32 Ci 0.00e 00 0.00e 00 Fe-55' Ci-8.40e-04 1.81e-03 Co-57 Ci 0.00eo00 0.00e 00 Ce-144 Ci 0.00e 00-0.00e 00

.Tc-99H Ci 0.00e 00 0.00e 00 Ce-141 lCi 0.00e 00 0.00e 00

.Np-239 Ci 0.00e 00 0.00e 00 Cr-Si Ci 0.00e 00 0.00e 00 I-131 Ci 0.00e 00 2.27e-05 Ru-iO3 Ci i.10e-05 9.53e-06

-I-133' Ci 0.00e 00 4.32e-05 Ba-140 Ci 0.00e 00 0.00e 00 As-76 Ci 0.00e 00 0.00e 00 Cs-134 Ci 0.00e 00 0.00e 00 Ru-iO6 Ci 4.84e-05 0.00e 00 Cs-137.

Ci 1.02e-05 0.00e 00 Mo-99 Ci 0.00e-00 0.00e 00

.Zr-95.

Ci 0.00e 00 0.00a H00 Nb-95 Ci 0.00e 00 4.63e-05 I-132' Ci 0.00e 00 0.00e 00 Co-58 Ci 7.04e-07 0.00e 00

'Cs-136 Ci 0.00e 00 3.93e-04 Mn-54 Ci 0.00e 00 0.00e 00 Ag-iiOM Ci 0.00e 00 0.00e 00 Sr-91 Ci 0.00e 00 0.00e 00 Zn-65 Ci 0.00e 00 0.00e 00 I-135-Ci 0.00e 00 4.07e-05

-Fe-59 Ci 0.00e 00 0.00e 00' Co-60 lCi 4.32e-05 3.25e-05 Cu Ci.

0.00e 00 (i.26e-01 0.00e 00 (2.07e-01 Na-24 Ci 0.00e 00 0.00e 00

.La-140 Ci 0.00e 00 0.00e 00 4

TOTALS Ci 3.90e-02 (1.26e-01 1.64e 00

<2.07e-01

.Xe-133 1Ci 1.07e-04 2.52e-03 Xe-135 Ci 2.75e-04 0.00e 00

MDC's are those MDC's > detection requirement 29 r

TABLE 3 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS FARLEY NUCLEAR PLANT - 1st HALF 1982 A.

SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel) 1.

Type of Waste UNIT 6-MONTH 3

m 1.93 E 01 a.

. Spent resins, filter sludges, evaporator bottohis, etc.

Ci 2.50 E 01 3

m 1.83 E 02 b.

Dry compressible waste, contaminated equip, etc.

Ci-1.44 E 01 c.

Irradiated components, control m

None rods, etc.

Ci None 3

d.

Other (describe) m None Ci None S

2.

Estimate of major nuclide composition Ci a.

Mn-54 6.09 E 00 1.52 E 00 Co-57 2.00 E-01 5.00 E-02 Co-58 5.92 E 01 1.47 E 01 Co-60 2.74 E 01 6.86 E 00 Nb-97 5.20 E-01 1.30 E-01 I-134 6.00 E-01 1.50 E-01 Cs-137 1.20 E-01 3.00 E-02 La-140 5.37 E 03 1.34 E 00 b.

Cr-51 1.93 E 01 2.78 E 00 Mn-54 1.19 E 01 1.72 E 00 Co-58 2.55 E 01 3.68 E 00 Co-60 4.30 E 01 6.19 E 00 Ru-106 2.30 E-01 3.30 E-02

TABLE 3 (c:n't).

SOLID WASTE AND IRRADIATED FUEL SHIPMENTS FARLEY NUCLEAR PLANT - 1st HALF.1982 3.

Solid Waste Disposition Number of Shipments Mode of Transportation Destination 12 Chem-Nuclear Transport (7 ea.)

Chem-Nuclear Systems, Incorporated Hittman Transport (5 ea.)

Barnwell, South Carolina 4.

Type of container (la)

Type of Container (Ib) 3 LSA, 170 ft cylindrical DOT 17H (55 gal drums),

3 wooden boxes containers 112 ft 5.

Solidification Agent (la)

Solidification Agent (Ib) g cement N/A B.

IRRADIATED FUEL SHIPMENTS (Disposition)

Number of Shipments Mode of Transportation Destination None N/A N/A

Table 4A-COi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear--Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD-OF RECORD:

1 -i-82 }

3-31-82 STABILITY CLASS: A ELEVATIONS 45.7m Wind Speed (mph) at 45.7M level Dircction 13 4-7 8 _12 13-18 19-24

>24 TOTAL N

5 7

2 0

0 0

14 NNE

'O O

O O

O NE 4

9 0

0 0

0 13 ENE 2

17 5

0 0

0 16 E.

O i

i i

0 0

3 ESE-0 6

2 0

0 0

8 SE 2

18 17 17 i

0 55

.SSE O

i 1

0 0

0 2

S 0

1 2

0 0

0 3

SSW 4

'73 77 10 3

0 167 SW 2

2 0

0 0

0 4

WSW 0

0 0

W' 4

17 50 31 7

0 109

=WNW 0

3 9

0 0

0 12 NW 3

2 3

0 0

0 8

NNW 8

78 50 4

0 i

141 VARIABLE 56 174 140 19 5

1 395 34-227 219 63 ii 1

555 Total -

-50 PGriods of caln(hours):

-Hours of missing data 0-32 o

a

y Table 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION LRELEASE MODE: CONTINDUS PERIOD OF RECORD:

i -i-82 3 3-31-82 STABILITY CLASS: A ELEVATION 10.0m.

Wind Speed (mph) at 10.0n level

' Direction

_i-3 4-7 8-12 13 19-24

>24 TOTAL N

4 2-0 0

0 0

6 NNE 3

'O O

O O

O 3

NE 3-16 0

0 0

0 19 ENE i

4 0

0 0

0 5

E.

0 5

0 0

5 ESE O

3 0

0 0

0 3

SE 8

42 42 3

0 0

95 SSE-0 2

0 0

2 S

i 0

0 0

1 SSW 29 79 15 4

0 0

127 SW 2

2 2

1 0

0 7

WSW 0

4 0

0 0

0 4

W 14 39 20 10 0

0 83 WNW 3

11 11 1

0 0

26 NW.

8 8

5 0

0 0

21

'NNW 25 26 7

0 0

0 58 LVARIABLE 140 232 124 ii 0

0 507 101 243 102 19 0

0 465 Totol' PGriods of calm (hours):

28

' Hours-of missing datat 0

-33 h

Table 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 HOURS'AT EACH WIND SPEED AND DIRECTION RELEASE HDDE: CONTINDUS PERIOD OF RECORD:

,1 -i-82 }

3-31-82 STABILITY CLASS: B ELEVATION 45.7m Wind-Speed (mph).at 45.7m level 19-24

>24 TOTAL Dir ection' i-3 4-7 8-12 13 _18 N

i 2

0

.0 0

0 3

.NNE

'O~

0 0

'NE-0 0

0 0

0 ENE 0

0 0

Ei 0

-0 0

0 0

0 C

ESE O

O O

SE

'O i

2 0

0 0

-3 SSE 0-1 0

0 0

0 i

S 10 0'

O O

O

.SSW 1-i 4

1 0

0 7

L SW 0

0

.0 0

0 0

0 WSW 0.

0 0

.W-1 0

0 0

i NW..

0 0

0 0'

0 0

0 W

j.

L NW 0-0 0

0 0

NNW 0

3 0

0 0

0 3

. VARIABLE 3

5 8

0 0

0 16 3

8 6

1 0

0 18 i: LTotel.

i PSriods of calm (hours)-

i

~Hrurs.of_ missing data 0;

~

t 34 L-

b Table 4A-C01 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

' RELEASE MODE: CONTINOUS PERIOD OF. RECORD i -i-82 )

3-31-82 STABILITY CLASS:=B

-ELEVATIONi10.0m Wind Speed (nph) at 10.On level

- Direc t i on '-

~i-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

0 0

e NE O

O O

ENE O

O O

E O

O O

O 0

ESE 0

0 0

<SE i

3 1

0 0

0 5

SSE.

O i

i 0

0 0

2 S

0 0

0 0-0 SSW i

2 3~

0 0

0 6

.SW.

0 0

0

-WSW 0

0 0

'W i

0

.0 0

0 0

i WNW 0

0 0

NW i

0 0

0 i

NNW D

0 1

0 0

0 i

V AR I AfsLE -

7 6

3 0

0 0

16 4

6-6 0

0 0

16 Total

'Pariods of caln(hours):

3 Hours of Missing data 0

35

Tcble 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley. Nuclear Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD OF RECORD:

1 82 }

3-31-82 STABILITY CLASS: C ELEVATION 45.7m Wind Speed (mph) a' t 45.7m level Direction 1-3 4 8 _12 13-18 19-24

>24 TOTAL

~N 0

0 1

0 0

0 i

NNE O

O O

.NE O

O O

ENE O

O O

O 0

.E-0 0

0 0

0 ESE

-0 0

0' 0

0 0

0 SE O

O O

SSE O

O O

S 0

0 0

SSW 0

i 5

0 0

0 6

SW 0

0 0

WSW 0

0 0

W 0

2 0

0 0

0 2

WNW 0-0 0

0 0

NW 0

0 0

'NNW.

O i

0 0

1 VARIABLE 2

5 7

i 0

0 15 0

4 ~

6 0

0 0

10 Tote 1 ~

^

Pcriods of calm (hours):

0

.H3urs of missing datas 0-36

Table 4A-CQi l

CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 p

HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD OF RECORD:

1 82 )

3-31-82

~ STABILITY CLASS: C ELEVATION 10.0n Wind Speed (nph) at 10.On level Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE.

0 0

0 NE-0 0

0 0

0 ENE O

0.

0 0

0 E

O O

O ESE i

0 0

0 1

SE i

0 0

0 i

SSE O

O O

0.

0 0

0 S.

0 0

0 SSW D

2 4

0 0

0 6

SW 0

0 0

0 0'

WSW 0

0 0

W 0

0 0

WNW 0

0 0

0 NW 0

0 0

NNW 0

0 1

0 0

0 i

. VARIABLE 6

5 4

0 0

0 15 2

2 5

0 0

0 9

LTotcl~

Periods of caln(hours):

i Hours:of missing datai 0

37

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Table 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE'HODE: CONTINDUS PERIOD OF RECORD:

1 82 3 3-31-82 STABILITY CLASSi.D ELEVATIONi45.7m Wind Speed (mph) at 45.7m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

i 5

2 0

0 0

8 NNE i

0 0

1 0

0 2

lNE O

O

-0 0

0 0

0 ENE.

0 0

0 E

O 0

0 0

0 ESE.

0 0

0 SE i

3 5

0 0

0 9

SSE i

0 0

0 i

5 0

0 2

0 0

0 2

SSW-

-i 8

15 2

0 0

26 SW 0

1 0

0 0

0 i

WSW 0

1 0

0 0

0 i

W 2

6 4

0 0

0 12 WNW.

0 0

0

~

NW 0

0 1

0 0

0 i

'NNW i

3 0

0 0

0 4

-VARIABLE ii 24 17 1

0 0

S3 8

27 29 3

0 0

67

.Tetal Pcriods of caln(hours):

10 Hours of missing data 0

38 y

F

--.a

-Mu v

m 3=+*ryw w

L..

Table-4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear 1 Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE HDDE: CONTIN 0US PERIOD OF RECORD:

1 -i-82 }

3-31-82 STABILITY CLASS: D

ELEVATION 10.On Wind Speed (mph) at 10.On level 13-18 19-24 TOTAL Direction' i3 4-7 8__12

_>24__

N 2

0 0

0 2

NNE O

4 0

0 0

0 4

.NE O

O O

1ENE O

O O

O 0

E O

'O O

O O

ESE i

0 0

0 1

SE i

7 ii 0

'O O

19

~SSE 0-0 1

0 0

0 1

.S 0

0 0

SSW 2

8 5

0 0

0 15 SW 0-0 0

0 0

i WSW i

0 0

0 i

W 6

4 0

0 0

0 10

,WNW' 0

1 0

0 0

0 1

NW-0 0

0 0

0

.NNW 2

3 5

0 0

0 10

' VARIABLE 34 18 8

0 0

0 60 15 27 22 0

0 0

64

' Total P0riods of caln(hours)+

6

-Heurs of hissing data:

0 39

Table 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED-AND DIRECTION RELEASE MUDEi CONTINDUS

. PERIOD OF RECORD:

1 82 3 3-31-82 STABILITY CLASS: E ELEVATION 45.7m

_________________________________________________________5.7n level Wind Speed (nph) at 4 Wind Dir=ction 13 47 8 _12 13-18 19_24

>24 TOTAL N

2 5

0 1

0 0

8 NNE 0

1 2

0 0

0 3

NE O

O O

ENE-1 2

0 0

3 E

i 0

0 0

1 4

ESE.

0 2

0 0

2 SE i

5 10 3

0 0

19 SSE-i 1

0 0

2 S

0 0

0 SSW 2

21 10 2

0 0

35 SW 0

1 1

0 0

0 2

WSW-0 0

0 0

0 W

6 5

14 2

'O O

27 WNW i

0 0

0 i

NW 1-0 0

0 0

0 i

LNNW 0

7 i

0 3

i 12

. VARIABLE 34 64 23 3

1 0

125 16 50 38 6

3 i

116 Total PGriods of caln(hours).

28 Hours of missing datai 0

40

5 Table 4A-C01 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODEi' CONTINDUS PERIOD OF RECORD:

i -i-82

}-

3-31-82 STABILITY CLASS: E ELEVATION:10.0m i

-Wind Speed (mph) at 10.0m level 4-7 8 _12 13-18 19-24

>24 TOTAL Direction

'_i-3__

N 0

2 0

0 0

0 2

NNE 4

0 0

0 4

NE i

3 i

0 0

0 5-

'ENE 2

0 0

0 2

E-0 0

1 0

0 0

.1

.ESE 0

0 0

0.

0 0

0 SE' 5.

16 7

0 0

0.

28 SSE i

- i 0

0-0 0

2 S

0 2

0 0

2 SSW 4

13 2-0 0- -

0 19

.SW 0

0 0

0

'0 0

0 WSW i

0 0

0 i

r W'

7~

8-0' 0

0 0

15 e.

-WNW 0

0 0

NW~

0-0 0

0 0

NNW 6

3 6

0 0

0 15 i:

VARIABLE.

79 46 0

0 0

0 133 3

31-40 17 0

0 0

96

Total Pariods'of calm (hours).

40 Ho;rs of missing data 0

t 41

"-*a

"---*e-

+-v-

+ - - * - - ~ - - - - - * - * * + -

v---

e v++v

=--=--*e~

+

m'--

V

-e-

+-rw+-e

Table 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - ist Quarter, 1982 4

HOURS AT EACH WIND SPEED AND DIRECTION

' RELEASE MODEi CONTINOUS PERIOD OF RECORD:

1 82 3 3-31-82 STABILITY CLASS: F ELEVATION 45.7m Wind Speed (mph) at 45.7m level

' Wind Direction 1-3 4 8-12 13 19-24

>24 TOTAL N

i 14 35 5

0 0

55

! -NNE O

i 0

0 0

0 1

NE i

i 2

i-0 0

5 ENE-2 45 ii 5

3 0

66 E

2 5

2 0

0 0

9 ESE-i 3

3 0

0 0

7

-SE 5

13 16 2

0 0

36 SSE-1 0

0 0

i S

i 0

0 0

0-0 i

.SSW i

13-7 2

0' 0

23 SW i

0 0

0 i

WSW-0 1

0 0

i W

i 14-12 1

0 0

'28

'WNW.

0 0

0 NW i

0 0

0 i

'NNW 0

31 4

0 0

0 35 VARIABLE' 43 92 30-1 0

0 166 18 141 92 16 3

0 270

. Total Pcriods of caln(hours)i 30 H3urs of missing datai 0

42

Table 4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear. Plant - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE CONTINDUS PERIOD OF RECORD:

1 -i-82 )

3-31-82 STABILITY CLASS: F ELEVATIONi10.0m Wind Speed (mph) at 10.On-level Dircction 13 4_7 8 _12 13-18 19-24

_>24 TOTAL N

2 1

0 0

3

.NNE 2

0 0

0 2

NE 16 15 1

0 0

0 32 ENE-2 5

0 0

7 E

O 4

3 0

0 0

7 ESE' 2

2 1

0 0

0 5

'SE' 8

11 i

0 0

0 20 SSE O

i 0

0 0

0 i

i S

0 0

0 SSW 3

'2 0

0 0

0 5

SW 0

0 0

!_WSW 0

0 0

W 18 9

0 0

27 WNW 2

0 0

0 2

NW 0

0 0

NNW 19 3

9 0

0 0

31

-VARIABLE 122.

63 9

0 0

0 194

___________________________________________________-________________0 142 74 53 15 0

0 Total

'PGriods of caln(hours) 130

-H2urs of missing datai 0

43

.)

Table'4A-CQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant --ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD OF RECORD:

1 82 3 3-31-82 STABILITY CLASS: G ELEVAT10Ni45.7n Wind Speed '(mph) a t 45.7n level 13-18 19 24

>24 TOTAL Direction 1 3 4-7 8 _12

-N 1

4 0

0 u

0 5

NNE i

0 0

0 i

NE 2

1 0

0 0

0 3

-ENE 4

54 4

0 0

1 63 E

3 i-0 0

0 0

4 ESE-0 0

0 0

0

- SE.

2 7

1 0

0 0

10 SSE O

O O

S 0

0 0

SSW-i 4

0 0

5 SW 0

0 0

WSW 0

0 0

l' W-5 12 0

0 0

0 17 WNW 0

0 0

NW 0

0 0

NNW 0

2 0

0 0

0 2

l VARIABLE

. 28.

47 3

0 0

0 78 i

19 85 5

0 0

1 110 i

Total

~

l

-Pcriods of caln(hours):

47

[

Hours of missing data 0

l l

l t

44 i

~ Table 4A-CQi

. CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear.Plaat - ist Quarter',-1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD OF RECORD:

1 -i-82 } 31-82 STABILITY CLASS: G ELEVATION 10.0M Wind _ Speed (mph) at 10.0m level Direction 13 4-7.

8 _12 13-18 19-24

>24 TOTAL N

2 0

0 0

2

--NNE~

0 1

0 0

i NE 4

2 1

0 0

0 7

ENE 3

1 0

0 0

0 4

_E' 0

4 0

0 0

0 4

ESE i

0 0

0 i

SE O

i 0

.0 0

0 i

SSE O

-0 0

0 0

S 0

0

0 0

0 0.

0 SSW D

0 0

SW i

0 0

0 i

WSW D

0 0

l

'W 4

0 0

0 4

WNW

.0 1

0 0

i l.

.NW:

'2 0

0 0

2

'NNW' 19 2

0 0

21 VARIABLE 63 14 1

0 0

0 78 36 12 1

0 0

0 49

-Total -

Pcriods of calm (hours): 108 j

Hours of missing data:

0 l

l l'

45 i-

a Table 4A-C02-CUMULATIVE JOINT FREQUENCY-DISTRIBUTION Farley Nuclear Plant - 2nd Quarter,~1982 HOURS AT EACH-WIND SPEED AND DIRECTION

- RELEASE MODE: CONTINDUS-

PERIOD OF RECORD i-82 }

6-30-82

' STABILITY-CLASS: A ELEVAT10N 45.7n Wind Speed (nph) at 45.7m level 13 18 19 24.

>24 TOTAL Direction 1-3 4-7 8 _12 N

2 5

1 0.

0 0

8 NNE 1.

3 2

0 0

0 6

-NE ii 24 16 4

0 0

55

'ENE.

18 12 1

0 0

0 31 E

.17 5

1 0

0 0

23 ESE i

8 4

0 0

0 13

' SE-2 0

6-10 0

0 18 j

'SSE 6

i 3

2 0

0 12 S

S 3

3 2

0 0

13

.SSW-21 52 42 5

2-0 122 SW 5

2 0

0 0

0 7

.WSW' 5

2 0

1 0

0 8

W' 10 30 18 7

0 0

65 L. WNW 0

6 2

0 0

0 8

NW 2

3 0

0 0

0 5

NNW.

7 50 21 0

0 0

78 VARIABLE ____________144 251 123 21 1

0 540 113-206 120 31 2

0 472 Total

Pcriods of caln(hours): 314 Hours of nissing data 0

4 46 i:

Table 4A-C02

-CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982

' HOURS AT EACH WIND SPEED AND DIRECTION

' RELEASE MODE: CONTINDUS 6-30-82 PERIOD OF RECORD:

4 -i-82 )

STABILITY CLASS: A

-ELEVATIONi10.0m

-Wind Speed (mph) at 10.On level Direction 13 4-7 8 _12 13 18 19 24

>24 TOTAL-N 5

5 0

0 0

0 10

-NNE 4

3 0

0 0

0 7

NE 16 18 10 1

0 0

45 ENE 10 3

0 0

13 E

2 21 1

0 0

0 24 ESE 2

5 3

0 0

0 10 SE 2

12 16 1

0 0

31 SSE 3

5 6

0 0

0 14 S

0 2

1 0

0 0

3

'SSW 22 88 42 5

1 0

158 SW 7

8 4

0 0

0 19 l

- WSW 6

7 i

0 0

0 14 W-14 23 7

2 0

0 46 WNW 5

7 4

0 0

0 16 t'

NW 9

4 0

0 0

0 13

NNW 30 50 8

0 0

0 88 i

VARIABLE 305 372 91 6

0 0

774 137 26i' 103 9

i-0 511 Total PCriods of-caln(hours):

41

. Hours of missing datai 0

l l

i 47 l-L

Z Table 4A-CQ2 CUMULATIVE-JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE CONTIN 0US PERIOD OF RECORD:

4 82 )

6-30-82 STABILITY CLASS: B ELEVATIONt45.7m Wind Speed (nph) at 45.7m level Direction 13 4-7 0 _12 13 18 19 24

>24 TOTAL N

i 0

0 0

i NNE O

O O

N E-0 2

0 0

2

.ENE 0

0 0

E O

O O

.ESE O

O O

SE O

O i

0 0

-0 i

SSE O

O O

S 0

0 0

SSW 2

3 i

i 0

0 7

SW 0

0 0

WSW 0

0 0

W 0

0 1

0 0

0 i

WNW 0

0 0

NW D

0 0

NNW 0

2 1

0 0

0 3

. VARIABLE i

9 5

i 0

0 16 3

7-4 i

0 0

15 Total

-PGriods'of caln(hours):

5

' Hours of missing datas 0

48

Table.4A-CQ2 CUMULATIVE-JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: 'CONTINDUS PERIOD OF RECORD:

4 82 )

6-30-82 STABILITY CLASS: B

-ELEVATIONi10.On Wind Speed (nph) at 10.0n level Direction 1-3 4-7:

8 _12 13 18 19-24

_>24 TOTAL N

0 O

O O

O NNE O

O O

NE i

0 0

0 i

ENE O

O O

E O

O O

'O O

O O

ESE O

O 0

0 0

SE 2

i 1

0 0

0 4

SSE O

O O

w ss 0

0 0

SSW 2

2 i

i 0

0 6

SW-0 0

0 0

0

'WSW 0

0 0

W 0

1 0

0 0

0 i

WNW 0

0 0

Y NW 0

0 0

NNW' 2

0 0

0 2

VARIABLE 14 4

4 0

0 0

22

___________________________________________-__--__-__-__-_____-___--------_-_4 7

4 2

1 0

0 1

Total

-Pcriods of caln(hours):

0 Heers of missing data:

0 49

.)

Table 4A-CQ2 CUMULATIVE' JOINT FREQUINCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINOUS PERIOD OF RECORD:

4 -i-82 3 6-30-82

-STABILITY CLASS: C ELEVATIONi45.7m 19

>24 TOTAL

__-24___

13 18 Direction 13 4_7 8 _12 N

0-

-0 0

0 0

NNE-0 0

0 0

0 NE O

O O

ENE O

i 0

0 0

0 i

E O

O O

ESE O

O O

SE i

0 0

0 i

SSE O

O O

_S 0

0 0

SSW D

2 0

0 0

0 2

SW 0

0 0

WSW 0

0 0

W-0 0

0 0

0 WNW 0

0 0

NW 0

0 0

NNW 0

0 0

VARIABLE _____________4 6

2 1

0 0

13 i

3 0

0 0

0 4

Total PCriods of calm (hours):

7 Hours of missing datai 0

4 50

Table 4A-CQ2 CUMULATIVE JOINT FREQUENCY DISTRIBU110N Farley Nuclear Plant - 2nd Quarter,'1982 HOURS AT EACH WIND SPEED AND DIRECTION

' RELEASE MODE: CONTINDUS PERIOD OF RECORD:

4 -i-82 3 6-30-82 STABILITY CLASS: C

~ ELEVATION:10 On Wind Speed (nph) at 10.On level

-Dircctioni i3 4-7 B _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE 0'

0 0

NE' i

0 0

0 i

ENE i

0 0

0 i

E O

O O

0 0

ESE' 0

0 0

SE i

0 0

0 i

SSE i

0 0

0 i

S 0

0 0

SSW i

2 1

0 0

0

.4 SW 0

0 0

WSW-0-

0 0

f

.W i

0 0

0' i

~

WNW 0

0 0

NW 0-0 0

0 0

.NNW i

i 1

0 0

0 3

VARIABLE 7

1 0

0 9

7 3

2 0

0 0

12 Totel Pcriods of caln(hours):

3 Haurs of missing datai 0

51

Table 4A-CO2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd-Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE-MODE: -CONTINDUS PERIOD OF RECORD:

4 82 }

6-30-82 STABILITY CLASSe D

._____________'.7m ELEVATION:45 Wind Speed (mph) at 45.7m level 19-24

>24 TOTAL Direction 1-3 4-7 8 _12 13 _18 N

0 1

0 0

1 NNE 2

0 0

0 2

NE O

3 0

0 0

0 3

ENE 2

2 0

0 0

0 4

'E 0

1 0

0 0

0 1

-ESE.

0 i-1 0

0 0

2 SE O

O i

0 0

0 i

).

SSE 2

0-1 0

0 0

3 5

3 0

0 0

3 SSW i

7 6

0 0

0 14

'SW 0

0 0

WSW-0 0

0 0

0 W

i i

i 0

0 0

3 WNW 0

0 0'

O O

NW-0 0

0 0

0 NNW=

0 2

2 0

0 0

4 VARIABLE 18 30 6

2 0

0 56 ii 18 12 0

0 0

41 Total Pcriods of taln(hours):

20

Hoers of Missing data:

0 52

s-Table 4A-CQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant --2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE CONTINDUS PERIOD OF RECORD 4 82 ) ~ 6-30-82' STABILITY CLASS: D ELEVATION 10.0m Wind Speed (mph) at 10.0m level

_-7 8-12 13-18 19-24

>24 TOTAL Direction 1-3 4

N 2

0 0

0 2

NNE-1 0

0 0

0-0 i

NE 2.

-0 0

0 0

0 2

ENE O

O O

E' i

0 0-0 0

0 i

ESE-0 0

0 0

0 SE.

3 0

1 0

0 0

4

SSE O

O O

S' O

2 0-0 0

0 2

-SSW i

13 2

0 0

0 16 SW i

0 0

0 i

WSW 0

0 0

.W 2

0 0

0 2

[

WNW 0

0 0

NW 0

0 0

NNW-3 i'

0 0

4 VARIABLE 43 21 4

0 0

0 68 Total Pcriods of calm (hours):

14 Hours of missing data 0

-53

Table 4A-CO2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS ATLEACH WIND SPEED AND DIRECTION RELEASE 'HODE CONTINOUS PERIOD OF RECORD:

4 -i-82 3 6-30-82 STABILITY. CLASS: E ELEVATION:45.7m 19

>24 TOTAL

__-24___

Direction 1-3 4-7 8 _12 13 18 N

0 i

-0 0

0 0

i NNE 2

2 0

0 0

~0 4

NE' 2

12 0'

0 0

0 14 ENE i

5 0

0 0

0 6

E O

O O

O O--

0 0

ESE O

O O

O 0

0 0

SE O

'O 8

0 0

0 8

- SSE.

0 0'

i-0 0

0 i

2 o.

S i

i i-0 0

0 3

\\

?SSW 3

16 3

2 0

0 24 i,

SW D

0 0

WSW'

- 0 0

0 0

0 W

0 13 3

0 0

0 16 WNW-1 0

0 0

i NW 0

0 0

NNW-4 5

i 0

0 0

10 VARIABLE 22 42 22 0

0 0

86 14 55 17 2

0 0

88 Tstel

^Pariods of calm (hours):

44 Hours of nissing data 0

54

I Table 4A-CC2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

RE' LEASE HUDE: CONTIN 0US PERIOD OF RECORD:

4 82 3 6-30-82.

STABILITY CLASS: E ELEVATION:10.On Wind Speed (nph) at 10.0n level

.Dirsction 13 4-7 8__12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

i 0

0 0

0 i

NE 3

2 0

0 0

0 5

ENE 0

0 0

0 0-E O

i 0

0 0

0 i

.ESE O

2 0

0 0

0 2

SE 2

5 0

0 0

0 7

o.SSE O

O O

S 0

1 0

0 0

0 i

SSW 4

13 1

0 0

0 18 SW-1 0

0 0

i WSW i

0 0

0 i

W 7

2 0

0 0

0 9

WNW 3

2 0

0 0

0 5

NW 5

0 0

0 5

NNW 5-G 0

0 0

0 13 VARIABLE 73 36 4

0 0

0 113 31 37 i

0 0

0 69

. Total

.PGriods of caln(hours):

36 Hours of Missing datas 0

55

a y

L-Table 4A-CO2 CUMULATIVE JOINT FREQUENCY'DISTRIBUTIGN

'Farley Nuclear Plant - 2nd Quarter, 1982 4

HOURS AT EACH WIND SPEED AND DIRECTION TRELEASE MODE: CONTINOUS PERIOD OF RECO D:

4 -i-82 )

6-30-82 STABILITY CLAS F

ELEVATION 45.7m

- Direction.

13 4-7 0 _12 13 18 19 24

>24 TOTAL N'

5 i-0 0

0 0

6 NNE 2

0 0

0 2

NE O

34 4

0 0

0 38

' ENE 4

20 i

0 0

0 25

.E 2

i 1

0 0

0 4

ESE i

3 0

0 0

0 4

SE' 4

0 2

0 0

0 6

-SSE i

0 0-0 0

0 i

S 0-i 0

0 0

0 i

SSW i

22 6

1 0

0 30 SW 0

0 0

WSW 0

0 0

0 0.

W 5

18 ii 0

0 0

34 WNW 0

0 0

NW-0 0

0 0

0 i

NNW i

23

,1 0

0 0

25 VARIABLE 34 66 9

0 0

0 109 26 123 26 1

0 0

176 Total Periods of caln(hours)i 30 Hours of missing' data 0

56

r Table 4A-CO2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD OF RECORD:

4 82 )

6-30-82 STABILITY' CLASS: F ELEVATION:10.On Wind Speed (mph) at 10.0m level Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL

-N 3

0 0

0 3

NNE 3

i 0

0 0

0 4

NE 13 0

0 0

13 ENE.

5 4

0 0

9 E

2 i

0 0

3 ESE 0

0 0

SE 2

0 0

0 2

SSE O

O O

S 0

0 0

SSW 4

4 0

0 0

SW D

0 0

WSW 2.

0 0

0 2

W 21 4

0 0

25 WNW 3

0 0

0 3

NW i

0 0

0 i

'NNW 25 7

0 0

32

-VARIABLE 119 28 0

0 0

0 147 i

84 21 0

0 0

0 105 Total Periods of calm (hours):

63

(-

Haurs of missing data 0

t l

57 i

i.:

Table 4A-CQ2 CUMULATIVE JOINT FREQUENCY. DISTRIBUTION Farley Nuclear Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: CONTINDUS PERIOD OF RECORD:

4 -i-82 1 6-30-82

-STABILITY. CLASS G

ELEVATIONi45.7m Wind Speed (mph) at 45.7m level 19-24

>24 TOTAL Direction 1-3 4_7__

8_12 13 _18 N

i 0

0 0

i NNE O

O O

NE i

3 0

0 0

0 4

ENE'-

1 3

4 0

0 0

0 E

.0 1

0 0

1.

ESE O

O O

.SE O

O i

}

0-0 0

1-

'SSE O

O O

S 0

0 0

SSW' i

i 0

0 0

0 2

SW-0 0

0 0

0' WSW 0

0 0

W 0

16 0

0 0

0 16 WNW 0

0 0

NW 0

0 0

NNW 5

28 2

0 0

0 35 VARIABLE ii 38 0

0 0

0 49 Total Pcriods of caln(hours):

31 j

Hours of missing datas 0

58 t

Table 4A-CQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION

~

Farley Nuclear ' Plant - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

. RELEASE' MODE: CONTINDUS PERIOD OF RECORD:

4 -i-82 3 6-30-82 SlABILITY CLASS: G ELEVATIONii0.On Wind Speed (nph) at 10.On level Dircction 1-3 4-7 8-12

'13-18 19-24

>24 TOTAL N

i 0

0 0

i NNE D

0 0

NE i

0 0

0 1

- ENE 3

0 0

0 3

E O

O O

^ESE 0

0 0

-0 0

0 0

SE O

0 0

SSE O-0 0

0 0

S 0

0 0

SSW 0

0 0

SW-

-1 0

0 0

i WSW 3

0 0

0 3

W 7

0 0

0 7

WNW 0

0 0

0-0 NW 2

0 0

0 2

NNW 23 5

0 1

0 0

29

-VARIABLE 44 6

0 0

50 41 5

0 1

0 0

47 Total

Psriods of caln(hours):

Si Hours-of missing datai 0

1 59

~.

-7 TABL~.'4A-1B01 CUMULATIVE JOINT FREQUENCY DISTRIBUTION

.FarleyfUnit 1 - ist-Quarter, 1982

^

HOURS AT EACH WIND SPEED AND DIRECTION RELEASE' MODE: BATCH PERIOD OF RECORD:

1 -i-82 3 3-31-82

-STABILITY CLASS:.A ELEVATIONi45.7m Wind Speed (mph) at 45.7m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0

'NNE.

.0 0

0 0

0 DNE O

O O

O 0-0 0

ENE-0 0

0 0

0 E

.0 0

0 0

0 ESE 0'

0 0

SE-0 0

0 0

0

'SSE O

O O

S-0 0

0 0

0 SSW 0

0-0 0

0 0

0

-SW 0

0 0

WSW 0

0 0

.W 0

0-i 8

i 0

10.

WNW 0

0 4

0 0

0 4

NW 0.

0 0

NNW 0

2 2

0 0

0 4

VARIABLE O

9 10 0

0 0

19 0

2 7

8 i

0 18 l

-Total 1. Periods of calm (hours):

i Hours of. Missing datai 0

L 1,.

~

L 60

!~

J

TABLE 4A-iBQi

. CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE HDDE: BATCH PERIOD OF RECCRD:

1 -i-82 3 3-31-82 STABILITY CLASS: A ELEVATIONii0.On Wind Speed (mph) at 10,0m level Direction 13 4-7 8 12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

iNE '

O O

O ENE O

O O

E O

O O

ESE O

O O

0-0 0

0 SE i

5 0

0 0

0 6

SSE O

O O

S 0

0

0

.0 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 4

1 0

0 5

WNW 0

2 2

0 0

0 4

NW 0

i i

0 0

0 2

NNW i

i 0

0 0

0 2

VARIABLE i

8 8

i 0

0 18

-Total Periods of caln(hours):

i Hours of missing data 0

61

F TABLE 4A-1BQi CUMULATIVE JOINT FPEQUENCY DISTRIBUTION Farley Unit'i - ist Guarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MOD'E BATCH PERIOD OF RECORD:

1 -i-82 )

3-31-82 S T ABILI~l Y - CLASS : B ELEVATION 45.7m

_ g_7__ ;;; ______________

___---______________-_________-___ g____g;eeg_7_

7_;t 4

Direction 1-3 4-7 8-12 13-18 19 24

>24 TOTAL N

0 0

,0 0

0 NNE' O

O O

NE O

O O

ENE O

O O

0 0

E

.0 0

0 0

0 ESE O

O O

SE' 0

0 0

SSE O

O O

.S

-0 0

0 0

0 SSW-0 0

0 0

0

'SW-0 0

0 0

0 WSW 0

0 0

W~

0 0

0 WNW 0

0 0

NW.

0 0

0 NNW 0

0 0

VARIABLE O

O O

0 0

0 Total-Periods of calm (hours):

0 Heurs of missing datai

,0 l

62 i

-x TAB E.4A-iBQi CUMULATIVE JOINT FREQUENCY-DISTRIBUTION Farley Unit 1 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD 1 -i-82 3 3-31-82 STABILITY CLASS: B ELEVATION:10.On Wind Speed (nph) at 10.On level Direction.

1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE 0

0 0'

O O

NE C

0-0 0

0 0

0 ENE.

0 0

0 E

O O

O ESE O

0 0

SE O

O O

SSE O

O 0-0 0

0 0

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 0

WNW D

0 0

NW 0

0 0

NNW D

0 0

. VARIABLE O

O O

O 0

0 0

0 Total Periods of caln(hours):

0 Heers of Missing data 0

63

TABLE 4A-iBQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982

t. :

HOURS AT EACil WIND SPEEE AND DIRECTION RELEASE MODE: ' BATCH PERIOD OF RECORD 1 -i-82 )

3-31-82 STABILITY CLASS: C ELEVATION 45.7m Wind Speed (mph) at 45.7m level Direction 1-3 4-7 8-12 13 _18 19_24

>24 TOTAL 1 N

0 0

0 NNE O

O O

NE O

O O

ENE:

0 0

0 E

O O

O ESE O

O O

SE-0 0

0 0

0 SSE' O

O O

S 0

0 0

0 C

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

-W 0

0 0

WNW-0 0

0 0

0 NW 0

0 0

NNW 0

0 0

VARIABLE O

O O

i 0

0 0

Total Periods of caln(hours):

0 Hrars of missing datas o

i 64

Y TABLE 4A-1BQi

' CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982 HOURS AT-EACH WIND SFEED AND DIRECTION RELEASE MODE: BATCH

. PERIOD OF RECORD:

1 82 )

3-31-82 STABILITY ~ CLASS. C 1 ELEVATION:10.On

~-----

Wind Speed (mph) at 10.0m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL NNE O

O O

O U

0 0

NE O

O O

i ENE O

O O

O E

ESE O

O O

SE ~

0 0

0 SSE O

O O

'S 0

0 0

SSW D

.0 0

0 0

SW.

0 0

0 0-0 0

0 WSW 0

0 0

W 0

0 0

WNW 0

0 0

.NW' O

O O

NNW 0

0 0

VARIABLE-0 0

0 0

0

0 0

0 Total Periods of. calm (hours):

0 Hours of_ missing datai 0

65

TABLE 4A-1BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist' Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

-RELEASE MODE: BATCH.

PERIOD OF-RECORD i 82 3 3-31-82 STABILITY CLASS 'D

-ELEVATION 45.7m Wind Speed (mph) at 45.7m level 13 18 19 24

>24 TOTAL Direction 13 4_7 O__12_

N 0

0 0

0 0-0 0

-NNE O

O-0 0

0 0

0 NE O

-0 0

0 0

0-0 ENE O

O O

O

-0 E

O O

O ESE O

O O

0 0

SE O

O O

0 0

SSE.

0 0

0 S

0 0

0 SSW i

0 0

0 i

SW 0

0 0

WSW 0

0 0

W 0

1 0

0 0

0 i

WNW 0

0 0

NW 0

0 0

NNW 0

0 0

' VARIABLE i

3 0

0 0

0 4

i i

0 0

2

'Tetal Periods of calm (hours)r 0

~ Hours of missing datas 0

66

TABLE 4A-iBQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF-RECORD:

1 -i-82 }

3-31-92 STABILITY CLASS: D ELEVATION 10.On Wind Speed (nph) at 10.On level Direction 1-3 4-7 8-12 13-18 19-24

>C4 TOTAL N

0 0

0 NNE O

O O

NE 0-0 0

0 0

ENE 0-0 0

0 0

E.

0 O

O O

O ESE O

O O

SE 0'

i-0 0

0 0

i

.SSE O

0 0

S 0

0 0

0 1

i

. SSW SW 0

0 0

WSW 0

0 0

W 0

0-0 0

0 0

0 WNW 0

0 0

NW 0

0 0

NNW 0

0 0

. VARIABLE' 2

2 0

0 0

0 4

1 1

0 0

2

' Total Periods of caln(hours):

0 Haces of missing datai 0

K 67'

'J TABLE 4A-1BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit i - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 -i-82 )

3-31-82 STABILITY CLASS: E ELEVATION 45.7m Wind Speed (mph) at 45.7n level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL

- N 0

0 0

NNE O

O O

NE~

0 0

0 ENE O

O O

E' 0

0 0

0 0.

ESE O

O O

0 0

SE-0-

0 0

SSE O

O O

O o

S' O

O O

SSW 0

i i

0 0

0 2

iSW 0

'O O

O O

WSW 0

0~

0 0

0 W

0 0

0 WNW 0

0 0

NW 0

0 0

-NNW 0

1 0

0 0

0 i

VARIABLE 3

7 0

0 0

0 10 0

2 1

0 0

0 3

Total Periods of caln(hours):

2 Hsurs of nissing datai-0 68

TABLE 4A-iBQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982 HOURS AT EACH WIND' SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 82 3 3-31-02

' STABILITY CLASS: E ELEVATION 10.0m Wind Speed (mph) at 10.0m level Direction.

1-3 4-7 8-12 13-10 19-24

>24 TOTAL N

0 0

0 NNE D

0 0

NE O

O O

ENE O

O O

E O

O O

ESE O

O O

SE O

i 0

0 0

0 i

SSE O

0.

0 0

0 S

0 0

0 SSW 0

0 0

CW 0

0 0

WSW.

0 0

0 W

0 0

0 WNW 0

0 0

NW 0

0

-0 0

0 0

0 NNW 0

0 0

VARIABLE 7

3 0

0 0

0 10

i 0

1 0

0 0

0 Total' Periods of calm (hours):

4 Hours of Hissing datas 0

69

TABLE 4A-iBQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982-HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 82 )

3-31-02 STABILITY CLASSi F ELEVATIONi45.7n ________-_____-----___--_---__-----_-_-__---__-_--_---__________

Wind Speed (nph) at 45.7n level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

ENE O

O O

E O

i 0

0 0

0 i

ESE O

i 0

0 0

0 i

SE i

0 0

0 i

SSE O

O O

S 0

0 0

SSW 0

1 0

0 0

0 i

SW 0

0 0

WSW 0

0 0

0.

O W

0 1

0 0

i WNW 0

0 0

l NW 0

0 0

(

NNW 0

4 0

0 0

0 4

. VARIABLE' 2

3 0

0 0

0 5

i 8

0 0

9 Total r

l Periods of calm (hours):

3 Haurs of missing data 0

J 70 w _-

TABLE 4A-1BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit'i - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 -i-82 3 3-31-82 STABILIlY CLASS: F ELEVATIONii0.On Wind Speed (mph) at 10.On level Direction-13 4_7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE.

0 0

0 ENE O

O O

E 0.

0 0

ESE i

0 0

0 i

SE.

0 0

0 SSE D

0 0

S 0

0 0

SSW

.0 1

0 0

i SW 0

0 0

WSW 0

0 0

W i

0 0

0 i

WNW 0

0 0

I NW 0

0 0

NNW 3

0 0

0 3

VARIABLE 9

0 0

0 9

____________________________-_-______________-__-_-_____-______-___---------6 5

1 0

0 0

0 Total

' Periods of caln(hours):

2 H urs of missing data 0

71

g TABLE 4A-iBQi r-CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982

~

HOURS AT EACH-WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 82-)

3-31-82 SlABILITY CLASS: G ELEVATIONi45.7m Wind Speed (nph) at 45.7n level Direction 1-3 4-7 8-12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

0-0 0

0 0

0 ENE O

3 0

0 0

0 3

E O

O O

ESE O

O O

"S E.

0 2

0 0

2 SSE O

O O

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 0

WNW 0.

0 0

NW 0

0 0

-NNW 0

0 0

VARIABLE 2

3 0

0 0

0 5

0 0

5 Total Periods of caln(hours):

4 Hours of missing data 0

72

q TABLE 4A'iBQi

. CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - ist Quarter, 1982 HOURS ~AT EACH WIND SPEED ANL DIRECTION RELEAGE MODE: BATCH PERIOD OF RECORD:

1 82 }

3-31-82 STABILITY CLASS: G ELEVATION:10.On Wind Speed (mph) at 10.0m level Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL N

i 0

0 0

i

.NNE O

O O

NE O

O O

ENE O

O O

E O

O O

ESE O

O O

O 0 0

.SE O

0 0

SSE O

0 0

S 0

0 0

.0 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 0

WNW-0 0

0 0

0 NW 0

0 0

NNW i

0 0

0 i

VARIABLE 4

i 0

0 0

0 S

2 0

0 0

2

. Total 7

Periods of-calm (hours):

Hours of missing data 0

73

E TABLE 4A-1B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

4 82 3 6-30-82 SIABILITY CLASS: A ELEVATION 4S.7m Wind Speed (mph) at 4S.7m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N-0 0

0 0

0 NNE O

O O

.NE-0 0

0 0

0 ENE O

O O

E O

O O

ESE O

O O

0 0

.SE O

O O

SSE O

O O

S 0

0 0

SSW-0 0

0 0

0 SW 0

0 0

WSW D

0 0

W 0

0 0

WNW 0

0 0

'NW 0

0 0

NNW 0

0 0

VARIABLE O

O O

0 0

0

' Total Periods of calm (hours):

0 Hours of missing data:

0 74

TABLE 4A-iBQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farles Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODEi-B AT CH

-PERIOD OF RECORD:

4 -i-82 )

6-30-82

-SlABILITY CLASS: A ELEVATION:10.On Wind Speed (mph) at 10.On level 13 18 19-24

>24 TOTAL Direction 13 4-7 8 _12

N 0.

0 0

0-0 NNE O

O O

NE O

O O

ENE-0 0

0 0

0 E

O O

O ESE O

O O

SE-0 0

0 0

0

.SSE-0 a

0 0

0 S

0 0

0 SSW 0

0 0-0 0

0 0

SW 0

0 0

.WSW-0 0

0 0

0 W

0 0

0 WNW 0

0 0

NW 0

0 0

NNW D

0 0

VARIABLE O

O O

0 0

0

. Total Periods of caln(hours):

0

'Hsurs-of Missing data:

0 75

TABLE 4A-iBQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - 2nd Quarter, 1982 HOURS AT EACH' WIND SPEED AND DIRECTION

~ RELEASE MODE BATCH PERIOD OF RECORD:

4 -i-82 )

6-30-82 STABILIlY CLASS: B ELEVATION 45.7m Wind Speed (mph) at 45.7m level 13 18 19-24

>24 TOTAL Direction 13 4_7 8 _12 N

0 0

0 NNE O

O O

NE O

O O

ENE' O

O O

E.

0 0

0 ESE O

O O

SE O

O O

SSE.

0 0

0 S

0 0

0 SSW 0

0 0

SW 0

0 0

WSW 0

0-0 0

0 0

0 W

0 0

0 WNW 0

0 0

NW 0

0 0

NNW' 0

0 0

VARIABLE O

O O

0 0

0

. Total.

Periods of calm (hours):

0 Hsurs of-missing datai 0

76

TABLE 4A-1BQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH

-PERIOD OF RECORD:

4 -i-82 3 6-30-82

. STABILITY CLASS: B ELEVATIONii0.On Wind Speed (mph) at 10.On level

_-7--

B _12 13-18 19-24

>24 TOTAL Direction 1-3 4

l N

0 0

0

'NNE-0 0

0 0

0

.NE O

O O

ENE O

O 0-0 0

0 0

E-0 0

0 0

0 ESE O

O O

SE O

O O

SSE O

O O

S 0

0-0 0

0 0

0 SSW 0

0 0

SW 0

0 0

WSW 0

0 0'

O O

W~

0 0

0 WNW~

0 0

0

.NW O~

0 0

NNW 0

0 0

VARIABLE O

O O

0 0

0 Total l

Periods'of caln(hours)t 0

.Heers of missing. data 0

t 77 L_

l TABLE 4A-1BQ2 CUMULATIVE JOINT FREQUENCY DISTRIB:lTION Farley Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION REL8ASE MODEr. BATCH PERIOD OF RECORD:

4 -i-82 3 6-30-82 STABILITY CLASS: C ELEVATION:45.7m Wind Speed (mph) at 45.7m level Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

0 0

ENE' 0

0 0

E O

O O

ESE O

O O

SE O

0 0

SSE O

O O

S.

0 0

0 SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 0

WNW 0.

0 0

NW 0

0 0

NNW' O

O O

VARIABLE.

0 0

' Total Periods of calm (hours):

0

-Heurs of missing data 0

78

l' TABLE 4A-iB02 CUMULATIVE JOINT FREQUENCY DISTRIDUTION Farley Unit 1 - 2nd Quarter, 1982 HLTPs!I AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

4 82 3 6-30-82 STABILITY. CLASS-C ELEVATION:10.Da Wind Speed (Mph) at 10.0m level Direction 13 4_7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

'ENE O

O O

E O

O O

ESE O

O O

SE O

O O

SSE O

O O

O 0

5 0

0 0

.0 0

0 0

SSW 0

0 0

SW 0

0-0 0

0 0

0 WSW 0

0 0

W' O

O O

WNW 0

0 0

-NW 0

0 0

.NNW 0

0 0

VARIABLE O

O O

0 0

0 Total Periods of caln(hours):

0 Hours of missing datas 0

79 h

TABLE 4A-1BQ2~

CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - 2nd_ Quarter, 1982 HOURS AT EACH WIND SPEED $ND DIRECTION RELEASE HODE: BATCH PERIOD OF RECORD 4 -i-82 3 6-30-82 STABILITY CLASS: D ELEVATION:45.7m Wind Speed (mph) at 45.7n level

' Direction ~-

i-3 4-7 8-12 13-18 19-24

>24 TOTAL

.N 0

0 0

NNE-0 0

0 0

0 NE O

O 0.

0 0

ENE O

O O

E C

0 0

- ESE O

O O

SE O

O O

C 0

0 0

. SSE O

O O

S 0

0 0

. SSW D

0 0

SW 0

0 0

O_

0 0

0

- WSW 0

0 0

0.

0 0

0 W-0 0

0 0

0

- WNW.

0 0

0 NW 0

0 0

NNW 0

0 0

VARIABLE O

O O

-0 0

0 0

0 Total' 0

Periods.of.caln(hours)-

Hsurs of missing data 0

N p..

80

TABLE 4A-iBQ2 CUNULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE NODE: BATCH PERIOD OF RECORD:

4 -i-E ? }

6-30-82 STABILITY CLASS: D ELEVAT10N 10.On Wind Speed (mph) at 10.0n level Direction 13 4_7 8 _12 13 10 19-24

>24 TOTAL N

0 0

0-0 0

0 0

-NNE O

O O

NE~

0 0

0 ENE O

O O

E O

O O

ESE O

O O

SE O

O O

SSE O

O O

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 0

WNW 0

0 0

NW 0

0 0

NNW D

0 0

-VARIABLE O

O O

0 0

0 Total

' Periods of caln(hours):

0 Hours of missing data 0

81

TABLE 4A-1BQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH

' PERIOD OF RECORD:

4 -i-82 3 6-30-82

. STABILITY CLASS:1E

' ELEVATION 45.7m Wind Speed (nph) at 45.7m level

' Direction-i3 4-7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0-0 0

0-0 NNE O

O O

.NE O

O O

ENE O

O O

E O

O O

ESE 0-0 0

0 0

SE O

O O

SSE O

O 0

0 0

S 0

0 0

SSW 0

0 0

SW 0

0

.0 0

0 0-0

.WSW 0

0' O

O O

W 0

0 0

WNW 0

0 0

NW 0

0 0

NNW 0

0 0

VARIABLE 0

0 0

0 Total 0

Periods of caln(hours):

Hours-of missing datas 0

1 1

82 i.

TABLE 4A-iBQ2 CUMULATIVE JOINT FREQUENCY DISTRI'BUTION Farley Unit i - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

-RELEASE MODE: BATCH PERIOD OF RECORD:

4 -i-82 3 6-30-82 STABILITY CLASS: E ELEVATIONi10.0m Wind Speed (nph) at 10.On level Direction 1-3 4-7 8-12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

ENE.

0 0

0 E

O O

O ESE O

O O

SE O

O O

SSE

.0 0

0 0

0 S

0 0

0 SSW D

0 0

SW 0

0 0

WSW D

0 0

W.

0 0

0 WNW

'O O

O O

O NW 0

0 0

NNW 0

0 0

VARIABLE O

O O

0 0

0 Total: -Periods of caln(hours):

0 Hears of Missing datas -

0 83

TABLE 4A-iBQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit i.- 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE-MODE: BATCH PERIOD OF RECORD 4 82 )

6-30-82 STABILI'iY CLASS: F ELEVAT10N 45.7m Wind Speed (mph) at 45.7n level Direction 13 4-7 0 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE.

0 0

0 ENE O

O O

E O

O O

.ESE O

O O

.0 0

0 0

SE O

O O

SSE-0 0

0 0

0 S

0 0

0 SSW 0

0 0

SW 0

0 0

'WSW 0

0 0

W.

0 0

0 WhW 0

0 0

NW 0

0 0

,0 0

NNW-0 0

0 0

0 l

l VARIABLE O

O O

0 0

0 Total

~

Periods of caln(hours):

0

. Hours of missing data 0

i 84

TABLE 4A-1BQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 1 -- 2 n d Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE N0 dei BATCH PERIOD OF RF. CORD:

4 02 3-6-30-02 SlABILITY CLASS: F ELEVATIONii0,0m Wind Speed (mph) at 10.0m level

~ Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

ENE O

O O

'E O

O O

ESE-0 0

0 0

0 SE O

O O

SSE O

O O

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W D

0 0

- WNW 0

0 0

0 0-NW 0

0 0

NNW D

0 0

- VARIABLE O

O O

0 0

0 Total Periods of calm (hours):

0 Hours of missing data:

0 85 L

l TABLE 4A-1BQ2 CUMULATIVE JUINT FREQUENCY DISTRIBUTION

.Farley. Unit 1 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

4 -i-82 3 6-30-82 STABILITY CLASS G

ELEVATIONi45.7n

__-24

>24 TOTAL 19

_-3 4-7 8 _12 13 18 1

Direction

'N 0

0

.0 0

0 0

0 NNE O

O O

NE O

O O

ENE O

O O

E O

O O

'ESE O

O O

SE-0 0

0 0

0

-SSE O

O O

O 0

S~

0 0

0

.SSW D

0 0

SW 0

0 0

WSW 0

0 0

-0 0

W-0-

0 0

WNW D

0 0

NW.

0 0

0 NNW 0

0 0

VARIABLE O

O O

0 0

0-0 0

0 0

Total Periods of caln(hours):

0 Hours of missing data 0

86

TABLE 4A-1B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit i:- 2nd Quarter, 1982 HOURS ATcEACH WIND SPEED AND DIRECTION

- RELEASE MODEi-BATCH PERIOD OF RECORD:

4 -i-82 )

6-30-82 STABILITY CLASS: G ELEVATIONiiO.On Wind Speed (nph) at 10.On level Direction 13

_-7__

8 _12 4

13-18 19 24

.)24 TOTAL N'

.0 0-0 0

0 0

0

- NNE O

O O

NE-0 0

0 0

0 ENE-0

,0 0

0 0

E O

O O

0-0 0

0

- ESE' O

0 0

SE 6

0 0

0

'O

'SSE O

O O

0 0

-S 0

0 0

SSW 0

0 0'

0 0

SW.

0 0'

0 0

0 WSW -

0 0

0 0-0 0

0 W

0 0

0 WNW 0

0-0 0

0 0

0 NW 0

0 0

NNW 0

0 0-0 0'

0 0

~ VARIABLE O

O 0

0 0

0

-Total 0

PeriodsJof caln(hours):

i -

Heurs of missing datai

0 L

A

^

s L

87 l

L

. _ _ ~ _..

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Ourrter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 -i-82-)

3-31-82 STABILITY CLASS: A ELEVATIONi45.7m Wind Speed (mph) at 45.7m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

ENE.

0 0

0 E

O O

O ESE O

O O

O

.0 SE O

6 2-0 0

0 8

SSE-0 0

0 0

0 S

0 0

0 SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 1

0 0

0 i

WNW 0

0 0

NW 0

0 1

0 0

0 i

NNW 0

2 3

0 0

0 5

VARIABLE i

6 10 0

0 0

17 0

8 7

0 0

0 15 Total Periods of caln(hours):

i Heurs of missing datai 0

88

{:

t

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION.

Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 82 }

3-31-82 STABILITY-CLASS: A ELEVATIONii0,0m Wind Speed (mph) at 10.0n level Direction 13 4-7 8 _12-13 18 19 24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

ENE O

O O

E O

O O

ESE O

O O

0 0

SE 2

5 0

0 0

0 7

SSE O

O O

S 0

0 0

0' 0

0 0

SSW 0

0 0

SW:

0 0

0 WSW-0 0

0 0

0 W

0 0

0 WNW i

0 1

0 0

0 2

NW 0

0 1

0 0

0 i

NNW i

0 1

0 0

0 2

VARIABLE 5

8 7

0 0

0 20 4

5 3

0 0

0 12 Total Periods of calm (hours):

i j

. Hours of missing data:

0 i

89 l

L

.-:-..w T

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT.EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

i 82 }

3-31-82

-STABILITY CLASS: B

.ELEVAT10N 45.7n Wind Speed (nph) at 45.7n level Dir ec t ion 1-3 4-7 8 13-18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

0-0 0

0 0

0 ENE O

O O

E, 0

0 0

ESE O

O O

SE O

O O

SSE O

O O

S 0

0 0

SSW 0

0 0

SW 0

0 0

l WSW 0

0 0

W 0

0 0

WNW 0

0 0

l:

NW 0

0 0

NNW-0 0

0 0

0 VARIABLE 0-0 0

0 0

O O

O Total l

Periods of caln(hours):

0 Heurs of nissing data 0

i L-90 l

n TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE:-BATCH PERIOD OF RECORDi i 82 )

3-31-82 STABILITY CLASS: B ELEVATION 10.On Wind Speed (nph) at 10.0m level 1 Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL

N 0

0 0

NNE-0 0

0 0

0-0 0

0 0

0 NE ENE O

O O

O 0

0 0

E O

O O

ESE 0-0

.0 0

0 0

0 SE O

O O

SSE O

O O

S 0

0 0

SSW D

0 0

SW 0

0 0

'O O

WSW 0

0 0

W-0 0

0 0

0 WNW 0

0 0

NW 0

0 0

NNW

'O 0

0 0

0 VARIABLE 0

0 0

0 Total Periods of calm (hours):

0 Hsurs of missing data 0

91

i F

TABLE 4A-2B01 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE HODE: BATCH PERIOD OF RECORD:

i -i-82 3 3-31-82 STABILITY CLAS$i C-ELEVATION 45.7m Wind Speed (mph) at 45.7m level 19

>24 TOTAL Direction 1-3 4-7 8 _12 13 18

___-24__

N O

O O

NNE O

O O

O 0-0' 0

NE' 0

0 0

ENE O

O O

E O

O O

ESE D

0 0

SE 0'

0 0

SSE 0

0 0

S 0

0 0

SSW D

0 0

.SW 0

0 0

0-0 WSW 0

0 0

0

. 0 0;

, 0 W

0 0

-0x WNW 0

0 0

'O' 0

i NW 0

0 0

s NNW 0

0 0

a0 O

l

. VARIABLE i

1 0

0 0

'O 2

.__________________________________________________________________.,s_______._____

l-

~

0 0

0,

-0 0

Total Periods of caln(hours) 0 Hours of missing data:

0

... se s

r 4

a f

Ae YR f

92

-y

~.w, v.-,

e v.

g

y -

TABLE 4A-2B01 f

CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit ~ 2 - ist Guarter, 1982

' HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:.i 82 3 3-31-82 STABILITY CLASS: C ELEVAlIONi10.On Wind Speed (mph) at 10.0m level Direction 1-3 4-7 B-12 13-18 19-24

>24 TOTAL N

0 0

0

'NNE O

O O

NE O

O O

ENE O

O O

O 0

0 0

.E O

O O

ESE 0-0.

0 0

0 SE O

0 0

SSE O

O O

O 0

S 0-0 0

0 0

SSW 0

0 0

0 0-0 0

0 0

0 SW e

+

.WSW-e 0

0 0

7.:

~,

0 O

O O

O W..

WNw-0 0

0 0

0

-/

-NW 0

0

0 0

0 1

7 0

0 0

0 NNW 0

0 O

+

2,

f,..,0 VAliIABLE 0'

0 0

i

,,--.t, i

0 0

0 O

J s~

.s,

s-Total r

Periods of ca3n(hours)i i

Hsurs of missing datas 0

!+

4 jj

./,

t E'

wa

?,

A 4

t a

1%

rd

)

'r

,/ t

~

/

, p>

?

r,

,s

j,

/ ?.

{

p,!

-"i

,/

' Y, q, * > < "',

93

,~

. ;j A.

i

' i ? --

.,,.?~._,

1.rl 4.

TABLE 4A-2BQ1 F

CUMULATIVE JOINT FREQUENCY DISTRIBUTION

,Farley Unit 2 - ist-Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE-MODE BATCH PERIOD OF RECORD:

1 82 )

3-31-82 STABILITY CLASS: D

~ ELEVATION 45.7m Wind Speed (mph) at 45.7m level

. Wind Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 0'

0 NNE 0'

0 0

NE-0 0

0 0

0

'ENE O

O O

O' 0

E-0 0

0 0

0 ESE O

O O

-SE O

O 0

0 0

SSE.

0 0

0 S

0 0

0 SSW 0

0 0

SW 0

0 0

0 O

WSW D

0 0

-W 0

'O i

0 0

0 1

WNW-0 0

0 0

0 NW 0

0 0-0 0

0 0

NNW.

0 0

0-VARIABLE

'i i

0 0

2 0

0' i

0 0

0 1

Total Periods of calm (hours):

0 H2urs of missing datai 0

94

TABLE.4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT'EACH WIND SPEED AND DIRECTION

. RELEASE HDDE: BATCH PERIOD-OF RECORD:

1 -i-82 )

3-31-82 STABILITY CLASS: D ELEVATIONi10.On Wind Speed (nph) at 10.On level Direction 1-3 4-7 B-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE.

0 0

0 NE O

O O

0 0

ENE O

O O

E O

O O

O 0

0 0

LESE O

O O

0 0

SE O

O O

SSE O

O O

O 0

S 0

0 0

SSW 0

0 0

'SW 0

0 0

0 0.

0 0

WSW 0

0 0

'W 0

1 0

0 0

0 i

WNW 0

1 0

0 0

0 i

NW 0

0 0

NNW D

0 0

VARIABLE i

0 0

0 i

0 2

0 0

2 Total Periods of caln(hours):

0

Hours of missing data 0

95

TABLE 4A-2BQi

. CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist-Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 82 1 3-31-82 S~ LABILITY CLASS: E ELEVATIONi45.7m Wind Speed (mph) at 45.7m level Direction 13 4-7 8 _12 13 18 19-24

>24 TOTAL LN 0

0 0

-NNE O

O O

-NE-0 0

0 0

0

-ENE.

0 0

0 E

O O

O ESE 0.

0 0

SE O

O O

SSE O

O O

S.

0 0

0 SSW 0-0 0

0 0

SW

~0

.0 0

0 0

WSW 0

0 0

W.

0 0

4 0

0 0

4 WNW D

0 0

-NW

.0 0

0 0

0 NNW' 0

1 0

0 0

0 i

0 2

0 0

2 VARIABLE

________________________~________________________________________________________

0 1

4 0

0 0

5

-Total Periods of caln(hours):

0 LHaurs of missing data 0

96

L.

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:E 1 -i-82 3 3-31-82 SIABILITY CLASS:

ELEVATION 10.On-Wind Speed (nph) at 10.0m level Direction 13 4-7 8 _12 13 18 19 24

>24 TOTAL N

0 O

O O

O NNE O

O O

O 0

0 0

NE O

i 0

0 0

0 i

.ENE O

O O

O 0

E O

O O

ESE O

O O

SE.

O i

0 0

i SSE' 0

0 0

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW D

0 0

W.

0 2

0 0

2 WNW~

0 0

0 NW 0

0 0

NNW 0

0 0

VARIABLE i

0 0

3

._______________________---__-__2_______-____-___-__--___-_ _______-------_-___--_

0 4

0 0

4

' Total Periods of caIn(hours):

0 Hsurs of. missing datai 0

97 L

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODEi BATCH PERIOD OF RECORD:

1 -i-82 }

3-31-82 STABILITY CLASS: F ELEVATION 45.7m Wind Speed (mph) at 45.7m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

10 1

0 0

11 NNE O

O O

~

0 0

NE O

O O

ENE-0 0

0 0

-0 0

0 E

O O

O ESE.

0 0

0 SE' O

O O

SSE O

O O

O

.0 S'

0 0

0 0-0 SSW D

0 0

SW-0 0

0 0

0 WSW-0 0

0 0

0

.W 0

1 4

0 0

0-S WNW D

0 0

NW 0

0 0

NNW D

2 0

0 0

0-2 VARIABLE i

4 2

0 0

0 7

0 3

14 i

0 0

18 Total Periods.of calm (hours):

0

^ Hours of missing datas 0

98

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982

-HOURS AT EACH WIND SPEED AND DIRECTION RELEASE' MODE: BATCH PERIOD OF-RECORD:

1 82 )

3-31-82 STABILITY CLASS F

' ELEVATION 10.0m Wind Speed (mph) at 10.0m level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

'NE O

O O

.0 0

0 0

ENE-0 0

0 0

0

.E.

0 0

0 ESE i

0 0

0 i

SE.

0 0

0 SSE-'

0 0

0 S

0 0

0 SSW-0 0

0 0

0 SW 0

0 0

WSW 0

0 0

W i

3-0 0

0 0

4 WNW 0

0 0

NW 0

0 0

'NNW 0

0 0

0 0'

O O

. VARIABLE 6

i 0

0 0

0 7

2 3

0 0

5 Periods of calm (hours):

13

-Hours of missing data 0

99

r

=:

i TABLE 4A-2Bui

CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODEi -BATCH PERIOD OF RECORD:

1 82 7-3-31-82 STABILITY CLASS: G ELEVATIONi45.7m Wind Speed (mph) at 45.7m level 19

>24 TOTAL 13 18

__-24 Direction 13 4_7 8 _12 N

0 0

0 NNE.

0 0'

0 0

0 NE'

'O O

O O

O ENE 0

0 0

E O

O O

ESE:

0 0

0 SE O

O O

SSE-0 0

0 0

0 S

0 0

0 SSW

'O O

O O

O SW 0

0 0

WSW 0

0 0

W D

2 0

0 0

0 2

WNW 0

0 0

NW 0

0 0

-NNW D

0 0

VARIABLE O

i 0

0 0

0 1

0.

2 0

0 0

0 2

Total Periods of calm (hours):

0 Hours of missing datai-0 100

i

(

TABLE 4A-2BQi CUMULATIVE JOINT FREQUENCY DISTRIBUTION

.Farley Unit 2 - ist Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

1 -i-82 3 3-31-82 STABILITY CLASS: G ELEVATION:10.0m Wind Speed (nph) at 10.On level Direction 13 4_7

-8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE O

O O

ENE O

O O

E 0'

O O

O-0 0

0 ESE O

O O

SE O

O O

SSE O

O O

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW-0 0

0 0

0 W

0 0

0 WNW 0

0 0

NW 0

0 0

NNW 0

0 0

VARIABLE.

0 0

Total Periods of caln(hours):

3 Hours of missing datas 0

101 L-

TABLE 4A-2B02 CUMULATIVE JOINT' FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED-AND DIRECTION R'ELEASE MODE: BATCH PERIOD-OF RECORD:

~4 82 3 6-30-82' STABILITY. CLASS: A ELEVATIONi4S,7m ______________________________________________________________-_

Wind Speed (mph) at 45.7m level Direction 1_3 4_7 8 _12 13 18 19-24

>24

- TOT AL-N-

0-2 1

0 0

0 3

NNE O

O O

NE O

i i

0 0

0 2

ENE-0 0

0

.0 0

0 0

E~

0 0

0

ESE' 0'

0 0

SE-0 0

0 0-0 0

0 SSE 0'

0 0

0 0'

S-0 0

0 0

0 0-0 SSW 0

0 0

RSW 0-0 0

0 0

,WSW' 0'

O O

W-0 0

0~

0 0

0 0-WNW-0 1

0 0

i NW 0

0 0

NNW-0 8

5 0

0 0

13 VARIABLE.______________________=0 10 8

0 0

0 18 0

-12 7

0 0

0 19

" Total Periods of caln(hours):

0 Hours of missing datar 0

102

TABLE 4A-2B02 CUMULATIVE JOINT FP."QUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 i

HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH 6-30-82' PERIOD OF RECORD:

4 82.)

STABILITY CLASS:

A-

.ELEVATIONi10.0m.

Wind Speed (mph) at 10.On level

Direction" i-3

.4-7 8-12 13-18 19-24

>24 TOTAL

'N 0

1 0

0 0

0 i

NNE O

O O

~NE i

3 0

0 0

'O 4-ENE O

O 0-0 0

0 0

E 0

0 0~

0 0

ESE O

O O

SE.

0 0

0 SSE O

O O

S 0

0 0

SSW

-0 0

0 0

0

SW 0

0 0

0~

0 0

0 WSW

'O O

O O

O W

0 0

0 WNW 0

0 0

-NW 0

0 0

'NNW 4

ii 2

0 0

0 17 VARIABLE O

10 5

0 0

0 15 5

15 2

0 0

0 22

-Total ~.

,0 -

Periods of calm (hours):

-Hours 'of_ missing data 0

103

TABLE 4A-2B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982

' HOURS'AT EACH WIND SPEED AND DIRECTION J

RELEASE MODE: BATCH PERIOD OF RECORD:

4 -i-82 )

6-30-82 STABILITY CLASS: B ELEVATION 45.7m ________________________________________________________________

Wind Speed (mph) at 45.7m level Direction 13 4-7 8 _12 13 18 19 24

>24 TOTAL N-0 0

0 0

0 NNE-0 0

0 0

0 NE-0 0

0 0

0 ENE 0

0 0

E O

O

-0 0

0.

0 0

. ESE O

O O

SE O

O O

SSE O

O O

S 0

0 0

SSW-0 0

0 0

0 SW-0 0

0 0

0

- WSW D

0 0

W 0

0-0 0

0 0

0 WNW 0

0 0

NW 0

0 0

- NNW 0

2 0

0 0

0 2

VARIABLE O

O O

0 2

0 0

2 Total Periods of calm (hours):

0 Hoers of missing data:-

0 104

TABLE 4A-2B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley. Unit 2 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE HODEi BATCH PERIOD OF.RECORDi 4 -i-82 3 6-30-82 STABILITY CLASS: B ELEVAT._10N 10.On Wind Speed (nph) at 10.0n level Direction 1-3 4-7 8-12 13-18 19-24

>24 TOTAL N

0 0

0 NNE-0 0

0 0

0

-NE-0 0

0 0

0-ENE 0

0 0

.E O

O O

ESE O

O O

O' 0

SE O

O O

-SSE.

0 0

0 S

0 0

0 SSW 0

0 0

SW D

0 0

WSW D

0 0

0

'O O

O W

0 0

0 WNW 0

0 0

~NW 0

0 0

NNW-0 0

0 0

0 VARIABLE i

i 0

0 0

0 2

0 0

0 Total-0

' Periods of caln(hours):

Hours of missing datai 0

1 105

TABLE 4A-2B02-CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 HOURS-AT EACH WIND SPEED AND DIRECTION RELEASE'MODEi. BATCH PERIOD OF RECORD:

4 -i-82 3 6-30-82 STABILITY CLASS: C

. ELEVATION 45.7m Wind Speed (nph) at 45.7m level Direction 1-3 4-7 8-12.

13-18 19-24

>24 TOTAL N

0 0

'O 0

0 0

0 NNE

-0 0

0 0

0 NE O

O O

ENE O

O O

E O

O O

ESE O

O O

SE O

O O

SSE O

O O

0 0

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

-0 0

0 0

W 0

0 0

WNW 0

0 0

NW 0

0 0

NNW 0

0 0

VARIABLE.

0 0

Total Periods of caln(hours):

0 Hours of missing datas 0

106

' TABLE 4A-2B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982

' HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

4 82 )

6-30-82 STABILITY CLASS: C ELEVATION 10.0m Wind Speed (Mph) at 10.0m level Direction 1-3 4_7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE.

0 0

0 NE O

O O

ENE O

O

-0 0

0 0

0 E.

0 0

0 ESE-0 0

0 0

0 SE O

O O

SSE O

O' 0

0 0

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

0 0-0 0

W 0

0 0

0 WNW NW 0

0-0 0

0 0

0 NNW 0

0 0

VARIABLE O

O O

0 0

0

' Total Periods of calm (hours):

0 Hsurs of Missing datai 0

107

TABLE 4A-2B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 i

HOURS AT'EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH PERIOD OF RECORD:

4 -i-82 }

6-30-82 STABILITY CLASS: D ELEVATIONi45.7m Wind Speed (mph) at 45.7m level Direction 13 4-7.

8 _12 13 10 19-24

>24 TOTAL N

0 0

0

- NNE.

0 0

0 NE O

O O

.0 0

ENE.

0 0

0

- E--

.0 0

0 0

0 ESE O

O 0

0 0

-SE O

O O

- SSE' O

O O

'S 0

0 0

0

-0 0

-0 SSW 0

0 0

SW 0

0 0

WSW 0-0 0

0 0

W' O

O O

G 0

0 0

WNW 0

0 0

NW.

0 0

0

- NNW-0 0

'O O-0 0

0 VARIABLE O

i 0

0 0

0 i

O O

0 c'

Total Periods'of caln(hours):

0 e

Hours of Missing datai 0-108 L

TABLE 4A-2BQ2-CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION RELEASE MODE: BATCH 6-30-82 D 4 82 0 PERIOD OF RECORD:

STABILITY CLASS:

ELEVATIONi10.On Wind Speed (mph) at 10.On level 4

13 18 19-24

>24 TOTAL

__-7_

8 _12

_-3 1

Direction N

0 0

0-

-~NNE O

0 0

.NE O

O O

ENE O

O

-0 0

0

'O O'

E O

O O

.ESE O

O O

-SE O

O O

.SSE-0-

0 0

-S 0

0 0

SSW 0

0 0-0 0-0 0

SW O'

'O O

O' 0

0 0

WSW.

0 0

0 W

0 0

0 TNW 0

0 0

' NW' 0

0 0

NNW 0

0 0

VARIABLE-0 1

0 0

0~

0 1

0 0

0 Tetal 0

Periods--of caln(hours):

Hours'of.'nissing datai 0

l-109

m TABLE 4A-2B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 HOURS AT EACH WIND-SPEED AND DIRECTION

' RELEASE MODE: BATCH PERIOD'0F RECORD:

4 82 3 6-30-82

. STABILITY CLASS: E ELEVATION:45.7n

. Wind Speed (nph) at 45.7n level

' Direction 13 4_7 8 _12 13 18 19-24

>24 TOTAL N

0 0

0 NNE O

O O

NE.

0 0

0 ENE 0

0 0

E.

0 0

0 ESE-0 0

0 0

0 SE O

O O

SSE O

O O

S; O

O O

SSW D

0 0.

0 0

SW 0

0 0

LWSW 0

0 0

W 0

1 0

0 0

0 i

WNW 0

0 0

NW' 0

0 0

~NNW 0

0 0

VARIABLE O

2 0

0 0

0 2

0 1

0 0

i

Total Periods of caln(hours):

0 Hsurs of missing data 0

110

TABLE 4A-2BQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION

-Farley Unit 2 - 2nd Quarteri 1982

. HOURS AT EACH WIND SPEED AND DIRECTION r

RELEASE ~ MODE: BATCH PERIOD OF RECORD:

4 -i-82 3-6-30-82 STABILITY CLASS: E

.-ELEVATION 10.0m Wind Speed (mph) at 10.0m level 19

>24 TOTAL

__-24___

.__-7

~8 _12.

13 18 Direction, 13.

4 N'

0 0

0 NNE O

O O

.NE 0

0 0

0~

0 ENE O

O O

O 0

0 0

-E 0

0 0

ESE

.0 0

0 0

0

.SE O

O O

O 0

0 0

SSE O

O O

S 0

0 0

m SSW 0

0 0

SW 0

.0 0

0 0

WSW 0

0 0

W.

0 0

0 l.

WNW 0

0 0

NW-0 0

0-0 0

0 0

-NNW 0

0 0

VARIABLE 2

1 0

0 0

0 3

l 0

0 0

Total' Periods of caln(hours):

0 H3vrs of missing datai 0

111

TABLE 4A-2BQ2 CUMULATIVE JOINT-FREQUENCY DISTRIBUTION Farley Unit 2

-2nd Quarter, 1982 HOURS AT.EACH WIND SPEED AND. DIRECTION RELEASE MODE: BATCH PERIOD OF RECORDi' 4 82 }

6-30-82 STABILITY CLASS: F

- ELEVATION 45.7m

_-7 8 _12 13 18 19 24

>24 TOTAL

_-3 4

1 Direction N

0 0

0 NNE O

O O

-NE O

O O

ENE' 0

0 0

E O

O O-

'O O

O O

ESE

'O 0

0 0

0

-SE -

0 0

0 SSE O

O' 0

0 0

S 0

0

'O O

O

'O O

. SSW-0-

0-0 0

0 0

0 SW 0

0 0

WSW 0

0 0-0 0

0 0

W 0

5 0

0 0

0 5

- WNW D

0 0

' N W.-

0 0

0 NNW 0

3

-0 0

0 0

3 VARIABLE O

O O

0 8

0 0

8

Total

. i Periods of caln(hours):

Hours of missing datas 0

J 112

. _.. ~

TABLE 4A-2B02 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

-RELEASE MODEi BATCH

. PERIOD OF RECORD:

4 82-)

6-30-82 STABILITY CLASS: F ELEVATIONii0.0m Wind Speed (mph) at 10.0m level 13 18 19-24

>24 TOTAL

- Direction 1-3 4-7 8 _12__ _

N 0

0 0

NNE O

0, 0

0 0

NE-0 0

0 0

0 ENE O

O O

E D

0 0

ESE O

O O

SE-0 0-0 0

0 0

0 SSE O

O O

S 0

0 0

'SSW 0

0 0

SW 0

0 0

-WSW 0

0 0

W O

O O

WNW 0

0 0

'NW 0

0 0

NNW i

2 0

0 0

0 3

r

~ VARIABLE 3

0 0

0 3

i l

i 2

0 0

3

~ Total.

Periods of calm (hours):

3-Hours ofinissing datai

.0 L.

1 l

113

b TABLE 4A-2BQ2

. CUMULATIVE JOINT FREQUENCY DISTRIBUTION

-Farley Unit 2 -12nd Quarter, 1982

. HOURS-AT EACH WIND SPEED.AND DIRECTION RELEASE MODE: BATCH ~

PERIOD OF RECORD:

4'-i-82 }

6-30-82 STABILITY CLASS

-G~

- ELEVATION 45.7m Wind Speed (mph) at 45.7m level 19

>24 TOTAL Direction 13 4-7 8 12 13 18

__-24___

N 0

0 0

' NNE-O.

0-0 0

0 0

0 NE O

O O

- ENE 0

0 0

E O

O O

ESE-0 0

0 0

0 SE 0-0 0

0 0

- SSE' 0

0 0

S 0

0 0

SS'W ~

0 0

0 SW.

0 0

0

- WSW' O

O O'

0 0

0 0-W 0

0 0

WNW-0 0

0 0

0 NW 0

0 0

- NNW 0

9 0

0 0

0 V

VARIABLE _______________________________3 0

0 0

0 4

i

________________-__________________~_____________

0 9

0 0

9 4

I-Total 2

-Periods of caln(hours):

Hours _of;nissing datas 0-114 1

.a.--

,,i+--

3 r -

,g.,,

TABLE 4A-2BQ2 CUMULATIVE JOINT FREQUENCY DISTRIBUTION Farley Unit 2 - 2nd Quarter, 1982 HOURS AT EACH WIND SPEED AND DIRECTION

~ RELEASE HODE: BATCH-

-PERIOD OF RECORD 4 -i-82 3 6-30-82 STABILITY CLASS: G ELEVATION 10.On Wind Speed (mph) at 10.0m level 13 18 19-24

>24 TOTAL Direction 13 4-7 8 _12 N

0 0

0 NNE O

O O

NE O

O O

0 0

ENE O

O O

E O

O O

ESE O

O O

SE O

O O

SSE 0-0 0

0 0

S 0

0 0

SSW 0

0 0

SW 0

0 0

WSW 0

0 0

W 0

0 0

.WNW 0

0 0

NW 0

0 0

NNW 4

2 0'

i 0

0 7

VARIABLE 2

0 0

0 2

4 2

0 1

0 0

7 Total 6

Periods of caln(hours):

Hours of missing datar 0

115

TABLE 48 CLASSIFICATION OF ATMOSPHERIC STABILITY e

Stability Peequill se Ternperature change Classification Categories (destessi w'rth height ("C/100nd Extremely unstable A

25D

<-1.9 Moderately unstable B

20.0 1.9 to 1.7 SIIghtly unstable C

15D 1.7 to 1.5 Neutral D

10.0 1.5 to.0.5 Slightly stable E

5.0 0.5 to 1.5 Moderately stable F

2.5 1.5 to 4.0 Extremely stable G

1.7 -

>4.0 Standard deviation of horizontal wind direction fluctuation over a period of 15 minutes to I hour.The values shown are average for each stability classification.

I t

t l

i I

116

TABLE 5-1 RADIOACTIVE LIQUID WASTE SAMPLING AND ANALY.iiIS PROGRAM FARLEY NUCLEAR PLANT - UNIT 1 Liquid Sampling Type of Detectable Sourcef Frequency Activity Analysis Concentrations (u C1/ml)a A. Waste Monitor Each Batch Principal Gamma Emitters 5 x 10 7b Tank Releases

- One Batch / Month Dissolved Gases 10-5 L Weekly Composite' Ba-La-140'1-131 10-6 H-3 10-5 c

Gross Alpha 10-7 Monthly Composite Gross Beta 5 x 10-7 Quarterly i

Composite' Sr-89.Sr-90 5 x 10-8 b

f B. Steam Generatgr Weekly Composite -

Principal Gamma Emitters 5 x 10-7 I-Blowdown Ba-La-140,1-131 -

10-6 One sample / month Dissolved Gases 10-5 Monthly Composite-H-3 10-5 Gross alpha 10-7 Gross Beta 5 x 10-7 Quarterly Composite Sr-89. Sr 5 x 10-8 b

C. Turbine Building -

Each Batch -

Principal Gamma Emitters 5 x 10 7 d

Sump l

aThe detectability limits for activity analysis are based on the technical feasibility and on the potential significance in the environment of the quantities released. For some nuclides.

l lower detection limits may be readily achievable.~ and when nuclides are measured below the stated limits, they should also be reported.

bFor certain mixtures of gamma emitters, it may not be possible to measure radionuclides in con-

_ centrations near their sensitivity limits when other nuclides are present in the sample in much

_ greater concentrations. Under these circumstances, it will be more appropriate to calculate the concentrations of such radionuclides using measured ratios with those radionuc!! des which are routinely identified and measured.

'A composite sample is one in which the quantity of liquid sampled is proportional to the quantity l

of liquid waste discharged.

Sampled and analyzed only in the event of primary to secondary leakage and then only if to be d

discharged to the environs.

~ 'If the required sensitivity (10-6) can be obtained with the gamma scan on each batch, the weekly composite will not te required.

A batch release is the discharge of liquid waste of a discrete volume. A continuous release is the discharge ofliquid waste of a nondiscrete volume: a nondiscrete volume has an uninterrupted

' discharge flow during the continuous release.

117

TABLE 5-2 RADI0 ACTIVE LIQUID WASTE SAMPLING AND ANALYSIS PROGRAM

~

FARLEY NUCLEAR PLANT - LNIT 2

~~~

Minimum Detectable Minimum Concentration Liquid Release Sampling ~

Analysis Type of Activity (MDC)

Frequency Analysis (pci/ml)a,g Type Frequency A. Batch Waste

.P P

~7 Release Each Batch Each Betch Principa} Gamma 5x10 c

Tanks Emitters

-6 I-131 1x10

-5 P

M Dissolved and 1x10 One Batch /M Entrained Gases (Gamma emitters)

-5 1x10 P

M H-3 h

Each Batch Composite Gross Alpha 1x10,

-6 P-32 1x10

-8 P

Q Sr-89, Sr-90 5x10 b

Each Batch Composite

-6 Fe-55 1x10 l

~7 B. Continuous D

W Principa} Gamma 5x10 d

b Releases 'f Grab Sample.

Composite Emitters I-131 1x10

1. Steam

-5 Generator M

M Dissolved and 1x10 Blowdown Grab Sample Entrained Gases (Gamma Emitters)

-5 D

M H-3 1x10 b

Grab Sample Composita

-7 Gross Alpha 1x10

-6 P-32 1x10

~8 D

Q Sr-89, Sr-90 5x10 b

Grab Sample Composite

-6 Fa-55 1x10 o

-7 2.

Turbine P

W PrincipleGgmma 5x10 b

Builping Grab Sample Composite Emitters

-5 Sump H-3 1x10 l

118

~

TABLE 5-2 (Continued)

TABLE NOTATION The MDC is the smallest concentration of radioactive material in a sample s.

that will be detected with 95% probability with 5% probability of falsely concluding that a blank observation represents a "real" signal.

For a part.icular measurement system (which may include radiochemical separation):

4.66 s b

MDC = E V

2.22 x 10' Y

exp (-AAt)

Where:

MOC is the "a priori" lower limit of detection as defined above (as microcuria per unit mass or volume),

u is the standard deviation of the background counting rate or of stMe counting rate of a blank sample as appropriate (as counts per' minute),

E is the counting efficier.cy (as counts per transformation),

V is the sample size (in units of mass or volume),

2.22 x los is the number of transformations per minute per microcurie, Y is the fractional radiochemical yield (when applicable),

A is the radioactive decay constant for the particular radionuclide, and at is the elapsed time between midpoint of sample collection and time of counting (for plant effluents, not environmental samples).

used in tne calculation of the MOC for a detection The value of s systemshallbIbasedontheactualobservedvarianceofth'ebackground counting rate or of the counting rate of the blank samples (as appropriate) rather than on an unverified theoretically predicted variance.

Typical values of E, V, Y, and at shall be used in the calculation.

l 119

q'

,~

4

' I r

TABLE 5-2 (Continued)

TABLE NOTATION

^

" =

4 b.

A composite sample is one in which the quantity of-liquid sampled is.

eg proportional to the quantity of liquid waste discharged and in which".

I the method of sampling employed results in a specimen which is representative of the liquids released.

j-i c.

A batch release is the discharge of liquid wastes of a~ discrete p"

s volume.

Prior to sampling for analyses, each batch shall be <

isolated, and then thoroughly mixed, by a method describad in the 00CM, to assure representative sampling.

/

d.

A continuous release is the discharge of liquid wastes.of. a nondiscrete volume; e.g., from a volume of system that-has'an input

.m flow during the affluent release.

f e.

The principal gamma'amitters for which the MDC specification applies exclusively are the following radionuclides:

Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99, Cs.-134, Cs-137, Ce-141, and Ce-144.

This' list does not mean that only these nuclides are to be detected and reported.

Other peaks which are measurable and identifiable n together with the above nuclides, shall also be identified and reported.

f.

Sampling will be performed only if the effluent will be discharged to the environment.

. ;g,,

y

.i

/i g.

- Deviation from the MDC requirements of Table 4.11-1 shall be reported,

per Specification 6.9.1.8 in lieu of any other report.

e s

/

e 4

e

'e b

s y, y

~

1 a

n 120

-w

---e r

y-+,,

__.._m.-

.,,,.-,,,-_,-_.-,---,,__,.y..s,

N)j _f

(

z*-

r a

?

.h

.I

e'-

TABLEp[!

j to M,

< ~.

Y ItADIOAC'*IVE 2ASEOUS WASTE SAMP$JhG4TD ANALYSIS [ROGPAM

~

kVAFCIY NUCLEAR PL4SI/- VNIT 1

~

-s 7

5

,. t.

~

y u

.J

/

i f

g

(

<4

',, n

~'[ypes of Detectable Gaseous

' ' / Sampling

q oncentrations C

-Fyequency' Activity, Analysis Sources

. (v Cf /ml)a i

A.dalle Gas Decah. i Tankio be'rel ase' \\,

Principal Gamma Emitters 10-4 d

i ihnk Releases i f I ~#

~

+^

I: '{

ib" j q,j ~f g 3 10-6 r

c-f.

r-

? -p

- ~,

' r n

i',ich Pdege or' Weekly Pr$cipal Gamma Smitters 10-4 x

- D! [ Containment [(s -

e Purge Releas for Continutuir? urge

< H-3

't #

10-6

.l.

["

- y A

b; 10-4

.. f l Principal Gamma EmittQs

' t'C. Condenser Steam."

Monthly Y

i

' Jet Air Ejector 2 (Gas Samples)c i H-3 10-6

~

Principal Gamma Emittersb 20-4 Monthly ' ha)C

' D. Environmental (Gas, Samp 10-6 L

,;1telease Points a JCPlant Vent Stack)

[_~

H-3 M

4 9 10-12 Weekly (Charcoal I-131 l

10-10

" Sample)d 1 133

[

Weekly.

[6i Principal Gamma itters

/ (tarticulates)O '

(Ba-L4-140. I-E31 nnd, 10-11

}

/

otheN) s-f=

I i

Monthly Composite 10-11 (Particulates)

' Gross alpha

,y vg

- e e'

Quarterly Compo' tite l

10-11 i

i ~

^

/ (Particulates) ~

l 'Sr-99. Sr-90

,s.

/.

CThe above detectability limits for activity analysis are based on technical feasibility and on

~

N':

the potential significance in'the en*vironment et the hi:antities released. For some nuclides,

,D lower detection limits may"be readily achiev.ab'le iind when nuclides are measured below the stated limits, they should also be reported. '" 'h

,6-For certain mixtures of gamma emitterst il msy not be possible to measure,tadienoclides at b

levels near their sensitivity limits "when othkr nuclides are present in th'e sample at much higher levels. Under these circumstancesili will be mora appropriate to calculate the I.

f-levels of such radionuclides using measGred $ atios with thoi's radionuclides which are

/,!

f fmeasurable. Analyses shall also be perforded following each refueling, startup, or similar o l~

'C l

occurence which' could alter ttie miiture of radionuclides.

Analyses shall also be performed ially for a week fo'16 wing each refueling, s,tartup or d

. similar operational occurrence which, could lead to sightficant increase or decrease in 1

' radioiodine releases.

[

A batch relene is the discharge of gaseous waste of a discrete volume. A condnuous release O

is the discharge of gaseous waste of a nondiscrete volume; a nondiscrete vol.ame has an un-l interrupted discharge flow during the' continuous'telease.

N2 t.

p

, *f y.

a.~

u xSay,.,, 2,

l[

7*MLE 6-2.

RADI0 ACTIVE CASEOUS WASTE SAMPLING AND ANALYSIS PROGRAM I

FARLEY NUCLEAR PLANT - UNIT 2 i

Minimum Minimum Detectable Sampling Analysis Type of ConcentratignhI Gaseous Release Type Frequency Frequency Activity Analysis (pci/al)

P P

A.

Waste Gas Storage Each Tank Each Tank Principal Gamma Emitters 'I 1x10 9

~4 Tank Grab Sample 8.

Containment Purge Each Purge Each Purge Principal Gamma Emitters 'l 1x10 b

b 9

~4 Grab

-6 Sample H-3 1x10 8

~4 Principal Gamma Emitters 'l 1x10 D

b M 'C

M C.

Condenser Steam Jet Air Ejector Grab

-6 Plant Vent Stack Sample H-3 1x10 I

-12 D.

Plant Vent Stack, Continuous

/

I-131 1x10 Containment Purge Charcoal Charcoal

-10 0

Sample I-133 1x10 g

1x10'Il Continuous #

/

Principal Gamma Enitters Particulate (I-131,Others)

Sample

~ll Continuous #

M Gross Alpha 1x10 g

Composite Particulate Sample I

~ll Continuous Q

Sr-89 Sr-90 1x10 j

Composite Particulate l

Sample 1

-6 Continuous #

Noble Gas Noble Gases 1x10 Monitor Gross Beta & Gamma

TABLE 6-2 (Continued)

TABLE NOTATION The MDC is the smallest concentration of radioactive material in a sample a.

that will be detected with 95% probability with 5% probability of falsely concluding that a blank observation represents a "real" signal.

For a particular measurement system (which may include radiochemical separation):

4.66 sb

,E V

2.22 x 10*

Y exp (-Aat)

Where:

. MOC is the "a priori" lower limit of detection as defined above (as microcurie per unit mass or. volume),

is the standard deviation of the background counting rate or of str.e counting rate of a blank sample as appropriate (as counts per h

minute),

E is the counting efficiency (as counts per transformation),

V is the sample size (in units of mass or volume),

2.22 x 108 is the number of transformations per minute per microcurie, Y is the fractional radiochemical yield (when applicable),

A is the radioactive decay constant for the'particular radionuclide, and At is the elapsed time between midpoint of sample collection and time of counting (for plant effluents, not environmental samples).

l used in the calculation of the MDC for a detection The value of s system shall b3 based on the actual observed variance of the background u

counting rate or of the counting rate of the blank samples (as l-appropriate) rather than on an unverified theoretically predicted

(

Typical values of E, V, Y, and at shall be used in the variance.

calculation.

1 123 l-

TABLE 6-2 (Continued)

TABLE NOTATION Analyses shall also be performed following shutdown from >15% RATED

. b.

THERMAL P0WER, startup to >15% RATED THERMAL POWER or a THERMAL POWER change exceeding 15 percent of the RATED THERMAL POWER within a one hour period.

Tritium grab samples shall be taken from the plant vent stack at least c;

once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months when the refueling canal is flooded.

Samples shall be changed at least once per 7 days and analyses shall d.

be completed within 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months after changing (or after removal from Sampling shall also be performed at least once per 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months sampler).

for at least 2 days following each shutdown from >15% RATED THERMAL j

POWER, startup to >l5% RATED THERMAL POWER or THERMAL POWER change exceeding 15 percent of RATED THERMAL POWER in one hour and analyses l

shall be completed within 48 hours5.555556e-4 days 0.0133 hours 7.936508e-5 weeks 1.8264e-5 months of changing.

When samples collected for 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months are analyzed, the corresponding MDC may be increased by a factor of 10.

~

Tritium grab samples shall be taken at least once per 7 days from e.

.the ventilation exhaust from the spent fuel pool area, whenever spent fue1 is in the spent fuel pool.

The ratio of the sample flow rate to the sampled stc.'eam flow rate; I

f.

shall be known for th'a time period covered by each dose or dose rate calculation made in accordance with Specifications 3.11.2.1, 3.11.2.2 and 3.11.2.3.

The principal gamma emitters for which the MDC specification applies g.

exclusively are the following radionuclides:

Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99, Cs-134, Cs-137, Co-141 and Ce-144 for particulate emissions.

This list does not mean that only these nuclides are to be detected and reported.

Other peaks which are l

measureable and identifiable, together with the above nuclides, l

shall also be identified and reported.

i Deviations from MDC requirements of Table 4.11-2 shall be reported h.

l per Specification 6.9.1.8 in lieu of any other report.

A composite particulate sample is one in which the quantity of air 1.

Either sampled is proportional to the quantity of air discharged.

a specimen which is representative of the air discharged may be l

accumelated and analyzed or the individual samples may be analyzed and weighted,in proportion to their respective volume discharged.

l j.

The principal gamma emitters for which the MOC specification applies exclusively are the following radionuclides:

Kr-87, Kr-88, Xe-133, Xe-133m, Xe-135 and Xe-138 for gaseous emissions.

This does not Other mean that only these nuclides are to be detected and reported.

peaks which are measurable and identifiable, together with the above nuclides, shall also be identified and reported.

l 124 L

3 TABLE 7 LIQUID DISCHARGES NOT MEETING SPECIFIED DETECTION LIMITS Farley Unit 1 - 2nd Half,1981 l

Count Volume Dilution Total Isotope

% of Total

% of Time Discharged Water Isotopic of MDC Isotopic Total 4

Batch #

Date Sec.

Gallons Gallons Activity (1)

Interest Measured Activity Dose N/A*

N/A N/A N/A N/A N/A N/A N/A N/A N/A U

No liquid discharges made that did not meet specified detection limits.

e

=

[-[%

MelHng Address

/'

y Alabam) Power Company

/

1 600 North 18th Street e

h*

e #p#

Post Offico Box 2641 j

Birmingham, Alabama 35291 Telephone 205 783-6081 F. L Clayton. Jr.

%2' O ff!"'

@j Alabama Pbwer J

August 30, 1982 tre soortom electro syvem r

Docket Nos._50-34_

50-364 c.o N

..1 C

,' t.

zm D

z:0 Y

Mr. James P. O'Reilly 1* []

Regional Administrator g

.U. S. Nuclear Regulatory Commission g

gg Suite 3100 6;.

101 Marietta Street, N.W.

fF w

Atlanta, CA 30303 en Re:

Joseph M. Farley Nuclear Plant

//

Radioactive Effluent Release Rep rt

Dear Mr. O'Reilly:

The Joseph M. Farley Nuclear Plant Semi-Annual Radioactive Effluent Release Report for the first half of 1982 is nerewith submitted in i

accordance with the Unit 1 and Unit 2 Technical Specifications, Section 6.9.1.8.

If you have any questions, please advise.

Yours very truly, F.

. Clayton r.

FLCJr:WMJ:eb Attachment xc: Director Office of Nuclear Reactor Regulation Director Office of Inspection and Enforcement h[/

//g [

Mr. R. A. Thomas Mr. G. F. Trowbridge Mr. W. H. Bradford h8

!gi Mr..E. A. Reeves gdb o@

oV,c&e v 6

V 89 /3

ML20081F510

Text

Dear Mr. O'Reilly:

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