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TABLE 8-CA                                                                              I FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION                                                                          j HOURS AT EACH HIND SPEED AND DISECTION                                                                          I C                                              TO    31-DEC-89 23:59
TABLE 8-CA                                                                              I FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION                                                                          j HOURS AT EACH HIND SPEED AND DISECTION                                                                          I C                                              TO    31-DEC-89 23:59
[{ESI@g[ojCOE@jv.)JdhN'as00:00
[{ESI@g[ojCOE@jv.)JdhN'as00:00
{h{{}}CASg: F                                                      ALL HOURS IN PERIOD
{h((}}CASg: F                                                      ALL HOURS IN PERIOD
____________          .....___.s..........-1......                  ......... _...__..._______..                i Hind Speed (mph) at 60.3 m.                      level                                  J Hind                                                                                                      '
____________          .....___.s..........-1......                  ......... _...__..._______..                i Hind Speed (mph) at 60.3 m.                      level                                  J Hind                                                                                                      '
Direction        1-3              4-7            8-12      13-18                            >24    TOTAL
Direction        1-3              4-7            8-12      13-18                            >24    TOTAL

Revision as of 02:02, 27 February 2020

Semiannual Radioactive Effluent Release Rept,Jul-Dec 1989. W/900223 Ltr
ML20011F751
Person / Time
Site: Farley  Southern Nuclear icon.png
Issue date: 12/31/1989
From: Hairston W
ALABAMA POWER CO.
To:
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
NUDOCS 9003070384
Download: ML20011F751 (177)


Text

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. Alabama Power Company FW ~40 inverness 0:nter P;rk2ay t L. Post Office Box 1295 -

3 Birmingham, Alabama 35201

-. Telephone 205 868-5581 l

in- W. G. Hairston, til T Senior Vice President -

Nuclear Operations Alabama Power - i the southem electrc system .

Februa ry 23, 1990 1 t

t Docket Nos.- 50-348 50-364 U.S. Nuclear Regulatory Commission ATTN:-Document Control Desk -

Washington, D.C. 20555 4

Joseph M. Farley Nuclear Plant Radioactive Effluent Release Report Gentlemen:

~ The Joseph M. Farley Nuclear Plant Semiannual Radioactive Effluent Release Re) ort for the period of July 1,1989 through December 31, 1989 is herewith. ,

su nitted in ~ accordance with the Unit I and Unit- 2 Technical Specificatior'. .

Section 6.9.1.8. .{

If you have any questions, please contact our office.

Sincerely, .

.ihr VS W. G. Hairston, III ,

WGH:DMH/db ,

Attachment cc: Mr. S. D. Ebneter  ;

Mr. E. A. Reeves Mr. G. F. Maxwell; ,

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,00307o2e4 891231 $g PDR ADOCK05oogf8 R-

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ALABAMA POWER COMPANY FARLI:'.Y 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 REPORT JULY 1, 1989 THROUGH DECEMBER 31, 1989

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y CONTENTS CHAPTER 1 INTRODUCTION CHAPTER 2 SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL 2.1 REGULATORY LIMITS . . . . . . . . . . . . . . . . 2-1 2.1.1 Fission And Activation Gases . . . . . . . . . . 2-1 <

2.1.2 Iodines And Particulates . . . . . . . . . . . . 2-1 2.1.3 Liquid Effluents-. . . . . . . . . . . . . . . . 2-2 2.2 . MAXIMUM PERMISSIBLE CONCENTRATIONS . . . . . . . . 2-2 2.3 AVERAGE ENERGY . . . . . . . . . . . . . . . . . . 2-2 2.4 MEASUREMENTS AND APPROXIMATIONS OF TOTAL-ACTIVITY 2-2 2.4.1 Fission And Activation Gases . . . . . . . . . . 2-3 2.4.2 Iodines And Particulates . . . . . .. . . . . . 2-3 2.4.3 Liquid Effluents . . . . . . . . . . . . . . . . 2-4 2.5 BATCH RELEASES AND ABNORMAL RELEASES . . . . . . . 2-5 2.6 ESTIMATE OF TOTAL ERROR . . . . . . . . . . . . 2-10 2.6.1 Liquid . . . . . . . . . . . . . . . . . . . . 2-10 2.6.2 Gaseous- . . . . . . . . . . . . . . . . . . . 2-10 l 2.6.3 Solid Radwaste . . . . ,. . . . . . . . . . . 2-10 L 2.7 SOLID WASTE . . . . . . . . . . . . . . .. . .- 11 K 2.8 RADIOLOGICAL IMPACT ON MAN . . . . . . . . . . . 2-11

-2.9 METEOROLOGICAL DATA . . . . . . . . . . . . -. .. 2-14 2.10 MINIMUM DETECTABLE CONCENTRATION (MDC) . . . . . 2-14 2.11- DEVIATIONS FROM LIQUID WASTE RELEASE PROGRAM . . 2-14 2.12 DEVIATIONS FROM GASEOUS HASTE RELEASE PROGRAM . 2-14 2.13 ANNUAL RADIATION DOSE ASSESSMENT (1989) . . . . 2-15 4 CHAPTER 3 TABLE 1A-1 GASEOUS EFFLUENTS--SUMMATION OF ALL RELEASES, Farley Unit 1 - 2nd Half, 1989

= CHAPTER 4 TABLE 1A-2 GASEOUS EFFLUENTS--SUMMATION OF ALL RELEASES,-

Farley Unit 2 - 2nd Half, 1989 CHAPTER 5 TABLE 1B-1 GASEOUS EFFLUENTS--ELEVATED RELEASE, Farley Unit 1 - 2nd Half, 1989 CHAPTER 6 TABLE 1B-2 GASEOUS anUENTS--ELEVATED RELEASE, Farley Unit 2 - 2nd Half, 1989 i

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CHAPTER 7 TABLE 1C-1 GASEOUS EFFLUENTS--GROUND RELEASE,  ;

Farley Unit 1 - 2nd Half, 1989 CHAPTER 8 TABLE 1C-2 GASEOUS EFFLUENTS--GROUND RELEASE, Farley Unit 2 - 2nd Half, 1989

' CHAPTER 9 TABLE 2A-1 LIQUID EFFLUENTS--SUMMATION OF ALL RELEASES,-

Farley Unit 1 - 2nd Half, 1989- l it CHAPTER 10 TABLE 2A-2 LIQUID EFFLUENTS--SUMMATION OF ALL RELEASES,  !

Farley Unit 2 - 2nd Half, 1989-CHAPTER 11 TABLE 7B-1 LIQUID EFFLUENTS--BATCH AND CONTINUOUS, 6 Farley Unit 1 - 2nd Half, 1989 l

I CHAPTER 12 TABLE 2B-2 LIQUID EFFLUENTS--BATCH AND CONTINUOUS, Farley Unit 2 - 2nd Half, 1989 'f CHAPTER 13 TABLE 3 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS, 2nd Half, 1989 '

CHAPTER 14 TABLE 4A-CQ3 CUMULATIVE JOINT FREQUENCY DISTRIBUTION, Continuous Mode - 3rd Quarter, 1989 CHAPTER 15 TABLE 4A-CQ4 CUMULATIVE JOINT FREQUENCY DISTRIBUTION, Continuous Mode - 4th Quarter, 1989 CHAPTER 16 TABLE 4A-1BQ3 CUMULATIVE JOINT FREQUENCY DISTRIBUTION, Unit 1 Batch Mode - 3rd Quarter, 1989 l_ CHAPTER 17 TABLE 4A-1BQ4 CUMULATIVE JOINT FREQUENCY DISTRIBUTION, l

Unit 1 Batch Mode - 4th Quarter, 1989 1

[ CHAPTER 18 TABLE 4A-2BQ3 CUMULATIVE JOINT FREQUENCY DISTRIBUTION, L Unit 2 Batch Mode - 3rd Quarter, 1989 l

CHAPTER 19 TABLE 4A-2BQ4 CUMULATIVE JOINT FREQUENCY DISTRIBUTION, '

Unit 2 Batch Mode - 4th Quarter, 1989 l

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Page 3 CHAPTER 20 TABLE 4B CLASSIFICATION OF ATMOSPHERIC-STABILITY CHAPTER'21 TABLE 5 RADIOACTIVE GASEOUS HASTE SAMPLING AND ANALYSIS PROGRAM, Units 1 & 2 CHAPTER 22 TABLE 6 RADI0 ACTIVE LIQUID HASTE SAMPLING AND ANALYSIS PROGRAM, Units 1 & 2 i CHAPTER 23 TABLE 7 LIQUID DISCHARGES NOT MEETING SPECIFIED DETECTION LIMITS, Units 1 & 2 - 2nd Half, 1989

' CHAPTER 24 TABLE 8-CA CUMULATIVE JOINT FREQUENCY DISTRIBUTION, Continuous Mode - Annual, 1989 i

CHAPTER 25 PROCESS CONTROL PROGRAM

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t CHAPTER 1 INTRODUCTION V

This semi-annual radioactive release report, 'for the period '

July 1.-through December 31, 1989, is submitted in accordance with Appendix A of License No.'s NPF-2 and NPF-8. Appendix A will hereinafter be referred to as the Technical Specifications ,

or TS.

A single submittal is made for both units'which combines those >

sections that are common. Separate tables.of releases and release totals are included where separate processing . systems exist.

This report-includes an annual summary of hourly meteorological data collected over the past year and an assessment of the radiation doses due to the radioactive liquid and gaseous  !

affluents released from the Farley Nuclear Plant site over the same' period. Additionally Section 2.13 with associated ' dose contributions to sectors comprises an assessment of radiation doses to the likely most exposed member of the public from

. reactor releases and other nearby uranium fuel cycle sources (including doses from primary effluent pathways and direct radiation). All assessments of radiation doses'are performed in accordance with the OFFSITE DOSE CALCULATION MANUAL (ODCM).

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p CHAPTER 2 SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL 4

2.1 REGULATORY LIMITS 2.1.1 Fission And Activation Gases *

1) The dose rate-from the site at any time due to noble gases l shall be less. than or equal to 500 mrem /yr to the total body and 3000 mrem /yr to the skin.
2) The: air dose from nach reactor unit from the site during any calendar quarter due to noble gases shall be less than or equal to 5 mrad.for gamma radiation and 10 mrad for beta radiation.
3) The air dose from each reactor unit from the site during any calendar year due-to noble gases shall be less than or equal to '

10 mrad for gamma radiation and 20 mrad for beta radiation.

2.1.2 Iodines And Particulates

1) The dose rate from the site at any time due to iodines, particulates and radionuclides with half-lives greater than 8' days shall be less than or equal to 1500 arem/yr to any organ.
2) The dose from each reactor unit from the site during. any-  ;-

calendar quarter due to iodines, particulates and radionuclides '

with half-lives greater than 8 days shall be less than or equal

~

to 7.5 mrem to any organ.

3) The dose from each reactor unit from the site during any calendar year due to iodines, particulates and radionuclides with half-lives greater than 8 days shall be less than or equal to.15 mrem to any organ.

2-1

SUPPLEMENTAL INFORMATION FOR EFFLUENT AND WASTE DISPOSAL REGULATORY LIMITS 2.1.3 Liquid Effluents-

1) The concentration of radioactive materials released in liquid effluents to unrestricted areas from all reactors at the i l- site shall not exceed at any time the values specified in 10CFR '

Part 20, Appendix B, Table II, Column 2. The concentration of dissolved or entrained noble gases, released in liquid effluents to unrestricted areas from all reactors at the site, shall not exceed at any time 2E-4 uCi/ml in water.

2) The dose or dose commitment due to liquid effluents released I from each reactor unit from the site during any calendar l' quarter shall be less than or equal to 1.5 mrem to the total body and 5 mrem to any organ.
3) The dose or dose commitment due to liquid effluents released from each reactor unit from the site during any calendar year shall be less than or equal to 3 mrem to the total body and 10 l mrem to any organ.

l 2.2 MAXIMUM PERMISSIBLE CONCENTRATIONS l a) Airborne -

The maximum permissible concentration of l~ radioactive materials in gaseous effluents is limited by the dose rate restrictions of 10 CFR 20. In this case, the maximum permissible concentrations are actually determined by the dose factors in the ODCM.

b) Liquids - 10 CFR Part 20, Appendix B, Table II, Column 2.

Note: The MFC chosen is the most conservative value of either the soluble or insoluble-MFC for each isotope.

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2.3 AVERAGE ENERGY Not applicable for Farley's TS.

2.4 MEASUREMENTS AND APPROXIMATIONS OF TOTAL ACTIVITY

, The following discussion details the methods used to measure l and approximate total activity for the following:

.a. Fission and Activation Gases

b. Iodines and Particulates
c. Liquid Effluents 2-2 l

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-SUPP AL INFORMATION FOR EFFLUCNT AND HASTE DISPOSAL

' SUR TS AND APPR0XIMATIONS OF TOTAL ACTIVITY l

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

Values in the attached tabler given as zero do not mean that the nuclides were not pritsent . A zero indicates that the nuclide was not detected at levels greater than the sensitivity t 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 limit, it is reported.

V 2.4.1 Fission And Activation Gases-The following noble gases are considered in evaluating gaseous

airborne discharge

Kr-87 Xe-133 Kr-88 Xe-135 Xe-133m Xe-138 Periodic grab samples from plant effluent streams are analyzed Lby a. computerized pulse height analyzer system utilizing high-resolution germanium detectors. (See Table 5 for sampling and analytical requirements). Isotopic values thus obtained are used for release rate calculat-ions as specified in the ODCM.

Only those nuclides that are detected are used in this computation. During the period between grab samples, the amount of radioactivity released is based on the effluent monitor 7 readings.

The monitor meter response (cpm /uCi/ml) and the background (cpm) are used to adjust the activity released for variations in monitor readings, as described in the ODCM.

To ensure isotopic distributions do not change significantly during major operational occurrences, the frequency of grab sampling is increased to satisfy the requirements of footnotes (b) and (d) of TS~ Table 4.11-2, " Radioactive Gaseous Haste Sampling and Analysis Program".

2.4.2 : Iodines And Particulates The radioiodines and radioactive materials in particulate forms to-be considered are:

Mn-54 I-131 Fe-59 I-133 2-3

1 SUPPLEMENTAL INFORMATION.FOR EFFLUENT AND HASTE DISPOSAL MEASUREMENTS AND APPROXIMATIONS OF TOTAL ACTIVITY Co-58 Cs-134 Co-60 Cs-137 Zn-65 Ce-141 Sr-89 Ce-144-Sr-90 AH-3 Mo-99 Other nuclides with half-lives greater than 8 days which are identified and measured are also considered. The MDC's will vary and are not required to meet- the MDC limits of those isotopes listed specifically.

A Tritium is considered in the gaseous or water vapor form.

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. 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 and strontium as required. Gross alpha determinations are made using a 2 pi gas flow proportional counter. Sr-89 and 90 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 or Haste Gas Decay Tanks) is analogous to continuous releases, except that the release is not commenced until samples have been obtained and analyzed.

2.4.3 Liquid Effluents The radionuclides listed below are considered when evaluating liquid effluents:

Mn-54 I-131 l

Fe-59 Cs-134 Co-58 Cs-137 Co-60 Ce-141

,Zn-65 Ce-144 Sr-89 Mo-99 Sr-90 Fe-55 H-3 Batch Releases: Representative pre-release grab samples are obtained and analyzed per Table 6. Isotopic analyses are performed using the computerized pulse height analysis system 2-4

SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL l MEASUREMENTS AND APPROXIMATIONS OF TOTAL ACTIVITY l

previously described. Aliquots of each pre-release sample i proportional to the waste volume released are composited in accordance with requirements in Table 6. Strontium determinations are made by performing a chemical separation and counting the isotope thus separated using a 2 pi gas flow proportional counter. Gross beta and gross alpha determinations are made using 2 pi gas flow proportional j counters. Tritium and Iron 55 determinations are made using l

liquid scintillation techniques. Dissolved gases. are j

' determined employing grab sampling techniques and then counting 1 on the pulse height analyzer.

Continuous Releases: Continuous releases (from the Steam Generator Blowdown) are analogous to that of the batch releases except that they are analyzed on a weekly composite basis per Table 6.

2.5 BATCH RELEASES AND ABNORMAL RELEASES Batch releases and abnormal (non-routine) releases from units 1

  • L and 2 are shown on the following pages.

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SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL 'l BATCH RELEASES AND ABNORMAL RELEASES BATCH RELEASES - UNIT 1 l

QUARTER 3 QUARTER 4 LIQUIDS RELEASE (S): ALL Number of batch releases 193. 211.

Total time period for batch releases (min) 16405. 18190.

Maximum time period for a batch release (min) 105. 366.

Average time period for '

a batch release (min) 85. 86. l Minimum time period for ,

a batch release (min) 61. 65.

Average stream flow during.

periods of release (cfs)-

  • 9.27E+03
  • 1.20E+04 GASES RELEASE (S): ALL Number of batch releases 3. 9.

Total-time period for batch releases (min) 1449. 4593..

Maximum time period for a batch release (min) 661. 1013.

Average time period for a batch release (min) 483. 510.

Minimum time period for a batch release (min) 364. 13.

A Average River Flow Rate, taken at Walter F. George Lock and Dam, located 30.7 miles above Farley Nuclear Plant.

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-SUPPLEMENTAL'INFORMATION FOR EFFLUENT AND HASTE DISPOSAL BATCH RELEASES AND ABNORMAL RELEASES ABNORMAL RELEASES - UNIT 1

.__________.__......________. ___ ....____ ....................,_... g e

LIQUIDS Number of releases 0. O.

Total ~ activity released 0.00E+00 0.00E+00 1 GASES 4 4 Number of releases 0. O, Total activity released 0.00E+00 0.00E+00 t

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SUPPLEMENTAL INFORMATION FOR DTLUENT AND WASTE DISPOSAL BATCH RELEASES AND ABNORMAL RELEASES BATCH RELEASES:- UNIT 2-QUARTER 3 QUARTER 4 LIQUIDS RELEASE (S): ALL Number of batch releases 61. 84.

Total time period for batch releases (min) 5986. 8129.

Maximum time period for a batch release (min) 220. 130.

Average time period for a batch' release (min) 98. 97.

Minimum time period for a batch release (min) 85. 80.

Average stream flow during periods of release (cfs) A 9.27E+03 A 1.20E+04 GASES RELEASE (S): ALL Number of batch releases 0. O.

Total time period for batch releases (min) O. O.

Maximum. time period for a batch release (min) O. O.

Average time period for a batch release (min) 0. O.

l Minimum time period for L

a batch release (min) O. O.

A Average River Flow Rate, taken at Walter F. George Lock and Dam, i located 30.7 miles above Farley Nuclear Plant.

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r SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL

-BATCH RELEASES AND ABNORMAL RELEASES ABNORMAL RELEASES - UNIT 2

______________________________________________________________________q QUARTER 3 QUARTER 4 LIQUID 5- I Number of releases 0. O. .,

1 Totatl. activity released 0.00E+00- 0.00E+00-GASES Number of releases 0. O.

a.

Total activity released 0.00E+00 0.00E+00 ..

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, i SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL ESTIMATE OF TOTAL ERROR 2.6 ESTIMATE OF TOTAL ERROR '

-2.6.1 . Liquid

1) The maximum error associated with volume and flow measurements, based upon plant calibration practice is  ;

estimated to be + or - 10%. ,

1 2)'The average error associated with counting is estimated to be-less than + or - 15%.

2.6.2 Gaseous

'l) The maximum errors associated with monitor readings sample flow, vent flow, sample collection, monitor calibration and i laboratory procedure _are collectively estimated to bet L

i Fission and 3 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 j L i L -19% 28% 20% 8% j

\

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2.6.3 Solid Radwaste i l

The error involved in determining the contents of solid i radwaste shipments is estimated to be less than + or - 15%.

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a SUPPLEMENTAL INFORMATION FOR EFFLUENT-AND HASTE DISPOSAL- i w ESTIMATE OF TOTAL' ERROR >

1 UNIT- 1-1989 i

a 2.7' SOLID HASTE I See Table 3

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2. 8 - RADIOLOGICAL' IMPACT ON MAN The doses from. liquid and gaseous releases for units 1 and 2 are.shown on the following-pages.

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.I SUPPLEMENTAL INFORMATION FOR EFFLUENT AND WASTE DISPOSAL RADIOLOGICAL. IMPACT ON MAN 1

DOSES FROM LIQUID AND GASEOUS EFFLUENTS - UNIT l-(arem) *

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QUARTER 3 QUARTER 4  !

LIQUIDS RELEASE (S): ALL  ;

Bone 5.09E-03 4.32E-02 j Liver 9.72E-03 6.72E-02 ,!

Whole body -7.38E-03 4.72E-02 Thyroid 1.79E-03 7.58E-04 y

l ,.. Kidney 4.44E-03 2.30E-02 Lung 2.67E-03 8.16E-03 GI - LLI 1.21E-02 1.18E-01 i .

GASES RELEASE (S): ALL NOBLE GASES L Whole body 2.88E-03. 9.11E-04 Skin 1.48E-03 4.81E-04 l

E PARTICULATE AND IODINE Bone 1.20E-05 3.36E-05 i Liver 2.13E-03 1.09E-03 l-Whole body 2.12E-03 1.07E-03 Thyroid 6.73E-03 - 1.39E-02 Kidney 2.13E-03 1.09E-03 Lung- 2.12E-03 1.05E-03 GI - LLI 2.12E-03 -1.05E-03 Skin 9.15E-08 2.65E-07 A All doses in mrem except noble gas doses which are in mrad.

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SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL RADIOLOGICAL IMPACT ON MAN J

DOSES'FROM LIQUID AND GASEQUS

_______________________________--EFFLUENTS - UNIT 2 (mrem) A QUARTER 3 QUARTER 4 LIQUIDS RELEASE (S): ALL Bone 7.14E 8.34E-04 Liver 1.29E-02 2.07E-03 Whole body 9.68E-03 1.72E-03 Thyroid 5.75E-04 8.31E-04 Kidney 4.68E-03 1.25E-03 Lung 1.94E-03 9.81E-04 GI - LLI 1.03E-02 1.06E-01 GASES RELEASE (S): ALL >

NOBLE GASES 4 Whole body 3.76E-03 2.23E-03 Skin 1.33E-03 7.87E-04 PARTICULATE AND IODINE

-Bone 0.00E+00 0.00E+00 Liver 6.65E-03 2.12E-03 Whole body 6.65E-03 2.12E-03 Thyroid 6.65E-03 2.12E-03 i Kidney 6.65E-03 2.12E-03' Lung 6.65E-03 2.12E-03 l-GI - LLI 6.65E-03 2.12E-03 Skin 0.00E+00 0.00E+00

  • All doses in mrem except noble gas doses which are in mrad.

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SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL  ;

METEOROLOGICAL DATA 2.9 METEOROLOGICAL DATA'

- See Table 4A, " Cumulative Joint Frequency Distribution".

g Continuous Release Mode:

3rd Quarter, 1989  : 4A-CQ3 -

4th Quarter,'1989  : 4A-CQ4 Batch Release Mode (Unita 1 and 2):

3rd Quarter, 1989  : 4A-1BQ3 and 4A-2BQ3 4th Quarter, 1989  : 4A-1BQ4 and 4A-2BQ4

'1 2.10 ' MINIMUM DETECTABLE CONCENTRATION (MDC) ,

Detectable limits for activity analyses are based upon the technical feasibility and on the potential significance in the environment of the_ quantities released. However, in practice, ,

l when an isotope's a posteriori MDC could not be met due to L other nuclides being present in much greater concentrations, the a priori MDC as defined in the TS table 4.11-1 a. is relied upon.

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2.11 DEVIATIONS FROM LIQUID WASTE RELEASE PROGRAM A deviation'from the Liquid Haste Release Program occurred on Unit 2 during Quarter 4 in that the Waste Monitor Tank pumps were determined to'have flow less than design,resulting in insufficient required recirculation times prior to sampling. A subsequent evaluation revealed that the recirculation obtained was adequate to provide representative samples, therefore there ,

was no significant impact on liquid doses. A correction factor was then used to calculate recirculation times until the pumps could be repaired.

2.12 DEVIATIONS FROM GASEOUS HASTE RELEASE PROGRAM TWo deviations from the Gaseous Haste Release Program occurred on Unit 1 during Quarter 1. A continuous sample was not obtained on the Unit 1 Containment Purge the week of August 9 due to the sample pump having been unplugged. Also the Plant Vent Stack and Containment Purge filters for the week of August 28 were inadvertently disposed of prior to being used for compositing.

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". SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL '

ANNUAL RADIATION DOSE ASSESSMENT (1989)-  ;

i 2~.13 ANNUAL ^ RADIATION DOSE ASSESSMENT (1989)

JDOSES FROM LIQUID AND GASEOUS EFFLUENTS (mrem) A i LIQUIDS RELEASE (S): ALL f Bone- 6.49E-02 (

Liver' l.~12E-01 Whole body 8.18E-02 Thyroid :1.08E-02 Kidney 4.44E-02 Lung 2.22E-02 GI - LLI 3.08E-01 GASES RELEASE (S): ALL NOBLE GASES Whole body 1.69E-02 Skin. 1.61E-02 .

PARTICULATE AND IODINE Bone 4.62E-05 Liver 3.63E-02 Whole body 3.63E-02 Thyroid 5.39E-02 Kidney 3.63E-02 Lung 3.63E-02 GI - LLI 3.63E-02 Skin 3.95E-07

  • All doses in mrem except noble gas doses which are in mrad.

2-15

SUPPLEMENTAL INFORMATION FOR' EFFLUENT AND WASTE DISPOSAL ANNUAL. RADIATION DOSE ASSESSMENT (1989)

L Maximum Real Exposure l The maximum real exposure is an. assessment of radiation doses to the.

l likely most exposed member of the public from reactor releases and ,

L other nearby uranium fuel cycle sources including doses from all primary effluent pathways and direct radiation (liquid pathways are limited to the Chattahoochee River ) for the previous 12 consecutive >

months in conformance with 40 CFR 190.

A tabulation of doses to sixteen 22.5 degree sectors around the plant calculated at the site boundary provides the quarterly and yearly dose for each sector.-The dose or dose commitment to any member of the public due to releases of radioactivity and radiation from uranium fuel cycle sources are limited to less than or equal to 25 mrem to the total body or an organ (except the thyroid which is limited to less than or equal to 75 mrem) over 4 consecutive quarters. This technical specification ,

is provided to meet the dose limitations of 40 CFR 190.

Since the Farley Nuclear. Plant is.the only uranium fuel cycle source within a radius of 50 miles, the dose to any member of the public will be less than the dose in the highest sector. The tabulation below includes the quarterly and yearly doses from the highest sector for-each of the following:

-1. Gaseous iodine / particulate

2. Noble gases
3. Direct Radiation (Direct radiation data are actual field measurements made by thermoluminescent dosimetry as opposed to calculated data based on effluents. It should be noted that the direct radiation values reported herein include background radiation. Based on preoperational data, the reported direct radiation doses are essentially attributable to background +

radiation.)

2-16 l l

i-  !

SUPPLEMENTAL INFORMATION FOR EFFLUENT AND HASTE DISPOSAL  ;

ANNUAL RADIATION DOSE ASSESSMENT (1989)-  ;

MAXIMUM OFF-SITE DOSES Dose, Millirems A Source Note let Qtr 2nd Qtr 3rd Qtr 4th Qtr- Year Organ LIV GI LIV GI GI Liquid effluents (1) 1.23E-02 5.34E-02 2.26E-02 2.24E-01 3.08E-01 f

Organ THY THY THY THY THY _

Iodines and 1.06E-02 1.39E-02 1.34E-02 1.60E-02 5.39E-02 particulates (2)

Organ SKIN SKIN NB NB NB Noble gases (2) 1.12E-02 9.30E-04 6.64E-03 3.14E-03 1.69E-02 .

Sector E NE SE E NE Direct radiation (3) 2.46E+01 2.52E+01 2.36E+01 2.52E+01 8.06E+01 ,

Notes-

1. The liquid effluent total body and organ doses are determined by

, the fish pathway. These are calculated using the bioaccumulation L factors, dose conversion factors, and assumptions of Regulatory L Guide 1.109 (October 1977).

2. Gaseous effluent doses are calculated using annual average X/Q methodology per NUREG-0133 (October 1978).
3. Direct radiation was assessed using thermoluminescent

-dosimetry. Two dosimeters containing three L1F TLD chips were placed at selected locations within each of 16 sectors L around the plant. These chips were collected and read-

. quarterly and annually.

  • All doses in mrem except noble gas doses which are in mrad.

2-17

1 CHAPTER 3

[

TABLE 1A-1

, GASEOUS EFFLUENTS -- SUMMATION OF RELEASE (S): ALL.- UNIT 1 l UNITS l QUARTER l QUARTER l l l 3 l 4 l <

- A'.-FISSION AND ACTIVATION GASES l.1. TOTAL RELEASE l Ci l 1.90E+01 l 8.04E+00 l

.' l 2. AVERAGE RELEASE luC1/SECl 2.39E+00 l l.01E+00 l l- RATE FOR PERIOD l l l j l.3. PERCENT OF: TECHNICAL l  % l 4.37E-03 l -1.38E-03*l (T. BODY)

  • l l l l SPECIFICATION LIMIT.i

- l 4. PERCENT OF TECHNICAL l  % l . l~. 1 3 E .0 3 - l 3.55E-04 l (SKIN) A*

l SPECIFICATION LIMIT l l l l I

B. IODINES l 1. TOTAL IODINE-131 l Ci l 9.53E-06 l 2.66E-05 l l 2. AVERAGE RELEASE luC1/SECl 1.20E-06 l 3.35E-06 l

l. RATE FOR PERIOD l l l l

-l 3. PERCENT.OF TECHNICAL l  % l 2.46E-03 l 6.89E-03 l (ORGAN) ***

,; l SPECIFICATION LIMIT l l l l

  • E(Quarterly T. Body Dose x 4)/(250 mrem /yr limit)3 x 100
    • E(Quarterly Skin Dose x 4)/(1500 mrem /yr limit)3 x 100
      • E(Quarterly I-131 Dose x 4)/(750 mrem /yr limit)3 x 100 3-1 l

l

\

1

n Y.

p' '

TABLE 1A-l' l

?

i GASEOUS ~ EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 1 I UNITS l' QUARTER l QUARTER l_

l l 3 l 4 l C. PARTlJULATES ll. PARTICULATES WITH l Ci l 0.00Et00 1 0.00Et00 l l' HALF-LIVES >8 DAYS l l l l l 2. AVERAGE RELEASE l uCi/ SEC l- 0.00Et00 l RATE FOR PE 0.00Et00 l  ;

-l l l l l

__ _____________ RIOD ______________-__________.-_______________ t l_3.. PERCENT OF TECHNICAL l  % l 0.00E+00 l 0.00Et00 l (ORGAN) A l SPECIFICATION LIMIT l l l l l 4. GROSS ALPHA l Ci l 3.05E-08 l 1.29E-07 l .

l RADIOACTIVITY l l l l

. D. TRITIUM.

l 1. TOTAL RELEASE l Ci l 1.27Et01 l 8.44Et00 l l 2. AVERAGE RELEASE- luCi/SECl 1.60E+00 l 1.06Et00 l l' RATE'FOR PERIOD l l 1 l l 3. PERCENT OF TECHNICALl  % l 6.71E-03 1 3.32E-03 1 (ORGAN) *A t l . SPECIFICATION LIMIT-l l l l A E(Quarterly Particulate Dose x-4)/(750 mrem /yr limit)3 x 100 AA C(Quarterly Tritium Dose x 4)/(750 mrem /yr limit)3 x 100 g

t 1

1 3-2 i

1 l

n

i.

l i:  !

i

-:p CHAPTER 4 TABLE 1A-2 >

GASEOUS EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 2 l UNITS l QUARTER l QUARTER I l l 3 l 4 l '

A. FISSION AND ACTIVATION GASES  :

.....____.._.._____... ___-__...____u.._. _.......__...___

l 1. TOTAL RELEASE l Ci l 1.18E+01 l 7.01E+00 l l

i l 2. AVERAGE RELEASE luCi/SECl 1.48E+00 l 8.82E-01 l l RATE FOR PERIOD l l l l l 3. PERCENT OF TECHNICAL l  % l 5.71E-03 l 3.39E-03 l (T. BODY)

  • l l , SPECIFICATION LIMIT l l l l  :

l 4. PERCENT OF TECHNICAL l  % l 1.39E-03 l 8.27E-04 l (SKIN) **

l SPECIFICATION LIMIT l l l l l

I B. IODINES P l 1. TOTAL IODINE-131 l C1 l 0.00E+00 l 0.00E+00 l

  • l 1

i 2, AVERAGE RELEASE luC1/SECl 0.00E+00 l 0.00E+00 l .

l l RATE FOR PERIOD l l l l l l 3. PERCENT OF TECHNICAL l  % l 0.00E+00 l 0.00E+00 l (ORGAN) AAA L l SPECIFICATION LIMIT l l l l  ;

l _... __........ __.. __....__....._..._____ .____.........

l l

  • C(Quarterly T. Body Dose x 4)/(250 mrem /yr limit)3 x 100
    • C(Quarterly Skin Dose x 4)/(1500 arem/yr limit)] x 100
      • C(Quarterly I-131 Dose x 4)/(750 mrem /yr limit)3 x 100 L

t 1

4-1 l

TABLE 1A-2 GASEOUS EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 2 l UNITS l QUARTER l QUARTER l l l 3 1 4 l C. PARTICULATES l 1. PARTICULATES WITH l Ci l 0.00E+00 l 0.00E+00 l l HALF-LIVES >8 DAYS l

.............................._____....._............_____[

l l l 2. AVERAGE RELEASE luCi/SECl 0.00E+00 l 0.00Et00 l l RATE FOR PERIOD l l l

........l l 3. PERCENT OF TECHNICAL l  % l 0.00Et00 l 0.00E+00 l (ORGAN)

  • l- SPECIFICATION LIMIT l l l l l 4. GROSS ALPHA l Ci l 1.18E-08 l 6.86E-08 l l RADI0 ACTIVITY l l l l D. TRITIUM l 1. TOTAL RELEASE l Ci l 3.76E+01 l 1.20E+01 l l 2. AVERAGE RELEASE luCi/SECl 4.74E+00 l 1.51E+00 l l RATE FOR PERIOD l l l l l 3. PERCENT OF TECHNICAL l  % l 2.11E-02 l 6.73E-03 l (ORGAN) AA l SPECIFICATION LIMIT l l l l A E(Quarterly Particulate Dose x 4)/(750 mrem /yr limit)3 x 100 AA E(Quarterly Tritium Dose x 4)/(750 mrem /yr limit)3 x 100 4-2

.- f

CHAPTER 5 TABLE IB-1 GASEOUS EFFLUENTS - Elevated Releases RFIFASE(S) : ALL - UNIT 1

.._____.............___ ..__.... ___..... .. __________ __........________. 1 CONTINUOUS MODE BATCH MODE

NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER :
RELEASED  :  : 3  : 4 3  : 4  :
1. FISSION AND ACTIVATION GASES AR-41 C1 7.94E+00 2.55E+00 0.00E+00 0.00E+00 KR-85 Ci 0.00E+00 0.00E+00 3.02E-01 2.05E-01 XE-131M Ci 0.00E+00 0.00E+00 6.34E-03 3.18E-02 XE-133 Ci 6.38E+00 3.32E+00 1.68E-01 1.03E+00 XE-135 Ci 4.22E+00 9.00E-01 0.00E+00 0.00E+00 TOTAL FOR  :  :  :  :  :  :

PERIOD  : Ci  : 1.85E+01 : 6.77E+00 : 4.77E-01  : 1.27E+00  :

(ABOVE)  :  :  :  :  :  :

5-1

TABLE IB-1 GASEOUS EFFLUENTS - Elevated Releases RELEASE (S): ALL . UNIT 1 CONTINUOUS MODE BATCH MODE

.NUCLIDES UNITS : QUARTER : QUARTER : QUARTER : QUARTER  :

RELEASED  :  : 3 4  : 3  : 4-  :

2. 10 DINES I.131 Ci 9.53E-06 ~2.66E-05 0.00E+00 3.38E-09 I-133 Ci 0.00Et00 7.14E-06 0.00E+00 0.00E+00 TOTAL FOR  :  :  :  :  :

PERIOD  : Ci  : 9.53E 06 3.37E-05 0.00E+00 3.3BE-09 :

(ABOVE)  :  :  :  :  :

5-2 n.

TABLE AB A GASEQUB EFTLUENTS - Elevated Releases RELEASE (S): ALL - UNIT 1 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER QUARTER  : QUARTER :

a RELEASED  :  : 3 4 3 4

3. PARTICULATES H-3 Ci 1.27E+01 8.44E+00 0.00E+00 0.00E+00 G. ALPHA C1 3.05E-08 1.29E-07 3.59E-14 1.31E-13 TOTAL FOR  :  :  :  :  :  :

PERIOD  : Ci 1.27E+01  : 8.44E+00 a 3.59E-14  : 1.31E-13  :

(ABOVE) a  :  :  :  :

5-3

t I, t t  !

?

^

i i

i CHAPTER 6

~

TABLE 1B-2 GASEOUS EFFLUENTS - Elevated Releases RELEASE (S): ALL - UNIT 2 i

CONTINUOUS MODE BATCH MODE

~ ~ ~ ~ ~ ~~ ~ ~~

$~'hbbLIbbb ~I bhITk I hUbhkh I'~hUbhkk ~I hbbhkk ~I hhhhkk'~I

RELEASED  :  : 3  : 4  : 3  : 4  :

........___ . ___..______________..__'___.. _____...... _____.__t i

1. FISSION AND ACTIVATION GASES L AR-41 Ci 1.18E+01 7.01E+00 0.00E+00 0.00E+00 i i t

i i

l l

1.

1 1

TOTAL FOR :  :  :  :  :  : .

PERIOD  : Ci : 1.18E+01  : 7.01E+00 0.00E+00  : 0.00E+00  : ,

(ABOVE)  :  :  :  :  :  :

6-1 '

e

% ,- - - . , e -- er ---_ ,-

I

(

TABLE IB-2 GASEOUS EFFLUENTS - Elevated Releases RELEASE (S): ALL - UNIT 2 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER QUARTER  : QUARTER  :  :

QUARTER

RELEASED  :  : 3 4 3 4  :
2. 10 DINES TOTAL FOR  :  :  :  :  :  :

PERIOD  : Ci  : 0.00E+00 0.00E+00 0.00E+00 0.00E+00 i

(ABOVE) a  :  :  :

L 1

I 1

i l

6-2 m a

TABLE IB-2 GASEQUS EFFLUENTS - Elevated Releases RELEASE (S): ALL - UNIT 2 CONTINUOUS MODE BATCH MODE I NUCLIDES  : UNITS t QUARTER  : QUARTER  : QUARTER  : QUARTER :

RELEASED  : 3 4 3  : 4  :
3. PARTICULATES H-3 Ci 3.76E+01 1.20E+01 0.00E+00 0.00E+00 G. ALPHA Ci 1.18E-08 6.86E-08 0.00E+00 0.00E+00 TOTAL FOR  :  :  :  :

PERIOD  : Ci  : 3.76E+01  : 1.20E+01  : 0.00E+00 0.00E+00  :

(ABOVE) a  :  :  :  :

6-3 1 4

4

I CHAPTER 7

, TABLE 1C-1 GASEOUS EFFLUENTS - Ground Level Releases RELEASE (S): ALL - UNIT 1 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER :

RELEASED  :  : 3  : 4 3  : 4  :

1. FISSION AND ACTIVATION GASES XE-135 C1 1.79E-06 0.00E+00 0.00E+00 0.00E+00 TOTAL FOR  :  :  :  :  :  :

PERIOD Ci  : 1.79E-06' 0.00E+00 :-0.00E+00 1 0.00E+00  :

(ABOVE) t  :  :  :  :  :

7-1 r-

6 TABLE 1C-1 GASEOUS EFFLUENTS - Ground Level Releases RELEASE (S): ALL - UNIT 1 F

CONTINUOUS MODE BATCH MODE NUCLIDES UNITS : QUARTER : QUARTER : QUARTER : QUARTER  :

RELEASED  :  : 3 4  : 3 4  : ,
2. 10 DINES

(-

TOTAL FOR :  :  :  :  :  :

PERIOD Ci 0.00E+00 0.00E+00 0.00E+00 0.00E+00 :

(ABOVE)  :  :  :  :  :

7-2 i

i t I

3 i

i TABLE 1C-1  !

l 1

GASEOUS EFTLUENTS - Ground Level Releases RELEASE (S): ALL - UNIT 1 l i

CONTINUOUS MODE BATCH MODE i NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER  : i

RELEASED  :  : 3  : 4 3  : 4  : >

i

... _______.. ____.._________..__.................______ ........... _ 3 f

3. PARTICULATES i.

H-3 Ci 3.65E-03 4.50E-04 0.00E+00 0.00E+00 L

i

.r 4

TOTAL FOR  :  :  :  :  :  :

PERIOD Ci  : 3.65E-03  : 4.50E-04 0.00E+00 0.00Et00 : '

(ABOVE)  :  :  :  :

F l 7-3 PW_

1 l'

CHAPTER B TABLE IC-2 GASEOUS EFFLUENTS - Ground Level Releases RELEASE (S): ALL - UNIT 2 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER RELEASED  :  : 3  : 4  : 3 4  :

1. FIBSION AND ACTIVATION GASES XE-133 Ci 8.04E-08 0.00E+00 0.00E+00 0.00E+00 TOTAL FOR  :  :  :  :

PERIOD  : Ci  : 8.04E-08 : 0.00E+00 0.00E+00 0.00E+00 :

(ABOVE)  :  :  :  :  :

4 8-1 )

I n J

^

i

'd~ TABLE 1C-2 I

)

CASEOUS DTLUENTS - Ground Level Releases RELEASE (S): ALL - UNIT 2 i

........... .. ___... ___................. ... .._____.. ................_ . i 1 CONTINUOUS MODE BATCH MODE i

- NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER  : d i

RELEASED  :  : 3 4 3 4  :

....._ .......... _______.. ___............... ...________... ___..... ]

1

2. 10 DINES 1 i

f i

1 4

TOTAL FOR :  :  :  :  :  :

PERIOD  : Ci  : 0.00E+00 1 0.00E+00 0.00E+00 0.00E+00 :

(ABOVE) a  :  :  :  :  :

l l.

1 l

l 5

r 6-i l

l' 8-2

~

l I

r

! TABLE 1C-2 GASEOUS EFFLUENTS - Ground Level Releases RELEASE (S). ALL - UNIT 2 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER  :

RELEASED  :  : 3 4  : 3 4  :

3. PARTICULATES H-3 Ci 2.80E-03 1.65E-03 0.00Et00 0.00E^00 TOTAL FOR  :  :  :  :  :  :

PERIOD  : Ci 2.80E-03  : 1.65E-03  : 0.00Et00 0.00E+00  :

(ABOVE)  :  :  :  :  :

8-3 n

l 1

i i

c i

CHAPTER 9 i TABLE 2A-1 LIQUID EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 1 l UNITS l QUARTER l QUARTER l l l 3 l 4 l A. FISSION AND ACTIVATION PRODUCTS l 1. TOTAL RELEASE (EXCL.l Ci l 8.80E-03 l 4.20E-02 l l TRIT., GASES, ALPHA)l l l l l 2. AVERAGE DILUTED luCi/ml l 5.74E-10 1 3.01E-09 l l CONC. DURING PERIOD l l l l l 3. PERCENT OF l  % l 1.36E-03 l 4.8BE-03 l

  • l APPLICABLE LIMIT l l l l B. TRITIUM l 1. TOTAL RELEASE l Ci l 2.89E+02 l 1.11Et02 l l 2. AVERAGE DILUTED luCi/ml l 1.88E-05 l 7.94E-06 l l CONC. DURING PERIOD l l l l l 3. PERCENT OF l  % l 6.23E-01 l 2.63E-01 l *A l APPLICABLE LIMIT l l l l l-t-. ...___ ........... .... ...___............................

A (Summation of Fission and Activation Products C/MPC) x 100 l ** (Tritium C/MPC) x 100 i

i l l

?

I 9-1

. , , . . . ~

TABLE 2A-1 LIQUID EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 1 l UNITS l QUARTER l QUARTER l l l 3 l 4 l C. DISSOLVED AND ENTRAINED GASES l 1. TOTAL RELEASE l Ci l 2.14E-02 l 5.65E-03 l l 2. AVERAGE DILUTED luci/mi l 1.40E-09 l 4.04E-10 l l CONC. DURING PERIOD l l l l l 3. PERCENT OF l  % l 6.95E-04 l 2.01E-04 l

  • l APPLICABLE LIMIT l l l l D. GROSS ALPHA RADIOACTIVITY l 1. TOTAL RELEASE l Ci l 5.61E-06 l 4.52E-06 l E. VOLUME HASTE RELEASED l LITERS l 1.07E+08 l 8.36E+07 l l (PRIOR TO DILUTION) l l l l F. VOLUME DILUTION HATER l LITERS l 1.53E+10 l 1.40E+10 l l USED DURING PERIOD l l l l (Dissolved and Entrained Cases Concentration)/(2.00E-04) x 100 9-2

i.

CHAPTER 10 f, - TABLE 2A-2 L

LIQUID EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 2 l UNITS l QUARTER l QUARTER l l l 3 1 4 I A. FISSION AND ACTIVATION PRODUCTS l 1. TOTAL RELEASE (EXCL.l Ci l 7.67E-03 l 3.49E-02 l l- TRIT., GASES, ALPHA)l l l l l 2. AVERAGE DILUTED luCi/ml l 4.95E-10 l 2.33E-09 l l CONC. DURING PERIOD l l l

.___........_______...............____...l l 3. PERCENT OF l  % l 9.15E-04 l 2.15E-03 l

  • l APPLICABLE LIMIT l l l

................________...__________......__.....l B. TRITIUM l 1. TOTAL RELEASE l Ci l 9.00E+01 l 1.34Et02

.........__ ........... ____...____.........___ ...._____.l l 2. AVERAGE DILUTED luC1/ml l 5.82E-06 l 8.94E-06 l l CONC. DURING PERIOD l l

............._____........._____.......____l l

l 3. PERCENT OF l  % 1 1.92E-01 l 2.96E-01 l A*

l APPLICABLE LIMIT l l

.......__..______...__.........___.. _.._........_.....__.l l

(Summation of Fission and Activation Products C/MPC) x 100

TABLE 2A-2 ,

l i

LIQUID EFFLUENTS -- SUMMATION OF RELEASE (S): ALL - UNIT 2 l

....___...........______..______.....____..... 1 l UNITS l QUARTER l QUARTER l 1

l l 3 1 4 l I I

l C. DISSOLVED AND ENTRAINED GASES  !

l 1. TOTAL RELEASE Ci 1.35E-02 l l 9.03E-

.._______..................._________..____...l...______04 l ...

l 2. AVERAGE DILUTED luCi/ml l 8.72E-10 l 6.04E-11 l l CONC. DURING PERIOD l l

..............____......___..........__..... _l_.......____l l 3. PERCENT OF l  % l 4.33E-04 l 3.00E-05 l

  • l APPLICABLE LIMIT l l

________......____..___._l___....____.l D. GROSS ALPHA RADIOACTIVITY l 1. TOTAL RELEASE l Ci l 1.39E-06 5.40E-05

............___......__..........______. . __.l..__......__l E. VOLUME _ HASTE RELEASED (LITERS l 1.14E+0B l 1.11E+0B l l (PRIOR TO DILUTION) l l

.. ._______________........____. ____...__..__l____. __....l

)

F. VOLUME DILUTION MATER l LITERS l '1.55E+10 l 1.50Et10 (

l USED DURING PERIOD l l

.._________ . _________...___ .. _____..._____l___________l l A

(Dissolved and Entrained Gases Concentration)/(2.00E-04) x 100 10-2 1

'l i

I; l

CHAPTER 11 i TABLE 2B-1 '

1 LIQUID EFFLUENTS -

' RELEASE (S): ALL - UNIT 1 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER QUARTER  : QUARTER :

RELEASED  :  : 3 4 3  : 4  :

H-3 Ci 2.85E-01 9.61E-02 2.88E+02 1.llE+02 CR-51 Ci 0.00E+00 0.00E+00 1.17E-03 1.25E-02 MN-54 Ci 0.00E+00 0.00E+00 9.46E-05 1.82E-04 FE-55 Ci 0.00E+00 8.97E-04 1.11E-04' '2.39E-03 FE-59 Ci 0.00E+00 0.00E+00 1.25E-04 1.20E-04 CO-58 Ci 0.00E+00 0.00E+00 1.71E-03 9.66E-03 CO-60 Ci 0.00E+00 0.00E+00 4.22E-03 5.70E-03 SR-92 Ci 0.00E+00 0.00E+00 0.00E+00 3.36E-06 ZR-95 Ci 0.00E+00 0.00E+00 1.06E-04 1.36E-03 NB-95 Ci 0.00E+00 0.00E+00 2.15E-04 2.65E-03 TC-99M Ci 0.00E+00 0.00E+00 4.81E-05 2.93E-06 RU-103 Ci 0.00E+00 0.00E+00 4.96E-05 8.47E-04 RU-105 Ci 0.00E+00 0.00Et00 0.00E+00 2.22E-05 RU-106 Ci 0.00E+00 0.00E+00 5.64E-06 2.07E-05 AG-110M C1 0.00E+00 0.00E+00 1.21E-04 1.30E-03 TE-132 Ci 0.00E+00 0.00E+00 2.57E-05 9.73E-05 I-132 Ci 0.00E+00 0.00E+00 1.23E-05 7.94E-05 CS-134 Ci 0.00E+00 0.00E+00 1.07E-04 8.28E-04 CS-137 Ci 0.00E+00 0.00E+00 3.90E-04 3.20E-03 LA-140 Ci 0.00E+00 0.00E+00 1.51E-06 4.83E-06 CE-141 Ci 0.00E+00 0.00E+00 0.00E+00 4.31E-06 NP-239 Ci 0.00E+00 0.00E+00 2.16E-05 0.00E+00 G. ALPHA Ci 0.00E+00 0.00E+00 5.61E-06 4.52E-06 11-1

TABLE 8B-1 1

LIQUID EFFLUENTS RELEASE (S): ALL - UNIT 1 i CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER  :

RELEASED  : 3 4 3 4  :

SB-124 Ci 0.00E+00 0.00E+00 0.00E+00 8.47E-06 NB-97 Ci 0.00Et00 0.00E+00 9.53E-05 6.98E-05 SB-125 Ci 0.00E+00 0.00E+00 1.70E-04 9.77E-06 TOTAL FOR :  :  :  :  :

PERIOD  : Ci 2.85E-01  : 9.70E-02  : 2.85E+02 : 1.11E+02  :

(ABOVE)  :  :  :  :  :

l t

I 1

l l

1 11-2 1

nr 1

I i

i TABLE 2B-1 i

LIQUID EFTLUENTS - DISSOLVED AND ENTRAINED GASES - UNIT 1 l RELEASE (S): ALL  :

CONTINUOUS MODE BATCH MODE I

$ hbbLibEE  : Ukkhb $ hbEkhbh I hbkkhEk hbkkhEk' I hhEkhEh  : 1

RELEASED  :  : 3 4  : 3  : 4  : i l

XE-133M Ci 0.00E+00 0.00E+00 9.86E-05 3.10E-05 )

XE-133 Ci 0.00Et00 0.00E+00 2.12E-02 5.61E-03 l XE-135 Ci 0.00E+00 0.00E+00 9.52E-05 6.01E-06 i

TOTAL FOR  :  :  :  :  :

PERIOD  : Ci  : 0.00E+00 0.00E+00 1 2.14E-02 5.65E-03 :

(ABOVE) a  :  :  :

I 1

l l

l l

11-3 l

l l

l l

l

t' CHAPTER 12 i

TABLE 2B-2 LIQUID EFTLUENTS RELEASE (S): ALL - UNIT 2 CONTINUOUS MODE BATCH MODE

NUCLIDES  : UNITS : QUARTER  : QUARTER : QUARTER  : QUARTER :
RELEASED  :  : 3  : 4  : 3  : 4  :

H-3 Ci 1.44E+00 1.88E+00 8.86E+01 1.32E+02 I CR-51 Ci 0.00E+00 0.00E+00 2.05E-03 1.41E-02

, MN-54 Ci 0.00E+00 0.00E+00 6.95E-05 9.68E-05

! FE-55 Ci 0.00E+00 1.71E-03 9.11E-04 2.12E-03 l FE-59 Ci 0.00E+00 0.00E+00 8.70E-05 2.00E-04

CO-58 Ci 0.00E+00 0.00E+00 1.49E-03 6.88E-03 CO-60 Ci 0.00E+00 0.00E+00 1.68E-03 3.54E-03 ZN-65 Ci 0.00E+00 0.00E+00 0.00E+00 1.81E-06 SR-92 Ci 0.00E+00 0.00E+00 0.00E+00 2.55E-06 ZR-95 Ci 0.00E+00 0.00E+00 1.24E-04 1.34E-03 NB-95 Ci 0.00E+00 0.00E+00 2.16E-04 2.52E-03 TC-99M Ci 0.00E+00 0.00E+00 3.05E-05 0.00E+00 RU-103 Ci 0.00E+00 0.00E+00 9.64E-05 9.48E-04 i RU-105 C1 0.00E+00 0.00E+00 0.00E+00 3.70E-05 L RU-106 Ci 0.00E+00 0.00E+00 0.00E+00 5.14E-05 AG-110M Ci 0.00E+00 0.00E+00 1.98E-06 1.06E-03 l TE-132- Ci 0.00E+00 0.00E+00 4.51E-05 6.97E-05 l' I-132 Ci 0.00E+00 0.00E+00 1.00E-05 3.26E-05 I CS-134 Ci 2.58E-04 0.00E+00 5.08E-05 1.29E-05 CS-137 Ci 2.83E-04 0.00E+00 1.41E-04 5.51E-05 l

12-1 l

m

TABLE 2B-3 LIQUID EFFLUENTS RELEASE (S): ALL - UNIT 2 CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER  :

RELEASED  :  : 3 4 3 3 4  :

CE-141 Ci 0.00E+00 0.00E+00 0.00E+00- 4.20E-C5 NP-239 Ci 0.00E+00 0.00E+00 3.76E-05 0.00E+00 G. ALPHA Ci 0.00E+00 0.00E+00 1.39E-06 5.40E-06 NB-97 Ci 0.00E+00 0.00E+00 1.0BE-05 4.6BE-05 SB-125 Ci 0.00E+00 0.00E+00 7.9BE-05 0.00Et00 TOTAL FOR  :  :  :  :  :  :

PERIOD  : Ci  : 1.44E+00  : 1.BBE+00- : B.86E+01  : 1.32E+02  :

(ABOVE)  :  :  :  :  :

12-2

_ _ _ _ _ _ _ - - _ _ _ - _ - _ _ _ _ - _ _ _ _ _--_-------------_---------------------------------R-----------

L 1.

g TABLE 2B-2 LIQUID EFFLUENTS - DISSOLVED AND ENTRAINED GASES - UNIT 2 RELEASE (S): ALL CONTINUOUS MODE BATCH MODE NUCLIDES  : UNITS : QUARTER  : QUARTER  : QUARTER  : QUARTER  :

RELEASED  :  : 3  : 4 3  : 4  :

XE-133M Ci 0.00E+00 0.00Et00 7.57E-05 0.00E+00 XE-133 Ci 0.00E+00 0.00E+00 1.34E-02 9.03E-04 XE-135 Ci 0.00E+00 0.00E+00 2.63E-05 0.00E+00 i

TOTAL FOR  :  :  :  :  :  :

PERIOD  : Ci 0.00E+00 1 0.00E+00 1.35E-02  : 9.03E-04  :

(ABOVE) a  :  :  :  :

12-3

~

l 4

f CHAPTER 13 TABLE 3 SOLID HASTE AND IRRADIATED FUEL SHIPMENTS 2nd Half, 1989 SOLID HASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (not irradiated fuel)

1. Type of Haste UNITS PERIOD July 1 - Dec. 31 3
a. Spent resins, filter sludges, m B.320E 01 evaporator bottoms, etc. cia 1.290E 01 3
b. Dry compressible waste, m 2.220E 02 contaminated equipment, etc. cia 8.090E 00 3
c. Irradiated components, m NONE control rods, etc. Ci NONE 3
d. Other m None Ci None A Measured and/or estimated by correlations in accordance with 10 CFR 61.55.

13-1 n

TABLE 3

2. Estimate of major nuclide composition i ISOTOPES  % l
a. H-3 20.00 Mn-54 17.60 t C-14 16.70 Co-58 14.20 '

Ni-63 10.30 Fe-55 6.95 Co-60 4.98 Cs-137 3.08 Cr-51 1.78 .

Nb-95 1.10

b. Fe-55 46.40 l Co-60 28.90 l Co-58 8.31  !

Ni-63 6.45 '

Cs-137 1.79 C-14 1.71 '

Nb-95 1.01 i

f i

l 13-2

~

I  !

l TABLE 3 I

TABLE 3 (con't)

SOLID WASTE AND IRRADIATED FUEL SHIPMENTS -

2nd Half, 1989 I i

3. Solid Haste Disposition  ;
a. Number of Shipments 17

, b. Mode of Transportation Chen-Nuclear Transport (5)- 1 Hittaan Transport (12)  !

c. Destination Chem-Nuclear Systems, Inc. (16)

Barnwell, South Carolina l j

U.S. Ecology Nuclear (1)

Richland, Ha. 1 1

4. Type of Containers
a. ( la ) Type "A" and "B" Packages, Steel Liners, and High Integrity Containers
b. ( lb ) " Strong and Tight" Metal Boxes and Steel Drums
c. ( ic ) N/A -
5. Solidification Agents
a. ( la ) All Resins and Charcoals were shipped Dewatered. .Petroset II used for solidification of oil.
b. ( lb ) N/A l-B. IRRADIATED FUEL SHIPMENTS (Disposition)
1. Number of Shipments None
2. Mode of Transportation N/A 13-3 1

4

,_ , - , - , -- r--- -

L- I i

t 1

i i

i i

3 I

CHAPTER 14 -

TABLE 4A-CQ3 l The Quarter 3 cumulative joint frequency table for all releases is contained on i

.the following pages.

1 l

I

,6 l ,l' l

i I

t-14-1 1

m

p t

t TABLE 4A-CQ3 F

FARLEY NUCLEAR PLANT CUMULATIVE JOINT. FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground:

STABILITY CLASS: A ALL HOURS IN PERIOD ELEVATION: 10.0 m. i Hind Speed (mph) at 10.0 m. level Direction 1_3

__ 4_7 8-12 13 18 19-24 >24 TOTAL N. 0 0 0 0 0 0 0

_ NNE O O O O O O O l N2 0 0 0 0 0 0 0-ENE O O O O O O O E O O O O 0- 0 0 ESE O O O O .0 0 0

[. SE O O O O O O O'

~

SSE O O O O O O O S 0 0 0 0 0 0 0 L SSW 0 0 0 0 0 0 0 1 SW 0 0 0 0 0 0 0

j. WSW 0 0 0 0 0 0 0 1 '.

j W 0 0 0 0 0 0 0 HNH 1 0 0 0 0 0 1 W 0 0 0 0 0 0 0

^

l NNW' O O O O O O O

l. -VARIABLE O O O 9 0 0 0 Periods of calm (hours): 0 Hours of missing datas 0 (this stability class) l

-Hours of missing datas 0 (this time period, all stability classes) 14-2 l'

n

l TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTI'ON PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: B ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 4-7 19 ->24 TOTAL 1_3

_ _- ___ 8 _12

__ _ 13 _18

___ _ __-24 N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S- 0 0 0 0 0 0 0 SSW O O O O O O 0-SW 0 0 0 0 0 0 0 WSW 0- 0 0 0 0 0 0 W 0 0 0 0 0 0 0-WNW 0 0 0 0 0 0 0 NH 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of calm (hours): 0 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 14-3 e .

TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground-STABILITY CLASS: C ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 1-3

___ 4 _7 8-12

..__ 13_18 19-24

>24 TOTAL N O O O O -0 0 0

'NNE O O O O O O O NE O 1 0 0 0 0 1 ENE O 2 4 0 0 0 6 E O 1 0 0 0 0 1 ESE O 1 0 0 0 0 1-SE O 1 0 0 0 0 1 SSE O O O O O O O S 0 0 1 0 0 O 1 SSN O O O O O O O SW 0 0 0 0 0 0- 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O 2 0 0 0 0 2 Total 0 8 5 0 0 0 13 Periods of calm (hours): 0 Hours of missing data 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 14-4 ,

a. . _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ -

'i 9

i TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: D ALL HOURS IN PERIOD ELEVA_ TION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 1_3 4 _7 13 18 19 24 >24 TOTAL

__ __ 8 _12 N 1 1 0 0 0 0 2 NNE 3 20 2 0 0 0 25 ,

NE 10 49 24 0 0 0 83' ENE 5 75 33 0 0 0 113 E 8 54 4 0 0 0 66 ESE O 21 2 0 0 0 23 ,

-SE 2 15 4 0 0 0 21 SSE 1 1 3 0 0 0 5 S 2 6 4 0 0 0 12 SSW l 6 11 1 0 0 19 SW 7 38 23 0 0 0 68 WSW 6 28 4 0 0 0 3B ,

W 4 38 0 0 0 0 42 WNW 9 60 1 0 0 0 70 NW 9 29 4 0 0 0 42 NNW 5 16 0 0 0 0 21 VARIABLE 74 127 5 0 0 -0 206  :

Total 147 584 124 1 0 0 856 ,

Periods of calm (hours):-

Hours of missing data:

0 4 1

0 (this stability class) '

Hours of missing data 0 (this time period, all stability classes)  ;

l 14-5

~

I TABLE 4A-CQ3 FARLEY NUCLEAR PLANT

! CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: E ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 1_3 4_7 8-12 13-18 >24 TOTAL

__ __ ____ _____ 19_24 N 11 3 0 0 0 0 14 NNE 44 17 0 0 0 'O '61' NE 30 39 16 0 0 0 85-

.ENE 26 41 16 0 0 0 83 E 15 18 0 0 0 0 33-ESE 15 32 0 0 0 0 47 SE 4 27 5 0 0 0 36 SSE O 9 2 0 0 0 11 S 1 7 3 0 0 0 11 SSH- 4 13 24 0 0 0 41 SN' 21 48 14 0 0 0 83 WSW 23 17 2 0 0 0 42 W 19 4 0 0 0 0 23 WNW 21 3 0 0 0 0 24 NW 39' 9 0 0 0 0 48 NNW 30 26 0 0 0 0 56-VARIABLE 215 50 3 0 0 0 268

_____g_______________________________________________________

Periods of calm (hours): 4 Hours of missing datas 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) 14-6

TABLE 4A-CQ3 FARLEY NUCLEAR PLANT l

CUMULATIVE JOINT' FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: F ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (aph).at 10.0 m. level Direction. 1_3 4-7 8 12 19 >24 TOTAL

__ ___ .____ 13_18

__ __ ___-24 N 6 0 0 0 0 0 6 NNE 10 0 0 0 0 0 10 NE 9 0 0 0 0 0 9 ENE 7 0 0 0 0 0 7 E 4 0 0 0 0 0 4 ESE 1 4 0 0 0 0 5 SE 1 2 1 0 0 0 4 SSE' 1 0 0 0 0 0 1-S 0 0 0 0 0 0 0 SSH O O 0. 0 0 0 0 SW 2 5 0 0 0 0 7 WSW 12 5 0 0 0 0 17 W 13 6 0 0 0 0 19 WNH 26 2 0 0 0 0 28 NH 20 0 0 0 0 0 20-NNW 26 2 0 0 0 0 28 VARIABLE 100 2 0 0 0 0 102 Total 230 28 1 0 0 0 267-Periods of cala(hours): 8 Hours of missing datas 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) 14-7

t TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION ~

PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: G ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 1_3 4-7 8-12 13-18 19 >24 TOTAL

__ ___ ____ ..... ___-24 N 1 0 0 0 0 0 '1' NNE 4 0 0 0 0 0 4 NE 3 0 0 0 0 0 3 ENE O O O O O O O E O O O O O O 0-ESE 1 0 0 0 0 0 1 SE O 1 0 0 0 0 1 SSE O O O O O O O' S 0 0 0 0 0 0 0 SSW O O O O O O O SH 0 0 0 0 0 0 0

'WSH 0 0 0 0 0 0 ~0-N 5 0 0 0 0 0 5 HNH 7 0 0 0 0 0 7' NH 2 0 0 0 0 0 2 NNW 13 0 0 0 0 0' 13 VARIABLE 50 0 0 0 0 0 50 Periods of calm (hours): 6 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes)-

14-8 1

F , .. ... __. _ _ _

q; s

TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION PERIOD OF R:CCORD: 01-JUL-89 00:00 T0 30-SEP-89 23:59 R  ; O: levated .

S ' .

A ALL HOURS IN PERIOD E .  : I m.

~~ ~ ~~ ~ "

~ ~~~~ hind SpeeE~IEp~h5~Et 60I3 EI~~5e~Ee5~~ ~ " " ~~~~~~ "~~~

Direction 1-3 4-7

--- 8 _12 13-18 19-24 >24 TOTAL N 0 0 0 0 0 0 0-NNE O O O O .0 0 0 NE O O O O O O O ENE O O O 0 0 0 0 E O O O O O O O ESE O O O 0 0 0 0 SE O O O O O 0 0

-SSE O O O O O 0 0:

S' 0 0 0 0 0 0 0 SSN 0 0 0 0 0 0 -0 SH 0 0 0 0 0 0 0 HSH 0 0 0 0 0 0 0 W- 0 1 0 0 0 0 1 WNH 0 0 0 0- 0 0 0 NW 'O O O o 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of calm (hours): 0 H ours.of missing data 0 (this stability class)

.ours of missing data: 0 (this time period, all stability classes) 14-9 l

TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION-PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 R P S MOD 3: glevated b k ' N:, Im Wind Speed (mph) at 60.3 m. level Direction 13 4-7

___ 8 _12 13-18 19

__-24___

>24 TOTAL.

N 0 0 0 0- 0 0 0 NNE O O O O O O O NE O O O 0- 0 0 0-ENE O O O O O O O E O O O 0 0 0- 0 ESE O O O O O O O SE O O O O O 0- 0 SSE- 0 0 0 0 0 0 0 S -0 0 0 0 0 0 0 SSN 0 0 0 0 0 0 0-SW' 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0

. VARIABLE O O O O O O O Periods of calm (hours): 0 Fours of missing data: 0 (this stability class)

Fours of missing data 0 (this time period, all stability classes) 14-10

5-

-FARLEY NUCLEAR PLANT -

CUMULATIVE JOINT FREQUENCY DISTRIBUTION  !

HOURS AT EACH WIND SPEED AND DIRECTION I PERIOD-0F RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 .

RELEASEM0gI Elevated ggg gg ALL HOURS IN PERIOD ,

Hind Speed (mph) at 60.3 m. level Wind-Direction 13 4-7

___ 8 _12 13 18 19

_ _ _- 2 4 '

>24 TOTAL N 0 0 1 0 0 0 1 NNE O 1 1 0 0 0 2 NE O O 1 0 0 0 1 .i ENE 0 1 2 0 0 0 3 y E O 1 0 0 0 0 1 ESE O O O O O O 0 l SE 0- 1 0 0 0 0 1 l-SSE 0' 0 0 0 0 0 S 0 0 0 .0 0 0 0 ,

SSH 0 0 1 0 0 0 1-SH 0 0 0 0 0 0 0 '

WSW 0 0 0 0 0 0 0-H 0 0 0 0 0 0 0

'HNH 0 0 0 0 0 0 0  ;

NH 0 0 0 0 0 0 0 NNH 0 0 0 0 0 0 0 VARIABLE O O 2 0 0 0 2 Periods of calm (hours): 0

-:ours of missing data: 1 (this stability class

-;ours of missing data: 0 (this time period, all st) ability classes) 14-11 l

4 e

TABLE 4A-CQ3 ,

FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION [

HOURS AT EACH WIND SPEED AND DIRECTION P OD 0? 13 CORD: 01-JUL-89 00:00 T0- 30-SEP-89'23:59 -t R 0 2 : Elevated- ~'..

L SS: D ALL HOURS IN PERIOD

.3 m. .

Hind Speed (mph) at 60.3 m. level Wind Direction 1 _3 4-7 8 12 13 18 19-24

>24 TOTAL N 8 29 20 5 0 0 62 NNE 1 22 11 0 0 0 34 NE 2 23 38 6 0 0 69 ENE 2 37 17 13 -0 0 69 E 4 62 14 0 0 0 80 ESE 4 28 3 0 0 0 35 SE 3 11 12 1 0 0 27 SSE 1 2 5 1 0 0 9 8 1 2 .3 1 0 0 7-SSN O 6 6 6 0 0 18 SW 0 15 39 6 0 0 60 HSH 4 24 14 0 0 0 42 W 3 29 2 0 0 0 34 HNH 6 43 13 0 0 0 62 NW 3 36 7 1 0 0 47 NNW 3 14 2 0 0 0 19 VARIABLE 38 79 15 0 0 0 132 Total 83 462 221 40 0 0 806 Periods of calm (hours): 0 Hours of missing data 50 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 14-12

TABLE 4A-CQ3

-FARLEY NUCLEAR PLANT CUMULATIVE JOINT n.;;QUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Elevated STMIL::TY CLASS: E ALL HOURS IN PERIOD E L W A T ".O N : 60.3 m.

. Wind Speed (mph) at 60.3 m. level

Wind

. Direction 1

_-3

__ 4 _7 8-12 13 18 19

___-24 __

>24 TOTAL-N 11 31 37 2 0 0 81 NNE 5 33 25 0 0 0 63 NE 5 50 28 11 0 0 94 ENE 9 42 29 8 0 0 88 E 4 34 11 0 0 0 49-ESE 2 17 12 0 0 0 31 SE 1 18 29 1 0 0 49 SSE 2 6 22 0 0 0 30 S 0 6 7 2- 0 0 154 SSW l 7 27 10 0 0 45 LSW l 35 46 12 0 0 94 WSW 3 26 17 0 0 0 46 W 2 18 5 1 0 0 26 WNW 4 17 3 0 0 0 24 NW 4 29 4 0 0 0. 37 NNW 2 20 9 0 0 0 31 VARIABLE 35 51 22~ l 0 0 109 Periods of calm (hours): 1 iours of missing data 57 (this stability class) iours of missing data: 0 (this time period, all stability classes) 14-13

TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION 0? R CO: : 01-JUL-89 00:00 TO 30-SEP-89 23:59 0' e ated .

f S ALL HOURS IN PERIOD g ;----- Tdnri;;;rie;si ;ri5:r;:- i;;;i-------------------

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

>24 TOTAL N 0 4 4 0 0 0 -8 NNE O 8 10 0 0 0 18 NE 3 9 6 0 0 0 ENE 3 8 3 0 0 0 14 E O 18 2 0 0 0 20' ESE O 10 5 0 0 0 15 SE 1 3 4 0 0 0 - 8.

SSE 1 0 3 2 0 0 6 S 0 1 0 0 0 0 1 SSH 0 O 1 0 0 0 1 SH 1 8 5 0 0 0 14 HSH 2 6 9 0 0 0 17 H- -4 18 3 0 0 0 25 HNH 4 17 7 0 0 0 28-NH 2 9 8 0 0 0 19 NNH 2 12 7 0 0 0 21 VARIABLE 13 12 3 0 0 0 28 Periods of calm (hours): 0 E.ours of missing data: 14 (this stability class)

F,ours of missing data 0 (this time period, all stability classes) 14-14

c TABLE 4A-CQ3 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 JMSE MODE: Elevated "

g g CgSgt G ALL HOURS IN PERIOD

. Wind Speed (mph) at 60.3 m. level Direction 1-3 4-7 8-12 13 18 19

___-24__

>24 TOTAL N 0 4 0 0 0 0 4 NNE O O O O O O 0-NE O 6 0 0 0 0 6 ENE 1 4 0 0 0 0 5 E 2 6 0 0 0 0 8' ESE 1 6 3 0 0 0 10 SE O 6 1 0 0 0 '7 SSE O O O O O O O S 0 0 0 0 .0 0 ,0 SSH l' O O O O O 1 SW 0 0 0 0 0 0 0-NSW 1 3 1 0 0 0 5 W 0 3 1 0 0 0 4 HNH 0 6 2 0 0 0 8.

NN 0 1 0 0 0 0- 1 NNW 0 6 1 0 0 0 7 VARIABLE 12 10 0 0 0 0 22 Periods of calm (hours): 0 Hours of missing data 5 (this stability class)

Hours of missing data: 0 (this time period, all stability classes)-

14-15

, r-v.

h

'd CHAPTER 15 TABLE 4A-CQ4

'Tho Quarter 4 cumulative joint frequency table for all releases is contained on th2 fallowing pages.

l

-i

-I i

l 4

h l

  • E 15-1

TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION

-HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-OCT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: A ALL HOURS IN PERIOD ELEVATION: 10.0 m.

hinkbpeedibpb) at5bIbEI 5ehe5 Direction. 1_3__ 4_7

__ 8 _12

__ _ 13 _18 19-24

>24 TOTAL-____'

N O O O O O O O NNE O O O O O O 0-NE O 0 .0 0 0 0 0 ENE O O O O O O O E. 0 0 0 0 0 0 O.

ESE O O O O O O O SE O O O O O O O SSE O O O O- 0 0 0 S 0 0 0 0 0 0 0 SSW O O O O O 0 0' SW 0 0 0 0 0 0 0 WSW 0 0 0 _0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of calm (hours): 0 Hours of missing datas 0 (this stability class)

Hours of' missing data 0 (this time period, all stability classes) 15-2 i

- --i- - . ..

L TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 e

i RELEASE MODE: Ground STABILITY CLASS: B ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 1-3 13 19-24 >24 TOTAL

___ 4._ _7 8 _12

__ _ __-18 N O O O O O O O NNE O O O O O O O NE O O O O O O O-ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O 0.

SSE O O O O O O 0-S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0-SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O

____________________________________________________________________O _

Periods of calm (hours): 0 Hours of missing data 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 15-3 m____._ _ _ _ _ - . - _ _ . - - - - - - - - - - - . - - - - - ~ ~ ' - - - ~ ~ ~ ~ ~ '

TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS.AT EACH WIND SPEED AND DIRECTION PERIOD'OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: C ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 13 4 8 12 13 18 19

___ __-7 _ _ __

_ _____ ___-24

>24 TOTAL N O O O O O O 0-NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O 0 0 0 0 0 0 SE O O O O O O 0-SSE O O O O O O O S -0 0 0 0 -0 0 0-SSW 0 0 0 0 0 0 =0 SA 0 0 0 0 0 0 0 F5W 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O

_________________________________________O____________________________ O Periods of calm (hours): 0 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) l 15-4

P J

1 1

1 TABLE 4A-CQ4 1 1

I FARLEY NUCLEAR PLANT l

CUMULATIVE JOINT FREQUENCY DISTRIBUTION  :

l HOURS AT EACH-WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-OCT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: D ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed imph)-at 10.0 m. level Wind ,

Direction 13 13 18 19 24 >24 TOTAL i

__ _ 4 _7

__ 8 _12 N O 10 18 0 0 0 28-NNE 7 20 0 0 0 0 27 ' '

NE 10 41 31 0 0 0 82 ENE 7 33 8 0 0 0 48 E 7 21 0 0 0 0 28 ESE 2 9 0 0 0 0 11 l SE 2 18 5 0 0 0 25

.s SSE 2 4 8 0 0 0 14 S 0 2 7 1 0 0 10

'SSW O 1 5 2 0 0 8 i SH 4 10 16 3 0 0 33 WSW 1 26 4 0 0 0 31 i L W 2 18 4 0 0 0 24-WNW 3 35 11 0 0 0 49 NW 9 42 45 3 0 0 99 NNW 7 32 71 5 0 0 115-VARIABLE 40 71 18 0 0 0

__________________________________________________________________'_129. __

l-Periods of calm (hours):- 1 Hours of missing datas 0 (this stability class)-

Hours of missing data 0 (this time period, all stability classes) l L

15-5 1 1

l 1

---_-_-_1-

TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89.00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: E ALL HOURS IN PERIOD ELEVATION: 10.0 m'.

~ ~~~~ ~ ~

hibb Speed ibph) ~at ~ 5 bib ~bI 5bv~5~~~~~~

e Direction 1_3 4-7 13-18 >24 TOTAL

__ ___ 8 _12

__ _ _____ 19_24 N 10 3 1 0 0 0 14 NNE 20 24 0 0 0 0- 44 NE 19 28 0 0 0 0 47' ENE 11 12 2 0 0 0 25 E 10 11 l' O =0 0 22-ESE 8 16 1 0 0 0- 25 SE 3 24 14 0 0 0 41 SSE 3 3 6 3 0 0 15 S 0 8 5 2 0 0 15 SSN 1 6 6 2 0 0 15 SW 5 20 20 3 0 0 48 WSW 15 28 3 0 0 0 46 N' 22 7 0 0 0 0 29 WNW 15 17 1 1 0 0 34 NW 19 25 20 1 0 0 65 NNW 27 73 27 1 0 0 128

" VARIABLE 115 38 5 0 0 0 158 Total 303 343 112 13 0 0 771-Periods of calm (hours): 20 Hours of-missing data 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 15-6 1

' ' ' ~ ~

TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: F ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Wind Direction 1-3 13 18 19 24 >24 TOTAL

... 4

__ _7 8 _12 N 19 1 0 0 0 0 20 NNE 17 1 0 0 0 0 18 NE 12 0 0 0 0 0 12 ENE- 6 1 0 0 0 0 7 E 3 1 0 0 0 0 4 ESE 4 3 0 0 0 0 7 SE 1 9 0 0 0 0 10 SSE 3 2 2 0 0 0 7 S 0 2 0 0 0 0 2 SSW 1 2 3 0 0 0 6 SW 8 11 2 0 0 0- 21-WSW 3 7 0 0 0 0 10 W 10 0 0 0 0 0 10 WNW 9 4 0 0 0 0 13 NW 17 4 0 0 0 0 21 NNW 47 13 0 0 0 0 60 VARIABLE 92 12 0 0 0 0 104 Total 252 73 7 0 0 0 332 Periods of calm (hours):

Hours of-missing datas 12 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) 15-7 l

1

1,-

f TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-OCT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: G ALL HOURS IN PERIOD-ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction' 1-3 >24 TOTAL '

___ 4 _7

__ 8 _12

._ _ 13__18

___ 19 __24 N 32 11 0 0 0 0 43 NNE 8 0 0 0 0 0 8 r NE 6 0 0 0 0 0 6 ENE 3 0 0 0 0 0 3 E 4 1 0 0 0 0 5.

l ESE 1 2 0 0 0 0 3 SE 1 1 0 0 0 0 2:

p SSE 1 0 0- 0 0 0 1 >-

S 0 0 0 0 0 0~ 0 SSW 0 0 0 0 0 0 0 -

SW 2 0 0 0 0 0 2 WSW 2 0 0 0 0 0 2 L W 9~ 1 0 0 0 0 10 HNW 4 0 0 0 0 0 -4 NH 11 0 0 0 0 0 11 >

NNW 42 9 0 0 0 0 51 VARIABLE 142 4 0 0 0 0 146 Periods of calm (hours): 14 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 15-8 -

. = . _ _ _ _ - _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ - . . ...

u i

j l

I TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION

' T - E -89 23:59 liUA%Bi?B%2h2T-8' SfGIL::TY CLASS: A ALL HOURS IN PERIOD ELE /AT;:0N: 60.3 m. '

Hind Speed (mph) at 60.3 m. level

  • Wind Direction 1_3 4-7 8 12 13-18 19

-__-24 __

>24 TOTAL-N O O O 0 0 0 0 '!

NNE O O O O 0 0 0 NE O O O O O O O j ENE 0 0 0 0 0 0 0 l E 0 0 0 0 0 0 0 i ESE O O O O O O 0-l SE. 0 0 0 0 0 0 0 i 1'

SSE O O O O O O O S 0 0 0 0 0 .0 0  !

i SSH 0 0 0 0 0 0 0 i SH 0 0 0 0- 0 0 0 l

i HSH 0 0 0 0 0 0 0 H 0 0 0 0 0 0 0 l' HNH 0 0 0 0 0 0 0 '

NH- 0 0 0 0- 0 0- 0 NNH 0 0 0 0 0 0 0 VARIABLE O 0 0 0 0 0 0 i Periods of calm (hours): 0 Hours of missing data: O (this stability class)

Hours of missing data 0 (this time period, all stability classes) 15-9 l

O TABLE 4A-CQ4 FARLEY NUCLEAR-PLANT >

CUMULATIVE JOINT FREQUENCY DISTRIBUTION-HOURS AT EACH HIND SPEED AND DIRECTION P OF TPCORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 E Elevated JR . YL:

S l

M0]1 ASS:B N: 60.3 m.

ALL HOURS IN PERIOD

_____________g____g____-___;__-____________________________________-

Hind

  • Direction 13 47 13 18 19 >24 TOTAL-

___ ___ 8 _12

__ _ _____ -__-24 N 0 0 0 0 0 0 -O' L NNE 0- 0 0 0 0 0 0 NE O O O O O O' 0 ENE O O O O 0 0 0 E 0 0 0 0 0 0' 0 '

ESE- 0 0 0 0 0- 0 0 '

SE 0- 0 0 0 0 0 0 s SSE- 0 .0 0 0 0 0 0-S 0 0 0' O O O 0-SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 HSW 0 0 0 0 0 0 0' W 0 0 ,0 0 0 0 0  ;

HNW 0 0 0 0 0 0 0 g NH 0 0 0 0 0 0 0 1

L NNW 0 0 0 0 0 0 0 '

VARIABLE O O O O O O O 7eriods of calm (hours): 0 ours of missing data 0 (this stability class) g -ours of missing data: 0 (this time period, all stability classes)_ v 15-10 o

-)

TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE' JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION

)?

0F RECORD:'01-0CT-89 00:00. TO 31-DEC-89 23:59

~

1 E MODE: Elevated

' . ILITY CLASS: C .ALL HOURS IN PERIOD EVATION: 60.3 m. ____ _ _ _ _ _ _ _ _ _ _

_____________ g _

Wind-Direction 13

___ 4 _7 8-12 13

___-18 19-24 >24 TOTAL N 0 0 0 0 0 0 0 NNE O O O O O O O NE O O O O O O O ENE O O O 0 0 0 0 E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O 0 0 0 0 S 0 0 0 0 0 0 0 SSN- 0 0 0 0 0 0 0 SW 0- 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of calm (hours): 0 ours of missing data: 0 (this stability class)

"ours of missing data: 0 (this time period, all stability classes) 15-11

f TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION

! HOURS AT EACH WIND SPEED AND DIRECTION PCRIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 R ELEASE MODE: Elevated STABILITY CLASS: D ALL HOURS IN PERIOD ELEVATION: 60.3 m.

Wind Speed (mph) at 60.3 m. level Wind Direction 1_3 4 -7

___ 8 _12 13 18 19-24

>24 TOTAL N 1 11- 31 20 0 0 63 NNE 4 11 18 0 0 0 33-NE 1 26 49 8 0 0 84 ENE 3 25 15 0 0 0 43 E 4 17 4 0 0 0 25 ESE 5 7 0 0 0 0 12 SE O 14 8 0- 0 0 22 SSE 1 6 9 2 0 0 18 S 2 0 7 3 0 0 12 SSW O 1 5 9 0 0 15 SW l 9 15 7 0 0 32 WSW 2 16 9 0 0 0 27.

W 0 13 12 2 0 0 27 WNW 3 26 21 7 0 0 57 NW 4 20 50 27 4 0 105 NNW 0 19 17 23 1 0 60 VARIABLE 24 51 42 8 0 0 125 Periods of calm (hours): 2 F ours of missin datas 0 (this stability class)

Fours of missin data 0 (this time period, all stability classes) 15-12

5 TABLE 4A-CQ4 J FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION P

R;51-

0; D2 01-0CT-89 00
00 TO 31-DEC-89 23:59 0;0;i S:levated E

SI.k. .ALL HOURS IN PERIOD ELb . N: 60.3 m.

~

~~~~~~~~~~~~~ hindi 5 peed ~iEph) ~E~~60 5~E~~~5ehe5~~~~~~~~~~~~~~~~~~~~~ "-

Wind L Direction _-3 1

__ 4 _7

__ 8 _12 13 18 19 24

>24 TOTAL N 1 21 39 1 0 0 62 NNE 3 29 40 0 0 0 72 ,

NE O 20 26 0 0 0 46 ENE 1 23 3 0 0 0- 27 E 2 10 6 1 0 0 19 ESE 3 15 5 0 0 0 23 SE 1 16 21 1 0 0 39 SSE 2 9 21 14 0 0 46 S 3 6 3 7 0 0 19 SSW l 4 15 12 1 0 33 SW 0 6 23 11 2 0 42.

L WSW- 4 17 20 4 0 0 45 W 3 13 14 0 0 0 30 WNW- 2 13 28 3 1 0 47 NW 0 8 29 23 0 0 60, L NNW 2 18 33 17 0 0 70 VARIABLE 16 50 27 2 0 0 95 l

Periods of calm (hours): 16 Hours of missing data: 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) l l

15-13

~

4 I

i ,

TABLE 4A-CQ4 FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS-AT EACH WIND SPEED AND DIRECTION P: RIOD OF RECORD: 01-0CT-89 00:00~ TO 31-DEC-89 23:59 R 2:ASE MODE: Elevated S' A31LITY CLASS: F ALL HOURS IN PERIOD ELWATION: 60.3 m.

W1.nd Speed (mph) at 60.3 m. level Wind Direction 1-1 4-7 8-12 13-18 19

___-24

>24 TOTAL.

N 0 10 17 0 0 0 27-NNE 3 8 30 0 0 0 41 NE 1 7 22 0 0 0 30 ENE 2 8 4 0 0 0 14 E 3 11 3 0 0 0 17 ESE 2 7 3 0 0 0 12 SE 3 2 9 0 0 0 14-SSE 3 4 15 3 0 0 25' S 5 3 2 0 0 0 10 SSW 1 2 8 2 0 0 13 SW l 7 12 4 0- 0 24 WSW l 6 7 1 0 0 15 W l 4 4 0 0 0 9 WNW 2 2 9 0 0 0 13 NW l 3 10 1 0 0 15 NNW 2 15 13 0 0 0 30 VARIABLE 6 23 6 0 0 0 35 Total 37 122 174 11 0 01 344 Periods of calm (hours): 0 Hours of missing data 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 15-14 1

r i I i l

l

! i i  !

t.

i l

TABLE 4A-CQ4 l i

FARLEY NUCLEAR PLANT I CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION 1

jl 0.

0;

0.  : 01-0CT-89 00:00 TO 31-DEC-89 23:59 evated A{h,

{ 6,j S G ALL HOURS IN PERIOD l

_____________g; g_g __g____;_____gg_3_____7___7_____________________

Wind 19 24 Direction 1

_-3 >24 TOTAL  !

__ 4

__ _7 8 _12

__ _ 13 _18 i

N 1 7 7 0 0 0 15 NNE 2 8 26 0 0 0 36 1 l

NE 1 9 28 0 0 0 38 i ENE 2 9 15 0 0 0 26 ,

E 1 6 1 0 0 0 8 l ESE 3 5 4 0 0 0 12 SE 1 11 4 0 0 0 16 SSE 5 10 5 4 0 0 24 S 2 7 2 0 0 0 11 SSW l 1 0 0 0 0 2 SW 1 6 1 1 0 0 9 WSW l 12 1 0 0 0 14 :

W 0 13 6 0 0 0 19 WNW 5 10 9 0 0 0 24 l

NW 0 9 8 0 0 0 17 NNW 0 10 4 0 0 0 14 VARIABLE 16 6 3 0 0 0 25 Periods of calm (houre): 1 Hours of m:. datas 0 (this stability class)

Hours of m:.ssinssin data: 0 (this time period, all stability classes) 15-15

fi~  :

s i

t l

)

?

i, CHAPTER 16 i TABLE 4A-1BQ3  !

h The Quarter 3 cumulative joint frequency table for Unit 1 batch releases i e- -

.c;ntained on the following pages.

L l

16-1

n. I

TABLE 4A-1BQ3 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: A DURING BATCH RELEASES ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Wind Direction 13 ___

4-7

___ 8 _12 13-1B 19-24

>24 TOTAL N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O 0- 0 0 0 0 0 SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of calm (hours): 0 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 16-2

l l

I 1

i i

TABLE 4A-1BQ3 l FARLEY NUCLEAR PLANT - UNIT 1 i CUMULATIVE JOINT FREQUENCY DISTRIBUTION I HOURS AT EACH WIND SPEED AND DIRECTION I P D OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 R MODE: Ground i TV CLASS: B DURING BATCH RELEASES i i

ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Direction 1-3 4-7 13 18 19-24 >24 TOTAL

... ... 8 _12 N O O O O O O O NNE O O O O O O O NE O O O O O O 0.'

ENE O O O O O O O 1

E O O O O O O O -

ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 i-1 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0- 0 VARIABLE O O O O O O O L

Periods of calm (hours): O Hours of missing data 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 16-3 31

d l

l j

TABLE 4A-1BQ3 {

l r

FARLEY NUCLEAR PLANT - UNIT 1 l CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIWD SPEED AND DIRECTION PDIOD OF RECORD: 01-JUL-89 00100 TO 30-SEP-89 23:59  :

RELEASE MODE: Ground -

STABILITY CLASS: C DURING BATCH RELEASES ELEVATION

.__....._ __ _: 10.0 m. .........___..__.............______ ........__..

Wind Speed (mph) at 10.0 m. level  :

Wind  !

Direction _. 13_ 4__7 8-12 13-18 19-24

>24 TOTAL N O O O O O O O NNE 0 0 0 0 0 0 0 NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 l

l SSH 0 0 0 0 0 0 0 SH 0 0 0 0 0 0 0 l

HSH 0 0 0 0 0 0 0 l H 0 0 0 0 0 0 0 HNH 0 0 0 0 0 0 0

, NH 0 0 0 0 0 0 0 l

l NNH 0 0 0 0 0 0 0 l

VARIABLE O O O O O O O L ...... __ .........___________________..___ __ ......... ___.... ___

l' Total 0 0 0 0 0 0 0 l- Periods of calm (hours): 0 l Hours of missing datas 0 (this stability class) l Hours of missing datas 0 (this time period, all stability classes)

. 16-4 l

l o-

TABLE 4A-1BQ3 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION P OD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 R SE MODF Ground S LITY CuASS: D DURING BATCH RELEASES 10.0 ELEVAT. ION:...... .........m Wind Speed (mph) at 10.0 m. level Direction 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O O O O O O O NNE O 0 0 0 0 0 0 NE O 1 0 0 0 0 1 ENE O 2 0 0 0 0 2 E O O O O O O O ESE O O 1 0 0 0 1 SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 3 0 0 0 0 3 WSW 0 1 0 0 0 0 1 W 0 0 0 0 0 0 0 WNW 0 2 0 0 0 0 2 NW 0 0 0 0 0 0 'O NNW 0 1 0 0 0 0 1 VARIABLE O 3 0 0 0 0 3 Periods of cala(hours): 0 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 16-5 r

1 I

l TABLE 4A-1BQ3  !

FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION i HOURS AT EACH WIND SPEED AND DIRECTION  !

PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground STABILITY CLASS: E DURING BATCH RELEASES ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level l Direction 1-3

_._ 4 _7 8-12 13-18 19-24

>24 TOTAL l l

N O O O O O O O '

NNE O O O O O O O l NE O O O O O O O I ENE O 3 0 0 0 0 3 E O O O O O O O ESE O O O O O O O SE O O 0 0 0 0 0 SSE O O O O O O O S 0 0 0 0 0 0 0 SSW O O O O O O O l

SW 1 6 0 0 0 0 7 WSW 1 0 0 0 0 0 1 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE 2 0 0 0 0 0 2 Periods of calm (hours): 0 Hours of missing data 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) l t

16-6 1

f

E l I

f i

i i

TABLE 4A-1BQ3

{

, FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 RELEASE MODE: Ground >

STABILITY CLASS: F DURING BATCH RELEASES ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level >

Direction 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O O O O O O O NNE O O O O O O O i NE O O O O O O O ENE O O O O O O O E O O O O O O O ,

ESE O O O O O O O SE O O O O O O O ,

SSE O O O O O O O S 0 0 0 0 0 0 0 r SSW 0 0 0 0 0 0 0 l >

l SW 0 0 0 0 0 0 0 l

WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 l WNW 0 0 0 0 0 0 0

! NW 0 0 0 0 0 0 0

  • NNW 0 0 0 0 0 0 0 i

1 VARIABLE O O O O O O O Total 0 0 0 0 0 0 0 Periods of calm (hours): 0 Hours of missing data: 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 16-7

- i

TABLE 4A-1BQ3 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PDIOD OF RECORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59 REGSE MODE: Ground STABILITY CLASS: G DURING BATCH RELEASES ELEVATION: 10.0 m.

Wind Speed (aph) at 10.0 m. level Direction 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of cala(hours): 0 Hours of missing datas 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 16-8

--___--_____--_-___---_____-__-__-x---

1 1

i a

I 1

TABLE 4A-1BQ3 I

FARLEY NUCLEAR PLANT - UNIT 1  !

CUMULATIVE JOINT FREQUENCY DISTRIBUTION  !

HOURS AT EACH WIND SPEED AND DIRECTION P lit OF A 0 D: 01-JUL-89 00:00 TO 30-SEP-89 23:59 Rgf levated S k; 0]C S: A DURING BATCH RELEASES ell:. N: 60. m.

Wind Speed (mph) at 60.3 m. level Wind Direction 1-3 4-7 8 12 13-18 19 24 >24 TOTAL ,

N 0 O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSH 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 h"A 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 j VARIABLE O O O O O O O eriods of calm (hours): 0 ours of missing datas 0 (this stability class) ours of missing data: 0 (this time period, all stability classes) 16-9 i

[" <

I I-  :

TABLE 4A-1BQ3 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION [

HOURS AT EACH HIND SPEED AND DIRECTION  !

P  : OF : 0 D: Ol-JUL-89 00:00 TO 30-SEP-89 23:59 t R  : '

MO levated *

TY I .

S : B DURING BATCH RELEASES

! :0N: 60.3 m. t

_____'________g__;_____g____g____g__g_____7_____________

Wind Direction 13

___- 4-7 8 12 13 18 19 24 >24 TOTAL

_____ ___ _____ i N O O O O O O O ,

NNE O O O O O O O NE O O O O O O O ENE O O O O O O O >

E O O O O O O O ,

ESE O O O O O O O SE O O O O O O O SSE- 0 0 0 0 0 0 0 S 0 0 0 0 0 0 0 SSH 0 0 0 0 0 0 0

, SH 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0

HNH 0 0 0 0 0 0 0 NH 0 0 0 0 0 0 0 NNH 0 0 0 0 0 0- 0 i VARIABLE O O O O O O O Periods of calm (hours)
0 Hours of missing data 0 (this stability class)

Hours of missing datas 0 (this time period, all stability classes) 16-10

1 i

i i

l 1

1 1

, l TABLE 4A-1BQ3 l

FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION 1 HOURS AT EACH HIND SPEED AND DIRECTION

')9 0;5: CCO  : 01-JUL-89 00:00 TO 30-SEP-89 23:59 i

  1. .;AS evated

(

)d:.LI:. . N: 60.3 m.

C DURING BATCH RELEASES

~ ~ ~ ~

~ hindi 5phhd'IEph) ~At 5b!3 $I "5 Eve 5~ ~ ~~~~~~~~ ~ ~~~~~~

Hind Direction 13

___ 4 _7

__ 8 _12 13 18 19 24

>24 TOTAL N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSH 0 0 0 0 0 0 0 SH 0 0 0 0 0 0 0 E

HSH 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 HNH 0 0 0 0 0 0 0 NH 0 0 0 0 0 0 0 NNH 0 0 0 0 0 0 0 VARIABLE O O O O O O O j Periods of calm (hours): 0 ours of missing data: 0 (this stability class) j -.ours of missing data 0 (this time period, all stability classes) l l

I 16-11 i

i

~

i TABLE 4A-1BQ3 1

i FARLEY NUCLEAR PLANT - UNIT 1  !

l CUMULATIVE JOINT FREQUENCY DISTRIBUTION l

HOURS AT EACH WIND SPEED AND DIRECTION R

SfA If TEE 0BPE% 2 P-SS

' T -SEP-89 23:59 DURING BATCH RELEASES i

ELc A [I.' O N60.3

. :TY m. CMSS: D i

_____________ g _ _g_______ g _ _____________________

Wind  !

Direction 13

___ 4 _7 8-12 13 18 19 24 >24 TOTAL ,

. _ _ . . . _____ ___ _____ 1 N O O O O O O O i NNE O O O O O O O q NE O O 1 0 0 0 1 ENE O O 1 0 0 0 1 E O 1 0 0 0 0 1 i ESE O 1 1 0 0 0 2 ,

SE O O O O O O O

-SSE O O O O O O O S 0 0 0 0 0 0 0 ,

SSW 0 0 0 0 0 0 0 l SW 0 1 2 0 0 0 3 i

WSW 0 1 0 0 0' 0 1 W 0 0 0 0 0 0 0 WNW 0 2 0 0 0 0 2 NW 0 0 0 0 0 0 0 l NW 0 1 0 0 0 0 1 VARIABLE O 2 0 0 0 0 2 Periods of calm (hours): 0 Hours of m::ssing data 0 (this stability class)

Hours of m:.ssing data: 0 (this time period, all stability classes) l 16-12

TABLE 4A-1BQ3 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION i

0 RPCORD: 01-JUL-89 00:00 TO 30-SEP-89 23:59
l OD E: Elevated T C ASS: E DURING BATCH RELEASES ell _ _ _ _ _ _ _' O N : 60.3 m.

______ g .

_ g _______ _____________________

Hind Direction 13 47 8-12

____ 13 _18 19 24 > 24 TOTAL N O O O O O O O NNE O O O O O O O NE O 1 0 0 0 0 1 ENE O 3 1 0 0 0 4 E O O O O O O O ESE O O O O O O O .

SE O O O O O O O I SSE O O O O O O O 1

l S 0 0 0 0 0 0 0 SSW O O O O O O O SH 0 1 6 0 0 0 7 HSH 0 0 1 0 0 0 1 W 0 0 0 0 0 0 0 -

WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 ,

VARIABLE O O O O O O O eriods of calm (hours): 0 ours of missing data: 0 (this stability class) ours of missing data: 0 (this time period, all stability classes) 16-13 4

-v- - e - - - - - -

1 l

a TABLE 4A-1BQ3 l 1

FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION

? iil O;

O
01-JUL-89 00:00 TO 30-SEP-89 23:59  !

s . .

evated

.J< i S F DURING BATCH RELEASES I E:_ _ _ _ ___________________________________________.__________________

_ _' O N : 60.3 m.

l Wind Speed (mph) at 60.3 m. level 1 Wind  !

Direction 13 ___ 4__7 8-12

____ 13 _18 19

___-24

>24 TOTAL

_____ i N 0 0 0 0 0 0 0 NNE O O O O O O O ,

NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE 0 0 0 0 0 0 0 SE O O O O O O O SSE O 0 0 0 0 0 0 S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W- 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Periods of calm (hours): 0

.ours of missing datas 0 (this stability class)

-ours of missing datas 0 (this time period, all stability classes) 16-14  ;

i I

.a

s _

l l

i l

l TABLE 4A-1BQ3 1 FARLEY NUCLEAR PLANT - UNIT 1 {

CUMULATIVE JOINT FREQUENCY DISTRIBUTION  !

HOURS AT EACH WIND SPEED AND DIRECTION

' T 3 -S'"-SS 23:59 (SME%BBC BIL:'TY C ASS: 1

. G. % 2 P -8' DURING BATCH RELEASES I ELEVAT".ON: 60.3 m.  ;

_ _ _ _ _ _ _ _ _ _ _ _ _g _

_g_g__ _____________________

Wind Direction 1 _3

__ 4__ _7 8 _12 13 18 19 24

>24 TOTAL N 0 0 0 0 0 0 0 .

NNE O O O O O O O i NE O O O O O' O O ENE i O O O O O O O E O O O O O O O -

ESE O O O O O O O l SE O O O O O O O SSE O O O O O O O i S 0 0 0 0 0 0- 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 l WSW 0 0 0 0 0 0 0 l

N 0 0 0 0 0 0 0 l

WNW 0 0 0 0 0 0 0-l W 0 0 0 0 0 0 0

NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Total 0 0 0 0 0 0 0 Periods of calm (hours): 0  ;

l ours o m:.ssing data 0 this stability c ass)

I ours o m:.ssing data 0 (th a time period, a 1 stability classes) 1 16-15 1

i

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

._m .

CHAPTER 17 TABLE 4A-1BQ4 Tha Quarter 4 cumulative joint frequency table for Unit 1 batch releases is contained on the following pages.

17-1

. _ . - ________________1______

I

!7 ,

i  !

l 1

l TABLE 4A-1BQ4 l I

1 FARLEY NUCLEAR PLANT - UNIT 1 l CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION '

PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground

  • STABILITY CLASS: A DURING BATCH RELEASES ELEVATION -10.0 m.

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

__-3 N 0 O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O' O O S 0 0 0 0 0 0 0 SSN 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 L

1 NNW 0 0 0 0 0 0 0 '

VARIABLE O O O O O O O Total 0 0 0 0 0 0 0 Periods of calm (hours): 0 Hours of missing data 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) l 17-2 1

[

1 a

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 RERSE MODE: Ground

-STABILITY CLASS: B DURING BATCH RELEASES ELEVATION: 10.0 m.

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

>24 TOTAL N O O O O O O O i NNE O O O O O O O NE O O O O O O O I ENE O O O O O O O E O O 0 0 0 0 0 ESE O O O O O O O ,

l SE O O O O 'O O O 1

l SSE O O O O O O O S 0 0 0 0 0 0 0 SSW O O O O O O O l

SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0- 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O l

Total 0 0 0 0 0 0 0 l- Periods of calm (hours): 0 Hours of missing datas 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) 17-3 l

)

l

~ a

1

, 1 I

I i

l 1

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1  :

CUMULATIVE JOINT FREQUENCY DISTRIBUTION ]

HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 RE MSE MODE: Ground STABILITY CLASS: C DURING BATCH RELEASES ELEVATION: 10.0 m.

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

... ... ..._ ..... .__-24 N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW O O O O O O O SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 j NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O Total 0 0 0 0 0 0 0 Periods of calm (hours):

Hours of missing data:

0 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) i L 17-4 n i

I L

l TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1

, CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SP mm AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: D DURING BATCH RELEASES ELEVATION: 10.0 m.

~ ~

hink EphEd [kpb5 Et 5b b b 5 EVE 5~~

Direction 1 8-12 13 18 19 24 >24 TOTAL

_-3

._ 4__7 N O O O O O O O NNE 2 0 0 0 0 0 2 NE O 5 1 0 0 0 6 ENE O 3 0 0 0 0 3 E O 2 0 0 0 0 2 ESE 1 1 0 0 0 0 2

'SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 1 0 0 0 0 0 1 L WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 1 0- 0 0 0 1

., NW 0 3 0 0 0 0 3 us NNW 0 0 0 0 0 0 0 VARIABLE 4 0 0 0 0 0 4

___...._____...____ ____..._____..____... _____________________ ____. q Periods of calm (hours): 0 l Hours of missing datas 0 (this stability-class) i Hours of missing datas 0 (this time period, all stability classes) l i

l 17-5 l

l i

~

i TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 i

CUMULATIVE JOINT FREQUENCY DISTRIBUTION r HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-OCT-89 00:00 TO 31-DEC-89 23:59 RELESE MODE: Ground STABILITY CMSS: E DURING BATCH RELEASES ELEVATION: 10.0 m.

Wind Speed (my at 10.0 m. levul Direction 1-3 4-7 8-12 13 18 19 24 >24 TOTAL N O O O O O O O NNE O O O O O O O NE 1 1 0 0 0 0 2 ENE 1 1 0 0 0 0 2 E 1 0 0 0 0 0 1 ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 '

VARIABLE 1 0

....._____________..... ____.._.0 __..___.._.._____ 0 0

..._... 0.__.__....

1 Total 4 2 0 0 0 0 6 l

Periods of calm (hours):

Hours of missing data:

0 0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) q 17-6 1

l l

t a

i T

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 REEASE MODE: Ground STABILITY CLASS: F DURING BATCH RELEASES ELEVATION:

~ ~~~

10.0 m.

hink Sphhk ikpE) kt 5 bib NI 5 vh5 ~~~

~~ "

Direction 1-3 4 7 19 >24 TOTAL

___ ___ 8 _12

__ _ 13 _18

___ _ __-24 N 2 0 0 0 0 0 2 NNE O O O O O O O NE 2 0 0 0 0 0 2 ENE 1 0 0 0 0 0 1 E O O O O O O O i ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 l W 0 0 0 0 0 0 0 WNW 1 0 0 0 0 0 1 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE 2 0 0 0 0 0

_____________________________________________________________________2 l

Total 8 0 0 0 0 0 8 Periods of calm (hours):

Hours of missing datas 0

0 (this stability class)

Hours of' missing data 0 (this time period, all stability classes) 17-7

.b -

E i

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 r

CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-OCT-89 00:00 TO 31-DEC-89 23:59 [

RELMSE MODE: Ground '

s STABILITY CLASS: G DURING BATCH RELEASES ELEVATION: 10.0 m.

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

  • N 10 0 0 0 0 0 10 NNE 2 0 0 0 0 0 2 NE 1 0 0 0 0 0 1 :

ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O 'O O O SSE O O O O O O O ,

S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0-W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 1 0 0 0 0 0 1 NNW 6 0 0 0 0 0 6 VARIABLE 9 1 0 0 0 0

.. ______________........______.....__... ____..-._______....________10 __

Total 29 1 0 0 0 0 30 Periods of calm (hours):

Hours of missing data 0

0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) 17-8

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 Rg" PASE MODE: Elevated kh@,Cg DURING BATCH RELEASES Hind Speed (mph) at 60.3 m. level Hind Direction 13

__ _ 4 _7 8-12 13 18 19 24 >24 TOTAL N 0 0 0 0 0 0 0 NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O Q 0 0 SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSN 0 0 0 0 0 0 0 SH 0 0 0 0 0 0 0 HSH 0 0 0 0 0 0 0 l H 0 0 0 0 0 0 0 HNH 0 0 0 0 0 0 0 l W 0 0 0 0 0 0 0 NNH 0 0 0 0 0 0 0 VARIABLE O 0 0 0 0 0 0 Periods of calm (hours): 0

-.ours of missing data 0 (this stability class) iours of missing data 0 (this time period, all stability classes) 1 17-9 l

l L .

L_ ^

a I

r TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION P 0F : CORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 R;  : S M0' : Elevated

,g g: B DURING BATCH RELEASES Wind Speed (mph) at 60.3 m. level Wind Direction 1

_-3 4-7 8-12 13 18 19-24 >24 TOTAL N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O O O O ESE O O O O O O O SE O O O O O O O SSE O O O 0 0 0' 0 3 0 0 0 0 0 0 0 SSH 0 O O O O O O SW 0~ 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 )

NNW 0 0 0 0 0 0 0 VARIABLE O O O O O O O 1

Periods of ca:,m(hours): 0 I

-:ours of miss:.ng data 0 (this stability class) ours of missing data 0 (this time period, all stability classes)  ;

1 17-10 l

l<

n.

i i

l I

TABLE 4A-1BQ4 l

1 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION h HOURS AT EACH WIND SPEED AND DIRECTION P (10D OF l1ECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 R .;; .ASE M0JE: Elevated bk  : h's Wind Speed (mph) at 60.3 m. level Wind Direction 13

_.. 4 _7 8 12 13 18

_____ 19 _24

>24 TOTAL N O O O O O O O NNE O O O O O O O NE O O O O O O O ENE O O O O O O O E O O O O 0 0 0 ESE O O O O O O O SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW O O 0 0 0 0 0 SW 0 0 0 0 0 0- 0 WSW 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0- 0 NW 0 0 0 0 0 0 0  !

l NNW 0 0 0 0 0 0 0  ;

VARIABLE O O O O O O O I L

Periods of calm (hours): 0 l Hours of missing data 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 17-11 L  !?

1 m I

1.,

i V

r ,

k l.

)

I t

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION  ;

HOURS AT EACH WIND SPEED AND DIRECTION ,

pq OF RECORD: 01-0CT-89 00:00 6 MOD 3:

TO 31-DEC-89 23:59 EN

'?

3NiC d8hlevated _ - _

MRU BATCH RELEASES

__g. _ _ _7_ _

Wind i Direction 1

_-3

__ 4 _7

__ 8 _12 13 18 19

___-24__

>24 TOTAL N O O O O O O O NNE O O O O O O O NE O 2 5 0 0 0 7 ENE O 1 1 0 0 0 2 E 1 1 0 0 0 0 2 ESE 1 0 0 0 0 0 1 SE O O O O O O O SSE O O 0 0 0 0 0 S 1 0 0 0 0 0 1 SSN 0 0 0 0 0 0 0 SW 0 0 0 0 0 0 0 WSW l 0 0 0 0 0 1 W 0 0 0 0 0 0 0 -

WNW 0 2 0 0 0 0 2 NW 0 1 1 0 0 0 2 NNW 0 0 0 0 0 0 0 VARIABLE 4 2 0 0 0 0 6 1 Periods of ca:. 0 Hours of miss:.m(hours): ng data: 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 17-12

)

1 l

l

I J

l i

TABLE 4A-1BQ4 .

1

'1 FARLEY FUCLEAR PLANT - UNIT 1 l

-CUMULATIVE JOINT FREQUENCY DISTRIBUTION ']

HOURS AT EACH WIND SPEED AND DIRECTION 1

0F- 1 ORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 0' : levated g' if DURING BATCH RELEASES Wind Speed (mph) at 60.3 m. level Wind Direction 13 4-7 V.2 13_ _18 19 >24 TOTAL

___ ___ .... ___ ___-24 N 0 O O 0 0 0 0 NNE O O O O O O 0-NE O 1 1 0 0 0 2 ENE O 2 1 0 0 0 3 3 E O O O O O O O  ;

ESE 1 0 0 0 0 0 .1< l SE 0- 0 0 0 0 0 0 i

.SSE: 0 0 0 0 0 0 'O s'

'S 0 0 0 0 0 0 0 i

-SSW- 0 0 0 0 0 0 0- i SW 0 0 0~ 0- 0 0 0 -i 1

WSW. 0 0 0 0 0 0 0- i W

0 0 0 0 0 0 .0 WNW. 0 0 0 0 0 0 0- l NW- 0 0 0 0 0 .0 0 NNH. 0 0 0 0 0 0 0

" VARIABLE O O O O O O 'O j

________________g________ _________________g_________________g

Periods of. calm (hours): 0

?iours of missing data: 0 (this stability class)

Hours of. missing data: 0 (this time period, all stability classes) l 17-13 v

\

E ~

~

r i

i e

TABLE 4A-1BQ4 .i FARLEY NUCLEAR PLANT - UNIT 1 i CUMULATIVE JOINT FREQUENCY DISTRIBUTION '!

HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-0CT-89 00:00 TO 31-DEC-89 23:59 >

RELEASE MODE: Elevated bbkhfhfbh hh h'm Wind Direction 1_3 4-7 8__12 19 24 >24 TOTAL

__ ___ _ _ 13 _18 N 0 0 0 0 0 0 0 [

NNE O O 1 0 0 0 1 NE O O 2 0 0 0 2 ENE O 1 1 0 0 0 2 E O O O O O O 0- ,

ESE O O O O O O O s

SE O O O 0 0 0 0 SSE O O O O O O O S 0 0 0 0 0 0 0 SSH 0 0 0 0 0 0 0' SW 0 0 0 0 0 0 0 WSW l 0 0 0 0 0 1 W 0 0 0 0 0 0 0 WNW 0 0 1 0 0 0 1 NW 0 0 0 0 0 0 0 NNW l 0 0 0 0 0 1

~ VARIABLE O O O O O O

____________________________________________________________________O _

Periods of calm (hours): 0 Hours of missing datas 0 (this stability class)

Hours of. missing data: 0 (this time period, all stability classes) l l

17-14 U ,

l l

1 li 0 1

1 L

TABLE 4A-1BQ4 FARLEY NUCLEAR PLANT - UNIT 1 CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS.AT EACH HIND SPEED AND DIRECTION P'8 't '

OF REC TO 31-DEC-89 23:59 R E MODE:ORD: Elevated01-0CT-89 00:00 gCg: ____

DURING BATCH RELEASES

_____________ g _ _

_g_______ _____________________

Hind Direction 1-3 4-7 13-18 19 >24 TOTAL.

___ ___ 8 _12

__ _ _____ __-24 N O 3 0 0 0 0 -3 NNE 1 0 2 0 0 0 3 NE 0 0 7 0 0 0 7

'ENE O O 8 0 0 0- 8 E O O O 0 0 0 0 ESE O O O O O O 0.

SE O O O O O O O SSE O O O 0 0 0 0 S 0 0 0 0 0 0 0 SSH 0 O O O O O O SH 0 0 0 0 0 .0 0 HSH 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 HNH 1 1 0 0 0 0 -2 NH 0 0 2 0 0 0 2 NNH 0 1 0 0 0 0 1 VARIABLE 3 1 0 0 0 0

________________________ __________________________________ 4 Periods of calm (hours): 0 Hours of missing data: 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 17-15 l n

i; CHAPTER 18 TABLE'4A-2BQ3 There:were no batch releases on Unit 2 during Quarter 3.

18-1 0

n.

i-

, , '{

I, .

b ';-

i W

o-CHAPTER 19 TABLE 4A-2BQ4

.Th'2re were no- batch releases on Unit 2 during Quarter 4.

6 b

6

)

i i

1 I

l 1

l 19-1 l

l l

l

- Y-'

CHAPTER 20 TABLE 4B

.i TABLE 4B CLASSIFICATION OF ATMOSPHERIC STABILITY a

Stability Pasquill o0 Temperature channel.

Classification Categories (degrees) with height (OF/51m)

Extremely unstable A 25.0 (-1.74 .

Moderately unstable B 20.0 -1.74 to -1.56 .

Slightly unstable. C 15.0 -1.56 to -l.38 N0utral D 10.0 -1.38 to -0.46 i Slightly-stable .E 5.0 -0.46 to 1.38 Moderately stable F 2.5 1.38 to 3.6 Extremely stable G 1.7 >3.6 l

c Standard deviations of horizontal wind direction fluctuation over l

-a period of 15 minutes to 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br />. The values shown are averages for.each stability classification.

20-1

._ _ ____--------- _ -- _ _-----__ _ _ ------ _ _ _ ---- _ --- D --

1

'{ ,

\-5 a

CHAPTER 21 TABLE 5 TABLE 5 RADIOACTIVE GASEOUS HASTE SAMPLING AND ANALYSIS PROGRAM FARLEY NUCLEAR-PLANT - UNITS 1 & 2 '

a,h

' Gaseous Release Sampling Minimum Type of Minimum Type' Frequency Analysis Activity Detectable Frequency Analysis Concentration (MDC) (uCi/ml) 9,3

.A.-Haste Gas Each Tank Each Tank Principle lE-04 Storage Tank Grab b Gamma Sample P P Emitters 7,j B.-Containment Each-Purge Each Purge Principle 'lE-04

' Purge Grab- b Grab b Gamma Emitters Sample P - Sample P.

H-3 lE-06 7,j

- C.. Condenser M-b,c,e b Principle Steam-Jet Air Grab M Gamma Emitters lE-04 Ejector Plant Sample

. Vent Stack H-3 lE-06 21-1

.r r

TABLE 5 r-TABLE 5 (Continued) 4 a,h Gnaeous Release Sampling Minimum Type of Minimum Type Frequency. Analysis- Activity Detectable Frequency Analysis Concentration (MDC) (uCi/ml)

' f D.: Plant Vent Continuous Charcoal 1-131 1E-12' Stack Charcoal Sample d .

I Containment H I-133- 1E-10 Purge .

f g.

Continuous Particulate Principle.  !

Sample d Gamma Emitters 1E-11 i W (I-131, Others)

I Continuous M i o Composite Gross Alpha 1E-11 Particulate Sample f

Continuous Q i Composite ,

Particulate Sr-89, Sr-90 1E-ll Sample l f

Continuous Noble Gas Noble Gases Gross lE-06 Monitor Beta and Gamma l

.k i

21-2

~

TABLE 5 TABLE 5 (Continued),

u TABLE NOTATION O.'LThe.MDC'is the smallest concentration of' radioactive material.

in a sample.that will be detected with 95% probability with.5%

. probability of falsely concluding that a-blank observation represents a "real" signal.

=For a particular seasurement system (which may include ,

radiochemical separation): "

i 6

JGX:: =

4.66 s_/ E

  • V
  • 2.22X10
  • Y
  • exp (-A6 t) b-wheret MDC is the "a priori" lower limit of detection as defined 4

above (as microcurie per unit mass or volume), .;

s' is.the standard deviation of the background counting rate I

.b or of the counting rete of a blank sample as appropriate (as counts per minute),

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

.V in the sample size-(in units mass'or volume),

6 2.22X10 ~is the number of transformations per minute per' ._ t microcurie,' .

Y.is the fractional radiochemical yield (when applicable),-  :}

)

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

i

.The.value of a used in the calculation of the MDC for a  ;

b '

detection system shall be based on the-actual observed variance i of the background 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, and6 t shall-be used in the calculation.

21-3

TABLE 5 TABLE 5 (Continued)

TABLE NOTATION

-b. Analyses.shall also be performed following shutdown from >'or = '

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

c. Tritium grab samples shall be taken from the plant vent stack at least once per.24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> when the refueling canal is flooded.
d. Samples shall be changed at least once per 7 days and analyses shall be completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> after changing (or after removal from sampler). Sampling shall also be performed at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for at least 2 days following each shutdown from ) or = 15% RATED THERMAL POWER, startup to > or =

15%. RATED THERMAL POWER or THERMAL POWER change exceeding 15%

of RATED THERMAL POWER in one hour and analyses shal1~be-completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> of changing. When samples collected '

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

o. Tritium grab samples'shall be taken at least once per 7 days from the. ventilation exhaust from the spent fuel pool area, whenever spent fuel is in the spent fuel pool.
f. The ratio of the sample flow rate to the sampled stream flow rate shall be known for the time period covered by each d.ose.or dose rate calculation made in accordance with Specifications 3.11.2.1, 3.11.2.2 and 3.11.2.3.
g. The principle gamma emitters 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 i Ce-144 for particulate emissions. This list does not mean 1 that only these nuclides.are to be detected and reported. Other which are measurable and identifiable,-together with the above

.nuclides, shall also be identified and reported.

h. Deviations from MDC requirements of Table 4.11-2 shall be reported per Specification 6.9.1.8 in lieu of any other report.

'i. A composite particulate sample is one in which the quantity of air sampled is proportional to the quantity of air discharged.

Either.a specimen which is representative of the air discharged may be accumulated and analyzed or the individual samples may be analyzed and weighted in proportion to their respective volume discharged.

21-4

n, ,

r f ;

TABLE 5' TABLE =5:(Continued) '(

J

j. TheLprinciple gamma emitters-for-which the MDC 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 mean that only these nuclides are to be detected,and-reported. Other' peaks which are measurable and -

= identifiable.together with-.the above nuclides,cahall also be

. identified and reported.

4

'l sf 1

i I

p, 21-5

f. u i i l

l l

e

n >

[4

' TABLE 5 i

' TABLE 5 (Continued)

TYPICAL GAS MDC'S FOR RCLS COUNTING SYSTEM

.i .

Nuclidei MDC ( uCi/ml ) Nuclide MDC ( uCi/ml )

~Mn-54 1.46E-14~ Ce-144 5.08E-14

Fa-59 4.51E-14 Kr-87 3.44E-08 Co-58 1.55E-14 Kr-88 4.71E-08 l Co-60 2.81E-14 Xe-133 6.30E-08 Zn-65 3.04E-14 Xe-133M 1.54E-07 j g- MD-99 1.02E-13 Xe-135 1.91E-08

- Cs-134 4.0SE-ll Xe-138 5.04E-08'

?Cs-137- 1.31E-14 I-131 3.20E-14 Co-141

~

l.13E-14 I-133 2.87E-14 i

l i

i-i 21-6 s

n 1

~

R,.

n 8. >

3 p ,

, s

- ;i ee  ;

-i -

5 i

i CHAPTER 22 TABLE 6-

. TABLE 6 i RADIOACTIVE LIQUID HASTE SAMPLING AND ANALYSIS PROGRAM- '

-FARLEY NUCLEAR PLANT - UNITS 1 & 2 i

& #9-Liquid Release Sampling Minimum Type of Minimum Type Frequency  !

Analysis Activity Detectable Frequency Analysis Concentration (

(MDC) (uCi/ml);  ;

c P 'P e Ao Batch Haste Each Each Principle ,

Release- Batch Batch Gamma SE-07

. Tanks Emitters I-131 1E-06 '

One Batch /M M Dissolved & "

Entrained Gases 1E-05-'

(Gamma Emitters) I P

Each b Batch- M H-3 1E-05 Composite Gross Alpha 3E-07 22-1 I

l

TASLE 6 TABLE 6 (Continued) i ngo

?

. Liquid-Release Sampling Minimum Type of- Minimum  ;

Type Frequency Analysis Activity Detectable -!

Frequency Analysis Concentration (MDC) (uCi/ml)

~

P ,

Each b Batch Q .Sr-89, Sr-90 5E-08  ;

s Composite Fe-55 lE-06 d,f. D b e B. Continuous Grab H Principle Releases Sample Composite Gamma 5E-07 .

Emitters I-131 1E-06 M

1. Steam Grab. M Dissolved &

Generator Sample Entrained Gases 1E-05 Blowdown (Camma Emitters)

D b -

Grab M H-3 lE-05 Sample Composite Gross Alpha lE-07 D b Grab Q Sr-89, Sr-90 5E-08 Sample Composite Fe-55 1E P b e 2.-Turbine Grab H Principle 5E-07

~ Building Sample Composite Gamma Sump Emitters H-3 1E-05 l

l l 22-2 l

N * '

, j TABLE 6.

h;D A' 8 V- ' ', _

v h 'h U

10 ' TABLE 6 (Continued)-

TABLE NOTATION' i a

~

""6 c..The MDCLis the smallest concentration of radioactive material-

-in'a sample that will be detected with 95%' probability with'5%

1

probability.of falsely concluding that-a blank observation:

represents aE"real"~ signal.

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

'i -  ?

n 6 a JUX: ~= L4.66 s /. E A V A 2.22X10 A Y

  • exp (-A6 t) b~

c L where.t-W): is'the "a priori" lower limit of detection as defined ~

above.(as microcurie per unit mass or volume),

s .. is the standard deviation of the background counting rate ,

b.

or.of the counting rate of a blank sample as appropriate,(as- '

-counts per minute),  ;

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

V--is the' sample-size (in units mass or volume), /

6 2.22X10 is the number of transformations per minute per '

. microcurie,

.[

~

p Y is the. fractional radiochemical yield (when applicable),-

'A iacthe radioactive decay constant for the particular radionuclide,-and' At in the elapsed time between midpoint of sample collection and1 time of counting (for. plant effluents, not, environmental samples).

L1 L, The:value of a

. used in the calculation of the MDC-for a ll l- b.

t  : detection system shall be based on the actual observed variance  !

E~ Lof the-background counting rate or of the counting rate of the k blank samples (as appropriate) rather than on an unverified theoretically predicted variance. Typical values of E, V, Y, pix.. andat shall be used in the calculation.

L 22-3 I:

l-L'

TABLE 6 TABLE 6 (Continued)

., TABLE NOTXT10N

b. A composite sample is one in which the quantity of liquid sampled is. proportional to the quantity of liquid waste discharged and in

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

-c. A batch release is the discharge of liquid wastes of a discrete volume. Prior to sampling for analyses, each batch shall be isolated, and then thoroughly mixed, by a method described in the ODCM, to assure representative sampling.

d.s A continuous release is the discharge of liquid wastes of a nondiscrete volume; e.g., from a volume of system that has ,

an input flow during the effluent release.

' - c.inte principle gamma emitters 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, together with the above nuclides, shall'also be identified and reported.

Lf.LSampling will be performed only if the effluent will be discharged to the environment.

g. Deviation from the MDC requirements of Table 4.11-1 of the TS shall be reported per Specification 6.9.1.8 in lieu of any other report.

i t

1 22-4 I o

l I

, _ _ _ _ JL

y+* '

+

TABLE 6 a

' TABLE 6'(Continued) p

7

. TYPICAL LIQUID MDC'S FOR:RCLS COUNTING SYSTEM' Nuclide MDC-('uCi/ml-) Nuclide MDC ( uCi/ml )

Mn 2.88E-08 I-131- 2.13E-08

'C3 2.15E-08 Cs-134 1.75E-08 .

,i Fo 4 .' 4 3E- 0 8 Cs-137 2.67E-08 CO-60' 3.86E-08 Ce-141 3.40E-08

Zn 7.94E-08 Ce-144 1.65E-07 (MD-99 1.8BE-07 l

t i

22-5 l

u 3

4 s

4 CHAPTER 23 TABLE 7 ,

f: l TABLE 7 LIQUID DISCHARGES NOT MEETING SPECIFIED DETECTION LIMITS-Farley Units 1 & 2 - 2nd half, 1989 i

Batch #~ N/AA Date- N/A Count Time in Seconds N/A Volume Discharged in Gallons N/A Dilution Water in Gallons N/A Total Isotopic Activity ( uCi/ml ) N/A Isotope of Interest N/A MDC Measured N/A

% of Total Isotopic Activity N/A

% of Total Dose N/A A No liquid ~ discharges made that did not meet specified detection limits.

23-1 l

l T.'

n

.L

_ _f' l

e]

c gj. CHAPTER 24 TABLE 8-CA

- The annual cumulative joint frequency table for all releases is contained on the

- following-pages.

24-1 i.

1

s l

TABLE 8-CA FARLEY NUCIJ.AR PLANT CUMULA'TIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED.AND DIRECTION PERIOD OF-RECORD: 01-JAN-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: A ALL HOURS IN PERIOD 'l ELEVATION: 10.0 m.

.____________________________________________________________________ i Wind Speed (mph) at 10.0 m. level H Wind Direction 13 18 >24 TOTAL.,

1_3

__ 4_7

__ 8 _12

__ _ __ __ _ 19_24 N 0 0 0 0 0 0 0 I NNE O O O O O O O l

NE O O O O O O O DE O O O O O O O E O 1 0 0 0 0 1 .

..)

ESE O 0 0 0 'O O O j SE O O O O O O O 3 SSE O O O O O O O s.

S 0 0 0 0 0 .0 0 SSW 0 0 0 0 0 0 0 SW 0 0 0 0 0 0- 0 J WSW 0 0 0 0 0 0 0  !

W 0 0 0 0 0 0 0 WNW l 0 0 0 0 0 1 '

NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0 VARIABLE O 2 0 0 0 0 2 -!

Total 1 3 0 0 0 0 4 Periods of calm (hours): 0 Hours of missing data: 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 24-2

~

U f ::

TABLE B-CA '

FARLEY NUCLEAR PLANT

' CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD-OF RECORD: 01-JAN-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground .

L STABILITY CLASS: B ALL HOURS IN PERIOD ELEVATION: 10.0 m. +

Wind = Speed (mph) at 10.0 m. level ,

Direction 1-3 8 12 13 19 24 >24 TOTAL :;

___ 4 _7

__ ____ ___-18 N 0 0 0 0 0 0 -0 NNE. 0~ 0 0 0 0 0 0 NE' O O O O 0 0 0 ENE O O O O O O O E O O O O O O O ESE. 0 0' 0 0 0 0 0

.SE O O O O O O O SSE O O O O O O O S 0 0 0 0 0 0 0 SSW 0 0 0 0 0 0 0 SW 0 1 0 0 0 0 1 WSW 0 0 0 0 0 0 0' W 0 0 0 0 0 0 0 HNW 0 0 0 0 0 0 0 NW 0 0 0 2 0 0 2 NNW 0 0 0 0 0 0 0 ,

1 VARIABLE O O O O O O O

_____________________________________________________________________ l Total O' 1 0 2 0 0 3l Periods of calm (hours): 0 l Hours of missing datas 0 (this stability class) ^

Hours of missing data 0 (this time period, all stability classes) i 24-3 i

D

i l

. TABLE 8-CA t

FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT.EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JAN-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: C ALL HOURS-IN PERIOD ELEVATION -10.0 m.

Wind Speed (mph) at 10.0 m. level Wind Direction 1-3 8-12 13 18 19 >24 TOTAL

___ 4 _7

__ ____ _____ __-24 N 0 0 0 0 0 0 0 NNE O 1 0 0 0 0 1 NE O 2 0 0 0 0 2 ENE O 2 4 0 0 0- 6 E O 3 1 0 0 0 4 ESE O 1 0 0 0 0 1 ,

SE O 2' . :2 0 0 0 4 SSE O O O O O O O S 0 0 1 1 0 0. 2 SSW O O 3 2 2 0 7 SW. 0 0 3 1 0 0 4 WSW 0 1 0 0 0' O 1 W .0 0 0 0 0 0 0 WNW 0 0 0 2 0 0 2 NW 0 0 4 7 0 0 11 NNW 0 0 1 0 0 0 l' VARIABLE O 3 0 0 0 3

_________________________________________0 ____________________________

Periods of calm (hours):

Hours of mirsing data 0

0 (this stability class)

Hours of missing data 0 (this time period, all stability classes) 24-4

~

5

-U.

i

-TABLE 8-CA FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JAN-89 00:00 TO. 31-DEC-89 23:59 RELMSE MODE: Ground STABILITY CLASS: .D ALL HOURS IN PERIOD ELEVATION: 10.0 m. ,

' Wind Speed (mph) at 10.0 m._ level  !

Wind-Direction 'l 8 12 13 18 19 24 >24

___ 4 _7

__ ____ _____ _____ ___ TOTAL'.'

N 19 58 33 0 0 0 110 NNE- 20 129 43 0 0 0 192-NE 29 -202 99 0 0 0 330 i ENE 24 181 75 3 0 0 283 E 28 113 13 0 0 0 154 ESE 6 75 8 0 0 0 89 -.

SE; 9 76 60 0 0 0 145 SSE 4 17 31 3 0 0' 55 I S 3 15 33 20 0 0- 71 !

SSW 3 33 66 41 2 0 145 SW 20 150 133 20 0 0 323 -i WSW 22 130 35 5 0 0 192 i W 24 114 26 1 0 0 165. [

WNW 31' 178 36. 5 0 0 250 NW- 30 141 135 23 0 0 329 NNW 26 138 116 7 0 0- 287 4

VARIABLE 188 296 35 0 0 0

_________..________________________________________________________519 ___

Total- 486 2046 977 128 2 0 3639 >

' Hours Periods of calm (hours):

of missing datas 1

0 Hours of missing data 0 (th{atimeperiod,this stability all class) stability classes) 1 24-5 l

l n

a t

TABLE 8-CA FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION i HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JAN-89 00:00 TO 31-DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: E ALL HOURS IN PERIOD '

ELEVATION: 10.0 m.

____________________________________________________________________ 7 Wind Speed (mph) at 10.0 m. level Wind Direction 13 13-18 19 24 >24 TOTAL

___ 4__7

_ 8__12 N 49 20 2 0 0 0 71 NNE 102 51 0 0 0 0 153-NE 79- 81 17 0 0 0 177 ENE 68 75 18 0 0 -0 161 E 37 53 1 0 0 0 91-ESE 33 85 2 0 0 0 120' SE 14 80 70 0 0 0 164 4 SSE 8 32 30 9 0 0 -79 S 4 30 32 2 0 0 68' i SSW 15 88 118 12 0 0. 233 SW 76 257 113 4 0 0 450 ,

WSW '85 83 10 0 0 0 178 W 73 23 1 0 0 0 97 WNW 67 47 4 1 0 0 119 NW 83~ 93 29 6 0 0 211 NNW 100 148 38 1 0 0 287 VARIABLE 467 130 13 0 0 0 610 ,

. Total 1360 1376 498 35 0 0 3269 Periods of calm (hours):

Hours of missing data 31 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) l l

24-6 i l

l l

____________e-_______-_

l I

TABLE 8-CA- j

~!

i FARLEY NUCLEAR PLANT ,

CUMULATIVE JOINT FREQUENCY DISTRIBUTION  !

HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JAN-89 00:00 TO 31-DEC-89 23:59 RE: MSE- MODE: Ground STs BILITY CLASS: F ALL HOURS IN PERIOD ELEVATION: 10.0 m.

.____________________________________________________________________ t Wind Speed (mph) at 10.0 m. level

. Wind Direction 1-3' 19-24 >24 TOTAL

___ 4 _7

__ 8_12

_ __ 13

___ _ _18 _____ ___ _____

N 41 1 1 0 0 0 43 NNE 39 1 0 0 0 0 40 NE 34 0 0 0 0 0 34 ENE- 21 2 0 0 0 0 23 .

E- 13 2 0 0 0 0 15.

ESE 14 19 0 0 0 0 33 SE 5- 16 4 0 0 0 25.

SSE' 5 2 3 0 0 0 10 S 1 2 0 0 0 0 3' SSW 7 3 6 0 0 0 16 '

E44 21 27 5 0 0 0 53 WSW 25 26 0 0 0 0 51 W 31 8 0 0 0 0 39 WNW 54 14 0 0 0 0 68 L NW 67 23 0 0 0 0 90 NNW 117 23 0 0 0 0 140 VARIABLE 18 0 0 0 0 288

_________ ___270_________________________________________________________-

Total 765 187 19 0 0 0 971

' Periods of calm (hours): 30 Hours of missing datas 0 (this stability class) l Hours of missing data: 0 (this time period, all stability classes) l l

l 24-7 L

l l

l 1

h

4 s

TABLE 8-CA FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JAN-89 00:00 TO DEC-89 23:59 RELEASE MODE: Ground STABILITY CLASS: G ALL HOURS IN PERIOD ELEVATION: 10.0 m.

Wind Speed (mph) at 10.0 m. level Wind Direction 13 4-7 8 12 19 24 >24 TOTAL

___ ___ ____- 13 _18 N 81 11 0 0 0 0 92 NNE 26 0 0 0 0 0 26-NE 14 0 1 0 0 0 15 ENE 11 0 1 0 0 0 12~

E 5 1 0 0 0 0 6 ESE 3 2 0 0 0 0 5 SE 3 2 0 0 0 0 5 SSE 1 0 0 0 0 0 1 S 0 2 0 0 0 0 2 SSW 1 0 0 0 0 0 1 SW 2 1 1 0 0 0 4

-WSW 5 0 0 0 0 0 5 W 17 6 0 0 0 0 23 WNW 23 5 1 0 0 0 29 hEi 43 0 1 0 0 0 44

-NNW 158 19 0 0 0 0 177 VARIABLE 255 4 0 0 0 0 259 Total 648 53 5 0 0 0 706 Periods of calm (hours): 57 Hours of missing data 0 (this stability class)

Hours of missing data: 0 (this time period, all stability classes) 24-8

-i TABLE 8-CA FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION pN DOF FCORD: 01-JAN-89 00:00 T0- 31-DEC-89 23:59 RF J SE ; 026: Elevated

N
CLASS: A ALL HOURS IN PERIOD-

~~ ~

60.3 m.-

~ ~ ~ ~

indSpeed'IEph5'Et60I3EI"5 Eve 5~""~~~~~~~~~~~""

Direction 1-3

___ 4 _7

__ 8_12 13

__-18 19 24 >24 TOTAL N 0 O O O O 0 0 NNE O O' 0 0 0 0 0 ,

NE O O O O O O O ENE O O O O O O O ,

E O O 1 0 0 0 1 ESE 0~ 0 0 0 0 0 0 SE O 0 0 0 0 0 0 SSE- 0 0 0 0 0 0 0 S 0 0 0 0 0 0 0 SSH ~0 0 0 0 0 0 0 -

SH 0 0 0 0 0 0 0 HSH 0 0 0 1 0 0 1 W 0 1 -0 0 0 0 1 ,

WNH 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 0 0 0 0 0 0 0-VARIABLE 0 1 0 0 0 0 1 Periods of calm (hours): 0 l

ours of missing data: 0 (this stability class ours of missing data 0 (this time period, all s ability classes) -

-I 24-9 l l

l 1

l

  • )=

7 TABLE 8-CA FARLEY NUCLEAR PLANT -

~

CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION PERIOD OF RECORD: 01-JAN-89 00:00 TO- 31-DEC-89 23:59 RELEASE MODE: Elevated STABILITY CLASS: B 'ALL HOURS IN PERIOD ELEVATION:

60.3 m. _ _ _ __

__ g _ _____________________

Hind  !

Direction 13

___- 4 _7 8 12 13 18 19 24 >24 TOTAL N- 0 0 0 0 0 0 0-NNE O O O O O O O NE O O O O O O 0 ENE O O O O O O O <

E O O O O O O O ESE O O O O O O O

l. SE O O O 0 0 0 0 '

SSE O O O O 0 0 0 S 0 0 0 0 0 0 0-SSH O' 0 0 0 0 0 0 SH 0 1 0 0 0 0 1 i HSH 0 0 0 0 0 0 0 W 0 0 0 0 0 0 0 HNH 0 0 0 0 0 0 0 ,

NH 0 0 0 0 2 0 2 NNH 0 0 0 0 0 0 0 VARIABLE. 0 O O O O 0

_________'___________________________________________0 __________

Periods of calm (hours): 0 Ecurs of missing data 0 (this stability class)

Fours of missing data: 0 (this time period, all stability classes) 24-10 c- a

TABLE 8-CA FARLEY NUCLEAR PLANT t

CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION '

P  ; O 0; D: 01-JAN-89 00:00 TO 31-DEC-89 23:59  !

R l 0 l

, , 'l Si :evated C ALL HOURS IN PERIOD

< .U . m.

_____________ g _____g.

Wind

_g_ g ____7___7_____________________

Direction 1

_-3

__ 4 _7 8 12

____ 13__18 19 24

>24 TOTAL i

N C 0 1 0 0 0 1

  • NNE O 1 1 0 0 0 2 I NE O O 2 0 0 0 2 ENE O 1 2 0 0 0 3 E O 1 3 0 0 0 4 ESE O O O O O O O SE O 1 1 0 0 0 2 SSE O O 1 1 0 0 2 ,

S 0 0 0 0 0 0 0 SSW O O 2 1 1 2 6 SW' O 1 3 1 2 0 7 WSW 0 0 1 1 0 0 2 W 0 0 0 0 0 0 0 WNW 0 0 0 0 0 0 0 NW 0 0 0 6 4 2 12 NNW 0 0 1 1 0 0 2 ,.

VARIABLE O O 3 0 0 0 3 Periods of ca:.m(hours): 0 ours of m:.ss:.no d.ata: 1 (this stability class) ours of m:.ss:.n# c.ata 0 (this time period, all stability classes) 24-11 l

I n,

a ,

i i

f TABLE 8-CA 1

FARLEY NUCLEAR PLANT '

CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH WIND SPEED AND DIRECTION

' T '2- 'C-8' 23:59 RE!)/1E E0isc Efiv!!;i^"-8' AE H URS IN PERIOD ifMEEcdM'm?

Wind Speed (mph) at 60.3 m. level Wind Direction 1-3 4-7 8-12 10-18 19-24 >24 TOTAL ,

N 20 98 104 31 0 0 253 '

NNE 16 60 81 21 1 0 179 NE 5 99 201 32 0 0 337 ENE 11 101 90 29 0 0 231 '

E 9 101 39 2 0 0 151 ESE 11 64 27 3 0 0 105 SE 6 -50 64 2 0 0 122 ,

SSE 5 16 58 12 0 0 91 S 5 12 28 24 2 0 71 -!

SSN 1 17 30 43 10 2 103 ,

o SH 3 67 166 57 21 1 315 '

WSW 13 94 86 8 2 0 203 W 12 84 55 13 4 0 168 WNW 11 130 76 19 3 0 239 NW 11 107 123 85 13 3 342 NNW 10 64 79 45 1 0 199 VARIABLE 116 230 119 14 0 0 479

__g...g.....ggg.....ggg;_..___;gg......g.g.......g____...._g._...gggg Periods of calm (hours): 2 Hours of m:.ssing data 50 (this stability ci Hours of m:.asing data: 0 (this time period, ac, ass),1 stability classes) l 1

24-12 i

j I

TABLE 8-CA i FARLEY NUCLEAR PLANT l

CUMULATIVE JOINT FREQUENCY DISTRIBUTION HOURS AT EACH HIND SPEED AND DIRECTION Hi!1RREE0i!?Efevaled^"-8'

" T - Sc-SS 23:59  !

BlMA8idSi'm" c ^ 5 S

_____________g_____________________

Hind

  • Direction 13

___ 4

__ _7 8 _12 13 18 19 24

>24 TOTAL N 19 88 109 4 0 0 220 NNE 11 89 84 1 0 0 185 NE 8 104 64 11 0 0 187 ENE 15 102 37 8 0 0 162 E 8 84 38 1 0 0 131 .

ESE 9 58 32 0 0 0 99 SE 3 49 90 2 0 0 144 SSE 9 26 90 56 0 0 181 S 4 23 48 18 0 0 93

  • SSH 5 25 118 85 2 0 235 ,

SH 4 95 242 94 5 0 440 WSH 12 107 107 9 0 0 235 W 6 75 40 4 0 0 125 HNW 9 47 56 3 1 0 116 NH 10 55 79 33 0 0 177 NNH 11 66 88 24 3 0 192 VARIABLE 87 145 66 5 0 0 303

?eriods of calm (hours): 18 ours of missin data: 57 (this stability class) mours of missin data: 0 (this time period, all stability classes) 24-13

TABLE 8-CA I FARLEY NUCLEAR PLANT CUMULATIVE JOINT FREQUENCY DISTRIBUTION j HOURS AT EACH HIND SPEED AND DISECTION I C TO 31-DEC-89 23:59

[{ESI@g[ojCOE@jv.)JdhN'as00:00

{h((CASg: F ALL HOURS IN PERIOD ____________ .....___.s..........-1...... ......... _...__..._______.. i Hind Speed (mph) at 60.3 m. level J Hind ' Direction 1-3 4-7 8-12 13-18 >24 TOTAL ___ ... . . . _____ 19_24 N 3 30 44 0 0 0 77 l NNE 4 16 54 0 0 0 74 . NE 8 22 36 0 0 0 66 ENE 7 22 J.1 0 0 0 40 E 5 36 12 0 0 0 53 ESE 5 27 13 1 0 0 46 SE 7 15 '20 0 0 0 42 SSE 7 9 25 16 0 0 57 S 5 6 4 1 0 0 16 SSH 2 5 11 5 0 0 23 SH 4 29 33 6 0 0 72 HSH 7 25 29 2 0 0' 63 H 6 29 14 0 0 0 49 HNH 6 26 25 0 0 0 57-NH 5 24 42 3 0 0 74 NNH 4 40 37 0 0 0 81 VARIABLE 35 50 12 0 0 0 97 Periods of calm (hours): 0 ours of missing data: 14 (this stability class)

 -ours of missing data                              0 (this time period, all stability classes) 24-14

l I I TABLE 8-CA FARLEY NUCLEAR PLANT ' CUMULATIVE JOINT FREQUENCY DISTRIBUTION 1 HOURS AT EACH WIND SPEED AND DIRECTION  ! MME%E E%21;iAN-89 : T 3 - EC-89 23:59

                                                                         ^" " ""S 2          S i M E PN : keSS'm?

_____________ g g_ __g. _g _ g _g __7_ g .__"__"__"_'__ Wind Direction 13 ___ 4 _7 8 12 13 18 19 24

                                                                                               >24 TOTAL    -

_____ i N 2 31 19 1 0 0 53 i NNE 4 19 46 1 0 0 70 NE 5 30 36 0 0 0 71 ENE 6 32 28 0 0 0 66 E 6 21 13 0 0 0 40 ESE 8 21 18 0 0 0 47 SE 1 33 9 0 0 0 43 SSE 6 10 10 4 0 0 30 S 3 9 2 0 0 0 la SSW 10 2 1 0 0 0 13 L SW 5 9 2 1 0 0 17 WSW 5 17 5 0 0 0 27 W 3 27 11 0 0 0 41 WNW 10 26 19 0 0 0 55 NW 2 28 17 0 0 0 47 NNW 0 39 11 0 0 0 50 VARIABLE 37 28 5 0 0 0 70 Periods of calm (hours): 4 i-Hours of missing data: 5 (this stability class) Hours of missing datas 0 (this time period, all stability classes) 1 24-15 l: 1-a n

c-I-1 t [ CHAPTER 25 PROCESS CONTROL PROGRAM Changes to the Process Control Program for the second half of 1989 are attached. l l 25-1 l 1 I l 1 l ______f_____-_-_---------.

d PROCEDURE REQUEST Ft*M FNP-0-AP-1  :

                ~
                                                                                                            ,3                                                1
1. Procedure Number FNP-0-M-030 -

Revision Number */ Procedure title Process Control Program k) Safety Related [] Non-Safety Related ) [] New Procedure Request ' b) Procedure Revision, New Revision Number 8 [] haporary Procedure Change, Effective until next permanent change, n [} Temporary Procedure Change, Req'd. by Plant Conditions, u [] Temporary Procedure Change, One Time Only Use, D [] Delete procedure  ; [] Delete 'It:N l [] 'Ihe procedure has been reviewed per Section 9 of FNP-0-AP-1,

2. Change Summary  !

2.1 Procedure Page Numbers Affected by Change Added procedure j F424-P-004 and Report F424-R-002 j 2.2 Description of Changes Incorporated procedure and report on [ solidification of Class A unstable oil for disposal 'l 1

   ~;

2.3 Reason for Change solidification of contaminated oils for

    .                           final disposal at a LLw Burial site                                                                                   ,

f 3. Prepared By h M M , [s/l4fTe E4 ,  ?/2 Date MJhstu Title

4. Reviewed , ~ %% 7- / 2 -// [

l

   -                                    U Sighatut%                                 ~ Title           '

Date )

   *1             5. Cross-Disciplinary /PORC Review O                   Gr               Signature                                         Title             ,                Date D Wt /                                 ,/MC &l **                               1// Y'/V 7 o                                                     y                       ,                                    ,

v , ,  ;

6. huporary change Approval (Signature /Date)  ;

[] Member Group Staff / [] Shift Foreman / [] Senior Reactor Operator / [} General Manager-Nuclear Plant /

7. Final Approval (Signature /Date, riquired within 60 days of temporary approval) fl , Group Supervisor . /

W Manager /n M / 2-19 9) [] MSAER

                                                                                           ~'                       '
                                                                                                                                   /

[] Vice President-Nuclear / [] / g [} General Manager-Nuclear Plant / AP-1/21 Figure 1 Rev. 23

                   +4   .k   .Lm- i    o m s. s         +s-a e e-4.-. -,. -Am -o+ m'A e-464  m,   4 2-         - r a FARLEY NUCLFAR F1JWF IGJCLFAR SAFETY EVALUATICDI CHECK LIST (1) UNIT           0             .

(2) CHECK LINT AFFLICABLE '!O FNP-0-M-030 Revision s 'ICN (3) SAFETY EVALUATION - PART 1: Does the procedure or procedure change to

 .I G

which this evaluation is applicable represent: a (3.1) Yes No JL A change to the plant as described in the FSAR? (3.2) Yes No X A change to procedures as described in the FSAR? (3.3) Yes No VL A test or experiment not described in the FSAR? (3.4) Yes No 'E A change to the Technical specifications or Operating License? (3.5) Yes No I A change to the Fire Protection system as i described in the TPPR or a conflict with the requirements of 10CTR50, Appendix R? If the answer to question 3.1, 3.2, oc 3.3 is "Yes," complete Item (4), attach a 10CTR50.59 evaluation and obtain PORC review prior to iglementation. If the answer to question 3.4 is "Yes," complete a 10CPR50.92 check list, and obtain PORC and NRC approval prior to implementation. If the answer to question 3.5 is "Yes", provide an evaluation of the impact of the procedure or procedure change on the Fire Protection system and 10CrR50, Appendix R requirements and obtain PORC t,; review grior to iglementation. If the answer to Items 3.1,3.2,3.3 and 3.4 is No", omit Item ( 4 ) and Item ( 9 ) .  ;

    'T        (4)      SAFETY EVALUATION - PART B (4.1) Yes               No-"              Will the probability of an accident previouslyevaluatedintheFSARbeincreased?f (4.2) Yes               No                Will the consequences of an accident previously evaluated in the FSAR be increased?

s (4.3) Yes No May the possibility of an accident which is l  % different than any already evaluated in the FSAR be created? i

   -.-        (4.4) Yes               No                Will the probability of a malfunction of equipment important to safety previously
   's                                                   evaluated on the FSAR be increased?

(4.5) Yes Will the consequences of a malfunction of No

  • equipment importent to safety different than g any already evaluated in the FSAR be increased?

(4.6) Yes No May the possibility of a malfunction of. equipment important to safety different than any already evaluated in the FSAR be created? (4.7) Yes No Will the margin of safety as defined in the , basis to any Technical Specification be reduced? If the answer to any of the above questions is "Yes," an unreviewed safety'- question may be involved. (5) REMARKS: (Attach additional pages if necessary) T ja e/w Ma d nLe +L nsA endw w & +L aMLA L mene.s (6) A DATE b N (7) REVIEWED BY: V I DATE 7/M (8) PORO REVIEW: *~~)7t~s.u DATE M/ f[[7 (9) NORB REVIEW: DATE HP/AP-5/7 Figure 3 Rev. 20

c r~' - Basis for safet Evaluation for Rev. 8 'IG to PNP-0-M-030 l

            " Process Contro Program (PCP)"
            'Ihe following lists data /information to show compliance with 10CFR61 in support of Revision to FNF-0-M-030.

61.56(a) (1) Waste must not be packaged for disposal in cardboard or fiberboard boxes: N/A to this procedure 61.56(a) (2) Liquid waste must be solidified or packaged in sufficient absorbent material to absorb twice the volume of the liquid: 4 As shown in F424-R-002 section 4.0, enough absorbent is

     ~

added to absorb at least twice the volume. ! 61.56(a) (3) solid waste containing liquid shall contain e little free

standing and noncorrosive liquid as is reasonably L achievable, but in no case shall the liquid exceed 1% of 3

the volume: L O F424-R-002 Section 5 ensures free standing liquids of

     ~

final product are <0.5% by volume. A 61.56(a) (4) . Waste must not be readily capable of detonation or of C explosive decomposition or* reaction at normal pressures and temperatures, or of explosive reaction with waters r424-R-002 Section 5, e_njures waste is not capable of de beu ski i :: " ' : p.i--2 explosive decomposition or reaction with TW99 . water at normal temperatures and pressures.

 ,          RCP-7A/27

(

g  ; 61.56(a) (5) Waste must not contain, or be capable of generating, t

            /                   quantities of toxic gases, vapors, or fumes harmful to                               '

persons transporting, handling, or disposing of the waste. This does not apply to radioactive gaseous waste packaged . in accordance with paragraph (a)(7) of this section: .i F424-R-002 Section 5 determines that waste will not  ! contain or be capable of generating toxic gases, vapors or fumes. , i 61.56(a) (6) Waste must not be pyrophoric. Pyrophoric materials  ; contained in waste shall be treated, prepared, and packaged l to be nonflammable: F424-R-002 section 5 determines that waste will not be I pyropheeic. j

       %                                                                                                            =

61.56(a) (7) at a ressure that T Waste does not inexceed a gaseous form must beatpackapC. 1.5 atmospheres 20 Tota activity aust not exceed 100 curies per container: 1 N/A this procedure

  • l:

O i 3 61.56(a) (8) Waste containing hazardous, biological, pathogenic, or i' infectious material sust be treated to reduce to the maximum extent practicable the potential hazard from the e non-radiological materials: a F424-R-002 section 5 determines that waste will not I contain hasardous, biological, pathogenic or infectious ( materials. 1 RCP-7A/27 i l

t r f- 61.56(b) (1) Maste must have structural stability. A structurally  ; i stabtr waste form will generally maintain its physical ' dine.wiens and its form, under the expected disposal + conditions such as weight of werburden and cosqmetion h egaissment, the presence of moisture, and microbial  ! activity, and internal factors such as radiation effects and chemical changes. Structural stability can be prwided . by the waste form itself, processing the waste to a stable i form, or placing the waste in a disposal container or structure that prwides stability after disposal:  ; Not agplicable to Class A, unstable waste. 61.56(b) (2) Notwithstanding the prwisions in 5 61.56(a) (2) and (3), - liquid wastes, or wastes containing liquid, must be , a converted into a form that contains as little free standing  ;

        ~

and noncorrosive liquids as is reasonably achievable, but in no case shall the liquid exceed 1% of the volu m of the s waste when the waste is in a disposal container designed to ensure stability, or 0.5% of the volume of the waste for

       ,, e                                  waste processed to a stable form:

F42 R-002 section 5 determines that waste will contain ( <0.5% by volume free standing liquid.

  -Q
       ~                                                                                                     l 56.56(b) (3)           Void spaces within the waste and between the weste and its m-                                    package must be reduced to the extent practicable:               i d                                     F424-P-004 section 6 address void spaces reduced to o                                     maximum extent practicable.

l I I I RCP-7A/27 1

  -O 1

I i l' l l

                . - - - - , , , , - ,- - . ,           , _ _ - _m_.______m_ _ _ _ __ _ _
                                                                                                                                                                              ~

JLA 17 '991485[h!AU ib $bA5 r.A h g emen w. usweesum. W ogger  ;

  • 0804 5 5 08 {

9 I L

  • i I
                                                                                                                                                                                                  'I l

Julv 17 1989 f Perry Farnsworth Alabama Power Co.  ! Joseeh M.-Farlev Nuclose Plant Mtohway 95 South 36319 l

          ;&             Columbia. A1                                                                                                                                                              1 Subjects                Oil Belidification                                                                                                                                ;

v ' Dear Perry.  ; V: To further clarify my letter of July 14. 1989. this' is to confirm L that Westinghouse Radiological Services. Inc. And Fluid Tech. Inc.  ! certify thatt provided the previously ref erenced documents are usedt en s.u difi.d with r.treset. ets th. r utr. nss of '(o .a.t.- 10CFR61.56. For .the purpose of this letter and the ref erenced j documentation, weste ett is defined as organic mila meeting the

           -              non-hazardous requirements 'of 40 CFR 261.
           =              .1 _ .,,.                                                                                                                                                              j e.

0 t*_ ' Mihe McCauley 1 Br. Project Manag r me\iw , i s O . St _____._._.i_________.._________.__________________,,.m_. _ _ _ . _ _ _ . . , . . . . , . . , _ . . , , _ , , , . , . . , . , - , . _ , y .. -, ,,m.p,,...m-.,_

                                         -       - - . . -.           . - - - - - - - - - - - - - - - -                                                    ~~~*-- ~~ ~ ' ~ ^ ' ~

lI = n y 53p 17:19 HYDmo NUCLEAR SERVICES P.2 i _ i h, IRA. i

u ~ ~.

en.neme~ I O  ! I. i e  !

                                                                                  .                                                                                                    1 l

i (. July 14. 1989-  ! Perry Farnsworth  ! Alabama Power Co. Jooseh M. Farley Nuclear Plant 'i Highway 95 South- < Columb1a Al '36319 , C Subjects  : 011 Solidification M

          ,            Saeed       on      the           review   of vf,'* pedgram                                                               the          processing procedures and control .                                      .

by WRB report published by Fluid Tech, Inc. , the on site testing doeueented

         \"      Test Solidif1eaL1on         nuihbor F424-R-002, and the use of                                                                                                      ,

the WRS Process and i Services' is confident Procedure. F424-P-004, Weetinghouse Radiological' all necessary that the solidified product produced will nieet , t trarisportation und burial rewut reinen ts. ,

                . Sincerely,
i 4~ Mike McCauley Sr. Project Manager mc \1w  ;

i 4 E b

                                                                                                                                                                                     +

0 ' A 4 ,, - , - ~ - - + . . . . . . . - - - . . - . . -----~---,.,..e.-,,-r. .u.w- - -

i 1- M Xa.19 !Q.16859..H1149 W9.sgv;cg,39 : 93339jjggp ggg 933"$gggg g

                                                                                                                                                                                                       'l
               .HiHD TECH,INC.                                                                                                                                                                            I
                                                                                                               . 11, 1,                                                                                   .

m.are,-arte

                       -a, -- y                                                                                                                   ,

i3N North therth Street  ! IIntrteteus. IJ 00057 ,3

                                                                                                                                               . .                                                        {

Deer W. Bertes c',. -

                               'Ma letter to se response to your gesettens this meestas ehest our Agueest 4 eteneet predesta.                                                                                                                                                             !

finese predetta se heet aat 11aansed bF the State of hektasten and the State of . aset the reguiremeste of 10 CFR 61.84 shes used ta deste vt F1ste feek, Eas. procedures. ..

a. If you have ear further guesttehegleese saitan.
                                                                                                                                ....n,.                      ..

V , , j{ . .,81eepre1FI' ". . ' ' '.';. j , '. h

                                                                                           .,en,..

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t 1 1 I \. - Sahdttyhng of Rakarttee & Nanandoen 15sdh ' 433s Weet 'Dopicana e Les %ses, Nevede 89108 * (703) 8711484

  . 4 +7 _,

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    ..                                                                                                      1
                                                                                                       -i O                                                                                                       l Document Number: F424 R 002 Revision Lescl:                   2 i

t TEST REPORT TOR OIL SOLIDiflCATION

                          ,        USING PETROSET 11                                                      f I

For i

                                                                                                         'f I

O.

    \

J. M F ARI EY NUCLEAR PL ANT i 1 l . l WLS1INGilOUSE R ADIOLOGICAL SERVICES. INCORPOR ATLD , 1256 N. Church Street Moorestown, NJ 08057 i DOCUMENT CONTROL  : l- CONTROLLED COPY . 0 No. AO A 1,

I- *

                                                                  ~
                                                        ;ccurent Nu: Lee:                                         ~
       '4                 ;EsT:Nc ecsE                                                                                    ]

I', ',", R- 0 02 - , RADICLCCICAL SERVICES .  ! I2 INCCF.PCRATED

Title:

HST EPC'R' FOR OR SCPMM l'n i PETROSET II i t l PROPRIETARY. I Manager Proj ec t Rev. Rev. Date Design & Manager Egy,/

 !                                        Process Engineering                                                        tc3          i i       -

fp g 2 7/5/69

                                             ..~-

i ' gc3 89-019

                                                                                                                    .f .

i . f b 1 i l 1 I l l r t FORM-Ol'(D) Page 2 of 12 l l

m 1

                                                                                                       .1 I

F424 R 002

7 Page 3 of 12 l

TEST REPORT FOR OIL SOLIDIFICATION  ! USING PETR$ET !! [

 ;,                 1.0     PURPOSE The purpose of this test was to determine if waste oil could be              :

successfully solidified using Petroset 11 solidification agent at volume ratios ranging from 0.42 (recommended by Fluid Tech, Inc.) to 0.67 Petroset 11 to oil. - 2.0 REFERENC15 / 2.1 Fluid Tech Manual .002, " Solidification Procedures for Radioactive Liquids." (See Attachment A). 3.0 EQUIPMENT AND MATERIALS 3.1 Mixing vessels, 1 liter, disposable plastic.

 <     ,                   3.2     Electric mixing motor equipped with mixing blade.

3.3 Petroset 11 solidification agent. 3.4 Activator (isopropyl alcohol). 3.5 Graduated beaker. 3.6 Waste oil, samples of unknown composition from four different drums. 4.0 TEST PQ FORMANCR from each drum, one 300 mi sample of oil was placed into a mixing vessel, Using the recipe suggested by fluid Tech,125 ml (80 gm) of t Petroset 11 and 15 ml of activator were measured into separate graduated beakers. Use of the recommended amount of Petroset 11 (or greater l l amounts) provides enough Petroset 11 to absorb twice the volume of oil. o lhe mixing blade was inserted into the mixing vessel containing the first oil sample and the electric mixing motor was started. The L Petroset 11 was added slowly while mixing. Approximately one minute after completion of the Petroset il addition, the activator was added to

      'w]

l p; o t.

F424-R-002

         )                                                                    Page 4 of 12 the waste slurry while continuing the mixing. This slurry was mixed for another minute, then the mixing was stopped and the mixing blade was removed from the mixing vessel.

I' At this point the mix looked too fluid, so it was decided to measure out an additional 50 ml of Petroset 11 and approximately 5 ml of activator to be added to the slurry. The mixing blade was reinserted into the sample and the mixing motor was started. The additional Petroset 11 and activator were added to the slurry in the same manner described above. This product looked better than the original recipe, but still looked soft. This procedure was repeated for one sample from each of the four drums. A second sample from two of the drums was solidified as described above but using 200 ml of Petroset 11 and 22 ml of activator. All of the samples were loosely covered and allowed to cure for 24 hours. No water was evident during testing, thus Petroset I and Aquaset 11 were

  '7m           not used. However, if water is encountered at full-scale, Fluid Tech
         )      recommends their usage, v

5.0 PRODUCT ACCEPTABillTY AND TEST RESULTS Criteria for acceptability of the product for shipment and burial at Richland and Beatty include the product being a free standing monolith with less than 1/2% free liquid. After 24 hours of cure, all of the samples showed no signs of free liquid and appeared to be the consistency of thick grease. Table 1 shows the solidification test data. The samples were turned upside down on the table top and allowed to sit in that position for two hours. The samples mixed with 200 ml of Petroset showed very little sign of slumping. All samples showed no sign of free oil. Subsequent conversations with Fluid Tech personnel indicated that the

               " thick grease" consistency is what the product should resemble and is acceptable for burial. Fluid Tech was confident that their suggested recipe used for the first saltple was acceptable without additional Petroset and activator (as in samples 3 and 5).

Conversations with the State of Washington indicated that the solidified waste product is acceptable for burial at the Richland burial site (see ' Attachment B). Fluid Tech has stated that the criteria of 10 CFR 61.56 are met when the waste is solidified as directed by them, and using the

  /

sJ

    ^')        recipes outlined in this report. Specifically, the solidified waste form will:                                                                  .

tweca _1

g.,..- . j i F424-R 002  : e y Page 5 of 12 3 r  :  ! w/ , 1 )'- contain less than 0.5% of the volume of waste as 1

              ,                                        free standing, non corrosive liquid (10CFR 61.56 (a) (3) and                              !

(b)-(2)). .

                                                                                                                                          -t
2) not be.readily capable of detonation'or of explosive .f decomposition or. reduction (10CFR 61.56 (a) (4));. 1 j
3) not contain or be capable of generating quantities of. toxic' gases,. vapors, or fumes (10CFR 61.56 (a) (5)); a
                                                                                                                                              }

4): not be-pyrophoric (10CFR 61.56 (a) (6)); and < n .

5) not contain hazardous, biolegical,' pathogenic'or infectious "

material (10CFR 61.56 (a) (8)).

                                                                                                                                           ;i
6 ', 0 ~ CONCLUSIONS.

t 1 Use' of the Petroset 11 results in an acceptable product for burial at Richland or Beatty. In order to add a margin of safety.to the Fluid l Tech recipe, additional Petroset 11 and activator should be used (as in' '; Sample 3 and 5). This will result in approximately ~40 gallons of oil 1 il

          ~                         waste, 140 pounds of'Petroset 11 and 2,5 gallons of activator per drum                                    1 processed.                                                                                        '          i t

i L! o

                                                                                                                                                -t 9       ,                                                                                                                                . . .;

s J 1 i g L 1 ig P r 1 h ** !? 5;& ; [h .

    +             '                                                                                                                              ;
      '- 3': ) c ,                      ,      . . ~ ,    .-      -.:  - . - . , -   --   - -  - - -    --    - - - - - - ~ ~ ~ -

F424 R 002 O Page 6 of 12 TABLE 1 Test solidification Data for 011 Usina Petroset 11 Sample Waste 011 Sample Petroset !! Activator Final Desianation Volume ml Drum Volume. ml Volume. ml Volume, ml Observations at 24 hours 1 300 1 175 20 400 Soft, thick, no free liquid 2 300 2 175 20 400 Soft, thick, no free liquid 3 300 2 200 22 410 Soft, thicker than sample 2, no free liquid 4 300 3 175 20 400 Soft, thick, no free liquid O5 300 3 200 22 410 Soft, thicker than sample 4, no free liquid 6 300 4 175 20 400 Soft, thick, no free liquid O

                .M a i  .

4 . F424 R 002 Page 7 of 3g O 1 ATTACHPIENT A Excerpt from Reference 2.1 . t

                                                                                                                                   -t b

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t 5.2 Solidi fic at ion _ Pr oce s s 5.2.1 Baufreent Reevired F424-R-002  ! [ a. Shipping Containers Page 8 of 12  !

2. Mixing Equipment i
3. Company Saf ety Requirement s j 5.2.2 Transfer the container of liquid weste to be solidified ,

into the processing area, open the container, and inspect I the liquid for solid debria. 5.2.3 It miscellaneous solid debris (i.e.. rags, cloth, etc.) is  ; in the liquid, remove such materiet for subsequent i packaging as wet trash. Solid debria should not be left in a container of liquid which is to be processed by solidification.  ; 5.2.4 Place the calculated volume of liquid in the shipping container (normally a 55 gallon drum). 5.2.5 Place the stirring mechanism in position to stir the . Petroset or Petroset/Petroset II sixtures into the solution  : as required. , 5.2.6 Add the Petroset or Petroset/Petroset II aixtures while , l stirring until the sixture has reached the desired , l consistency. Add activator if necessary. 5.2.7 Remove the stirring tool and place a small amount (1/2" to 1") of the solidification agent being used on the top of O the mixture and replace the container lid, but do not secure the lid. In 24 hours, inspect the solidified media for any free 5.2.8 liquid. (Free liquid will nornelly rise to the top). 9 5.2.8.1 If no free liquid is present, seal for shipment. 1 5.2.8.2 If free liquid is found, add enough solidification agent while stirring to solidify the liquid and  ; repeat steps 5.2.7 and 5.2.3 above. 6.0 SOLIDIFICATION PROCEDURES POR LIQUIDS '! HAT ARE ESSENTIALLY PURE ORCANIC Revised Petroset II provides the greatest efficiency with pure organic liguids. 4/22/86 In certain instances, for example when solidifying pure oil, addition g of an activator in amounts of approximately 51 of the waste volume will p' be required to effect rapid solidification. If contaminated solvents  ; l which need to be disposed are available, the addition of methyl alcohol or similar non-hasardous solvents may replace the activator and thus improve the results of Petroset II when solidifying pure oils. O 6 of 11 (FTM.002) FLUID TECH, INC.

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          ,~

6.1 Saeple Testing j F424-R 002 6.1.1 Eeuipment Required Page 9 of 12 ) t

1. Calibrated beskers
2. Stirring device - a variable speed 1/4" drill with a  ;

paint stirring attachment works well, or a small 5 stainless steel spatula.

3. Company Safety Requirenents 6.1.2 In a small beaker containing 300 al of waste, add 80 gas l (about 125 el) of Petroset II while stirring. This is  ;

equivalent to approximately 100 lbs in 45 gallons. If the waste is not adequately solidified at this point, add  : activator at the rate of about 5% by volume of the waste t fluid.  ; 6.1.3 Evaluate the systen condition.  ; 6.1.4 If necessary, add additional Petroset II and activator  ; incrementally in the ratio of,0.083 al activator for each gram of Petroset 11 until the desired-consistency is reached. (This amounts to 1 gallon of activator per 100 pounds of Petroset 11). 6.1.5 Record the final total volume of the solidified material. f and determine the volume expansion relative to the volume of liquid with which the test was started. 6.1.6 Calculate the volune of liquid that can be solidified in the shipping container so that it will not overfill-during i l the solidification process. 6.2 Solidification Process , i 6.2.1 Equipment Reevired

1. Shipping Container.
2. Mixing Equipment
3. Company Safety Requirements 6.2.2 Place the calculated volume of liquid in the shipping L container (normally a 55 gallon drum).

6.2.3 Place the stirring mechaniss in position to stir the Petroset II into the wastes. 6.2.4 Add the required weight of.Petroset II (as determined from lab tests and calculations) while atirring. i 6.2.5 Add approximately 5% of the waste volume of activator as required to obtain solidification. Mix well. 6.2.6 Evaluate the system condition. 6.2.7 If necessary, add additional Petroset II and special activator incrementally in the ratio of 1 gallon activator to 100 pounds of Petroset II until the desired consistency is reached. 7 or 11 . FLUID TECH, INC. (FTM.002)

I

            .                                                                                         f424-R-002       :

Page 10 of 12' l i 6.2.8 Remove the stirring tool and place a small enount (1/2" to I 1") of the solidification agent being used on the top of  : the sixture and replace the container lid, but do not secure the lid. 6.2.9 In 24 hours. inspect the solidified sedia for any free ' liquid. (Free liquid will normally rise to the top.) 6.2.9.1 If no free liquid is present, seal for shipment. 6.2.9.2 If free liquid is found, add Petroset II and activator if necessary while stirring to solidify the liquid, and repeat steps 6.2.8 and 6.2.9. I 7.0 SPECIAL SOLIDITICATION_ PROCEDURES _FOR**

1) Water solutions very high in soluble metal salts  !
2) Water soluble / miscible organic compounds
3) Neutralized acids or bases
4) Combinations of any or all the above
5) Mixtures of 1, 2 and/or 3 above and oils, greases or solvents.

Aquaset II. either alone or in combination with Petroset or Petroset II, will efficiently solidify the wastes referenced above. The water soluble / miscible organic compounds include alcohols, glycols, certain ketones and the like. Shear stirring enhances the speed of the ,. solidification process when using Aquaset II and should be used to realize the greatest solidification cost effectiveness. It is important that laboratory bench testing identify the proper proportions of individual solidification agents to be used in the solidification agent six. Upon request. Fluid Tech. Inc. will provide necessary technical assistance to achieve the required solidification goals. As a general rule of thumb, wastes can be adequately solidified by the following relationships. 7.0.1 Determination of Proper Solidification Agent Proportions in , Mixed Wastes A) In those cases where Group 1, 2 or 3 exist in concentrated form either singly or mixed, use  ; Anusset II B) In cases where Group 1, 2 or 3 are present in diluted form either singly or aimed. Petroset any be used in conjunction with Acusset II to more efficiently produce the required solidification. The relative percentages of Petroset and Anusset II to be used will be discovered through laboratory bench testing. C) Groups 1, 2 or 3 either alone or in combination, j whether concentrated or dilute when sized with oils. l gresses or solvents can be efficiently solidified l according to the following relationship: l l- Volume !_ Group __1+2+3 = Weight I Anusset II i Volume Z Oils + Greases + Solvents Weight 1 Petroset 11

  • Make sure that these procedures comply with company safety rules.

e of 11 FLUID TECH, INC. (FTM.002)

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F424 R-002 q Page 11 of 12 i

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1 s . 1 a 1 ATTACHPJNT B , i 8 t 4 r F I h W L i . l _______=______ - -_ - . - . - . . _ _ . - . - . . _ . .

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                                                                                                                                                )                      F424 R 002 Page 12 of 12 n ;                                                                                                          .....

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 ;-                                                                                                            DEPARTMENT OF SOCIAL AND HEALTH SERVICES                              j ohnpa MNyton 5e3cww3 October 6,1988                                       i I

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                                                                                                                                                                                     !~

t Bryon Roy.  ; Hittran Nuclear }

                                                                                                -1256 N. Church Street                                                               ;

Moorestown, Nw Jersey 08057 j

Dear Mr. Roy:

                                                                                                 'Ihis is in response to your letter dated July 27, 1988, relative to oil, solidified with Petroset at the Joseph M. Farley plant.

htcvided that the oil is processed in accordance with Fluid-Tech, Inc.'s

                         .,A                                                                     process control program, ccntairs no free-standing liquid, and results in

( a free-standing solid, the vaste described in your letter is acceptable l l-at the US Ecology, Inc. lelevel radioactive waste dispcsal site, near Riddand, Washington. > All shiprents rust emply with the rules and regulations of IX7r, NRC,- state of Washington, as well as LE Ecology, Inc.'s license. If 3cm should have any questions, do not hesitate to mntact this office. l Sincerely,  ; I

c. e. . Int Waste Management Section K7E:CEI:%

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              .-                                                                                          t O                                                    Document Number: F42J P ON i

Revision Lesc1; 2  ! i 9 PROCESS AND TEST SOLIDIFICATION PROCEDURE FOR

  ,                    INCONTAINER SOLIDIFICATION OF CLASS A UNSTABLE OIL USING PETROSET 11 For i

J. M. FARLEY NUCLEAR PL ANT - i s r L

                                                                                                         .i WESTINGliOUSE R ADIOLOGICAL SERVICES, INCORPOR ATED                                  .

1256 N. Church Street Moorestown, NJ 08057 l'. fMJJ3uestTH DOCUMENT CONTROL l l 1 Q CONTROLLED COPY No. 4019 . I

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  • Documsnt Numbor: ~
         ~ g.        WESTINCHCUSE T424-P-004 RADIOLOGICAL SERVICES.                                                                        '

4 i:- INCORPCRATED

Title:

PROCESS .ND TEST SOLIDITICATION PROCEDURE TOR INCONTAINER PETROSET II SOLIDITICATION OT CLASS A UNSTABLE OIL USING . I , i i . Manager Proj ect , Rev. Rev. Date Design & Manager ' L, Process ECN/ EWR L s' Engineering > 1 ( (dq Eq 4 T ECN 2 ~1-6-61 89-020 h l l 1 1 i 1 l l s% l l TORM-01: (D) Page 2 of 14 n.

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                                                                                                                 'f F424-P 004 Page.3 of 14     i V("y PROCESS AND TEST SOLIDIFICATION PROCEDURE FOR INCONTAINER SOLIDIFICATION OF CLASS A UNSTABLE OIL                     l USING PETROSET II                                    l; 1.0      SCOPE                                                                              i This procedure is applicable to the solidification of oil per Condition            !

36 and Appendix C of the State of Washington Radioactive Materials License, Number WN-1019-2, and classified as Class A unstable waste under the requirements of 100FR61.55, Waste Classification.- The waste v oil to be solidified under this procedure is limited to pourable, lubricating oil. 2.0 PURPOSE 2.1 The purpose of the Process and Test Solidification Procedure (PTSP) for incontainer solidification of oil'is to provide a program which, when used in conjunction with the plant's Process

  .                                     Control _ Program, PCP, will ensure a solidified product which meets E                                        the requirements of 10CFR61.56, Waste Characteristics, i

The procedure consists of four major steps: J(7 (a) Procedure for collecting and analyzing samples; (b) Procedure for solidifying samples; (c) Criteria for process' parameters for acceptance or g, rejection as solidified waste; (d) Calculational methodology for determining quantities of solidifications agents and additives for. full scale 7 operations. L 2.2. This document describes the methodology for determining the . acceptable ratio of waste, solidification agent and additiv'e that will result in an acceptable product for transportation and burial. See test report F424-R-002, " Test Report for Oil Solidification Using Petroset II", for product acceptance according to 10CFR 61.56 criteria. M OU n :65-04Ch 3

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            '8                                                                                                            ;

Oa F424-P-004 Page 4 of 14 3.0 COLLECTION AM ANALYSIS OF SAMMIS  ; 3.1 General Reaub ..t t , 3.1.1 As required by the Radiological Effluent Technical

  • Specifications for PWR's and BWR's-the PTSP shall be used  !:

to verify the solidification of at least one representative test specimen from every tenth batch _of each type of wet radioactive waste. - 3.1.2 For the purpose of the PTSP a batch is defined as the appropriate quantity of waste required to fill a disposable container prior to solidification. For the , purpose of the PTSP, a type of waste is defined as a mix of specific oil (s) and contaminants that is made. homogeneous to ensure that batches of it are of the same-makeup. ,

   ,                                       -3.1.3    If- any test specimen fails to solidify, the batch under test shall be suspended until such time as additional test l

specimens can be obtained, alternative solidification parameters can be determined in accordance with the N Process and Test Solidification Procedure, and a subsequent test verifies solidification. ' Solidification of the batch may then be resumed using the alternate solidification parameters determined.

                                                                                                                            't 3.1.4   If a mixture of oil and water or glycol is to be solidified, Petroset I or Aquaset II may be required to be -        '

used with Petroset II for proper solidification.

                        '3.2        (,ollection of Samnles 3.2.1    Radioloaical Protection These procedures must be followed during sampling to                  j minimize personnel exposure and to prevent the spread of            a contamination.                                                          .

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                                  .                 3.2.1.1      Comply with applicable Radiation Work Permits.

3.2.1.2 Test samples which use actual waste shall be disposed of by placing them in the solidified container. 3.2.1.3 A Test Solidification Data Sheet will be

     ._p                                                        maintained for each test sample solidified.
     *V                                                         Each data sheet will contain pertinent information on the test sample and the batch numbers of waste solidified based on each test sample.

0534Ai65-040888

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 ,                                      3.2.2  Test Solidification Data Sheet The Test = Solidification Data Sheet will contain pertinent information on'the characteristics'of the test sample
  '                                            solidified so as to verify . solidification.of subsequent batches of similar waste without retesting.

3.2.2.1 The test sample data for oil will include, but-not necessarily be limited to, the type of waste solidified, volume of- sample, sample number and the quantity of any addi.tive used. p 3.2.2.2 The appropriate Test Solidification Data Sheet 1

 '                                                        will include the Solidification Number, Container Number, Waste Volume, and Date
                                                          . Solidified, for 'each batch solidified.

3.2.3 Collection of Samoles 1 ' 3.2.3.1 Two samples shall be taken for analysis. If the - i radioactivity levels are too high to permit full l p size samples to be taken then smaller samples L ') , l  ! shall be taken with the results corrected accordingly. Sample sizes shall be determined by the plant Health Physics staff.-

                                              .3.2.3.2    If possible, samples should be drawn at least two days prior to the planned waste solidification procedure to_ allow adequate time to complete the required testing and verification of solidification, and to allow for l

retesting if necessary. For Class A Unstable waste, approximately 28 hours are required for - testing and verification. 3.2.3.3 If the contents of more than one tank are to be l solidified in the'same container then  ; H representative- samples of each tank should be -i drawn. The samples should be of such size that L l when mixed together they form samples of  ; standard size as prescribed in'Section 3.2.3.1. j l If the contents of a particular tank represent a certain percent of the total waste quantity to jl E be solidified then the sample from that tank i L should be of such size to represent that percent I of the composite samples. - n-

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l' 053& 65-0CM9

                                                                                                                     'F424-P 004'
  .A                                                                                                                  Page 6 of 14 1         \-
   .Q) 4.0-                          TEST SOLIDIFICATION AND ACCEPTANCE CRITERIA                                    q 4.1   Test Solidification of Class A Unstable Oil Waste 4.1.1    MEASURE into_ the mixing vessel 300 ml of oil.                  .,
                                                                     @TE:        Test solidifications should be conducted using a 1000 ml disposable beaker or_ similar size
 * ,                                                                             container.                                           j 4.1.2    RECORD the volume of oil on the ~ Class A Unstable Test            i Sol ~idification Data Sheet (Item 1, Form F424-P-004-01).

4.1.3 MEASURE the pH of the' oil. 4.1.4 If the pH is not in the 5 to 9 range, ADD an acid or a base to adjust the pH to this range. I 4.1.5 RECORD the initial pH, the pH adjuster used, the amounti of ' adjuster and the final pH on the Class A Unstable Test .l Solidification Data Sheet:(Items-2 through 5,_ Form- 'l n F424-P-004-01). 4.1.6 WEIGH out 128 gms (approximately 200 ml) of Petroset II into'a separate vessel.  ; 4.1.7  : RECORD the weight of Petroset II on the Class A~ Unstable Test Solidification Data Sheet (Item 6, Form F424-P-004-01). 4.1.8 MEASURE out 20 ml of activator (isopropyl alcohol) into a separate vessel. 4.1.9 RECORD the volume of activator on the Class A Unstable Test Solidification Data Sheet (Item 7, Form l F424-P-004-01). 4.1.10 Slowly ADD the Petroset II to the oil while mixin,g. l

                                                                                                                                      ~1 NOTE:       Mixing may be accomplished by stirring with an electric mixing motor with mixing blade or other suitable method.

4.1.11 Slowly ADD the activator to the slurry while mixing. 4.1.12 MIX for one minute after addition of the Petroset 11 and activator to obtain a homogeneous mix. O.

  'i        ).

094A 65-040"e

u lh ] l i;A - F4242P -004 Page 7 of 14 i' I E: - If a separation of' phases is noticed following addition of the Petroset II (i.e., clear liquid 3 is observed), Petroset11 or Aquaset 11 may be: .

              '                                           . necessary to solidify the waste due to-water or--           l glycol being present.                                      :

4.1.13- RECORD the final solidified product volume on the Class' A-Unstable Test Solidification Data Sheet (Item 8, Fom-F424-P-004-01). 4.1.14- ALLOW the sample to cure for up to 24 hours at room. temperature. E :- ENSURE that Section 4.1, Test Solidification of Class A Unstable Oil Waste, is completed.and  ? VERIFY this on the Procedure Verification Sheet, Form F424-P-004-03. 4.2 Solidification Acce;tability When used in accordance with Section 4.1,- the amount of Petroset C II is enough to absorb at least twice the volume of oil. The i.' \ following criteria define an acceptable solidification process _and i process parameters. 4.2.1 The sample. solidification has no free standing liquid. 4.2.2 . If upon visual inspection the waste' appears that it would hold its shape if removed from the mixing vessel. j 4.2.3 VERIFY the acceptance criteria.by signing and dating each item in Section II of the Class A Unstable Test Solidification Data Sheet. E: ENSURE that Section 4.2,- Solidification hcceptability, is completed and' VERIFY this on the Procedure Verification Sheet, Form F424-P.-004-03. 4.3 Solidification Unacceptability 4.3.1 If the waste fails any of the criteria set forth in Section 4.2, the solidification will be termed unacceptable and a revised test procedure with revised solidification parameters will need to be established under the procedure in Section 4.4.

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     "-           0534A:65-040888

{ 3 .. F424-P-004 7 Page 8 of 14 il 't 4.4 11 ternate Solidification Parameters' 4.4.1 If a test' sample fails to provide acceptable  ; solidification of the waste and no phase separation has

                                                                                                   ~

occurred (i.e., no clear liquid is exhibited), PERFORM the' following procedure: 4.4.1.1 ADD additional Petroset II and activator incrementally in'the ratio of 0.083 ml activator - per additional gram of Petroset II until the desired consistency is obtained or'140 gms of ' Petroset II is used, whichever occurs first. . ' 4.4.1.2 If the test sample fails to provide acceptable solidification of the waste after completing Step 4.4.1.1, CONTACT Westinghouse. 4.4.2 If a test sample fail.s to provide acceptable solidification of the waste and phase separation has .

                            - occurred (a clear liquid such as water of glycol is                -

observed), PERFORM the following procedure:  :; 17]-~ 4'.4.2.1 MEASURE the volume of clear liquid that - g j. . separated during the solidification. 4.4.2.2. DIVIDE the volume in Step 4.4.2.1 by thervolume in Step 4.1.1 to determine the volume percent of miscible liquid 'in the waste. 4.4.2.3 REPLACE a fraction, equal to the fraction calculated in Step 4.4.2.2, of the weight of- 3 Petroset II used in the test solidification with  ! the same weight of either.Petroset_or Aquaset II;. REDUCE the volume of activator used to 10%- ' of the volume of Petroset II now used; and REPERFORM the test solidification. NOTE: For example, if a solidification of  ; 300 ml of waste with 128 gm (200 ml) of Petroset 11 and 20 ml of activator exhibited 10 ml of free clear liquid, then replace 4 gms (10 ml/300 ml x 128 ' gm) of.Petroset II with Petroset or Aquaset II and reduce the amount of activator used to 19 ml (124 gm/128 gm x 200 ml x 0.10) in the next test solidification.

 ~!                          4.4.2.4       If the test sample fails to provide acceptable "a]~                                      solidification of the waste after completing Step 4.4.2.3, CONTACT Westinghouse.

on +cwe 2

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3 o T 4 F424-P-004  ?

      ,fy                                                                                          Page 9 of 14      ;

L) 4 5.0 PARAMETERS FOR FULL SCALE SOLIDIFICATION- 1 5.1 After successful completion of the test solidifications, CALCULATE ,

                                        - the amounts of additive and solidification agent necessary per               l gallon of waste using Section III of the Class A Unstable Test            H Solidification-Data Sheet (Items 9.through 11, Form F424-P-004-01).
5. 2. DETERMINE the quantity of oil to be solidified.in'the drum and the amounts of additive and solidification' agent to be added to the drum per instructions on the Class A Unstable Waste _ Solidification Calculation Sheet (Items I through 4, Form F424-P-004-02).

i' E:~ ENSURE that Section.5.0, Parameters for Full Scale Solidification, .is ~ completed and VERIFY this on the Procedure Verification Sheet, Form F424-P-004-03. 6,0 DRUM SOLIDIFICATION 6.1 ADD the oil waste to the drum. L- E: The volume of oil to be solidified should result in enough I. L

      /^                                           solidified product to reduce the void space in the drum to   ,t

( - the extent practicable as required by 10 CFR 61.56 (b) j. .

                                                  -(3).                                                           J 6.2    POSITION the mixing mechanism in the drum,                               y 6.3    START the mixing.                                                          ,

6'. 4 ADD the raquired quantity of pH adjuster, if any, and MIX until homogeneous. 6.5- ADD the required quantity of Petroset 11 and MIX until homogeneous. 6.6 ADD the required quantity of activator and MIX until homogeneous. 6.7 STOP the mixing and REMOVE the mixing mechanism from the drum. 6.8 SPREAD additional Petroset II (1/2 to 1 inch layer) on the top of the mixture. p 6.9 PLACE the lid on the drum but do no_t secure the lid.

    ;                             6.'10  INSPECT the mixture after 24 hours.                                        t 053; A:e 5-04C8d
                                                                                    ~

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F424-P-004 Page 10 of;14 6.10.1 If no free liquid-is present, SEAL the drum for shipment. 6.10.2 If free liquid is found, CONTACT Westinghouse. 1 O O esu A:tc atou s

m F424-P 004

      .-                                                                                                   Page 11 of 14
      '. J Solidification No.:

Batch No.: Sample _ No. : Date: i

&                                                                     CLASS A UNSTABLE TEST SOLIDIFICATION DATA SHEET for 011.with Petroset 11
1. Samole Solidification
                                        ~ Oil Volume, ml:                                                            (1)      !

Initial pH: (2) pH Adjuster Used: (3)-

                                        ' Quantity of pH Adjuster Used, gms:                                         (4) g3                                  Final pH:                                                                   (5)'
        '~

Weight of Petroset 11, gms: (6) Volume of Activator, ml: (7) Final Solidified Product Volume, ml: (8). l

11. Samole Inspection-Sample cured for 24 hours: ( ) yes ( ) no Verified By date
                                         ' Sample contains 'No' Free Liquid':                 ( ) yes     (  ) no             ,

Verified By date l i Sample is a ' Free Standing Monolith': ( ) yes ( ) no' ' i Verified By date  ;

      /j~%'

i s, Form F424-P-004-01

                             -Sheet 1 of 2
                         ~ 0534 A.65 04C338

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 ;.               .e' F424-P 004-     .

Page.12 of 14 V Ill. Parameters for Full Scale Solidification Quantity of pH Adjuster:

                                       -[     (4)~x 8.34 +                        J--

Density of pH adjuster in 1bs. per gallon

                                              +       (1)=                            gallons of pH            (9) adjuster per

_ gallon of oil  ; Quantity of Petroset II: [ (6) x 8.34) + (1) = lbs. of.Petroset'll (10) per gallon of oil Quantity of Activator: , (7) +' (1) = gallons of. activator (11) per gallon of oil ,

  < O.     '
         ' k/
         -                   T Additional batches-solidified based on this sample solidification:

Drut Waste Drum Waste Drum. Waste No. Vol. q D_a11 No. Vol. Date No. Vol. D_ata

                                                                                                                     )
                                                                                                                    -i a   't
           /%

Form F424-P 004-01 Sheet 2 of 2-

                         '05M A:05-04 h 3

F424-P-004  ! Page 13' of 14 j r;{,,f l Vt  : 1

                                                                                                                        .4 CLASS A UNSTABLE WASTE SOLIDIFICATION                         l CALCULATION SHEET l

Volume of 011 to be Solidifiedl : gallons (1) Quantity of pH Adjuster:' Item 9, Form F424-P-004-01

       .                    ~ Quantity of Petroset II:                                                               >;

(1)_ x - pounds (3)- Item 10, Form F424-P-004-01 Quantity of Activator: (1) x gallons

                                                                                      .=

(4) l Item ll, Form F424-P-004-01 I l' l; , 1-i l Footnote:

                                     ' The volume of oil to be solidified.in a 55-gallon drum cannot exceed 40 gallons.

l(g)

                            -Form.F424-P-004-02 Sheet 1 of 1
                      ' 05'54 A:ES-010888 '

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F424-P-004: I f f'; Page 14 of~14 (( Date:

Container No.: l J
t. PROCEDURE VERIFICATION SHEET Verified By:
                         'Section 4.1, Test Solidification of Class A Unstable-Oil Waste,.has been compieted.

Section 4.2, Solidification Acceptability, has been compl e ted ~. . Section 5.0, Parameters for Full Scale Solidification,- has been completed.--

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i. 1 i Form F424-P-004-03 Sheet 1 of 1 I ~- - 0534A:65-040888 l' 8 _;}}