Semiannual Radioactive Effluent Release Rept for Jan-June 1987

ML20237H222
Person / Time
Site:	Perry
Issue date:	06/30/1987
From:	Edelman M, Stead F CLEVELAND ELECTRIC ILLUMINATING CO.
To:	NRC OFFICE OF ADMINISTRATION & RESOURCES MANAGEMENT (ARM)
References
PY-CEI-NRR-0701, PY-CEI-NRR-701, NUDOCS 8709030176
Download: ML20237H222 (99)
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TIIE CLEVELAND ELECTRIC ILLUMINATING COMPANY PERRY NUCLEAR POWER PLANT UNIT 1-I. SEMIANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT 1987: QUARTERS 1 AND 2 L

' Approved By

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. Ah Plant Technical Manager i U.A %

' Plant OperatioqsManager I

8709030176 B70903 / k DR ADOCK 050 g O l

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TABLE OF CONTENTS Page Introduction .................. ................... 1 Radiological Impact on Man ........ ..... ......... 2 Supplemental Information ........................ . 4 Liquid Effluents ............ ............... ..... 6 l Gaseous Effluents ................... .. ........... 8 Solid Waste ................................... .. 10 Meteorological Data ............... .............. 10 Abnormal Releases ................................ 10 Applicable Technical Specification Requirements .. 11 i

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C ATTACHMENTS l

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L Attachment 1: . Radiological' Impact on. Man (Lose Summaries

.! -Attachment 2: . Technical Specification Limits Attachment 3: Liquid Effluents Attachment 4: Gaseous Efiluents j

.i l Attachment 5: Solid. Waste LAttachment 6: Meteorological Data Attachment 7: . Process Control' Program Changes Attachment 8: Offsite Dose. Calculation Manual Changes Attachment 9: 1987-Land Use Census iii

LETRODUCTIOE This Semiannual Radioactive Effluent Release Report (SRERR),

for the period of January l'through June 30, 1987, is submitted in accordance with Section 6.9.1.7 of Appendix "A" (Technical Specifications) to Ferry Nuclear Power Plant.(PNPP) License No.

NPF-58. It is designed to meet the requirements of. Regulatory Guide 1.21, as applicable to the PNPP Technical Specifications.

Portions of the Technical Specifications applicable to this report,1 Sections-3/4.3.7.9, 3/4.3.7.10, 3/4.11, 3/4.12, 6.13.2, 6.14.2, and 6.15.1, are known as the Radiological Effluent Technical' Specifications (RETS).

Liquid and gaseous radioactive releases'to the environment during this reporting period were sampled and-analyzed in l accordance with the requirements of the Technical Specifications. All effluent releases were within the concentration and release limits specified in the RETS.

Calculations and terms utilized in this. report are.those outlined.in the PNPP Offsite Dose Calculation Manual (ODCM).

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l B6DIOLO_.GIqak_IMEACT ON MAN f

l Sampling and analysis of liqu'd and gaseous effluents were  :

( performed in accordance with che frequencies, types of analysis, I and Lower Limits of Detection (LLD) outlined in the PNFP Unit 1 Technical Specifications.

l Radioactive material was detected at low levels in several l liquid and gaseous effluent samples analyzed. Lose calculations, using measured effluent flow and meteorological data, resulted in dose to individuals at levels well below 10 CFR 20 or 10 CFR 50, Appendix I limits. Direct radiation resulting from plant operation did not contribute any measureable dose to members of public for the reporting period and, as there are no other nearby urunium fuel cycle sources, 40 CFR 190 limits were not exceeded.

Summaries of maximum individual and population doses resu,. ting from liquid and gaseous radioactive effluent releases are given, in Regulatory Guide 1.21 format, in Attachment 1.

Technical Specification 6.9.1.7 requires assessment of radiation doses from radioactive liquid and gaseous effluents to members of the public while onsite. These onsite doses are assessed relative to offsite dose values, with adjustment for appropriate dilution, dispersion, and occupancy factors for onsite activities.

The onsite liquid effluent pathway of concern is shore exposure while fishing along the Lake Erie coast. Occupancy is assumed to be 60 hours6.944444e-4 days <br />0.0167 hours <br />9.920635e-5 weeks <br />2.283e-5 months <br /> / year and the dilution factor for the point of exposure is 10. Ratioing this exposure pathway to doses I calculated for offsite locations yields the following maximum onsite dose values.

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ONSITE DOSE FOR LIQUID EFFLUENTS )

l Total Body Organ i Quarters 1 & 2 4.9 E-7 mrem 5.8 E-7 mrem (skin) l 5.7 E-7 mrem (skin)

Quarter 1 4.9 E-7 mrem Quarter 2 9.4 E-9 mrem 1.1 E-8 mrem (skin) 2 I l

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r Several cases are considered for onsite gaseous effluent

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i exposure to mem'oers of the public including traversing a public road within the site boundary, shoreline fishing, non-plant related training, car pooling, and job interviews. The onsite

'activdty with the highest dose potential, relative to gaseous effluents, is shoraline fishing. Occupancy is again assumed to be 60 hours6.944444e-4 days <br />0.0167 hours <br />9.920635e-5 weeks <br />2.283e-5 months <br /> per year. Accounting for this and the difference between annue.1 average dispersion values for the onsite point of

. concern, 6.6.E-5 s/m cu. and the highest offsite,-i.e.,-site boundary value, 4.2 E-6 s/m cu, (a unity occupancy factor is ,

used for this location), the following maximum onsite dose values are generated:

ONSITE DOSE FOR GASEOUS EFFLUENTS Total Body Organ Quarters 1 &'2 2.2 E-2 mrem 4.2 E-2 mrem (skin)

Quarter 1 1.7 E-2 mrem 3.3 E-2 mrem (skin)

Quarter 2 5.2 E-3 mrem 9.5 E-3 mrem (skin)

Average total body dose to individual members of the public is determined for the population that lives within fifty miles of the plant for gaseous effluents (2.42 E6 persons) and the popualtion that receives drinking water from intakes within fifty miles for liquid effluents (2.37 E6 persons). These doses are calculated using the total population dose figures found in Attachment 1.

AVERAGE INDIVIDUAL TOTAL BODY DOSES Gases Liquids Quarters 1 & 2 4.0 E-7 mrem. 1.1 E-6 mrem Quarter 1 3.1 E-7 mrem 4.0 E-7 mrem Quarter 2 8.7 E-8 mrem 7.6 E-7 mrem Sr-89, among other radionuclides, has a quarterly minimum analysis frequency (PNFP Technical Specification 4.11.2.1).

The Sr-89 quarterly analysis result for a portion of the fourth quarter of 1986, performed in accordance with that Technical Sper:fication, was not available when the last SRERR was {

generated. (The quarterly composite period covered December 29. )

1986 to March 30. 1987.) Therefore, doses for the fourth quarter of 1986 have to be amended.

Dose attributed to that Sr-89 composite analysis (1.69 E-7 Ci) was 1.55 E-6 mrem. This conservatively increased the 1986 Quarter 4 gaseous pathway dose from 5.24 E-4 to 5.26 E-4 mrem, but p;pulation and onsite dose values reported are not affected.

Administrative steps have been taken to preclude a recurrence of this type.

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SUPPLEMENTAL INFORMATION Begulatory Limita Technical Specifications 3/4.11.1 and 3/4.11.2 outline 1 requirements-for release of radioactive liquid and gaseous I effluents, respectively. Concentration of radioactive material in liquid effluents and dose or dose commitment resultant thereof are limited in unrestricted areas. Dose and dose rate due to radioactive materials released in gaseous effluents are limited in areas at or beyond the_ site boundary. The Technical Specification limits are listed in Attachment 2.

dnzimum Permissible Concentrations The Maximum Permissible Concentrations (MFC) in liquids are those outlined in Technical Specification 3.11.1.1 (10 CFR 20, Appendix B, Table II, Column 2, with the lower of the soluble and insoluble MPC being used; for dissolved or entrained noble gases, concentrations are limited to 2 E-4 uCi/ml). PNFP Unit i Technical Specifications do not contain a concentration requirement for gaseous releases, therefore, MPCs are not used to calculate maximum release rates for radioactive gaseous effluents.

Average Energy Average. energy requirements for radioactive effluent mixtures do not apply to PNPP Unit 1 Technical Specifications or Offsite Dose Calculation Manual.

Measurements and Approximations of Total Radioactivity Analyses of specific radionuclides in effluent samples are used with effluent path flow measurements to evaluate the radionuclides composition and concentration of effluents.

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l Batch Releases Liquid. effluent releases were continuous-(runs of Emergency Service Water (ESW) loops A and B) as well as batch (liquid radwaste. discharges). Although the ESW system is considered to be a continuous release path'when in service, it is not'run

-continuously.

All gaseous effluent releases from Perry Nuclear Power Plant were continuous.

LIQUID RELEASES' January 1 - March 31, 1987 Batch Continuous Number of Releases 84 87 Total Time of Releases (min) 1.48 E4 1.09 E5 Maximum Time for a-Release (min) 2.05 E2 2.83 E4 i Average Time for a Release (min) 1,76 E2 1.25 E3 Minimum Time for a Release (min) 2.0 El 4.2 El Average Effluent Stream Flow 2.22 E5 1.79 E5 During Periods of Release (1/ min)

• - The total of ESW Loop A (6.38 E4 min) and ESW Loop B (4.50 E4 min)

April 1 - June 30, 1987 Batch Continuous Number of Releases 51 92 Total Time of Releases.(min) 8.79 E3 1.05 E5 Maximum Time for a Release (min) 2.05 E2 8.33 E3

' Average Time for a Release (min) 1.72 E2 1.14 E3 Minimum Time ~for a Release (min) 1.55 E2 9 EO Average Effluent Stream Flow 2.14 E5 1.59 E5 During Periods of Release (1/ min) l

• - The total of ESW Loop A (5.34 E4 min) and ESW Loop B (5.15 E4 min) 5

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klQUID EFFLUE!LT_E For'theffirst quarter of 1987'there were184 batch and 87 continuous releases. Batch release' total waste volume for the first quarter was'8.38 E6 liters; total continuous release waste volume was 4.08 E9~ liters; total plant discharge during periods of release was 1.95 E10.11ters.

For the second quarter of 1987 there were 51 batch and 92 continuous releases. Batch release total waste volume for the second quarter was 4.88 E6 liters; total ~ continuous release waste volume was 4.12 E9 liters; total plant discharge during periods of release was 1.67 E10. liters.

Summaries of the radionuclides total curie activities, average diluted concentrations.and percentage of MFC (in Regulatory Guide 1.211 format) are included in Attachment 3.

If a radionuclides was not detected, zero activity was used for that-isotope in dose calculations. A zero activity indicates that the. radionuclides was not present at a level greater than the Lower Limit of Detection (LLD) of the instrumentation used.

In all cases, these LLDs were less than the level required by the Technical Specifications. The following are typical'LLDs:

Radionuelide LLD (uCi/ml)

Mn 2.4 E-8 Fe-59' 5.8 E-8 Co-58 1.9 E-8 Co-60 3.4 E-8 Zn-65 4.6 E-8 Mo-99 2.1 E-7 I-131 2.3 E-8 Cs-134 2.3 E-8 Cs-137 2.6 E-8 Ce-141 3.2'E-8 Ce-144 1.3 E-7 Sr-89 3.0 E-8 Sr-90 3.7 E-8 Fe-55 5.7 E-9 H-3 4.6 E-6 Gross Alpha 6.0 E-8 6

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Estimates'of error associated with sample analysis, discharge volume, and dilution volume follow. Analytical error terms are based on split.' sample analysis results, the majority'of which' are confirmatory. measurements, the others are interlaboratory comparison results Discharge and dilution volume ~(flow rate l: instrumentation) error is. assessed'using loop instrumentation-accuracy terms.

Gamma' Analysis 10%  !

i H-3' Analysis' .8%'

Sr-89/90 Analysis 10%

Fe-55 Analysis' . 21%  ;

Gross' Alpha Analysis' 4%

Service' Water Volume (Dilution) .31%

' Emergency Service Water Volume (Discharge) 25%

Liquid Radwaste Volume 1% l 7

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GASEOUS EFFLUENTS Summaries of the radionuclides total curie activities and average release rates (in Regulatory Guide 1.21 format) are included in Attachment 4.

There was no detectable activity in the' majority of the gaseous effluent samples for the period covered by:this report. If a radionuclides was not detected, zero activity was used for that isotope in dose calculations. A zero activity indicates that the radionuclides was not present at a level greater than the

. Lower Limit of Detection.(LLD) of the instrumentation used. In all cases,.these LLDs were less than the level required by the Technical Specifications. The following are typical LLDs*

Radionuclides LLD (uCi/ml)

Kr-87 1.7 E-8 Kr -2.3 E-8 Xe-133 1.8 E-8 Xe-133m 5.3 E-8 Xe-135 6.4 E-9 Xe-138 1.0 E-7

' Mn'- 5 4 2.7 E-13 Fe-59 5.6 E-13 Co-58 3.2 E-13 Co-60 4.6 E-13 Zn-65 7.7 E-13 Mo-99 2.1 E-12 Cs-134 2.1 E-12 Cs-137 3.1 E-13 Ce-141 3.2 E-13 Ce-144 1.5 E-12 I-131 2.8 E-13 I-133 4.9 E-13 Sr-89 3.8 E-14 Sr-90 6.8 E-14 H-3 3.0 E-10 Gross Alpha 5.4 E-12 8

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. Estimates of error associated with sample analysis, sample flow

' rate, and effluent. flow rate follow. Analytical error terms are based on. split sample' analysis results, the majority of which are confirmatory measurements, the others are interlaboratory comparison results.. Flow rate instrumentation error is assessed using' loop instrumentation accuracy terms.

Neale Gas. Analysis 11% ,

Particulate Analysis 9%

.odine Analysis 12%

H-3LAnalysis 8%

Sr-89/90 Analysis 10%

Gross Alpha Analysis '4%

Sample Flow Rate 10%.

Effluent Flow Rate 9%

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S.QJdQ,_ HASTE -

There'were 14 solid radioactive waste shipments transported from PNPP for.the time period covered by this report. Cement was the solidification agent for all shipped waste. There was no irradiated fuel transported from site. See Attachment 5 for volume and activity values.

METE 08QLOGICAL DATA Cumulative joint frequency distribution (JFD) of wind speed and direction.for each stability class, as well as for all stability classes' combined, are given in Attachment 6 for the semiannual period and for each annual quarter of the time period covered by this report. j These JFD tables are the results obtained from processing hourly meteorological data collected at the PNPP' site met tower. It l should be noted that the 1-3 mph JFD columns include wind speeds down to 0.1 mph and that hours of zero wind speed appear only in the totals columns. The seperate tallies of periods of calm include wind. speeds from 0.0 to 0.7 mph. Differential-temperature (10 and 60 meters) is generally used-for atmospheric stability classification.

ABNORMAL RELEASES There were no abnormal liquid or gaseous effluent releases during the reporting period.

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APPLICABLE TECENICAL SPECIFICATION REQUIREMENTS Per PNPP Technical Specifications, certain noncompliance items, changes, and findings are reportable in the Semiannual Radioactive Effluent Release Report.

Radioactive Liquid Effluent Monitoring Instrumentation noncompliance (PNPP Technical Specification 3.' 7.9, Action b):

There were no occurrences of inability to restore inoperable radioactive liquid effluent monitoring instrumentation, listed in TS Table 3.3.7.9-1, to the required minimum channels operable within the time period specified in the applicable action note.

Radioactive Gaseous Effluent Monitoring Instrumentation noncompliance (PNPP Technical Specification 3.3.7.10, Action b):

There were no occurrences of inability to restore inoperable radioactive gaseous effluent monitoring instrumentation, listed in TS Table 3.3.7.10-1, to he required minimum channels operable within the

.me period specified in the applicable action note.

Liquid Holdup Tanks noncompliance (PNPP Technical Specification 3.11.1.4, Action a):

There were no outside temporary tanks containing radioactive liquid on the PNPP site during the reporting period, therefore, the applicable TS activity limit was not exceeded.

Radiological Environmental Monitoring Program (REMP) changes (PNPP Technical Specification 3.12.1, Action c): l For the reporting period, samples were obtained at  ;

their respective locations as required by the specified collection frequencies.

The program underwent a couple of changes during i this reporting period. Both of these relate to'the  :

milk medium: location 33 was deleted -- owners are selling dairy herd, and milk location 57 was added. l r

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.I Changes to the Offsite Dose Calculation Manual included;in this report also reflect REMP location changes that were made'last year (Temporary Change-5 to the.ODCM became effective in January 1987).

See Attachment 8.

Land Use Census findings (PNPP Technical Specification 3.12,2, Actions a and b):

The'1987 Land Use Census was conducted in June of 1937. _ Findings included a. change to the nearest.

residence in the S sector (at approximately the same dictance as the previous residence), four new nearest garden locations, addition of two new and loss of one milk animal locations,'and addit 1on of four new and loss of:two non-dairy animal locations. Also, a commercial agricultural ~ growers survey was included this year. See Attachment'9.

Process Control Program changes (PNPP Technical Specification 6.13.2):

There were several changes to the Process Control Program made during the reporting period including the name change of our solid radioactive waste processing vendor, formally NUS Corporation, now London Nuclear (LN) Technologies. These changes were made in the. form of temporary changes (TC).,

Temporary Change-4, which was generated during the previous reporting period and was included in the last SRERR (1986: Quarters 3 and-4),_became effective during this reporting period. The following changes-were made by TC-5. These changes will.be incorporated into the PCP in the next formal revision. See Attachment 7.

Page Change 1,5,6, Solid radioactive waste processing vendor-7,8 name change 10 Clarification of when Process Control number is needed 16 Solid radioactive waste processing vendor l

name change; deletion of revisions from referenced procedures 1

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- Offsite Dose Calculation Manual changes (PNPP Technical

- Specification 6.14.2):

Changes _to the Offsite Dose Calculation Manual were made via TC-5 & 6. TC-5, effective in January 1987, was sent with the previous. Semiannual Radioactive Effluent Release Report but is included ,

here as well. ,TC-6 was made just after this SRERR u period but is included as it-incorporates Radiological Environmental Monitoring Program changes made during this reporting period and thus affects this report's contents. These changes-will be incorporated into.the ODCM in the next formal revision. See Attachment 8.

. P_gge Change.

viii Inclusion of 10 CFR 50.59 Applicability Check

'33 Default gaseous effluent flow rate changes 33a Text overflow page 37 Correction of typographical error 73 Inclusion of " Dose to Members of the Public:

While Onsite" section 73a Text overflow Page 77,82, REMP sampling and location changes 84-88' Major Changes to Radioactive Waste Treatment Systems (PNPP Technical Specification 6.15.1):

There were no major changes to radioactive waste treatment system during this SRERR period.

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! I Attachment 1 Radiological Impact on Man (Dose Summaries) t i

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' Attachment 1-(Continued - Page 1 of 3)

-Emdh b rical Impact'on Man (Dose Summarias_1 Quarters 1&2 i

SUMMARY

OF MAXIMUM INDI'JIDUAL DOSES LAST ACCUMULATIONS FOR PERIODS:

LIQUID 87 1 1 1-87 63024

'GASEGUS 87 1 1-1-27 63024 AIR 87 1 1 1-37 63024-APPLICABLE ESTIMATED- A0E LOCATION ': OFLIMIT EFFLUENT OROAN DOSE OROUP DIST DIR AFPLICABLE (nR)

(MREM) (M) (TOWARD) LIMIT LIQUID' TOTAL BODY 2.19E-05 CHILD RECEPTOR 1 7.3E-04 3.0 LIQUID GI-TRACT 2 81E-05 ADULT RECEPTOR 1 2.8E-04 10.0 NOBLE GAS : AIR DOSE 9.18E-02 273. NW 9.2E-01 10.0 (GAMMA-MRAD)

NOBLE OAS AIR DOSE 8.17E-02 273. NW 4.1E-01 '20.0 (BETA-MRAD)

NOBLE'OAS T. BODY- 2.04E-01 ALL 273. NW 4.1E+00 5.0 NOBLE GAS SKIN 3.93E-01 ALL 273. NW 2.6Ef00 15.0 IDDINE8 THYROID 3.35E-04 CHILD 283. WNW 2.2E-03 15.0 PARTICULATE

SUMMARY

OF POPULATION DOSES LAST ACCUMULATIONS FOR PERIODS:

LIQUID 87 1 1 1-87 63024 GASEQUS 87 1 1 1-87 63024 EFFLUENT APPLICABLE ESTIMATED ORGAN POPULATION DOSE (PERSON-REM)

L I Q UI D -' ' TOTAL-BODY 2.7E-03 LIQUID THYROID 2.3E-03 GASEGUS TOTAL BODY- 9.7E-04 OASEGUS THYROID 1.0E-03

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Attachment 1-(Continued - Page 2 of 3)

' Radiological Impact on Man (Dose Summaries)

. Quarter 1

SUMMARY

OF MAXIMUM INDIVIDUAL' DOSES LAST ACCUMULATIONS FOR PERIODS:

LIUUID 87 1 1 1-87.33124 GASEQUS- 87 1 1 1-87 33124

. AIR 87 1 1 1 87 33124 APFLICABLE ' ESTIMATED AGE LOCATION  % OFLIMIT EFFLUENT ORGAN DOSE GROUP 'DIST DIR' _ APPLICABLE (MR)

(MREM) (M) (TOWARD) LIMIT LIQUID -TOTAL BODY 5 96E-06 CHILD RECEPTOR 1 2.0E-04 3.0

. LIQUID GI-TRACT- 1.35E-05 RECEPTOR 1 1.4E-04 10.0

. . . . _ . . _ _ _ _ _ _ _ . _ _' ADULT .......... ...____

N0 ELE GAS AIR DOSE 7.40E-02 273. NW 7.4E-01 10.0' (GAMMA-MRAD)

NOBLE GAS AIR DOSE 7.25E-02 273. NW 3.6E-01 20.0 (BETA-MRAD)

NOBLE GAS T. BODY 1.56E-01 ALL 273. NW ~ 3.1E+00 5.0 3.04E-01 ALL '273. NW 2.0Ef00 15.0

'. NOBLE

. . . . . . GAS

. . . SKIN _ _ _ _ _ _ _ _ _ . . . _ _ _ _ . _ _ . . ... _

IODINE 1 LUNG 2.29E-05 TEEN 294. N 1.5E-04 15.0 PARTICULATE

SUMMARY

OF POPULATION DOSES ~

LAST ACCUMULATIONS FOR PERIODS:

LIQUID 87 1 1 1-87 33124 GASEQUS 87 1 1 1 87

__.... ______..............__..........___..'33124 .......__ _____________...

EFFLUENT APPLICABLE ESTIMATED ORGAN POPULATION DOSE (PERSON-REM)

LIQUID TOTAL BODY 9.5E-04 LIQUID THYROID 5.2E-04 GASEOUS TOTAL BODY 7.6E-04 GASEOUS THYROID 7.6E-04

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Radiological Impact on Man (Dose Summaries _1 Quarter 2 l

SUMMARY

OF rae. MUM INDIVIDUAL DOSES LAST ACCUMULe ~0NS FOR PERIODS:

LIQUID e/ 4 1 1-87 63024 GASEOUS 87 4 1 1-87 63024 AIR 87 4 1 1-87 63024 APPLICAPLE ESTIMATED AGE LOCATION  % OFLIMIT EFFLUENT ORGAN DOSE GROUP DIST DIR APPLICABLE (MR)

(MREM) (M) (TOWARD) LIMIT LIQUID TOTAL BODY 1.59E-05 CHILD RECEPT 0R 1 5.3E-04 3.0  !'

LIQUID GI-TRACT 1.65E-05 CHILD RECEPTOR 1 1.6E-04 10.0 NOBLE GAS AIR DOSE 3.56E-02 430. W 3.6E-01 10.0 (GAMMA-MRAD)

NOBLE GAS AIR DOSE 1.84E-02 430. W 9.2E-02 20.0 (BETA-MRAD)

NOBLE GAS T. BODY 4.86E-02 ALL 273. NW 9.7E-01 5.0 NOBLE GAS SKIN 8.87E-02 ALL 273. NW 5.9E-01 15.0 t

IODINE 1 THYROID 3.35E-04 CHILD 283. WNW 2.2E-03 15.0 PARTICULATE

SUMMARY

OF POPULATION DOSES

, LAST ACCUMULATIONS FOR PERIODS:

LIQUID 87 4 1 1-87 63024 GASEQUS 87 4 1 1 B7 63024 EFFLUENT APPLICABLE ESTIMATED ORGAN POPULATION DOSE (PERSON REM)

LIQUID TOTAL BODY 1.BE-03 LIQUID THYROID 1.8E-03 GASEOUS TOTAL BODY 2.1E-04 GASEOUS THYROID 2.6E-04

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Attachment 2 Technical Specification Limits 1  !

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Attachment, 2 (Continued - Page'l of 1)

Technical Specificer.ign ig_mits LIQUID EFFI9QiTS: 2 Concentration 10 CFR 20 - release rate limit per Appenc.ix B, Table II, 1TS 3.11.1.1 Column 2^

- 11.5 mrem total body - quarterly dose limit per 15 mrem any organ TS 3.11.1.2

- 13 mrem't>tal body - annual dose limit per 110 mrem any organ TS 3.11.1.2 Qf&EQ_US EFFLUENTS:

hblo Gasg3 ,

' - dose rate lim 3.t per

E- 1500 mrem /yr tbtal body 13000 mram/yr ahy organ TS 3.11.2.1

-  ;,5 tured e.ir gamma -

quarterly air dose linit 110 mrad air beta per T.5 3,11.2.2 110 mrad air gamma -

annual air dose limit s?% mrad rir beta per TS 3.11.2.2 I-131.gJ_R3. H-S. and hrusulate3_ with Half-Lives > 8 Days

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sif.00 m r s:n/yr any organ -

dose rate limit per TS 3.11.2.1 o ..,

- 1725 mrero any' organ - quarterly dose limit per TS 3.11.2.3 115 mrem any organ - annual dose limit per

< e I'S 3.11.2.3

- Dissolved or entrained noble gas concentration is limited to 2 E-4 uCi/nl.

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Attachment 3 L_iguid Effluents i

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Licuid Effluents )

QUARTEP 1 : START DATE 87010101 END DATE 87033124 QUARTER 2 : START DATE 87040101 'END DATE 87063024 LIQUID EFFLUENTS

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UNIT! . QUARTER : QUARTER  :  !

: 1  : 2  :  !

A. FISSION AND ACTIVATION PRODUCTS I 1. TOTAL RELEASE (EXCL.: CI  : 8.31E-04 : 9.77E-04 :

TRIT., GASES, ALPHA):  ;

, :.2. AVERAGE DILUTED :UCI/ML : 4.27E-11 : 5.87E-11 :

CONC. DURING PERIOD :  :  :  :

I 3. PERCENT OF  :  %  : 2.43E-04 : 2.27E-05  :

MPC  :  :  :  :

B. TRITIUM-i 1. TOTAL RELEASE  : CI

1.53E-01 : 5.24E-01 :

2. AVERAGE DILUTED

UCI/ML : 7.85E-09 : 3.15E-08 :

CONC. DURING PERIOD :

. 1 3. PERCENT OF  :-  %  : 1.60E-03 : 8.89E-03  :.

HPC  :  :  ;

C. DISSOLVED AND ENTRAINED GASES

1. TOTAL RELEASE  : CI

1.77E-05 : 6.74E-05 :

2. AVERAGE DILUTED UCI/ML'

9.08E-13 : 4.05E-12 :

CONC. DURING PERIOD :  :  :  :

3. PERCENT OF  :  %  : 4 54E-07 : 2.02E-06 :

MPC  :  :  :  :

1 D. GROSS ALPHA RADI0 ACTIVITY I 1

1. TOTAL RELEASE  : CI  : 0.00E+00 5.02E-05 :

E. VOLUME WASTE RELEASED : LITERS : 4 08E+09 : 4.11E+09 :

(PRIOR TO DILUTION)  :  :  :

F. VOLUME DILUTION WAT(R : LITERS : 1.95E+10 : 1.67E+10 :

USED DURING PERIOD  :  :  :  :

I 1

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1 At achment 3 (Continued - Page 2 of 2)

Liouid Effluents l

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I LIQUID EFFLUENTS I l

OUARTER 1 : START DATE 87010101 END DATE 87033124 GUARTER 2 : START DATE B7040101 -

END DATE 87063024 1

I CONTINUDUS H0DE BATCH MODE

HUCLIDES  : UNITS : QUARTER : QUARTER : QUARTER  : QUARTER  :

RELEASED  : 1  : 2  : 1  : 2  :

H3  : CI  : 0.00E+00 : 0.00E+00 : 1.53E-01 : 5 24E-01 :

CR51  : CI  : 0.00E+00 : 0.00E+00 : 1.39E-04 : 8.93E-04 :

C058  : CI  : 0.00E+00 : 0.00E+00 : 6.92E-04 : 0.00E+00 AS76  : CI  : 0.00E+00 : 0.00E400 : 0.00E+00 8.40E 05 :

7._....._.__7.......__. 7.... ..... 7

PERIOD  : CI  : 0.00E+00 : 0.00E+00 : 1.54E-01 : 5.25E-01 :

(ABOVE)  :  :  :  :  :  :

XE135  : CI  : 0.00E+00 0.00E+00 : 1.77E 05 : 1.59E-05 :

XE133  : CI  : 0.00E+00 : 0.00E+00 0.00E+00 : 5.15E 05 :

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Attachment 4 Gaseous Effluents i

i I

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_ - _ _ - _ . __ 1

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Attachment 4 (Continued - Page 1 of 2)

Gaseous Effluents GUARTER 1 : START DATE 87010101 END DATE 87033124 OUARTER 2 : START DATE 87040101 END DATE 87063024 GASEQUS EFFLUENTS ,

UNITS : QUARTER : QUARTER  :

1  : 2  :

A. FISSION AND ACTIVATION GASES 14 TOTAL RELEASE  : CI  : 7.42E+00 : 1.49E+00 :

2. AVERAGE RELEASE :UCI/SEC: 9.54E-01 : 1.90E-01 :

RATE FOR PERIOD  :  :  :  :

3. PERCENT OF TECHNICAL:  %  : 0.00E+00 : 0.00E+00 :

SPECIFICATION LIMIT :  :  :  :

B. 10 DINES

1. TOTAL 10 DINE 131  : CI  : 0.00E+00 0.00E+00

2. AVERAGE RELEASE :UCI/SEC: 0.00E+00 : 0.00E+00 :

RATE FOR PERIOD  :  :  :  :

3. PERCENT OF TECHNICAL:  %  : 0.00E+00 : 0.00E+00 :

SPECIFICATION LIMIT :  :  :  :

C. PARTICULATE I. PARTICULATE WITH  : CI  : 5.19E-06 : 8.33E-07 :

HALF-LIVES >B DAYS :  :  :  :

_-_____..___.....___..__.__..___.__...____.______.._______ \

2. AVERAGE RELEASE UCI/SEC: 6.68E-07 : 1.06E-07 : i

RATE FOR PERIOD  :  :  :  :

3. PERCENT OF TECHNICAL:  %  : 0.00E+00 : 0.00E+00 :

SPECIFICATION LIMIT :  :  :  :

4. GROSS ALPHA  : CI i 1.40E-05 3, 7.36E-05 :

RADI0 ACTIVITY  :  : .  : i D. TRITIUM

1. TOTAL RELEASE  : CI  : 0.00E+00 : 0.00E+00 :

2. AVERAGE RELEASE UCI/SEC: 0.00E+00 : 0.00E+00 :

RATE FOR PERIOD  :  :  :  :

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l  : 3. PERCENT OF TECHNICAL:  %  : 0 00E+00 : 0.00E+00 :

SPECIFICATION LIMIT :  :  :  :

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Attachment 4 (Continued - Page 2 of 2)

G_aseous Effluents GASEQUS EFFLUENTS QUARTER 1 : START DATE 87010101 END DATE 87033124 GUARTER 2 : START DATE 87040101 END DATE 87063024 CONTINUOUS MODE

NUCLIDES : UNITS : QUARTER  : GUARTER  :

RELEASED :  : 1  : 2  :

1. FISSION AND ACTIVATION GASES

KR87  : CI  : 7.59E 02 : 1.35E 02 : j

KR88  : CI  : 2.74E 02 : 0.00E+00 :

XE135M  : CI  : 4.22E-01 : 2.58E 02 :

XE135  : CI  : 7.06E-02 : 1.37E 02 : l

XE137  : CI 1.65Ef00 0.00E+00 : l XE138  : CI  : 5.17Ef00 : 1.44E+00 : l

-__..____...______..-______... ______ -_______ l

TOTAL F0h :*  :  :  :

PERIOD , CI  : 7.42E+00 : 1 49E+00 :

(ABOVE)  :  :  :  :

2. 10 DINES

1133

CI  : 0.00E+00 : 5.96E

TOTAL FOR :  :  :  :

! PERIOD  : CI  : 0.00E+00 : 5.96E-05 :

(ABOVE)  :  :  :

3. PARTICULATE

SRB 9  : CI  : 5.19E-06 : 8.33E-07 :

TOTAL FOR :  :  :  :

PERIOD  : CI  : 5.19E-06 : 8.33E-07 :

(AB0VE)  :  :  :

t

)

Attachment 5 Solid Waste I

Attachment 5 (Continued - Page 1 of 21 polid Waste-Solid Waste Shipped Offsite for Disposal During Period from January 1, 1987 to June.30, 1987 WASTE STREAM:

Resins, Filters, & Evap Bottoms Waste Cu. Cu. Curies  % Error Class Feet _ Meters Shipped (Ci)

A 5096 144.2 1.54 EO. 1 25%

B 0 0. O N/A C 0 0 0 N/A ALL 5096 144.2 1.54 E0 2 25%

WASTE' STREAM:

Dry' Active Waste Waste Cu. Cu. Curies  % Error Class Feet Meters Shipped (Ci)

A . 0 0 0 N/A B 0 0 0 N/A C 0 0 0 N/A ALL 0 0 0 N/A WASTE STREAM:

Irradiated Components Waste Cu, Cu, Curies  % Error Class __ Feet _ Meters Shipped _ (Ci)

A 0 0 0- N/A-B 0 0 0 N/A C 0 0 0 N/A  ;

ALL 0 0 0 N/A WASTE STREAM:

Other Waste Waste Cu. Cu. Curies  % Error Class Feet Meters Shipped (Ci) l A 0 0 0 N/A i B O O O N/A i l

C 0 0 0 N/A ALL 0 0 0 N/A  !

l l

l L_________ . . _ _ _ _ _ _ _ . _ _ _ _ _ . _

I-'

1 i Attachment 5 (Continued - Page.2 of 2)

Solid Weste.

Estimates of Major Radionuclides by. Waste Type-WASTE TYPE: Resins, Filters, & Evap Bottoms Waste- ~Nuclide Percent.

Class Name _&hgndance , Curies

'A Cr-51 41.631% 6.43 E-1 20.554%'

~

Co-58 3.17 E-1 Fe-55 13.635% 2.11 E-1 Hn-54 8.612% 1.33 E-1 Co-60 4.037%. 6.24 E-?

Pu-241 3.774% 5.83 E-E

~Fe-59 2.434% 3.76.E-2 H-3 1.648% 2.54 E-2

.Zr-95 .825% 1.27 E-2 Nb-95 .767%' 1.18 E-2' .

Ce-144 .759% 1.17. E-2 '!

Zn-65 .681% 1.05 E-2.

Ni-63 .232% 3.58 E-SE Cs-137 .163% 2.51 E-3 C-14 .027% 4,17 E-4 Sr-90 .016% 2.39 E-4 Hi-59 .000% 7.98 E-6 Nb-94 .000% 1'65 E-7 Tc-99 .000% 0.00 E-0 I-129- .000% 0.00 E-0.

Cm-242 .000% 0.00 E-0 l

l solid Waste Disposal Summary

]

.l Mode of Transportation Destination I Eo. of Shipments 14 Truck Barnwell 0 Truck Richland 0 Truck Beatty 0 Truck Other i

1

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Attachment 6 Meteorological Data i

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t Attachment 6- (Continueci - Page I of 12)

" Joint Frecuency Distribution Tables - Quarters 1&2

' HOURS AT EACH WIND' SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87063024 STABILITY CLASS ~ ALL DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P

__........__.........-.___.....-. ... ...... -_ LAPSE:DT50M- ....... ....

WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 >24 TOTAL

_........ .-. ... .... B-12 13-18

...-. .. --19_24 ... ....

H 19 89 66 22 4 0 200.

20 97 78 14 0 0 210 NNE 0 329 NE- 34 - 108 108 76- 2 409 76 148 121 58 0 0 ENE 219 113 87 11 0 0 0 E

83 81 48 25- 2 0 240 ESE 0 247 SE : 69' 67 71 36 2 42 81 44- 1 0 0 170 SSE 0 242 66 117 51 4 0 S

SSW 56 157 77 15 0- 0 305 50 129 130 21 0 0 331 SW 0- 386 WSW 35 93 133 107 16 W 23 112 151 71 18 0- 376 WNW 20 93 111 37 3- 0 265 NW 18 95 72 35 5 1 228 NNW' 21 76 59 . 20 5 2 184 TOTAL 745 1630 1331 542 57 3 - 4343 PERIODS OF CALM (HOURS): 45 VARIABLE DIRECTION 0 HOURS OF MISSING DATA: 1 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87063024 STABILITY CLASS: A DT/02 SPEED SPD10P DIRECTION:DIRiOP LAPSE:DT50M ELEVATION:

WIND SPEED (MPH)'

WIND >24 TOTAL DIRECTION 1-3 4-7 8-12 13-18 19-24 0 21 14 0 0 0 35 d 0 0 80 NNE 2 29 48 1 0 17 48 27 0 0 92 NE- 0 0 42 ENE 1 5 18 17 2 0 0 0 9 E 1 6 O 2 5 5 1 0 13 ESE 0 0 0 3 SE O O 3 o 1 4 0 0 0 5 SSE 0 0 0 4 0 0 4 5 0 0 5 1 2 2 0 SSW 0 0 0 1 SW 0 0 1 .

0 0 3 0 0 3 WSW 0 0 3 16 2 0 0 21 W- 0 20 0 4 15 1 0 WNW 0 0 27 1 12 12 2 NW 0 0 17 0 11 4 2 NNW 6 113 196 60 1

..---.. 0 377 TOTAL 1

PERIODS OF CALM (HOURS):

VARIABLE DIRECTION 0 HOURS OF MISSING DATA: 1 L

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p h, .

isttachment 6 (Continued - Page'2-of 12)

Joint Frecuency Distribution Tables --Quarters 1 &- 2 )

i

(.

4 HOURS'AT EACH WIND SPEED AND DIRECTION O PERIOD OF RECORD = 87010101-87063024 L STABILITY CLASS: -1 DT/DZ ELEVATION: SPEED:SPD10P DIRECTION 1DIR10P -LAPSE DT50M WIND SPEED (MPH)

WIND- 1 DIRECTION 1-3 >24 TOTAL i

_____.... ... 4_7 B _12 13_18 19-24 N 0 10 9 0 0 0 19 .

.. n NNE- 0 10 9 0 0 0 19 HE 0 8 4 9 0 0 21 ENE- 0 7 3 5 0 0 15 E 2 -7 0 0 0 0 9 ESE o 1 2 1 0 0 4

-SE O 2 5 0 1 0 8 SSE 1 1 0 0 0 0 2 S 0 1 1 0 0 0 2 .

SSW 0 0 4 0 0 0 4 '1 SW 0 2- 3 0 0 0 5

'WSW 0 1 2 5 0 0 8 W .

0 9 27 8 0 0 44 WNW~ 0 '15 18 0 0 0 33 NW 0 5 9 1 0 0- 15 NNW 1 8 4 0 0 0 13 TOTAL 4 87 100 29 1 0 221 PERIODS OF CALM (HOURS): 0 VARIABLE DIRECTION 0 HOURS OF MISSING DATA . 1 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87063024 STABILITY CLASS: C DT/DZ ELEVATION ____.

______.__ _ . . . .SPEED

. . _ _ _ . . SPD10P

. . . _ _ _ . . . DIRECTION

. . . . . . _ _ _ _ _ _DIR10P

_ _ _ . . _ _LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N 0 8 5 0 0 0 13 NNE 1 4 7 0 0 0 12 NE O 9 7 5 1 0 22 ENE O 4 to 3 0 0 17 E O 6 1 0 0 0 -7 ESE 1 6 3 2 1 0 13 SE O 3 5 1 0 0 9 4 4 0 0 0 9 SSE 1 ,

S 0 5 2 0 0 0 7 i SSW 0 4 6 0 0 0 10 SW- 0 1 15 1 0 0 17 WSW 1 5 14 13 2 0 35 W 1 16 22 14 2 0 55 WNW 0 13 22 1 0 0 36 NW 1 12 3 4 0 0 20 NNW 2 5 4 0 0 0 11 TOTAL 8 105 130 44 6 0 293 PERIODS OF CALM (HOURS): 0 VARIABLE DIRECTION 0 rt0VRS OF MISSING DATA: 1 l

-At'achment-6-(Continued . Sage 3'of 12).

Joint Frecuency Distribution Tables - Quartert 1&2 HOURS AT EACH WIND SPEED AND DIRECTION

' PERIOD OF RECORD = 87010101-87063024 STABILITY CLASS: D DT/DZ ELEVATI0H SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION 1-3 3. -7 8-12 13-18 19-24 >24 TOTAL N 6 32 24 22 4 0- 88 d 4

5 40 12 13 0 0 70 NNE NE 7 48 38 34 1 0 128 ENE '7 38 62' 28 0 0 136 E 7 21 7 .0 0 0 36 7 27 23 16 0 0 73 ,

ESE SE 4 23- 46 29 0 0 102 i 5 20 16 0 0 0 41 i SSE S 6. 32 23- 0 0 0 63' -

0 0 81 i SSW 6 31 36 8 '

SW 9 43 77 10 0- 0 147 WSW 12 44 83 77 10 0 226 W 6 66 76 46 16 0 211 WNW 10 52 48 35 3 0 149 i NW 8 -54 42 28 5 1 .139 NNW 5 38- 33 17 5 2 100 TOTAL 110 609 646 371 44 3 -1790 i

PERIODS OF CALM (NOURS): 7 VARIABLE DIRECTIDH- 0 HOURS OF MISSING DATA 1 1 i

HOURS AT EACH WIND SPEED AND' DIRECTION 87010101-87063024  !

PERIOD OF RECORD = '

STABILITY CLASS: E DT/DZ l

ELEVATIDN: SPEED SPD10P DIRECTION DIR10P LAPSE!DT50M = .

WIND SPEED (MPH) '

WIND DIRECTION 1-3 8-12 13-18 19-24 >24 TOTAL

......... ... 4_7.... ..... .....

__ ... ____ 3 N s10 18 14 0 0 0 42 {

9 13 2 0 0 0 24 -

NNE 51 'j 16 23 11 1 0 0 NE ENE 20 75 27 5 0 0 128 E 27 32 0 0 0 0 59 9 23 14 1 0 0 47 t ESE SE 13 28 11 6 1 0 59 SSE 6 26 20 1 0 0 53 l' S 11 52 18 4 0 0 85 SSW 16 85 28 7 0 0 136 SW 13 61 34 2 0 0 110 WSW 10 37 33 9 4 0 93 W 10 15 10- 1 0 0 36  ;

WNW 7 9 8 0 0 0 24 l NW 5 11 6 0 0 0 23 l NNW 10 14 14 1 0 0 39 TOTAL 192 522 250 38 5 0 1009 l PERIODS OF CALM (HOURS): 2 l i

VARIABLE DIRECTION 0 HOURS OF MISSING DATA: 1 1

l Attachment 6 (Continued - Page 4 of 12)

Joint Frecuency Distribution Tables -Quarters l'& 2 L

l HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87063024 .

F DT/DZ l STABILITY CLASS:

ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M i WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 8-12 13-18 19-24 '>24 TOTAL 1 0 0 0 0 0 1 N

0 0 0 0 0 1 NNE 1 0 9 NE 6 3 0 0 0 ENE 20 13 1 0 0 0 34 i 32 9 1 0 0 0 44  !

E 26 16 10 0 0 0 0 ESE 0 0 19 SE 10 6 0 0 7 17 0 0 0 0 24 SSE 25 10 13 2 0 0 0 S

11 25 1 0 0 0 37 ,

SSW 36 i SW . 15 21 0 0 0 0 7 6 1 0 0 0 15 WSW 0 0 6 W- 3 3 0 0

.2 0 0 0 0 0 2 WNW 0 3 NW 2 1 0 0 0 1 0 0 'O O O 1 NNW 144 127 6 0 0 0 283 TOTAL PERIODS OF-CALM (HOURS): 7 VARIABLE DIRECTION 0 ,

HOURS OF MISSING DATA: 1 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87063024 STABILITY CLASS: G DT/D2 ELEVATION! SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 B-12 13-18 19-24 >24 TOTAL 2 0 0 0 0 0 2 N

2 1 0 0 0 0 4 NNE 6 HE 5 0 0 0 0 0 ENE .28 6 0 0 0 0 37 E 44 6 0 0 0 0 55 ESE 50 12 1 0 0 0 64 42 5 1 0 0 0 49 SE SSE 22 12 0 0 0 0 36 S 39 14 1 0 0 0 56 SSW 22 10 0 0 0 0 32 SW 13 1 0 0 0 0 15 5 0 0 0 0 0 6 WSW 3 W 3 0 0 0 0 0

" WNW 1 0 0 0 0 0 1 NW 1 0 0 0 0 0 1 2 0 0 0 0 0 3 NNW

TOTAL 281 67 3 0 0 0 370 PERIODS OF CALM (HOURS): 28 VARIABLE DIRECTION O HOURS'0F MISSING DATA: 1

i J

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Attachment 6 (Continueo . Sage 5 of 12) J i

Joint Frecuency Distribution Tables - Quarter 1 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87033124 STABILITY CLASS: ALL DT/DZ 4 ELEVATION: SPEED:SPD10P DIRECTION DIR10P LAPSE:DT5.0M '

WIND SPEED (MPH)

WIND DIRECTION

>24 TOTAL

..__..... 1_3

__ 4_7

__ _ ._ 8_12 13-18

__... ...__19-24 ___ _____

7 46 30 17 4 0 104 N 0 0 103 NNE 9 46 44 3 17 47 49 41 0 0 154 NE 0 0 218 ENE 29 82 62 43 55 61 9 0 0 0 128 E 0 0 137 ESE 36 50 32 18 31 42 22 17 1 0 117 SE 0 0 89 SSE 21 39 28- 1 35 38 17 2- 0 0 95

• S 0 0 118 SSW 27 40 40 11 26 57 88 '13 0 0 184 SW 12 0- 200 WSW 12 39 76 60 12 41 69 54 15 0 191 W 0- 125 8 37 41 36 2 WNW 109 HW 9 32 39 23 4 1 8 35 26 10 5 2 87 NNW TOTAL 342 732 672 349 43 3 2159 PERIODS OF CALM (HOURS): 20 VARIABLE DIRECTION 0 HOURS OF MISSING DATA: 1 HOURS AT EACH WIND SPEED AND DIRECTION PF.RIOD OF RECORD = B7010101-87033124 STABILITY CLASS: A DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION 4-7 >24 TOTAL j- _________ 1_3

_. ... .. 8 _ _12

__ ._ 13_18

__ __ 19_24 ... _____

N 0 4 4 0 0 0 8 l-l NNE O 9 26 0 0 0 35 NE O 6 23 9 0 0 30 )

ENE 1 1 11 11 0 0 24 E O 5 1 0 0 0 6

.ESE O 2 5 0 0 12 SE O O 2 $" 0 0 2 SSE O O 4 0 0 0 4 S 0 0 3 0 0 0 3 SSW 0 0 1 0 0 0 1 >

I SW 0 0 0 0 0 0 0 WSW 0 0 0 0 0 0 0 W 0 2 3 1 0 0 6 WNW 0 1 4 1 0 0 6 NW 0 1 4 0 0 0 5 NNW 0 4 3 0 0 0 7 TOTAL 1 35 94 27 0 0 157 PERIODS OF CALh(HOURS): 0 VARIAFLE DIRECTION O HOURS OF. MISSING DATA; 1 ,

i l:

. .. Attachment 6 (Continued ~--Page 6 of 12)

. Dint Frecuency Distribution Tablei - Quarter _1  ;

80VRS AT EACH WIND' SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87033124 STABILITY CLASS: B DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P . LAPSE:DT50M WIND: SPEED (MPH)

WIND .

DIRECTION: 1-3 4 8-12 - >24 TOTAL

.......... _. __ ..___ .13-18

_-7 19-24

.i N O 6 4 0 0. .0 10 NNE O 5 4. 0 0 0 9 NE 0 4 2 5 0 0 11 ENE o 2 1 3 0 0 6 0 5- I E- 1 4 0 0 0 ESE o 1 2 1 0 0 4 1 SE. 0 2 4 0 -0 0 6 SSE O O O O 0 0- 0 1 0- 0 0 0 O' S 0 0 SSW 0 0 1 0 0 0 1

'SW 0 1 'l 0 0 0 2 WSW. 0 1 0 0 0 0 1  :

W 0 3 3 4 0 0 10 .!

WNW 0 4' 2 0 0 0. 6 NW 0 0 2 0 'O O 2 NNW -1 .2 0 0 0 0 3 TOTAL 2 35 26- 13 0 0 76 PERIODS OF CALM (HOURS)1 0 VARIABLE DIRECTION 0.

HOURS OF MISSING DATA 1 1 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87033124 i STABILITY CLASS: C DT/DZ ELEVATION: . SPEED:SPD10P DIRECTION:DIR10P . LAPSE 1DT50M WIND SPEED (MPH)

WIND. ,

DIRECTION 2-3 4-7 >24 TOTAL {,

.......__ . 8-12 13_18 19_24 N 0 4 5 0 0 0 9 i NME O 2 4 0 0 0 6 ,

NE O 1 2 2 0 0 5 ENE O 2 5 3 0 0 10 E O 3 1 0 0 0 4 ESE O 3 2 0 0 0 5 SE O 1 1 1 0 0 3 SSE 1 3 2 0 0 0 6 S 0 1 0 0 0 0 1 SSW 0 2 2 0 0 0 4 SW 0 0 12 0 0 0 12 WSW 0 2 4 2 0 0 8 W 0 3 6 6 0 0 15 WNW 0 4 4 1 0 0 9 NW 0 2 1 0 0 0 3 NNW 1 3 0 0 0 0 4 ,

...___.____....____________________..________..__ ._______. q TOTAL 2 36 51 15 0 0 104 PERI 3DS OF CALM (HOURS): 0 VARIABLE DIRECTION O HOURS OF MISSING DATA: 1 1

x. ,

Attachment 6 (Continued - Page 7 of 12)

Joint Frecuency Distribution Tables - Quarter _J.

HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87033124 STABILITY CLASS: D DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M .i WIND SPEED (MPH)

WIND DIRECTION 4-7 >24 TOTAL

____ ____ 1_3

__ 8-12 13-18 19_24 N O 26 15 17 4 0 42 NNE 4 22 9 3 0 0 38 NE 5 22 20 25 0 0 72 ENE 4 19 33 22 0 0 79 E 5 16 6 0 0- 0 28 ESE 5 20 17 12 0 0 54 SE 2 21 13 11 0 0 47 SSE 3 15 9 0 0 0 27 S 2 13 9 0 0 0 26 SSW 2 18 22 6 0 0 48 SW 4 22 54 13 0 0 93 WSW 5 17 47 54 8 0 131 W 2 30 53 42 15 0 142 WNW 4 21 30 34 2 0 92 NW 5 25 32 23 4 1 91 NNW 2 23 22 10 5 2 64 TOTAL 54 330 391 272 38 3 1094 PERIODS OF CALM (HOURS)1 6 VARIABLE DIRECTION O HOURS OF MISSING DATA: 1 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87010101-87033124 STABILITY CLASS: E DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N 7 6 2 0 0 0 15 NNE 5 8 1 0 0 0 14 NE 7 12 2 0 0 0 21 ENE 5 44 11 4 0 0 64 E 15 26 0 0 0 0 41 ESE 4 13 5 0 0 0 22 SE 8 16 2 5 1 0 32 SSE 4 15 13 1 0 0 33 S 7 20 5 2 0 0 34 SSW 6 16 14 5 0 0 41 SW 6 24 21 0 0 0 51 WSW 3 17 24 4 4 0 52 W 6 2 4 1 0 0 13 WNW 3 7 1 0 0 0 11 NW 3 3 0 0 0 0 6 NNW 3 3 1 0 0 0 7 TOTAL 92 232 106 22 5 0 457 PERIODS OF CALM (HOURS): 0 VARIABLE DIRECTION O HOURS OF MISSING DATA: 1

Attach:nent 6 (Continued - Page 8 of 12 )

j- Joint Frecuency Distribution' Tables - Quarter 1 HOURS AT EACH WIND SPEED AND DIRECTION' PERIOD OF RECORD = 87010101-87033124 STABILITY CLASS: F DT/DZ ELEVATION: SPEED:SPD10P DIRECTION DIR10P LAPSE:DT50M-WIND SPEED (MPH)

WIND DIRECTION- 1-3 4-7 >24 TOTAL

.__...... ... 8_12 13_18 19 ... . __ .. __ ..... ... .__..

N 0 0 0 0 0 0 0 NNE o 0 0 0 0 0 0 NE 4 2 0 0' O O 6 ENE -

6 9 1 0 0 0 16 E 18 5 1 0 0 0 25 ESE 7 5 0 0 0 0 12

'SE 5 1 0 0 0 0 9 ,

SSE 5 6 0 0 0 0 11 }

S 3 4 0 'O 0 0 7 SSW 6 1 0 0 0 0 7 SW 10 10 0 0 0 0 20 WSW 1 2 1 0- 0 0 5 W 1 'l 0 0 0 0 2 WNW 1 0 0 0 0 0 1 'l NW 1 1 0 0 0 0- 2 NN W .- 0 0 0 0 -0 0 0-TOTAL 68 47 3 0 0 0- 123 PERIODS OF CALM (HOURS): 5 VARIABLE DIRECTION 0 HOURS OF MISSINO DATA: 1 HOURS AT EACH WIND SPEED AND DIRECTION  !

PERIOD OF RECORD e 87010101-87033124 STABILITY CLASS: 0 DT/DZ ELEVATION: SPEED:SPD10P DIRECTION DIR10P LAPSE:DT50M  ;

WIND SPEED (MPH)

WIND-

.~_b. bb~.. b.~._ __f __b. -i

.bb...b__ b"_b b". .

N 0 0 0 0 0 0 0 NNE O 0 0 0 0 0 i HE 1 0 0 0 0 0 1 ENE 13 S 0 0 0 0 19 E 16 2 0 0 0 0 '19 ESE 20 6 1 0 0 0 28 SE 16 1 0 0 0 0 18 SSE B 0 0 0 0 0 8 S 23 0 0 0 0 0 24 SSW 13 3 0 0 0 0 16 SW 6 0 0 0 0 0 6 WSW 3 0 0 0 0 0 3 W 3 0 0 0 0 0 3 WNW 0 0 0 0 0 0 0 NW 0 0 0 0 0 0 0 NNW 1 0 0 0 0 0 2 TOTAL 123 17 1 0 0 0 148 FERIODS OF CALM (HOURS): 9 VARIAPLE DIRECTION O HOURS OF MISSINO DATA: 1

I i

i l

l I

Attach =ent 6 (Continueci - Page 9 of 12) 1 Joint Frecuency Distribution Tables - Quarter 2 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87040.101-87063024 STABILITY CLASS: ALL DT/DZ ELEVATION: SPEED SPD10P DIRECTION DIR10P LAPCE:DT50M WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 >24 TOTAL

________. ... ... 8-12

_... .. 13_18

_. ..... 19-24 ... ...__

N 12 43 36 5 0 0 96 NNE 11 51 34 11 0 0 107 NE 17 61 59 35 2 0 175 ENE 47 66 59 15 0 0 191 E 58 26 2 0 0 0 91 ESE 47 31 16 7 2 0 103 SE 38 25 47 19 1 0 132 SSE 21 42 16 0 0 0 81 S 31 79 34 2 0 0 147 SSW 29 117 37 4 0 0 187 SW 24 72 42 8 0 0 147 WSW 23 54 57 47 4 0 186 W 11 71 82 17 3 0 185 WNW 12 56 70 1 1 0 140 NW 9 63 33 12 1 0 119 NNW 13 41 33 10 0 0 97 TOTAL 403 898 659 193 14 0 2184 PERIODS OF CALM (HOURS): 25 VARIABLE DIRECTION O HOURS OF MISSINO DATA: 0 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87040101-87063024 STABILITY CLASS: A DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION 1-3 4-7 8-12 13-18 19-24 >24 TOTAL N 0 17 10 0 0 0 27 NNE 2 20 22 1 0 0 45 NE C 11 25 18 0 0 54 ENE O 4 7 6 0 0 18 E 1 1 1 0 0 0 3 ESE O O O O 1 0 1 SE O O 1 0 0 0 1 SSE O 1 0 0 0 0 1 5 0 0 1 0 0 0 1 SSW 1 2 1 0 0 0 4 SW 0 0 1 0 0 0 1 WSW 0 0 0 3 0 0 3 W 0 1 13 1 0 0 15 WNW 0 3 11 0 0 0 14 NW 1 11 0 2 0 0 22 NNW 0 7 1 2 0 0 10 TOTAL 5 78 102 33 1 0 220 PERIODS OF CALh(HOURS): 1 VARIAPLE DIRECTION 0 HOURS OF MISSING DATA: 0 i

Attachment 6 (Continued - Page 10 of 12j Joint Frequency Distribution Tables - Quarter 2 HOURS AT EACH WIND SPEED AND DIRECTION-PERIOD OF RECORD = B7040101-07063024 STABILITY CLASS: B DT/DZ ELEVATION: SPEED 1SPD10P DIRECTION:DIR10P LAPSE:DT50M i WIND SPEED (MPH)

WIND DIRECTION 1-3

... 4_7 B-12 13-18 19-24

>24 TOTAL N 0 4 5 0 0 0 9 NNE O 5 5 0 0 0 10 i NE O 4 2 4 0 0 10 .

ENE O 5 2 2 0 0 9 l E 1 3 0 0 0 0 4 ESE o 0 0 0 0 0 0 SE O O 1 0 1 0 2 SSE 1 1 0 0 0 0 2  ;

S 0 1 1 0 0 0 2 SSW 0 0 3 0 0 0 3 SW 0 1 2 0 0 0 3 WSW 0 0 2 5 0 0 7 W 0 6 24 4 0 0 34 r' WNW 0 11 16 0 0 0 27 NW 0 5 7 1 0 0 13 NNW 0 6 4 0 0 0 10 TOTAL ~ 2 -52 74 16 1 0 145 i

, ..__.________________....____...___.......____._____ .... j PERIODS OF CALM (HOURS): 0 i VARIABLE DIRECTION 0 HOURS OF MISSINO DATA: 0 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87040101-87063024 STABILITY CLASS: C DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE DT50M WIND SPEED (MPH)

• WIND DIRECTION 1-3 4-7 B-12 13-18 19-24 >24 TOTAL N 0 4 0 0 0 0 4 I NNE 1 2 3 0 0 0 6 NE O 8 5 3 1 0 17 ENE O 2 5 0 0 0 7 E O 3 0 0 0 0 3 ESE 1 3 1 2 1 0 8 SE O 2 4 0 0 0 6 ,

SSE o 1 2 0 0 0 3 1 S 0 4 2 0 0 0 6 SSW 0 2 4 0 0 0 6 SW 0 1 3 1 0 0 5 t WSW 1 3 10 11 2 0 27 I W 1 13 16 8 2 0 40 i WNW 0 9 18 0 0 0 27' l NW 1 10 2 4 0 0 17 NNW 1 2 4 0 0 0 7 TOTAL 6 69 79 29 6 0 189 PERIODS OF CALM (HOURS): 0 VARIABLE DIRECTION O HOURS OF NISSINO DATA: 0

h l

Attachment 6 (Continued - Page 11-of 12) l ~

! Joint Frecuency Distribution Tables -

Quarter 2 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87040101-87063024 STABILITY CLASS: D DT/DZ ELEVATION: ' SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTIDH 1-3 8-12 13-18 19-24 >24 TOTAL

_...... . .... 4_7 6 6 9 5 0 0 26 N 0 0 32  ;

NNE 1 18 3 10 2 26 18 9 1 0 56 i NE o 57 3 19 29 6 'O ENE 0 0 8 2 5 1 0 E 4- 0 0 19 ESE- 2 7 6 2 2 33 18 0 0 55  ;

SE 0 14 2 5 7 0 0 SSE 0 0 37 4 19 14 0 S 0 33 4 13 14 2 0 SSW 5 0 0 5/

SW 5 21 23 7 27 36 23 2 0 95 WSW 4 0 49 i W 4 36 23 1 '

6 31 18 1 1 0 57 WNW 0 48 3 29 10 5 1 NW 0 0 36 3 15 11 7 NNW 56 279 255 99 6 0 696 TOTAL PERIODS OF CALM (HOURS): 1 VARIABLE DIRECTION 0 HOURS OF HISSINO DATA: 0 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF PECORD = 87040101-87063024 STABILITY CLASS: E DT/DZ ELEVATION: SPEED SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND DIRECTION

. ....__. 1_3 4-7 B-12 13_18 19-24 >24 TOTAL N 3 12 12 0 0 0 27 NNE 4 5 1 0 0 0 10 NE 9 11- 9 1 0 0 30 ENE 15 31 16 1 0 0 64 i E 12 6 0 0 0 0 18  :

ESE 5 10 9 1 0 0 25  !

SE 5 12 9 1 0 0 27 SSE 2 11 7 0 0 0 20 S 4 32 13 2 0 0 51 SSW 10 69 14 2 0 0 95 SW 7 37 13 2 0 0 59 WSW 7 20 9 5 0 0 41 W 4 13 6 0 0 0 23 WNW 4 2 7 0 0 0 13 NW 2 8 6 0 0 0 17 NNW 7 11 13 1 0 0 32 TOTAL 100 290 144 16 0 0 552 PERIODS OF CALM (HOURS): 2 VARIABLE DIRECTION O HOURS OF MISSING DATA: 0

Attachment.6 (Continued - Page 12 of 12)

Joint Frecuency Distribution Tables --Quarter 2 HOURS AT EACH WIND SPEED AND DIRECTION PERIOD OF RECORD = 87040101-87063024 STABILITY CLASS: F DT/DZ .

ELEVATION: SPEED SPD10P DIRECTION DIR10P LAPSE:DT50M l WIND SPEED (MPH)

DIRECTION 1-3 4-7 >24 TOTAL

---

--- B-12 13-1B 19_24 N 1 0 0 0 0 0 1 NNE 1 0 0 0 0 0 1 NE 2 1 0 0 0 0 3 ENE 14 4 0 0. 0 0 18 '

E 14 4 0 0 0 0 19 ESE 9 5 0 0 0 0 14-SE 5 5 0 0 0 0 10 SSE' 2 11 0 0 0 0 13 S 7 9 2 0 0 0 18 SSW 5 24 1 0 0- 0 30 SW 5 11 0 0 0 0 16 WSW 6 4 0 0 0 0 10 W 2 2 0 0 0 0 4 WNW 1 0 0 0 0 0 1 NW 1 0 0 0 0 0: 1 NNW. 1 0 0 0 0 0 1 TOTAL' 76 80 3 0 0 0 160 PERIODS OF CALM (HOURS): 2-  !

VARIABLE DIRECTION O HOURS OF MISSING DATA: 0 HOURS AT EACH WIND SPEED eND DIRECTION PERIOD OF RECN D = 87040101-87063024 STABILITY CLASS: G DT/DZ ELEVATION: SPEED:SPD10P DIRECTION:DIR10P LAPSE:DT50M WIND SPEED (MPH)

WIND RIRECTION 1-3 4-7' B-12 13-18 19-24 >24 TOTAL .;

N 2 0 0 0 0 0 2 NNE 2 1 0 0 'o 0 3 NE 4 0 0 0 0 0 5 ENE 15 1 0 0 0 0 18 E 28 4 0 0 0 0 36 i ESE 30 6 0 0 0 0 36 SE 26 4 1 0 0 0 31 SSE 14 12 0 0 0 0 28 S 16 14 1 0 0 0 32 ,

'SSW 9 7 0 0 0 0 16 i SW 7 1 0 0 0 0 9 i WSW 2 0 0 0 0 0 7.

W 0 0 0 0 0 0 0 WNW 1 0 0 0 0 0 1 NW 1 0 0 0 0 0 1 1 NNW 1 0 0 0 0 0 1 l TOTAL 158 50 2 0 0 0 222 I PERIODS OF cal.MHOURS): 19 VARIABLE DIRECTION O HOURS OF MISSINO DATA: 0 ,,

l l

l,

._ _ -. -________________-__________a

l 3

i I

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Attachment 7 i i

Process Control Program Changes l 4

i i

l

i NON-INTENT I

toe.m Coa.  ;

- P W No. 7309 l i j

• 2;'1, INSTRUCTION TEMPORARY CHANGE l TCN- f IM51RUC110M 4), R(y, INSTRUCf10M fifLE g g,;fcp 3 R-- cc.J J Aop ( pch }

l 4/A' ORIGINATOR OATE LIST EACH ATTAO ED PAGE:

Re UA wIr/$ A%4f' l c ?- n I,s,'i1 A to,is PA0 CESS FOR: C3c!T:0NAL APPROVAL FINAL APPROYAL OM.Y REA50m I. p us --a e t. ,s e fa LW Taa. l.3.'as to ,,,, n h .,.

t,a- ;s ud - .J.J.

1. cla. 9 w LO , Pau ass c.,L.I u

3. Desde res.>.c-s G ~ <d~~<uf p<u L-<s.

1 CONDIf!ONAL APPROVALIIN DEPTH REVIEW CONDITIONAL APPROVAL (Plantnonagearft$t f) DA1E ($$ og gg) OATE

/&cYb= l S/* 7/bY f-l A l l-l "2?iefr7 i

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t 0 A.n'A ~' l. lY i : E_1-x-0 iT%d,""" i 1

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!  !  % ailw?

E TEMPC ANGE eM12I: PC?

1. Page :

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OFj _y Rev. :

1 3

PROCISS CON ~ROL PROGRAM (PCP)

1.0 INTRODUCTION

The Process Control Program (PCP) is designed to provide ,

administrative control and guidance for the solidification.

devataring and other processing of applicable forms of radvaste for ultimate disposal. The PC7 eentains information pertaining to the current for=ula (mixing ratio), sa=pling, analyses, tests, and determinations to be made to ensure that the processing and packaging of radioactive vastes, based on demonstrated processing of actual or s1=ulated vet solid vastes, vill be accomplished in such a way as to ensure co=pliance with 10C7R20,10CTR61.10C7171, Tederal and State regulations, burial ground require =ents and other require =ents governing the disposal of radioactive vaste.

TV The PCP is applicable to the plant installed and LN Technologies 5 Corporation (tN) suP9 tied =ohite rad aste sPste= for solidification and dewatering of applicable vaste forms.

Nu=erous features have been incorporated into the design of the solid radioactive vaste system and the building housing this systa=

• g to insure that exposures of operating personnel to radiation vill be kept within ALARA guidelines.

1.1 Definitions The following definitions are applicable to the sections that I follow:

ACCIPTABLE INVILOPE (of solidification /devataring): specific

g. properties of vast'es that fall within the limits of the paramatars C

l- required for solidification. These parameters are established within the test solidification instruction for each applicable  !

waste type. .  !

l RATCH: the volume of isolated vaste contained in a tank that vill i be processed for solidification or devataring.

L. CONTAINIR: the physical container in which the final vaste product 1s deposited.

. RICH INTICIITT CONTAINIX (HIC); an approved container for burial i

having an expected life of 300 years, l

SOLIDITICATICN: the conversion of radioactive meterials from liquid and solid systems to a sono 11thic. immobilized solid with a definite volume and shape, bounded by a stable surf ace of distinct A

1

7 l

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Tf Aaif'ANCC iS'.* CH ANGE  !

S 0 OS *M PAGg u OFd l,. . , PAGE 1 OF 7 cy,;23: p; y Page : 5 l l(/

i 1 -

2ev. : 3 3.6 solidiffeation Processing 3.6.1 Description of Plant Processing System {

Solidification and/or devatering of vet solid radica'etive i

iyI l vaste vill be processed by LN , Process Service Corporation's -

mobile system. n is system is discussed in detail in Section l

. 3.6.2. ne following description applies to the plant 6l installed solid radvaste system that will interf ace with LN 's gi equip =ent (see Figure 1).

After the proper amount of vaste has been transferred to the

• vaste mixing tank, the tank is decanted to remove excess free  !

. water (except when the vaste b>.ing handled is traveling belt filter cake, in which case a p;edeter=ined amount of water er other approved aqueous solution is added to the tank for slurry transf er of the contents). n e vaste slurry is i transferred at a preset rate to the vendor's equip =ent, in accordance with OM13A: 7.VI-14, where it is either devt.tered or  :

solidified with ce=ent. ne vaste mixing tanks have recirculation capabilities where a representative sa=ple can j be drawn. If needed, a devstering connection is available  !

which is routed to the liquid radvaste systa=. An additional

f. con scrict. has b.en provided back to the vaste r.1xing tank for use in the event of a liner overfill condition. Ect water flush connections are provided to thoroughly flush the plant and the vendo; equipment into the liner used for processing. l De vaste transfer line and devatering terurn lines are located behind a two foot thick shield vall to reduce ' exposure to the operator during processing.

l Description of the Vendor's Waste Processing Systa=

3.6.2 The met solid radioactive maste will be transf erred to LN's equipment to be dewatered (per LN Process control Program f or Demeterino lead and Poudered Resin with Quick-Dry De=atering Sys-tes No. 8B14, No.DW-002)orsolidified (per LN Process Control N, Prograe for LNPSC Radmaste solidification systees No. $$-001) j . A complete process description f or the LN settle solidification systes is contained in LN Process Svevices Topical Tc ar)

Report on Radwaste Solidification Systes, PS-53-037d. . A .

c {'

- description of the LN dematering systes is conta.ited in the LN O

- Process Control Progras, No. DW-002. The only exceptions to those LN docusents ares (1) test solidification mill be run on each baten of the saae maste type instead of every tenth batch, and (1) maste will be supplied to the LN equipment at 20 gpa instead of

, 40 gpa due to pump lisstations. .

. . i i

-i J

l TEMPC AffGE SM12E: PCP

(~ ' -

Page : 6 IPAGE 1 0F 7 Rev. : 3 Tigure 2 Solid Radioactive Waste Processing System e

91 o

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i d' a j r e !!i  ! Dil  ;

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TEMP CHANGE TEMP CHANGE -

M#003 2E: 70 PdGE 4 77 PAGE E OF / O Page : 7

( Rev. : 3-

• The vendor's equipment is located in the F.advaste Building in the fill aisle and storage area adjacent to the truck bay (see l Figure 2). All processing of radioscrive vaste.will be performed in the fill aisle with only the vendor's cement

. transfer equipment being. located in the cement silo room.

The areas where the processing .of r,adioact,1ve ' waste ,tates place are IC i specifically designed for this purpose. Concrete valls and floors in D this area have protective coatings and shield valls are provided between the vendor's equipment and potential.

h.

radioactive sources to keep personnel exposures ALARA. The storage area is large enough to contain.15 liners. This provides adequate storage before'it is shipped to a burial site. .

, 3.6.3 . Radiological Effluent Controls and Monitoring All processing with the vendor's equipment vill be performed in a roo= with a volume sufficient to contain any postulated spi 1L .A floor drain, routed to the liquid radvaste syster.. ,

provides drainage in this area. All liquid radvaste-  !

discharges are sampled and monitored prior to their release to the environment.

( p. Caseous discharges from liners are processed through the j

( .- g vendn's oH-gas blown sysum as ducribed in the LN Topical Report PS-53-0378. The vendor's equipment incorporates radiation monitors on the fill head assembly and the proegss piping skid. ,

Ventilation from the aress housing the radvasta treatment and processing equipment, including the vendor's off-gas blower systete, is routed through RIPA filters and charcoal beds prior to release to the environment via the tinit 1 Vent. -

Radiole,gical monitoring is provided for Regulatory Guide 1.21 ,i 1l/,

. compliance to meet applicable Federal Code requirements.

's- -

d 4

4

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- . I

l TE'MP CHANGE g TEMP CHANGE

.W h e O!"b ~m-

• ' ^ PAGE 1 OF1 pAgg /, CF' /A . c . . . .- . -. .> w.-

Page : E 7[-

Rev. : 3 j Tigure 2 . W f L. j LN Mobile Solidification T4uipment Layout 5 O

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TEMP CHANGE TEMP C . ANGE p,mg TEMPCH NGE cr.12T.: PCP

1. - pac rf or JQ '

di Page : 10

f. PriE .d OF 7 - ---

PAGE d OF- - 9

- -- psv.: 3 stability criteria of the Branch Technical Pesition en vaste Pers. I Cartridge filters may aise be disposed of by platement in NIC's that are certified by the land disposal facility's state agency.

3.8 Dry Active Waste .

Potentially contasiasted dry westes will be cellected is containers Iecated throughout the radielegically controlled areas _within the plant. The waste will be persedically collected and transported to a temperyy eterage eres prior to weste segregation (as per CM1A: .

PAF-1p01). Vaste segregation will be performed to reduce waste volume.end to recover reusable materials.

In order to reduce the weste velvse, sempressible waste will be compacted inre shipping containers is accordance with OP: 13A:

RVI-15. Castion will be taken to eveld items that wev1d cause free water formation as well as other compressibility hazards.

Wencespressible waste will be leaded m. anus 11y.inte suitable shipping containers.  ;

4.0 pro? PCT Co q E01.

Pewsterhelidification processes will be conducted by gus11fied PEFF or vender personnel in accordance with approved plant and/or vender ld "l* C operating fastructions and precedures. D ,

To ensure appropriate documentation and compliance with this program, Attachment

1. PCP Product Contrel Data Package will be davatart=g Y /

{

~lfilledoutbyplantpersonnelforeachsolidification/

process.

11,- A Process Control Number is not required for dewatering.

g NOTE:

1.1 Test solidifiestte.

Test solidificatissa are perforsed en vaste stres= sasp! s te verify plast and/or vender calculated(2)solidificaties when forwul as fe11ews: (1) every batsk of the same warte type:

sampling analysis falls outside the sersal establishedliner ofenvelope the same and precenditiesias is ineffective. O) fellowing a*T waste type where solidificaties has been determined te be enacceptabler (4) wbes it is believed that some onespected er abaermal eestaminant may be present; er 0) when rettested by I Chemistry Svyervistee. A batah that retstres test solidificassen '

l shall met k processed estil such time as ths test solidification preves acceptable.

Opes failure of a test solidificaties, additiesal samplas shall be o ebtained and testing vill cestiane until a esecessisi solidificaties has been perte 3ed with revised sizing raties asSolidification of the h determined by Chc=istry Sepervisies.

may then be evatinued using the alternate selidificaties parameters defined b3 testing. .

4 a

TEMPCHANGE

1. 5 PAGE 7 OF ~7 OM12I: PC?

( j^ Page : 16 Rev. : 3 RETIRENCts

1.

• Title 10. " Energy," Chapter 1, Code of Federal Regulations.

Parts 20, 50, 61, and 71, U.S. Government Printing of fice,

- Washington, D.C. 20402, January 1,' 1984  ;

2. Title 49, " Transportation,". Chapter 1, code of Tederal Regulations.

Parts 170-178 U.S. Gover=sent Printing of fica, Washington, D.C.

20402, November 1,1983.

3. U.S. Nuclear Regulatory Comission, " Standard Radiological Effluent Technical Specifications for Boiling Water Reactors," USNRC NURIC-0473. Revision 3. Washington, D.C. 20535, Septentar 1982.

4. U.S. Nuclear Regulatory Comission, " Low-Level Vaste Lice = sing Branch Technical Position on Radisoctive Waste Classification." .

Revision 0, May 1983.

5. U.S. Nuclear Regulatory Con =ission "Iranch Technical Position on Waste Form " Revision 0, May 1983.

6. " Standard Test Method for Conrpressive Strangth of Cylindrical Contrate Specimens" ASTM C39-44, Ac.arican Society for Testing and

( Macertals, Philadelphia, Pennsylvania 19103, 1984.

7. Regulatory Guide 1.8, " Personnel Selection and Training,"

U.S. Nuclear Regulatory Coatzission, Warhington D.C. 20535, September, 1975.

8. " Selection and Training cf Nuclear Power Plant Personnel, ANSI N18.rl-1971, American National Standards Instience.

' New York, New York 10018. 1971. .

'9. "Radman - A Computer Code to Classify and Document Packaged LLW 1a Accordance with 10CTR Part 61 Regulations," UMG-NP-A, Vaste Management Groop. Inc. , Croton-on-the-Endson, New York,10521 May 1983.

• I 10. ." Data Base Analysis Report - Ferry Nuclear Power Station " Weste

.. Management Group Inc., Croton-on-the-Eudson, New York, New York 10321, May 1983.

11. LN Process Control Program for Dewatering Liners with LN PSC T6' Intervals No 71-013' 5

12. LN Operating Procedure for I.N PSC Radvasta Solidification System No.55-001,

( 13. LE Process Services Topical Report on Radwaste Solidification s System,- PC-53-0378,

l 4

Attachment 8 Offsite Dose Calculation Manual Changes i

i 1

1 I

l

INTENT i tt+= ce

• i a72Ib" INSTRUCTION TEMPORARY CHANGE IN5Taucf!ON NO. REV INSTRUCTION TITLE

,,,.cs?2 7 NI[ ,.

OM12 D - ODCM 2 Offsite Dose Calculation Manual CANCEL 5 IEN(5):

N/A ORIG 1hAf0R DATE 514AgAfy,0j,gy PAM:

M R. M. Cochnar l 1 8 7 pe, 3 3 , 3 7 , 7 3 , 7 3 a , 8 2 , 8 4 , 8 5 , 8 6 , 8 7 , 8 8,13 4 3t%

CEAs0N: Ad ]u s tm e n t / of default VOnt flow rates (gaseous ADMIN USE ONLY effluent radiation monitor set point determination);

correction of typo; inclusion of Dose to Members of the Public while Onsite section; changes to Radio-logical Environmental Monitoring Program locations; incorporation of 10CFR50.59 Applicability Check.

DATE REVIEWED l EL/ A - //

l ik/87 I !

10crs50 59 spetrtaegriv tsEtr 3,; g Is there a Change to the plant as described in the rSAR?

REASON: There is no chance to the clant.

Is there a Change to a procedure / instruction as described in the rSAR? x REASON

• This does nnt channa a n rocedu ra /4 n o teucri m .me described in F S AR .

Is there a Test or experiment not described in the FSAR? X REASON: This does not involve a test or exneefmant Is there a Char'ge to Technical Specifications? X Is there an effect on the environment or change to the Environmental Protection Plan? X REASON: There is no adverse effect on the environs or chance to the E.P.P.

Answers to all cuestions are 'N0'. No potential for an Unteviewed Safety or Environmental Question exists. No further review required.

Answers to one or more ouestions is 'YES', rurther review reouired.

PREP 'E0 Og R ' wE0 CATE APPROVED DATE h)E -

67 e l 1 b v!/? Comb l1 li N

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0 OATE S l A

P E BY REA$0h FOR 01$AD#RO'.4L

, i 1

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TEMP CH ANGE '

1. $ OM12D: ODCM PAGE / OF /9 Page : viii Rev. 2 10CFR50.59 Applicability Check fC,*

6 Yes No Is there a change to the plant as described in the FSAR?: '

Reason: T&rre. is no che. 4 46s p luY.

J i Is there a change to a procedure / instruction as described II#I in the FSAR7 Reason: -Sc. cDCM is ,oi o. A recedure. .r Gsf edde,#I h h o. ma.nva.1 oAIN Aq -f(< sMeu w wd -1,' a ude 044 5 ,te de.

G%2r Vstrudun,slydon.s 19 l eaM fu ne:tGlo( gu.

Is there a test or experiment not described in the FSAR?

Reason: Th i6 ed & 4cd or experlmah I I I.M3 I II Is there a change to the Technical Specifications?

Is there an effect on the environment or change to the Environmental Protection Plan? Reason: "Due fs no I Id etd v ene. eMed onMc envl eons e c h e -h 4 41 4

f.F p.

K Answers to all questions are "No", no potential for an Unreviewed Safety or Environmental Question exists, no further review required.

Answers to one or more questions is "Yes", further review required.

Prepared /Date Reviewed /Date Approved /Date L I-I+-67 ///// 7 %CL '

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/ _ /.

L TEMP CHANGE il 4 [

PAGE M OF /3 OM12D: ODCM Page : 33

-Rev. : 2 1.11 = the air dose to tissue dose equivalent conversion l factor, in arem/arad; 3000'= the skin dose rate limit, in arem/yr; (L + 1.11 M ) values are shown in Table 3.1-1.

3.1.4' Determination of the Maximum Acceptable Total Radioactivity Concentration of all Noble Gas Radionuclides in the Gaseous Effluent

~

2.12 x 10 Q*

C g

= (3.1-4) f Where:

C = the maximum acceptable total radioactivity concen-g tration of all noble gas radionuclides in the affluent, in uCi/ce; f = the actual flow at the point of releage from the l respective flow rate recorders, in ft / min; NOTE: When actual flow rates are not available, the following design flow assumptions will be used:

(These flow rate values incorporate a 10%

flow rate inaccuracy correction.)

Vent Flow Rata ft / min

- Heater Bay / Turbine Building 400,000 (summer) 220,000 (winter) TC"

- Offgas 19,000

- Unit 1 140,000

- Unit 2 (Control Complex and Intermediate Building Vent 11ations) 47,000 and Q , calculated in Equations Q* = the smaller of Q3.1-2 and 3.1-3,brespecEively, in uCi/s;

~

2.12 x 10 = the conversign f actor to convert (uC1/s)/(ft / min) to uCi/ce.

DW/TC/0DCM1/K/mac/1 ]

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1. 5 PAGE.3._0F./3.l OM12D: ODCM Page : 33a g Rev. : 2 P TC' 3.1.5 Determination of the Maximum Acceptable Monitor Count Rate Above Background Attributed to Noble Gas Radionuclides CR = 0.8 (Cg ) (E,) (3.1-5) l l

l DW/TC/0DCM1/K/mac/2 j i

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1. !Y" PAGE 4 0F,/2[ OM12D: ODCM Page : 37 Rev. : 2 3.2 Compliance With 10CFR20 - Gaseous Effluent Dose Rate Dose rates resulting from the release of noble gases, radioiodines, tritium, and radionuclides in particulate form must be calculated to show compliance with 10CFR20. The limits of 10CFR20 are conservatively applied on an instantaneous basis at the controlling location.

3.2.1 Noble Gases The dose rate in unrestricted areas resulting from noble gas effluents is limited to 500 mrrm/yr to the total body and 3000 mrem /yr to the skin. Oni* the external dose pathway will be considered for noble gases. Because all gaseous effluent releases from PNPP are considered ground level, the controlling location for these dose rate limits is the site boundary location (see Figure 3.2-1) with the highest relative dispersion factor (X/Q) for the period of release. (See Appendix A for elaboration on atmospheric dispersion).

The alarm setpoint determinations discussed in the previous section should ensure compliance with these dose rate limits.

However, if any one high alarm or two or more alert alarms occur, the dose rates in unrestricted areas resulting from the release of noble gas radionuclides from all vents will be calculated. The calculations will be based on the results of analyses obtained pursuant to the PNPP Technical '

Specifications.

3.2.2 Radiciodines, Particulate, and Other Radionuclides TC"5 The dose rate in unrestricted areas resulting from the release of iodine-131, iodine-133, tritium, and all radionuclides in particulate form with half-lives greater than eight days is limited to 1500 mrem /yr to any organ by PNFP Technical Specifications. The calculation of dose rate from these radionuclides will be performed weekly based on results of analyses obtained persuant to those Technical Specifications.

The controlling location for this limit is a function of the noble gas controlling location, i.e., the location of the highest relative deposition (D/Q) for the period of release (See Appendix A for elaboration on atmospheric deposition), as  ;

well as the actual receptor pathway. The receptor pathway locations will be reviewed once per year following the performance of the Land Use Census to include consideration of residences in each sector, and garden and farm animal locations.

DW/TC/0DCM1/K/mac/3

TEMP CHANGE

1. - SI PAGE d[0F~~L8~~

OM12D: ODCM j

l Page : 73 Rev. : 2 thermoluminescent variety (TLDs) with analyses performed quarterly j and annually.

I 4.3 Dose to Members of the Public While On-site PNPP Technical Specification 6.9.1.7 requires " assessment of the radiation doses from radioactive liquid and gaseous effluents to members of the public due to their activities inside the site boundary." This assessment is included in Semiannual Radioactive Effluent Release Reporting.

A member of the public is defined in Technical Specifications to include all persons who are not occupationally associated with the plant, i.e., not utility employees, contractors or vendors. Also I

excluded from this category are persons who enter the site to service equipment or make deliveries.

Maximum dose to member of the public while on-site is conservatively assessed relative to off-site dose values. The assessment methodology incorporates use of appropriate dilution, dispersion, and occupancy factors for on-site activities.

The only liquid effluent dose pathway affecting members of the public while on-cite is shore exposure. Fishing on the Lake Erie shoreline is the assumed activity for this exposure. On-site dose assessment is made via ratio to the maximum calculated off-site shore exposure dose incorporating adjustments for occupancy factor TC' i and liquid effluent dilution factor. g Several cases are considered for gaseous effluent dose assessment to members of the public while on-site including: traversing a public road within the site boundary, lakeshore fishing, non-PNPP related trainit.g sessions at the Training and Education Center, car pooling to the Primary Access Control Point (PACP) parking lot, and job applicant inte rviews. This evaluation is made using " relative X/Q" (atmospheric dispersion) values. " Relative X/Q" values are the product of the highest annual average X/Q for the point of concern, and occupancy factor for the case. An adjustment factor is derived by ratioing this highest on-site " relative X/Q" to the highest site boundary

" relative X/Q." (A unity occupancy factor is used in the determination of the highest site boundary " relative X/Q.") Conservative on-site dose determination is made by applying the " relative I/Q" adjustment factor for the highest potential on-site dose activity to the highest j calculated gaseous ef fluent of f-site dose. j l

l DW/TC/0D CM1/K/mac/4 i

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Rev. : 2 5.0 RADIOLOGICAL ENVIRONMENTAL MONITORINC PROGRAM 5.1 Monitoring Program Environmental samples shall be collected and analyzed according to Table 5.1-1 at locations shown in Figures 5.1-1 and 5.1-2. Table 5.1-4 describes sample locations, associated media, and approximate distances and directions frem the site. Analytical techniques used shall ensure that the detection capabilities in Table 5.1-3 are achieved.

Ground water sampling vill not be conducted as part of FNPP's PEMP because this source is not tapped for drinking or irri 5ation purperes in the a ea of the plant and the hydraulic gradient is not ruitable for useful groundwater contamination. The position of the plant and the underdrain cystem with respect to the hydraulic gradient is such that any leakage or overflow from the underdrain system vill flow north towards Lake Erie. Local domestic wells outside the exclusion area boundary are up-gradient from the plant.

As part of the RD7. samples vill be routinely collected from the closest potable veter intakes on Lake Erie.

The results of the radiological environmental monitoring pregram are intended to supplement the results of the radiological effluent monitoring by verifying that the reasurable concentrations of radioactive materials and levels of radiation are not higher than expected on the basis of the affluent measurcrents and modeling of the envirennental exposure pathways. Thus, the specified environmental monitoring progran provides = measurements of radiation and of radioactive materials in those exposure pathways and for those radionuclides which lead to the highest potential radiation exposures of individuals resulting from the station operation. The initial radiological environ = ental monitoring program should be conducted for the first three years of com=ercial operation; following this period, program changes may be proposed based on operational experience.

Deviations are permitted from the required sampling schedule if speci= ens are unobtainable due to hazardous conditions, seasonal unavailability, malfunction of automatic sampling eouipment and other legitimate reasons. If specimens are unobtainable due to sa=pling equipment malfunction, every reasonable effort shall be made to complete corrective action prior to the end of the next sampling period. All deviations from the sampling schedule sh.?ll be documented in the annual report.

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Attachment 9 3987 Land Use Census l

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l. ANNUAL IAND-USE REPORT 1987 1

i Prepared by: gyvD f})f}d Th/ VI

, James Vebb '/Dath Reviewed by:  % 7f3/fT7 Richard R. Bovers Date l _ __

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i TABLE 1 NEAREST RESIDENT BY SECTOR AND DISPERSION (%/0) VALUE j l

I Nearest Resident I1}( ) I/O Value Map Direction (Distance / Address) (Sec/M3) Locator S 0.9 miles /3140 Center RoadI) 2.25 E-6 1 NE 0.8 miles /4385 Lockvood Road ( } 2.16 E-6 2 l SSE 0.9 miles /3119 Parmly Road 1.88 E-6 3 ENE 1.0 m114s/4602 Lockwood Road 1.13 E-6 4 SSV 0.9 miles /3850 Clark Road 1.11 E-6 5 VSV 1.1 miles /3f'"i2 Parmly Road 8.67 E-7 6 i E 1.2 miles /2684 Antioch Road 5.92 E-7 7 SV 1.2 miles /3440 Clark Road 4.98 E-7 8 ESE 1.2 miles /2774 Antioch Road 4.44 E-7 9 SE 1.2 miles /4495 North Ridge Road 3.89 E-7 20 (1) The following sectors extend over vater: V, VNV, NV, NNV, N, and NNE.

(2) All residents are located in the North Perry Township.

(3) The residence at 3121 Center Road is vacant.

(4) The residence at 4384 Lockvood Road is vacant.

i TABLE 2 NEAREST GARDEN BY SECTOR

" ~

AND DEPOSITION (D/0) VALUE I

Nearest Gardens (1)(2) D/0 Value Map  !

-Direction (Distance / Address) (Per M3) Locator ]

SSE 0.9 miles /3119 Parmly Road ( ) 1.22 E-8 3-S 1.0 miles /3153 Center Road 1.09 E-B 11 1 1

NE 0.8 miles /4385 Lockwood Road 1.09 E-8 '2 I E 1.1 miles /2684 Antioch Road 5.29 E-9 7 2:NE 1.2 miles /4650 Lockwood Road 4.11 E-9 12 ESE 1.3 miles /2846 Antioch RoadI ') 2.97 E-9 13 SE 1.2 miles /4521 North Ridge Road 2.90 E-9 14 VSV 1.2 miles /2970 Perry Park Road (5) 2.31 E 9 15 SV 1.3 miler /3440 Clark Road 1.95 E-9 8 SSV 1.5 miles /3513 North Ridge Road (6) 1.50 E-9 16 (1) The following sectors extend over water: V, UNU, NV, NNV, N, and NNE.

(2) All gardens are located in the North Perry Township.

(3) The garden at 3119 Parmly Road is maintained by the resident at 3212 Parmly Road.

(4) The garden behind 2846 Antioch Road is maintained by a neighbor.

(5) Property actually belongs to 2971 Perry Park Road.

(6) This property belongs to Golding's Farm on 3515 North Ridge Road.

The property extends north from North Ridge Road and turns vest to Ferry Park Road. This property is used for growing produce and fruits for public consumption.

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< THE CLEVELAND ELECTRIC ILLUMIN ATING COMP ANY i P.O. BOX 5000 - CLEVELANo, OHIO 44101 - TELEPHONE (216) 622 9800 - l ILLUMINATING BLDG. - 55 PUBLIC SQUARE Serving The Best Location in the Nation

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MURRAY R. EDELMAN BR VICE PRE 80ENT NUCL W August 26, 1987 PY-CEI/NRR-0701 L, Document Control Desk U. S. Nuclear Regulatory Commission Washington, D.C. 20555

]

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Perry Nuclear Power Plant Docket No. 50-440 Semiannual Radioactive Effluent Release Report Centlemen:

We are hereby submitting the Semiannual Radioactive Effluent ]

Release Report for the Perry Nuclear Power Plant, Unit 1, for the period of January 1 through July 31, 1987. This report meets the requirements of the Regulatory Guide 1.21, as applicable to the Perry Technical Specification, Section 6.9.1.7. All effluent releases were within the concentration '

and release limits specified in the Radiological Effluent Technical Specifications.

1 Please feel free to contact me if you have any questions.

Very truly 4 hrs, u

wId Murray R. Edelma Senior Vice President Nuclear Group MRE:njc ec: T. Colburn K. Connaughton

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