ML20248F361

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Annual Dose Assessment to General Public from Radioactive Effluents,Jan-Dec 1988,Radiological Section
ML20248F361
Person / Time
Site: Pilgrim
Issue date: 12/31/1988
From: Dionne B, Highfill K, Reilly S
BOSTON EDISON CO.
To:
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
89-044, 89-44, NUDOCS 8904130043
Download: ML20248F361 (106)


Text

_

Pilgrim Nuclear Power Station Annual Dose Assessment to the General Public from '

Radioactive Effluents January 1 through December 31,1988 l

l Radiological Section l

l Date: March 31, 1989 ABBBOSTON .C64NI l [tr'n85!: asis,ts gEDISON I

BOSTON EDISDN COMPANY PILGRIM NUCLEAR POWER STATION ANNUAL DOSE ASSESSMENT TO THE GENERAL PUBLIC FROM RADIOACTIVE EFFLUENTS REPORT-January 1, through December 31, 1988 l

l:

0 l

Prepared by:N D. {[

S.M. Reilly Senior Radiol cal Analysis Engineer

$,nn h 1 p B.J.pAontie' i

Senior'pdio, gical Environmental Engineer Approved by: ~~

Ar a//>o/

~

R.AJCanalas Chief Chemical Engineer YlkY) lllOL A LTE. Whittenberger/

~

RadiationProtection/ Manager l-Date of Submittal: March 31, 1989 l-i l

J TABLE OF C'-iTENTS Section fl21 -

1. 0 .' Radiological Impact on Humans' 1

-l

. 1.1 Off-site Doses Resulting from Radioactive Liquid 1 Effluents 1.1.1 General Dose Assessment- 1 1.1.2 Maximum Individual Doses 1  !

1.1.3 Average Individua1'and Population Doses 1  !

1.2 Off-site Doses Resulting from Radioactive Gaseous 23 Effluents 1.2.1 General Dose Assessment 23 1.2.2 Haximum Individual Doses 23 1.2.3 Average Individual and Population Doses 23 1.3 Off-site Direct Radiation Measurements 60 l

2.0 Percent Technical Specifications Limits / Objectives 63 l 2.1 Noble Gases 63 1

2 '. 2 Particulate, Iodines, and Tritium 65 2.3 Liquid Effluents 67 i

3.0- References 69 f-l l

l o

I

1 LIST OF TABLES figf Table January-March 1988 Liquid Releases Maximum Individual 2 1.1.2-1 Doses from all Pathways for Adult April-June 1988 Liquid Releases Maximum Individual Doses 3 1.1.2-2 from all Pathways for Adult-July-September 1988 Liquid Releases Maximum Individual 4 1.1.2-3 Doses from all Pathways for Adult-1.1.2-4 October-December 1988 Liquid Releases Maximum Individual 5 Doses from all Pathways for Adult January-December 1988 Liquid Releases Maximum Individual 6 1.1.2-5 Doses from all Pathways for Adult 7

1.1.2-6 January-March 1988 Liquid Releases Maximum Individual Doses from all Pathways for Teenager 6

1.1.2-7 April-June 1988 Liquid Releases Maximum Individual Doses from all Pathways for Teenager 9

1.1.2-8 July-September 1988 Liquid Releases Maximum Individual .

Doses from all Pathways for Teenager October-December 1988 Liquid Releases Maximum Individual 10 1.1.2-9 Doses from all Pathways for Teenager 11 1

l 1.1.2-10 January-December 1988 Liquid Releases Maximum Individual Doses from all Pathways for Teenager 12 1.1.2-11 January-March 1988 Liquid Releases Maximum Individual

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Doses from all Pathwayz for Child 13 1.1.2-12 April-June 1988 Liquid Releases Maximum Individual Doses from all Pathways for Child l

14 1.1.2-13 July-September 1988 Liquid Releases Maximum Individual Doses from all Pathway:, for Child 15 1.1.2-14 October-December 1988 Liquid Releases Kaximum Individual Doses from all Pathways for Child 1 16 1.1 d-15 January-December 1988 Liquid Releases Maximum Individual Doses frca all Pathways for Child 17 1.1.3-1 Population Distribution if 1.1.3-2 Radioactive Liquid Effluent Average Individual and Population Doses January-March 1988.

19 1.1.3-3 Radioactive Liquid Effluent Average Individual  ;

j and Population Doses April-June 1988

)

LIST OF TABLES (cont.)

Table .P_agg '

1 '.1.- 3-4 Radioactive Liquid Effluent Average Individual 20 and Population Doses July-September-.1988 1.1.3-5 Radioactive Liquid. Effluent Average Individual 21 and Population Doses October-December 1988 1.1 '. 3- 6 , . . Radioactive Liquid Effluent Average Individual 22 and Population Doses January-December 1988 1.2.2-1' January-March 1988 Gaseous Releases. Maximum Individual 24-Doses from all Pathways for Adult 1.2.2-2. April-June 1988 Gaseous Releases Maximum Individual 25

. Doses from all-Pathways for Adult!

1.2.2-5' July-September 1988 Gaseous Releases Maximum Individual 26 Doses from all Pathways for Adult 1.2.2-4 October-December 1988 Gaseous Releases Maximum Individual 27 Doses from all Pathways for Adult i

1. 2 '. 2-5 January-December 1988 Gaseous Releases Maximum Individual 28' Doses from all Pathways for Adult 1.2.2-6 January-March 1988 Gaseous Releases Maximum Individual 29 Doses from all Pathways for Teenager-1.2.2-7 April-June 1988 Gaseous Releases Maximum Individual Doses 30 from all Pathways for Teenager l -1.2.2-8 July-September 1988 Gaseous Releases Maximum Individual 31 Doses from all Pathways for Teenager 1.2.2-9 October-December 1988 Gaseous Releases Maximum Indvidual 32 Doses from all Pathways for Teenager 1.2.2-10 January-December 1988 Gaseous Releases Maximum Individual 33 Doses from all Pathways for Teenager l

1.2.2-11 January-March 1988 Gaseous Releases Maximum Individual 34

j. Doses from all Pathways for Child 1.2.2-12 April-June 1988 Gaseous Releases Maximum Individual Doses 35

! from all Pathways for Child L

1.2.2-13 July-September 1988 Gaseous Releases Maximum Individual 36 l- Doses from all. Pathways for Child I

1.2.2-14 October-December 1988 Gaseous Releases Maximum Individual 37 Doses from all Pathways for Child l

LIST OF TABLES (cont.)

Table EiLqe 1.2.2-15 January-December 1988 Gaseous Releases Maximum Individual 38 Doses from all Pathways for Child 1.2.2-16 January-March 1988 Gaseous Releases Maximum Individual 39 Doses from all Pathways for Infant i 1.2.2-17 April-June 1988 Gaseous Releases Maximum Individual Doses 40 from all Pathways for Infant 1.2.2-18 July-September 1988 Gaseous Releases Maximum Individual 41 Doses from all Pathways for Infant 1.2.2-19 October-December 1988 Gaseous Releases Maximum Individual 42 Doses from all Pathways for Infant 1.2.2-20 January-December 1988 Gaseous Releases Maximum Individual 43 Doses from all Pathways for Infant 1.2.2-21 January-March 1988 Gaseous Releases Maximum Individual 44 Locations and Pathways 1.2.2-22 April-June 1988 Gaseous Releases Maximum Individual 45 Locations and Pathways 1.2.2-23 July-September 1988 Gaseous Releases Maximum Individual 46 Locations and Pathways i

1.2.2-24 October-December 1988 Gaseous Releases Maximum Individual 47 Locations and Pathways 1.2.2-25 January-December 1988 Gaseous Releases Maximum Individual 48 Locations and Pathways 1.2.2-26 January-March 1988 Gaseous Releases Maximum Individual 49 Doses 1.2.2-27 April-June 1988 Gaseous Releases Maximum Individual Doses )

l 50 )

1.2.2-28 July-September 1988 Gaseous Releases Maximum Individual 51 .

Doses {

l 1.2.2-29 October-December 1988 Gaseous Releases Maximum Individual 52 Doses i

1.2.2-30 January-December 1988 Gaseous Releases Maximum Individual 53 Doses 1.2.3-1 Population Distribution 54 l

l r

LIST Of TABLES (cont.)

Table EARf 1.2.3-2 Radioactive Gaseous Effluent Average Individual and 55 Population Doses January-March 1988 1.2.3-3 Radioactive Gaseous Effluent Average Individual and 56 Population Doses April-June 1988 '

1.2.3-4 Radioactive Gaseous Effluent Average Individual anti 57.

Population Doses July-September 1988 1.2.3-5 Radioactive Gaseous Effluent Average. Individual and Population Doses October-December 1988 58 1.2.3-6: Radioactive Gaseous Effluent Average Individual and Population Doses January-December 1988 59 '

1.3-1 Environmental TLD Zone Designations 61 2.1-l' Semiannual Radioactive Effluent and Haste Disposal -64 Reports Supplement for 1988 Gaseous Effluents:

Summation of All Releases - Table 1A 2.2-1 Semiannual Radioactive Effluent and Haste Disposal 66 Reports Supplement for 1988 Gaseous Effluents: Summation of All Releases - Table.1A 2.3-1 Semiannual Radioactive Effluent and Haste 68 l Disposal Reports Supplement for 1988. Liquid Effluents: Summation of All Releases - Table 2A L

l l

f m.m.__m._._m_m_.__. .__

EXECUTIVE SUM 4ARY BOSTON EDISON COMPANY Pilarim Nuclear Power Station Annual Dose Assessment To The General Public From Radioactive Effluents Reoort January 1 Throuah December 31. 1988 INTRODUCTION This report quantifies the dose impact to the general public frol.1 the j cperation of Pilgrim Nuclear Power Station (PNPS) during the period January 1, to December 31, 1988. This document has been prepared in accordance with PNPS Technical Specifications section 6.9.C.I.a and the guidelines set forth in Regulatory Guide 1.21 "Heasuring, Evaluating, and Reporting Radioactivity in i Solid Hastes and Releases of Radioactive Materials in Liquid and Gaseous '

Effluents from Light Hater Cooled Nuclear Power Plants" (Revision 1).

This report contains information on the radiological impact on humans and the percentage of technical specifications limits / objectives associated with radioactive effluents.

The r. ' logical impact on humans is presented in three exposure categories:

1) liqL , releases; 2) gaseous releases; and 3) direct radiation from Pilgrim l Station. The maximum individual dose from liquid releases was calculated l using the following pathways: 1) ingestion of fish and shellfish; 2) external radiation from discharge canal and shoreline deposits; 3) immersion dose from swimming; and, 4) external radiation from boating. The maximum individual l dose from gaseous releases was calculated using the following pathways:

l 1) external radiation from soil deposition; 2) inhalation of airborne activity; 3) ingestion of vegetables; 4) ingestion of meat; and 5) ingestion l

of milk. In addition, the contribution to the maximum individual dose as a l

result of the direct radiation from PNPS was measured using environmental thermoluminescent dosimeters (TLDs).

The percentages of technical specifications limits / objectives contained in this report is supplemental information to the two semiannual Radioactive Effluent and Haste Disposal Reports for 1988. These percentages of technical l specifications limits / objectives are presented in three effluent categories:

1) noble gases; 2) iodine-131 and 133. particulate with half-lives greater than eight days, and tritium; and 3) liquid effluents.

RADIOLOGICAL IMPACT ON HUMANS The methods and parameters used to perform these dose calculations are presented in the PNPS Offsite Dose Calculation Manual (Revision 2), Regulatory Guide 1.109 (Revision 1), Regulatory Guide 1.111 (Revision 1), and the Pilgrim Station Unit 1 Appendix I Evaluation.

During the period January 1 to December 31, 1988, the maximum hypothetical total body dose to any individual due to liquid effluents was less than 0.003 mrem. The maximum hypothetical dose to any organ of an individual was less than 0.004 mrem. The average individual dose within 50 miles of Pilgrim Station was less than 0.000005 mrem. The total population dose within 50 miles of Pilgrim Station due to liquid effluents was less than 0.01 person-rer.

i

During the period January 1 to December 31, 1988, the dispersion of gaseous effluents was such that the maximum individual dose occurred at the shorefront near the Pilgrim Station trash compaction facility (0.1 mi,ENE). The maximum hypothetical total body dose to any individual due to releases of radioiodines and particulate from gaseous effluents was less than 0.1 mrem. The maximum hypothetical dose to any organ of an individual was less than 0.2 mrem. The average individual dose within 50 miles of Pilgrim Station was less than 0.000002 mrem. The total' population dose within 50 miles of Pilgrim Station due to gaseous effluents was less than 0.007 person-rem.

Direct radiation readings were also evaluated to complete the calculation of dose to the maximum hypothetical receptor. The average 1988 exposure for the environmental TLD measurements within 2 miles was 69 i 11 milliroentgen; whereas the " background" measurements from locations greater than 10 miles from Pilgrim Station yielded 66 8 milliroentgen. The data indicated that the direct radiation dose to the general public during this period was not significant.

l The total body dose due to both liquid and gaseous effluents during this period was approximately 0.1 mrem to the maximum hypothetical individual.

This is approximately 0.02 percent of the annual radiation dose from natural and manmade sources for the average American (420 mrem).

PERCENT TECHNICAL SPECIFICATIONS 1

i The maximum individual doses resulting from: 1) noble gases; 2) particulate, I

iodines, and tritium; and 3) liquid radioactive releases were compared to the applicable Technical Specifications limits or objectives. The percentage of the PNPS Technical Specifications limits for noble gases was zero because Pilgrim Station was not operating for essentially the entire reporting period (Critical for 20 minutes on December 30, 1988). The resulting doses from radioactive particulate, iodines, and tritium releases during the pericd were a very small percentage of the associated PNPS Technical Specific 0tions limits and objectives (see Table 2.2-1). The resulting doses from the radioactivity in liquid releases were well below the associated PNPS Technical Specifications limits and objectives (see Table 2.3-1). In addition, the quarterly average concentration of fission and activation products released to Cape Cod Bay was less than four thousandths of one percent of the maximum permissible concentrations.

CONCLUSION The PNPS Technical Specifications limiting conditions for operations and operational objectives associated with liquid and gaseous effluents were met during this reporting period. Conformance to these limits and objectives ensures that the releases of radioactive materials in gaseous and liquid effluents were keF as low as is reasonably achievable in accordance with the Nuclear Regulatory Commission's regulation 10CFR50, Appendix I. Furthermore, compliance with PNPS Technical Specifications demonstrates compliance with the Environmental Protection Agency's federal environmental regulation l

40CFR190.10, subpart B entitled Environmental Protection Standards for Nuclear Power Operations. Therefore, based on the dose assessment results for 1988, there is no evidence of any significant radiological impact on the general I '

public due to Pilgrim Station's operation.

ii

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L 1.0 RADIOLOGICAL IMPACT ON HUMANS e

7 1.1 '- 0FF-SITE DOSES'RESULTING FROM RADIOACTIVE'LIOUID EFFLUENTS.

L ,

, _l'1.1-

. . General Dose Assessment s

The methods and_ parameters used to calculate the off-site p doses from radioactive liquid effluents are presented in-R the PNPS Off-site N se Calculation Manual (Ref. 1), NRC Regulatory Guide l'.10v (Ref. 2), and the Pilgrim Station) 4 Unit _1 Appendix'I Evaluation (Ref. 3). Population data are.

R . based upon.the 1980 census data. The liquid relea:es to Cape Cod Bay, for each quarter of 1988, are presented in the'two 1988 semiannual Radioactive Effluent and Waste-Disposal Reports-(Ref. 4 and 5).

l '.1. 2 . Maximum Individual Doses

( The maximum individual doses from radioactive liquids.were '

l calculated usingLthe liquid effluent releases from Tables 2A andt 2B ;from.the two 1988 semiannual. Radioactive Ef fluent

:and Waste Disposal Reports. The Yankee Atomic Electric-1 f: Company "YODA" computer program was used to calculate total body, skin, and organ doses to each_ age group for each pathway'(Ref.:8). This computer program was used to

' compile the major pathway dose contributions to obtain the.

maximum' total. body, skin, and organ doses to.each age

_ group. The resultant. adult, teenager, and child doses from l liquid' releases are reported in Tables 1.1.2-1 through h 1.1.2-15 (Ref. 8).

1.1.3 Averace Individual and Poculation Doses The average individual and cumulative population doses from radioactive liquid effluents to. individuals within a'50 mile' radius are based on the population distribution shown

[

in Table 1.1.3-1. - These numbers are. based upon the 1980 census data for the permanent population. The average

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individual and cumulative population doses from radioactive liquid releases wer'e calculated using the Yankee Atomic Electric Company's "YODA" computer program and are presented by pathway in Tables 1.1.3-2 through 1.1.3-6 (Ref. 8).

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Table 1.1.3-2 Pilgrim Nuclear Power Station Radioactive Liquid Effluent Average Individual and Population Doses-Januarv - March 1988-THYROID TOTAL BODY Average Population Average Population Individual Dose Individual Dose Dose Dose Pathwav- (mrem) (eerson-rem) (mrem) (cerson-rem)

Salt Hater 1.06E-09 2.37E-06 3.13E-07 '7.02E-04 Fish Salt Water 3.75E-10 6.17E-07 5.07E-07 8.34E-04 Shellfish Swimming / Boating 1.15E-08 2.09E-07 1.15E-08 2.09E-07 Shoreline 5.10E-07 9.39E-04 5.10E-07 9.39E-04 1

Total 5.23E-07 9.42E-04 1.34E-06 2.4BE-03 l

t f

i l

l

! l r .

18 l

m

.r Table 1.1.3-3, Pilgrim Nuclear Power Station Radioactive Liquid Effluent Average Individual and Population Doses

'Apft ! - June 1988 THYROID TOTAL BODY '

Average .

Population Average Population

, Individual Dose.

Individual Dose l Dose Dose-Pathway (mrem) (oerson-rem) (mrem) (cerson-rem) l Salt Water 3.33E-10 7.46E-07 6.12E-07 1.37E-03 Fish' Salt Water- 1.18E-10 1.95E-07 2.55E-07 4.19E-04 l Shellfish Swimming /B';ating 5.42E-09 9.84E-08 5.42E-09 9.84E-08 l

Shoreline 2.5BE-07 4.74E-04 .2. 5 B E-07 4.74E-04 Total 2,64E-07 4.75E-04 1.12E-06 2.25E-03 r

f l

l t

l i'

L i

l 19

V L

Table 1.1.3-4 yl l Filgrim Nuclear Power Station Radioactive Liquid Effluent Average Individual and Population Doses July - Sectember 1988 THYROID TOTAL BODY Average. Population- Average Population i

Individual Dose Individual Dose Dose Dose Cathway (mrem) (oerson-rem) (mrem) (Derson-rem)

Salt Water 6.34E-10 1.42E-06 1.03E-06 2.30E-03 Fish Salt Water 2.24E-10 3.69E-07 5.37E-07 8.84E-04 -

Shellfish l

[ Swimming / Boating 8.19E-09 1.490 07 8.19E-09 1.49E-07 Shoreline 3.91E-07 7.18E-04 3.91E-07 7.18E-04 Total 44 00E-07 7.20E-04 1.97E-06 3,90E-03 1

l 1

l-1 20 l

I E______.______.___ . _ _ I

i f Y L H 1

L Table 1.1.3-5 j Pilgrim Nuclear Power Station ,

Radioactive Liquid Effluent i Average Individual and Population Doses October-December 1988 THYROID _IOTAL BODY Average Population Average .. Population Individual' Dose Individual Dose Dose Dose Pathway (mrem) (verson-rem) (mrem) (oerson-rem) f Salt Water 3.78E-10 8.4BE-07 7. 93 E-08.' ' 1.'78 E Fish' I Salt Hater 1.34E-10 2.20E-07 1.54E-07 2.53E-04

$hellfish Swimming / Boating 2.12E-09 3.85E-08 2.12E-09 3.85E-08 Shoreline 9.38E-08 1.73E-04 9.38E-08 1.73E-04 Total 9.66E-08 1.7EE-04' 3.29E-07 6.04E-04 l'

I 21 Mt ___m_.-_. _ - . _ - _ _ - _ - _ _ _ _ _ _ _ . _ - _ _

Table'l.1.3-6 Pilgrim Nuclear Power Station Radioactive Liquid Effluent Average Indir' dual and Population Doses Januarv - December 1988 THYROID TOTAL BODY Average Population. Average Population Individual Dose Individual Dose Oose- Dose Pathway (mrem) (oerson-rem) (mrem) (oerson-rem)

Salt Water 2.39E-09 5.36E-06 2.20E-06 4.93E-03 Fish -

Salt Water 8.46E 1.39E-06 1.49E-06 2.45E-03 Shellfish-Swimmi ng/ Boating ' 2.73E-08 4.95E-07 2.73E-08 4.95E-07 Shoreline 1.26E-06 2.31E-03 1.26E-06 2.31E-03 l

Total 1.29E-06 2.32E-03 4.98E-06 9.69E-03 l^

l l

1 L

l l

t 22

) 4, t

[

L I

i 1.2 0FF-SITE DOSES RESULTING FROM RADIOACTIVE GASE0JS EFFLUENTS 1.2.1 General Dose Assessment The methods and parameters used to calculate the off-site doses I

from radioactive gaseous effluents are presented in the PNPS Off-site Dose Calculation Manual (Ref.1), NRC Regu' tory Guide 1.109 (Ref. 2), NRC Regulatory Guide 1.111 (Ref. 7) ad the Pilgrim Station Unit One Appendix I Evaluation-(Ref. 3). The gateous releases for both the reactor building vent and the main stack, for each quarter of 1988, are presented in the two 1988 semiannual Radioactive Effluent and Haste Disposal Reports (Ref.

4 and 5).

I Meterological information for. calculating dispersion of these

! effluents are presented in the two 1988 semiannual Radioactive Effluent and Waste Disposal Reports. For each quarter, values of X/0, depleted X/0, and D/0 were calculated using the Yankee Atomic Electric Company "AEOLUS" program (Ref. 6). The results are tabulated in Appendix A (Ref. 8).

1.2.2 Maximum Individual Doses The maximum individual dose from radioactive gaseous effluent releases were calculated using the gaseous effluent releases from Tables 1A, IB, and 1C of the two 1988 semiannual Radioactive Effluent and Haste Disposal Reports. The Yankee Atomic Electric Company "YODA" computer program was used to compile the major oathway dose contributions to obtain the total body, skin, and ot w n doses to each age group at each receptor location. The resuitant adult, teenager, child, and infant doses from gaseous releases are reported in Tables 1.2.2-1 through 1.2.2-20 (Ref.-8). The maximum doses for the total body, skin, and organs were selected from the various age groups and the various receptor locations shown in Tables 1.2.2-21 through 1.2.2-25 (Ref. 8) to obtain the maximum individual doses ,

shown in Tables 1.2.2-26 through 1.2.2-30 (Ref. 2). '

1.2.3 Averace Individual and Poculation Doses The average individual and cumulative population doses from i radioactive particulate and gases to individuals within a 50 mile radius are based on the population distribution shown in Table 1.2.3-1. These numbers are based upon 1980 Census Data for the permanent population. These doses were calculated using the Yankee Atomic Electric Company "YODA" computer program.

The average individual and cumulativt population doses from radioactive gaseous releases by pathway are presented in Table 1.2.3-2 through 1.2.3-6 (Ref. 8).

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Table 1.2.3-2 Pilgrim Nuclear Power Station l Radioactive Gaseous Effluent Average Individual and Population Doses Januarv - March 1988 THYROID TOTkl BODY Average Population Average Population Individual Dose Individual Dose Dose Dose Pathway (mrem) (oerson-rem) (mrem) (eerson-ree)

Noble Gas Immersion * * * *

(gamma) l Ground Plane ,

Deposition 1.75E-06 7.29E-03 1.75E-06 7.29E-03 Inhalation 9.60E-09 3.99E-05 1.14E-08 4.74E-05 l

Vegetation 7.92E-10 3.29E-06 3.32E-09 1.3BE-05 l Cow Milk 4.48E-10 1.86E-06 3.73E-09 1.55E-05 1

Total 1.76E-06 7.33E-03 1.77E-06 7.37E-03

  • Plant not operating ist, 2nd and 3rd quarters, anc most of 4th quarter 1988.

l l

55

i Table.l.2.3-3

' Pilgrim Nuclear Power Station Radioactive Gasesous Effluent Average Individual and Population Doses Acril - June 1988 THYROID TOTAL BODY Average Population Average Population-Individual Dose Individual Dose Dose Dose Pathway. (mrem) (oerson-reml. (mrom) (oerson-rem)

Noble Gas Immersion (gamma) l l

l Ground Plane-

l. Deposition 5.63E-08 2.34E-04 5.63E-08 '2.34E-04 L

LInhalation 1.19E-08 4.94E-05 1.19E-08 4.95E-05 l

l Vegetation 1.37E-09 5.70E-06 1.45E-09 6.04E-05 L

l Cow Hilk 8.78E-10 3.65E-06 9.00E-10' 3.74E-06 I

Total 7.05E-08 _liS3E-04 1 7.05E-08 2.93E-04 l

  • Plant not operating 1st, 2nd and 3rd, quarters and most of 4th quarter 1988.

I l-I i

56 1

L

g ,

I Table 1.2.3-4 Pilgrim Nuclear Power Station Radioactive Gaseous Effluent Average Individual and Populatior. Doses July - Seotember 1988 l

THYROID TOTA!. BODY Average Population Average Population -l Individual Dose Individual Dose Dose Dose Pathway (mrem) (eerson-rem) (mrem) (oerson-rem)

I Noble Gas Immersion (gamma)

Ground Plane 0.00E+00 0.00E+00 0.00E+00 0.00E+00 Deposition Inhalation 1.29E-08 5.38E-05 1.29E-08 5.3BE-05 Vegetation 1.37E-09 5.71E-06 1.37E-09 5.71E-06 E Cow Milk 1.09E-09 4.52E-06 1.09E-09 4.52E-06 Total 1.55E-08 6.44E-05 -1.55E-08 6./JE-05 I ~

  • Plant not operating ist, 2nd and 3rd quarters, ar.d most of the 4th quarter I

I 57 I

Table 1.2.3-5

. Pilgrim Nuclear Power Station Radioactive Gaseous Effluent Average Individual and Population Doses October - December 1988 THYROID TOTA 1. BODY Average Population Average Population Individual Dose Individual Dose Dose Dose Pathway (mrem) (berson-tem) (mrem) (cerson-rem)

Noble Gas Immersion (gamma)

Ground Plane Deposition 1.40E-08 5.80E-05 1.40E-08 5.80E-05 Inhalation 3.44E-09 1.43E-05 3.56E-09 1.48E-05 Vegetation 2.31E-10 9.59E-07 4.45E-10 1.85E-06 Cow Hilk 1.35E-10 5.61E-07 6.09E-10 E.53E-06 I i

> Total _4 1,78E-08 7.40E-05 1.86E-09 7.74E-05 l-

  • Plant not operating 1st, 2nd and 3rd quarters, and most of 4th quarter 1988, l

L J 58 1 l

l l

Table 1.2.3-6 Pilgrim Nuclear Power Station Radioactive Gaseous Effluent Average Individual and Population Doses Januarv - December 1988-THYROID TOTA!. BODY-Average Population Average Population  !

Individual Dose Individual Dose Dose Dose Pathway (mrem) (eerson-rem) (mrem) (Derson-rem) l Noble Gas Immersion '

(gamma) l . Ground Plane 1. 50 E-06.- 6.25E-03 1.50E-06 6.25E-03

! Deposition Inhalation 3.83E-08. 1.59E-04 4.09E-08 1.70E Vegetation 3.87E-09 1.61E-05 7.17E 2.98E-05 Cow Hilk 2.62E-09 1.09E-05 7.68E-09' 3.19E-05 1

. .)

lL Total- 1.55E-06 6 . 4 4 E-03 ...., 1.56E-06 6.48E-03

  • Plant not operating for 1st, 2nd and 3rd quarters, and most of 4th quarter 19S8. i s

l 59 i

1.3 OFF-SITE DIRECT RADIATION MEASUREMENTS The major source of direct radiation (including sky shine) from Pilgrim Station is due to the nitrogen-16 gamma rays emitted from the turbine hall. Since Pilgrim Station was not operating for essentially the entire period, there was no significant direct radiation emitted from the turbine hall during 1988. Other sources of direct radiation include radiation emitted from contained radioactive sources or waste within or outside the facility. Typically these other sources are not significant enough to be measurable above natural background radiation levels. I The average exposures recorded by thermoluminescent dosimeters in the vicinity of Pilgrim Station for 1988 are shown in the table below. These data indicate that there was no significant direct radiation exposure to i the public as a result of Pilgrim Station during this reporting period.

l Average Exposure S.D.

(mR/ Period)*

Period Environmental TLD Zones **

Zone 1 Zone 2 Zone 3 Zone 4

< 2 mi 2 mi - 5 mi 5 mi - 10 mi > 10 mi ist Quarter 1988 16.7 2.8 15.6 3.0 15.8 1 2.6 16.0 1 0.7 I 2nd Quarter 1988 17.3 1 2.8 16.0 3.1 17.0 1 1.8 17.4 0.9 3rd Quarter 1986 17.1 2.5 15.8 2 3.0 15.4 11.5 16.6 2.3

} 4th Quarter 1988 17.3 1 2.6 16.3 2.8 15.0 1 1.4 16.4 2.2 1988 Annual Exposure 68.6 1 10.7 63.7 11.7 62.2 6.8 66.2 7.5

  • The quarterly period is 2190 heurs and the annual period is 8760 hours0.101 days <br />2.433 hours <br />0.0145 weeks <br />0.00333 months <br />.

The locations of the TLDs for the vario'Js zenes are listed in Table 1.3-1.

60

____ i

Table 1.3-1 Environmental TLD Zone Designations Zone and TLD Station Designations Description Zone 1 - Protected Area Boundarv to 2 miles:

A Station A AR Edison Access Road B Station B BB Rt. 3A & Bartlett BD Bayshore Drive BS Bayshore

l. C Station C CR Cleft Rock CT Contractor Parking Lot D Station D I DR Dirt Road E Station E l

EB East Breakwater EM Emerson Road EP Emerson & Priscilla ER East Rocky Hill Road L F Station F G Station G GH Greenwood House l GN Goodwin Property i H Station H HB Hall's Bog

, I Station I L J Station J I

JG John Gauley K Station K j L Station L i l HR Manomet Road l i

HT Hicrowave Tower OA Overlook Area Pol Shorefront Security House PA Parking Area PB Pedestrian Bridge l

PL Property Line PMT Plymouth Het. Tower RC Plymouth Rec. Center l RW Right of Hay l TC Training Center TP Taylor & Pearl TT Taylor & Thomas VR Valley Road H Harren & Clifford WH Hhitehorse Road HR Hest Rocky Hill Road YV Yankee Village 61

Table 1.3-1 (continued)

Environmental TLD Zone Designations Zone and TLD Station Designations Description Zone 2 - 2 miles to 5 miles:

'BR Beaverdam Road BW Beachwood Road I

CP- College, Pond-DW Deep Water EA- Earl Road HD Hilidale Road i HR Hyannis Road LD Long Pond & Drew LP Long Pond Road HB Hanomet Beach ME Manomet Elementary HH Hemorial Hall

HP Manomet Point i HS Manomet Substation PC Plymouth Center PT Pines Estates RH Russel Hill Road RP Rt. 3 Overpass SP South Plymouth Substation I Zone 3 - 5 miles to 10 miles

BE Bourne Elementary EL Ellisville Road KC King Ceasar Road NP North Plymouth

, SA Sherman Airport SH Sacred Heart School SS Standish Shores UC Upper College Pond l

Zone 4 - Gre,ater than 10 miles (E4ckaround)*

CS Ctdarville Substation ,

CH Church & West l DMF Div. Marine Fisheries EW East Weymouth KS Kingston Substation LR Landing Road HM Main & Headow 62

2.0 PERCENT TECHNICAL SPECIFICATIONS LIMITS /0BJECTIVES The PNPS Technical Specifications contain dose and concentration limits for radioactive effluents. In addition, operational objectives are also specified which, if met, ensure that radioactive releases are maintained as low as is reasonably achievable. The percentages of the PNPS Techncial Specifications were determined from the doses calculated in Section 1, the liquid concentrations listed in the 1988 semiannual Effluent Release and Haste Disposal Reports, and the technical specifications limits / objectives listed in Tables 2.1-1 through 2.3-1 The percent of applicable limits determined below are being provided as a supplement to the information provided in the two semiannual Radioactive Effluent and Haste Disposal Reports. The format for the percent applicable limits is modified from that prescribed in Regulatory Guide 1.21 (Ref.11) to accomodate the Radioactive Effluents Technical Specifications (RETS) whicn became effective March 1, 1986. The percentages have been organized into three categories: 1) noble gases; 2) particulate, iodines, and tritium; and

3) liquid effluents.

2.1 NOBLE GASES As stated previously Pilgrim Station was not operating for essentially all of l 1988 (Critical for 20 minutes on December 30, 1988). Accordingly, no noble j gases have been released during this period and the corresponding percentages of Technical Specifications limits and objectives were zero.

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2.2 PARTICULATE. IODINES.'AND TRITIUM Organ dose limits and objectives for the maximum individual from radioactive iodines, particulate, and tritium from PNPS Technical Specifications are shown in Table 2.2-1. The maximum quarterly and annual organ doses from Tables 1.2.2-26 through 1.2.2-30 were_ used to calculate the percentages shown in Table 2.2-1 (Ref. 9). The resulting organ doses from Pilgrim Station's gaseous releases during 1988 were a very small percentage of the corresponding limits and objectives.

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2.3 LIOUfD EFFLUENTS Liquid effluents concentration limits and dose objectives from PHPS Technical Specifications are shown in Table 2.3-1. "he quarterly average concentrations from the 1988 semiannual Radioactive Effluent and Haste Disposal reports were used to calculate the percent concentration limits. The maximum quarterly and annual whole body and organ doses from Tables 1.1.2-1 through 1.1.2-15 were used to calculate the corresponding percentages shown in Table 2.3-1 (Ref.

9). The resulting concentrations and doses from Pilgrim Station's liquid releases during 1988 were a very small percentage of the corresponding limits and objectives.

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3.0 REFERENCES

1. Boston Edison Company, " Pilgrim Nuclear Power Station Off-site Dose Calculation Manual," Revision 2, September 1988.

l 2. U.S. Nuclear Regulatory Commission, Regulatory Guide 1.109, " Calculation of Annual Doses to Man from Routine Releases of Reactor Effluents for the Purpose of Evaluating Compliance with 10CFR50, Appendix I," Revision 1, October 1977.

3. Boston Edison Company, " Pilgrim Station Unit 1 Appendix I Evaluation,"

April 1977.

l

4. Boston Edison Company, Pilgrim Nuclear Power Station, " Radioactive Effluent and Waste Disposal Report including Meteorological Data for l January 1 through June 30, 1988," September 1, 1988.

1

5. Boston Edison Company, Pilgrim Nuclear Power Station, " Radioactive Effluent and Waste Disposal Report including Meteorological Data for July f 1 through December 31, 1988," Harch 1, 1989.
6. J.N. Hamawi "AEOLUS," Yankee Atomic Electric Company, YAEC - 1120,
January 1977.

t

7. U.S. Nuclear Regulatory Commission, Regulatory Guide 1.111. "Hethods for Estimating Atmospheric Transport and Dispersion of Gasecas Effluents in Routine Releases from Light-Water-Cooled Reactors," July 1977.

, 8. YAEC Calculation No. BEC-010, entitled " Dose Assessment for January l.

through December 1988 Effluent Reports," Harch 27, 1989.

9. BECO Calculation No. PNPS-1-RTSD-II.A-1-0, Rev. O, entitled " Percent of l Technical Specifications Limits / Objectives for 1988 Dose Assessment Report," Harch 28, 1989.
10. C.J. Gannon memorandum to J.P. Jens, entitled " Unidentified Activity Based upon Gross Analysis of Liquid Samples," February 28, 1989.
11. U.S. Nuclear Regulatory Commission, Regulatory Guide 1.21, "Heasuring, Evaluating, and Reporting Radioactivity in Solid Hastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from j Light-Water-Cooled Nuclear Power Plants," June 1974. j 1 \
12. Boston Edison Company, Pilgrim Nuclear Power Station, " Radiological j

Environmental Monitoring Program Report No. 20," May 1988. j 1

l 69

l APPENDIX A l

l CONCENTRATION PER UNIT EHISSION FACTORS APPENDIX g A-1 Undepleted Relative Concentrations Per Unit Emission for A-1 Reactor Building Vent for January - March 1988 A-2 Depleted Relative Concentrations Per Unit Emission for A-2 Reactor Building Vent for January - March 1988 A-3 Relative Deposition Concentrations Per Unit Emission for A-3 Reactor Building Vent for January - March 1988 A-4 Updepleted Relative Concentrations Per Unit Emission for A-4 Main Stack for January - March 1988 l

l A-5 Depleted Relative Concentrations Per Unit Emission for A-5 Main Stack for January - March 1988

! A-6 Relative Deposition Concentrations Per Unit Emission for A-6 Main Stack for January - March 1988 A-7 Undepleted Relative Concentrations Per Unit Emission for A-7 Reactor Building Vent for April - June 1988 A-8 Depleted Relative Concentrations Per Unit Emission for A-8 Reactor Building Vent for April - June 1988 l

A-9 Relative Deposition Concentrations Per Unit Emission for A-9 i Reactor Building Vent for April - June 1988 A-10 Undepleted Relative Concentrations Per Unit Emission for A-10 Main Stack for April - June 1988 A-11 Depleted Relative Concentrations Per Unit Emission for A-11 Main Stack for April - June 1988 A-12 Relative Deposition Concentrations Per Unit Emission for A-12 <

Hain Stack for April - June 1988 A-13 Undepleted Relative Concentrations Per Unit Emission for A-13 ]

Reactor Building Vent for July - September 1988 A-14 Depleted Relative Concentrations Per Unit Emission for A-14 Reactor Building Vent for July - September 1988 A-15 Relative Deposition Concentrations Per Unit Emission for A-15 4 Reactor Building Vent for July - September 1988 A-16 Undepleted Relative Concentrations Per Unit Emission for A-16 Main Stack for July - September 1988 A-17 Depleted Relative Concentrations Per Unit Emission for A-17 )

Main Stack for July - September 1988

APPENDIX A CONC'NTRATION PER UNIT EMISSION FACTORS APPENDIX Pffd A-18 Relative Deposition Concentrations Per Unit Emission for A-18 Main Stack for July - September 1988 A-19 Undepleted Relative Concentrations Per Unit Emission for A-19 Reactor Building Vent for October - December 1988 A-20 Depleted Relative Concentrations Per Unit Emission for A-20 Reactor Building Vent for October - December 1988 A-21 Relative Deposition Concentrations Per Unit Emission for ~ A-21 Reactor Building Vent for October - December 1988 A-22 Undepleted Relative Concentrations Per Unit Emission for A-22 Main Stack for October - December 1988-A-ia Depleted Relative Concentrations Per Unit Emission for A-23 Main Stack for October - December 1988 A-24 Relative Deposition Concentrations Per Unit Emission for A-24 Main Stack for October - December 1988 i

l l

l l

APPENDIX A-1 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR January - March 1988 805T0h EDl50h 151 SJAttti 1984 CivitAL 5/0's JAuf f 1,1993 to MARCN 31, 1968 SEC708 AvttAC8 noctL Ct3JC RELE ASE: C#3*D Ltvtt Avtt ACE Cul/0 SE70t! OtPLtiloh *

($tC/M3) 00W ilk 0 C. C15fAh:1 Ft> ttLE A5! PClbf (m!LES) 5ttios oss .12 .25 .50 .75 1.00 1.50 2.00 2.50 h 35 2.310E 05 6.778t 06 2.085t 06 1.1171 06 7.237t C7 4.130E 07 2.782f 07 2.050E C7 hht 52 1.605f 05 5.26.! 06 1.7C0f 06 9.4678 07 6.263t C7 3.502f C7 2.310t 07 .680E 07 et 170 3.7771 05 1.100E C5 3.66t! 06 2.C37t 06 1.3411 06 7.41tt 07 4.860f C7 3.5231 C7 Ek! 3*t 6.268f C5 1.t27E 05 6.111t 06 3.344t 06 2.1811 06 1.20st 06 7.920E 07 5.750E C7 t 220 9.0601 05 2.6351 05 2.2571 06 4.422! 06 2.9341 06 1.662f 06 1.1121 06 t.159t 07 ES! 272 8.3421 05 2.419t 05 7.9416 06 4.332f 06 2.830f 06 1.579E 06 1.046t 06 7.631t 07 51 300 4.5t?t 05 1.326t 05 4.956! 06 2.652E Oc 1.7491 06 9.585t C7 6.2671 07 4.145t C7

$$t 142 2.0. t 05 5.t.8 ! 06 2.056! 06 1.C'91 06 6.6281 C7 3.5921 C7 2.345t C7 1.643t C7 5 21 1.E.!1! 05 5.45et 06 1.48;t 06 7.297t C7 5.066! C7 2.8231 C7 1.8431 C7 1.360t C7 554 42 1.042t 05 3.1441 06 9.4611 C7 5.191t C7 3.4061 07 1.6851 07 1.2416 07 9.C23E CS

5. 67 1.337t 05 3.t96!-06 1.162! C6 6.450t C7 4.196t 07 2.303t C7 1.513t C7 1.0951 07 WS. 75 1.2611 05 3.635! 06 1.142t 06 6.256t C7 4.Ct9E C7 2.228! C7 1.4526 C7 1.049t C7 b 3: 5.4971 C6 1.e191 06 5.it!! C7 3.125L C7 2.C36t 07 1.095t 07 7.0796 02 4.615t 08 W. 36 2.110! 06 2.414t 06 2.0.St C7 4.412E 07 2.0.86t C7 1.573t 07 1.C24t 07 6.1201 08
6. 7C 1.453t C5 4.302f 06 1.415t 06 7.8 7t C7 5.170E 07 2.8-tf C7 1.862E C7 1.345t C7 hh. 33 9.2291 06 2.732t 06 9.C70t C7 4.993t C7 3.2681 07 1.79 t C7 1.1721 C7 8.46 t CE Avt A4:! 1979 2.969E C5 8.6385 06 2.8241 06 1.5371 06 1.004t 06 5.5771 C7 3.6831 07 2.656t C7 00dk.th C. C15tah E 78> t!LE A5! P0thi (u!Lts) 5t0 TOR 045 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 k 35 1.598! C7 1.296t C7 1.082t C7 9.24t! 02 2.0431 02 4.7501 08 3.292t 08 1.9771 02 hh! 52 1.30 t 07 1.0531 C7 8.760! 08 7.4461 '.! 6.4471 05 3.7661 01 2.591E 02 1.5351 05 65 170 2.728! 07 2.1991 C7 1.826t 07 1.54tt 7 1.337t C7 7.7 6t CE 5.3C3t et 3.124t C!

th! 348 4.452t C7 3.5 tai C7 2.978! C7 2.524t Cf 2.180E t' 1.2611 07 8.636E C2 5.0991 C!

! 22: 6.356! C7 5.1511 C7 4.299t C7 3.6471 C7 3.18-t C? 1.873t C' 1.296! C7 7.767f 08 Ett 272 5.926! C7 4.758! C7 3.953! 07 3.3!5t 07 2.929t C7 1.7051 C7 1.172t C7 6.9631 C!

5! 300 3.210! C7 2.5t7f C7 2.147E C7 1.212! C7 1.725E 07 9.9421 Ct 6.7961 05 4.C11t ce 551 142 1.109t C7 1.053t C7 8.725t 0! 7.373E 0! 6.3451 02 3.6321 0E 2.470! 02 1.4.7E 0!

$ ti 1.C'3! C 7 6.6'71 C! 7.227t tt 6.1491 0! 5.3251 CE 3.1011 02 2.1331 C8 1.272E C!

554 42 7.00!! C! 5.662! C! 4.7111 C! 4.000! C! 3.458! CE 2.009t 0! 1.379f C! 2.171f M ls 6? 2.501E C8 i.t52! Ct 5.690! ?! 4.22 1 C! 4.1651 C! 2.408f CE 1.6-6! CB 9.6971 05 W5s 75 1.110E 05 6.526! C2 5.40SI CE 4.574t 05 4.333f ce 2.2616 C! 1.540f ce 9.C24E 09 W 3C 3 144t C! 2.8371 02 2.341t C! 1.973t C! 1.69-t 0! 9.625f 05 6.4961 05 3.749t 05 W. 36 6.255f 01 5.C23f CE 4.16C! CE 3.5201 05 2.7591 05 1.5911 Ci 1.06 f C8 6.3278 09 hs 70 i.C39! 07 2.355E C8 6.925E 02 5.8711 08 5.0695 C! 2.937t 08 2.00tf Ci 1.1781 C2 66 33 6.5321 C! 5.2511 C! 4.3511 0! 3.68-E CE 3.1791 C! 1.2361 CE 1.255! CE 7.3751 09 Av!R401 1979 2.062t C7 1.665t C7 1.364t C7 1.176t C7 1.C271 07 5.9591 08 4.092f ce 2.426! 05 00W ilh0 h0. C151 ACE Ft> tittalt Pelhi (p!LES) 5t C10A 085 2C.00 25.00 30.0; 35.00 40.00 45.00 50.00 6 35 1.378! 02 1.047f 98 2.4341 09 7.C16E 09 5.976E 09 5.186t 09 4.5641 09 Wh! 52 1.0611 02 2.010f 09 6.4131 09 5.305E-09 4.496t 09 3.825t 09 3.4051 09 h5 17C 2.1531 02 1.6211 05 1.295t C8 1.C701 C8 9.0641 09 7.234t 09 6.5671 09 l th! 348 3.520f CE 2.656t CE 2.125t CE 1.7591 02 1.492f 02 1.292f Ci 1.134t CE I 220 5.404t CE 4.1 Cit C1 3.298! C! 2.7405 C4 2.331f CE 2.0211 05 1.777f C2 ts! 272 4.122t C! 3.646! 05 2.9231 C5 2.4231 01 2.0521 C6 1.7231 02 1.5671 02 51 30: 2.7721 0! 2.0931 C! 1.6751 CE 1.323! 08 1.178! 05 1.C221 Ce 2.9901 09

$$t 142 9.9611 09 7.5011 09 5.9891 09 4.9521 09 4.199E 05 3.6 2t 09 3.2C21 09 5 21 2.8 61 05 6.7131 09 5.395! 09 4.4895 09 3.825t 05 3.3271 09 2.934t 09 55s 42 5.6561 09 4.2751 09 3.4251 09 2.238! 09 2.410E 09 2.0291 09 1.2361 09 l Si 67 6.6951 09 5 C521 09 4.042E 09 3.3461 09 2.B-Of 09 2.4621 09 2.1641 09 W54 75 6.214t 04 4.680! 05 3.7371 05 3.029E 09 2.619t 09 2.2691 09 1.994t 09 W 30 2.561E 09 1.9171 09 1.52.! 0G

  • 255E 04

. 1.060! 09 9.1691 10 2.0401 10 I W. 36 4.34t! 09 3.269t 0; 2.60&! 09 2.1531 09 1.8226 09 1.57*t 05 1.380! C5 i to 70 E.106! 09 6.0991 09 4.669! 04 4.C20! 09 3.4 Cit 0C 2.9361 05 2.5721 04 l N 33 5.080! 05 3.825t 09 3.0561 0G 2.5251 C5 2.1351 04 1.6-t! 05 1.620E 05 AYt t A:t 1979 1.6791 02 1.2691 01 1.C171 C! t.424t 09 7.152E 09 6.1971 09 5.4451 05

)

A-1

APPENDIX A-2 DEPLETED RELATIVE CONCENTRATION PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR January - March 1988 9051Du E0lSou til aJAtitt 1968 StutLAL R/0 8 JamJAtt 1,198810 MARCH 31,1988 SECTOR AVtAAct 8 E EL satuwe alttAst sapo Cf Yg6 6vtRAGE Cal /0 Af fit DEPLE110s tat 00Lat0RT AulDI 1.111 DIPLtiloh MODEL) *

(SIC /M3)

DChmYlWO k0. Oll1AW:t it > RELtAtt P01NT (M1Lil)

SEC10R 085 .12 .25 .50 .D 1.00 1.50 2.00 2.50 W 35 2.2281 05 6.4381 06 1.9068 06 9.750E 07 6.344E C7 3.521E C7 2.305E 07 1.6601 07 2x! 12 1.7 3E 05 5.C19f 06 1.554E 06 8.4371 07 5.491E C7 2.9861 C7 1.914f C7 1.360t 07 CE 170 3.643t 05 1.0451 05 3.3521 06 1.815t 06 1.176t 06 6.3162 07 4.026t C7 2.8521 C7  !

Ett 348 6.0e51 C5 1.7361 05 5.525E 06 2.9801 06 1.912E 06 1.C271 06 6.560E C7 4.6551 07 E 220 8.7371 05 2.503! 05 7.547E 06 4.000E 06 2.572E 06 1.417E 06 9.206t 07 6.605t C7 t1E 278 8.0451 05 2.2971 05 7.25BI De 3.866t 06 2.4211 06 1.346t 06 8.664t 07 6.118E C7 SE 300 4.4231 05 1.259t 05 4.530t 06 2.399f 06 1.5331 06 8.172E C7 5.205t 07 3.3551 07

$$t 142 1.9711 05 5.529E 04 1.879t 06 9.021E C7 5.811E C7 3.0671 C7 1.9421 07 1 371t C7 5 E1 1.8161 C5 5.181E 06 1.361E Oc 7.C371 C7 4.442f 07 2.407E C7 1.5601 C7 1.1171 C7 554 42 1.C!SE 05 2.96ct De t.6 7E C7 4.6251 07 2.986t c' 1.6071 C7 1.C22! C7 7.304t 02 SJ 67 1.2901 05 3.7 Cit 06 1.056! Oc 5.7.t! C7 3.679E 1.963t C7 1.2531 C7 2.68t! 0!

v5W 73 1.216t 05 3.456E 06 1.b 3E 06 5.5DI C7 3.5tSE- .9991 C7 1.2C3E C7 8.492f.02 W 3: 5.3011 06 1.5371 04 4.7 1E C7 2.725t C7 1.7t hE n 9.3391 04 5.864t 08 3.D61 02 WW 36 7.t21t 06 2.293E oc 7.356E C7 3.9311 C7 2.530t C7 1.341E 07 E.4831 08 6.574t CE hw 70 1.401f 05 4.087f Do 1.2931 Ot 6.9931 C7 4.532t C7 2.4281 C7 1.5421 C7 1.089f C7 thw 33 8.900t ce 2.595E 06 2.290! C7 4.449f C7 2.665t 07 1.5291 07 9.705t C! 6.252E 02 AYt R A:t 1979 2.6631 05 2.205t 06 2.5218 06 1.3fot 06 2.7991 C7 4.754t C7 1.051t C7 2.152t C7 ,

> L-O M W!h: WO. 0!$1Ah:1 ft > RELlast Polhi (m!LE5) st C10s oss 3.00 3.5C 4.00 4.5C 5.00 7.50 10.00 15.00 h 35 1.270E C7 1.014f C7 2.343t 02 7.040! 0! 6.0471 08 3.356t 02 2.215t C! 1.235f C!

kht $2 1.C371 C7 8.238t 02 6.7538 08 5.668t 08 4.6471 08 2.061E 08 1.7431 08 9.5911 09 WI 17C 2.1691 C7 1.721! C7 1.408E 07 1.1761 C7 1.005E 07 5.4DE Ot 3.568! 06 1.9511 0! l Ett l'E 3.540E C7 2.807E C7 2.296t 07 1.9221 C7 1.639E 07 2.912E Ct 5.810E Og 3.125E C!

I E 220 5.054t C7 4.0301 07 3.314E 07 2.7911 07 2.39 t 07 1.32 1 07 8.7211 02 4.2521 01 l Est 272 4.712f C7 3.746t+C7 3.C71E C7 2.576E C7 2.2C2E C7 1.2051 C7 7.8351 08 4.35 1 C1 st 300 2.5521 C7 2.02et C7 1.6555 C7 1.36et C7 1.297t 07 7.C24f 08 4.5721 05 2.505t 02 sst 142 1,0411 C7 8.239f 08 6.725E DE 5.6121 08 4.771E 08 2.566E 02 1.662E CE 9.C3tt 09 5 et 2.5301 Ct 6.76te t! 5.5711 01 4.6811 08 4.003E C8 2.1911 02 1.435t ce 7.9471 09 ssw 42 5.5 728 04 4.430f C8 3.631t Os 3.045E 02 2.600t 02 1.4201 02 9.2792 09 5.ibt 09 sg 67 6.7591 C8 5.561t Ct 4.386t 02 3.6725 0! 3.1311 08 1.701E 05 1.105f 08 6.057E 09 WIW 75 6.4481 08 5.1CSE CE 4.1695 04 3.4E21 08 3.25tt C! 1.5C71 08 1.C36t 08 5.637f 09 W 30 2.818E 02 2.2198 08 1.805t 02 1.502t 02 1.2731 08 6.801t

  • 09 4.3705 09 2.342t 09 WJ 36 4.97.t C5 3.930f OS 3.2071 08 2.680E 02 2.0741 08 1.124t 02 7.291E 09 3.9521 09 h4 7C t.259f C! 6.536! 02 5.341t 08 4.4691 C! 3.811! C! 2.C'5! C! 1.351E C! 7.35EE 09 hws 33 5.19eE C8 4.1081 02 3.354t 02 2.804E CE 2.3901 C0 1.2978 C1 2.4431 09 4.6071 09 AYt R A;f 1979 1.6391 07 1.3028 C7 1.0671 C7 8.946t 02 7.7241 05 4.2101 02 2.753f 05 1.5151 05 0:hmVik: WD. 0151AW:t FR> RELE Att P0lki (Mittl)

SECT 0a 085 20.00 25.00 30.00 35.00 40.00 45.00 50.00 a 35 B.C201 09 5.750E 09 4.4081 09 3.5111 09 2.8771 09 2.413f 09 2.0571 09 th! 52 6.1?BE 09 4.3991 09 3.3511 09 2.6551 09 2.1641 09 1.808t 09 1.535E 09 ht 170 1.253E 08 t.903E 09 6.7701 09 5.356E 09 4.163t 09 3.645E 09 3.0951 09 thE 342 2.049E C8 1.458! C! 1.1118 08 8.800! 09 7.1811 09 6.011t 09 5.113E 09 E 22C 3.146t 02 2.252f 02 1.7241 08 1.371t 08 1.122f Ot 9 .4041 09 8.0111 09 f$t 2.807E C8 2.002! C8 1.52B1 02 1.212E 02 9.9051 09 2.296t 09 7.062t 09 1

278 1 11 300 1.6131 C! 1.149i 05 8.755t 09 6.943! 09 5.672E 09 4.756t 09 4.0521 09 sst 142 5.7951 09 4.119E 09 3.130f 09 2.478E 09 2.C22E 09 1.6951 09 1.443f 09 ]

$ 81 5.149E 09 3.6871 09 2.82it 00 2.246t 09 1.841E 09 1.54t! 09 1.322! 09 1 SSW 42 3.292E 09 2.34BE 09 1.7901 09 1.420E 09 1.160t 09 9.719E ic t.275E 1C j Sw 67 3.8971 09 2.77.! 09 2.112E 09 1.674t 09 1.367E 09 1.145t 09 9.753! 10 i W5e 75 3.617E 09 2.570E 0C 1.953f 0c 1.5461 09 1.2618 09 1.056! 09 2.987f 1C {

1.4911 09 1.053! 04 7.9631 1C 6.27t! 10 5.1041 1C 4.266! 1C 3.6241 10 1

W 30 We 36 2.531E 09 1.795E 09 1.3631 09 1.C'71 09 E.7701 1C 7.326! it 6.221E 1: ]

6. 70 4.7191 09 3.3491 09 2.544! 09 2.C111 09 1.6371 09 1.366! 09 1.1591 09 q ths 33 2.9571 09 2.1001 09 1.5971 09 1.263i 09 1.C291 09 8.59Bi it 7.3 2E 1C  ;

AVERA;t 1979 9.771E 09 6.966f 09 5.313! 09 4.2151 09 3.443E 09 2.St.3E 09 2.4541 09 j A-2 l

j

APPENDIX A-3 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR January - March 1988 80510k E0!$0h ist auAnitt 1982 GluttAi r/o s . Jaaraatt 1,1982 to mAaC# 31,1988 SEC10e AvitACE scDEL et0 Lac RELEAst: AvttACE DEpos1110h RAtts lef autA1081 autDt 1,111 asett) . (1pt2) l O M YIND M. c!s1Ak:t f a0w attiast point tulLCS)

SECTOR C85 .12 .25 .50 .75 1.00 1.50 2.00 2.50 3 35 2.9911 08 1.006E 02 3.3971 09 1.7931 09 1.109t 09 5.3 H t 10 3.'2721 10 2.230t 10 I th! 52 4.4451 08 1.4951 08 5. BEE 09 ' 2.663E 09 1.E81 09 7.969t 10 4.862E 10 3.313E 10 l tt 170 1.453E 07 4.886t 08 1.6501 08 8.7081 09 5.388E 09 2.60$E 09 1.589E 09 1.083E 09 l Ext 348 2.9741 C7 1.000f 07 3.3781 08 1.782E 08 1.1C3E 08 5.3331 09 3.254E 09 2.2171 09 l t 22C 1.880E C7 6.!23t 08 2.135E 08 1.1271 08 6.972E 09 3.372E 09 2.0571 09 1.4025 09 tst 278 2.376E C7 7.9915 08 2.696t 08 1.4248 08 8.810E 09 4.2601 09 2.599f 09 1.7711 09 SE 300 2.5MI C7 8.623E OS 3.203f 08 1.6901 02 1.4 6t 08 5.0571 09 3.0858 09 1.911E 09 551 142 1.335E C7 4.490E CE 1.516E 08 7.273E 09 4.500E 09 2.176t 09 1.326E 09 9.047t 1C

$ 81 8.30!! 08 2.79.E C! 7.662E 09 4.1491 09 2.5671 09 1.241E 09 7.573E 1C 5.1611 10 ssd 42 3.9 9E C2 1.321!.02 4.C771 09 2.1511 09 1.3311 09 6.437t 10 3.9271 10 2.676E 1 l

$w 67 6.299t 0! 2.118! CE 6.50.E 09 3.4321 09 2.123E 09 1.0271 09 6.2ME 10 4.2691 1C i Wsd 75 7.051E+C! 2.371E Ce 7.26:1 09 3.8421 09 2.3771 09 1.149E 09 7.012E 1C 4.7791 1C W 3 2.821E C2 9.4D! 09 2.912E 09 1.690E 09 1.E 6f 09 5.057t 10 3.025E 10 1.911E iC was 36 3.C'71 Ce 1.t:51 C1 3.49.t 09 1.b61 09 1.1411 09 5.517E 10 3.3661 10 2.5231 1C hw 70 5.9231 05 2.C121 01 4.795f 09 3.525E 09 2.2181 09 1.0731 09 6.545E 10 4.460E it aus 33 2.821E 02 9.4251 09 3.203E 09 1.690E 09 1.0 61 09 5.05H 10 3.085t 10 2.1C31 1C Avita t 1979 1.025E C7 3.64tt CE 1.2271 05 6.441E 09 3.985E 09 1.9271 09 1.176t 09 7.895E 1C j DMil C h0. C151 Ah!! Ft> RELI A51 PC!ht (plLt$)

$! Clos oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.0C i

k 35 1.632E 10 1.24t! ic 9.6e91 11 7.931f 11 6.5431 11 3.281E 11 2,017t 11 9.954E 12 ak! 52 2.4241 10 1.t5 1 1C 1.4661 10 1.178! 10 9.7221 11 4.874E 11 2.9971 11 1.479E 11 RE 170 7.926E 1C 6.0621 10 4.7931 1C 3.2521 10 3.1781 1C 1.59.t 10 9.799t 11 4.835E 11 th! 348 1.622t 09 1.2411 09 9.8121 10 7.625E 10 6.506E 10 3.2621 10 2.006E 10 9.8971 11 g 220 1.C261 09 7.645E iC 6.2031 10 4.925E it 4.113E 10 2.0625 10 1.2681 10 6.2571 11 15E 278 1.296! 09 9.913! 1C 7.839b 1C 6.299f 10 5.1971 10 2.606E 10 1.6021 1C 7.9061 11 51 300 1.399E 09 1.C70! CS 2.459! 1C 6.796! 1C 6.169E 10 3.0938 10 1.902f 1C 9.3!!! 11 51E 142 6.6201 10 5.0ME it- 4.0041 10 3.218E iC 2.655E 10 1.331E-10 E itSE 11 4.C38t 11 S 21 3.7761 1C 2.883! 10 2.2bt 1C 1.235!.1C 1.514t 1C 7.593E 11 4.669f 11 2.304t 11 l $$W 42 1.958t 1C 1.4921 1C 1.ibt 1C 9.517t 11 7.852E 11 3.937E 11 2.4211 11 1.194E 11 1

SW 67 3.1241 10 2.3291 it 1.8291 10 1.5121 1C 1.253t 10 6.2801 11 3.362E 11 1.905t 11 vsw 75 3.497t 10 2.67.! 1C 2.115f 1C 1.6991 10 1.542E 1C 7.C30! 11 4.323E 11 2.1331 11 W 3: 1.399i 1C 1.070! 10 2.4591 11 6.798! 11 5.609E 11 2.212E 11 1.7291 11 8.5328 12 kn.W 36 1.8 6f 10 1.412f 1C 1.117E 10 2.9731 11 6.7301 11 3.37.t 11 2.C75t 11 1.C24f 11  ;

as 70 3.263E 1C 2.496! iC 1.97.t 1C 1.5 %! 10 1.3091 1C 6.5611 11 4.C351 11 1.9911 11 Whw 33 1.53t! 10 1.1771 iC 9.3051 11 7.4ht 11 6.169E 11 3.093E 11 1.9:21 11 9.325E 12 6YttA01 1979 5.7771 10 4.4191 10 3.494E 10 2.808! 10 2.356! 1C 1.1771 10 7.237E 11 3.571E 11 0M41C WD. C151 Aw:t Fty attlast polst f ylLis)

SEC10A 08$ 20.00 25.00 30.0C 35.00 40.00 45.00 50.00 ,

l

~

k 35 6.1185 12 4.1191 12 2.902E 12 2.170E 12 1.693E 12 1.364E 1I 1.150E 12

  • WI 52 9.089E 12 6.120E 12 4.312E 12 3.22.E 12 2.5151 12 2.0571 12 1.7C21 12 tt 170 2.972E 11 2.0018 11 1.410E 11 1.054t 11 E.222E 12 6.7241 12 5.5E31 12 Ikt 38 6.023E 11 4.095E 11 2.6861*11 2.1571 11 1.6231 11 1.3771 11 1.143E 11 1 22 3.6461 11 2.5291 11 1.t.2.t 11 1.3MI 11 1.0645 11 8.702f 12 7.2261 12 ISE 272 4.2591 11 3.2721 11 2.3:5t 11 1.7231 11 1.345E 11 1.1001 11 9.131E 12 l i

SE 300 5.76SE 11 3.68-t 11 2.736! 11 2.4 61 11 1.596E 11 1.3051 11 1.0541 11 j $$t 142 2.4821 11 1.671E 11 1.177E 11 4.8:3! 12 6.868! 12 5.6171 12 4.6645 12 5 81 1.4161 11 9.533E 12 6.717E 12 5.C21E 12 3.918E 12 3. 204 E

  • 12 2.660E 12  !

i 554 42 7.3.iE 12 4.943! 12 3.413f 12 2.6041 12 2.C311 12 1.6618 12 1.3791 12  !

i Si 67 1.1711 11 7.885f 12 5.5561 12 4.1531 12 3.2411 12 2.650t 12 2.2018 12 WSW 75 1.311E 11 8.826f 12 6.219E 12 4.M9f 12 3.6271 12 2.9671 12 2.4631 12 j i W 3: 5.2 41 12 3.531E 12 2.455! 12 1.660! 12 1.4511 12 1.1171 12 9.253E 13 J Wke 36 6.293! 12 4.2371 12 2.9!$E*12 2.232E 12 1.7 1E 12 1.42.! 12 1.1E2E 12 64 7C 1.2241 11 4.23!! 12 5.80e1 12 4.3391 12 3.3t.6! 12 2.7e9I 12 2.2991 12 l Nks 33 5.7681 12 3.8841 12 2.736E 12 2.k 6E 12 1.596E 12 1.3051 12 1.0bt 12 j 6VERAr! 1979 2.1951 11 1.478!-11 1.041t 11 7.76.E 12 6.C73t 12 4.9671 12 4.1241 12 l

! A-3 l

APPENDIX A-4 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EHISSION FOR MAIN STACK FOR January - March 1988 80510k toISch 151 auAtilt 1988 GtuttAL E/0 5 JanuAt1 1,1988 to nAtCa 31, 1988 StClot AvttAct IIODIL 81Act REttASE: Ba3;w0 Ltytt AvitAGE Cul/c 8tfott DIPLillom - ElitfM3) 00WWild C. 0151 Act F A> RELI Att PolN1 (MILtl)

SEC10t ces .12 .25 .50 .75 1.00 1.50 2.00 2.50 k- 48 7.7511 14 4.3361 10 2.3861 09 2.807E 09 3.4711 09 5.225t 09 6.C36E 09 6.1761 09 DNt 89 4.2371 10 1,3 61 02 7.956t 09 4.9391 09 4.211t 09 4.8n1 09 5.9418 09 6.514E 09 WE 295 1.2338 09 3.9561 08 2.4378 08 1.6671 08 1.7101 08 2.3518 08 2.756E 08 2.8441 +08 tri 246 7.325t 10 2.693E OS 1.687t 02 1.3421 08 1.374E 08 1.712t 08 1.934t 08 1.976t 08 I 166 7,616F 10 3.276t 02 2.453E 06 1.5tSE 08 1.316t 08 1.375t 08 1.5111 08 1.5351 C8 ist 300 2.1C21 9 6.5621 06 3.795t 02 2.6191 02 2.384t-0S 2.640f*08 2.835t C8 2.810E 08 SE 310 5.879t 09 1.9251 07 7.791f CE 3.6911 08 3.221E 08 4.2531 02 4.788E 08 3.460t 08 i A

$$1 155 3.2368 09 1,C371 C7 5.4391 02 5.6181 08 7.361t 05 6.8741 08 5.tS2t 08 4.935t 02

$ 78 1.6221 09 6.131 08 3.4291 02 6.242t 02 5.92?E 08 2.906E Ot 9.730t 08' 2.120E 06 ss. 61 1.262t M 5.45 1 02 2.7231 08 4.689t 08 1.276t C7 1.969E C7 1.3:3E 07 9.4791 C8 SW $2 1.2871 09 7.444t Ce 4.2201 08 4.t!5E 08 4.946t 08 5.0601 08 4.328! 08 3.687E 08 usw 61 1.325f 09 1.6ist t7 4.7261 02 3.086! 08 4.339E 08 4.85t 05 4.146f CE 3.525t CE W 37 7.8571 11 4.D4! 09 5.572E 09 1.171f 02 1.805! 08 2.3201 02 2.274E Ce 1.885! 08 ww D 2.3811 1C 4.1891 05 3.C766 02 2.3091 02 2.714E 06 2.819E 06 2.$tti CE 2.1138 08 ed 41 3.162t 10 1.513t 08 7.9911 09 6.659t 09 6.5681 09 6.9891 09 7.2071 09 7.c50t 09 pd 52 2.053t 10 7.1661 09 5.066E 09 3.5291-09 3.493t 09 4.kSt 09 5.k1109 6.153t 09 Av!AA:t 2104 1.3331 09 5.635t 08 2.792E 02 2.5421 08 3.2271 05 4.0678 08 3.6421 05 3.C601 08 00wws:c ko. CI51 Ak:t F A> ptLEast point (mitts) 065 3.00 3.50 4.00 4.50 5.00 7.50 1C.00 15.00

$1C108 h 48 5.921E 09 5.713t 09 5.433! 09 5.171E 09 4.912t 09 3.titt 09 3.100t 09 2.2591 09 ekt 89 6.616E 09 6.5811 09 6.458! 09 6.307E 09 6.095E 09 4.895t 09 3.99tt 09 2.8971 09 '

I hE 295 2.7.41 08 7.6041 06 2.4535 0! 2.3101 02 2.167! 02 1.55!! 05 1.2261 0! 2.259t 09 246 1.904f C2 1.t 21 C1 1.714E C3 1.6221 08 1.529t 05 1.140E 08 E.9321 09 6.1621 09 Eh!

I 166 1.423E Ct 1.416! 08 1.345! 0! 1.279t'01 1.2101 08 9.196! 09 7.3221 M 5.1211 09 300 2.t59! CE 2.496! 0! 2.337t C! 2.192E Ct 2.050E 08 1.49:! 06 1.162t+C8 7.943t 09

! ESE 310 3.3105 0! 3.129t CE 2.9-41 08 2.7721 02 2.5981 01 1.90M CE 1.476! 02 1.003t 02 l 55 4.214E Cf 3.6571 C1 3.216t C8 2.tS5E 08 2.5591 08 1.6621 C! 1.2131 08 8.237t 09

$st 155 E.582[ 09 8 78 6.4691 05 5,3235 04 4.4931408 3.866t 08 3.380E 08 2.C301 Ce 1.419E 08 61 7.335f CE 5.9 3E Ct 4.9151 02 4.1771 08 3.616f 07. 2.106t 02 1.449f 01 2.6991 09 SSW 3.1901 Cf 2.8*21 02 2.4918 02 2.Z33t 08 2.0181 02 1.3551 0! 1.014t CE 6.6051 09 j 59 92 '

Vsw 61 3.C351 02 2.651t 05 2.3461 02 2.0951 08 1.886t 02 1.2471 08 9.195f M 5.9011 09 37 1.6811 08 1.497! 02 1.338!+CE 1.?C21 02 1.0871 02 1.0171 02 7 C261 09 4.1371 09 W

WW 73 1.2561 08 1.642t 08 1.4M1 08 1.316! 08 9.9082 09 7.6718 09 5.7251 09 3.5831 09 EW 41 6.6-21 09 6.234t 09 5.843E 09 5.4931 09 5.145t 09 5.5681 09 4.166t 09 3.2098 09 hks 52 6.C311 09 5.79.t 09 5.516! M 5.2431 09 4.9571 09 3.7291 09 3.235t 09 4.7151 09 avita;I 2104 2.6501 02 2.3361 02 2.056E Ot 1.8&t 08 1.700t 08 1.1901 02 2.8921 M 6.055t 09 00WWVIC ha. OlS1Ah0! F20m t!LIAll Polkt (plLIS) ,

085 20.00 25.00 30.0S 35.00 40.00 45.00 5C.00 j

$ICTOR u 42 1.7EE 09 1.4691 09 1.243t 09 1.078t 09 9.5301 1C 1.5801 09 1.394t 09 89 2.258! 09 1.840E 09 1.5461 09 1.332f 09 1.170E 09 1.0431 09 9.4C3t 1C

CE

. kt 295 6.1741 09 4 "

  • 09 4.0i.3! 09 3.4351 09 2.981E 09 2.634t 09 2.355E 09 th! 246 4.681E 09 .. . 09 . 3.810t 09 3.239E 09 2.212! 09 2.4866 09 2.2231 09 E 166 4.0081 09 . 6 8! 09 3.9521 09 3.3651 09 2.9251 09 2.566! 09 2.3136 09 ISE 300 6.00!E 09 5.7911 09 4.725t 09 4.C701 09 3.536t 09 3.128! 09 2.7991 09 51 31C 7.5391 09 8.4325 09 6.8661 09 5.798! 09 4.992t 09 4.380E 09 3.8911 09

$$1 155 6.307E 09 4.2591 09 3.9381 09 3.294E 09 2.221E 09 2.463E 09 2.179E*09 5 78 6.0091 09 4.5781 09 3.6928 09 3.0741 09 2.620! C9 2.274f 09 2.002f 09 61 5.9741 09 4.521E 09 3.6291 M 3.010t 09 2.55B1 09 2.216E 09 1.9471 09

} $SW SV 92 4.860E 09 3.820E 09 3.1361 09 2.6521 09 2.5531 09 2.2181 09 1.9871 09 l Wsw 61 4.30 E 09 3.4DE 09 3.582f 09 2.966t 09 2.549t 09 2.376! 09 2.0911 09  !

W 37 2.2521 09 2.1441 09 1.7091 09 1.4081 09 1.2151 09 1.087t 09 9.483t*1C 1.0491 09 l Wd 73 2.5651 09 2.1171 09 1.9;21 09 1.6361 09 1.3bi 09 1.196! 09 Ei 41 2.323t 09 1.903! 09 1.584E 09 1.68 f 09 1.428t 09 1.236! 09 1.0Gt 09 l kh. 52 3.2991 C9 2.508!9 2.0161 09 1.674t 09 1.424t 09 1.2361 M 1.0!?! Of AvtRA;t 2104 4.4341 09 3.7221 09 3.216t 09 2.733f 09 2.3DE 09 2.1351 M 1.M31 M A-4  ;

i 1

I

APPENDIX A-5 DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR January - March 1988 i

I fatifb F0f COh ill (4Atitt 1982 Giuf W "0* JANJART 1, 1968 1C MARCN 31, 1968 SECTOR AVERAGE N00th 51Act RittAlt! OR:UMO LivtL AvttA t Ca!/s Aff te OtPLt110m (uti. .n.' Alm!C tutaC119M OtPLtilch N00f t) =

(SEC/M3) 00WV!ko No. Cll1Ah:1 FROM t!Lt A$t POINT th!Lil) stC10A 005 .12 .25 .50 .75 1.00 1.50 2.00 2.50 W 48 7.7518 14 4.335E 10 2.322t 09 2.795t 09 3.4511 09 5.16R 09 5.966t 09 6.0701 09 Ext 89 4.2371 10 1.3151 02 7.9386 09 4.921t 09 4.1931 09 4.851E C# 5.9045 09 6.4481 09 WE 295 1.2331 09 3.953E 02 2.430f OS 1.6608 08 1.7C3t 02 2.3421 02 2.740E 02 2.8161 08 Ext 246 7.325t 10 2.691t 08 1.622t 08 1.3371 02 1.3671 08 1.7031 08 1.920E 02 1.9571 02 t 166 7.616t 10 3.273t 05 2.444f 08 1.5751 02 1.3068 08 1.3651 08 . 4978 02 1.5171 08 It! 300 2.1C21 09 6.55tt 08 3.725t 08 2.6C71 02 2.3721 02 2.626t 02 2 2171 02 2.766t 02 st 310 5.8791 09 1.913t C7 7.7621 08 3.67M Ot 3.2091 08 4.2371 08 4.?60t 08 3.4231 08

' sst 155 3.236E 09 1.C361-C? 5.4171 02 5.6C71 08 7.348t 08 6.239t 08 5.YtSt 05 4.8351 02 8 ft 1.622E 09 6.ie.tt Ct 3.6991 0! 6.2331 02 5.90!! Ce 2.2501 C2 9.5c3! Ce 7.870E DE

$$w 61 1.282t 09 5.445f CE 2.715t CE 4.M21 02 1.2731 C7 1.9461 C7 1.26N C7 9.C29t 02

$8 92 1.2871 05 7.4351 02 4.199t CE 4.239f Ot 4.929t 08 5.C281 01 4.276t 08 3.6151 06 WSe 61 1.325! 09 1.611t C7 4.6!11 08 3.06.t 08 4.315E 08 4.824t 02 4.069! 08 3.425! 08 W 37 7.257t 11 4.727t Oc 5.562f 09 1.170! 02 1.805t 02 2.3C3t 08 2.237( Lt 1.2351 C8 WW 73 8.3511 1C 4.16-t Cf 3.06it Ce 2.2951 02 2.696t OS 2.7921 02 2.546t OL 2.068t 02 l hw 41 3.1621 1C 1.5121 02 7.9621 09 4,624t 09 6.518t 09 6.9211 09 7.123t 09 6.943t 09 had 52 2.053t 10 7.1618 09 5.0691 09 3.5091 09 3.4728 09 4.8181 09 5.7921 09 6.C74t 09 Avt R ACI 2104 1.333t 09 5.629E DE 2.760E 02 2.5331 08 3.216t 08 4.C341 Ce 3.586E Ce 2.9E3t 06

! 00swWlW: WC. Cis1Aw:t raer atttAst P0lut tu!Lts)

SEC10A 085 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 m 46 5.840t 09 5.5415 09 5.233t 09 4.9471 09 4.6671 09 3.4951 09 2.724t 09 1.8071 09 kWE 89 6.5091 09 6.426t 09 6.253t 09 6.0.ft 09 5.766! 09 4.402t 09 3.409t 09 2.252t 09 ht 295 2.7061 05 2.55et Ce 2.392t CE 2.2 01 02 2.0871 08 1.479E te 1.105t ce 6.9991 09 Ext 266 1.6201 08 1.782t 02 1.67BE C! 1.5811 08 1.4821 08 1.C761 02 2.2011 09 5.3491 09 I 166 1.4591 01 1.3871-08 1.3111 02 1.2 0!*01 1.1671 02 f.6201 09 6.6581 09 4.419E 09 ICE 30C 2.6291 C1 2.4591 C2 2.29.t 02 2.144t 05 1.996t 08 1.4231 06 1.0721 08 6.9951 09 51 310 3.251E DE 3.0 6t 05 2.236! CE 2.6391 02 2.443! 08 1.6791 02 1.2305 02 7.(591 09 sst 155 4.066f 06 3.5C71 08 3.049E 02 2.6741 02 2.362! 02 1.4531 02 1.006t 08 6.5961 09 5 78 6.1411 08 4.931t 05 4.0491 C1 3.366! 05 2.87.t 08 1.497t 02 9.306t 09 4.742E 09

$sw 61 6.809t C2 5.335t 08 4.300t 05 3.54tt.08 2.9671 08 1.46tt 08 8.6861 09 4.0361 09 SW 92 3.101t 02 2.699t 02 2.3771 06 2.109t 02 1.687! 02 1.205t 08 8.5141 09 4.9441 09 W5W 61 2.9171 02 2.5191 02 2.2016 08 1.9 0E 08 1.722E 02 1.0551 08 7.179t 09 3.9171 09 i W 37 1.6135 08 1.416! 02 1.248t 08 1.106t 02 9.8551 09 E.316f 09 5.30tt 09 2.695t 09 l ww 73 1.8C?t CE 1.5221 08 1.3991 08 1.246! 08 9.3171 09 6.902t 09 4.9361 09 2.t!7E 09 l ks 41 6.5C7t 09 6 .06?! 09 5.6 4t 09 5.2631 09 4.858! 09 4.897t 09 3.445t 00 2.262! C9 hh. 52 5.919t 09 5.654 09 5.343! 09 5.0 4t 09 4.735E 09 3.429t 09 2.25CE 09 3.5Ct1 09

! evinAct 2104 2.5551 02 2.2241 08 1.9611 01 1.7491 08 1.5571 02 1.021t 02 7.213f 09 4.4411 09

]

l O Wwd!w; Wo. C151AhCt Ft> ttLiast Pol 61 taltts)

SIC 10s oss 2C.00 25.00 3C.00 35.00 40.00 45.00 50.0C 1 6 48 1.2791 09 9.378! 10 7.056! 10 5.4591 10 4.319t 10 4.425t 10 3.542t 10

! ENE 89 1.6241 09 1.2361 09 9.740E 10 7.9151 10 6.576t 10 5.5611 1C 4.7601 1C l h5 295 4.942t 09 3.7141 09 2.9095 09 2.349t 09 1.940t 09 1.6345 09 1.394t 09 EN! 26 3.6221 09 3.0961 05 2.80et 09 2.262! 09 1.876E 09 1.581t 09 1.3491 09 t 166 3.1951 09 2.425t 09 2.534t 09 2.005t 09 1.6241 09 1.3431 09 1.125t 09 ESt 300 5.016t 09 4.4418 09 3.4591 09 2.778! 09 2.2835 09 1.913t 09 1.624t 09 f St 31C 5.3621 09 5.2 3t 09 3.9921 09 3.147t 09 2.545E 09 2.106t 09 1.7641 09 l 151 155 4.3101 09 3.0$*t 09 2.2255 09 1.7711 09 1.410E 09 1.148! 09 9.489E 1C 5 72 2.8911 09 1.940f 09 1,3901 09 1 1371 09 7.9231 10 e.313t 10 5.100E 10 SSW 61 2.304t 09 1.425t 09 1,C33! 09 7.6211 10 5.801E 1C 4.549f 10 3.6491 it i SW l'2 3.2311 00 2.2511 09 1.6 2t 09 1.240E 09 9.6331 it 7.592! 1C 6.131t it l WSW 61 2.4471 09 1.6e91 09 1.1091 09 2.C38E 10 6.09.t 10 4.3701 10 3.563! it l W 37 1.6121 09 1.0591 09 7.407E 1C 5.36.t 10 3.335t 10 2.056! 1C 1.591E 1C Wu 73 1.8991 09 1.422t 09 1.0961 09 7.2931 1C 5.516! 1C 4.46t! 1C 3.1911 1C We 41 1.4351 09 1.005t 09 7.2221 1C 2.9491 1C 2.2271 10 1.1311 1C 1.4991 1C thw $2 2.1911 09 1.492E 09 1.C771 09 e.o.21 1C 6.170f 1C 4.6 it 1C 3.6621 1C l 6 Vita;I 2106 2.9771 09 2.2791 09 1.7 tot 09 1.367E 09 1.091E 09 2.9521 1C 7.465t 1C I

A-5

)

l

I APPENDIX A-6 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR January - March 1988 00510h 80150h 151 auAtttt 1988 GruttAL 1/C'8 JanUAR1 1,198210 MARCH 31,1988 SECf0R AVitAGE uc0EL STACK RELEAlt: 6VERAGE MD051110h Raft $ (D(Patt!E Cal /C

  • MP. VELOCi1Y hQDEL = Nil. AND AfplC tmERCY 1968) - (1/M2)

CWWlWD WD. OllfAvit flom IILIA51 Polh1 (MILis)

SE C10A ces .12 .25 .50 75 1.00 1.50 2.00 2.50 W 48 7.7518 16 4.335f 12 2.3821 11 2.7958 11 3.45it 11 5.146t 11 5.966E 11 6.C70t 11 t%E- 89 4.2371 12 1.3151 1C 7.935f 11 4.9218 11 4.1931 11 4.8511 11 5.90.t 11 6.4481 11 WE 295 1.2331 11 3.9531 1C 2.430E 10 1.6601 10 1.7C31 10 2.3421 10 2.740E 10 2.816E 10 Ext 246 7.3251 12 2.6911 10 1.682t 10 1.337t 10 1.3671 10 1.7C31 10 1.920E 10 1.9571 10 t 166 7.6161 12 3.273t 10 2.4441 10 1.575E 10 1.3061 10 1.3651 10 1.4971 10 1.5171 10 ist 300 2.1C2E 11 6.5561 10 3.7251 1C 2.6C71 10 2.372E 1C 2.626t 10 2.8171 10 2.766t 10 SE 310 5.8791 11 1.983t 09 7.762E 10 3.675t 10 3.209t 10 4.2371 10 4.7601 10 3.4231 1C

$11 155 3.2361 11 1.C361 09 5.4171 10 5.6071 10 7.3461 10 6.2391 10 5.785t 10 4.235t 1C 5 78 1.6221 11 6.165t iC 3.4191 1C 6.233t 10 5.9081 10 8.2501 10 9.5231 10 7.870t 1C sse 61 1.21.21 11 5.4451 1C T.715t 10 4.6E21 1C 1.273t 09 1.946t 09 1.267t 09 9.C29E 10 SW 92 1.287t 11 7.435E 1C 4.1991 10 4.8391 10 4.929t 10 5.C281 10 4.276E 10 3.615t 10 v54 61 1.325t 11 1.611t 09 4.htit 10 3.06.t 10 4.3151 10 4.2241 10 4.0696 1C 3.425t 10 W 37 7.2571 13 4.7271 11' 5.562t 11 1.1701 1C 1.805t 10 2.3031 10 2.237t 10 1.2351 1C wwd 73 8.3511 12 4.ibt 1C 3.0411 1C 2.2951 1C 2.696! 10 2.792t 1C 2.546t 10 2.06tt 10 kw 41 3.162t 12 1.512t 10 7.9621 11 6.6241 11 6.518! 11 6.9211 11 7.123t 11 6.943t 11 hkW 52 2.053E 12 7.1611 11 5.0091 11 3.5091 11 3.4721 11 4.818t 11 5.7921 11 6.0741 11

! AVERA;E 2104 1.333t 11 5.629E 1C 2.780t 10 2.533t 10 3.2161 10 4.C341 10 3.566E 10 2.9831 10 D M d!h: h0. C1518h:E F A> RtilA$t PC:k1 (*1 Lit)

EECTOR Oss 3.00 3.5C 4.00 4.50 5.00 7.50 10.00 15.00 l h 42 5.6401 11 5.541t 11 5.2331 11 4.9471 11 4.667t 11 3.495t 11 2.724t 11 1.8071 11 l Wht 89 6.509t 11 6.4261 11 6.253! 11 6.0481 11 5.76ct 11 4.4C21 11 3.409E 11 2.2521 11 tt 295 2.7061 1C 2.554f 1C 2.3921 10 2.240t 1C 2.017t 1C 1.4791 10 1.1051 1C 6.999t 11 th! 26 1.6801 10 1.7421 1C 1.67t! 1C 1.581t 1C 1.482t 10 1.C761 10 2,2011 11 5.3691 11 E 166 1.459t 1C 1.3571 10 1.3111 1C 1.2401 10 1.167t 10 2.6201 11 6.6581 11 4.419C 11 (St 300 2.6291 10 2.4591 1C 2.2941 1C 2.144t 1C 1.99t! 10 1.4231 10 1.C78t 1C 6.9951 11 st 31C 3.2518 10 3.0 6t 1C 2.236! 10 2.6391 1C 2.443! 10 1.679E 1C 1.2301 1C 7.6591 11 sit 155 4.056! 1C 3.5071 10 3.0491 10 2.6745 10 2.368! 1C 1.453t 10 1.006t 10 6.596t 11 5 71 6.1411 1C 4.9311 1C 4.0 91 10 3.386t*1C 2.87.t 1C 1.4971 10 9.3061 11 4.7421 11

$3W 61 6.8091 10 5.3351 1C 4.300!stC 3.5411 10 2.9671 10 1.4681 10 E.666t 11 4.036! 11 54 92 3.1 Cit iC 2.6991 1C 2.3771 10 2.1091 10 1.8271 10 1.205t iC t.5141 11 4.9 45 11 f W5d 61 2.917E 1C 2.5191 iC 2.2011 1C 1.9401 1C 1.7221 10 1.0$$t 10 7.1791 11 3.917t 11 j 2.6955 11 W 37 1.413t 1C 1.416t 10 1.248! 1C 1.106t 10 9.855t 11 1.316t 11 5.3081 11 WW 73 1.8:21 10 1.562t ic 1.399t 1C 1.2461 10 9.3171 11 6.9021 11 4.9361 11 2.257E 11 kW 41 6.5C7t 11 6.0671 11 5.644t 11 5.2631 14 4.88!! 11 4.2978 11 3.445t 11 2.262E 11 hus 52 5.9191-11 5.6511 11 5.343! 11 5.0-*t 11 4.7351 11 3.4291 11 2.25;t 11 3.5018 11 AvtAA;! 2104 2.5551 1C 2.224t+1C 1.9611 10 1.7491 1C 1.5571 10 1.0211 10 7.213f 11 4.441t 11 00WWWIN: WC. Cis1Aw:t fa r aletAtt P01W1 EM!Lts)

SEC10A Oss 20.00 25.00 30.00 35.00 4C 00 45.00 50.00 I h 48 1.2791 11 9.378E 12 7.056t 12 5.459t 12 4.319t 12 4.4251 12 3.542t 12 ext 89 1.6241 11 1.236! 11 9.7401 12 7.915E 12 6.576t 12 5.5611 12 4.7601 12 tt 295 4.9426 11 3.7141 11 2.9091 11 2.349E 11 1.9401 11 1.6341 11 1.394E 11 ,

i Ekt 246 3.8121 11 3.096! 11 2.20-t 11 2.2621 11 1.8761 11 1.5811 11 1.3495 11 l

!  ! 166 3.195E 11 2.4251 11 2.53 t 11 2.0051 11 1.6241 11 1.3431 11 1.1251 11 I tt! 30C 5.C161 11 4.4411 11 3.4598 11 2.7781 11 2.2831 11 1.913E 11 1.6241 11 St 310 5.365! 11 5.2 3t 11 3.9921 11 3.1471 11 2.545t 11 2.104t.11 1.764t 11

$st 155 4.3101-11 3.05.t 11 2.2!51 11 1.771t 11 1.4101 11 1.14t!.11 9.4291 12

$ 78 2.891t 11 1.9.0E 11 1.3901 11 1.C371 11 7.9831 12 6.3131 12 5.1001 12 I **W 61 2.304E 11 1.425f 11 1.C16t 11 7.6211 12 5.6011 12 4.549t 12 3.6495 12 1.2401 11 9.6331 12 7.5921 12 6.1311 12 i

4W 92 3.2311 11 2.2511 11 1.6!.2f 11 l

W5W 61 2.4471 11 1.6691 11 1.1091 11 S.C3t! 12 6.094E 12 4.370t 12 3.5631 12 W 37 1.6121 11 1.C591 11 7.4C71 12 5.38.t 12 3.3351 12 2.C56t 12 1.5911 12 W .' 73 1.6991 11 1.4221 11 1.096! 11 7.293! 12 5.5165 12 4.46!! 12 3.6911 12 6s 41 1.4351 11 1.0St 11 7.222id2 2.9 9! 12 2.2271 12 1.83 t 12 1.499t 12 tud 52 2.1911 11 1.492i it i C771 11 1.0 21 12 6.17;t 12 4. tait 12 3.6621 12 avtRA;t 2104 2.977t 11 2.2791 11 t.7&DE 11 1.3671 11 1.0911 11 f.9521 12 7.465t 12 A-6 l

APPENDIX A-7 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR April - June 1988 80510h EDISch 2ND Gb4allt 1988 Gigit4L R/081 e apt]L 1, 1988 10 JUN! 30, 1988 SECTOR AWitACE N00tL SR2JNC RELEASE: 8A3ACLittL AvtAACE Cul/0 Dif 0Rt DIPLit10h *

($1C/43)

DO Wi!ND WO. DISTAgt F#2 RELEA15 Polk 1 (M!LIS)

SEC10R 085 .12 .25 .50 .75 1.00 1.50 2.00 2.50 k 75 5.5741 05 1.611E 05 4.872E 06 2.5281 06 1.610t 06 9.3341 07 6.3958 07 4.7661 C7 tWE 59 3.39 t 05 1.000i C5 3.2475 06 1.7891 06 1.175E 06 6.538t 07 4.3121 07 3.1341 C7

  • E- 203 4.0981 05 1.192t 05 3.819f 06 2.0601 06 1.340E 06 7.491t 07 4.978E C7 3.6391 C7 Ert 357 7.664t 05 2.2261 05 7.007E 06 - 3.8111 06 2.4931 06 1.408E 06 9.394t 07 6.8271 07 E 198 9.123E 05 2.6471 05 8.056t 06 4.257E 06 2.7391 06 1.580t 06 1.075t .06 7.9701 07 '

i ISE 139 4.071t 05 1.1978 05 . 3.766t 06 2.0251 06 1.3201 06 7.43M C7 4.9606 07 3.6331 07 st 105 2.6371 05 7.704f 06 2.664t 06 1.4491 06 9.5018 07 5.3291 07 3.5391 07 2.351E 07

$$t 89 2.661t 05 7.2111 06 2.4371 06 1.232t 06 8.1921 07 4.576t C7 3.016t 07 2.194E C7 j

$ ?9 2.062E 05 6.CZ2E C6 1.7206 06 9.522f C7 6.255E C7 3.405t C7 2.2141 C7 1.5bE C7  ;

$59 76 2.8158 05 E .14 01 06 2.300E 06 1.2721 06 8.4221 C7 4.750! C7 3.155E C7 2.3CBE 07 i 2.722! 06 1.513t 06 9.9E3E C7 5.469t C7 3.56n 07 2.5774 C7 I

SW ist 3.C76E C5 8.9.el Oc V5W 182 3.2231 05 9.409t Oc 2.7571 06 1.521t 06 1.006E 06 5.5731 C7 3.60t 07 2.6581 C7 W $1 1.49505 4.392t Oc 1.315t 06 E.0011 C7 5.2818 C7 2.8978 07 1.090E C7 1.2411 C7 ws 88 3.26 t 05 9.5891 Le 3.172t 06 1.742E 06 1.143t 06 6.300! 07 4.132E C7 3.294t C7 WW 79 2,244f 05 6.461f 06 2.054t 06 1.025t 06 6.9821 C7 3.9201 C7 2.6231 07 1.9281 07 tw 72 2.2571 05 6.5815 06 2.235t 06 1.237t+D6 8.1248 C7 4.438! 07 2.890t C7 2.0861 07

) AytaACE 2039 3.7301 05 1.066t 05 3.36 ! 06 1.230E 06 1.1941 06 6.706t 07 4.464 07 3.2661 07 l 00mi!N0 h0. Ols1Act ra:p atttAst polh7 (witis)

SIC 10A Ott 3.00 3.5C 4.0C 4.50 5.00 7.50 10.00 15.00 l h 75 3.7351 C7 3.043! C7 2.552t C7 2.18tE C7 1.909t C7 1.134t 07 7.9071 0E 4.2101 02 tut 59 2.4271 07 1.9571 C7 1.6261 C7 1.3 tit C7 1.1951 C7 6.958t 08 4.774t 05 2.818! C8

[ hl 2C3 2.8291 07 2.2181 C7 1.90M C7 1.623t 07 1.406! C7 8.225E 08 5.6711 08 3.325t 08 Ext 357 5.36 t C7 4.346!a7 3.626t C7 3.092t C7 2.6231 C7 1.5771 C7 1.090E 07 6.526t Ce i 198 6.2341 C7 5.C70E C7 4.2451 07 3.6351 C7 3.167E C7 1.878E 07 1.3C71 C7 7.9121 02 Elf 139 2.8241 C7 2.285E C7 1.905t C7 1.6261 C7 1.4101 C7 8.223! 08 5.720E 01 3.4141 06 St 105 1.8281 C7 1.479! C7 1.234t C7 1.0511.C7 1.0C3t " 5.8891 08 4.0661 02 2.42et Ct

$st 89 1.70.E-C7 1.378! C7 1.1481.C7 9.7E21 0! 8.480! % 4.98 E 05 3.4391 08 2.041t CE 5 79 1.2321 07 9.899i Ce 2.1991 01 6.9315 C! 5.9691 05 3.429t Ct 2.3331 08 1.361t C1 ,l

$$d 76' 1.7981 07 1.45t! C7 1.2171 07 1.C381.C7 9.0091 08 5.30et 02 3.671t 02 2.19c1 02 l 59 181 1.994t 07 1.60ct C7 1.333! C7 1.129E C7 9.7396 02 5.628t CE 3.845t 02 2.2571 02 WSW 182 2.061E C7 1.66.t C7 1.36.t C7 1.17M C7 1.1201 C7 5.93M

  • 02 4.0792 02 2.4111 08 W 51 9.5901 08 7.722E 08 6.4C21 02 5.4321 02 4.689E 02 2.718E 02 1.259f 02 1.091E CE WW 88 2.5491 C7 2.055E C7 1.746t C7 1.44M C7 1.136E C7 6.5671 05 4.5081 01 2.6541 CE WW 79 1.504f C7 1.2201 C7 1.019t C7 8.690! 08 7.5401 02 4.4225 05 3.0591 05 1.640t CE kW 72 1.612E 07 1.296! C7 1.07 t C7 9.0tM 08 7.2311 CE 4.5091 04 3.C771 Ct 1.634 08 l 6VERACE 2C39 2.5415 07 2.057E C7 1.715t C7 1.4611 07 1.272E 07 7.423! 08 5.1241 02 3.0591 CE 00WW!b3 WD. 0151 ACE FROM RELE4$t PQlai? (M! Lit)

SECTOR 085 20.00 25.00 30.0C 35.0C 40.00 45.00 50.0C I k 75 3.3781 02 2.5t?E 04 2.0901 08 1.7471 08 1.4951 C8 1.302t 02 1.151t 02 i th! 59 1.944E 08 1.466t 02 1.173t 02 9.7018 09 8.222E 09 7.107t 09 6.231t 09 21 2C3 2.353E 08 1.7251 08 1.435t 08 1.1921 08 1.0141 08 8.8C21 09 7.74M 09 Ett 357 4.539E 06 3.4441 03 2.7691 C8 2.300E 02 1.9571 08 1.6961 02 1.492E OL t 198 5.5395 C! 4.2241 02 3.412E 02 2.8465 02 2.430E 02 2.1135 08 1.863t Ct ESE 139 2.3721 C8 1.799t CE 1.4461 08 1.2006 02 1.C21t 08 B.8511 09 7.7231 09 St 105 1.6251 08 1.2771 08 i,C261 06 8.518! 09 7.243E 09 6.279t 09 5.5211 09

$$! 89 1.4141 02 1.0691 02 8.5721 09 7.095! 09 6.C20E 09 5.205E 09 4.5651 09 s 79 9.338E 09 7.C12E 09 5.584 09 4.6071 09 3.89M 09 3.368! 09 2.9511 09 l 854 76 1.5271 02 1.1591 02 9.3118 09 7.729t 09 6.5701 09 5.6931 09 5.0C31 09 si 181 1.554t CE 1.1701 08 9.343E 09 7.717E 09 6.535t 09 5.65it 09 4.9561 09 WSV 188 1.668! C! 1.260t 02 1.0091 08 8.3521 09 7.C!$t 09 6.132E 09 5.3525 09 i W 51 7.5171 09 5.662E 09 4.5221 09 3.736t 09 3.1641 09 2.735t 09 2.395! 09 WW 82 1.232! 02 1.3221 05 1.1051 01 9.141f 09 7.7111 09 6.710! 09 5.2911 09 kW 79 1.2861 01 9.8001 09 7.90109 6.58M 09 5.62.t 09 4.29t! 09 4.324! 09 kW 72 1.24?E 02 9.3 7I 09 7.4614 09 6.160E 09 5.2151 09 4.5101 09 3.9541 09 Avta4C! 2C39 2.126t 08 1.6121 08 1.29M Ot 1.0761 CE 9.1551 09 7.941t 09 6.9861 09 l

l A-7 l t )

l.

I APPENDIX A-8 DEPLETED RELATIVE CONCENTRATIONS PER UNIT I EHISSION FOR REACTOR BUILDING VENT FOR April - June 1988 00510k Ecl&Oh 2WO CUAlfil 1982 GEN 2 tai I/0'S

  • APtik 1, 1968 to Juut 30, 1988 EECTOR AvitACE 8G EL
  • (SEC/m3)

GROUNC t!LIA$ts GRMD LittL AvitACE Cul/C Af fEt Ditatilon (tf GULA10RY SUIDE 1.111 DEPLEilok N00EL) 00WWIC WC. 015fAh:1 FADM RELEASE PQlWT (Mllt$)

SECTOR 085 12 .25 .50 .M 1.00 1.50 2.00 2.50 h 75 5.37M 05 1.530E 05 4.453t 06 2.253E 06 1.412t 06 7.9571 07 5.297t 07 3.2581 C7 I okt Nt th!

I 59 203 357 198 3.2761 05 3.952t 05 9.500E 06 2.968t 06 1.1331 05 3.490E 06 7.3911 05 2.115t 05 6.4041 06 8.798E 05 2.514t 05 7.3631 C4 1.594t 06 1.236t 06 1.030E 06 5.573t C7 3.571E 07 2.537t C7 1.1741 06 6.386t C7 4.125t 07 2.946! C7 3.39M 06 2.186t 06 1.200E 06 7.7828 C7 5.575f 07 3.794f 06 2.4C2t 06 1.3471 06 8.901E C7 6.452E 07 Ett 139 3.926f 05 1.137t 05 3.424E 06 1.80e1 06 1.157E 06 6.339f C7 4.1091 C7 2.9411 07 I SE 55E 5

sse 105 29 79 76 2.543t 05 7.318t 06 2.4355 c4 2.566t 05 1.988! 05 2.715E 05 7.420t 04 2.2281 06 5.720E 06 7.732E 06 1.572t 06 2.1101 06 1.2911 06 1.0971 06 8.4t5E C7 1.13eE 06 8.329t 07 4.5431 C7 7.it.21 C7 3.901! C7 2.931E C7 2.4981 07 5.484t 07 2.903t C7 1.834E C7 7.38 t C7 4.049t C7 2.613t C7 1.9031 C7 1.776E C7 1.2921 C7 1.86Bf C7 5s iti 2.967E b 2.49M 06 2.44t 06 1.348t 06 8.753t C7 4.6631 07 2.955t 07 2.086! C7 I W5.

W W.

m.

12.5 51 88 79 3.109f 05 1.441E 05 3.167E 05 2.1641 05 8.9381 06 2.520! 06 4.172t 06 9.108E 06 6.137t 06 1.202E 06 2.900t 06 1.0771 06 1.3561 06 1.552E 06 9.6721 C7 8.t?5E 07 4.7511 C7 3.C331 C7 2.152t C7 7.130t C7 4.6301 C7 2.4691 C7 1.565t C7 1.005t C7 1.002E'06 6.1261 C7 5.3711 C7 3.422E C7 3.3411 07 2.1731 C7 2.394t 07 2.6671 C7 1.561E C7 1.68tE 07 hhd 72 2.1761 05 6.251t 06 2.0-21 06 1.1C2E 06 7.1221 07 3.7t.3E 07 AVI A A;E 2039 3.597t 05 1.C321 05 3.093! 06 1.6301 06 1.0471 06 5.7191 C7 3.700! C7 2.6 4E C7

, 00whd!k: C. 015?Ah:E f a> af stas! P0lkt (MILES)

$EC108 065 3.00 3.50 4.00 6.50 5.00 7.50 10.00 15.00 l N 75 2.9701 C7 2.3 tit C7 1.967t C7 1.666t C7 1.4351 C? 8.0131 08 5.319E 02 3.004t 02 lW hht 59 1.930E C7 1.531E C7 1.2541 C7 1.0511 C7 2.98102 4.916! 05 3.2121 08 1.760E CE WE 203 2.249! C7 1.790E C? 1.470E C7 1.236E C' 1.0571 07 5.8111 C! 3.815t 02 2.1141 02 th! 357

  • 265t C7 3.400E C7 2.795t C7 2.354E C' 2.018! C7 1.114t C7 7.3361 08 4.C76t CE I i 19e 4.9571 C7 3.9671 C? 3.272t C7 2.7671 C7 2.381E C7 1.327E C7 8.7911 Oc 4.942f 02 ist 139 2.245E C7 1.7281 C7 1.4691 C7 1.2361 C7 1.060t C7 5.t!3t 02 3.t/.81 02 2.132t 02 st 105 1.4531 C7 1.157E C7 9.5091 02 2.0031 08 7.5411 05 4.160E 02 2.735t ce 1.514t CE 151 89 1.355t C7 1.C't! C7 1.2531 08 7.4461 08 6.376t 02 3.5211 CE 2.3135 02 1.2751 02 5 79 9.7931 05 7.765E C! 6.320E C3 5.276t 08 4.488! 02 2.4231 02 1.5691 02 8.499E 09 1.371t 0!

I SSd 76 1.4301 C7 1.141E C7 9.382t 08 7.9021 08 6.774E 05 3.7481 02 2.4701 05 sd 181 1.525t C7 1.2561 C7 1.C271 07 E.594t 02 7.322t 05 3.976t 02 2.5871 08 1.410! 08 i W5s 182 1.6381 C7 1.3021 C' 1.067E C7 2.955t CE t.4171 02 4.194t C8 2.7441 02 1.506f CE W 51 7.625E 08 6.0411 02 4.9601 08 4.135E Ot 3.526E 08 1.920E 08 1.250f 02 (,.813E M l

WW 88 2.C271 C7 1.60!! C7 1.315! C7 1.1C2t C7 1.5441 08 4.654f 02 3.C33t 08 1.6581 C!

1.1491 01 I

W. 79 1.1961 C7 9.543t 02 7.2521 C! 6.615E 08 5.6691 08 3.124E CE 2.058! 08 kh. 72 1.2811 C7 1.C1.t C7 1.221E CE 6.917E 02 5.888t Cf 3.186t 05 2.070! C8 1.12!! 01 AVERA01 2039 2.C20E C7 1.609E C7 1.322f C7 1.112E C7 9.5655 08 5.2 45 05 3.4471 08 1.911E Ce Clif4 Cf IA > RELEA5! P0lkt (r!Lt$)

I 00WWIC C.

$1CTOA 065 20.00 25.00 30.00 35.00 40.00 45.00 50.00 W 73 1.9661 02 1.418! C8 1.0921 C8 E.742E 09 7.195f 09 6.0601 09 5.188f 09 mwt 59 1.132t 02 2.0511 09 6.1301 09 4.8541 09 3.9581 09 3.3071 09 2.809E 09 k! 203 1.3701 02 9.8015 09 7.497t 09 5.9631 09 4.882t 09 4.0951 09 3.492t 09 th! 357 2.647t et 1.29tt Ct 1.44 7E 08 1.151t 02 9.418t 09 7.8941 09 6.725E 09 8 198 3.2241 05 2.3191 05 1.7831 05 1.4241 08 1.170E 08 9.131E 09 2.3991 09 ist 139 1.3811 C8 9.8771 09 7.5551 09 6.007f 09 4.915t 09 4.118E 09 3.505! 09

$E 1 05 9.8061 09 7.C145 09 5.3621 M 4.262t 09 3.4871 09 2.9221 09 2.489t 09 ssE 29 8.2321 M 5.8 72i 09 4.4791 09 3.552t 09 2.895E 09 2.422! M 2.058t 09 I 8 Std SW WSs 79 76 181 181 5.4351 09 3.tS01 M 2,8911 09 6.3621 09 9.0471 09 9.70!! 09 6.426! 09 2.9201 09 2.305E 09 4.883E 09 6.919f 09 5.2721 09 3.86it 05 4.1791 09 1.876t 09 4.866! 09 3.867f 09 3.163t 09 1.5671 C9 1.330E 09 2.649E 09 2.2551 09 3.146E 09 2.6301 00 2.234E 09 3.4111 09 2.t!31 09 2.426f 09 4.376! 09 3.109E 09 2.363! M 1.8691 09 1.5231 09 1.2731 09 1.05i1 09 I

W 51 j nd 88 1.066! Cf 7.5871 09 5.77.! M 4.574t 09 3.7312 09 3.122t 09 2.655E 09 i h4 79 7.488! 09 !.3221 M 4.930! 09 3.29et 09 2.7071 09 2.279t 09 1.9491 09 the 72 7.232t 09 5.133E 09 3.8991 09 3.0521 09 2.510E 09 2.0951 09 1.7t.2E 09 AvtREE 2039 1.238! CE 2.tS4t 04 6.7721 09 5.325E 09 4.4C7E 09 3.6951 09 3.149E 05 A-8

APPENDIX A-9 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EHISSION FOR REACTOR BUILDING VENT FOR April - June 1988 80510u E0!sch 240 Guatitt 1988 StuttAL 1/0 s apt lL 1,1988 to Amt 30,1988 8tC10s AvitAct m00tt SA3JWD BELEASE: AVitACE DEPO 51110h RA115 (REGULA10RT GU1011.111 N00!L) =

(1/M2)

D M V!ND Wo. C151AkCE PADM t!LIA51 Polhi (m!LES) stC10s 085 .12 .25 .50 .75 1.00 1.50 2.00 2.50 t 75 6.222t 02 2.092t 08 7.0Mt 09 3.729t 09 2.3071 09 1.116t 09 6.8068 10 4.638t 10 th! $9 4.894t 08 1.k 6t 08 5.5561 09 2.9331 09 1.815t 09 8.776t 10 5.354t 10 3.k 9t 10 l st 203 1.6841 07 5.663! 08 1.9121 08 1.0091 08 6.2441 09 3.019E 09 1.8421 09 1.255E 09 tri 357 2.962E C7 9.9591 06 . 3.3631 08 1.775t 08 1.09st 06 5.3101 09 3.2401 09 2.2081 09 8 198 1. 6 3t 07 5.524t 02 1.865t 02 9.843E 09 6.0901 09 2.9458 09 1.797t 09 1.224t 09 ISE 139 1.153t C7 3.8781 08 1.310E 08 6.910t 09 4.275t 09 2.068t 09 1.2618 09 8.596E 10 SE 105 8.710t C8 2.929t De 1.0&CE 08 5.7421 09 3.5531 09 1.7161 09 1.048E 09 6.493E 10 ,

s5E 89 8.121t 02 2.731E 04 9.2231 09 4.425t 09 2.738E 09 1.324t 09 8.C771 10 5.5045 it '

s 79 7.86 t 02 2.6451 08 7.443t 09 3.924 09 2.430t 09 1.1751 09 7.169t 10 4.6851 1C

$$w 76 6.93$1 02 2.3321 08 7.16CE 09 3.776t 09 2.338t 09 1.130t 09 6.89M 10 4.7001 10 sw 181 1.652t C7 5.554t C8 1.705t ci 2.998t 09 5.56M 09 2.692f 09 1.6431 09 1.1191 04 Vsd 162 1.716t 07 5.7691 08 1.771t 08 9.3 6t 09 5.783t 09 2.7961 09 1.706t 09 1.1631 09 W $1 4.654t 02 1.565f ce 4.805t 05 2.789t 09 1.726t 09 5.344t 1C 5.091t 10 3.1541 1C as 88 7.300t 05 2.455! C! 4.291t 09 4.35E 09 2.7C71 09 1.309t 09 7.9661 10 5.966E 1C 64 79 6.5541 02 2.20 5 02 7.4431 09 3.9271 09 2.430t 09 1.1751 09 7.169t 10 4.825t 1C l

hw T2 5.973t 02 2.009f 02 6.7831 09 3.5791 09 2.215t 09 1.071E 09 6.5341 10 4.4521 10 l 6vtaACE 2C39 1.0961 C7 3.6tSE C! 1.212E 08 6.36.t 09 3.950t 09 1.910E 09 1.165t 09 7,9156 1C DOW i!EC 60. CISTAhCE fiar RELEASE P01st (m!LES) l stC10A 081 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.0C h 75 3.394t*10 2.596E 10 2.053! 10 1.649E 1C 1.361! 1C 6.8231 11 4.196t 11 2.0701 11 Ext 59 2.6701 10 2.042! 1C 1.6151 1C 1.298! 1C 1.C711 10 5.3651 11 3.3C1E 11 1.6?9! 11 W! 2C3 9.166! 1C 7.C26! 10 5.5551 1C 4,464E 10 3.6231 10 1.6.7t 10 1,13tt 10 5.603E 11 ,

th! 357 1.6151 09 1.236t 09 9.7701 1C 7.t$1E 1C 6.4761 1C 3.248! 10 1.9971 1C 9.2541 11  !

t 198 8.9591 1C 6.253! 10 5.419t 1C 4.354t 1C 3.5931 10 1.801t 10 1.1081 10 5.455t 11 l til 139 6.29CE 10 4.211t 1C 3.804t 1C 3.0571 1C 2.5221 10 1.2651 1C 7.7761 11 3.2371 11 st 105 4.751t 10 3.634t 1C 2.87.!*iC 2.309E 1C 2.096t+10 1.051E 10 6.4611 11 3.168t 11 sSt 89 4.C271 1C 3.0801 1C 2.4361 10 1.957! 1C 1.615t 10 t.0971 11 4.979f 11 2.454 11 5 79 3.55E 1C 2.734t 1C 2.162f 10 1.7371 10 1.433E 1C 7.1671 11 4.420t 11 2.ttit 11 I ssw 76 3.439E 10 2.630t iC 2.0801 it 1.6711 1C 1.3791 10 6.914E 11 4.2521 11 2.0981 11 j sw it) 8.190E 10 6.2641 1C 4.953t 10 3.621E 1C 3.28 f 10 1.6 71 10 1.0131 10 4.99et*11 Wsw int 2.5C?t 10 6.5CM 10 5.145E 1C 4.1351 10 3.752t 10 1.7101 10 1.052t 1C 5.189! 11 W 51 2.3082 10 1.765t 1C 1.3961 1C 1.1221 1C 9.254t 11 4.401 11 2.853t 11 1.4061 11

,. wd 88 4.3501 10 3.350E 1C 2.k ti 1C 2.1291 10 1.5971 1C 8.006t 11 4.9?3t 11 2.429t 11 l av 79 3.5 5E 1C 2.734t 1C 2.1o2t 1C 1.7371 10 1.433E 1C 7.1671 11 4.420t ii 2.181E 11 l tw 72 3.2551 1C 2.492t 1C 1.970t 1C 1.$t3t 1C 1.306E 1C 6.550t 11 4.C281 11 1.9671 11  ;

1' AvtAACI 2C39 5.7911 10 4.4301 10 3.503t 10 2.815t 10 2.3461 10 1.1651 1C 7.1661 11 3.536E 11 I DMWic WO. Cis1AkCt Ftop arttast P0lut (mlLil)

! stC104 cas 20.00 25.0C 30.00 35.0C 40.00 45.00 5C.00 h 75 1.2721 11 8.5671 12 6.C361 12 4.5121 12 3.5211 12 2.t?9E 12 2.3911 12 tNE 59 1.001E 11 6.7391 12 4.748E 12 3.550! 12 2.770E 12 2.265t 12 1.8811 12 l et 2C3 3.444t 11 2.319t 11 1.634t 11 1.221t 11 9.529t 12 7.793t 12 6.4711 12 I

twt 357 6.0571 11 4.C78t 11 2.t'3t 11 2.14t!.11 1.6761 11 1.3711 11 1.1381 11 t 198 3.3591 11 2.262E 11 1.594t 11 1.1911 11 9.2951 12 7.601t 12 6.312E 12 f$t 139 2.358! 11 1.568!*11 1.119t 11 8.3631 12 6.5251 12 5.3361 12 4.431t 12

, st 105 1.959E 11 1.3191 11 9.296E 12 6.9491 12 5.422E 12 4.4341 12 3.6821 12 l sst 89 1.510t 11 1.C17E 11 7.163t 12 5.3551 12 4.178! 12 3.417t 12 2.2375 12 5 79 1.34C1 11 9.C241 12 6.356! 12 4.753! 12 3.70t! 12 3.C33t 12 2.518t 12 SSW 76 1.289t 11 8.6211 12 6.1171 12 4.573E 12 3.56tt 12 2.918! 12 2.423t 12 sw ist 3.C711 11 2.0671 11 1.457E 11 1.0891 11 8.497E 12 6.949t 12 5.7701 12 vsW 188 3.1891 11 2.1471 11 1.5131 11 1.131t 11 f.8251 12 7.218! 12 5.993t 12 W 51 8.6521 12 5.8251 12 4.1051 12 3.068! 12 2.39.t 12 1.9581 12 1.626! 2 We 88 1.493t 11 1.005t 11 7.C!!! 12 5.2951 12 4.131t 12 3.378! 12 2.E051 12

k. 79 1.5 0E 11 9.C241 12 6.358! 12 4.7531 12 3.70!! 12 3.CI31 12 2.5121 12 su 72 1.222t.11 E.22 1 12 5.795t 12 4.3321 12 3.380! 12 2.76-t 12 2.2951 12 Avis 4Ct 2C39 2.173t+11 1.463t 11 1.C311 11 7.?C71 12 6.0131 12 4.9121 12 4 .013!*12 l

A-9 l

1 APPENDIX A-10 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR April - June 1988 80$10W E0150k fue suAA1181982 GlutkAl, R/01 APRIL 1,198810 Juut 30,1988 8tC10R utaAct scott

$ FACE RELEAst: OACUwD LivtL 6vtaACI Cal /0 Nfont DEPLit10m (SPLll N 8ECEL3 *

(SIC /M3)

DOWWIND #0. CIS1Ak:( FROM tiLI Att Polti (MILES) stClot ces 12 .25 .50 .75 1.00 1.50 2.00 2.50 W 84 5.1471 10 2.049t 08 1.313f 08 8.156t 09 7.5671 09 1.005t 08 1.243t 08 1.338t 08 m2E 98 1.5231 09 4.8251 08 1.8291 08 1.C231 08 9.5384 09 1.0341 08 1.093t 08 1.090t 08 kt - 397 3.9191 09 1.173t C7 5.5391 06 3.2211 06 2.7681 06 2.794E 02 2.9538 08 2.9548 08 t%E 147 5.469t 10 '1.9531 04 8.180E 09 4.780t 09 5.2321 09 7.815t 09 9.576t 09 1.C24f 08

! 126 6.90 t 1C 2.7391 08 1.2215 08 6.892t 09 6.8696 09 8.8721 09 1.006t ce 1.C271 C!

Ist 151 1.535t 09 5.t111 08 2.191t 08 1.271t 08 1.240t 08 1.4418 02 1.5278 08 1.5 Cit C!

5E 148 5.C321 09 1.6428 C7 6.8221 08 3.031t 08 2.2Jt 08 2.3181 02 2.326t 02 1.592t C!

I sit 1C2 2.6381 09 9.5'3E Ce 4.520t 04 3.412E 05 4.073t 08 3.758t.02 3.3581 05 2.9621 08 l 5 92 1.591f 09 7.5991 08 4.357t 02 9.6 6L 02 9.1681 C2 1.127! 07 1.0611 C7 8.525E C!

ESW 170 4.025f 00 2.1671 C7 9.71?! 08 1.2251 C7 2.378E-C7 2.5C7t C7 1.6314 C7 1.179t C7 Ss 228 2.9511 09 1.66 t C7 7. f.331 02 1.156t C7 1.2231 C7 1.240E 07' 1.030E 07 8.5e41 C$

Wsw 74 1.t!51 09 2.10 1 C? 6.459t 04 4.1871 08 5.433t*02 5.712t C2 4.716t 08 3.9171 01 i W 70 1.4931 09 1.195t C7 7.C201 08 4.9531 Ce 5.221t 08 4.945t 08 4.306t 08 3.383t t l Ws 35 k. 012t 1C 4.6:51 CE 3.1601 08 1.631t 08 1.6144 08 1.6311 05 1.5621 08 1.3181 ;!

bd 87 1.9511 09 8.996t Ci 3.2591 08 1.774t 08 1.5968 08 1.545t 08 1.466t 08 1.3891 C5 h%d 121 1.9321 09 6.928E 02 2.955t 08 1.5614 08 1.3421 08 1.3918 08 1.505t CE 1.5221 C!

AbitA:t 2150 2.0681 09 9.618t 04 4.317t*08 3.844t 08 4.602t Ot 4.8741 08 4.079t OS 3.367t*C8 C M W1hD h0. Ols1 A601 te> k!Llast P0thi tultts) g.

st:1CA 085 3.CC 3.50 4.00 4.50 5.00 7.50 10.00 15.00 6 84 1.328! 0! 1.2681 0! 1.235! 02 1.182! 08 1.122f 08 E.482t 09 6.6391 09 4.533t 09 l hht 98 1.043t 08' 9.835t 09 9.3385 09 8.841E 09 8.324E 09 6.233t 09 4.9131 09 3.4271 09 397' 2.831E 02 2.692( 02 2.5491 02 2.4171 08 2.2791 05 1.7111 08 i.3491 C$ 9.409t 09 hl Ext 167 1.0181 0! 9.933t 09 9.5911 09 9.2351 09 8.827t 09 6.299E 09 5.573t 09 4.009t 09 1 126 9.935t 09 9.471t+09 2.9?5t 09 8.5081 09 8.C291 09 6.0591 09 4.8051 09 3.3231 09 l Est 151 1.415f CE 1.322E 08 1.232t 08 1.151t 01 1.0721 08 7.7381 09 5.968t 05 4.C341 Ci l 51 148 1.486t 05 1.360f 08 1.222t 08 1.195t 0! 1.110E 08 8.C181 09 6.208i 09 4.2406 M

$11 1C2 2.616! C8 2.3311 C8 2.0941 0! 1.893t 08 1.722t Ot 1.1751 08 8.8261 09 6.89.t 04 5 92 6.7421 0! 5.5171 C1 4.635t C2 3.9691 02 3.4551 04 2.050E 08 1.4231 02 8.5371 C4 ssW 170 9.1161 0! 7.3471 C! 6.1C31 04 5.1821 05 4.4781 08 2.6011 03 1.7881 C2 1.Co21 C!  !

l SW 228 7.1971 05 6.171t 0! 5.3721 08 4.7301 08 4.209t 0! 2.6691 08 1.9171 C! i.191E C!

j W5W 74 3.3021 08 2.8291 0! 2.460E 05 2.165E 02 1.9221 02 1.20 t 05 8.5571 09 5.227t 09 W 70 2.9351 02 2.577E 08 2.?t9E 05 2.053E 02 1.8521 08 1.773t ct 1.2481 08 7.5631 09 WW 35 1.1831 08 1.045! 02 9.830t 09 8.7661 09 6.6598 09 5,3131 09 4.056! 09 2.609t 09 Ed 87 1.274t 02 1.1671 C8 1.C701 08 9.876t 00 9.0881 09 8.2521 09 6.107t 09 4.5941 09 hs 121 1.4761 01 1.40t! 04 1.333! 0! 1.26.t 08 1.190! 05 2.236! 09 7.4701 09 1.0421 C!

j' wtRA01 2150 2.8721 0! 2.5011 02 2.213! 08 1.9231 C.8 1.782t 02 1.2351 06 9.1486 09 6.338! 09 D M WINO Wo. Oll1 Ak:t FR> ttLEst! Polhi tulLil)  !

! stC10A 085 20.00 25.0c 3C.00 35.00 40.00 45.00 50.00 I

h 84 3.4071 09 2.7111 09 2.2421 09 1.907E 09 1.656t 09 2.212t 09 1.951E 09 pt 98 2.6271 09 2.1231 09 1.775t 09 1.525E 09 1.336t 09 1.190E 09 1.072f 09 kt 397 7.201t 09 5.8121 09 4.854E 09 4.1651 09 3.6471 09 3.246t 09 2.922t 09 th! 167 3.1321 09 2.7211 09 ' 2.7971 09 2.3991 09 2.099t 09 1.8671 09 1.6791 09 t 126 2.6128 09 2.12?t 09 2.5881 09 2.2011 09 1.9111 09 1.6891 09 1.5101 09 i

ESI 151 3.C391 09 2.952t 09 R.443! 09 2.0211 09 1.211t 09 1.6045 09 1.4381 09 51 145 3.2145 09 3.7501 09 3.C791 09 2.604t 09 2.2511 09 1,980t 09 1.7641 09

$st 102 4.9931 09 3.823f 09 3.167! 09 2.6631 09 2.255! 09 2.0021 09 1.774t 09 8 92 5.9531 09 4.5228 09 3.638! 09 3.023t 09 2.573f 09 2.2341 09 1.966t*09

$5W 170 7.372t 09 5.5851 09 4.4841 09 3.7211 09 3.165t 09 2.7461 09 2.416t 09 j Si 222 8.4951 09 6.5401 09 5.2978 09 4.4271 09 4.018! 09 3.4971 09 3.084t 09  ;

WSW 74 3.691E 09 2.t571 09 2.477t 09 2.0511 09 1.740E 09 1.5311 09 1.344t 09 '

W 70 5.3171 04 4.056t 09 3.2t5! 00 2.716! 09 2.556E 09 2.2134 09 1.9401 09 Ww 35 1.9041 09 1.635f 09 1.6:31 09 1.47005 1.254E 09 1.0291 09 9.566! 10 bd 87 3.3501 09 2.7721 09 2.33-t 09 2.648! 04 2.2571 09 1.9621 09 1.730! 09 l kWW 121 7.351E 09 5.6251 09 4.5421 09 3.7871 09 3.2351 09 2.817t 09 2.4871 09 i A4tA:t 2150 4.604I 09 3.7301 09 3.162! 09 2.712E 09 2.3621 09 2.1171 09 1.8771 09 I i

A-10

. _ _ _ _ - _ - _ _ _ u

l La APPENDIX A-11 DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR HAIN STACK FOR April - June 1988 80$f0h (0!$0h 2C SuAf f Et 1968 OttttA.1/0 $ Apelt 1,1984 TO Jukt 30, 1988 SECTOR AVERAct nocEL STAOK RELEASE 04UWD LEVEL AV!tA0t CMl/C Af fEt DEPLE110h (Mif. AND ATOMit tuttCT 1968 DEP4til0N MCEIL) -

!$EC/R3)

DOWJ:WD NO. C!stAhCC Ft> RELE A5E P0lai (ulLit)

$IC10t oss 12 .25 .50 .75 1.00 1.50 2.00 2.50 I k hhE WE thE 84 98 397 167 5.1471 1C 1.523t 09 3.9190 09 5.4690 10 2.047t 08 4.882E 08 1.3091 02 1.883E Og 2.112E 09 7.523E 09 1.019E C8 9.494t 09 9.999f *09 1.C2BE 08 1.233E 08 1.0551 02 1.173E C7 5.5231 08 3.206008 2.752t 08 2.7760 08 2.931E 08 2.925E Ot 1.952E 08 8.150D 09 4.59f 09 5.211t 09 7.725E 09 9.523E 09 1.321E 02 1.C7EE 06 1.015E 08 6.8341 09 8.8251 09 I

E 126 6.90.E iC 2.736D CS 1.216t 02 6.8561 09 9.9791 09 1.015E 05 ist 151 1.535E 09 5.1071 02 2.1E3E Og 1.2651 02 1.235E 08 1.434E 04 1.515F 08 1.452E 08 SE 148 5.C32E 09 1.6 0t 07 6.797t 05 3.016D Ct 2.231E 02 2.3041 02 2.3041 08 1.5671 06 sst 102 2.638E 09 9.565t 05 4.495E 04 3.4001 08 4.060t 08 3.740E 08 3.332E OS 2.929E CE S 92 1.591E 09 7.591E Ce 4.3 4t ce 9.63.E Ct 9.1471 02 1.1181 C7 1.042E C7 t.275t C!

15. 170 4.0851 09 2.16et C7 9.671t 08 1.222DC7 2.371E 07 2.478D C7 1.596E 07 1.138! C7 Sw 225 2.951E 09 1.662t C7 7.60 t 02 1.154E C7 1.221E C7 1.232E C7 1.016t 07 f. 354t CE WS- 74 1.255E 09 2.1001 C7 6.3 99I - C! 4.iS6E CE 5.401E 08 5.647E 08 4.619E 08 3.790D C8 W 70 1.493t 09 1.173t C7 6.97.t 05 4.9221 02 5.185t 08 4.885E OS 4.215t CE 3.27et CE Whv 35 2.0121 10 4.60D1 02 3.1371 08 1.613t 02 1.598t 02 1.6151 02 1.5371 02 1.2251 CE 1.9811 09 E .9661 08 3.2 3! 08 1.76.! 08 1.5tSE 08 1.5311 08 1.467E 08 1.364E Og I

hs 87 hhs 121 1.9321 09 6.922E C8 2.9 31 02 1.5521 02 1.333E 08 1.3811 08 1.490E 08 1.507E 02 avita 01 2150 2.0681 09 9.6C7E Ce 4.2961 08 3.830D 08 4.58.E Og 4.8301 08 4.0140 02 3.225 DOS C W !h0 k0. C151 ACE f eam RELE A51 P0lkt (u!LES)

I $1Citt h

hht 06?

84 95 1.3021 08 1.C26E 0!

3.00 3,5C 1.252E 08 9.6*2E 09 4.00 1.188t 08 4.50 1.124E 08 5.00 1.0541 08 7.50 10.00 7.458! 04 5.4471 09 3.257E 09 9.C79t 09 8.536E 09 7.977t 09 5.7261 09 4.3121 09 2.7311 09 15.00 ht 397 2.795D08 2.6 6E 05 2.4941 02 2.3541 02 2.20EE 02 1.6081 02 1.2311 C8 8.113! 09 thE 167 1.006t C! 9.775t 09 9.399t 0 9.009t 09 8.571E 09 6.535t 09 5.14tt 09 3.524E 09 1 126 9.7751 09 9.273t 09 t.7 4E 09 E.2 7E 09 7.742E 09 5.689D 09 4.3921 09 2.9271 09 t $t 151 1.387t CE 1.2251 02 1. tact 08 1.096! 08 1.C10E 05 6.874E 09 5.0251 09 3.118! 09 st 148 1.453! CE 1.339t CE 1.234D C2 1.140E OS 1.C51t 05 7.264E 09 5.397t 09 3.420! 09

$$1 102 2.574E Ce 2.281E 0! 2.C35E 08 1.5251 05 1.646E 08 1.066E 05 7.5471 09 4.970E 09 I $

$$4 ss Wsd 92 17C 228 7e 6.461E C!

t.6771 C!

6.966t 08 3.1511 02 5.215E 02 4.318D05 3.6 3! 08 3.1231 02 1.7C7E+08 1.056E C8 5.458D09 6.8351 CE 5.62BD02 4.7001 08 3.994t 02 2.130t CE 1.34BE 0! 6.890D C9 5.90S! 08 5.C86! 08 2.660D CE 2.277! 08 4.428! 08 3.t951 05 1.9721 C8 1.7211 05 2.334f 02 1.5891 08 9.928f 09 6.527t 09 8.9351 09 3.4741 09 W 7C 2.8041 02 2.429D 08 2.125L 08 1.876E OS 1.6651 08 1.?B6E Og 7.801E 09 3.7061 09 I Whs hs hh4 35 87 121 1.142D 01 1.243E Ct 1.4.Bi 02 1.016! C!

1.1311 08 9.C76D 09 1.C3'! 02 1.3701 C! 1.28tDCS E.1571 09 9.42t! 09 1.211E Og 6.116t 09 8.606! 09 1.1291 08 4.534D 09 3.231E 09 7.977E 09 6.355E C9 1.842D 09 7.3691 09 5.2191 09 3.586! 09 7.2151 09 Avita 0E 215C 2.7761-04 2.3931 02 2.095E 08 1.8571 05 1.650E 05 1.0671 08 7.434D 09 4.573t 09 I DOWhdic SEC108 h0.

065 20.00 C!lfAk:f fRom t!LIA31 PC! v (81LES) 25.00 30.00 35.00 40.00 45.00 50.00 h 84 2.166D 09 1.539E 09 1.144t 09 8.203t 10 6.960t 10 6.603t 10 5.2961 10 hht 98 1.8971 09 1.393E 09 1.066E 09 E.4341 10 6.250E 10 5.63tE 10 4.79BE 1C WI 397 5.8871 09 4.516E 09 3.589E 09 2.937t 09 2.455E 09 2.089E 09 1.799E 09 th! 167 2.6211 09 2.155! 09 2.C74E 09 1.6571 09 1.401D 09 1.183E 09 1.Clit 09 E 126 2.133E 09 1.632t 09 1.750! 09 1.393! 09 1.1361 09 9.449D 10 7.97et 1C

!!! 151 2.2011 09 2.017E 09 1.55tD09 1.291E 09 1.074E 09 9.116! 1C 7.8401 1C 51 142 2.4171 09 2.442t 09 1.251t 09 1.452t 09 1.168E 09 9.601E 10 8.01EE 1C

$5t 1C2 3.1651 09 2.it71 09 1.6005 09 1.2161 09 9.5071 10 7.612E 10 6.2018 10 5 92 3.206E 09 2.C77t 09 1.447E 09 1.0571 09 E.C275 1C 6.292t 1C 5.053E 10

$5s 170 4.200! 09 2.8 4E 04 2.069E 09 1.5 5E 09 1.2411 09 1.0071 09 8.335E 10 se 228 5.8101 09 4.1001 09 3.0571 09 2.361E 09 1.c76t 09 1.512t 09 1.240f 09 i W5v 7. 2.177E 09 1.501t 09 1.062t 09 8.091E 10 6.378D ic 4.951E 10 4.101E 10 l b 7C 2.1665 09 1.4!.4t 09 1.043!.09 7.2361 10 5.3411 10 3.251t 1C 3.200E 1C l Wh. 35 1.2061 09 9.024E 1C 6.740t 1C 3.6115 1C 2.6291 it 2.125E 10 1.218D 1C I hi 87 2.419D 09 1.52SE 09 1.39ef C9 6.649E 1C 5.292E.10 4.337D 10 3.6311 10 l hhs 121 4.5.,2! 09 3.C*21 09 2.2201 09 1.667t 09 1.25t! 09 1.C19i 09 E.217D1C l -

AVt t A0! 2150 3.C13t 09 2.2291 09 1.7271 09 1.3111 09 1.0 6t.09 8.612E it 7.187D 1C A-11 1

APPENDIX A-12.

RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR April - June 1988

(?

00stok 10!sch 2W0 $UAffit 1988 $(uttAt R/0 3

  • APRIL 1,198810 JuWt 30,1988 SECTOR AVIRACl SEtt sfACE RELIAsEs AvttAat Dipostfloh 4Afts (0(PLEf tD CN1/0
  • DEP.' WELOCl?T N0Dit 8tET. Ast A1(Mit EkttCY 1968) =

(1/M2)

DO W11ND 80. OlsfAWE f tom RELE ASE PolN1 (NILEs)

SECTOR 00s .12 .25 .50 .5 1.00 1.50 2.00 2.50 W 84 5.1471 12 2.0471 10 1.3091 to 8. tiff 11 7.523E 11 9.999t 11 1.233E 10 1.3211 to 'I Wt 96 1.523E 11 4.882f

  • 10 1.883E iC 1.019E 10 9.4941 11 1.028t 10 1.085E 10 1.C78! 10 i ut ~ 397 3.919t 11 1.1DE 09 5.523t 1C 3.206t 1C 2.752E 10 2.776t 10 2.9311 10 2.925E iC ttt 167 5.469E 12 1.952E 10 t.150E 11 4.7591 11 5.2111*11 7.785E 11 9.523E 11 1.015t 1C E 126' 6.90=E 12 2.736E
  • 10 't.216f 10 6.tS6t 11 6.834t 11 8.825E 11 9.979E 11 1.0151 10 E st 151 1.535E 11 5.1071 1C 2.1831 10 1.265E 10 1.2351 10 1.434E 10 1.5151 10 1.482E 10 l

St 148 5.C32t.11. 1 k ot.09 6.7971 10 3.0161 10 2.231t 10 2.30.E 10 2.304E 10 1.567E 10 sst 1C2 2.638t 11 9.565E 10 4.495E 10 3.400t 10 4.060E 10 3.7401 10 3.332E 10 2.929E*10 s 92 1.591E 11 7.591E 10 4.3 4t 1C 9.634E 10 9,167E 1C 1.118! 09 1.042E 09 8.275t 10 ssv 170 4.025E 11 2.tk E 09 9.6711 1C 1.222f 09 2.371E 09 2.478b o9 1.596E 09 1.1381 09 sd 228 2.951E 11 1.662E 09 7.80 1 10 1.154E 09 1.221E 09 1.2321 09 1.C161 09 2.354t 1C Wsd 74 1.2551 11 2.100f 09 4.3998 1C 4.iS6f 10 5.4011 10 5.k71 10 4.619E 10 3.790f 1C W 70 1.4931 11 1.1931 09 6.97.E 1C 4.9221 10 5.it5f 1C 4.825E 10 4.215E 10 3.2748 1C wwd 35 e.C12E 12 4.600E 1C 3.137t 1C 1.613E 1C 1.5921 iC 1.615f 10 1.53M 10 1.2255 1C WW 87 1.9 tie 11 E.9661 10 3.243E 10 1.764t 10 1.St5E 1C 1.5311 10 1.4671 10 1.3641 10 kW 121 1.932E 11 6.922E 1C 2.9431 10 1.552t 10 1.333E 10 1.381E 10 1.490E 10 1.5071 10 l AvtAAct 2150 2.068E 11 9.60*E 10 4.24E 1C 3.8301 1C 4.5kt 1C 4.8301 10 4.014t 10 3.225 1C D WWilWO WO. OlsfAh:t FA*> RELEast P0lkT (m!LEs) stCfDA ces 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.CC k 44 1.302E 1C 1.252E 10 1.188! 10 1.124t 10 1.054f 10 7.458E 11 5.4471 11 3.257E 11 l-th! 98 1.C26E 10 9.6721 11 9.079t 11 E.5361 11 7.9771 11 5.726E 11 4.312E 11 2.731E 11 El 397 2.795E 10 2. k oE 1C 2.494E 1: 2.354E 10 2.208E 10 1.6081 10 1.2311 10 e.113E 11 fr! 167 1.006! 10 9.775f 11 9.3991 11 9.009E 11 4.571E 11 6.535E 11 5.1481 11 3.5241 11 1 126 9.775! 11 9.2'3! 11 2.7441 11 C.247f 11 7.7421 11 5.629E 11 4.392t 11 2.9271 11 ESE . 151 1.3871 1C 1.285E 1C 1.186t 1C 1.0%f 1C 1.010f 1C 6.87 8 11 5 C25E 11 3.11t! 11 st 148 1.453E it 1.339t it 1.23 5 it 1.140E iC 1.0511 10 7.2641 11 5.3971 11 3.420t+11 ss! 102 2.57.t 10 2.221E 1C 2.C35f 10 1.E25E 10 1.66f 10 1.066E 10 7.5471 11 4.9701 11 s 92 6.4611 10 5.215E 1C '4.318E 1C 3.6431 10 3.123E 1C 1.7C71 1C 1,0861 10 5.4581 11 ssd 170 2.677E *.C 6.825E 1C 5.628E 1C 4.700E 10 3.994t 10 2.130E 10 1.348! 10 6.890! 11 SW 228 6.9661 1C 5.90!! 10 5.0E.6! 1C 4.4281 10 3.895E*10 2.334E 10 1.589E*10 2.9351 11 Wsd 74 3.151E 10 2.6601 1C 2.2771 10 1.972E 10 1.721E 10 9.9281 11 6.52M 11 3.47.t 11 W 70 2.8041 1C 2.4291 1C 2.1256 1C 1.876t 1C 1.6658 10 1.286E 10 7.801E 11 3.706E 11 WWd 35 1.1421 1C 1.C16! 10 9.076E 11 8.157f+11 6.116E 11 4.534t 11 3.231E 11 1.8-21 11 kW E7 1.243t it 1.1311 10 1.C30! 1C 9.4281 11 8.606! 11 7.3t9E 11 5.219E 11 3.5861 11 l hhd 121 1.4481 1C 1.370! 10 1.288i 10 1.211E 10 1.1291 10 7.9771 11 6.355E 11 7,2151 11 l

AYERACE 2150 2.776E 10 2.3931 1C 2.095E 1C 1.857E 10 1.650E 10 1.0671 10 7.434t 11 4.5DE 11 0 1 00m'!C WO. Dis 1AW:t fADM Rett AsE PCthi (MILis)

! sic 10A ces c4 25.00 30.00 35.00 40.00 45,00 5C.00 l

N 84 2.166! 11 1.5391 11 1.1441 11 8.8031 12 6.960E 12 6.603f 12 5.296f 12 k21 98 1.897E 11 1.3931 11 1.066f 11 8.434E 12 6.850E-12 5.68t! 12 4.7981 12 ,

i WI 397 5.8871 11 4.5161 11 3.5891 11 2.9378 11 2.455E 11 2.0891 11 1.799E 11 j th! 167 2.6211 11 2.1581 11 2.C74E 11 1.687E 11 1.4 Cit 11 1.1231 11 1.0118 11 ]

E 126 2.133E 11 1.6321 11 1.7502 11 1.393t 11 1.136f 11 9.449t 12 7.9741 12 i ESE 151 2.201E 11 2.C14 11 1.588E 11 1.2911 11 1.074t 11 9.116E 12 7.lM0f 12 l SE 14E 2.417E 11 2.442f 11 1.851E 11 1.452E 11 1.1681 11 9.6011 12 2.018I 12 l 551 1C2 3.1651 11 2.1878 11 1.600E 11 1.2161 11 9.504 12 7.612E 12 6.2011 12 l l s 92 3.206E 11 2.0771 11 1.447E 11 1.0571 11 8.C27E 12 6.292E 12 5.C53E 12 '

l ssW 170 4.200!*11 2. k 4E 11 2.0691 11 1.55t 11 1.;t415 11 1.004 11 8.335E 12 SV 228 5.8101 11 4.1001 11 3.05M 11 2.361f 11 1.876E 11 1.512E 11 1.240!*11 WSd 74 2.1771 11 1.501t 11 1.062t 11 8.091E 12 6.378E 12 4.9511 12 4.101E 12 W 70 2.186E 11 1.454E 11 1.k31 11 7.8361 12 5.3415 12 3.251E 12 3.200E 12 Whd 35 1.206f 11 9.C241 12 6.7 0t 12 3.611E 12 2.689E 12 2.125E 12 1.8185 12 kW 87 2.4191 11 1.225E 11 1.39 f 11 6.649E 12 5.292f 12 4.3371 12 3.63 9 12 thd 121 4,$$2{.11 3,C72[.jj 2,2}${.11 1,667[ 11 j,2$$j.11 j,C19[*11 $.217(*12 6YERACI 21$0 3,013[ 11 2.2291 11 1,7273 11 1,311[ 11 1.0461 11 2.6121 12 7.187E 12 1

l A-12

l l

APPENDIX A-13 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT l EHISSION FOR REACTOR BUILDING VENT FOR July - September 1988 80510h EDlSOh 3RD OUAtigt 1988 GENITAL R/0'8 NLT 1,198810 SEPTEstBtt 30, 1988 8ttf 0R AV[tAGE IEODEL Staue RELLAsts secuMD Liv L 6vttACE Cul/0 S!f 0Rt DEPLilloh =

(Stt/M3) -

D M VIND h0. Ollf AN:t FA> RELE All Polut tulles) .

SECfoe 085 .12 .25 .50 .5 1.00 1.50 2.00 2.50 t 59 2.790E 05 8.1511 06 2.8491 06 1.590E 06 1.045t 06 5.6871 C7 3.690t 07 2.6541 07 Cf 182 4.618U05 1.33BE 05 4.476t 06 2.4691 06 1.6201 06 8.9571 07 5.8841 C7 4.270t 07 21 392 7.807t 05 2.276t 05 7.313t 06 3.955t 06 2.571t 06 1.436t 06 9.539E C7 6.970E 07 E%E 426 1.3051 0. 3.7996 05 1.218! 05 6.6251 06 4.3901 06 2.4581 06 1.6281 06 1.18t! 06 E 258 2.217E 05 2.195t 05 7.3391 06 3.909t.06 2.5291 06 1.4451 06 9.7551 C7 7.2 Cit C7 t$t 80 2.7501 05 7.9351 06 2,709E 06 1.4921 06 9.7641 C7 5.364t C7 3.5121 C7 2.544t 07 l- 51 66 2.4851 05 7.166t 06 2.6081 06 1.446t + 06 9.536t C7 5.258t C7 3.4491 07 2.2761 C7

$18 68 1.9211 05 5.6021 06 1.9501 06 9.7651 C7 6.3891 C7 3.4591 07 2.241E C7 1.6121 C7 5 61 2.t33t 05 8.20M 06 2.1918 06 1.228! 06 E.191t C7 4.554t 07 2.929t C? 2.1701 C7 SSW 54 1.8.st 05 5.346! 0c 1.525t C6 8.820! C7 5.8471 C7 3.2411 07 2.129t C7 1.5451 C7

$w 51 2.834t 05 2.2091 06 2.32.t Oc 1.306t 06 8.7651 C7 4.9121 07 3.235t C7 2.355t C7 e i W5d 33 2.162! 05 6.370E 06 1.792t 06 1.015t 06 6.823t C7 3.8291 C7 2.5201 C7 1.631t C7 l W 62 4.329t 05 1.285t+05 3.8221 06 2.3451 06 1.552t 06 2.5301 07 5.5621 07 3.6a! 07 Whd 56 1.877t 05 5.622t 06 1.827t 06 1.C371 06 6.783E ;/ 3.67+t 07 2.378t C7 1.875! C7 tw 48 2.298! 05 6.590t 06 2.!G.t De 1.334t 06 8. 730t + C 7 4.721t 07 3.056t C7 2.197t C7 i

thW 54 2.8921 05 8.4298 06 2.7 Cit 06 1.499t ce 9.910E C7 5.5431 C7 3.660t C7 2.6661 07

~

AvtaA:t 1956 4.045t 05 1.1781 05 3.7571 06 2. Cut 06 1.361t 06 7.5701 07 4.9931 C7 3.6061 C7 D M WIND 60. Olsf ak t Ft> ttLEAst P0lkt (mlLis)

SE C10A 035 3.00 3.5C 4.00 4.50 5.00 7.50 10.00 15.00 I h 59 2.046t IC7 1.6421 C7 1.357t C7 1.145t C7 9.tS2t 02 5.634t 05 3.8221 05 2.220t 08 l

kki 182 3.3091 C7 2.6691 07 2.217t 07 1.830! C7 1.6231 07 9.403t 02 6.4398 C8 3.7991 Ce ht 392 5.416f 07 4.379t 07 3.647E C7 3.10.t C7 2.6891 C7 1.571t C7 1.C13E C7 6.452t 08 Ext 426 9.2318 C7 7.464t 07 6.2171 07 5,2901 C7 4.5231 07 2.6 tit C7 1.8481 C7 1.100! C7 l t 25! 5.6201 07 4.563t C7 3.8151 C7 3.262t C7 2.t38t 07 1.678! C7 1.1651 07 7.C25t 08

Est 80 1.9701 C7 1.5E7t C? 1.316! C7 1.114t C7 9.6101 C8 5.5378 08 3.762t 02 2.226t C8 St 66 1.76ti C7 1.428! 07 1.188! 07 1.00$! C7 9.586t 02 5.5721 C8 3.E26f 02 2.2t!E 02 SEE 68 1.2421 07 9.967 1 0! 8.2431 08 6.956t 08 5.9t2t 08 3.4181 0! 2.3191 CE 1.3511 02 5 69 1.625t 07 1.363t C7 1.135DC7 9.6491 08 8.3521 05 4.8841 02 3.36-t 0! 1.99.! 05

$5W 54 1.1981 C7 - 9.676t 08 8.0 81 05 6.2361 08 5.9111 02 3.4431 08 2.3641 08 1.396! 02 f

SW 51 1.1321 07 1.4841 C7 1.238! C7 1.0551 07 9.152E 08 5.3871 08 3.723! CE 2.2151 08 l

Wsw 33 1.4221 C7 1.150! C7 9.5251 08 E.1641 02 7.7881 05 4.1621 02 2.8781 01 1.7C71 CE W 68 2.8171 C7 2.2661 C7 1.879t C7 1.593! C7 1.375t C7 7.976t 08 5.4561 02 3.19t! C!

WW 56 1.443! C7 1.1561 07 9.557t Ce 8.C711 Ce 6.315t C8 3.626t 02 2.467t C8 1.4391 02

! mw 48 1.6951 C7 1.3601 C7 1.123f C7 9.460! 02 4.122t 05 4.610t 02 3.119t ce 1.8131 0!

l hw 54 2.C70! C7 1.6731 C7 1.393! 07 1.1251 C7 1.C261 C7 6.003! 08 4.134t ce 2.4531 02 AYEAACE 1956 2.7988 C7 2.259E C7 1.8791 C7 1.597E 07 1.1881 C7 2.0601 08 5.5411 O! 3.28-t Ct DOWWlE' WC. OllTAk t FR> RtLEA$t PolWT (mlLE5) stC108 Ost 20.00 25.00 30.00 35.00 40.00 45.00 50.00 W 59 1.5181 02 1.137t C2 9.C36! 09 7.4371 09 6.2781 09 5.4171 09 4.740E 09 kWE 182 2.6221 C! 1.9771 05 1.581t 08 1.3081 08 1.1091 02 9.595t 09 8.4201 09 et 392 4.480t 05 3.3965 02 2.7271 01 2.264t 08 1.926t 04 1.6711 02 1.4701 C8 fut 426 7.624t C8 5.769t C! 4.6291 08 3.8378 01 3.2591 08 2.8221 02 2.4781 C8 1 255 4.908! 08 3.7371 0E 3.C151 02 2.5118 02 2.142t 05 1.8611 02 1.640E 02

!st 80 1.55.t 08 1.156t 08 9.240E 09 7.639t 09 6.476t 09 5.6081 09 4.9231 09

$1 66 1.566f C8 1.182f 02 9.462t 09 7.829i 09 6.6391 09 5.7471 09 5.044t 09 851 68 9.2661 09 6.9571 09 5.542t 09 4.570E 09 3.8671 09 3.3451 09 2.9345 09 s 61 1.380t 02 1.043t 08 8.3511 09 6.910E 09 5.258! 09 5.0651 09 4.4421*09 SSW 54 9.6491 09 7.2821 09 5.8261 09 4.819E 09 4.0851 09 3.533t 09 3.099t 09 SW 51 1.5371 06 1.163t 02 9.3251 09 7.7231 09 6.5511 09 5.664t 09 4.967t 09 W5W 33 1.1811 08 8.9171 09 7.1391 09 5.9031 09 4.9981 09 4.311t 09 3.7741 09 W 62 2.2005 02 1.6541 01 1.320E C! 1.0891 0E 9.20t! 09 7.943! 09 6.951t 09 Whd 56 9.8211 09 7.423t 09 5.9171 09 4.88:! 09 4.127t 09 3.56.t 09 3.1221 09 kW &l 1.2391 05 9.2741 09 7.3701 09 6.066! 09 5.124t 09 4.42!! 09 3.879! 09 2Wd 54 1.6981 05 1.22.2t

  • 02 1.C28t 02 8.506t 09 7.2141 09 6.23t! 09 5.4721 09 AVERA:t 1956 2.273f 02 1.718t 08 1.376t CE 1.140t 02 9.673t 09 t.37.t 09 7.353t 09 l

A-13

_ _ _ _ - - _ - - _ - - - - - - - - _ - - _ - - _ _ - - - - - - - - - - - - - - - -]

1-II APPENDIX A-14 DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR July - September 1988

.I 1

80510W E0!$0h 340 SUAt114 1988 GEuttAL t/G'$

  • JULT i,19810 SEPTEstgit 30, 1988 $tCTOR 6VERAGt geQOfL GR3 20 RELIAS!! GROUND *CfVEL AvitAGE Cul/G AFitt DIPLE110h EtEGULATORT RJ10( 1.111 DIPLEllCE IICDEL) * ($fC/M3) 00WsikD ko. CISTANCE Ft'> RELEASE Polk 1 (Mitts)

SIC 10A 085 .12 .25 .50 75 1.00 1.50 2.00 2.50 m 59 2.6915 05 7.742E 06 2.604t 06 1.417t 06 9.164f 07 4.848E C7 3.0571 07 2.149f C7 I kNE kt th!

E 1&2 392 426 258 4.454! 05 7.529E 05 1.2595 04 7.9241 05 2.275E 05 1.271f 05 2.1621 05 3.609f 05 4.0891 06 1.113E t5 2.200E 06 5.957t 06 1.421t 06 6.68 t 06 3.525t 06 2.254t 06 7.636E C7 1.225E 06 3.8 81 06 2.095E 06 6.70t! 06 3.483E 06 2.2171 06 1.232E 06 4.8741 07 7.901E 07 1.349E 06 3.457E C7 5.643E C7 9.617t 07 8.021E C7 5.230E 07 iSE SC 2.6521 05 7.537E 06 2.476t 06 1.329E De t.560E C7 4.573E C7 2.9091 C7 2.059E C7 I SE Est 5

sss M

62 61 54 2.396t 05 1.852! 05 2.D?f 05 1.778! 05 6.856! 06 5.3221 06 2.35-t 06 1.288t 06 8.3601 07 4.483E C7 2.tS7E 07 1.7221 06 8.7C2t C7 5.601E C7 2.948! C7 1.8571 C7 7.789! 06 2.0:3! S6 1.09.E 06 7.1 tit C7 3.242E C7 2.476E C7 5 CB' A 06 1.4491 06 7.859E 07 5.127E C7 2.7651 C7 1.763t C7 1.843! C7 1.30bt C7 1.756t C7 1.251t C7

+

i ss 51 2.733E 05 7.797t 06 2.125t D6 1.1641 06 7.625E C7 4.1271 C7 2.68)E C7 1.906E C7 W5s 33 2.091t 05 6.050E Oe 1.638! Le 9.045E C7 5.9821 C7 3.265; C7 L ot71 07 1.4E2E 07 W 62 4.175E 05 1.220f 05 3.493!-06 2.0CE-06 1.360E 06 7.271E C7 4.6C71 C7 2.954E C7 W4 56 1.210E+05 5.340! 06 1.7251 06 9.2 4E C7 5.946t C7 3.1321 C7 1.970E 07 1.520! C7 ts 48 2.216t 05 6.259E 06 2.188! 06 1.188t 06 7.6541 C7 4.C241 C7 2.531E C7 1.778t C7 hks 54 2.7291 05 2.0C71 06 2.4691 06 1.336E 06 2.688t 07 4.7251 C7 3.C32E 07 2.1581 C7 AVISACE 1956 3.9015 05 1.1191 05 3.4341 06 1.847E 06 1.1931 06 6.4541 C7 4.1351 07 2.9191 07 00W43 C 60. Ols1AhCE Fa> RELIASE P0thi tuttil)

SICTOR 085 3.00 3.50 4.0C 4.50 5.00 7.50 10.00 15.00 . _ . .

4 59 1.6271 C7 1.2841 C7 1.046! C7 8.7191 C8 7.40S! 08 3.981E 02 2.5711 02 1.3571 08 hht 182 2.631E C7 2.024t C7 1.709E C7 1.431t C7 1.221E C7 6.6431 05 4.332E 08 2.3DE 08 ht 392 4.3061 07 3.42t**C7 2.811E C7 2.363E C7 2.C221 07 1.1101 C7 7.28.E CE 4.C30E OS Eh! 426 7.3401 C7 5.84 C7 4.792( C7 4.C271 C7 3.446t C7 1.894t C7 1.243t C7 6.8691 02 E 258 4.4691 C7 3.570t C? 2.941E C7 2.4231 C7 2.1 bt C7 1.186! C7 7.840t 08 4.38tt C!

ESE 80 1.566! C7 1.2e1E C7 1.015E C7 2.413f 08 7.2265 08 3.9'2E C8 2.544t CB 1.3911 01 SE 66 1.406t C7 1.1171 C' 9.158! 02 7.675! 05 7.2081 08 3.9371 CE 2.574! 08 1.415E 02 55E 68 9.8DI C5 7.798! 08 6.3541 Ce 5.2951 02 4.4978 08 2.415E CE 1.5601 08 8.437E 09 5 61 1.340! C7 1.066! C7 8.7421 02 7.346! C5 6.250E 05 3.451E Ct 2.263E Ce 1.2451 0!

554 54 9.528! 05 7.570! 02 6.2041 08 5.20 E 08 4.4441 CE 2.4321 05 1.5901 08 8.7221 09

s. 51 1.4571 07 1.161E C7 9.546! 02 8.C34t C2 6.8811 08 3.8361 C2 2.5051 02 1.38-t 02 Wss 33 1.1311 C7 2.998! 08 7.3291 CE 6.215E CE 5.2551 02 2.945! CE 1.936E 08 1.066t C2 W 68 2.2401 C7 1.773E C7 1.449E C7 1.212E C7 1.C34E C7 5.635E C! 3.670t C2 1.998f Ct Ws 56 1.14t! C7 9.C .!! 02 7.3671 05 6.1441 05 4.7481 02 2.562E CE 1.660! 04 8.9!.!! 09 6.iC?t 05 3.2571 01 I

ks 48 1.3471 C7 1.06-I C7 2.660! C8 7.2011 C! 2.09t! OS 1.132E CE th. 54 1.6-61 C7 1.3091 C7 1.C7.f C7 9.C20E CE 7.717t 05 4.24it C1 2.7811 CE 1.532E CE W ~'

s AVERACE 19$6 2.22$1 C7 1.768f C7 1.449f*C7 1.216E C7 1.043E C7 5.6951 0! 3.7271 02 2.052f 08 Cis1AwCE f a> RELI ASL PolW1 (plLEs)

I BOW 41C WC.

stC10a oss 2C.0C 25.00 30.00 35.00 40.00 45.00 50.00 m 59 8.836! 09 6.241f 09 4.722E 09 3.721E 09 3.C22E 09 2.521! 09 2.137E 09 ww! 12.2 1.526! 0! 1.086E 01 8.263E 09 6.544E 09 5.3371 09 4.46 t 09 3.7951 09 kt 392 2.608! C2 1.865t 08 1.425t 08 1.133t 08 9.270E 09 7.773t 09 6.625t 09 th! 426 4.438! C! 3.168! 0! 2.4191 08 1.9201 08 1.5691 08 1.3131 08 1.1171 C!

t 252 2.2571 C8 2.0521 02 1.575t Cf 1.257E 01 1.C31t 02 2.658! 09 7.3911 09

!st 80 8.932E 09 6.39109 4.8281 09 3.822E 09 3.1171 09 2.6091 09 2.219E 09 51 66 9.1151 09 6.49;E 09 4.9451 09 3.918! 09 3.196! 09 2.674E 04 2.273! 09 55! 5.393E 09 3.820! 09 2.896t 09 2.287E 09 1.8611 09 1.5571 09 1.323E 09 I

64 5 61 8.C351 09 5.727E 09 4.364E 09 3.4581 09 2.8201 09 2.357E 09 2.002E 09 15s 54 5.617E 09 3.999i C4 3.045t 09 2.4111 09 1.966E 09 1.644I 09 1.397E 09 ss 51 8.946t 09 6.386t 09 4.873E 09 3.864t 09 3.1531 09 2.6351 09 2.2391 09 Wss 33 6.875f 09 4.8971 09 3.731E 09 2.9541 09 2.4065 09 2.006t*09 1.701E*09 1.2 tit CE 9.0tst Ci 4.432t.09 3.696! 09 3.133! 09 I

W 62 6.8981 09 5.4491 09 Ws 56 5.752! 09 4.C76! 09 3.092E 09 2.4421 09 1.987f 09 1.6591 09 1.4C71 09

h. 48 7.2iiE 09 5.093! 09 3.2511 09 3.C36t 09 2.4661 09 2.0611 09 1.7.t! 09 hhs 54 9.882! 09 7.0431 09 5.3691 09 4.256t 09 3.473E 09 2.9C31 09 2.4665 09 Av!Ratt 1956 1.3231 08 9.4321 09 7.1921 09 5.704t 09 4.6561 De 3.897t 05 3.3141 09 l A-14

l-i l

l APPENDIX A-15 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR July - September 1988 i 1

I 80510h EDisch Sao maattle 1984 stuttAL R/0'5 A&Y 1,198810 stPituste 30, 1988 SIClos AvtaACE MODEL GamJuo atLIAst 6vtaAct Otpotiflom RAf ts (P;GULATORY Cul0! 1.111 M00!L) * (1/M2)

O M ilr0 No. Ia M. .! (ROM RELEAst PO!KT (MILil)

SECT 0A 005 .12 J_5 .50 .75 1.00 1.50 2.00 2.50 N 59 5.10 0* 1.7161 02 5.7941 09 3.058E 09 1.892t 09 9.*481 10 5.581t 10 3.803t 10 tw! 162 1.576t C7 5.293E 02 1.7871 08 9.4328 09 5.836E 09 2.8221 09 1.7228 09 1.1731 09 WE 392 3.3901 07 1.140E 07 3.250t 08 2.C311 06 1.2571 08 6.C781 09 3.7081 09 2.527t 09

, Eh! 426 3.68-t C7 1.2391 C7 4.184t 02 2.208E 0e i.366t.08 6.605i.09 4.e301 09 2.7 61 09 l t 252 2.2311 C7 7.5C31 08 2.5341 08 1.3371 08 4.272f 09 4.000t 09 2.4411 09 1.6631 09

! Est 80 6.9181 0! 2.3261 02 7.2571 09 4.146E 09 2.565t CS 1.2401 09 7.568E 10 5.157t 10 3.7621 09 2.3281 09 1.126t 09 6.868t 10 4.255t 10 st 66 5.7C71 C! 1.919t 05 7.130t 09

$$t 68 4.468t 0! 2.1*5t 08 7.3461 09 3.524t 09 2.180t 09 1.054f 09 6.4331 ic 4.323t 10

$ 61 6.3301 C! 2.1271 02 5.9911 09 3.161t 09 1.956t 09 9.4581 1C 5.7711 10 3.932E ic ssw 54 5.137t 08 1.7271 08 5.3:31 09 2.7981 09 1.731t 09 8.373t 10 5.1081 10 3.481t ic

! sd 51 4.85 t C! 1.631E 08 5.0091 09 2.643E 09 1.6351 C9 7.9081 10 4.825t 10 3,28&t 10 i l

inw 33 3.139E C8 1.056! 08 3.241t 09 1.710E 09 1,058f 09 5.1171 10 3.122E 10 2.1271 1C I W 68 6.468t CE 2.1?51 08 6.678! 09 3.876! 09 2.398E.09 1.160! 09 7.076E 10 4.3231 it WW 56 4.8 31 08 1.6291 02 5.500t 09 2.9:21 09 1.796t 09 8.6E31 10 5.2981 10 3.971E it h 48 4.1511 C2 1.39&t 08 4.7141 09 2.488! 09 1.5391 09 7.4431 10 4.541t 10 3.09.t 1C thw 54 4.6701 04 1.570t ce 5.303t 09 2.7951 09 1.7318 09 8.373t 10 5.1081 10 3.4 tit 10 AvtAA:t 1956 1.C791 C7 3.6271 02 1.209E 05 6.3*9t 09 3.5.71 09 1.9091 09 1.164t 09 7.903t 10 1 00WWlWO WO. OlstAk:t Fay atLIA5[ P0lut tu1Lis) i SEttoa oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 59 2.7231 10 2.1291 1C 1.683t iC 1.353E 1C 1.1161 10 5.595t 11 3.4418 11 1.6981 11 Err 182 7 585t 1C 6.5661 1C 5.1921 10 4.172E 10 3.443t 10 1.726! 10 1.0611 10 5.2371 11 61 392 't .8 91 09 1.4141 09 1.118E 09 2.927t 10 7.4151 1C 3.718t 10 2.166t 10 1.128! 10 EEE 426 2.0091 09 1.5371 09 1.215E 09 9.766t 1C 8.0581 1C 4.0401 10 2.484! 1C 1.226t 1C 1 258 1.2171 09 9.30!! 1C 7.360! 10 5.915t 1C 4.8801 10 2.4471 10 1.5051 10 7.424t 11 t$t 80 3.77.t 1C 2.8661 10 2.22.21 1C 1.t341 10 1.513E 10 7.5871 11 4.6651 11 2.302! 11 St 66 3.113t 10 2.3211 1C 1.8231 10 1.513E 10 1.373t 10 6.8251 11 4.2341 11 2.029t 11 S$1 68 3.2:71 1C 2.4531 1C 1.940t 1C 1.559t 10 1.286t-10 6.449p 11 3.966t 11 1.9571 11 5 61 2.tT7E 1C 2.201E 1C 1.740E 10 1.398! 10 1.1541 1C 5.725t 11 3.557E 11 1.755t 11 SSW 54 2.5471 1C 1.9 8! 10 1.5411 1C 1.238! 10 1.0218-10 5.1211 11 3.149f 11 1.554; 11 51 51 2.406! 1C 1.8-0! 1C 1.45 51 1C 1.169t ic 9.6471 11 4.2374 11 2.9741 11 1.4671 11 WSJ 33 1.5571 1C 1.191t 10 9.414E 11 7.565t 11 6.866E 11 3.1301 11 1.9241 11 9.495! 12 W 68 3.2071 1C 2.4531 1C 1.9401 1C 1.5591 10 1.286! 1C 6.4491 11 3.966E 11 1.957 tai l WkW 56 2.9061 1C 2.222[ 1C 1.7571 1C 1.4121 10 1.0591 1C 5.311E 11 3.2661 11 1.611t 11 W8 48 2.26-t 1 1.7321 it 1.369! 1C 1.100E 10 9.C791 11 4.5521 11 2.799t 11 3.3!*t 11 Wsw 54 2.5471 10 1.9 t! 1C 1.5 1t 1C 1.2381 10 1.0211 1C 5.+.211 11 3.1491 11 '1.5541 11 AvitLCt 1956 5.783t 10 4.423t 10 3.4951 10 2.8111 10 2.3241 10 1.163t 10 7.1531 11 3.529E 11 l

l O M V!N: NO. CISTAh:t (R > tlLEA51 PClhi (MILil)

SIC 10A Oss 20.00 25.00 30.00 35.00 4C.00 45.00 50.00 l

W 59 1.0431 11 7.C251 12 4.9501 12 3.700t 12 2.827E 12 2.3611 12 1.9611 12 ]

i kx! 12.2 3.2191 11 2.1671 11 1.5271 11 1.141E 11 8.9061 12 7.28-t 12 6.048f 12 )'

h! 392 6.933[ 11 4.662! 11 3.2891 11 2.459i 11 1.9181 11 1.569t 11 1.303t 11 EWI 426 7.534E 11 S.C72f 11 3.5741 11 2.6721 11 2.'0!51 11 1.7051 11 1.416t 11 E 258 4.5632 11 3.C72E 11 2.165t 11 1.6181 11 1.2431 11 1.C331 11 t.573! 12 l

t$t 80 1.4151 11 9.526t 12 6.7121 12 5.0181 12 3.915t 12 3.2021 12 2.6581 12 l St 66 1.28-t 11 8.644t 12 6.0911 12 4.5!3E 12 3.553[ 12 2.905E 12 2.4131 12 1 $$t 64 1.2 31 11 E.0971 12 5.705E 12 4.2651 12 3.328E 12 2.7218 12 2.260f 12 5 61 1.C791 11 7.263t 12 5.1181 12 3.826t 12 2.925t 12 2.441t 12 2.C27t 12 S$w 54 9.550: 12 6.4301 12 4.530t*12 3.327t 12 2.6421 12 2.1611 12 1.7948 12 Sd 51 9.C191 12 6.C*31 12 4.279! 12 3.1991 12 2.4961 12 2.041t 12 1.695t 12 Wsw 33 5.236! 12 3.9291 12 2.7691 12 2.C70E 12 1.615t 12 1.32it 12 1.0971 12 W 64 1.2:3t 11 2.0971 12 5.705t 12 4.265E 12 3.3281 12 2.721E 12 2.260t 12 Whd 56 9.96t 12 6.66t! 12 4.698!.12 3.5121 12 2.740t 12 2.241t 12 1.8dit 12 hw 48 8.4!91 12 5.7151 12 4.C271 12 3.0111 12 2.3491 12 1.9211 12 1.595! 12 had 54 9.5501 12 6.430E 12 4.530t 12 3.3171 12 2.6421 12 2.1611 12 1.79et 12 AvttA;E 1956 2.169f 11 1.4611 11 1.0291 11 7.693! 12 6.0021 12 4.9091 12 4.C761 12 A-15 l l

l J

APPENDIX A-16 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR HAIN STACK FOR July - September 1988

- 80s10h tollok 340 maAAff t 1988 GENttAL 1/088

  • JULY 1,198810 Sititel8(t 30, 1988 SIC 10s avtaAct MODEL STAct SELEAlt GAMD Ltytt AvitAGE CN!/G 8(f 0Rt DEPktilch ($Phil H f@tL) *

($1C/m3) l DOWWlWO h0. Cll1Ak t FR > ttLEA$t POINT (MILT $)

SEC108 085 .12 .25 .50 .75 1.00 1.50 2.00 2.50 h 47 4.682E 10 1.6451 08 5.691t 09 2.894t 09 3.314t 09 4.834t 09 5.6611 09 5.927t 09 2N! 72 1.0581 09 3.618! 08 1.381E 08 6.623t 09 6.234t 09 8.271t 09 1.020t 08 1.111t 08 TE 315 5.0C2t 09 1.621t 07 8.2711 04 4.6041 08 3.9471 08 4.C24t 08 4.194E 08 4.122t 08 8%f 3 74 2.7251 09 9.578! 08 4.814E 08 3.0878 08 3.0741 08 3.8321 08 4.276E 08 4.3091 08 E 117 9.738t 10 3.6251 08 1.718t C8 1.C141 05 9.1391 09 9.578f 09 1.000t 08 9.8971 09  !

ESE 77 8.861E 10 3.9641 08 1.965f 08 1.139E 08 9.339E 09 8.5068 09 8.3595 09 8.C351 09  !

SE 112 3.771E 09 1.4451 07 5.368! 06 2.226E 08 1.636f 08 1.621E 08 1.616t 08 1.120E Ce I sst 85 3.340E 09 1.513E 07 9.071E 04 4.052t 08 4.4001 08 3.791t 02 3.1961 02 2.720E 08 I s 95 3.123t 09 1.5C3! C7 6.564E 08 1.251t 07 1.115t C7 1.1411 07 9.8771 08 7.746t 02 554 63 2.536E 09 1.321t C7 5.593f 08 6.1371 02 1.2191 C7 1.5911 C7 1.050E C7 7.649t 02 SW 59 2.200f 09 1.40t! C7 3.982f C! 4.239! 02 5.6871 08 6.1051 08 5.090E Ce 4.2281 C!

W5s 4C 2.418E 09 1.9791 07 5.992t 0! 3.1281 04 3.590E C8 3.678 08 3.C231 05 2.5C21 05 k 39 7.227E 1C 6.3671 08 5.793E C! 3.4431 C! 3.393E 08 3.251E 02 2.962t 08 2.4 Cit CE m 36 6.092t 1C 3.26 t 02 2.700E C8 1.961E 08 2.2571 08 2.442t CE 2.348f De 1.9961 Ct h4 37 t.C74E it 3.963E CE 1.4191 08 8.5971 09 9.285t 09 1.146! 08 1.219t 08 1.1981 C!

has 69 5.3 21 1C 2.4271 02 2.189! 08 1.447t CE 1.1481 08 1.130t*CB 1.249E 08 1.2255 02 AYtaAGE 1637 1.9481 09 9.180t 08 4.2121 08 3.215E 08 3.5128 02 3.841E 08 3.3118 05 2.798! 0!

00sWl h0 k0. D!l1Akt! f t> RELE A51 P0lW1 (ultis) 5t C10a 065 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 h 47 5.860E 09 5.7091 09 5.522t 09 5.3351 09 5.121t 09 4.097t 09 3.373t

  • 09 2.4951 09 .I hx! 72 1.118t 05 1.0971 Ci 1.062E 02 1.024t 08 9.7831 09 7.5631 09 6.0121 09 4.192t 09 {

61 315 3.8911 C8 3.M 21 OS 3.3961 02 3.1791 02 2.962t 08 2.1341 08 1.634t 02 1.0011 02 j th! 374 4.106E C2 3.841t CE 3.612E 08 3.384t 02 3.158! 02 2.2818 0! 1.74t! 08 1.1681 0!

E 117 9.4401 09 2.939t 09 8.4401 09 7.9tSI 00 7.520t 09 5.6541 09 4.487E 09 3.1691 01

!$t 77 7.5631 09 7.1111 09 6.68cE 09 6.3071 09 5.9241 09 4.4341 09 3.536! 09 2.517t 09 51 112 1.063! 08 1.0061 0! 9.521t 09 9.024! 09 8.504t 09 6.435t 09 5.151t 09 3.690! 09 l SSE 25 2.3801 02 2.120! CB 1.9122 06 1.736t 08 1.587! 08 1.1181 08 8.5971 09 7.366E 00 5 95 6.083E C! 4.955E C8 4.1481 08 3.543t CE 3.0771 02 1.811t 08 1.25?I 08 7.421E 09 '

554 63 5.928E 08 4.7871 04 3.9861 02 3.395E 05 2.941E 02 1.720E Ct 1.1871 C8 7.112t 09 Sn 59 3.5791 04 3.0251 02 2.6981 04 2.3851 01 2.177E 04 1.36?t Ct 9.844E Oi 6.174t 09 W5s 40 2.1051 CE 1.8021 02 1.568! 08 1.3 tit CC 1.226E 08 7.7048 09 5.5018 09 3.3961 09 W 39 2.1251 08 1.895E 08 1.7C2f 02 1.539t 08 1.398! 02 1.376f 02 9.677t 09 5.8741 09 a Whs 36 1.80e! Ct 1.636E 08 1.489t 08 1.363E 08 1.0415 08 8.592t 09 6.633t 09 4.2211 09 1 kW 37 1.129E 08 1.053E 02 9.800! 09 9.1488 09 8.5158 09 8.494t 09 6.2651 09 4.528t 09 l bd 69 1.2511 02 1.203! 08 1.149E CE 1.0971 02 1.0421 08 7.9728 09 7,0111 09 9.313E 09 q 4YttA0f 1637 2.428t 02 2.1451 08 1.9201 02 1.738! 04 1.568! 02 1.1191 08 8.3941 09 5.886E 09 I

00sWIC N0. C151Ak t FR:P' RELE A$t PClki (p!LI$) l SECTOR 08$ 20.00 25.00 30.00 35.00 40.00 45.00 50.00  !

I h 47 1.9811 09 1.636t 09 1.386! 09 1.203E 09 1.0641 09 1.6101 09 1.419E 09 I trl 72 3.1941 09 2.565t 09 2.134E 09 1.824E 09 1.592t 09 1.412E 09 1.2671 09 I

%E 315 8.1C3f 09 6.404t 09 5.2745 09 4.4711 09 3.874f 09 3.4171 09 3.0511 09 Ext 3 74 8.685E 09 7.1171 09 6.575E 09 5.547t 09 4.7861 09 4.209E 09 3.7471 09 E 117 2.458E 09 2.005t 09' 2.639f 09 2.260E 09 1.976t 09 1.756t 09 1.5789 09 ist 77 1.963t 05 2.058! 00 1.725f 09 1.4251 09 1.3032 09 1.163E 09 1.0481 09 SI 112 2.825t 09 4.060E 09 3.3731 09 2.880E 09 2.509t 09 2.222t 09 1.9915 09

$51 85 5.4371 09 4.28 E 09 3.526! 09 2.988t 09 2.5881 09 2.2801 09 2.C35t 09 5 95 5.213t 09 3.960! 09 3.1241 09 2.6491 09 2.2571 09 1.961t 09 1.7291 09 Ssd 63 4.958! 09 3.7718 09 3.C381 09 2.5291 09 2.1565 09 1.874E 09 1.6521 09 sv 59 4.4361 09 3.4345 09 2.791t 09 2.3411 09 2.155t 09 1.8231 09 1.66st 09 WSV 40 2.417t 09 1.881t 09 1.628! 09 1.354E 09 1.1531 09 1.0171 09 8.954f 10 '

W 39 4.1251 09 3.144t 09 2.5311 09 2.1041 09 1.9301 09 1.6671 09 1.461E 09 Wu 36 3.1151 09 2.644t 09 2.4471 09 2.1441 09 1.814t 09 1.565t 09 1.371E 09 bd 37 3.228! 09 2.5601 09 2.104t 09 2.001E 09 1.6901 09 1.45tE 09 1.276! 09 hk. 69 6.4961 09 4.928! 09 3.9541 09 3.2771 05 2.783E 09 2.410E 09 2.117t 09 l l

AYtta 01 1637 4.293t 09 3.5291 09 3.C191 09 2.566t 09 2.227f 09 1.99et 09 1.7691 09 l I

i A-16 l

l t

l l

. I 1

APPENDIX A-17 DEPLETED RELATTVE CONCENTRATIONS PER UNIT EHISSIOJ FOR MAIN STACK FOR July - September 1988 80610h totSch 340 SUARTit 1988 $tuttAL I/0 8

  • Juif 1,198410 StPitusta 30. 1988 si:10m Avttnat sustL STACK RELEAlts GROUNO LtytL AvttAC( Cul/0 AFfti DEPLE1!Oh (MET. AND AT(MIC thttCY 1968 OtPLt110h M00tL) -

(SEC/M3) I DOWWVlWD Wo. OllfA CE FIDM RELE Att Polk 1 f ulLtl) stC708 0s5 .12 .25 .50 .75 1.00 1.50 2.00 2.50 W 47 4.642t 10 1. 6 4t 08 5.6671 09 2.8801 09 3.302t 09 4.814t.09 5.6221 09 5.863t 09 W2t 72 1.0581 09 3.615E 08 1.376t 08 6.590t 09 6.205t 09 8.233t 09 1.0121 08 1.093t 08 WE 315 5.002t 09 1.680t 07 8.2431 08 4.582E 08 3.9278 08 4.002t 08 4.164I 08 4.0791 08 tri 3 74 2.725E 09 9.571E 08 4.799t 08 3.075E 08 3.0611 02 3.815t 08 4.2511 08 4.272t 08 f f 117 9.7381 10 3.6221 08 1.7116 08 1.0098 08 9.067E 09 9.516E 09 9.9201 09 9.790t 09 l ESE 77 8.t.60E 1C 3.960E 08 1.9568 08 1.1321 08 9.268t 09 8.4361 09 8.275t 09 7.932 09 51 112 3.771D 09 1.444E C7 5.3438 04 2.213t 08 1.6261 08 1.6118 08 1.6C31 08 1.109t 08

$5t 85 3.340E 09 1.512t 07 9.0081 08 4.022t 08 4.373t 08 3.7631 08 3,161t 08 2.6801 C8

$ 95 3.1231 09 1.5011 07 6.538! C8 1.2491 07 1.111t C7 1.1311 C7 9.7081 C8 7.5481 02 ssw 63 2.536t 09 1.320E 07 5.561E 08 6.112t 08 1.214t 07 1.575t C7 1.C30t 07 7.433t 02 SV 59 2.200E 09 1.399E 07 3.9551 08 4.826! 08 5.6705 08 6.0471 08 4.9781 08 4.045t 08 WSW- 40 2.4181 09 1.976t C7 5.9421 08 3.097bO8 3.562t 08 -3.6301 08 2.954E 02 2.614t 08

-W 39 7.227f 1C 6.3581 08 5.5 8! CE 3.454E 08 3.3641 08 3.2121 C! 2.9071 08 2.335E C8 Wh9 36 6.0922 10 3.260E 04 2.688! 0! 1.949t Ot' 2.242t 08 2.4201 02 2.314E 08 1.9521 06 kW 37 8.C74E 10 3.959t 08 1.412E 04 8.545E 09 9.227E 09 1.13?E 08 1.204t 08 1.174t 02 2hv 69 5.342E 1C 2.425t 04 2.181t 08 1.438E 08 1.139t 08 1.121t 05 1.2378 08 1.268t 02 AvtaAtt 1637 1.9488 09 9.1701 08 4.1901 04 3.200E 08 3.495t 08 3.8071 08 3.261t 08 2.736E 08 I DWWIC kC. ClStah:t Ft> *[Ltast P0lhi (plLts) stC108 085 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 h 47 5.764t/ 09 5.5905 09 5.378t 09 5.1671 09 4.930f 09 3.817t 09 3.033t 09 2.071E 09 kht 72 1.088t 08 1.054t 08 1.00 E 08 9.5161 09 8.9171 09 6.249t 09 4.546E 09 2.7671 09 kt 315 3.8341 04 3.570E 02 3.312t 04 3.0801 08 2.251t 08 1.9821 08 1.4 ME 08 9.1331 09 th! 374 4.0571 05 3.801E 04 3.543! C5 3.3051 08 3.072E 02 2.1691 0! 1.624t 02 1.C37E CE E 117 9.3051 09 E.7721 09 8.255E 09 7.778! 09 7.294t 09 5.3621 09 4.163t 09 2.820! 09 f.St 77 7.439E 09 6.966t 09 6.52 5 09 6.12?! 09 5.7321 04 4.197E 09 3.274E 09 2.2321 09

$t 112 1.0501 08 9.910E 09 9.3441 09 8.827E 09 8.2881 09 6.1501 09 4.8231 09 3.313E 09 s$t 25 2.3338 02 2.C70E 08 1.8595 02 1.680f 02 1.529t 02 1.0561 08 7.964t 09 6.452t 09 1 95 5.879f 01 4.7485 02 3.9.2t 0! 3.3381 08 2.8738 08 1.615E 02 1.0621 08 5.731t 09

$1W 63 5.6981 04 4.5466 04 3.7408 08 3.146t 02 2.690E 08 1.465E 02 9.3718 09 4.7951 09 82 59 3.3791 04 2.256E 05 2.450E C! 2.123E 08 1.8571 08 1.0861 08 7.2401 09 3.9531 09 Wsw 40 2.005t 08 1.6931 02 1.4531 08 1.2626 08 1.106f 08 6.4931 09 4.351t 09 2.1931 09 W 39 2.0 61 08 1.804t 08 1.600E 02 1.4271 08 1.279t 08 1.065t 02 6.629E 09 3.1221 09 Whd 36 '1.7501 08 1.571t 08 1.416t 08 1.2811 02 9.679E 09 7.463E 09 5.3521 09 2.9251 09 w 37 1.095E 02 1.0101 08 9.282t 09 8.545t 09 7.837E 09 6.896t 09 4.6151 09 2.58 t 09 kW 69 1.2281 02 1.173E 08 1.1121 08 1.05.E 08 9.9278 09 7.244E 09 5.99.E 09 5.3581 09 6VERACI 1637 2.356E 02 2.0ME 08 1.832t 08 1.643E 08 1.470E Ot 9.890E 09 7.052t 09 4.383t 09 I 00M'!C WO. Cl51 ACE FR> RELE A$! P0thi (r!Lil)

SECf0R 085 20.00 25.00 30.00 35.00 40.00 45.00 50.00 6 47 1.5C21 09 1.129D 09 8.7081 10 6.8971 10 5.5751 10 5.010t 10 3.980f 10 WWE 72 1.9061 09 1.4061 09 1.08i! 09 8.5971 10 7.0C21 10 5.816t 10 4.8991 ic

%E 315 6.38-t 09 4.771t 09 3.7288 09 3.0091 09 2.488! 09 2.099t 09 1.7951 09 t%E 374 7.375E 09 5.758t 09 4.999t 09 4.C341 09 3.333E 09 2.809E 09 2.4001 09 E 117 2.100E 09 1.k6t 09 2.052E 09 1.683f 09 1.4088 09 1.198t 09 1.C31E 09 Est 77 1.6661 09 1. 6 4E 09 1.311E 09 1.C75t 09 8.925t 10 7.6371 1C 6.5661 1C l SE 112 2.481E 09 3.19.E 09 2.5C3t 09 2.015E 09 1.6558 C9 1.3821 09 1.167t 09 S$t 85 4.492E 09 3.323E 09 2.561t 09 2.C29t 09 1.642E 09 1.351E 09 1.125t 09 8 95 3.598! 09 2.464! 09 1.800E 09 1.366E 09 1.0691 09 8.590t.1C 7.0428 1C

$$9 63 2.259f 09 1.872t 09 1.311t 09 9.60t! 10 7.302E 10 5.728t 1C 4.6071 10 SV 59 2.523t 09 1.755E 09 1.2911 09 9.865t 10 7.874t 10 6.275t 1C 5.096! 10 WSW 40 1.5321 09 1.C721 09 7.6091 1C 5.83et 1C 4.6321 10 3.6278 1C 3.C33t 1C W- 39 1.8171 09 1.1411 09 2.0561 10 5.9 tit 1C 3.986! 10 2.9401 10 2.4401 10 Whs 36 1.8'31 09 1.2798 09 8.3451 1C 4.562t 10 3.290t " 2.6091 10 2.124f 1C kW 37 1.5198 09 9.725E 1C 6.749t 1C 3.3771 1C 2. 672' .

  • 2.180! it 1. tit! 1C tu 69 '3.0978 09 1.9921 09 1.181E 09 1.0051 09 7.586t 10 5.9091 iC 4.7081 10 AYttACE 1637 2.9201 09 2.215t 09 1.7481 09 1.3551 09 1.0931 09 9.0e4t 1C 7.5931 10 l l l A-17

i l

j i

APPENDIX A-18 i RELATIVE DEPOSITION CONCENTRATIONS PER UNIT

)

EMISSION FOR MAIN STACK FOR l

~ July - September 1988 l 1

00610m EDIS0h 340 Guattle 1988 Gluf tai 1/O'S

  • JULT 1,198810 SEPfl ett 30, 1998 8tC10e AvitAGE a00tL STACK RELIAlts AVitAGE DEPQll110h RAT 15 (DEPitf ED CN!/O ' Dip. WELOClif IrDEL
  • NET. ANC A70Mic tuttCY 1968)' - (1/R2)

D WWilE0 WQ. DilfAW:t FR> AELt Ast Polut (ultts) stC10R 085 .12 .25 .50 .75 1.00 1.50 2.00 2.50  !

I k 47 4.6821 12 1.6441 10 5.6671 11 2.680E 11 3.302E 11 4.614t 11 5.622t 11 5.6631 11

( kut 72 ' i.056t 11 3.615E 10 1.376E 1C 6.5901 11 6.2051 11 8.2331 11 1.0121 10 1.093t 10 )i I st 315 5.002E 11 1.680! 09 8.243t 10 4.582E 10 3.9271 10 4.002t 10 4.1645 10 4.079E 10 th! 374 2.725E 11 9.571E 10 4.799t 10 3.0751 10 3.MI 10 3.8155 10 4.2515 10 4.2721 10 t 117 9.736! 12 3.622t 10 1.7111 10 1.0091 10 9.0871 11 9.516E 11 9.920E 11 9.7901 11 j tst 77 8.860t 12 3.9601 10 1.9561 10 1.132E 10 9.2681 11 8.436t 11 8.275t 11 7.9321 11 1 51 .112 3.771E 11 '1.4448 09 5.3432 1C 2.213t 10 1.626t 10 1.6111 10 1.605t 10 1.109E 10 ,

l sst 85 3.340E 11 1.512f 09 9.0056 10 4.C221 10 4.3731 10 3.7631 10 3.161E 10 2.6801 10 l'

) $ 95 3.1231 11 1.501E 09 6.538t 10 1.2491 09 1.111E 09 1.131E 09 9.706E 10 7.548E 10

$5W 63 2.536t 11 1.3201 09 5.5e1E iC 6.112E 10 1.2141 09 1.575E 09 1.C30E 09 7.4331 1C sv 59 2.200! 11 1.3991 09 3.?551 1C 4.E261 10 5.670t 10 6.047E 10 4.9761 10 4.065f 1C USW 40 2.418! 11 1.976! 09 5.9421 1C 3.0971 10 3.562E 10 3.630E it 2.954t 10 2.4141 10

, W 39 7.22?E *2 6.3551 1C 5.758t 10 3.454t 10 3.364f 10 3.212t 10 2.907t 10 2.335E 1C i Ws 36 6.0921 12 3.260E 1C 2.6681 10 1.949E 1C 2.242E 1C 2.4 tot 10 2.314E 10 1.9521 10 hs 37 8.07.t 12 3.9591 1C 1.4121 1C t.545t 11 9.227t 11 1.1371 10 1.2041 10 1.1741 10 and 69 5.342t 12 2.4251 1C 2.1811 10 1.4351 10 1.1391 10 1.121t 10 1.2371 10 1.2681 10 Avttact 1637 1.9481 11 9.1701 10 4.1901 10 3.2001 10 3.495t 1C 3.807t 10 3.2611 10 2.736t 10 D M ilh: NO. C!stAk:t Faor a! LEASE Polkt (MlLES)

SEC10s oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 l N 47 5.768! 11 5.5908 11 5.378! 11 5.1671 11 4.9301 11 3.8171 11 3.033f 11 2.071t 11 l pt 72 1.0881 10 1.054f 1C 1.00 1 1C 9.5141 11 8.9171 11 6.2491 11 4.546t 11 2.7671 11 kl 315 3.834t 1C 3.570E 10 3.312t 10 3.0801 10 2.851E 10 1.982E 10 1.4641 10 9.1331 11 thE 374 4.0571 10 3.8018 10 3.543! 10 3.3058 10 3.C721 10 2.1691 10 1.624E 10 1.C371 10 E 117 9.305! 11 E.7781 11 8.255t 11 7.778t 11 7.2941 11 5.362E 11 4.163t 11 2.820E 11 (St 77 7.439t 11 6.96ct 11 6.52 1 11 6.1281 11 5.7321 11 4.197t 11 3.274t 11 2.2321 11 51 112 1.0501 10 9.910t 11 9.3 4I 11 4.827t 11 E.2681 11 6.150E 11 4.823t 11 3.3131 11 55! 85 2.3331 10 2.C70E iC 1.259t 1C 1.6801 10 1.5291 10 1.0561 10 7.944t 11 6.452E 11 5 95 5.8791 1C 4.74t! 10 3.9 21 10 3.338! 10 2.873E 10 1.6151 1C 1.062t 1C 5.7311 11 Ste 63 5.695! 1C 4.54t! 1C 3.7ect 1C 3.14 6t + 1C 2.6901 10 1.4651 1C 9.371t 11 4.795E 11 59 59 ' 3.3791 10 2.256! 10 2.450! 10 2.123t 10 1.857E 10 1.066t 1C 7.240E 11 3.953! 11 WSV 40 2.0051 1C 4.6931 10 1.4531 1C 1.2621 10 1.1061 10 6.4931 11 4.3518 11 2.3931 11 W 39 2.046t it 1.604! 10 1.6001 1C 1.4271 10 1.279t 10 1.0655 10 6.6291 11 3.1821 11 WW 36 1.750t 1C 1.571E 10 1.416t 1C 1.2 tit 10 9.679f 11 7.4631 11 5.3521 11 2.9251 11 kW 37 1.095E 1C 1.C101 10 9.282t*11 4.545t 11 7.8371 11 6.896E 11 4.615E 11 2.564t 11 bd 69 1.226E 1C 1.1731 1C 1.112t 1C 1.0541 10 9.9278 11 7.244E 11 5.994E 11 5.3581 11 A VIRA *.! 1637 2.356t 10 2.06-1 10 1.832E 1C 1.643E 10 1.470E 1C 9.890t 11 7.052E 11 4.3831 11 00e dihD WO. DISTAk:I f R> RELE All PolkT (MILf 5)

SECTOR 065 20.00 '25.0C 30.0C 35.00 40.00 45.00 50.00 h 47 1.502t 11 1.129E 11 8.706f 12 6.8971 12 5.575f 12 5.C101 12 3.980E 12 kWE 72 1.9061 11 1.4061 11 1.C211 11 4.5971 12 7.0C2t 12 5.816t*12 4.8991 12 WE 315 6.3641 11 4.7718 11 3.728! 11 3.0091 11 2.468t 11 2.099t 11 1.7951 11

" 374 7.375E 11 5.758! 11 4.9991 11 4.034t 11 3.333E 11 2.6091 11 2.400E 11

. 117 2.100! 11 1.M61 11 2.0521 11 1.6831 11 1.408! 11 1.1981 11 1.C31t 11 ESI 77 1.666t 11 1. M 41 11 1.3111 11 1.C758 11 8.9251 12 7.637t 12 6.5661 12

$E 112 2.4811 11 3.19et 11 2.5C3t 11 2.015E 11 1.655E 11 1.3621 11 1.167E 11 SSE 85 4.4921 11 3.3231 11 2.561t 11 2.0291 11 1.642t 11 1.351E 11 1.1251 11 i

1 95 3.598f 11 2.4681 11 1.800f 11 1.366f 11 1.0691 11 8.5901 12 7.0421 12

! SSW 63 2.2591 11 1.872f 11 1.311E 11 9.6081 12 7.3021 12 5.726t 12 4.6071 12 si 59 2.5231 11 1.735t 11 1.291t 11 9.865t 12 7.874t 12 6.275E 12 5.096f 12 WSW 40 1.533E 11 1.C72t 11 7.609E 12 5.2366 12 4.6321 12 3.627E 12 3.C33I 12 W 39 1.8171 11 1.1611 11 8.056! 12 5.912f 12 3.9661 12 2.940!.12 2.440E 12 md 36 1.673E 11 1.2791 11 t.345t 12 4.562t 12 3.290E 12 2.6091 12 2.1241 12 ki 37 1.5191 11 9.7251 12 6.7496 12 3.3771 12 2.672E 12 2.180t*12 1.218! 12 hhw 69 3.097E 11 1.992t 11 1.3811 11 1.0051 11 7.566f 12 5.9091 12 4.708! 12 s

AYT R A;! 1637 2.9201 11 2.2151 11 1.748t 11 1.355t 11 1.093E ii 9.0/.41 12 7.593t 12 A-18

l APPENDIX A-19 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR October - December 1988 805f0N EDISON 41m SUAttgt 1988 GlutLAL I/0'$ OCTOBI A 1, 1988 10 DEttutta 31, 1988 8tC10R AVERACE MEL EAOuuD REttAtts GAMD LivtL AvitAGE CN!/0 8tf0Rt DEPLtil0N

  • ISic/K3)

D M JlhD kO. 'Cl$1AN01 ft0M RELt&58 POIN1 (MILil)

$1C10R 005 .12 .25 .50 .75 1.00 1.50 2.00 2.50 i

t 101 2.514t 05 7.3361 06 2.4581 06 1.380E 06 9.1421 07 5 1481 07 3.3001 07 2.386E C7 I

kkE 118 2.485t 05 7.323E 06 2.3902 06 1.320E 06 8.6581 07 4.797t 07 3.153E C7 2.288f 07 c:t 265 6.1468 C5 1.795E 05 5.668f 06 3.C24E 06 1.9641 06 1.083t 06 7.170E C7 5.236E 07 t%t 245 5.2231 05 1.5371 05 4.955t 06 2.6721 06 1.731E 06 9.653E 07 6.3*SE 07 4.663E 07 E 2T7 6.16tE 05 1.8031 05 5.9031 06 3.2421 06 2.122E 06 1.1811 06 7.8001 07 5.676E 07 f*! 252 4.1791 05 1.2211 05 4.28.t 06 2.3tTE 06 1.546E 06 8.3821 07 5.441E C7 3.915t C7

$t 177 2.371t 05 7.0 3! 06 2.7*8E 06 1.505t 06 9.766f 07 5.229t 07 3.371t 07 2.1941 07 85! 160 2.C271 05 6.NE 06 2.210E 06 1.096E 06 7.058E C7 3.740E 07 2.397t C7 1.706t C7 .

l S 59 6.479! C6 1.95 5 E 06 5.5211 C7 2.914t C7 1.864t C7 9.tS9E 05 6.371E OS 4.572E 08 SSW 42 4.4431 06 1.3151 06 4.WE C7 2.251E C7 1.450E 07 7,715t.08 4.964t 06 3.552E Ce

$4 64 5.597E 06 1.7.91 06 5.6611 07 3.C38t C7 1.946E 07 1.C22E 07 6.509E 08 4.603t 08 W58 37 3.0691 Oc 9.2311 C7 3.1081 C' 1.7C3t C7 1.100E C7 5.8 0E 08 3.743t 08 2.664E 08 W 35 3.4301 06 1.066! 06 3.527E 07 2.099E C7 1.3 71 C7 7.088E 05 4.526E Of 2.9'7E C1 l

Whd 39 6.151E Oc 1.80 1 06 6.316t C7 3.521t C7 2.3141 C7 1.2578 C7 8,1511 01 6.444t 02 to 49 6.829E 04 2.059t 06 7.049E C7 3.914f 07 2.5681 07 1.3941 07 9.0271 08 6.470! 08 tud 57 9.733E 06 2.85Bi De 1.C271 06 5.695E 07 3.7181 C7 2.003E 07 1.293t 07 9.2678 08 AYtAAct 1977 2.2311 05 6.573f 06 2.200E 06 1.195E 06 7.785t 07 4.264E C7 2.791E 07 2.0C7E C7 l

D M ilWD NO. C151Ah t FR > RELEASE P0thi (plLil)

SEC10a oss 3.00 3.50 4.00 4.50 5.00 7.50 1C.00 15.00 h 101 1.8455 C7 1.48ct 07 1.233E C7 1.044t C7 9.0101 08 5.2131 C8 3.5641 02 2.091E Ct -

WWE 118 1.7701 C7 1.4271 C7 1.185t C7 1.005E C7 8.6291 08 5.049t 02 3.463t 06 2.0 4t-0!

kt 265 4.C73E C7 3.2991 07 2.7531 07 2.346E 07 2.C34t C7 1.193t C7 2.236E 08 4.915t 0!

th! 245 3.613E C7 2.915E C7 2.4231 C7 2.0591 C7 1.783! 07 1.C381 07 7.148,E 08 4.255t 08 1 277 4.4001 C7 3.5501 C7 2.951E C7 2.506t C7 2.168t 07 1.2615 07 8.6571 08 5.123t ce Est 252 3.018! C7 2.4221 C7 2.0021 07 1.6291 C7 1.4521 07 8.294t 08 5.626E 0! 3.2761 06 SE 177 1.683E 07 1.545E C7 1.1091 07 9.326E 08 8.8001 08 4.9BM 05 3.364E 08 1.9.1E C8 SSE 160 1.3001 C7 1.C341 C7 2.425t 02 7.115E 0! 6.086t 04 3.4171 02 2.2821 08 1.2951 C!

S 59 3.5091 C8 2.8101 08 2.322E 08 1.9601 08 1.625! 02 v.630E 09 6.52iE 09 3.781E 09

$5W 42 2.724E 02 2.1791 C! 1.796E 08 1.5128 08 1.2971 0* 7.349E 09 4.969E 09 2.8871 09 SW 64 3.479E C2 2.751t et 2.249E O! 1.88i! 08 1.6051 08 8.9501 09 5.9381 09 3.3291 09 USW 37 2.C30E OS 1.6141 08 1.324E 08 1.1091 02 1.0421 08 5.2951 09 3.5231 09 1.987E 09 W 35 2.210E 08 1.7501 08 1.432t 08 1.1981 08 1.C22t 08 5.698! 09 3.774E 09 2.icet 09 Whd 39 4.961E CE 3.9781 05 3.2871 02 2.7731 02 2.167t 08 1.2381 08 8.386t 09 4.860! 09 l WV 49 4.9771 05 3.9851 02 3.291E CE 2.777E 02 2.3891 08 1.365! C2 9.270t 09 5.367E 09 ths 57 7.iiSE CE 5.6951 08 4.6961 C! 3.930t 02 3.3891 02 1.921E CB 1.295t 05 7.4851 09 i AYEAA01 1977 1.5501 C7 1.2471 C7 1.C341 C7 8.7561 08 7.5978 08 4.382t 08 2.9921 08 1.7571 02 D M WlWD WO. Cl51 AW:t F ACP RELIAlf Polhi (MILil)

SECTOR 085 20.00 25.00 30.00 35.00 40.00 45.00 50.00 i

a 101 1.4371 08 1.080E OS 6.6141 09 7.104t 09 6.0051 09 5.181E 09 4.5341 09 i W21 118 1.4101 08 1.063E 08 8.5065 09 7.C341 09 5.960E 09 5.1521 09 4.5171 09 l ht 265 3.426! 08 2.604t C8 2.095! 02 1.742E OS 1.4841 02 1.2901 08 1.1371 08  !

Ext 245 2.9531 02 2.2371 08 1.797E 08 1.4911 08 1.268! 02 1.100E Os 9.6711 09 E 277 3.5401 05 2.672E 02 2.140E 08 1.771E 08 1.5C31 02 1.3001 08 1.1411 08 1SE 252 2.2431 C2 1.682E 08 1.3391 08 1.1031 De 9.3231 09 8.057f 09 7.0581 09 st 1 77 1.325E 08 9.906E 09 7.8661 00 6.4711 09 5.464t 05 4.720t 09 4.134E 09

$$E 160 8.7618 09 6.5121 09 5.1461 09 4.218E 09 3.551E 09 3.061E 09 2.677f 09 8 59 2.602E 09 1.959f*09 1.5645 09 1.293t*09 1.0981 09 9.529E 10 2.39" 10

$5W 42 1.984E 09 1.4935 09 1.190E 09 9.833t 10 8.3371 10 7.2341 1C 6.363E 10 2.243E 09 1.663E 09 1.312E 09 1.073f 09 9.030t 10 7.7801 10 6.804f 10 SW 64 WSW 37 1.33BE 09 9.9091 1C 7.80B! 10 6.384E 10 5.364t 10 4.620t 10 4.C351 1C  !

6r 35 1.414f 09 1.0 51 09 2.2161 10 6.7071 1C 5.628t 10 4.840t 10 4.225E 1C WWW 39 3.320E 09 2.4231 09 1.9731 09 1.6231 09 1.369t 09 1.181t 09 1.C331 09 ,

tw 49 3.666t 09 2.7 2t 09 2.1791 09 1.792t M 1.512t 09 1.3035 C9 1.1391 09 1 tad 57 5.0831 09 3.795E 09 3.010t 09 2.473E 09 2.086t 09 1.8001 09 1.574f 09 j AvtaA0E 1977 1.211E 02 9.1241 09 7.292E 09 6.C281 09 5.109E 09 4.422E 09 3.881E 09 j i

A-19

)

I

APPENDIX A-20 DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT October - December 1988 905fok ECiton 4f a e.iAaff t 1988 GuttAL 1/C 5 Octata 1, 1988 12 MClett 31, 1988 SECTOR AvitAGE Ett 840UM0 AlttAsts GA AMD LIVEL AVitAGE Cul/C Af fit MPitilot (t!GULATORY $110t 1.111 MPLt140W O!L)

  • EstC/M3) 00Wi!C WD. OlsfA CE FROM RELE&st PQlWT (MILis) stC10R Ces .12 .25 .50 .75 1.00 1.50 2.00 2.50 k 101 2.424E 05 6.9711 06 2.2471 06 1.230E 06 2.015t 07 4.3031 07 2.733E 07 1.9321 07 Crt 118 2.39M 05 6.9561 06 2.1871 04 1.1768 06 7.591E 07 4.0891 07 2.612E C7 1.8521 07 NE 265 5.927t 05 1.7051 05 5.1811 06 2.695t 06 1.722t 06 9.236t 07 5.9391 C7 4.236t 07 EWI 245 5.C37E 05 1.4601 45 4.529E 06 2.381t 06 1.5181 06 8.2291 07 5.2971 07 3.775E C7 E 277 5.9465 05 1.7131-05 5.395E 06 2.889f 06 1.861E 06 1.007t 06 6.461t 07 4.595t C7 Est 252 4.030E 05 1.160t 05 3.915E 06 2.110E 04 1.3551 06 7.1451 07 4 507E C7 3.i?0t C7 st 177 2.2871 05 6.6901 06 2.511E 06 1.3411 06 8.562E C7 4.458t 07 2.792E C7 1.776t C7 511 160 1.955t 05 5.8574 06 2.C281 06 9.765f 07 6.168! C7 3.168t C7 1.966t C7 1.38tt C7 5 59 6.248t 06 1.t571 06 5.0 6t 07 2.5971 C7 1.6 R' C7 8.405t 02 5.2785 Ce 3.7 Cit 01 ssd 42 4.26 t 06 1.269t 06 3.8261 C7 2.006f C7 1.2721 C7 6.577t ce 4.112t 02 2.t75t 06 sv 64 5.3971 06 1.661E 06 5.17.t C7 2.7021 C7 1.706t 07 8.715t ce 5.3921 08 3.7274 0!

l Wsw 37 2.9591 06 8.768t C7 2.6-DE 07 1.5171 C7 9.6451 08 4.9761 08 3.101t C2 2.157t CE W 35 3.3171 06 1.012E 06 3.22.! C7 1.8711 C7 1.1211 C7 6.043E 08 3.749t 05 2.3611 CE ww 39 5.932t 06 1.7141 06 5.7731 C7 3.13tP C7 2.C28! C7 1.C72t C7 6.752f 08 5.217t C!

WW 49 6.643E 06 1.955t 06 6.4431 07 3.488i C7 2.251t C7 1.168t C7 7.476E 08 5.245E CE h44 57 9.366t 06 2.7151 06 9.389t C7 5.C75t C7 3.2591 C7 1.7071 C7 1.071t C7 7.5C2E 02 l

AYttACE 1977 2.1511 05 6.2631 06 2.C10E 06 1.0651 06 6.825E C7 3.635t 07 2.312E C7 1.625t C7 00m!C WO. Cls1ACI F#> 8tLE Att P0th? (MILES) stC10A 085 3.00 3.5C 4.00 4.50 5.00 7.50 10.00 15.00 m 101 1.4671 C7 1.162t C7 9.5015 08 7.9461 08 6.7751 08 3.62.31 02 2.3971 08 1.306! C2 Ekt 118 1.4085 07 1.116E C7 9.1321 02 7.6511 05 6.533t 05 3.568! 02 2.330E 08 1.2771 02 ht 265 3.239t+C7 2.581E C7 2.1221 C7 1.766f 07 1.529t C7 S.4294 02 5.541E 02 3.C70E C5 l Ext 245 2.6731 C7 2.260t P 1.6681 07 1.5661 C7 1.3401 C7 7.337f 08 4.60SE 02 2.65EE 08 l t 277 3.4991 C7 2.77EE C7 2.275E 07 1.908t 07 1.630t C7 8.9101 08 5.824t 06 3.2001 01 tst 252 2.400t 07 1.8951 C7 1.5431 C7 1.2661 07 1.092t 07 5.6601 02 3.7251 05 2.046t C!

st 177 1.3355 C7 1.052t 07 4.546! 02 7.0994 02 6.617E 06 3.524t 05 2.2631 08 1.213!.06 sst 160 1.C341 C7 E.CS8! 05 6.541t 02 5.416! 02 4.576! 02 2.4141 02 1.535t 08 8.0291 09 5 59 2.790E 08 2.1961 08 1.790! 08 1.4921 08 1.2671 04 6.8041 09 4.327E 09 2.3626 04 ssd 42 2.1661 C8 1.70.! 02 1.325t 05 1.151t 02 9.750E 09 5.1921 09 3.342t 09 1.80.t 09 SW 64 2.766t 08 2.152E CE 1.734t 02 1.4321 02 1.207t 08 6.324t 09 3.9951 09 2.C791 04 vsd 37 1.6141 C8 1.263E CE 1.C21E 08 8.4421 09 7.83SI 09 3.741E 04 2.370! 09 1.2411 09 W 35 1.757E 08 1.369t 02 1.10102 9.118! 09 7.6881 09 4.026t 09 2.5391 09 1.3171 09 Wd 39 3.9451 05 3.112E CE 2.5341 02 2.1111 08 1.6301 C8 8.7471 09 5.642E 09 3.C36! 09 Nd 49 3.9571 C5 3.1181 01 2.5371 04 2.116t 04 1.796t et 9.6631 09 6.236! 09 3.3535 09 kkd $7 5.660t C8 4.45!! 02 3.620E 08 3.0C71 02 2.5462 02 1.3571 02 8.7111 09 4.643! 09 AvtaAC! 1977 1.233t C7 9.75 71 08 7.970t 08 6.665E 02 5.7121 04 3.096E 06 2.013E Ot 1.0981 02 C:MN!C WO. Cls1 ACE FR> RELEAst PCIW1 (p!Lis)

$!C10A 085 20.00 25.00 30.00 35.00 40.00 45.00 $0.00 m 101 8.366t 09 5.9311 04 4.502E 09 3.555t 09 2.891t 09 2.4118 09 2.044t 09 th! 118 8.2108 09 5.8391 09 4.4451 09 3.5201 04 2.869t 09 2.3971 09 2.C3H 09 ht 265 1.994E 02 1.430t C2 1.095E 02 8.7166 09 7.144E 09 6.002t 09 5.*25t 09 Ex! 245 1.7'91 0! 1.228! 02 9.3!9t 09 7.4621 09 6.104t 09 5.117t*09 4 3598 09 I 277 2.061t 02 1.4681 02 1.118! 08 8.&64t 09 7.233E 09 6.050t 09 5.143E 09 Est 252 1.306E CE 9.237f 09 A.996t 09 5.520! 09 4.465! 09 3.749f 09 3.182E 09 SE 177 7.710E*09 5.4401 09 4.1111 09 3.2381 09 2.6301 09 2.19et 09 1.8631 09 sst 16C 5.100E 09 3.5761 09 2.6895 09 2.111E 09 1.7091 09 1.4251 09 1.2C7t 09 8 59 1.514f 09 1.0761 09 8.173E 1C 6.4711 10 5.264t 10 4.434t 10 3.782t 1C ssW 42 1.1551 0S 8.196E 1C 6.220E 1C 4.9201 1C 4.0135 10 3.366! 10 2.868! 1C sw 64 1.306! 09 9.133t 1C 6.8541 1C 5.371E 10 4.3471 10 3.620! 10 3.0671 10 Msw 37 7.7891 10 5.442E 1C 4.080! 1C 3.1958 1C 2.5621 10 2.15DE 10 1.819t 1C W 35 8.233t 1C 5.7371 10 4.293i 1C 3.3561 10 2.709E iC 2.2524 10 1.904t 1C nd 39 1.9321 09 1.364E 09 1.C31E 09 8.1211 1C 6.592E 10 5.496t 1C 4.6571 1C kJ 49 2.1341 09 1.506t 09 1.1391 09 8.968t 1C 7.278! 1C 6.0621 1C 5.1341 1C 22d $7 2.959t 09 2.Cf-E 09 1.5731 09 1.235t 04 1.004E 09 8.373f-1C 7.09et 1C AYttACE 1977 7.0491 09 5.010E 09 3.810t 09 3.016E 09 2.460E 09 2.058t 09 1.750! 04 A-20

APPENDIX A-21 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR October - December 1988 8051CE ECISch 41k OUA41tt 198f OtmERAL R/C'$ OC10sta 1,198410 DECEII8tt 31, 1988 SEC10m AVERACI DICEEL GROUC RIL[ASE: AVItAct DE#0517 low tAttI (tIGULA1041 EUIDE 1.111 IIODEL) *

(1/M2)

CMi!C k0. C151ANCE FR> t!LEast Polhi (MILT $)

SEC10s oss .12 .25 .50 .75 1.00 1.50 2.00 2.50 -

W 101 8.6411 08 2.906t 08 9.814E 09 5.1791 09 3.204E 09 1.549t 09 9.453E 10 4.4421 10 2%t 118 1.010E 07 3.3951 08 1.147E 08 6.0501 09 3.7431 09 1.8101 09 1.104t 09 7.5261 10 kt 265 2.2671 07 7.625E 02 2.575t

  • 08 1.359t 08 8.4C71 09 4.065E 09 2.480E 09 1.690E 09 tut 245 2.096E C7 7.049E 08 2.3811 04 1.256t 08 7.772t 09 3.758E 09 2.293E 09 1.5631 09 E 2 77 2.370t C7 7.970! 02 2.6918 08 1.420E 08 8.787E 09 4.2491 4 2.5931 09 1.7678 09 Ett 252 2.156t C7 7.2511 08 2.449f 08 1.2921 08 7.99et 09 3.866t 09 2.3591 09 1.6C7t 09 st 177 1.514E 07 5.0931 08 1.8921 08 9.913E 09 6.1771 09 2.987f 09 1.8221 09 1.1291 09 sit 16C 1.50ef C7 5.06.t 02 1.710E 0! t.20 t 09 5.076E 09 2.455t 09 1.497t 09 1.C201 09 s 59 6.0571 05 2.C37I Ot 5.733E C4 3.C25t 09 1.8721 09 9.051t 10 5.5221 1C 1.7631 10 sss 42 3.953E 02 1.3291 08 4.0818 09 2.153E 09 f.3321 09 6.443t 10 3.931E 10 2.679t 1C sv M 6.C231 02 2.C26! C! 6.2191 09 3.221t 09 2.030E 09 9.8181 1C 5.990E 10 4.0828 10 vsw 37 3.4E21 02 1.171t Cf 3.595t 09 1.8971 09 1.174t 09 5.6761 10 3.463E 10 2.160! 1C W 35 3.29.t 08 1.106t 01 3.4C11 09 1.974t 09 1.221E 09 5.906t 10 3.6031 10 2.2321 1C whw 39 3.3371 08 1.1221 C! 3.7891 04 2.000t 09 1.237E 09 5.983t 1C 3.6501 10 2.736E 10 hs 49 4.1921 08 1.410E Ce 4.7411 09 2.512E 09 1.554E 09 7.5171 10 4.58ct 10 3.125t 10 bhd 57 4.8771 08 1.6401 08 5.5381 09 2.9238 09 1.8081 09 a.744t 1C 5.335E 10 3.635E 10 AytRACE 1977 1.0821 C7 3.6371 08 1.221E 01 1.403! 09 3.962f 09 1.916E 09 1.169t 09 7.896E 1C OMd!C 40. C151 AhCI #R> t!Ltas! Polkt (p!Lis)

SEC10e 041 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.C0 W 101 4.7131 10 3.6051 10 2.251E it 2.2911 1C 1.090E 10 9.4778 11 5.8271-11 2.875t 11 pt 115 5.5C71 1C 4.212t 1C 3.3311 10 2.676t 1C 2.208t 10 1.1071 10 6.808E 11 3.359t 11 ht 265 1.237t 09 9.459E 1C 7.480! 1C 6.011t 1C 4.959t 10 2.487E 10 1.529t 10 7.544E 11 eke 25 1.1431 09 2.7451 1C 6.915E 10 5.5578 1C 4.525t 1C 2.2998 10 1.414t 1C t .9751 11

! 2 77 1.2931 09 9.888! 10 7 t*BE 1C 6.283E 1C 5.184E 1C 2.5991 10 1.598t 10 7.886t 11 ESE 252 1.176t 09 2.9951 1C 7.1131 10 5.716t 1C 4.716t 10 2.3651 10 1.454t 10 7.17.! 11 EE 177 2.260! 1C 6.318E 10 4.996! 1C 4.C155 1C 3.M4E 1C 1.8278 1C 1.123E 10 5.5431 11 l $$! 160 7.4671 1C 5.7111 10 4.516! 10 3.629E 10 2.99et 10 1.5C1E 1C 9.232E 11 4.555E 11 l 5 59 2.753E 1C 2.106E 1C 1.665E 10 1.338E 10 1.104E 10 5.536E 11 3.4045 11 1.680E 11 SSW 42 1.960E 1C 1.499E 10 1.itSE 1C 9.526! 11 7.8601 11 3.941t 11 2.423E 11 1.196E 11 SW 64 2.9871 1C 2.2E5E 1C 1.8'sor 10 1.4521 10 1.198E 10 6.005E 11 3.693t 11 1.2221 11 vsw 37 1.7271 10 1.3211 10 1.0 4f 10 2.3921 11 7.6178 11 3.4721 11 2.135E 11 1.0531 11 W 35 1.6331 10 1.249t it 9.879E 11 7.939E 11 6.5501 11 3.284f 11 2.019E 11 9.964E 12 WW 39 2.0C21 iC 1.531E it 1.211E it 9.731E 11 7.2998 11 3.tS91 11 2.250t 11 1.110t 11 WW 49 2.287f 10 1.7491 1C 1.3831 it 1.1115 1C 9.170E 11 4.595! 11 2.2271 11 1.395t 11 tw $7 2.6601 1C 2.C351 1C 1.6091 1C 1.2931 1C 1.0671 10 5.348E 11 3.289f 11 1.6231 11 AvtaACE 1977 5.7788 10 4.4191 10 3.494f 10 2.808E 10 2.3371 10 1.1701 1C 7.193t 11 3.5491 11 l 00WWVic WO. C!stAhCI tt0F t!LEast PolWT (alLE5) 5tC10P 085 20.00 25.00 3C.CC 35.00 40.00 45.00 50.00 k 101 1.7671 11 1.1901 11 8.384f 12 6.2671 12 4.8901 12 3.9991 12 3.3211 12 l kNE itt 2.065t 11 1.3901 11 9.795E 12 7.3221 12 5.713E 12 4.6721 12 3.880t 12 L l WE 265 4.6371 11 3.1221 11 2.200E 11 1.8 4E 11 1.283E 11 1.049t 11 8.712f 12 thE 245 4.287! 11 2.886E ii 2.C345 11 1.520! 11 1.186E 11 9.7C1E 12 E.055t 12 t 277 4.87111 3.263E 11 2.2991 11 1.719E.11 1.3411 11 1.097! 11 9.1071 12 9.9721 12 e.2251 12

!$E 252 4.4091 11 2.9t9t 11 2.0921 11 1.564t 11 1.2201 11 SE 177 3.407! 11 2.29.E 11 1.6161 11 1.208E 11 9.426t 12 7.709t 12 6.4011 12 sSt 160 2.8001 11 1.885E 11 1.328E 11 9.929t 12 7.7461 12 6.335E 12 5.260E 12 8 59 1.C32t 11 6.950t 12 4.897E.12 3.661t 12 2.8561 12 2.336E 12 1.940E 12 SSW 42 7.3491 12 4.94tf 12 3.4861 12 2.606E 12 2.C331 12 1.663E 12 1.381E 12 i SW M 1.1201 11 7.5391 12 5.312E 12 3.9711 12 3.099t 12 2.534t 12 2.10-t 12 l V5W 37 6.4741 12 4.359t 12 3.C71E 12 2.296! 12 1.791E 12 1.4651 12 1.216! 12 l W 35 6.124E 12 4.1221 12 2.9.!! '

12 2.1721 12 1.6951 12 1.386! 12 1.15it 12 WW 39 6.224E 12 4.59.E 12 3.2378 12 2.420E 12 1.8881 12 1.544E 12 1.2E2E 12 kW 49 E.5741 12 5.7721 12 4.0t 71 12 3.041t 12 2.372! 12 1.9401 12 1.61iE 12 tw 57 9.9741 12 6.715E 12 4.731E 12 3.5371 12 2.760E 12 2.257t 12 1.87.t 12 l l

M RACE 1977 2,1$11 11 1,669[ 11 1.C)$t 11 7,7}6t 12 6.C36E*12 4.936E 12 4.0991 12 l

A-21 1

l

APPENDIX A-22 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR HAIN STACK FOR October - December 1988 80510h (CIS0W ain guAtitt 1988 GthttAL U0 8

  • OC10 Bit 1,198810 DECEM0ER 31,1988 SEC10R evitACE SCCEL 816CC 8tt.tA5f ensuu0 LtytL evttACE Cul/9 8tf 0Rt DIPLiflou (SPL11 k le00tL) * (SEC/m3)

DOWWYlWD WO. Cll1 Aht! FR> t!LtAtt Polkt (M!Lis)

SEC10R 085 .12 .25 .50 .75 1.00 1.50 2.00 2.50 2 90 8.2221 11 2.330E 09 2.943f 09 3.405t 09 4.516f 09 7.621t 09 9.480t 09 1.0101 06 but 106' 1.324 10 4.376E 09 5.7621 09 5.5541 09 6.572E 09 9.779E 09 1.144E 08 1.1771 08 NE 239 7.219E 10 2.0171 08 1.352t 02 1.193E 08 1.4C2t 08 2.056t 06 2.424E 06 2.509t 08-(!! 229 2.002t 10 7.020E 09 7.5858 09 7.2921 09 1.C351 08 1.8781 06 2.319t 08 2.420t 08 t 169 2.053Dic 8.1C71 09 1.059I 08 9.9221 09 1.1001 08 1.5511 08 1.8121 08 1.864t 08 Est 293 8.7641 10 3.144f 02 2.7821 02 2.340t 08 2.396t C8 3.136t 08 3.543t 08 3.5681 04 st 237 2.8391 09 1.095t 07 9.162t 08 6.1121 02 4.414t 08 4.521t 08 4.6901 08 3.264t 08 151 196 2.466t 09 1.126t .07 9.411E Ce 1,1471 C7 1.3231 07 1.101E C7 8.784t C8 7.0991 08 5 91 1.65tE 09 7.1241 08 6.535t CE 1.0961 07 9.C33t 08 7.7871 08 6.133t 08 4.664f 02 554 48 6.357t 10 4.219E C8 5.556t 08 6.536E Oc 9.6651 08 1.2291 07 8.1981 08 5.990E 02 sd 5C 1.941t 10 1.7918 05 3.6121 08 5.2491 08 4.745t 08 3.7621 02 2.723E 08 2.153t 05 uss 33 9.955t ii 4.4981 09 7.331t 09 1.194E 02 2.1131 05 2.2471 08 1.7531 08 1.393t CS b 41 6.C255 10 2.38 E OS 1.7371 02 1.6681 08 2.0121 05 2.1645 08 1.9681 08 1.5651 08 Whd 28 1.C271 10 5.0131 09 3.5109 4.265E 09 6.955t 09 9.2711 09 9.421t 09 8.3201 09 ew 62 4.2931 10 1.5261 Ce 7.676t 09 5.3991 09 6.0561 09 8.5051 09 9.567t*09 9.596t 09 thd 67 1.22.t 10 3.725t 09 3.214t 09 2.4531 09 3.2371 09 5.8071 09 7.266t 09 7.6458 09 AYttACE 1979 7.1031 10 2.9951 C8 2.8141 08 3.160E 08 3.368t 08 3.531t 08 3.0711 02 2.577E 02 DOWWW! C WQ. Cl51Act f t> ttLI Alf P0thi (wilts)

SEC10A DES 3.00 3.50 4.00 4.50 5.0c 7.50 10.00 15.00 h 90 9.954t 09 9.6118 09 9.1891 09 b.7681 09 8.3221 09 6.3361 09 5.0131 09 3.490E 09 hNt 106 1.1361 08 1.0801 02 1.0191 08 9.628E 09 9.0661 09 6.762E 09 5.298! 09 3.651t 09 6E 239 2.429t CE 2.3115 C! 2.12it et 2.0571 C2 1.9311 08 1.4181 08 1.0955 08 7.3711 09

(%E 229 2.338t 02 2.2121 02 2.C76t CE 1.9471 08 1.820E*C8 1.316t 08 1.006t 08 6.6701 09 E 169 1.Nt 02 1.699E 08 1.59t! 08 1.50.t Ct 1.4101 02 1.C31t 08 7.9501 09 5.3411 09 Est 293 3.390f 08 3.1821 02- 2.973E C8 2.7211 02 2.596t C8 1.873t 08 1.439s 08 9.6391 09 51 237 3.0621 02 2.2571 02 2.664t 02 2.493t 04 2.3281 08 1.696t 02 1.314t Ce t.9571 09

$$5 196 5.86 t 08 4.9541 01 4.263t 02 3.7171 08 3.2811 02 2.C231 08 1.426t 0? 9.3641 09 5 91 3.626t 05 2.930! 05 2,436f 02 2.0671 08 1.7kt 08 1.0321 08 7.050E 09 4.1431 09

$$d 48 4.632E Og 3.731t 08 3.0981 06 2.6331 08 2.2781 02 1.3248 02 9.0871 09 5.3991 09 54 50 1.7401 08 - 1.461t C1 1.2621 08 1.1111 08 9.955t 09 6.t37t 09 5.295E 09 3.k BI 09 W5d 33 1.1371 08 9.5061 09 8.103E 09 7.003t 09 6.135E 09 3.6771 09 2.5475 09 1.511t 09 W 41 1.3591 01 1.1911 C! 1.053! 06 9.390t 09 8.432E 09 7.30ot 09 5.0441 09 2.9801 09 Whd 28 7.6725 09 7.062E 09 6.5CM 09 6.C111 09 4.637E 09 4,1001 09 3.345E 09 2.273t 09 hw 62 9.1411 09 1.5701 09 7.992f 09 7.4561 09 6.946! 09 7.618t 09 5.827t 09 5.110! 09 the 67 7.463t 09 7.1165 09 6.723E 09 6.3471 09 5.96M 09 4.393t 09 3.7111 *.4 5.1121 09 avitAtt 1979 2.246t ct 1.984 08 1.780E 08 1.6111 08 1.4611 06 1.026t 08 7.6851 09 5.291t 09 00WWY!C WD. C151Aktt Fior atLEA11 P0lkT (MILil)  ;

$tCTOR 00$ 20.00 25.00 30.00 35.00 40.00 45.00 50.00 W 90 2.6618 09 2.1381 09 1.778t 09 1.52iE 09 1.3271 09 1.766E 09 1.5521 09 t'N! 106 2.7745 09 2.225t 09 1.2508 09 1.581t 09 1.3798 09 1.224t 09 1.0991 09 kl 239 5.5 Cit 09 4.3591 09 3.5941 09 3.051t 09 2.k 61 09 2.3381 09 2.090t 09 Ek! 229 4.939t 09 4.042t 09 3.750! 09 3.158! 09 2.7191 09 2.3821 09 2.1231 09 8 169 3.9251 09 3.1581 09 3.4041 09 2.862t 09 2.4625 09 2.1591 09 1.917t 09 Est 293 7.182t 09 5.6351 09 5.433E 09 4.5 kt 09 3.9551 09 3.478t 09 3.0951 09 st 237 6.7521 09 7.386t 09 6.C221 09 5.0611 09 4.3511 09 3.2111 09 3.381t 09  !

$51 196 6.5221 09 4.951t 09 3.9t.5! 09 3.229E 09 2.7961 09 2.4271 09 2.1371 09 j

$ 91 2.8628 09 2.160E 09 1.728! 09 1.4311-09 1.216! 09 1.0551 09 9.283f 10 q-

$54 48 3.7481 09 2.8425 09 2.225E 09 1.8995 09 1.617t*09 1.404E 09 1.237t 09 Ed 50 2.841t- 09 2.3221 09 1.952f 09 1.6871 09 1.8321 09 1.6391 09 1.478t 09

' WSW 33 1.044t 09 7.9 41 10 6.7 Cit 1C 5.504f 1C 4.k OE 10 4.0511 1C 3.542E 1C W 41 2.0601 09 1.553t 09 1.2391 09 1.C23E 09 9.203t+1C 7.9351 1C 6.936f 1C WWW 22 1.723t 09 1.6831 09 2.C'2t 09 2.2261 09 1.t951 09 1.6441 09 1.446t 09 bd 62 3.8211 09 3.3511 09 2.892E 09 4.000t ce 3,4C3t 09 2.951t 09 2.5961 09 Whd 67 3.578t 09 2.7211 09 2.1871 09 1.2171 09 1.546t 09 1.342t 09 1.112t 09 AYttACE 1979 3.E75t 09 3.2701 09 2.8C2E 09 2.484t 09 2.158t 09 1.9271 09 1.7C71 09 4

l A-22 l

)

APPENDIX A-23 DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR October - December 1988 00Bica 80!sch 4tt Guattte 198E StuttAL t/c's Octotta 1,1988 to MCtesta 31, 1988 SECTOR AWitA0f 8CDEL STACE Gttt4513 GRCWWO* LEVEL AVitACE owl /0 AFTER MPLitl0W (Mff. AND ATOMIC ENERCf 1968 OtPLit10h MODEL) - (SEC/m3)

Dow 11ND NO. Ols1ANCE f8> R!LE Ast POINT (RILES)

SEC108 00s .12 .25 .50 .5 1.00 1.50 2.00 2.50 W 90 8.222E 11 2.329t 09 2.939t 09 3.398D09 4.505t 09 7.594E 09 9.419f 09 9.991E 09 a:t 106 ~ 1.327D10 4.374E 09 5.754E 09 5.540t 09 6.554t 04 9.742E 09 1.136t 08 1.1641 02 NE 239 7.219f 10 2.0111 04 1.350E 08 1.1901 08 1.398D 06 2.049D 08 2.4118 08 2.4891 08 E2f 229 2.002E 10 7.016t 09 7.567f 09 7.269E 09 1.033E 08 1.872E 08 2.306D 08 2.398E 08 E 169 2.053E 10 8.1021 09 1.058E 05 9.894t 09 1.096D 08 1.545E 08 1.601E 08 1.846E 08 Est 293 8.744E 10 3.142E 08 2.775D08 1.1321 06 2.186E 08 3.1221 08 3.519E 08 3.531E 08 l $E 237 2.839E 09 1.09.E 07 9.132t 08 6.0698 08 4.3771 08 4.4861 08 4.M31 08 3.218E 02

l. sst 196 2.466t 09 1.12SE 07 9.425E 08 1.1451 07 1.3211 07 1.0041 07 8.6871 08 6.970E OS

! $ 91 1.658D 09 7.1171 08 6.!?0E 08 1.094E 07 9.006t 04 7.706: 08 5.9991 08 4.50BE 06 sss 48 6.357D10 4.214t 08 5.538D 08 6.509D 08 9.597D 06 1.109t 07 7.9621 08 5.721D02 sv 50 - 1.941E 10 1.788t 08 3.602E 04 5.228E 08 4.711E 08 3.706t 06 2.7121 08 2.C721 CE Wsg 33 9.9551 11 4.493E 09 7.326t 09 1.194t 02 2.1111 02 2.234E OS 1.728E 08 1.3578 08 l W 41 6.025E 10 2.382E 08 1.7341 08 1.M 51 08 2.009D08 2.153t 08 1.943D 08 1.530E 04 l WW 28 1.0271 10 5.077D09 3.C700 09 4.258E 09 6.943E 09 9.238t 09 9.411D 09 8.2171 09 W1 62 4.293t 10 1.525E 08 7.651D 09 5.3781 09 6.C14D 09 8.466E 09 9.480D 09 9.440D 09 kW 47 1.224E 10 . 3.7245 09 3.209t 09 2.4481 09 3.232E 09 5.794E 09 7.233E 09 7.604t 09 l

l AvtaA01 1979 7.1C3E 10 2.993E 02 2.805E 08 3.150E OS 3.354t 08 3.499E 08 3.0251 06 2.5211 08 1

O M 1!ND ko. OlsfANCE FR> RittAs! POINT (mitts)

SECTOR oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 W 90 9.7951 09 9.401E-09 8.930E 09 8.463t 09 7.9762 09 5.8471 09 4.452D 09 2.8781 09 okt 106 1.118Det 1.056E 02 9.913D 09 9.303E 09 8.702D 09 6.269E 09 4.7438 09 3.054E 09 hl 239 2.401E 08 2.274E 08 2.134E 08 2.001E 02 1.868E 08 1.324E 08 9.856E 09 6.161E 09 12f 229 2.307E OS 2.173E 04 2.029E 08 1.893E 08 1.761D 08 1.239t 08 9.213E 09 5.793E 09 E 169 1.769t 08 1.666E 08 1.5571 08 1.456E 08 1.356E 02 9.561D 09 7.0991 09 4.444E 09 Est- 293 3.3411 05 3.121E 08 2.9011 08 2.700E OS 2.505E Os 1.755E 08 1.30BE 08 8.266D 09 st 237 2.9991 02 2.7781 02 2.568t 08 2.3791 02 2.19tD 08 1.513E 02 1.106t Ce 6.7901 09 sst 196 5.712Det 4.785E Ot 4.0801 02 3.526! 04 3.023D 06 1.8141 08 1.222E 08 7.216D 09 s 91 3.4661 02 2.719! 08 2.276E 08 .1.910E*C8 1.Ht 18 E.924t 09 5.769E*09 3.045D09 559 48 4.338E 08 3.419E 08 2.773E 08 2.3001 04 1.940E 08 9.Mt! 09 5.876E 09 2.6781 09 SV 50 1.653E 08 1.370E 08 1.169E Ot 1.018D 06 9.014E 09 5.899E 09 4.3078 09 2.466f 09 f Wsw 33 1.0920 05 8.9971 09 7.5491 09 6.419f 09 5.531E 09 3.057E 09 1.964D 09 1.021E 09 W 41 1.313E 08 1.1341 08 9.886E C9 8.6431 09 7.674E 09 5.196E 09 3.424E 09 1.620E 09 ww 28 7.5345 09 6.890D 09 6.3051 09 5.781f 09 4.424t 09 3.721E 09 2.868t 09 1.725t 09 TW 62 8.9111 09 8.269D 09 7.628! 09 7.0371 09 6.482E 09 6.%8t 09 4.689E 09 3.4771 09 thw 67 7.374D 09 6.998! 09 6.578E 09 6.1760 09 5.772D 09 4.1151 09 3.340D 09 3.718D09 AVERAtt .1979 2.1791 08 1.9121 08 1.698D 08 1.523E Ot 1.369E 08 9.116D 09 6.499E 09 4.022E 09 00mV!70 No. 01 STANCE FR> RELiast PolNT iM!Lts)

SECTOR 005 20.00 25.00 30.00 35.00 40.00 45.00 50.00 W 90 2.040E 09 1.525t 09 1.1811 09 9.414t *10 7.6661 10 7.2471 10 5.8501 10 021 106 2.171E 09 1.630E 09 1.269E 09 1.0171 09 8.332E 10 6.948D 10 5.866E 10 of 239 4.282E 09 3.1741 09 2.460f 09 1.971E 09 1.618E 09 1.357D09 1.154E D9 I E2E 229 4.0718 09 3.148! 09 2.717t 09 2.1691 09 1.7731 09 1.480D09 1.252E 09 l E 169 3.1091 09 2.320E 09 2.2721 09 1.8011 09 1.465E 09 1.216E 09 1.0241 09 Est 293 5.816E 09 4.925E 09 3,787t 09 3.00 f 09 2.4391 09 2.C20E 09 1.695D 09 SE 237 4.643E 09 4.116E 09 3.076E 09 2.391E 09 1.913E 09 1.568t 09 1.3061 09 Est 196 4.616t 09 3.2271 09 2.394E 09 1.8441 09 1.461D 09 1.1871 09 9.8051 10 5 91 1.898E 09 1.3011 09 9.5141 10 7.2601 10 5.7261 10 4.649D10 3.852E 10 ssy 48 1.462D 09 8.984D10 6.0401 10 4.333t 10 3.275E 10 2.5t51 10 2.105t 10 SW 50 1.463E 09 8.7811 10 5.610E 10 3.903E 10 2.835E 10 2.282D10 1.895D 10 Wsv 33 6.33tD1C 4.351E 10 3.126t 1C 2.389E 10 1.888D 1C 1.486E 10 1.235E 10 W 41 9.316f 1C 6.050E 10 4.278D1C 3.196E 10 2.2E3E 1C 1.7135 10 1.420D 10 W9 28 1.144E 09 8.8671 1C 5.4C31 il 2.3791 1C 1.7191 it 1.360E iC 1.1C21 10 W 62 2.250f 09 1.650E 09 1.191E 09 3.5591 10 2.818! 1C 2.3051 10 1.9241 10 tw 67 2.279E 09 1.5201 09 1.C76f 09 7.9331 10 6.0341 10 4.723! 10 3.775E 10 Av*tA0t 1979 2.676D 00 2.015E 09 1.5511 09 1.1651 09 9.329E 1C 7.72eD1C 6.447D 10 A-23

1 APPENDIX A-24  ;

I RELATIVE DEPOSITION CONCENTRATIONS PER UNIT l EHISSION FOR MAIN STACK FOR October - December 1988 1

80610h t0!$0h dik GWAtif t 1968 Gigten R/G 5 Octotte 1,198810 MC848tt 31,1988 SECTOR AVERAct nEtt

$1 ACE SILEASI AWitaat MPD$1110h RAlts (0!PLfitt Cu!/C

  • Mt. VELOCl?Y NODEL
  • RET. Amt 410Mit GutRCT 1968) -

11/m2)

Nhdhvic Wo. Oll14k:t F00m t!LIAst Polut im!Lis)

SEC10e oss .12 .25 .50 .75 1.00 1.50 2.00 2.50 l s 90 8.222t 13 2.329t 11 2.9391 11 3.3981 11 4.505f 11 7.594t 11 9.419t 11 9.991t 11 get 106 1.32?! 12 4.3761 11 5.75.t 11 5 440E 11 6.554t=11 9.7421 11 1.1361 10 1.1661 1C WE 239 7.2191 12 2.0111 1C 1.3501 1C 1.190E 1C 1.3981 10 2.049t 10 2.411t 10 2.489t 10 txE 229 2.002t 12 7.016E 11 7.564 11 7.269E i1 1.0331 10 1.8721 10 2.3068 10 2.398E 10 j t 169 2.053t 12 8.1C21 11 1.05t! 1C 9.894t 11 1.096t 10 1.545t 10 1.80it 10 1.846t 1C

~

I tst 293 8.7441 12 3.14?t 1C 2.775t 10 2.3321 10 2.386t 10 3.122t 10 3.5191 10 3.5311 1C l st 237 2 839t 11 1.09.t 09 9.1321 1C 6.0691 10 4.3771 10 4.484t 10 4.u3t 10 3.218t 1C

$$f 196 2.4661 11 t.1251 09 9.425t 1C 1.1458 09 1.321t 09 1.094t 09 8.6871 10 6.970t 10

$ 91 1.65t! 11 7.1178 1C 6.520! 10 1.094f

  • 09 9.006t 1C 7.706! 1C 5.9991 1C 4.508t 10 sss et 6.357t 12 4.2141 1C 5.535! ir 6.5091 1C 9.5971 10 1.2091 09 7.9621 1: 5.721t ic sw 50 1.949t 12 1.72.!! 1C 3.60?f it 5.228t 1C 4.7111 10 3.706t 1C 2.7121 10 2.C721 it F1. 33 9.9551 13 4.4931 11 7.32e! 11 1.19.t 1C 2.1111 10 2.234f 1C 1.728t 1C 1.357i 1; W 41 6.C25t 12 2.312t 1: 1.73 t 1C 1.6651 tc 2.0098 1C 2.1531 1C 1.9411 it 1.53:! 1:

Wh. 28 1.C24 12 5.C'7t *i 3.C7;t 11 4.258! 11 6.9 3f 11 9.238t 11 9.4111 11 8.2171 11

h. 62 4.2931 12 1.525t 1: 7.titt 11 5.3'81 11 6.C3 1 11 8.466t 11 9.4801 11 9.44C! 11 tad 67 1.22.t 12 3.72 t 11 3.2071 11 2.4481 11 3.2321 11 5.794t 11 7.2331 11 7.60 1 11 A vt 0 A *! 1979 7.1C3t 12 2.9931 1C 2.8051 10 3.1501 1C 3.3541 1C 3.4991 1C 3.C251 1C 2.52it 10 DCMud1C 40. Cl$1Ah:1 FR > ttLIAll P:!hi (W!LES) 51t108 Oss 3.C; 3.5; 4.00 4.5C 5.00 7.50 iC.00 1$.C h 9C 9.795t 11 9.4 Cit 11 2.9301 11 2.443t 11 7.9761 11 5.8.71 11 4.452t 11 2.878! 11 WWI 1 06 1.1181 1C 1.056t 1C 9.913! 11 9.3:31 11 8.7:2t.it 6.2691 11 4.7431 11 3.05 ! 11 El 239 2.4 Cit it 2.27.t 1C 2.13.t.1C 2.0:it 1C 1.8621 1C 1.3241 1C 9.856! 11 6.1618 11 121 229 2.3071 1C 2.1731 1C 2.C?ti 1C 1.ti3t 1C 1.7611 1C 1.2391 1C 9.213t 11 5.793f 11 E 169 1.7691 1C 1.66ot 1C 1.5578 iC 1.456E iC 1.3561 10 9.5611 11 7.0991 11 4.4441 11 tst 293 3.3415 1C 3.121t 1C 2.9 it it 2.700! 1C 2.5 Cit 1C 1.755t 1C 1.108! 10 8.2o61 11 tl 237 2.9991 it 2.7't! 1; 2.56t! iC 2.379t 1C 2.198t iC 1.513!*1C 1.108t iC 6.790! 11 55E 196 5.712E 1: 4.725t 1C 4.Ct ! 1C 3.526! 1C 3.C131 1C 1.2141 1C 1.2221 1C 7.216! 11 5 91 3.4 4! 1C 2.7491 10 2.276! 1C 1.91CE 1C 1.631tatC t.924t 11 5.7691 11 3.0 51 11 l 854 42 4.336! 1C 3.499t 1C 2.773f 10 2.300E 1C 1.9 01 10 9.8-it 11 5.8765 11 2.678! 11 l SW 50 1.653! 1C 1.3'01 1: 1.1691 1C 1.C18! 1C 9.C141 11 5.8991 11 4.3C71*11 2.466! 11 WS. 33 1.0921 1C t.99't 11 7.5 91 11 6.4191 11 5.531t 11 3.0571 11 1.9641 11 1.C21t 11 W 41 1.313! 1C 1.1341 1: 9.8661 11 8.6f.31 11 7.674t 11 5.596t 11 3.4241 11 1.6201 11 W 28 7.53.t 11 6.890! 11 6.3051 11 5.721t+11 4.4241 11 3.7211 11 2.868! 11 1.7251 11 kW 62 8.9111 11 8.2691 11 7.621! i1 7.C378 ii 6.482t 11 6.5681 11 4.689t 11 3.473 11 the 67 7.37.t 11 6.998! 11 6.578! 11 6.1761 11 b.7721 ti 4.1151 11 3.3401 11 3.7121 11 AVIte:I 197f 2.1791 1C 1.912t 1C 1.698! 10 1.5231 10 1.3691 10 9.116! 11 6.4991 11 4.C221 11 l

D3Mic W:. Cl$1Ah:t FR > trilAlf P0lbf (plLil) l 5t:104 065 2C.C0 25.C; 30.0; 35.C; ei. 00 45.00 5C.00 t 90 2.0401 11 1.525f 11 1.1811 11 9.4141 12 7.666E 12 7.2471 12 5.850E 12 W21 106 2.171t 11 1.630! 11 1.2691 11 1.0171 11 8.332t 12 6.948f 12 5.866t 12 l NE 239 4.282f 11 3.1761 11 2.460! 11 1.9711 11 9.6181 11 1.3578 11 1.154t 11 I tut 229 4.C711 11 3.1481 11 2.7171 11 2.169t 11

  • mt 11

. 1.4801 11 1.2521 11 I i 169 3.1091 11 2.320t 11 2.2721 11 1.8011 11 i.4651 11 1.216t 11 1.C2.t 11 tst 293 5.816! 11 4.9251 11 3.7871 11 3.0041 11 2.439E 11 2.C201 11 1.6951 11 ,

$1 237 4.643! 11 4.1161 11 3.076f 11 2.391t 11 1.9131 11 1.5681 11 1.306t 11

$$t 196 4.6161 11 3.2271 11 2.39.t 11 1.8441 11 1.4611 11 1.1871 11 9.805t 12 S 91 1.898! 11 1.3011 11 9.514t 12 7,1601 12 5.726t=12 4.64 4 't 3.852t 12 554 48 1.4621 11 8.96 t il 6.0 0t 12 4.3331 12 3.275t 12 2.585'.1i 2.1051 12 SV 50 1.463t*11 8.7811 12 5.610t 12 3.9031 12 2.8351 12 2.2821 t* 1.895t 12 W54 33 6.331t 12 4.3511 12 3.126! 12

  • 1891 12 1.8881 12 1.4861 12 1.235f 12 W 41 9.316! 12 6.050! 12 4.278! 12 3.1461 12 2.283t 12 1.713t 12 1.4205 12 WWs 28 1.144t 11 8.864 12 5.4C3! 12 2.379f 12 1.719t 12 1.360t 12 1.1021 12 kW 62 2.2501 11 1.6501 11 1.1911 11 3.559t 12 2.8181 12 2.305t 12 1.9241 12 DW 67 2.2791 11 1.5201 11 1.C761 11 7.933t 12 6.C3.t 12 4.7231 12 3. m t 12 MIRA ! 1979 2.6768 11 2.C151 11 1.5511 11 1.165t.11 9.3291 12 7.7241 12 6.4471 12 l

1 I

A-24

@) EDISON Pilgrim Nuclear Power Station Rocky Hill Road Plymouth, Massachusetts 02360 K H h 10CFR50.36a(a)(2),

3t n r , PNPS TS % ction 6.9.C.I.a.

Reg. Guiue 1.21 March 30, 1989 BECo 89 044 U.S. Nuclear Regulatory Commission Document Control Desk Washington, DC 20555 License DPR-35 Docket 50-293 ANNUAL DOSE ASSESSMENT TO THE GENERAL PUBLIC FROM RADIOACTIVE EFFLUENTS FOR THE PERIOD JANUARY 1. 1988 TO DECEMBER 31. 1988 This letter submits Boston Edison Company's annual dose assessment report fer the period January 1,1988 to December 31, 1988. This report contains the radiological impact on humans and the associated percentage of technical specification limits.

It is submitted in accordance with 10CFR50.36a(a)(2) and Pilgrim Nuclear Power Station Technical Specification Section 6.9.C.1.a.

db "

GGH/jcp/3075 Attachment cc: Mr. D. Mcdonald, Project Manager Division of Reactor Projects - I/II Office of Nuclear Reactor Regulation Mail Stop: 1401 U.S. Nuclear Regulatory Commission 1 White Flint North 11555 Rockville Pike Rockville, MD 02852 l U.S. Nuclear Regulatory Commission Region I 475 Allendale Road King of Prussia, PA 19406 Senior NRC Resident Inspector Pilgrim Nuclear Power Station i

l Licensina Correspondence Control Sheet Outg31ng NRC Letter 2.89.044 Date: 03/30/89  !

Distribution: Number of Copies Needed (29)

K. Highfil (1) J. D. Keyes R. A. Anderson (Cntrl Sht Only)

Licensing File G. G. Whitney R. N. Swanson E. Robinson R. E. Grazio J. Alexander:

D. Eng P. Sullivan NRC Resident Inspector (2)

K. Perito P. Coughlin A. V. Morisi J. Jens (3) R. Canalas (5) Public Information (2)

L. Kearney.(Hatt Lab) (1) B. Dionne K. Sejkora External Distribution: Number of Copies Needed (6)

Dr. David McCurdy, Manager (1) Mr. Robert Hallisey (2)

Yankee Atomic Electric Company Mass. Dept. of Public Health Environmental Laboratory Director, Radiation Control Program 1671 Horcester Road 150 Tremont Street Floor #2 Framingham, MA 01701 Boston, MA 02111

~

. Lone'StiOFFlint' North ' / Mr. Robert Maietta 11555 Rockville Pike Mass. Division of Hater Pollution Control Rockville, MD 20852 Technical Services Branch a

Lyman School G - h cTJ,,.e r Mr. Robert Lawton (1) Hestboro, '

yELEASED Mass. Division of Marine Fisheries 18 Route 6A  ;

Sandwich, MA 02563 i ^ 0,,190:!

e.

n F0H USE Msiririry

Title:

Annual Dose Assessment to the General Public from Radioactive Effluents for the Period January 1,1988 to December 21, 1988 l

Summarv: Amendment 116 to the PNPS Technical Specifications allows for this supplement to the semi annual effluent reports to be submitted 90 days following January 1 of each year. This report covers the 1988  ;

calendar year. '

Lead Licensina Enaineer: G. G. Whitney O ( /

Keywords: ANNUAL DOSE ASSESSMENT REPORT, T.S. 6.9.C.1.

Action: In accordance with Technical Specification 6.9.C.1, submit a supplement dose assessment report to the semiannual Effluent Report (TS Section 6.9.C.1) 90 days from January 1.

Closure Requirements: Letter to NRC.

Action Assioned To: J. Jens Action Due Date: April 1, 1990 j DeDartment: Radiological Classification: C 1

- _ _ _ _ _ _ _ _ _ _ _