ML20012E621
| ML20012E621 | |
| Person / Time | |
|---|---|
| Site: | Pilgrim |
| Issue date: | 12/31/1989 |
| From: | Highfill K BOSTON EDISON CO. |
| To: | NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM) |
| References | |
| 90-43, NUDOCS 9004050516 | |
| Download: ML20012E621 (95) | |
Text
,\\.
L PNPS TS Section 6.9.C.I.a Reg. Guide 1.21 i
sosrmnas.
Pilgrim Nuclear Power Station Hocky Hdi Road
(
Phmouth, Massachusetts 02300 i
1 March 29,1990 E;,hnMo, a BECo Ltr. 90 43 vic. P,.so.nt, Nucleat Operations U.S. Nuclear Regulatory Commission Attn:
Document Control Desk Washington, D.C.
20555 Docket No. 50-293 License No. DPR-35
Dear Sir:
.The enclosed " Annual Dose Assessment to the General Public from Radioactive l
Effluents for 1989", is submitted in accordance with Pilgrim Nuclear Power Station Technical Specification 6.9.C.1.a.
Please do not hesitate to contact me if there are any questions regarding this report.
.[
K. L. Highf 1 BPL/bal Attachment cc:
Mr. William Russell Regional Administrator, Region I U.S. Nuclear Regulatory Commission i
475 Allendale Rd.
King of Prussia, PA 19406 Senior NRC Resident Inspector Pilgrim Nuclear Power Station P
S,3 von aux u n aco m e
em
' I Pilgrim Nuclear Power Station
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- l; Annual Dose Assessment i
g to the General Public g
fr.om 11 Radioactive Effluents i
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i Ll January 1 through December 31,1989 4
I Radiological Section
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l; Date: March 30,1990
.I; assosion l
9tniVEDISON l
ENERGY FOR TOMORROW l'
)
I BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION
< - I ANNUAL DOSE ASSESSMENT TO THE GENERAL 1
PUBLIC FROM RADI0 ACTIVE EFFLUENTS REPORT January 1, throi'ch December 31, 1989 LI I'
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Prepared by:
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K.Jr(2re]Kc(j
--7 Senior RacTol gical-vironmental Engineer 1
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Approved by:
N.7/&tHasc'1o
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Rav1ological Section Manager I
Date of Submittal:
March 30, 1990 l'
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l TABLE OF CONTENTS Section EA21 Executive Summary i
. I 1.0 Radiological Impact on Humans 1
I Off-site Doses Resulting from Radioactive Liquid 1
)
1.1 Effluents j
1.1.1 General Dose Assessment 1
I 1.1.2 Maximum Individual Doses 1
1.1.3 Average Individual and Population Doses 17 1.2 Off-site Doses Resulting from Radioactive Gaseous 24 Effluents 1.2.1 General Dose Assessment 24 1.2.2 Maximum Individual Doses 24 1.2.3 Average Individual and Population Doses 50 1.3 Off-site Doses Resulting from Release of Noble Gases 56 1.4 Off-site Direct Radiation Measurements 58 2.0 Percent Technical Specifications Limits / Objectives 61 2.1 Liquid Effluents 61 2.2 Particulates, Iodines, and Tritium 63 2.3 Noble Gases 65 3.0 References 67 I
Appendix A Concentration Per Unit Emission Factors 68 I
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k LIST OF TABLES Table Eagg 1.1.2-1 January-March 1989 Liquid Releases Maximum Individual 2
Doses from all Pathways for Adult j
1.1.2-2 April-June 1989 Liquid Releases Maximum Individual Doses 3
from all Pathways for Adult I
1.1.2-3 July-September 1989 Liquid Releases Maximum Individual 4
Doses from all Pathways for Adult 1.1.2-4 October-December 1989 Liquid Releases Maximum Individual 5
I Doses from all Pathways for Adult i
1.1.2-5 January-December 1989 Liquid Releases Maximum Individual 6
Doses from all Pathways for Adult 1.1.2-6 January-March 1989 Liquid Releases Maximum Individual 7
, Doses from all Pathways for Teenager 1.1.2-7 April-June 1989 Liquid Releases Maximum Individual Doses 8
from all Pathways for Teenager 1.1.2-8 July-September 1989 Liquid Releases Maximum Individual 9
Doses from all Pathways for Teenager I
1.1.2-9 October-December 1989 Liquid Releases Maximum Individual 10 Doses from all Pathways for Teenager 1.1.2-10 January-December 1989 Liquid Releases Maximum Individual 11 Doses from all Pathways for Teenager 1.1.2-11 January-March 1989 Liquid Releases Maximum Individual 12 Doses from all Pathways for Child 1.1.2-12 April-June 1989 Liquid Releases Maximum Individual Doses 13 from all Pathways for Child I
1.1.2-13 July-September 1989 Liquid Releases Maximum Individual 14 Doses from all Pathways for Child 1.1.2-14 October-December 1989 Liquid Releases Maximum Individual 15 I
Doses from all Pathways for Child 1.1.2-15 January-December 1989 Liquid Releases Maximum Individual 16 Doses from all Pathways for Child 1.1.3-1 Population Distribution 18 1.1.3-2 Radioactive Liquid Effluent Average Individual 19 and Population Doses January-March 1989.
1.1.3-3 Radioactive Liquid Effluent Average Individual 20 and Population Doses April-June 1989 I
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LIST OF TABLES (cont.)
Table h21 1.1.3-4 Radioactive Liquid Effluent Average Individual 21 and Population Doses July-September 1989 I
1.1.3-5 Radioactive Liquid Effluent Average Individual 22 and Population Doses October-December 1989 1
1.1.3-6 Radioactive Liquid Effluent Average Individual 23 I
and Population Doses January-December 1989 1.2.2-1 January-March 1989 Gaseous Releases Maximum Individual 25 i
Doses from all Pathways for Adult 1.2.2-2 April-June 1989 Gaseous Releases Maximum Individual 26 Doses from all Pathways for Adult 1.2.2-3 July-September 1989 Gaseous Releases Maximum Individual 27 Doses from all Pathways for Adult 1.2.2-4 October-December 1989 Gaseous Releases Maximum Individual 28 Doses from all Pathways for Adult 1.2.2-5 January-December 1989 Gaseous Releases Maximum Individual 29 Doses from all Pathways for Adult i
1.2.2-6 January-March 1989 Gaseous Releases Maximum Individual 30 -
Doses from all Pathways for Teenager
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l 1.2.2-7 April-June 1989 Gaseous Releases Maximum Individual Doses 31 from all Pathways for Teenager
,I 1.2.2-8 July-September 1989 Gaseous Releases Maximum Individual 32 Doses from all Pathways for Teenager 1.2.2-9 October-December 1989 Gaseous Releases Maximum Indvidual 33 Doses from all Pathways for Teenager 1.2.2-10 January-Deconber 1989 Gaseous Releases Maximum Individual 34 Doses from all Pathways for Teenager 1.2.2-11 January-March 1989 Gaseous Releases Maximum Individual 35 L
Doses from all Pathways for Child 1.2.2-12 April-June 1989 Gaseous Releases Maximum Individual Doses 36 from all Pathways for Child 1.2.2-13 July-September 1989 Gaseous Releases M4ximum Individual 37 Doses from all Pathways for Child 1.2.2-14 October-December 1989 Gaseous Releases Maximum Individual 38 Doses from all Pathways for Child LI
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i LIST OF TABLES (cont.)
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).2.2-15 January-December 1989 Gaseous Releases Maximum Individual 39 I
Doses from all Pathways for Child 1.2.2-16 January-March 1989 Gaseous Releases Maximum Individual 40 Doses from all Pathways for Infant 1.2.2-17 April-June 1989 Gaseous Releases Manimum Individual Doses 41 from all Pathways for Infant l
1.2.2-18 July-September 1989 Gaseous Releases Maximum Individual 42 Doses from all Pathways for Infant 4
1,2.2 19 October-December 1989 Gaseous Releases Maximum Individual 45 Doses from all Pathways for Infant I
1.2.2-20 January-December 1989 Gaseous Releases Maximum Individual 44 Doses from all Pathways for Infant 1.2. N 1 January-March 1989 Gaseous Releases Maximum Individual 45 Locations and Pathways I
1.2.2 22 April-June 1989 Gaseous Releases Maximum Individual 46 i
Locations and Pathways t
1.2.2-2)
July-September 1989 Gaseous Releases Maximum Individual 47 I
Locations and Pathways
. m 1.2.2-24 October-December 1989 Gaseous Releases Maximum Individual 48 i
g Locations and Pathways 1.2.2-25 January-December 1989 Gaseous Releases Maximum Individual 49 l
Locations and Pathways t
1.2.3 1 Radioactive Gaseous Effluent Average Individual and 51
)
Population Doses January-March 1989 l
1.2.3 2 Radioactive Gaseous Effluent Avertge Individual and 52 Population Doses April-June 1989 l
I 1.2.3-3 Radioactive Gaseous Effluent Average Individual and 53 Population Doses July-September 1989 j
1.2.3-4 RadioactiveGaseousEffluer.tAvera$eIndividualand Population Doses October-December 989 54 1.2.3-5 Radioactive Gaseous Effluent Average Individual and Population Doses January-December 1989 55 I
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i LIST OF TABLES (cont.)
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'l 1.3-1 Maximum Doses from Noble Gas Releases Durin91989 57 1.4-1 Environmental TLD Zone Designations 59 i
2.1-1 Semiannual Radioactive Effluent and Haste Disposal 62 Reports Supplement for 1989 Liquid Effluents:
Summation of All Releases - Table 2A 2.2-1 Semiannual Radioactive Effluent and Haste Disposa) 64 Reports Supplement for 1989 Gaseous Effluents:
Summation of All Releases - Table 1A 2.3-1 Semiannual Radioactive Effluent and Haste Disposal 66 Reports Supplement for 1989 Gaseous Effluents:
I Suwnation of All Releases - Table 1A 1
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[XE(llTIVE $U M RY t
I DDSTCW [DISON. COMPANY Pilaria Nuclear Power Statlpa Annual Dose Attestment To The General Public From Radioactive I
[ffluents Renort January 1 Throuah December 31. 1989 l
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INTRODUCTION This report quantifies the dose impact to the general public from the operation of Pilgrim Nuclear Power Station (PNPS) during the period January 1 I
to December 31, 1989. This document has been prepared in accordance with PNPS Technical Specifications section 6.9.C.I.4 and the guidelines set forth in Regulatory Guide 1.21,
- Measuring, Evaluating, and Reporting Radioactivity in i
I Solid Wastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents ficm Light Water Cooled Nuclear Power Plants" (Revision 1),
f This report contains information on the radiological impact on humans and the percentage of u thnical specifications limits / objectives associated with radioactive eftiuents. The radiological impact on humans is presented in j
three exposure categories:
- 1) liquid releases; 2) gaseous releases; and j
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- 3) direct radit. tion from Pilgrim Station.
The maximum individual dose from j
liquid releases was calculated 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 dose from gaseous releases was calculated using the following pathways:
- 1) external radiation from soil deposition;
- 2) inhalation of airborne activity; 3) ingestion of vegetables; 4) ingestion i
I of meat; 5) ingestion of milk; and 6) exposure to airborne noble gases.
In addition, the contribution to the maximum individual dose as a result of the direct radiation from PNPS was measured using environmental thermoluminescent g
dosimeters (TLDs).
The percentages of technical specif? cations limits / objectives contained in this report is supplemental information to the two semiannual Radioactive Effluent and Haste Disposal Reports for 1989.
These percentages of technical specifications limits / objectives are presented in three effluent categories:
- 1) liquid effluents 2) tritium, iodine-131 and 133, and particulates with l
half-lives greater than eight days; and 3) noble gases.
RADIOLOGICAL IMPACT ON HUMANS The methods and parameters used to perform these dose calculations are presented in the PNPS Offsite Dose Calculation Manual (Revision 3), Regulatory Guide 1.109 (Revision 1), Regulatory Guide 1.111 (Revision 1), and the Pilgrim I
Station Unit 1 Appendix I Evaluation.
t During the period January 1 to December 31, 1989, the maximum hypothetical I
total body dose to any individual from liquid effluents was 0.001 millirem 1
(mrem).
The maximum hypothetical dose to any organ (child bone) was less than 0.004 mrem.
The average individual dose within 50 miles of Pilgrim Station I.
was less than 0.000003 mrem. The total population dose within 50 miles of Pilgrim Station resulting from liquid effluents was less than 0.005 person-rem.
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During the period January 1 to December 31, 1989, the dispersion of gaseous I
effluents was such that the maximum individual whole body dose occurred at the i
I shorefront near the Pilgrim Station trash compaction facility (0.1 mi. NE).
The maxime:n hypothetical total body dose to any individual from radioactive tritium, lodines, and particulates released in gaseous effluents was less than I
0.02 mrem, while the maximum hypothetical dose to any organ (infar.t thyroid)
I was about 0.1 mrem.
In a similar context, the maximum hypothetical total body dose from releases of noble gases was 0.09 mrem, with a corresponding maximum skin dose of 0.1 mrem. The average individual dose within 50 miles of Pilgrim i
I Station from all radionuclides in gaseous effluents was less than 0.0002 mrem.
The total population dose within 50 miles of Pilgrim Station from l
gaseous effluents was less than 0.5 person-rem.
Direct radiation readings were also evaluated to complete the calculation of dose to the maximum hypothetical receptor.
The annual average exposure for the 1989 environmental TLD measurements within 2 miles was 68 1 15 I
m1111 Roentgen, whereas the " background" measurements from locations greater than 10 miles from Pilgrim Station yielded 64 1 9 m1111 Roentgen.
The data indicated that the direct radiation dose to the hypothetical maximum exposed I
individual or members of the general public during 1989 was not significantly different than background.
I he collective total body dose from liquid and gaseous effluents and direct radiation ouring 1989 was approximately 0.1 mrem to the maximum hypothetical individual.
This is less then 0.05 percent of the radiation dose of 300 to 400 mrem received each ye6r by the average American from natural and manmade I
- sources, t
PERCENT TECHNICAL SPECIFICATIONS The maximum indivicual doses resulting from:
- 1) liquid effluents; 2) airborne I
tritium, radiciodines, and particulates; 3) noble gases were compared to the
,I applicable Tet.hnical Specifications limits or objectives.
The resulting doses from radioactive material in liquid releases were well below the associated
(
l PNPS Technical Specifications limits and objectives (see Table 2.1-1).
In j
un addition, the quarterly average concentrations of radionuclides released to t
g Cape Cod Bay were fractions of a percent of the maximum permissible concentrations.
The resulting doses from radioactive particulates, iodines.
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and tritium released in gaseous effluents during the period were a very small percentage of the associated PNPS Technical Specifications limits and objectives (see Table 2.2-1).
The maximum doses resulting from releases of noble ases were less than two percent of the associated PNPS Technical Specif cations limits and objectives (see Table 2.3-1).
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'I CONCLUSION I
The PNPS Technical Specifications limiting conditions for operations and
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operational objectives associated with liquid and gaseous effluents were met I
during this reporting period. Conformance to these limits and objectives ensures that the releases of radioactive materials in gaseous and liquid i
effluents were kept as low as is reasonably achievable in accordance with the Nuclear Regulatory Commission's regulation 10CFR50. Appendix I, furthermore.
I compItance wtth PNPS Technical Specifications demonstrates compliance with the Environmental Protection Agency's federal environmental regulation l
40CFR190.10. subpart B. entitled " Environmental Protection Standards for L
I Nuclear Power Operations".
Therefore, based on the dose assessment results for 1989, there is no evidence of any significant radiological impact on the t
general public due to Pilgrim Station's operation.
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1.0 RADIOLOGICAL IMPACT ON HUMANS 1.1 0Fr-SITE Dosts RESULTING FROM RADIDACTIVE L10'JID EFFLUENTS I
1.1.1 General Dose Assess ual
[
,E The methods and parameters used to calculate the off-site E
doses from radioactive 11guld effluents are presented in l
the PNPS Off-site Dose Calculation Manual (Ref. 1), NRC Regulatory Guide 1.109 (Ref. 2), and the Pilgrim Station i
I Unit 1 Appendix ! Evaluation (Ref. 3).
Population data are l
based upon the 1980 census data.
The liquid releases to l
Cape Cod Bay, for each quarter of 1989, are presented in I
the two 1989 semiannual Radioactive Effluent and Haste Disposal Reports (Ref. 4 and 5).
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1.1.2 Maximum Individual Doses The maximum individual doses from radioactive liquids were calculated using the liquid effluent releases from Tables 2A and 28 from the two 1989 semiannual Radioactive Effluent i
and Haste Disposal Reports.
The Yankee Atomic Electric i
Company "YODA" computer program was used to calculate total I
body, skin, and organ doses to each age group for each j
pathway (Ref. 8).
This computer pro ram was used to compile the major pathway dose contr butions to obtain the i
I maximum total body, skin, and organ doses to each age roup.
The resultant adult, teenager, and child doses from iquid releases are reported in Tables 1.1.2-1 through 1.1.2-15 (Ref. 8).
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W W
W W
W W
W~W W
W W
W W
W W
W W
W Table 1.1.2-1 Pilgrim Nuclear Power Station January - March 1989 Liquid Releases Maximum Individual 00ses From All Pathways for Adult (area)
Pathway jgtn_t Liver Thyroid Kidney
[g_ng GI-LLI Skin Total Body Salt Mater Fish 1.46E-04 1.05E-04 9.22E-08 1.18E-06 5.47E-05 1.42E-04 0.00E+00 3.55E-05 Salt Mater Shellfish 4.18E-04 2.98E-04 4.08E-08 3.36E-07 1.55E-04 5.23E-04 0.00E+00 1.12E-04 Discharge Canal Shoreline 1.72E-05 1.72E-05 1.72E-05 1.72E-05 1.72E-05 1.72E-05 2.02E-05 1.72E-05 i
Ocean Shoreline 4.30E-06 4.30E-06 4.30E-06 4.30E-06 4.30E-06 4.30E-06 5.06E-06 4.30E-06 Swi ming 3.63E-08 3.63E-08 3.63E-08 3.63E-08 3.63E-08 3.63E-08 4.27E-06 3.63E-08 Boating 1.81E-08 1.81E-08 1.81E-08 1.81E-08 1.81E-08 1.81E-06 2.13E-08 1.81E-08 Total 5.86E-04 4.25E-04 2.17E-05 2.31E-05 2.31E-04 6.67E-04 2.53E-05 1.69E-04 i
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Table 1.1.2-2 Pilgrim Nuclear Power Station April - June 1989 Ligold Releases Maximum Individual Doses From All Pathways for Adult _(ares)
Pathway
_B. Qng Liver ThYrold Kidney Lung GI-LLI Shin Total _ Body Salt Water Fish 6.84E-05 5.52E-05 2.09E-07 2.60E-06 2.55E-05 9.95E-05 0.00E+00 2.32E-05 Salt Water Shellfish 1.83E-04 1.44E-04 9.27E-08 7.43E-07 7.05E-05 3.79E-04 0.00E+00 6.66E-05 Discharge Canal Shoreline 1.49E-05 1.49E-05 1.49E-05 1.49E-05 1.49E-05 1.49E-05 1.75E-05 1.49E-05 Ocean Shoreline 3.72E-06 3.72E-06 3.72E-06 3.72E-06 3.72E-06 3.72E-06 4.38E-06 3.72E-06 Swimming 3.11E-06 3.11E-08 3.11E-08 3.11E-08 3.11E-08 3.11E-08 3.66E-06 3.11E-08 l
8oating 1.56E-08 1.56E-08 1.56E-08 1.56E-08 1.56E-08 1.56E-08 1.83E-06 1.56E-08 4
Total 2.70E-04 2.18E-04 1.90E-05 2.20E-05 1.15E-04 4.97E-04 2.19E-05 1.08E-04 i
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M M
M^M M
M M
M M'M M
M M
M' Table 1.1.2-3 Pilgria Nuclear Power Station July - September 1989 Liquid Releases Maximum Individual Doses From All Pathways for Adult (area)
Pathway Hong Liver Thyroid Kidney leg GI-LLI Skin Tptal Body Salt Water Fish 3.80E-04 2.82E-04 9.15E-06 9.97E-06 1.43E-04 2.23E-04 0.00E @
8.44E-05 Salt Mater Shellfish 1.04E-03 7.39E-04 1.86E-05 2.89E-06 3.99E-04 7.18E-04 0.00E 00 2.07E-04 Discharge Canal Shoreline 1.53E-05 1.53E-05 1.53E-05 1.53E-05 1.53E-05 1.53E-05 1.80E-05 1.53E-05 Ocean Shoreline 3.82E-06 3.82E-06 3.82E-06 3.82E-06 3.82E-06 3.82E-06 4.49E-06 3.82E-06 Swimming 3.26E-06 3.26E-08 3.26r. 'M 3.26E-06 3.26E-06 3.26E-08 3.91E-08 3.26E-08 Boating 1.63E-08 1.63E-08 1.63E-08 1.63E-08 1.63E-08 1.63E-08 1.96E-08 1.63E-08 Total 1.44E-03 1.04E-03 4.69E-05 3.20E-05 5.61E-04 9.60E-04 2.25E-05 3.11E-04 1
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W W
W W
W-M M
M M
M M
M M
M M
M M
M Table 1.1.2-4 i
Pilgrim Nuclear Power Station October - December 1989 Liquid Releases l
Maximum Individual Doses From All Pathways for Adult (ares)
~
l Pathway h
Liver Thyroid Kidney Long GI-LLI Sj.n Total Body _
Salt Water 1.28E-04 1.42E-04 8.27E-07 3.51E-05 3.23E-05 9.96E-C5 0.00E+00 8.19E-05 Fish Salt Water Sh211 fish 1.87E-04 1.46E-04 3.67E-07 9.60E-06 6.18E-05 3.39E-04 0.00E+00 7.51E-05 Discharge Canal Shoreline 2.02E-05 2.02E-05 2.02E-05 2.02E-05 2.02E-05 2.02E-05 2.37E-05 2.02E-05 Ocean Shoreline 5.05E-06 5.05E-06 5.05E-05 5.05E-06 5.05E-06 5.05E-06 5.92E-06 5.05E-06 Swimming 3.64E-08 3.64E-08 3.64E-08 3.64E-08 3.64E-08 3.64E-08 4.55E-06 3.64E-08 Boating 1.82E-08 1.82E-08 1.82E-08 1.82E-08 1.82E-08 1.82E-06 2.27E-08 1.82E-08 Total 3.40E-04 3.13E-04 2.65E-05 7.00E-05 1.19E-04 4.64E-04 2.97E-05 1.82E-04 4
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Table 1.1.2-5 Pilgrim Nuclear Power Station January - December 1989 Liquid Releases Maximum Individual Doses From All Pathways for Adult (ares)
Pathway llp_njt Liver Thyreld Kidney Limg GI-LLI SI1;;
Total Body L
Salt Water Fish
?.09E-04 5.75E-04 1.05E-05 4.86E-05 2.50E-04 5.51E-04 0.00E+00 2.31E-04 Salt Mater Shellfish 1.79E-03
!.30E-03 1.95E-05 1.35E-05 6.72E-04 1.91E-03 0.00E+00 4.49E-04 i
Discharge Canal Shoreline 6.58E-05 6.58E-05 6.58E-05 6.58E-05 6.58E-05 6.58E-05 7.73E-05 6.58E-05 i
Occcn Shoreline 1.64E-05 1.64E-05 1.64E-05 1.64E-05 1.64E-05 1.64E-05 1.93E-05 1.64E-05 Swimming 1.33E-07 1.33E-07 1.33E-07 1.33E-07 1.33E-07 1.33E-07 1.60E-07 1.33E-07 Boating 6.65E-08 6.65E-08 6.65E-08 6.65E-08 6.65E-08 6.65E-08 8.00E-08 6.65E-08 I
l Tetal 2.58E-03
!.96E-03 1.12E-04 1.44E-04 1.00E-03 2.54E-03 9.68E-05 7.52E-04 1
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W W
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MW W
W W
W W
Table 1.1.2-6 Pilgrim Nuclear Power Station January - March 1989 Liquid Releases Maximum Indlyidual Doses From All Pathways for Teenacer (area)
Pathway
_ Bent Liver Thyroid Kidney Lv_ng GI-LLI Sitin Jotal Bodl Salt Mater Fish 1.53E-04 1.13E-04 7.09E-08 1.20E-06 6.68E-05 1.05E-04 0.00E+00 3.65E-05 Salt Mater Sha11 fish 3.80E-04 2.79E-04 2.75E-08 2.95E-07 1.66E-04 3.34E-04 0.00E+00 1.02E-04 Discharge Canal Shoreline 9.60E-05 9.60E-05 9.60E-05 9.60E-05 9.60E-05 9.60E-05 1.13E-04 9.60E-05 Ocean Shoreline 2.40E-05 2.40E-05 2.40E-05 2.40E-05 2.40E-05 2.40E-05 2.82E-05 2.40E-05 Swimming 3.63E-08 3.63E-08 3.63E-08 3.63E-06 3.63E-08 3.63E-06 4.27E-08 3.63E-08 Boating 1.81E-08 1.81E-08 1.81E-08 1.81E-08 1.81E-08 1.81E-08 2.13E-08 1.81E-08 1
Total 6.53E-04 5.12E-04 1.20E-04 1.22E-04 3.53E-04 5.59E-04 1.41E-04 2.59E-04 l
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Table 1.1.2-7 Pilgrim Nuclear Power Station April - June 1989 L1 quid Releases Maximum Individual Doses From All Pathways for Teenacer (area)
Pathway
!hmg Liver Ih_yrpid Kidney Leg GI-LLI Skin Total Body r
j Salt Mater Fish 7.17E-05 5.87E-05 1.61E-07 2.64E-06 3.11E-05 7.19E-05 0.00E+00 2.22E-05 Salt Mater Shellfish 1.68E-04 1.34E-04 6.24E-08 6.52E-07 7.53E-OS 2.38E-04 0.00E @
6.04E-05 Discharge Canal Shoreline S.31E-05 8.31E-05 8.31E-05 8.31E-05 8.31E-05 8.31E-05 9.77E-05 8.31E-05 Ocean Shoreline 2.08E-05 2.08E-05 2.08E-05 2.08E-05 2.08E-05 2.08E-05 2.44E-05 2.08E-05 Scimming 3.11E-06 3.11E-08 3.11E-08 3.11E-08 3.11E-08 3.11E-08 3.661-08 3.11E-08 i
Boating 1.566-08 1.56E-08 1.56E-08 1.56E-08 1.56E-08 1.56E-08 1.83E-08 1.56E-08 i
T@tal 3.44E-04 2.97E-04 1.04E @
1.07E-04 2.10E-04 4.14E-04 1.22E-04 1.87E-04 i
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8
^2 Table 1.1.2-8 Pilgrim Nuclear Power Station July - September 1989 Liguld Releases Maximum Individual Doses From All Pathways for Teenacer (ares)
Pathway D@g Liver Thyroid Kidney Limg GI-LLI Sk_in Total Body Salt Wate-Fish 3.99E-04 3.02E-04 8.45E-06 1.02E-05 1.74E-04 1.72E-04 0.00E+00 8.13E-05 Salt Mater Shellfish 9.52E-04 6.93E-04 1.52E-05 2.57E-06 4.27E-04 4.77E-04 0.00E+00 1.91E-04 Discharge Canal Shoreline 8.53E-05 8 53E-05 8.53E-05 8.53E-05 8.53E-05 8.53E-05 1.00E-04 8.53E-05 i
Ocean Shoreline 2.13E-05 2.13E-05 2.13E-05 2.13E-05 2.13E-05 2.13E-05 2.51E-05 2.13E-05 Swimming 3.26E-08 3.26E-08 3.26E-08 3.26E-06 3.26E-06 3.26E-08 3.91EA)6 3.2*E-08 --
Boating 1.63E-08 1.63E-08 1.63E-08 1.63E-08 1.63E-08 1.63E-08 1.%E-08 1.63E-08 Tctal 1.46E-03 1.10E-03 1.300-04 1.19E-04 7.08E-04 7.56E-04 1.25E-04 3.79E-04 l
9
W W
W W
W W
W W
W W
W W
W E
E E
Table 1.1.2-9 Pilgrim Nuclear Power Station October - December 1989 L1 quid Releases Maximum Individual Doses From All Pathways for Teenacer (area)
Pathway 8gn_g 1,1ver Thyroid K1dney Limg GI-LLI Rin Total _Sody Salt Mater Fish 1.35E-04 1.49E-04 6.36E-07 3.63E-05 3.91E-05 7.16E-05 0.00E+00 5.38E-05 Salt Mater
~
Shellfish 1.71E-04 1.36E-04 2.47E-07 8.66E-06 6.59E-05 2.13E-04 0.00E+00 6.08E-05 Discharge Canal Shoreline 1.13E-04 1.13E-04 1.13E-04 1.13E-04 1.13E-04 1.13E-04 1.32E-04 1.13E-04 Ocean Shoreline 2.82E-05 2.82E-05 2.82E-05 2.82E-05 2.82E-05 2.82E-05 3.31E-05 2.82E-05 Swimming 3.64E-08 3.64E-08 3.64E-08 3.64E-06 3.64E-06 3.64E-08 4.55E-06 3.64E-OS Boating 1.82E-08 1.82E-08 1.82E-08 1.82E-08 1.82E-08 1.82E-08 2.27E-08 1.82E-08 Tctal 4.47E4)4 4.26E-04 1.42E-04 1.86E-04 2.46E-04 4.26E-04 1.65E-04 2.56E-04
- l 1
10
W W
W W
W W
W W
MM W
W W
W W
W W
Table 1.1.2-10 Pilgrim Nuclear Power Station January - December 1989 Liquid Releases Maximum Individual Doses From All Fathways for Teenacer (ares)
Pathway
_8gn_t Liver Thyroid Kidney Lung GI-LLI Sdn Total Body i
Salt Mater Fish 7.44E-04 6.11E-04 9.52E-06 5.02E-05 3.05E-04 4.10E-04 0.00E+00 1.90E-04 Salt Mater Shellfish 1.63E-03 1.22E-03 1.58E-05 1.21E-05 7.19E-04 1.23E-03 0.00E+00 4.04E-04 Discharge Canal Shoreline 3.67E-04 3.67E-04 3.67E-04 3.67E-04 3.67E-04 3.67E-04 4.32E-04 3.67E-04 Ocean Shoreline 9.18E-05 9.18E-05 9.18E-05 9.18E-05 9.18E-05 9.18E-05 1.08E-04 9.18E-05 Swimming 1.33E-07 1.33E-07 1.33E-07 1.33E-07 8.33E-07 1.33E-07 1.60E-07 1.33E-07 Boating 6.65E-08 6.65E-08 6.65E-08 6.e5E-08 6.65E-08 6.65E-08 8.00E-08 6.65E-08 Total 2.83E-03 2.29E-03 4.84E-04 5.21E-04 1.48E-03 2.10E-03 5.40E-04 1.05E-03
W W
W W
W W
W W
W W
W W
W E
E E
Table 1.1.2-11 P11gris Nuclear Power Station January - March 1989 Liquid Releases Maximum Individual Doses From All Pathways for Child (ares)
Pathway
_B@S Liver Thyrold Kidney Lyng GI-LLI Shin Total Body Salt Mater Fish 1.99E-04 1.09E-04 5.85E-08 1.02E-06 5.85E-05 3.%E-05 0.00E40 4.38E-05 Salt Mater Shellfish 5.73E-04 3.14E-04 2.63E-08 2.92E-07 1.68E-04 1.43E-04 0.00E40 1.42E-04 Discharge Canal Shoreline 2.01E-05 2.01E-05 2.01E-05 2.01E-05 2.01E-05 2.01E-05 2.36E-05 2.01E-05 l
Occcn Shoreline 5.02E-06 5.02E-06 5.02E-06 5.02E-06 5.02E-06 5.02E-06 5.90E-06 5.02E-06 i
Swimming 2.02E-08 2.02E-08 2.02E-08 2.02E-08 2.02E-08 2.02E-08 2.38E-08 2.02E-08 Boating 1.01E-08 1.01E-08 1.01E-08 1.01E-08 1.01E-08 1.01E-08 1.19E-08 1.01E-06 Total 7.97E-04 4.48E-04 2.52E-05 2.65E-05 2.52E-04 2.08E-04 2.95E-05 2.11E-04 i
I 12 4
___w,w.,
me f
eme.---.
m uwwm-ews-amy--g
- wmmy, v ww -w wwa-r=w yww_.-e
.+qg.yy
,-,a.,wwyvg,-m-w.
,<w m-wrwgww-w
.*gwe-w w y_,
ww w ww www e r T=wr -we-e m e-M umme www e'W '-www=w
-w m wwm
- w
g g
g_g g.3 m
W W
W W
W W
W Table 1.1.2-12 Pilgrim Nuclear Power Station April - June 1989 Liquid Releases Maximum Individual Doses From All Pathways for Child (area)
Pathway
_Bgn_t Liver Thyroid Kidney Limg GI-LLI Skin Total Body Salt Hater Fish 9.38E-05 5.63E-05 1.33E-07 2.25E-06 2.71E-05 2.64E-05 0.00E+00 2.47E-05 Salt Hater Shellfish 2.56E-04 1.50E-04 5.97E-08 6.44E-07 7.64E-05 9.96E-05 0.00E+00 8.17E-05 Discharge Canal Shoreline 1.74E-05 1.74E-05 1.74E-05 1.74E-05 1.74E-05 1.74E-05 2.04E-05 1.74E-05 Ocean Shoreline 4.34E-06 4.34E-06 4.34E-06 4.34E-06 4.34E-06 4.34E-06 5.10E-06 4.3*E-06 Swimming 1.73E-08 1.73E-08 1.73E-08 1.73E-08 1.73E-08 1.73E-06 2.04E-08 1.73E-08 Boating 8.65E-09 8.65E-09 8.65E-09 8.65E-09 8.65E-09 8.65E-09 1.02E-08 8.65E-09 T@tal 3.72E-04 2.28E-04 2.20E-05 2.47E-05 1.25E-04 1.48E-04 2.55E-05 1.28E-04 13
Table 1.1.2-13 Pilgrim Nuclear Power Station July - September 1989 Liquid Releases Maximum Individual Doses From All Pathways for Child _(area)
Pathway 182n_t Liver Thyroid Kidney Les GI-LLI Skin Total Body Salt Water Fish 5.22E-04
?.93E-04 8.62E-06 8.75E-06 1.52E-04 6.81E-05 0.00E+00 9.51E-05 Salt Water Shellfish 1.45E-03 7.85E-04 1.81E-05 2.55E-06 4.33E-04 2.16E-04 0.00E+00 2.77E-04 Discharge Canal Shoreline 1.78E-05 1.78E-05 1.78E-05 1.78E-05 1.78E-05 1.78E-05 2.09E-05 1.78E-05 Ocean Shoreline 4.46E-06 4.46E-06 4.46E-06 4.46E-06 4.46E-06 4.46E-06 5.24E-06 4.46E-06 Swimming 1.82E-08 1.82E-08 1.82E-08 1.82E-08 1.82E-08 1.82E-08 2.18E-08 1.82E-08 Boating 9.10E-09 9.10E-09 9.10E-09 9.10E-09 9.10E-09 9.10E-09 1.09E-08 9.10E-09 1
T@tal 1.99E-03 1.10E-03 4.90E-05 3.36E-05 6.07E-04 3.06E-04 2.62E-05 3.94E-04 i
r i
e 14
m W
W W
W W
W W
W W
W W
W W
W W
Table 1.1.2-14 Pilgrim Nuclear Power Station Octot:er - December 1989 Liquid Releases Maximum Individual Doses From All Pathways for Child _(area)
Pathway
_Bqng Liver Thyroid Kidney Lung GI-LLI Skin Total Body Salt Mater Fish 1.73E-04 1.37E-04 5.25E-07 3.13E-05 3.32E-05 2.64E-05 0.00E+00 3.51E-05 Salt Mater Shellfish 2.55E-04 1.50E-04 2.37E-07 8.64E-06 6.66E-05 8.98E-05 0.00E+00 7.45E-05 Discharge Canal Shoreline 2.36E-05 2.36E-05 2.36E-05 2.36E-05 2.36E-05 2.36E-05 2.76E-05 2.36E-05 Occan Shoreline 5.89E-06 5.89E-06 5.89E-06 5.89E-06 5.89E-06 5.89E-06 6.91E-06 5.89E-06 Swimming 2.03E-08 2.03E-06 2.03E-08 2.03E-06 2.03E-08 2.03E-06 2.54E-08 2.03E-08 Boating 1.01E-08 1.01E-08 1.01E-08 1.01E-08 1.01E-08 1.01E-08 1.27E-08 1.010-08 Tctal 4.58E-04 3.17E-04 3.03E-05 6.95E-05 1.29E-04 1.46E-04 3.45E-05 1.39E-04 i
15
W-E W
W W
W W
W W
W W
W W
W W
W W
E
~
Table 1.1.2-15
~
Pilgria Nuclear Power Station January - December 1989 Liguld Releases Maximum Individual Doses From All Pathways for Child (area)
Pathway h
Liver Thyroid Kidney Lung GI-LLI Mn Total _8ody l
Salt Water Fish 9.68E-04 5.85E-04 9.55E-06 4.32E-05 2.66E-04 1.57E-04 0.00E+00 1.94E-04 4
Salt Water
~
Shellfish 2.48E-03 1.37E-03 1.88E-05 1.21E-05 7.29E-04 5.35E-04 0.00E+00 5.61E-04 Discharge Canal Shoreline 7.68E-05 7.68E-05 7.68E-05 7.68E-05 7.68E-05 7.68E-05 9.02E-05 7.68E-05 Ocean Shoreline 1.92E-05 1.92E-05 1.92E-05 1.92E-05 1.92E-05 1.92E-05 2.25E-05 1.92E-05 Swimming 7.39E-08 7.39E-08 7.39E-08 7.39E-08 7.39E-08 7.39E-08 8.91E-08 7.39E-06 Boating 3.70E-06 3.70E-08 3.70E-08 3.70E-08 3.70E-08 3.70E-08 4.46E-08 3.70E-08 Tetal 3.54E-03 2.05E-03 1.24E-04 1.51E-04 1.09E-03 7.88E-04 1.13E-04 8.51E-04 i
l l
l 16 l
I i
lI 1
1.1.3 Averace Individual and Poeulation Doses l
I The average individual and cumulative population doses from radioactive liquid effluents to individuals within a 50 l
I alle radius are based on the population distribution shown in Table 1.1.3-1.
These numbers are based upon the 1980 l
census data for the permanent population.
The average individual and cumulative population doses from radioactive i
I liquid releases were calculated using the Yankee Atomic Electric Company's "YODA" computer program and are t
presented by pathway in Tables 1.1.3-2 through 1.1.3-6 L
(Ref. 8).
I I
l L
t I
i I
f l
i b
I
'I 17
~
t
W W
W W
W W
W W
W W
W W
W TABLE 1.1.3-1 PILGtIM MJCLEAR FUER STATION BFULATION DISTRIBUTION Distance Interval from Pilgr-im Stath - miles SECTOR 0-1 1-2 2-3 3-4 4-5 5-10 10-20 20-30 30-40 40-50 0-50 N
O O
O O
O O
O O
O 3.09E4 3.09E4 ME O
O O
O O
O O
O O
O O
E O
O O
O O
O O
O O
O O
EE O
O O
O O
O 5.30E2 3.48E3 0
0 4.01E3 E
O O
O O
O O
O 3.29E3 3.41E2 0
3.63E3 ESE O
O 1.50E1 0
0 0
0 5.88E3 1.31E4 0
1.90E4 SE 5.70E2 1.76E2 4.76E2 0
0 0
1.24E3 d.02E4 5.91E3 0
4.86E4 SSE 1.90E1 2.10E2 5.30E2 2.03E3 8.19E2 1.33E3 1.32E4 1.95E4 0
7.12E2 3.34E4 S
0 3.90E1 2.08E2 5.30E1 2.20E1 2.39E3 1.66E4 2.52E4 7.80E3
'7.12E2 5.30E4 SSW 1.90E1 0
2.30E1 0
0 9.98E2 1.58E4 7.80E3 3.16E2 3.59E2 2.53E4 SW 0
3.90E1 1.23E2 6.50E1 3.49E2 4.97E2 1.28E4 1.42E5 4.64E4 4.65E4 2.49E5 WSW 0
7.70E1 2.36E2 3.00E0 2.17E2 2.52E3 1.1*E4 5.04E4 1.37E5 1.85E5 3.87ES W
5.80E1 9.50E1 4.75E2 1.25E3 4.52E3 9.56E3 1.76E4 6.05E4 1.42E5 3.78E5 6.14E5 WNW 1.17E2 0
0 0
7.11E2 1.03E4 2.83E4 1.65E5 1.13E5 1.00E5 4.25E5 NW 1.90E1 0
0 0
8.00E0 5.65E3 3.96E4 2.07ES 8.21ES 6.36E5 1.71E6 MM 0
0 0
0 1.30E1 1.55E3 2.66E4 2.83E4 1.04E5 4.14E5 5.74E5 TOTAL 8.02E2 6.36E2 2.09E3 3.40E3 6.66E3 3.49E4 1.84E5 7.59ES 1.39E6 1.846 4.18E6 18
I Table 1.1.3-2 l
Pilgrim Nuclear Power Station Radioactive Liquid Effluent Average Individual and Population Doses
[
Januarv - March 1989 I
i THYR 010 TOTAI. BODY l
Average Population Average Population Individual Dose Individuni Dose I
Dose Dose Pa.t hwa y (mrem)
(cerson-rem)
(mrem)
(eerson-rem)
Salt Water 2.64E-10 5.93E-07 1.20E-07 2.6BE-04 fish f
a balt Hater 9.36E-11 1.54E-07 3.04E-07 4.99E-04 Shellfish f
Swimming / Boating 3.00E-10 5.44E-07 3.00E-10 S.44E-07 Shoreline 1.31E-07 2.42E-04 1.31E-07 2.42E-04 l
Total 1.32E-07 2.43E-04 5.55E-07 1.01E-03
- i I
l t
el I
uI 19 I
1
- I
\\
Table 1.1.3-3 Pilgrim Nuclear Power Station Radioactive Liquid Effluent Average Individea) and Population Doses bril - June 1989 i
THYR 010 TOTAL BODY Avera e Population Avera e Population
)
Indiv dual Dose Indiv dual Dose
.I Dose Dose Pathway
,-(mrem)
(eerson-rem)
(mrem)
(eerson-rem)
Salt Water 6.01E-10 1.35E-06 7.47E-08 1.6BE-04 I
fish Salt Water 2.13E-10 3.50E-07 1.79E-07 2.95E-04 l
Shellfish j
Swimming / Boating 2.57E-10 4.67E-07 2.57E-10 4.67E-07
)
Shoreline 1.13E-07 2.07E-04 1.13E-07 2.07E-04 i
Total 1.14E-07 2.09E-04 3.67E-07 6.70E-04
)
t I
1 1
(
20 i
I Tablo 1.1.3-4 Pilgrim Nuclear Power Station Radioactive Liquid Effluent Average Individual and Population Doses July - Statember 1989 I
THYROIA TOTAL BODY Average Population Average Population Individual Dose Individual Dose I
Dose Dose Pathway (mrem)
(eerson-rem)
(mrem)
(eerson-rem)
Salt Water 2.87E-08 6.44E-05 2.76E-07 6.19E-04 fish Salt Water 4.69E-08 7.71E-05 5.70E-07 9.37E-04 Shellfish Swimming / Boating 2.70E-10 4.89E-07 2.70E-10 4.89E-07 Shoreline 1.13E-07 2.07E-04 1.13E-07 2.07E-04 I
Total 1.89E-07 3.49E-04 9.59E-07 1.76E-03
.I I
I 1
21 f
i b
t Table 1.1.3-5 Pilgrim Nuclear Power Station Radioactive Liquid Effluent l
Average Individual and Population Doses
'g October-December 1989 1
3 l
THYROID TOTAL BODY Average Population Average Population i
i Individual Dose Individual Dose Dose Dose Pathway (mrem)
(eerson-tem)
(mrem)
(eerson-rem)
Salt Water 2.37E-09 5.32E-06 2.20E-07 4.94E-04 Fish Salt Water 8.43E-10 1.39E-06 1.90E-07 3.12E-04 i
Shellfish Swimming / Boating 3.01E-10 5.46E-07 3.01E-10 5.46E-07
)
Shoreline 1.29E-07 2.37E-04 1.29E-07 2.37E-04
(
Total 1.33E-07 2.44E-04 5.39E-07 1.04E-03
)
I I
I I
1 f
I t
I
'I I
1
)
E f
b 22
I I
Table 1.1.3-6 Pilgrim Nuclear Power Station j
R4dioactive Liquid Effluent Average Individus) and Population Doses JLnuarv - December 1989 l
I THYROID Average Populatiorf l
TOTAL BODY
' Average Population Individual Dose Individual Dose Dose Dose I
Eg,thway (mrem)
(cerson-rem)
(mrem)
(certon-rem) i 1
Salt Water 3.13E-08 7.30E-05 6.78E-07 1.52E-03 Fish lt Salt Water 4.92E-08 8.09E-05 1.21E-06 1.99E-03 l
Shellfish Swimming /8oating 1.10E-09 1.99E-06 1.10E-09 1.99E-06 l
Shoreline 4.73E-07 8.70E-04 4.73E-07 8.70E-04
)
I
(
Total 5.55E-07 1.03E-03 2.36E-06 4.3BE-03 I
I I
l 1
s I
t 23
3 e
1.
1.2 OFF-SITE DOSES RESULTING TROM RADI0 ACTIVE CASEOUS EFFLUENTS
'W 1.2.1 fatat.ral Dose Assessment The methods and parameters used to calculate the off-site doses l
from iudioactive gaseous effluents are presented in the PNPS i
Off-site Dose Calculation Manual (Ref.1), NRC Regulatory Guide 1.109 (Ref. 2), NRC Regulatory Guide 1.111 (Ref. 7) and the Pilgrim Station Unit One Arpendix I Evaluation (Ref. 3).
The l
gaseous releases for both the reactor building vent and the main l
stack, for each quarter of 1989, are presented in the two 1989 i
semiannual Radioactive Effluent and Haste Disposal Reports (Ref.
t 4 and 5).
l Meterological information for calculating dispersion of these effluents are presented in the two 1989 semiannual Radioactive Effluent and Haste Disposal Reports.
For each quatter, values of X/0, depleted X/Q, and D/0 were calculated using the Yankee Atomic Electric Company "AEOLUS" ;;rogram (Ref. 6).
The results
.I are tabulated in Appendix A (Re!. 3).
6 1.2.2 Maximum Individual Doses The maximum indiv! dual doses from radioactive tritium, iodines, and particulates with half-lives greater than eight days in gaseous effluents were calculated using the gaseous' effluent t
releases from Tables 1A, 18, and 1C of the two 1989 semiannual Radioactive Effluent and Haste Disposal Reports._ The Yankee Atomic Electric Company "YODA" computer program was used to I'
compile the major pathway dose contributions to obtain the total body, skin, and organ doses to each age group at each receptor location. The resultant adult, teenager, child, and infant
.I.
doses from gaseous releases are reported in Tables 1.2.2-1 through 1.2.2-20 (Ref. 8).
Receptor locations and exposure phthways for the various maximum individual dose calculations are listed in Tables 1.2.2-21 through 1.2.2-25.
Pilgrim Station Technical Specifications treat maximum doses i
arising from noble gas exposure independently from doses resulting from gaseous releases of tritium, radiciodines, and l
particulates.
Therefore, none of the maximum individual dose tables presented in this section include any dose contribution l.I:
from noble gases.
The analysis for maximum individual doses resulting from releases of noble gases can be found in Section 1.3 of this report. Maximum individual dose values from gaseous releases of tritium, radioiodines, and particulates presented in I
Tables 1.2.2-1 through 1.2.2-25 can then be compared directly to the dose limits and objectives from the Technical Specifications which address this exposure pathway. These comparisons are presented in Section 2.2 of this report.
t 24 4
e
,s
' W W W
W MM ' W W -- W ' W l. M M
M-W W
W W
W W
Table 1.2.2-1 Pilgrim Nuclear Power Station January - March 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Adult (aren)*
locatien*
Bo_n1 Liver Thyroid Kidney Luno GI-LLI Skin Total Body NE (161 m)
O.1 miles 3.26E43 4.43E-03 4.42E-03 4.43E-03 4.65E-03 4.44E-03 3.84E-03 4.43E-03 SE (805 m) 0.5 miles 9.49E-05 2.16E-04 3.74E-04 2.10E-04 2.14E-04 2.18E-04 8.33E-05 2.14E-04 NN (644 m) 0.4 miles 1.57E-04 2.14E-04 2.16E-04 2.13E-04 2.24E-04 2.14E-04 1.84E-04 2.14E-04 N (3862 m) 4 2.4 miles 2.35E-05 3.64E-05 1.88E-03 3.64E-05 2.51E-05 2.82E-05 8.08E-06 3.17E-05 SSE (2736 m) 1.7 miles 2.02E-05 3.48E-05 3.68E-04 3.47E-05 3.36E-05 3.54E-05 1.07E-05 3.41E-05 S (3862 m) 2.4 miles 2.29E-05 1.98E-05 5.90E-04 2.03E-05 1.71E-05 2.0aE-05 8.83E-06 1.88E-05
- Maximum individual locations and pathways are listed in Table 1 2.2-21.
4 25
M'M M - M.
M'M 6 'M ~ M,M M
M M
M ^M ' M MM M
. ~.
Table 1.2.2-2 Pilgrim Nuclear Power Station April - June 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Adult (aree)*
Locatic_n_*
Bone Liver Thyroid Kidney Lung SI-LLI Skin Total Body NE (161 m) 0.1 miles 1.85E-05 1.60E-03 1.60E-03 1.60E-03 1.68E-03 1.62E-03 1.04E-08 1.60E-03 SE (805 m) 0.5 miles 1.01E-04 1.21E-04 8.54E-04 1.23E-04 1.20E-04 1.36E-04 3.17E-06 1.23E-04 H (3862 m) 2.4 miles 3.28E-05 5.64E-05 4.64E-03 6.72E-05 4.18E-05 5.00E-05 1.64E-06 5.02E-05 NH (644 m) 0.4 miles.
2.67E-06 8.62E-05 1.38E-08 8.64E-05 9.02E-05 8.71E-05 1.83E-06 8.60E-05 HSH (2897 m) 1.8 miles 1.69E-Os 1.98E-05 6.96E-04 2.16E-05 1.76E-05 2.07E-05 2.93E-06 1.89E-05 S (3862 m) 2.4 miles 1.64E-05 1.77E-05 9.62E-04 2.01E-05 1.45E-05 1.79E-05 3.48E-06 1.64E-05
?:aximum individual locations and pathways are listed in Table 1.2.2-22.
26
eg: g g-g: :g g ' g g.3
' W. m..
W W
W W_ W
-Table 1.2.2-3 Pilgrim Nuclear Power Station July - September 1989 Gascous Releases Maximum Individual Doses From All Pathways for Adult (ares)*
Location
- _8gng Liver Thyroid ~
Kidney Lu.ng GI-LLI Shirl Total Body ENE (161 m) 0.1 miles 2.39E-10 2.98E-03 2.98E-03 2.98E-03 2.98E-03 2.98E-03 1.51E-10 2.98E-03 SE (8'J5 m) 0.5 miles 2.50E-05 2.35E-04 7.32E-04 2.37E-04 2.34E-04 2.36E-04 6.79E-07 2.39E-04 l
N (3862 m) 2.4 alles 6.21E-05 6.41E-05 8.31E-03 8.34E-05 3.76E-05 4.%E-05 9.27E-07 6.02E-05 HNN (805 m) 0.5 H ies 1.07E-06 5.66E-05 1.17E-04 5.69E-05 5.66E-05 5.65E-05 6.76E-07 5.64E-05 SSE (2736 m) 1.7 alles 4.02E-05 2.29E-05 8.21E-04 2.50E-05 2.05E-05 2.41E-05 1.09E-06 2.91E-05 S (3862 m) 2.4 miles 5.07E-05 1.44E-05 1.16E-03 1.73E-05 1.10E-05 1.59E-05 1.33E-06 2.19E-05
- Maximum individual locations and pathways are listed in Table 1.2.2-23.
I 27
~
. ~ -
g a
m ;3 M~W W
W. W W-M M
M M
M M
M Table 1.2.2-4 Pilgrim Nuclear Power Station October - December 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Adult (aree)*
Location
- Bone Liver Thyroid Kidney Luna GI-LLI S!Qn Total Body E (161 m) 0.1 miles 4.14E-05 '7.96E-03 9.68E-03 7.97E-03 8.10E-03 8.00E-03 4.28E-06 7.%E-03 SE (805 m) 0.5 miles 2.25E-04 9.62E-04 1.80E-03 9.64E-04 9.64E-04 9.98E-04 7.55E-07 9.67E-04 NM (644 m) 0.4 alles 8.52E-07 1.54E-04 1.92E-04 1 54E-04 1.57E-04 1.55E-04 1.52E-07 1.54E-04 SSE (2736 m) 1.7 miles 2.17E-05 7.02E-05 4.73E-04 7.12E-05 6.94E-05 7.32E-05 3.85E-07 7.01E-05 N (3862 m) 2.4 miles 1.47E-05 5.66E-05 2.28E-03 6.18E-05 4.97E-05 5.36E-05 1.73E-07 5.36E-05 S (3862 m) 2.4 alles 1.23E-05 2.45E-0S 5.33E-04 2.58E-05 2.32E-05 2.59E-05 4.15E-07 2.40E-05
- Maximum individual locations and pathways are listed in Tahle 1.2.2-24.
28
- = -
.~
. ~.....~--.-.......:
Table 1.2.2-5 Pilgrim Nuclear Power Station January - December 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Adult (arem)*
Location
- Bone liver Thyroid Kidney LMng GI-lll Skin Total Body.
NE (161 m) 0.1 miles 3.65E-03 1.45E-02 1.58E-02 1.45E-02 1.50E-02 1.46E-02 4.20E-03 1.45E '
SE (805 m) 0.5 miles 4.73E-04 1.47E-03 3.52E-03 1.46E-03 1.46E-03 1.51E-03 1.72E-04 1.48E-03 NN (644 m) 0.4 miles 1.43E-04 5.34E-04 6.35E-04 5.34E-04 5.51E-04 5.36E-04 1.65E-04 5.34E-04 N (3862 m) 2.4 alles 1.20E-04 2.44E-04 1.61E-02 2.76E-04 1.87E-04 2.12E-04 1.24E-05 2.24E-04 i
SSE (2736 m) 1.7 miles 9.23E-05 1.53E-04 2.38E-03 1.57E-04 1.46E-04 1.57E-04 1.74E-05 1.56E-04 1
S (3862 m) 2.4 miles 9.62E-05 8.24E-05 3.35E-03 9.00E-05 7.17E-05 8.62E-05 1.24E-05 8.59E-05 T
Maximum individual locations and pathways are listed in Table 1.2.2-25.
1 f
29 2
,-v-4 4
,y m-me
,e--e
-w-
.m,,,-7,,,
lm,.---x
-e,-
mew--,
-~~-,,.,'
' ~. _
Table 1.2.2-6 Pligrim Nuclear Power Station
~
January - March 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Teenacer (aren)*
y Location
- Bone Liver Thyroid Kidney Luna GI-LLI Skin Total Body NE (161 m) 0.1 miles 3.28E-03 4.44E-03 4.43E-03 4.43E-03 4.76E-03 4.44E-03 3.84E-03 4.43E-03 SE (805 m) 0.5 alles 1.08E-04 2.36E-04 3.68E-04 2.26E-04 2.33E-04
-2.33E-04 8.33E-05 2.28E-04 NN (644 m) 0'
-H es 1.57E-04 2.14E-04 2.16E-04 2.13E-04 2.24E-04 2.14E-04 1.84E-04 2.14E-04 n
2 m)
?e a.les 3.53E-05 4.87E-05 2.87E-03 4.86E-05 2.94E-05 3.24E-05 8.08E-06 3.68E-05 S9F (2736 m) i
-es 2.56E-05 3.80E-05 3.30E-04 3.74E-05 3.68E-05 3.80E-05 1.07E-05 3.65E-05 l
l
,. m) l n 'as 2.97E-05 2.09E-05 5.09E-04 2.09E-05 1.81E-05 2.11E-05 8.83E-06 1.93E-05 wm individual locations and pathways are listed in Table 1.2.2-21.
l 30
M ;M - M M' : M ' M ^ M M'
M
.M M
M
' M M
M M
M Table 1.2.2-7 Pilgrim Nuclear Power Station April - June 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Teenacer (aren)*
Location *
!!png Liver Thyroid Kidney Lttng GI-LLI Skin Total Body NE (161 m) 0.1 alles 2.65E-05 1.61E-03 1.61E-03 1.61E-03 1.76E-03 1.63E-03 1.04E-08 1.61E-03 SE (805 m) 0.5 miles 1.51E-04 1.34E-04 7.86E-04 1.36E-04 1.34E-04 1.50E-04 3.17E-06 1.36E-04 H (3862 m) 2.4 alles 5.41E-05 7.46E-05 7.08E-03 9.32E-05 4.%E-05 6.00E-05 1.64E-06 6.31E-05 NN (644 m) 0.4 miles 3.15E-06 8.68E-05 1.54E-04 8.71E-05 9.40E-05 8.78E-05 1.83E-06 8.66E-05 HSH (2897 m) 1.8 miles 2.35E-05 2.14E-05 6.23E-05 2.32E-05 1.93E-05 2.23E-05 2.93E-06 2.06E-05 S (3862 m) 2.4 miles 2.18E-05 1.84E-05 8.35E-04 2.08E-05 1.54E-05 1.85E-05 3.48E-06 1.71E-05 Maximum individual locations and pathways are listed in Table 1.2.2-22.
31
- - ~. _. _ _ -, _ _ _ _ _ _ - _ _ _ _ _ _ _____
u
f
.:=
Table 1.2.2-8 i
Filgris Nuclear Power Station July - September 1989 Gaseous Releases Maximum Individual 00ses From All Pathways for Teenacer (ares)*
Location
- Bone Liver Thyroid Kidney Luno GI-LLI Skin Total Body EME (161 m) 0.1 miles 2.65E-10 3.00E-03 3.00E-03 3.00E-03 3.00E-03 3.00E-03 1.51E-10 3.00E i i
SE (805 m) 0.5 ciles 3.17E-05 2.60E-04 7.02E-04 2.62E-04 2.59E-04 2.61E-04 6.79E-07 2.65E-04 1
q N (3862 m) 2.4 ciles 9.10E-05 9.00E-05 1.27E-02 1.23E-04 4.48E-05 5.98E-05 9.27E-07 7.850-05 MIN (805 m) 0.5 ciles 1.19E-06 5.71E-05 1.35E-04 5.75E-05 5.72E-05 5.68E-05 6.76E-07 5.68E-05' SSE (2736 m) 1.7 miles 5.09E-05 2.50E-05 7.34E-04 2.72E-05 2.29E-05 2.61E-05 1.09E-06 3.29E-05 l
S (3862 m) i 2.4 ciles 6.32E-05 1.49E-05 1.00E-03 1.78E-05 1.20E-05 1.62E-05 1.33E-06 2.45E
- Maximum individual locations and pathways are listed in Table 1.2.2-23.
32 a.
jM.
M.
M LM^ M^M M
'M.
M M
M.
M M ~
~M'M.
M Table 1.2.2-9 Pilgrim Nuclear. Power Station
~
October - December 1989 Gaseous Releases Maximum Individual Doses From All Pathways for Teenacer (ares)*
Location
- _Bo_n_g liver Thyroid Kidney ign_g GI-LLI SAi_n Total Body E (161 m)'
O.1 miles 5.75E-05 8.02E-03 1.02E-02 8.03E-03 8.26E-03 8.05E-03 4.28E-06 8.01E-03 SE (805 m) 0.5 miles 3.41E-04 1.06E-03 1.81 E-03 1.07E-03 1.07E-03 1.10E-03 7.55E-07 1.07E-03 NN (644 m) 0.4 miles 1.16E-06 1.55E-04 2.05E-04 1.55E-04 1.60E-04 1.56E-04 1.52E-07 1.55E-04 SSE (2736 m) 1.7 miles 3.22E-05 7.74E-05 4.33E-04 7.85E-05 7.71E-05 8.06E-05 3.83E 7.76E-05 N (3862 m) 2.4 miles 2.46E-05 7.10E-05 3.47E-03 8.00E-05 5.92E-05 6.40E-05 1.73.-.
5.55E-05 S (3862 m) 2.4 miles 1.74E-05 2.58E-05 4.62E-04 2.70E-05 2.48E-05 2.71E-05 4.15E-07 2.54E-05
- Maximum individual locations and pathways are listed in Table 1.2.2-24.
33
,ar:;;w R _ M _Y M '
M
M
'M'M M'MiM'G;:
M.
Table 1.2.2-10 Pilgrim Nuclear Power Station l
January - December 1999 Gaseous Releases Maximum Individual Doses From All Pathways for Teenaaer (aren)*
L Location
- Bone Liver Thyroid-Kidney Lung GI-LLI Skin Total Body l
NE (161 m) 0.1 miles 3.67E-03 1.46E-02 1.62E-02 1.46E-02 1.54E 1.47E-02 4.20E-03 1.46E-02 SE (805 m) 0.5 miles 6.34F-04 1.62E-03 3.43E-03 1.60E-03 1.61E-03 1.66E-03 1.72E-04 1.62E-03 NN (644 m) 0.i miles 1.44E-04 5.37E-04 6.68E-04 5.37E-04 5.63E-04 5.39E-04 1.65E-04 5.36E-04 H (3862 m) 2.4 miles 1.87E-04 3.19E-04 2.45E-02 3.74E-04 2.22E-04 2.53E-04 1.24E-05 2.76E-04 SSE (2736 m) 1.7 miles 1.22E-04 1.67E-04 2.14E-03 1.72E-04 1.61E-04 1.71E-04 1.74E-05 1.71E-04 4
S (3862 m) 2.4 miles 1.25E-04 8.61E-05 2.90E-03 9 M4E-05 7.65E-05 8.89E-05 1.24E-05 9.13E-05 t
Maximum l'@rldual locations and pathways are listed in Table 1.2.2-25.
34 7
~. =
s-
,. ~ < ~, - ~
m r.
- ~ - -,. - - ~ -
-a-,,--.
-,..n,
-n.
n --
Table 1.2.2-20 Pilgrim Nuclear. Power Station January - December 1989 Gaseous Releases
- Maximum Individual Doses From All Pathways for Infant (aren)'
Location
- Bong Liver Thyroid Ki_dntY LYng GI-LLI SAin Total Body NE (161 m) i 0.1 miles 3.67E-03
?.20E-03 1.10E-02 9.19E-03 9.73E-03 9.19E-03 4.20E-03 9.19E-03 SE (805 m) 0.5 miles 1.51E-04
^3.34E-04 7.14E-04 3.34E-04 3.51E-04 3.33E-04 1.72E-04 3.33E-04 NN (644 m) 0.4~ miles 1.44E-04 3.43E-04 4.90E-04 3.43E-04 3.61E-04
' 3.42E-04 1.65E-04 3 A?E-Ci H (3862 m) 2.4 miles 5.19E-04 6.52E-04 1.13E-01 6.84E-04 2.62E-04 2.77E-04 1.24E-05 4.18E-04 SSE (2736 m) 1.7 miles 1.66E-05 3.50E-05 4.21E-04 3.53E-05 3.61E-05 3.34E-05 1.74E-05 3.38E-05 S (356? m) 2.4 miles 1.26E-05 2.06E-05 5.00E-04 2.06E-05 2.07E-05 1.85E-05 1.24E-05 1.90E-05 I
Maximum individual locations ano pathways are listed in Table 1.2.2-25.
44
..-- f ----.~-
= - -
=
. 'M ;M lM ' M M
M~
L.M M
M M
M.
M -
_.,s C '.
.; P Table 1.2.2-21 Pilgrim Nuclear Power Station January - March 1989 Gaseous Releases
=
Maximum Individual 1.ocations and Pathways
- 2 7
Pathways Contaminated Receptor Ground Inhalation Garden
!! gal Cow Milk Goat Milk NE (0.1 miles)
Boundary yes yes no no no no SE (0.5 miles)
Garden, Resident yes yes yes no no no.
MM (0.4 alles)
Resident yes yes no no no no N (2.4 alles)
Cow, Goat yes yes yes no yes yes SSE (1.7 miles)
Garden yes yes yes no no no; S (2.4 alles)
Meat yes yes yes yes no no 3
Yes indicates that the pathway is analyzed.
No-indicates that it is not considered.
i e
45
., _. _. J. i_
.=
J u.~
?-
^
b,
- ^-
s Table 1.2.2-22 Pilgrim Nuclear _ Power Station April -' June 1989 Gaseous Releases Maximum Individual Locations and Pathways
- Pathways Contaminated Receptor Ground Inhalation
-Garden Hg_a_t Cow Milk Goat Milk NE (0.1 miles)
Boundary yes yes no no no no SE (0.5 miles)
C Garden, Resident yes yes yes no no no N (2.4 miles)
Cow, Goat yes yes yes no yes yes NN (0.4 miles)
Resident yes yes no no no no MSN (1.8 Miles)
Garden yes yes yes no no no l
S (2.4 alles)
Meat yes
.yes yes yes no no l
Yes indicates that the pathway is analyzed.
No indicates that it is not considered.
~46
~~
m#
l l-
zm m
Sm M.
M I. M M
M Table 1.2.2-23 i
Pilgrim Nuclear Power Station July - September 1989 Gaseous Releases Maximum Individual Locations and Pathways
- Pathways Contaminated Recentor Ground Inhalation Garden
!! gat Cow Milk Goat Milk
?
ENE (0.1 miles)
Boundary yes yes no no no no SE (0.5 miles)
Garden, Resident yes yes yes no no no l
N (2.4 miles)
Cow, Goat yes yes yes no yes yes NNH (0.5 miles)
R5sident yes yes no no no no l
SSE (1.7 miles)
Garden yes yes yes no no no S (2.4 miles)
Meat yes yes yes yes no
- no Yes indicates that the pathway is analyzed.
No indicates that it is not considered.
~
I i
47~
o
_.. -.... ~.... _ _ _. _,.
. _.. -,. ~.. _.. - -...
3;, -- 3::cm :
q
=
MMf;M
'M M
M,M'M:
M :-
' M M
M-M:M M -
M
- r g. ::
, ' ?:-f-fs^ ~
tQ:=?G A Tib -
Taule 1.2.2-24
~_'~~
Pilgrim Nuclear Power Station October - December 1989 Gaseous Releases Maximum Individual Locations and Pathways
- Pathways Contaminated Receptor Ground Inhalaiia.
Garden Mg_a.t Cow Milk Goat Milk a
E-(0.1 elles)
Boundary yes yes no no no no SE (0.5 miles)
-Garden, Resident yes yes yes no no no b
NN (0.4 miles)
Resident yes yes no no no no SSE (1.7 miles)
Garden yes yes yes no no no N (2.4 miles)
Cow, Goat yes yes yes no yes yes S (2.4 miles) l Meat yes yes yes yes no no Yes indicates that the pathway is analyzed.
I No indicates that it is not considered.
48 c
.. -.. ~
............2..
, a n.;.
.g-
--~=w wST
- - SE :1 -
_ M M -W W-W W i. W.. W W
W.- W WL
,g:
=
,1
~
Table 1.2.2-25 Pilgrim Nuclear Power Station.
~ ~
January - DecemScr 1989 Gaseous Releases Maximum Individual Locations and Psthways*
Pathways-Contaminated.
Receptor Ground Inhalation Garden
!htni Cow Milk Goat Milk NE (0.1 alles)
Boundary yes yes no no no no
-SE (0.5 miles)
Garden, Resident yes yes yes no no no NN (0.4 alles)
Resident yes yes
~ no no no no H (2.4 alles)
Cow, Goat yes yes yes no yes yes SSE (1.7 miles)
Garden yes yes yes no no no S (2.4 miles)
Meat yes yes yes yes no no Yes indicates that the pathway is analyzed.
No indicates that it is not considered.
49
6 I
1 1.2.3 Averaoe Individual and Pooulation Doses
{
The average individual end cumulative population doses from radioactive particultdes and gases to individuals within a 50 I
mile radius are based on the population distribution shown in l
Table 1.1.3-1.
These numbers are based upon 1980 Census Data
)
W for the permanent population. These doses were calculated using the Yankee Atomic Electric Company "YODA" computer program.
.m The average individual and cumulative population doses from i
g radioactive gaseous releases by pathway are presented in Table 1.2.3-1 through 1.2.3-5 (Ref. 8).
j PNPS Technical Specifications do not address noculation doses from noble gases, tritium, iodines, or particulates. However, since noble gases do contribute to population doses Yesulting I
from release of-radioactive gaseous effluents, their contribution is included along with doses from tritium, iodines, and particulates in the population dose summaries presented in Tables 1.2.3-1 through 1.2.3-5.
During all release periods, the
'I dose contribution from noble gases accounted for the major portion of doses received by the general public from gaseous effluents. Nonetheless, exposure to releases of gaseous effluents resulted in cumulative coeulation doses that were less than 0.5 person-rem for the entire year of 1989; an average individual is estimated to have received an effective-whole body exposure of about 0.0001 mrem.
l It I
?
I
'r
<I
I-1 l
\\
i sg le 1.2.3-1 M1gr;n % clear Power Station Radioactive Gaseous Effluent Average Individual and Population Doses
}
Januarv - March 1989 i
I THYROID TOTAL BODY Average Population Average Population Individual Dose Individual Dose Dose Dose l
Pathway (mrem)-
(nerson-rem)
(mrem)
(nerson-rem)
Noble Gas
+
Immersion 9.12E-06 3.79E-02 9.12E-06 3.79E-02 (gamma)
Ground Plane Deposition 8.61E-08 3.58E-04 8.61E-08 3.58E-04 Inhalation 5.99E-07 2.49E-03 1.18E-07 4.92E-04 ll Vegetables 4.11E-08 1.71E-04 9.91E-09 4.12E-05
'I Milk 1.86E-06 7.74E-03 1,05E-08 4.37E-05 Meat 2.38E-09 9.90E-06 4.09E-10 1.70E-06 t
Total 1.17E-05 4.87E-02 9.34E-06 3.88E-02 I-51
t Table 1.2.3-2
{
Pilgrim Nuclear Power Station l
Radioactive Gasesous Effluent Average Individual and Population Doses i
ADril - June 1989
- I
{
THYROID TOTAL BODY Average Population Average Population Individual Dose Individual Dose I
Dose Dose Pathway (mrem?.
(Derson-rem)
(mrem)
(nerson-rgm).
Noble Gas L
Immersion 5.82E-05 2.42E-01 5.82E-05 2.42E-01 (gamma)
Ground Plane Deposition 4.31E-08 1.79E-04 4.31E-08 1.79E-04 i
Inhalation 2.53E-06 1.05E-02 1.73E-07 7.17E-04 i
Vegetables 1.28E-07 5.30E-04 1.45E-08 6.03E-05 t
Milk G.45E-06 2.6BE-02 2.21E-08 9.20E-05 Heat 7.72E-09 3.21E-05 6.52E-10 2.71E-06 I
Total 6.74E-05 2.80E-01 5.85E-05 2.43E-01 I
i I-52
I
- I 1
P Table 1.2.3-3 i
Pilgrim Nuclear Power Station l
Radioactive Gaseous Effluent Average Individual and Population Doses July - September 1989 I
I-Average'. THYROID TOTAL BODY l
Population Average Population j
Individual Dose Individual Dose Dose Dose Pathway (mrem)
(oerson-rem)
(mrem)
(person-rem)
[
Noble Gas
'l Immersion 3.68F-05 1.52E-01 3.68E-05 1.52E-01 (gamma) b Ground Plane Deposition 1.26E-08 5.22E-05 1.26E-08 5.22E-05 i
Inhalation 2.32E-06 9.65E-03 1.46E-07 6.08E-04 Vegetables 1.27E-07 5.26E-04 2.00E-08 8.31E-05 I
Milk 7.19E-06 2.99E-02 2.39E-08 9.95E-05 I
P Heat 7.84E-09 3.26E-05 6.57E 2.73E-06
-I Total 4.65E-05 1.92E-01 3.70E-05 1.53E-01 I
53 If
M,
'(
h Table 1.2.3-4 Pilgrim Nuclear Power Station i
Radioactive Gaseous Effluent Average Individual and Population Doses
)
October - December 1989 i
I h.
THYROID TOTAL BODY
.u~
Average Population Average Population l
Individual Dose Individual Dose Dose Dose Pathway (mrem)
(oerson-rtm)
(mrem)
(oerson-rem)
Noble Gas
-l Immersion 1.54E-05 6.39E-02 1.54E-05 6.39E-02
-l (gamma)
Ground Plane l
Deposition 2.98E-09 1.24E-05 2.98E-09 1.24E-05 L E.
Inhalation 9.89E-07 4.11E-03 3.18E-07 1.32E-03 Vegetables 5.46E-08 2.27E-04 5.25E-08 2.18E-04 Milk 2.07E-06 8.59E-03 2.28E-08 9.64E-05 Heat 2.94E-09 1.22E-05 1.04E-09 4.31E-06 Total 1.85E-05 7.69E-02
__1 58E-05 6.56E-02 7
I 54 e
r
Table 1.2.3-5 t
Pilgrim Nuclear Power Station Radioactive Gaseous Effluent Average Individual and Population Doses Januarv - December 1989 I
THYROID TOTAL. BODY Average Population Average Population Individual Dose Individual Dose-Dose Dose
.I Pathway (mrem)
(person-rem)
(mrem)
(Derson-rem)
Noble Gas Immersion 1.11E-04 4.60E-01 1.11E-04 4.60E-01 (gamma)
I' Ground Plane Deposition 1.37E-07 5.71E-04 1.37E-07 5.71E-04 Inhalation 6.02E-06 2.50E-02 8.52E-07 3.54E-03 Vegetables 3.39E-07 1.41E-03 7.56E-08 3.14E-04 Milk 1.61E-05 6.70E-02 8.13E-08 3.38E-04 Heat 2.00E-08 8.31E-05 3.10E-09 1.29E-05 Total 1.34E-04 5.54E-01 1.12E-04 4.65E-01
. I:
55
\\-
i,
)
1.3 Off-SITE DOSES RESULTING FROM RELEASE OF NOBLE GASES I
The methods and parameters used to calculate off-site doses resulting from noble gases in gaseous effluents are presented in the PNPS Off-site Dose i
Calculation Manual (Ref.1), NRC Regulatory Guide 1.109 (Ref. 2), NRC Regulatory Guide 1.111 (Ref. 7), and the Pilgrim Station Unit One Appendix I Evaluation (Ref. 3).
4' :
The quantities of noble gases released in gaseous effluents from the l
reactor building vent and the main stack are presented in the two 1989.
semiannual Radioactive Effluent and Haste Disposal Reports (Ref. 4 and 5).
l Meteorological data for calculating dispersion of gaseous effluents are also presented in these two reports.
For each release period, dispersion (X/0) coefficients were calculated using the Yankee Atomic Electric Company "AEOLUS" computer program.
These dispersion coefficients were used along with the noble gas effluent data as input to the Yankee Atomic Electric
'I-Company "YODA"-series of computer programs to calculate the maximum gamma air dose, beta air dose, whole body dose, and skin dose values for each release period.
The resulting dose values are presented in Table 1.3-1.
I LI 1
i i
l' 56 l
I I
Table 1.3-1 Pilgrim Nuclear Power Station Maximum Doses from Noble Gas Releases During 1989 7
I Gamma Beta Whole Air Dose Air Dose Body Dose Skin Dose Release Period (Location)
(Location)
(Location)
(Location)
~
January 1.25E-02 mrad 2.68E-03 mrad 8.43E-03 mrem 9.74E-03 mrem through March (0.1 mi. ENE)
(0.8 mi. SSW)
(0.1 mi. ENE)
(0.1 mi. ENE)
April 5.48E-02 mrad 9.70E-03 mrad 3.68E-02 mrem 4.86E-02 mrem I.
through June (0.1 mi. ENE)
(0.1 mi. NE)
(0.1 mi. ENE)
(0.1 mi. NE)
July 4.94E-02 mrad 2.08E-03 mrad 3.34E-02 mrem 3.84E-02 mrem through September (0.1 mi. NE)
(0.8 mi. SSH)
(0.1 mi. NE)
(0.1 mi. NE)
October 2.56E-02 mrad 1.76E-03 mrad 1.72E-02 mrem 1.99E-02 mrem I
through December (0.1 mi. E)
(0.7 mi. SSE)
(0.1 mi. E)
(0.1 mi. E)
I January 1.33E-01 mrad 1.50E-02 mrad 8.93E-02 mrem 1.14E-01 mrem through December (0.1 mi. NE)
(0.1 mi. E)
(0.1 mi. NE)
(0.1 mi. NE)
I I
I.
g 57 I
i 1.4 0FF-SITE DIRECT RADIATION MEASUREMENTS l
The major source of direct radiation (including sky shine) from Pilgrim I
Station is due to the nitrogen-16 gamma rays emitted from the turbine hall. Other sources of direct radiation include radiation emitted from contained radioactive sources or waste within or outside the facility.
T pically these other sources are not significant enough to be measurable a ove natural background radiation levels.
Thermoluminescent dosimeters (TLDs) around Pilgrim Station were grouped i
I into four zones of increasing distance from the station. Average exposure ratns were calculated (Ref. 11) in each of the zones.
The average exposures recorded by TLDs in the vicinity of Pilgrim Station for 1989 are shown in the table below. These data indicate that there was no significant direct radiation exposure to the hypothetical maximum exposed individual or members of the general public as a result of Pilgrim Station during this reporting period.
t Average Exposure i S.D.
I (mR/ Period)*
Period Environmennal TLD Zones **
Zone 1 Zone 2 Zone 3 Zone 4
< 2 mi 2 mi - 5 mi 5 mi - 10 mi
> 10 mi ist Quarter 1989 15.6 1 3.1 14.3 1 2.9 14.1 1 1.5 15.5 1 2.2
[
2nd Quarter 1989 17.8 1 4.1 15.8 i 3.4 15.0 1 1.4 16.1 1 2.3 l
3rd Quarter 1989 17.5 1 3.6 16.012.6 15.1 1 1.5 16.5 1 2.1 l
4th Quarter 1989 17.3 1 3.9 15.7 1 2.8 14.4 1 1.4 16.1 1 2.3 l
1989 Annuti Exposure 68.2 i 15.0 61.8 1 11.8 58.6 1 5.8 64.2 8.6 The quarterly period is 2190 hours0.0253 days <br />0.608 hours <br />0.00362 weeks <br />8.33295e-4 months <br /> 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 various zones are listed in Table 1.3-1.
l 58
. I' Table 1.4-1 i
I i
Environmental TLD Zone Designations Zone and TLD Station Designations Description Zone 1 - Protected Area Roundary to 2 miles:
I A
Station A i
AR Edison Access Road I
LE B
Station B 5
BB Rt. 3A & Bartlett BD Bayshore Drive BS Bayshore C
Station C l
CR Cleft Rock l
CT Contractor Parking Lot t
D Station D DR Dirt Road E
Station E lI EB East Breakwater EH Emerson Road EP Emerson & Priscilla ER East Rocky Hill Road I
F Station F G
Station G GH Greenwood House LE GN Goodwin Property B
H Station H HB Hall's Bog I
Station I I
J Station J l
JG John Gauley K
Station K l
L-Station L MR Manomet Road HT Hicrowave Tower 0A Overlook Area P01 Shorefront Security House PA Parking Area PB Pedestrian Bridge I
PL Property Line PMT Plymouth Met. Tower RC Plymouth Rec. Center RH Right of Hay TC Training Center TP Taylor & Pearl E
TT Taylor & Thomas g
VR Valley Road WC Harren & Clifford HH Nhitehorse Road HR Hest Rocky Hill Road YV Yankee Village 59
I t
j Table 1.4-1 (continued)
Environmental TLD Zone Designations I
I A
Zone and TLD Station Designations Description I
T Zone ? - 2 miles to 5 miles:
BR Beaverdam Road i
BH Beachwood Road CP College Pond DH Deep Hater EA Earl Road I
HD Hi11 dale Road HR Hyannis Road LP Long Pond Road I
MB Manomet Beach ME Manomet Elementary MH Memorial Hall MP Manomet Point I
MS Manomet Substation PC Plymouth Center PT Pines Estates l
RM Russel Mill Road RP Rt. 3 Overpass SH Snake Hill Road
- SP South Plymouth Substation Zone 3 - 5 miles to 10 milet:
E BE Bourne Elementary (3
EL E111sville Road l~
ES Elm Street **
KC King Caesar Road NP North Plymouth SA Sherman Airport SS Standish Shores UC Upper College Pond Zone 4 - Greater than 10 miles (Backaround):
1 CS Cedarville Substation l
CH Church & Hest DMF Div. Marine Fisheries EH East Heymouth 1
KS Kingston Substation LR Landing Road MM Main & Meadow l
- Formerly LD, Long Pond & Drew Road
- Formerly SH, Sacred Heart School 60 I
i 2.0 PERCENT TECHNICAL SPECIFICATIONS LIMITS /0BJECTIVES The PNPS Technical Specifications contain dc ;e and concentration limits for radioactive effluents.
In addition, operational objectives are also specified I
which, if met, ensure that radioactive releases are maintained as low as is
'4 reasonably achievable. The percentages of the PNPS Techncial Specifications were determined from the doses calculated in Section 1, the liquid I
concentrations listed in the 1989 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 i
R limits is modified from that prescribed in Regulatory Guide 1.21 (Ref.10) to accomodate the Radioactive Effluents Technical Specifications (RETS) which became effective March 1, 1986.
The percentages have been organized into I
three categories: 1) liquid effluents; 2) particulates, iodines, and tritium; and 3) noble gases.
2.1 LIOUID EFFLUENTS Liquid effluents concentration limits and dose objectives from PNPS Technical l
Specifications are shown in Table 2.1-1.
The quarterly average concentrations I
from the 1989 semianaual 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 (Ref. 9) the corresponding percentages shown in Table 2.1-1.
The resulting concentrations and doses from Pilgrim Station's liquid releases during 1989 were a very small percentage of the corresponding limits and objectives.
I I
- 'I I
I
'I 61 t
lI
-J e W
m m
m m-M
- M M
M -m m
m :M M
M" l
T;bla 2.1-1 Boston Edison Compa::y's Pilgrim Nuclear Power Station Semiannual Radioactive Effluent and Haste Disposal Reports Supplement for 1989 Liquid Effluents: Summation of All Releases - Table 2A G.1 Percent of Technical Specifications Limits / Objectives l
Liauld Effluents 1st OTR 2nd OTR 3rd OTR 4th OTR Annual a.
Fission and Activation Products Concentration Limit (MPCw)*
1.91E-021 5.02E-03%
1.84E-021 1.92E-021 b.
Tritium Averaae Concentration Limit (3E-03 uC1/ml)*
4.09E-03%
5.47E-031 1.52E-021 2.11E-02%
c.
Dissolved and Entrained Gases Average Concentration Limit NDA NOA 1.83E-061 3.63E-05%
(2E-04 uCi/ml)**
d.
Annual Whole Body Dose Obiective (3 mrem) 3.50E-021 e.
Annual Oraan Dose Obiective (10 mrem) 3.54E-02%
f.
Ouarteriv Nhole Body Dose Obiective (1.5 mres) 1.73E-02%
1.25E-02%
2.63E-021 1.71E-021 c.
Quarteriv Orcan Dose Obiective (5 mrem) 1.59E-02%
9.94E-031 3.98E-02%
9.28E-031 Concentration limit (s) specified in 10CFR Part 20, Appendix B. Table II, Column 2 (Technical Specification 3.8.A).
The percent of applicable limit reported is based on the average diluted concentration during the period of tank releases. At no time did any release exceed the concentration limit.
Concentration limits for dissolved and entrained noble gases is 2E-04 microcuries/ml (Technical Specification 3.8.A).
The percent of applicable limit reported is based on the average diluted concentration during the period of tank releases. At no time did any release exceed the concentration limit.
62
202 PARTICULATES. 10 DINES. AND TRITIUM i
l
Organ dose limits and objectives for the maximum individual from radioactive-iodines.particulates, and tritium from PNPS Technical Specifications are shown in Table 2.2-1.
The maximum quarterly and annual organ doses from i
Tables 1.2.2-1 through 1.2.2-20 were used to calculate (Ref. 9) the i
, l, percentages shown in Table 2.2-1.
The resulting organ doses from Pilgrim L',
Station's gaseous releases during 1989 were a very small percentage of the l
corresponding limits and objectives.
l L
I l
I I
I I.
LI l
I I
I I
I.
63 I
M M
M ~ M 'M M
W.:e W
W M-m m-W W ~-
W W
W_
Table 2.2-1 Boston Edison Company's Pilgrim Nuclear Power Station Semiannual Radioactive Effluent and Maste Disposal Reports Supplement for 1989 Gaseous Effluents: Summation of All Releases - Table 1A E.2 Percent of Technical Specifications Limits / Objectives Iodine 131 & 133. Particulates with T 1/2 > 8d. and Tritium ist OTR 2nd OTR 3rd OTR 4th OTR Annual a.
Annual Oraan Dose Rate Limit (1500 mres/vr) 7.53E-031
~
b, Annual Oroan Dose Obiective (15 mrem) 7.53E-01%
c.
Ouarteriv Oraan Dose Obiective (7.5 aren) 1.76E-01%
4.35E-01%
7.80E-01%
2.11E-011 s
i i
.r-
- ---*i -
--o->-*++v
,-+--*-*=~~+---,---++vm--=--*--_s--
- - - - - - - - - - - - - - - - - = -
1 2.3 NOBLE GASES
.5 Dose limits nd objectives for exposures arising from noble gases sre e
5 presented in Table 2.3-1.
The maximum quarterly air doses and annual whole body and skin doses listed in Table 1.3-1 were used to calculate (Ref. 9) the percentage values shown in Table 2.3-1.
All doses resulting from noble gas I
exposure were a small percentage of the applicable limits and objectives.
I I
I I
I I
I I
I-
- g I
I I
65 3
Table 2.3-1 Boston Edison Company's Pilgrim Nuclear Power Station Semiannual Radioactive Effluent and Maste Disposal Reports Supplement for 1989 Gaseous Effluents: Summation of All Releases - Table 1A E.1 Percent of Technical Specifications Limits / Objectives Noble Gases 1st OTR 2nd OTR 3rd OTR 4th OTR Annual 1 a.
Annual Whole Body Dose Rate Limit (500 aree/vr) 1.79E-021 b.
Annual Skin Dose Rate Limit (3000 mrem /vr) 3.80E-031
~
c.
Annual Gamma Air Dose Obiective (10 mrad) 1.33E+001 d.
Annual Beta Air Dose Ob_iective (20 mrad) 7.50E-021 e.
Quarteriv Gamma Air Dose Obiective (5 mrad) 2.50E-011 1.10E+001 9.88E-011 S.12E-011 f.
Quarteriv Beta Air Dose Obiective (10 mrad) 2.68E-021 9.70E-021 2.08E-021 1.76E-021 i
66
, _ + _ _ -
Y mr w
-m-v-
wiw
-e
..m--
m
.s
I
3.0 REFERENCES
i 1.
Boston Edison Company, " Pilgrim Nuclear Power Station Off-site Dose I
Calculation Manual," Revision 3, August 1989.
2.
U.S. Nuclear Regulatory Commission, Regulatory Guide 1.109, " Calculation I.
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 ! Evaluation,"
April 1977.
4, Boston Edison Company, Pilgrim Nuclear Power Station, " Radioactive Effluent and Hsste Disposal Report including Meteorological Data for January 1 through June 30, 1989," August 29, 1989.
5.
Boston Edison Company, Pilgrim Nuclear Power Station, " Radioactive Effluent and Haste Disposal Report including Meteorological Data for July 1 through December 31, 1989," March 2, 1990.
6.
J.N. Hamawi, "AEOLUS," Yankee Atomic Electric Company, YAEC - 1120, January 1977.
7.
U.S. Nuclear Regulatory Commission, Regulatory Guide 1.111. " Methods for Estimating Atmospheric Transport and Dispersion of Gaseous Effluents in Routine Releases from Light-Hater-Cooled Reactors," July 1977.
8.
YAEC Calculation No. BEC-013, entitled " Dose Assessment for January.
through December 1989 Effluent Reports," March 27, 1990.
9.
BECO Calculation No. PNPS-1-RTSD-II.A-2, Rev. O, entitled " Percent of Technical Specifications Limits / Objectives for 1989 Dose Assessment,"
,l March 28, 1990.
- 10. U.S. Nuclear Regulatory Commission, Regulatory Guide 1.21, " Measuring, I
Evaluating, and Reporting Radioactivity in Solid Hastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from Light-Hater-Cooled Nuclear Power Plants," June 1974.
- 11. BECO Calculation No. PNPS-1-RTSD-II.B-2, Rev. O, entitled "TLD Averges for 1989 Dose Assessment Report", March 16, 1990.
'I I
1 I
67 LI
I i
APPENDIX A I
CONCENTRATION PER UNIT EMISSION FACTORS APPENDIX Pf_GE j
A-1 Undepleted Relative Concentrations Per Unit Emission for A-1 Reactor Building Vent for January - March 1989 A-2 Depleted Relative Concentrations Per Unit Emission for A-2 Reactor Building Vent for January - March 1989 I
i A-3 Relative Deposition Concentrations Per Unit Emission for A-3 i
Reactor Building Vent for January - March 1989 A-4 Updepleted Relative Concentrations Per Unit Emission for A-4 Main Stack for January - March 1989 A-5 Depleted Relative Concentrations Per Unit Emission for A-5 Main Stack for January - March 1989 i
I A-6 Relative Deposition Concentrations Per Unit Emission for A-6 t
Main Stack for January - March 1989
, I Reactor Building Vent for April - June 1989 A-7 Undepleted Relative Concentrations Per Unit Emission for A-7 A-8 Depleted Relative Concentrations Per Unit Emission for A-8 I
Reactor Building Vent for April - June 1989 A-9 Relative Deposition Concentrations Per Unit Emission for A-9 I
Reactor Building Vent for April - June 1989 Undepleted Relative Concentrations Per Unit Emission for A-10 A-10 Main Stack for April - June 1989 A-11 Depleted Relative Concentrations Per Unit Emission for A-11 Main Stack for April - June 1989 A-12 Relative Deposition Concentrations Per Unit Emission for A-12 Main Stack for April - June 1989 A-13 Undepleted Relative Concentrations Per Unit Emission for A-13 Reactor Building Vent for July - September 1989 A-14 Depleted Relative Concentrations Per Unit Emission for A-14 Reactor Building Vent for July - September 1989
.I A-15 Relative Deposition Concentrations Per Unit Emission for A-15 Reactor Building Vent for July - September 1989
'E A-16 Undepleted Relative Concentrations Per Unit Emission for A-16 5
Main Stack for July - September 1989 68
1 i
E
\\.
APPENDIX A CONCENTRATION PER UNIT EMISSION FACTORS APPENDIX EAGI
]
DepletedRelat)veConcentrationsPerUnitEmissionfor I-A-17 A-17 Main Stack for July - September 1989 A-18 Relative Deposition Concentrations Per Unit Emission for A-18 Main Stack for July - September 1989 A-19 Undep1sted Relative Concentrations Per Unit Emission for A-19 I
Reactor Building Vent for October - December 1989 A-20 Depleted Relative Concentrations Per Unit Emission for A-20 i
Reactor Building Vent for October - December 1989 A-21 Relative Deposition Concentrations Fer Unit Emission for A-21 Reactor Building Vent for October - December 1989 A-22 Undepleted Relative Concentrations Per Unit Emission for A-22 Main Stack for October - December 1989 A-23 Depleted Relative Concentrations Per Unit Emission for b23 Main Stack for October - December 1989 A-24 Relative Deposition Concentrations Per Unit Emission for A-24 L
Main Stack for October - December 1989 lI lI i
lg I
L'I L I I
1 l
69 I
L
I APPENDIX A-)
I UNDEPl.ETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR January - March 1989 i
sector avitAst ma0ft
$0$10N 80lSON 161 SQ4titt 1999 MNttAL K/0*$ J4WAt? 110 hAttN 31t$tt/M3)
MMO tittAtte stMD*LIVit AvttAGE Cul/0 Dttatt Ot941110N g
Olst&N:t te0N MLtast Polkt (uttis)
I stt108 Oss
.it
.25
.1,0 75 1.00 1.50 2.00 3.50 D M WIND No.
N 160 6.927t 05 2.020t 05 6.585t*M 3.5Me 06 2.M6t 06 1.3118 M s.6Mt *07 6.3375 07 NNE 1M 6.418t*05 2.010t=05 6.tB9t *M 3.80M 06 2.489t 06 1.Mit *M 8.6751 07 6.4018 07 i
NE 249 5.2325 05 1.556t 05 5.29M *06 2.939t*06 1.929t
- M 1.0514 06 6.8318 07 4.914t 07 INI 199 3.76M*05 1.1151 05 3.7771 06 2.0718 06 1.350E*06 7.351t 07 4.7861 07 3.4518 07 I
8 120 4.178t*05 1.14M d5 4.210t M
- 2. Stat *06 1.5248 06 8.317t 07 5.4128 07 3.9964 07 ISI 114 3.00M*05 8.77M 06 3.111t 06 1.712t*06 1.11M 06 6.0248 07 3.9025 07 2.604t*07 58 59 2.1528 05 6.875t *M 2.554t 06 1.431t*06 9.46Pf=0F 5.19tt 07 3.382t*07 2.71M.07 SSI 62 2.96M
- 05 8.4458 M 2.905t*06 1.461t*06 9.6338 07 5.255 07 3,430E 07 2.4711 07 5
89 1.8098 05 5.19.'t M 1.M7t*06 9.1348 07 5.t**E 07 3.131E*07 2.0071 07 1.479t*07 I
ssW
$6 1.296t*05 3.'438 06 1.179t*06 6.37tE *C7 4.1475 07 2.2288 07 1.4431 07 1.0ME 07 Sei 139 1.5748 05 4.520t.06 1.4658 06 7.95M*07 5.139t=07 2.730E 07 1.7625 07 1.760t.07 WSV 87 1.199E*05 3.609t 06 1.21M 06 6.57M*07 4.ttot 07 2,2245 07 1.422t 07 1.Ciot.07 W
79 1.444t*05 5.M68 M 1.78M 06 1.etot M 7.03H 07 3.7781 07 2.434t.07 1.581t*07 WW 103 3.060t*05 B.8758 06 3.14M M 1.7608 06 1.158t *M 6.3uot*07 4.00M 07 3.23M 07 I
W 99 2.6228 05 7.816t= 06 2.7518 M 1.ltat *M 9.9918 07 5.396t 07 3.4Mt*07 2.4908 07 WW 140 4.558t*05 1.3308 05 4.4ett M t.490t.M 1.6ME 06 9.0105 07 5.098t 07 4.tett 07 AVttAGE 1973 3.321t*05 9.0000
- M 3.3148 M 1.Stll'M 1.1ME *M 6.5128 07 4.240t 07 3.0518 07 I
9141AN06 FRON SittASE P0lut (MILil)
SIC 10t 888 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 D M WINO No.
W il0 4.910E 07 3.9728 07 3.304t*07 2.000t*07 2.4311 07 1.41M*07 9.348 08 5.7784 08 NNE 196 4.93M 07
- 3. Mot *07 3.27M 07 2.7684 07 2.3848 07 1.36at.07 9.303t 06 5.4244 06 NE 249 3.7 tat *07 3.033t 07 2.504t 07 t.118t*07 1.824t 07 1.0471 07 7.11M.06 4.1ME 06 e
'I INE 199 2.65M 07 t.1318 07 1.76M ' 07 1.490t*07 1.teet 07 7.344t 08 5.021t*08 2.9244 06 t
120 2.9904 07 2.404t.07 1.9005 07 1.600t 07 1.447t 07 4.320t.08 5.655t 06 3.7905 06 Est 114 2.154t 07 1.731t 07 1.430t*07 1.2054 07 1.035t*07 5.0918 06 3.9tM
- 06 t.3128 06 88 59 1.714t 07 1.379t*07 1.14M 07 9.670t*09 9.1725 08 5.292t 06 3.6111 08 2.114ta06 SSE 62 1.9038 07 1.5 tat 07 1.26M 07 1.07te*07 9.24M 08 5.347106 3.6475 06 1.129t 06 I
8 89 1.091t*07 8.6Mt 08 7.130t.08 5.97tt*08 5.1048 08 f.8548 08 1.905t 04 1.063t 06 85W
$4 8.010t.08 6.435t*08 5.3tM 08 4.500E*08
- 3. Mat 06 2 210E 06 1.5015 06 8.763t 09 SW 139 9.6518 08 7.7004 08 6.349t 08 5.33er*00 4.575t 06 2.5064 06 1.741t 06 1.003t*06 WSW 87 7.6ME*06 6.081t*06 4.981t*08 4.170t*08 3.910E*08 1.9905 08 1.3225 06 7.429t
- 09 W
79 1.200t 07 9.63M.06 7.927t 08 6.6ME*08 5.719t 06 3.74tt*06 2.179t*06 1.24M*08 WWW 103 2.49M 07 2 0018 07 1.6548 07 1.395E 07 1.091t*07 6.2248 06 4.Itit 06 2 4548 06 I
W 99 1.91M 07 1.532t
- 07 1.26M*07 1.06M*07 9.132f 08 5,1935 08 3.504t*06 2.0175 06 NW 140 3.3018 07 2.6575 07 2.2034 07 1.0654 07 1.609t 07 9.2915 08 6.3448 06 3.730t.06 AVttAot 1973 2.3508 07 1.teet*07 1.5618 07 1.319t*07 1.1364 07 6.509t 06 4.4258 06 2.579t*06 l
I Ol$1ANCE FROM ktLIAlt POINT (N!Lt$)
SECTOR des 20.00 35.00 30.00 35.00 40.00 45.00 50.00 IO4fWIND NO.
N 100 3.9998 08 3.0tM*06 2.424t*08 2.009t*06 1.7058 06 1.4771 06 1.297t*06 NNE 196 3.71M 08 2.7 set *06 2.221t.08 1.831t 08 1.5475 06 1.3ME 08 1.170t 06 I
NE 249 2.530t*08 2.12M 08 1.647t 08 1.389E*06 1.1734 06 1.0115 08 8.845t 09 ENE 199 2.005t*06 1.5041 08 1.199t*08 9.8814 09 8.354t*09 7.214t 09 6.319t 09 E
120 2.254t 08 1.690E*08 1.345t 08 1.108t*08 9.3Mt 09 8.078t 09 7.070t 09 ISE 114 1.5818-08 1.185E 06 9.4224 09 7.761t 09
- 6. M OE 09 5.67tt 09 4.9725 09 SE 59 1.458t*06 1.091t 08 8.6934 09 7.1675 09 6.0575 09 5.227t 09 4.575t 09 SSE 62 1.46M* 04 1.100t*08 8.771t*09 7.tMt*09 6.120E 09 5.2641 09 4.6 Pat 09 I
8 89 7.322t*09. 5.439t*09 4.2968 09 3.520t 09 2.9625 09 2.555t*09 2.234t 09 SSW 58 6.0608 09 4.57tt*09 3.654t*09 3.024t*09
- 2. Mat *09 2.231E 09 1.965t 09 SW 139 6.84M *09 5.1tst 09 4.070t*09 3.351E 09 2.833t*09 2.451t*09 2.150t 09 W8W B7 5.00tt*09 3.705t*09 2.920t 09 2.3ast 09 2.007t*09 1.728t*09 1.510t 09 W
79 6.451t*09 6.29tt 09 4.981E 09 4.005t *09 3.439f*09 2.M0t*09 2.546t 09 I
WWW 103 1.677t 06 1.2555 06 9.97M 09 8.208t*09 6.9271 09 5.9771 09 5.229t 09 W
99 1.372t 08 1.023E.08 8.114t 09 6.Mit *09 5.6128 09 4.834t.09 4.223t 09 NW 140 2.566t*08 1.9311 06 1.5418 06 1.2738 06 1.0771 06 9.309t 09 8.1575 09 6VERAGE 1973 1.76at 06 1.3264 06 1.0571 06 8.7118 09 7.364t*09 6.360t 09 5.571t 09 A-1 I
i
/
I I
APPENDIX A-2 I'
DEPLETED RELATIVE CONCENTRATION PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR January - March 1989 50510N 80180W 181 euAttit 1999 StNtLAL E/0'8 JANUAPT 110 hARCN 31 SEC108 6VIRACI NODit tltt/M3) ta0U@ M LtAste sawND.Ltytt avte tt Cul/0 Attle OtPLttl0N (ht00LA10af 8U8081.111 OtPLtil0N HDDEL)
I DWWIND WO.
Ol81ANCE FROM ktLLAtt P0lW1 (NILit) att10a Oss
.it
.25
.50
.75 1.00 1.50 2.00 2.50 W
100 ' 4.6018 05 1.919t.05 6.019t 06 3.3054 06 2.05M *06 1.110E 06 7.tMt 07 5.130t*07 WNt 1M 6.5754 05 1.9108 05 6.29M*06 3.39N.M 2.182t N 1.160t.M 7.351t+07 5.1628 07 I
kt 249 5.045t 05 1.47st 05 4.826 06 2.619t 06 1.6918 06 8.963t 07 5.658t 07 3.976t 07 INE 199 3.6128 05 1.062t 05 3.452t 06 1.846E.06 1.1Mt*06 6.364 07 3.9 ME 07 2.7948 07 5
120 4.0295 05 1.1648 05 3.84M 06 2.0DE 06 1.33M N 7.0904 07 4.483t.07 3.1548 07 (St 114 2.899t 05 8.3ME 06 2.043t*06 1.5tN 06 9.7tM 07 5.1ME 07 3.232t 07 2.2701 4 7 SE 59 2.264t*05 6.5308 06 2.334t 06 1.275t 06 8.2958 07 4.426t 07 2.801E 07 1.7968 07 I-858 62 3.4608 05 8.4018 06 2.6554 06 1.30N 06 8.446t*07 4.4958 07 3.4425 07 2.000t'07 8
89 1.745t 05 3.1224 06 1.5238 06 8.1408 07 5.1718 07
- 2. M9t 07 1.6628 07 1.1571 07 SSW 58 1.240E 05 3.HM 06 1.0?M M 5.670t*07 3.631t 07 1.999t 07 1.195t.07 8.4068 06 i
l' SW 139 1.49t.05 4.3018 06 1.3395 06 7.009t 07 4.506E 07 2.334t*07 1.408 07 1.0205 07 l
WSW 87 1.1 Ht.05 3.5045 06 1.111E 06 5.860t 07 3.7004 07 1.9968 07 1.178E 07 8.1748 08 W
79 1.7795 05 5.306t.06 1.630t 06 9.6tet*07 6.16e4 07 3.2218 07 2.01M*07 1.280E 07 I
WW 103 2.9518 05 8.4305 06 2.87M*06 1.5695 06 1.015t 06 5.3708 07 3.3s5t 07 2.617t 07 W
99 2.5296 05 7.424t*06 2.515E.06 1.Mit 06 8.7595 07 4.600E 07 2.tatt 07 2.0228 07 WW 140 4.39M 05 1.26M.05 4.1035 06 2.21M N 1.4Mt
- H 7.6815 07 4.0855 07 3.455t 07 AvtkAtt 1973 3.2038 05 9.31M 06 3.0298 N 1.6tM *06 1.047t
- N 5.5535 07 3.5121 07 2.4708 07 I
DOWWIND WO.
Dil1ANCE FRON 8tLEA88 Polgt INILit)
SECTOR 008 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 W
140 3.910t.07 3.10M *07 1.54M.07 f.13M 07 1.82M 07 1.000E 07 6.548t.06 3.609t 08 s
NNE 196 3.912t*07 3.000t 07 2.5254 07 3.1075 07 1.79M.07 9.6688 06 6.2588 06 3.360t 08 NF 249 3.007t 07 2.3DE 07 1.9334 07 1.612t 07 1.371t.07 7.400E 08 4.7878 08 2.5kt.06
- at 199 3.1125 07 1.M7t *07 1.359t=07 1.135t 07 9.655E.08 5.2175 08 3.37M 06 1.826t.06 t
l t
120 2.3834 07 1.8618 07 1.5334 07 1.279t 07 1.cest 07 5.87st 08 3.804t 08 2.0558 06 i
888 114 1.7164 07 1.3544 07 1.10N 07 9.177t 06 7.7838 08 4.16N 08 2.681t 08 1.4448 06 88 59 1.363t.07 1.079t*07 3.010E 08 7.M18 06 6.09M 08 3.739t 06 2.4308 08 1.3218 06 858 62 1.513t 07 1.1968 07 9.7596 08 8.1618 08 6.95M 08 3.778t 06 2.454t*06 1.330t=08 8
89 8.6775 08 6.796t 08 5.49M.08 4.546t.00 3.83st.08 2.016f 06 1.2415 06 6.7k t 09 SSW 58 6.369E 08 5.9345 08 4.107t 08 3.4tSE*08 2.90et 08 1.5618 08 1.010t 08 5.4878 09 SW 139 7.674t*08 6.0314 06 4.8946 08 4.0Ht 08 3.440t 08 1.8275 08 1.171E 08 6.JME 09 W5W 87 6.095t 06 4.757t 08 3.839t*08 3.174t 08 2.9468 08 1.406t*08 8.995E 09 4.Mit*09 I.
W 79 9.6058 06 7.53M De 6.1114 08 5.054 08 4.300t 08 2.791t*06 1.4ME 06 7.780t 09 WW 103 1.983t*07 1.HM 07 1.tDr*07 1.0638 07 8.19N 08 4.39st*06 2.8395 06 1.533t.08 W
99 1.523t*07 1.190f 07 9.736t 08 S.095bOS 6.tME*08 3.MM 08 2.3575 06 1.260ta08 WW 149 2.624t*07 2.079t*07 1.690E 07 1.420E*07 1.210f*07 6.5658 06 '4.270E 06 2.3305 06 AvtSAGE tt73 1.869t 07 1.47M 07 1.203t*07 1.004t.07 8.54N 08 4.599t 06 2.97M 08 1.611t*06 DOWNWINO NO.
0181ANCE PROM 8tLLASE POIN1 IN! Lit)
SECToa ces 20.00 25.00 30.00 35.00 40.00 45.00 50.00 N
180 2.320t 08
- 1. Met =08 1.267t 08 1.005t
- 08 8.209E*09 6.873t=09
- 5. Mat *09 I
Mt 196 2.ikt 06 1.5315 08 1.161t*08 9.161t*09 7.449E*09 6.210t 09 5.2755 09 Nt 249
- 1. Mat 06 1.1 HE 06 8.8175 09 6.950E *09 5.H58 99 4.7055 09 3.987E.09 ENE 199 1.1671 08 8.3618 09 6.2638 09 4.9444 09 4.0235 09 3.35M *09 2.848E 09 E
120 1.31N 08 9.279t 09 7.0315 09 5.546E 09 4.5005 09 3.759t 09 3.1871 09 ISE 114 9.205t.09 6.506t 09 4.9248 09 3.884t 09 3.150t*09 2.639t 09 2.2415 09 8t 59 8.4531 09 5.989t 09 4.543t 09 3.5464 09 2.916t.09 2.432f 09 2.0628 09 j
SSE 62 8.51M*09 6.039t 09 4.584t 09 3.6218 09 2.94M*09 2.458t 09 2.086E 09 8
09 4.262t.09 2.987E.09 2.2455 09 1.761E 09 1.42M*09 1.1998 09 1.0071 09 8sW 58 3.527t 09 3.5115 09 1.909E 09 1.513t*09 1.236t 09 1.034t.09 8.tSM 10 SW 139 3.9858 09 2.8148 09 2.1272 09 1.6771 09 1.3638 09 1.140E 09 9.6911 10 W5W 87 2.912t*09 2.034t 09 1.526t 09 1.1951 09
- 9. Mot 10 8.Mit 10 6.8075 10 W
79 4.919t 09 3.455t 09 2.603t 09 3.0448 09 1.6551 09 1.37N.09 1.165t 09 l
WW 103 9.762t 09 6.893t 09 5.213t 09 4.10M 09 3.334t 09 2.7811 09 2.3578 09 I
NW 99 7.98M
- 09 5.620t 09 4.240E 09 3.333t*09 2.7018 09 2.749f*09 1.9048 09 l
NNW 140 1.4%E*06 1.060t 06 8.055t 09 6.3608 09 5.185t 09 4.331t 09 3.677t 09 AvttACE 1973 1.0295 06 7.2Ht.09 5.5228 09 4.359t*09 3.5454 09 2.960t 09 2.5118 09 1.
l l I l
A-2
I 4
APPENDIX A-3
.'I -
RELATIVE DEPOSITION CONCENTRATIONS PER UNIT 1
EMISSION FOR REACTOR BUILDING VENT FOR January - March 1989 SP110N EDISDN 181 OuAtttR 1989 OtutLAL $/0'8 JANuaaf 110 elettN 31 SEC10R AYttACI MODtt GROJMO RELLAlts AVELAGE DEP081110N SAtts (RIOULA10RT Sul0E 1.1118C0tt)
(1/M2)
I IOiWIND h0.
Dl81ANCE FROM tittAlf POIN1 (Mittl)
M C10A Ost
.12
.25
.50
.75 1.00 1.50 2.00 2.50 k
180 1.543t*07 5.1898 08 1.75H 08 9.248t 09 5.727t*09 2.767t*09 1.6 sat.09 1.150t=09 NNE 196 1.680t*07 5.6518 00 1.90st 08 1.00M 04 6.230t 09 3.01MO9 1.83M 09 1.2538 09 7
ht 249 2.135t 07 7.179t.00 2.424t*08 1.279t.08 7.9155 09 3.82M 09 8.335E 09 1.591t 09 INE 199 1.70M 07 5.7371 08 1.9ME*08 1.022t 08 6.32M*09 3.0598 09 1 8664 09 1.27N 09 t
120 1.029t 07 3.460t*00 1.168t 04 6.1658 09 3.8158 09 1.8451 09 1.125E.09 7.669t=10 888 114 9.7738 08 3.8875 08 1.110E 08 5.857t*D9 3.624t=09 1.7528 09 1.069t 09
- 7. Pest 10 St
$9 5.058t*08 1.7014 08 6.319t 09 3.334t*09 2.0638 09 9.97M*10 6.0871 10 3.7715 10 Sst 62 5.847t.08 1.9Mt 08 4.640t*09 3.185t*09 1.9718 09 9.5314 10 5.8158 10 3.9628 10 89 9.15M 08 3.079t*08 8.66M 09 e.573t 09 2.8298 99 1.3608 09 8.3475 10 5.688t.10 SSW
$4 5.470t*06 1.839t 08 5.M7t=09 2.9808 09 1.k4t 09 8.91M 10 S.4395 10 3.7078 10 SW 09 1.3118 07 4.408t 08 1.353t*08 7.1415 09 4.410E*09 2.137t 09 1.304t 09 8.883t*10 W5W 87 8.204t 00 2.759t 08 8.471t 09 4.470t*09 2.766t*D9 1.337t 09 8.159t.10 5.560t.10 I
W 79 7.450E 08 2.5058 08 7.69N 09 4.4654 09 2.7628 09 1.33M
- D9 8.150s 10 5.049t 10 WW 103 8.830E*08 2.970t*08 1.0038 08 5.292t*09 3.274t=09 1.58H+09
- 9. Mot *10 7.2418 10 W
99 8.487t=08 2.854t*08 9.6395 09 5.00M
- 09 3.1475 09 1.522E 09 9.2858 10 6.3275 10 NW 140 1.2006 07 4.0ME*00 1.3638 08 7.195t 09 4.450E 09 2.1528 09 1.31H.09 8.94M *10 AVitAot 1973 1.089t=07
- 3. M44 08 1.200t 08
- 6. Sect *09 3.9475 09 1.9098 09 1.165t*09 7.9228 10 DOWWINO NO.
DISTANCE FRtst H Lt488 POIN1 INILit)
SEC10R Oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N
180 ' 8.4175 10 6.4344 10 5.091t+10 4.0918 10 3.3754 W 1.69?t 10 1.04it 10 5.1354 11 I-Nut its 9.1658 10 7.011t*10 5.5434 10 4.4558 10 3.675t 10 1.8438 10 1.13M *10 5.5918 11 NE 249 1.164t*09 8.906t*10 7.042t=10
$.659t*1U 4.M9t *10 2.3418 10 1.4406 10 7.103t*11 tut 199 9.3064 10 7.110t 10 5.6262 10 4.5238 10 3.73M 10 1.871t*10 1.151t 10 5.677t.11 I
120 5.6128 10 4.292t=10 3.394t 10 2.727t.10 2.250t=10 1.120t*10 6.93st.11 3.423t.11 tat 114 5.3318 10 4.07st 10 3.224t 10 2.591t 10 2.1Mt.10 1.0728 10 6.5918 11 3.2521 11 I
8t 59 2.759E*10 2.110ta10 1.M9t*10 1.341t*10 1.2171 10 6.i028 11 3.752t=11 1.8518 11 885 62 2.0996 10 2.218t*10 1.754t*10 1.4098 10 1.1634 10 5.829t.11 3.5851 11 1.769t=11 S
99 4.162t*10 3.18M 10 2.51M 10 2.023t*10 1.M9t=10 8.368t*11 S.14M 11 2.539t 11 88W 58 2.7128 10 2.075t.10
- 1. Mot *10 1.31st 10 1.088t=10 5.453t*11 3.35M.11 1.6545 11 l
SW 139 6.500E 10 4.97N.10 3.9318 10 3.159t*10 2.6075 10 1.307t*10 8.03M 11 3.9658 11 W5W 87 4.0608 10 3.1128 10 2.461t*10 1.977t*10 1.795t*10 8.180E 11 S.030t*11 2.482t*11 W
79 3.694t 10 2.82M 10 2.2348 10 1.796t 10 1.481E.10 7.428t=11 4.5671 11 2.2545 11 WW 103 S.3908 10 4.05M 10 3.204t 10 2.57M 10 1.931t*10 9.684t 11 S.955t=11 2.938E 11 I
W 99 4.629E.10 3.541t=10 2.800E 10 2.250t 10 1.85M 10 9.300f *11 5.7248*11 3.994t*11 2.8248 11 NW 140 6.5475 10 5.00M 10 3.960t=10 3.1825 10 2.625t.10 1.31M*10 8.094t 11 I
4WinAct 1973
$.797t.10 4.4344 10 3.$0M*10 2.817t 10 2.329t 10 1.163t 10 7.151t*11 3.528t 11 00WWIND NO.
DISTANCE FROM RELEAtt POINT (MILES)
SECTOR 088 20.00 25.00 30.00 35.00 40.00 45.00 50.00 I
N 180 3.156t 11 2.125t.11 1.497t 11 1.119t.11 8.73*t.12 7.142t*12
$.930t.12 net 196 3.4Mt.11 2.314t=11 1.630s.11 1.219t 11 9.$0 tatt 7.77M*12 6.457f.12 i
NE 249 4.3Mt+11 2.9395 11 2.071t*11 1.S48t.11 1.20st 11 9.879t.12 8.203t 12 INE 199 3.4898 11 2.349t*11 1.6HE*11 1.237t 11 9.654t 12 7.895t.12 6.55M 12 8
120 2.104t 11 1.417t 11 9.981t*12 7.4618 12 5.8221 12 4.7618 12 3.95M*12 ISE 114 1.999t 11 1.346t=11 9.482t*12 7.0481 12 5.531t 12 4.523t 12 3.7568 12 M
$9 1.138t=11 7.M 18 12 5.398t 12 4.035t*12 3.149t.12 2.575t.12 2.138t=12 88t 62 1.0871 11 7.319f 12 S.1571 12 3.8558 12 3.008E 12 2.460ta12 2.043t=12 8
89 1.560t 11 1.051t=11 7.402t *12 5.5341 12 4.3188 12 3.5318 12 2.9321 12 55W
$8 1.0175 11 6.8471 12 4.824t *12 3.606t.12 2.8148 12 2.3018 12 1.911t 12 SW 139 2.4375 11 1.M1t*11 1.15M *11 8.M3t 12 6.743t*12 5.5158 12 4.579t 12 I
WSW 87 1.525t*11 1.027t*11 7.2ME *12 S.410t*12 4.221t 12 3.452t*12 2.BMt.12 W
79 1.385t*11 9.325E 12 6.5718 12 4.912t *12 3.833t 12 3.134t.12 2.603t.12 WW 103 1.8Mla11 1.21M 11 8.567t*12 6.4048 12 4.9971 12 4.0871 12 3.393E.12 W
99 1.73M*11 1.1695 11 8.234t*12 6.15M=12 4.803t.12 3.928t 12 3.261t 12 l
WW 140 2.45H.11 1.6 Ht 11 1.1648 11 8.705t*12 6.7921 12 5.553t*12 4.612t 12 L
AVERACE 1973 2.168E.11 1.4605 11 1.029t*11 7.690t 12 6.000t 12 4.90M 12 4.075t 12 A-3 I
)
i I
1 APPENDIX A-4
,g.
E UNDEPLETED RELATIVE CONCENTRATIONS PCR UNIT EMISSION FOR MAIN STACK FOR i
January - March 1989 I
1 80370N 80180N 181 SJARTit 1999 StuttAL R/0'8 JAWuART 110 NAACH 31 SEC10t 6VERACI N00!L EttC/M3) 814CK 8tLIAst SIWWD LEVEL evitAtt DNI/O Mf0Rt DIPLill0N i
I D WWWIND NO.
Ol81ANCE F90N MLEAtt P0lNT EN!LIS)
SECTOR 988,
.12
.25
.50
.75 1.00 1.50 2.00 2.50 l
N 53 1.9538 10 7.30M 09 3.5964 09 2.996t*09 3.7775 09 5.75M*09 6.717t.09 6.9128 09 e'
NNI 82 1.037t*10 3.6518 09 1.889t 09 1.9725 09 3.1014 09 5.9805 09 7.599t=09 8.0858 09 I
NE 1M 2.4kt 10 1.01M*08 1.7318 08 1.4725 00 1.496t*06 1.904t*08 f.0744 08 2.0375 08 r
ENE 276 6.794t*10 2.092t*08 1.802t*08 1.47M 00 1.6044 08 2.238t 06 2.5691 08 1.5998 08 E
182 4.129E 10 1.4471 08 1.740t*08 1.056E 08 1.0848 08 1.4228 08 1.615t*08 1.H0E.08 8 88 146 1.091E 10 6.3954 09 5.0248 09 5.86M 09 9.3408 09 1.66M*06 1.9584 08 1.98M 08 St 312 1.8371 09 4.M9t *06 3.327E 08 2.9918 M 3.1MI 08 4.828t*06 5.3775 00 3.780s.08 SBt 141 1.740E 09 5.2875 08 6.432t 08 7.502t*00 8.722t*00 7.318t.08 5.8748 08 4.754t 08 8
185 1.3kt 09 5.01H 08 1.3448 07 2.438t*07 1.9745 07 ' 1.H et 07 1.264t 07 9.3448 08 i
88W 133 1.541t 09 5.75M 08 7.8 ht 08 1.170s 07 1.756t 07 1.86M 07 8.037t 08 5.702t*08 SW 130 1.920t*09 8.6575 08 6.418t*08 7.502E.00
- 6. Mot 08 5.808t*08 4.430t 08 3.4918 08 WSW 118 9.4498 10 5.4228 08 5.8995 08 5.77M 08 7.7696 08 7.270E 08 5.4648 04 4.258 08 I
W 92 2.372t 10 1.530E 08 4.9154 08 4.9598 08 5.110t.08 4.4058 08 3.567t
- M 2.kSt=08 WNW 54 4.139E 11 1.865E 09 1.022E.08 1.M 98 00 2.32H 08 3.60M 05 2.357t*08 1.074t 08 WW 52 3.0258 10 7.4448 09 3.91M M 4.5ME*09 7.3718 09 1.140E 08 1.2175 08 1.1554 08 NW 18 1.016t 37 1.25M 17 1.4375 11 2.5988 10 7.99M 10 1.95H 09
- 2. H et 09 3.001!.09 evitA0t 2138 7.298t 10 2.7418 08 3.4738 08 4.AMt+08 4.87M 88 4.45M 08 3.6818 08 2.943t 06 I
DWWIND NO.
Ol876NCE FSON MLIAtt P0lut (NILt8)
SECTOR 088 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 l
N 53 6.67N 09 6.3395 09 5.974t=09 5.631E 09 f.289t 09 3.906t 09 3.0378 09 2.066t 09 I-NNE 82 7.9175 09 7.5Nt*09 7.1928 09 6.0098 09 6.41H 09 4.752t*09 3.6675 09 2.498t 09 NE 1M 1.90M 08 1.759E 08 1.6208 06 1.4ME 08 1.3818 00 9.6858 09 7.298t=09 4.7628 09 SNI 276 2.470E*08 2.31M 06 2.15M*08 2.006t 08 1.06M 08 1.328t 08 1.00M Ot.
6.592t*09 t
182 1.5718 08 1.4845 08 1.3ME 08 1.310t*06 1.2275 00 8.9888 99 6.954E 09 4.70N 09 Ett 146 1.000t*08 1.756E 08 1.6328 08 1.518t 08 1.411t*00 1.00M
- 08 7.690E 09 5.10N 09 St 312 3.525t 08 3.2538 00 2.99H.08 2.7658 80 2.554t+08 1.795t 08 1.357t*06 8.9734 09 SSt 141 3.930E 08 3.3168 00 2.8488 00 2.479t 08 3.184t 08 1.335t 08 9.5498 09 5.978E 09 8
185 7.156t=08 5.7158 08 4.709t 08 3.9Ht 08 3.40M 08 1.932t 08 1.3018 08 7.44M 09 r
SSW 133 4.350E 08 3.4Hf 08 2.8468 08 2.3875 08 2.kM 08 1.149t 08 7.7158 09 4.427t 09 SW 130 2.859t 08 2.370E 08 2.020t.08 1.748t 06 1.532t 08 9.HM 09 6.445t=09 3.06M 09 WW 118 3.M44 08 2.8528 00 2.414t*08 1.0775 08 1.0128 00 1.0775 08 7.419t 09 4.358t
- 09
'I W
92 2.193 08 1.8596 08 1.598t*08 1.39M.08 1.228t*08 8.780E*09 5.908t*09 3.347t*09 NW 54 1.6006 08 1.380t 08 1.2044 08 1.062t*08 7.8714 09 5.6ME C9 3.9798 09 2.3458 09 i
W 52 1.049t*06 9.429t*09 8.4775 09 7.6638 09 6.958t*09 5.677t.09 4.107t 09, 2.7658 09 NW 18 3.1064 09 3.0998 09 3.02H 09, 2.92M 09 3.795t 09 2.1348 09 1.78M 09 1.7178 09 evttAGE 2138 2.480E 06 2.135t 08 1.8698 08 1.657t*00 1.473t 06 9.6895 09 7.000t*09 4.4368 09 DOWWINO No.
'Ol81ANCE 78cm RELt48f 90lNT (NILtt)
SECTOR 088 20.00 25.00 30.00 35.00 40.00 45.00 50.00 I
N 53 1.555t 09 1.239t=09 1.0HE 09 8.7344 10 7.5954 10 9.989t.10 8.783t=10 NNE 82 1.870E 09 1.484t=09 1.2258 09 1.N18 09 9.0275 10 7.9731 10 7.124t*10 Nt 1H 3.49M 09 2.7418 09 2.7448 09 1.904t 09 1.6348 09 1.438t.09 1.280E 09 i
ENE 276 4.835t 09 3.9018 09 3.488t*09 2.920E 09 2.502t 09 2.187t 09 1.M71 09 E
182 3.5328 09 2.809t 39 3.039t 09 2.555t=09 2.1988 09 1.927t 09 1.710t 09 8 88 146 3.792t 09 3.495E 09 2.852t*09 2.400t=09 2.NM *09 1.812t*09 1.609t*09 88 312 6.633t 09 6.7224 09 5.4468 09 4.554t 09 3.898t 09 3.4048 09 3.012E 09 888 141 4.1358 09 3.110t=09 2.489E 09 2.057t.09 1.7425 09 1.5090 09 1.324t 09 8
185 5.083t 09 3.795t 09 3.010E 09 2.4748 09 2.087t=09 1.801t=09 1.5768 09 88V 133 3.013t*09 2.250E 09 1.784t 09 1.4675 09 1.23M 09 1.070t 09 9.372E 10 SW 130 2.700t 09 2.050t 09 1.M5t* 09 1.365t=09 1.10M 09 1.029t.09 9.056E.10 W8V 114 3.007t=09 2.2871 09 1.940t 09 1.6018 09 1.351t*09 1.1 ME*09 1.037ta09 W
92
- 2. Mot 09 1.6 54 09 1.3195 09 1.0788 09
- 9. H M *10 7.967t*10 6.942t*10 f
6MW 54 1.61M 09 1.249t*09 1.013t*09 8.5848 10 7.2111 10 6.210t 10 5.42*I 10 W
52 1.97M 09 1.5458 09 1.2554 09 1.1628 09 9.791t 10 8.439f 10 7.3231 10 NNW 18 1.171t *09 8.7218 10 6.89M 10 5.M 9t 10 4.750t*10 4.088t*10 3.569t*10
(
6VERAGE 2138 3.16M.09 2.577t 09 2.15M 09 1.004t 09 1.5428 09 1.3ME 09 1.2034 09 lI A-4 (lL-
i I
APPENDIX A-5 l
DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR January - March 1989 I
Dott0N 80180N ist tuntTtt 1999 StutSAL 8/0 4 JAWuntf 110 NAktu 31 M Cfot avtRAtt e tt (5tC/M3)
$1ACK RELEAts amouMD.Ltvit avthA88 Cul/0 AFTER OtPLtileN EMET. AND Aimit BNtetY 1968 otPLETION m3DtL)
OWWWIND NO.
9191ANCf Fem htLBAM 90!NT EMILit)
SECTOR est
.it
.25
.60 75 1.00 1.50 2.00 2.50 W
S3 1.95M 10 7.300t 09 3 883E 09 2.9eM 09 3.7Mt*09 $.7354 09 6.660t 09 6.8178 09 Nut 82 1.037t.10
- 3. Met.09 1.eb3t.09 1.9665 09 3.0938 09 5.959t.09 7.5544 09 8.009t*09 NE 1M t.4kt 10 1.012t 08 1.728t.08 1.4ME*08 1.4900 08 1.8958 08 2.057t 08 2.009t*06 But 276 6.794t*10 2.091t*08 1.790t.08 1.471t 08 1.9998 08 2.229t*06 2.5548 08 3.l?M 08 8
182 4.1398 10 1.485f 08 1.23M 08 1.nM 08 1.000t 58 1.41H 08 1.6048 08 1.6248 08 Ett 146 1.0918 10 6.391t=09 l.01M 09 $.85M*09 ' 9.3238 09
- 1. M it 08 1.944E 08 1.956t=08 st 312 1.837t p 4.93M 08 3.3215 08 2.8858 08 3.18M.08 4.81M*06 5.H5t=08 3.7431 08
['I 084 141 1.7408 09 5.tMt*08 4.4155 08 7.4908 08 8.70tt 08 7.2748 08 5.804t 08 4.667t*08 8
185 1.3848 09 5.0114 08 1.3434 07 3.4354 07 1.964t 07 1.65N 07 1.2398 07 9.052t 08 SSW 133 1.5418 09 5.749t 08 7.878t 08 1.169t 07 1.7516 07 1.24st 07 7.812t 08 5.489t 08 SW 130 1.920W 09 8.650t 08 6.40M *00 7.4918 08 6.914t=0S 5.7725 08 4.37M 08 3.4tH.08 lI WSW 118 9.4496 10 S.414 08 $.0006 08 S.76M 08 7.750E 08 7.21H+08 5.398t.08 4.16H+08 W
92 3.373t* 10 1.5208 08 4.90st 08 4.9695 08 $.096t*08 4.378t 08 3.527t 08 2.6018 08 LAW M
4.1395 11 1.8648 09 1.0218 08 1.M75 08 f.3318 00 2.9918 08 2.3354 08 1.0458 08 WW 52 2.0256 10 7.430E 09 3.9028 09 4.5148 09 7.3564 09 1.1358 08 1.305t.08 1.135f.08 l
DNW 18 1.01M 37 1.253E 17 1.4375 11 8.59M*10 7.091t*10 1.9508 09 2.MM
- 09 2.967t*09 AvtSAtt 2138 7.290E 10 2.7395 08 3.46M 08 4.48M 08 4.8608 h8 4.433E.08 3.6200 08 2.879t 00 I
DOWWWIND NO.
OlSTANCE PROM DELLA88 POINT INILES)
DECTOR est 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 W
$3 6.546t.09 6.1718 09 $.775t.09 5.404t 09 5.0380 09 3.$7M 09 2.678t*09 1.p54 09 I
but 82 7.8098 09 7 M7t 09 7.t.38t 09 6.621E 09 4.2064 09 4.4768 09 3.380t*09 2.171t.09 NE 1M 1.0688 08 1.7144 08 1.567t.06 1.43M 08 1.318t 08 8.937t.09 6.520t=09 4.0125 09 SWE 276 2.439t.08 2.274t 08 2.100t 08 1.9568 06 1.011t 08 1.160E 08 9.324t*09 5.kSt*09 8
182 1.549E.08 1.45M 08 1.362t.08 1.2754 08 1.199E 08 8.490E.09 6.406t.09 4.133t 09 Ett 146 1.845t.08 1.71M *08 1.S828 08 1.46M*08 1.3515 08 9.337E 09 6.09M 09 4.2725 09
$t 312 3.4748 08 3.190s.08 2.921t*06 3.6s38 0s 2.464t Os 1.68M 08 1.2334 08 7.605t 09 i
888 141 3.825t*08 3.200t 08 2.73H+08 2.3518 08 2.05M 08 1.200t 08 8.048t 09 4.639t 09 i
1 8
185 6.857t 08 5.41M 08 4.413t*08 3.673t 0s 3.117t.00 1.674t*08 1.069t 08 $.5664 09 i
88W 133 4.1368 08 3.252t*00 2.639E 08 2.100E 08 1.850E 08 9.8505 09 6.2928 09 3.310t 09 l
SW 130 2.7638 08 2.2068 08 1.9318 00 1.6565 00 1.4388 08 8.305t*09 5.5215 09 3.03M 09 WSW 118 3.31M 08 2.7134 08 2.269t 08 1.927t.08 1.Mit 05 9.2911 09 6.049t 09 3.2171 09 W
92 2.1425 08 1.79H+08
- 1. Stat *06 1.31M 08 1.147t.08 7.4545 09 4.717E 09 2.4178 09 WWW
$4 1.54M 08 1.330E 08 1.1975 08 1.0118 08 7.4388 09 5.034t*09 3.381t 09 1.820t*09 WW
$2 1.0235 08 9.11M *p9 8.126t 09 7.2825 09 6.555t 09 5.038t 09 3.469t.09 1.998t 09 l
WWW 18 3.050E 09 3.0148 09 2.9075 09 2.769t*09 2.6058 09 1.8068 09 1.3545 09 9.826t*10 1
6VitAtt 2138 2.409t 08 2.054E 08 1.784 08 1.571t*08 1.386t M 8.7338 09 6.06M 09 3.545t 09 ish.* WIND 50.
DISTANCE FROM RELEAtt POINT (MILE 8)
SECTOR 888 20.00 25.00 30.00 35.00 40.00 45.00 50.00 t
W
$3 1.190t 09 8.8548 10 6.04M*10
$.456t*10 4.M 5t 10 4.3e6t*10 3.5506 10 l
WWE 82 1.54N 09 1.1614 09 9.093t 10 7.32et 10 6.034t 10 S.060t 10 4.2948 10 l
NE 1M 2.70st*09 2.073t*09 1.61N.09 1.394t 09 1.0638 09 8.91H.10 7.5744 10 ENE 276 4.100E 09 3.1654 09 2.663E.09 2.134t 09 1.753t 09 1.470E*09 1.249t*09 t
182 2.95at 09 2.247t 09 I.IISE*09 1.780t 09 1.456t*09 1.21H 09 1.027t 09 I'
Ett 146 2.9518 99 2.4154 09 1.8328 09 1.439t 09 1.160E.09 9.5608 10 7.990E 10 St 312 5.2135 09 4.655t 09 3.512t*09 2.7518 09 2.2144 09 1.824t.09 1.52M 09 SSE 141 2.9548 09 2.0618 99 1.5tet*09 1.1771 09 9.337t*10 7.592t.10 6.279t 10 8
185 3.474t*09 2.399t 09 1.772t*09 1.36M 09 1.082t 09 8.8238 10 7.324t 10 SSW 133 2.094t 09 1.4671 09 1.099t*09 8.SaAE.10 6.919t.10 5.778t*10 4.823t.10 SW 130 1.9595 09 1.3828 09 1.037E 09 8.083t.10 6.451t 10 5.3138 10 4.45M 10 lI W5W 118 2.0388 09 1.4275 09 1.060t 09 8.130t.10 6.438f 10 5.014t=10 4.154E 10 W
92 1.500E*0*
1.045t=09 7.761E 10 6.0118 10 4.5Mt*10 3.5518 10 2.971t 10 WWW
$4 1.15M 09 4.118E 10 5.943t 10 4.195t.10 3.241t 10 2.63 H 10 2.1811 10 Nu
$2 1.214E 09 8.119t*10 S.84M*10 3.624E.10 2.44M.10 2.3021 10 1.9971 10 l
NNW 18 5.816E 10 3.852E 10 2.74H 10 2.0434 10 1.570E.10 1.239t 10 9.9555 11 l.
AvtkA02 2138 2.358f 09 1.775t*09 1.38H 09 1.0001 09 8.696t.10 7.200t 10 6.0325 10 l
l l
l A-5 LI
.I APPENDIX A-6 i
RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR I
January - March 1989 Stt108 MELAGt M00ft 80510W E0llou 181 auAAfte 1989 GlutAAL E/O'S JANUARY 110 M4ACM 31(1/M2) 8)
AvtLADt MP081180N SAtts totPLttle gul/e
- MP. 9tLOClff MODEL
- Mtt. AND Alontt thtt0V 19 f
$1Act t!LIA58:
I 0181ANCE Pet htLLAtt Polkt tulltt) stctet 086,,
.W
.25
.50
.75 1.00 1.50 2.00 2.50 OWWtWO 80.
=
W 53 1.95M *12 7.300t*11 3.583t.11
- 2. tem 11 3.7Mt.11 5.7254 11
- 6. Mot *11 6.817t*11 Wut 82 1.0375 12 3.640tett 1.8838 11 1.9ME*11 3.092t*11 5.9595 11 7.554t 11 8.0095 11 I
WI 1M 2.4Mt.12 1.0128 10 1.7208 10 1.46M.10 1.4908 10 1.895t*10 2.0571 10 2.009t*10 ENt 276 6.7%E 12 2.0915 10 1.790E*10 1.4718 10 1.5Mt.10 2.22M*10 2.5548 10 2.57H 10 8
182 4.1298 12 1.4458 10 1,2375 10 1.0335 10 1.000t 10 1.4155 10 1.6048 10 1.624t*10 tSt 146 1.8918*12 6.3914 tt 5.0138*11 5.853E 11 9.32M*11 1.Mit *10 t.9448*10 1.95M to at 312 1.837t *11 4.9379 10 3.3218 10 2.tS5t 10 3.18M 10 4.StM *10 5.3454 10 3.70ta10 l
8 88 141 1.740t a11 5 284 tate 6 41M 10 7.490t.10 8.7028 10 7.2744 10 5.8048 10 4.M7taio 8
185 1.3848 11 5 0114 10 1.1434 09 2.435t 09
- 1. Mat *09 1.652t 09 1.2398 09 9.052t*10 i
t BW 133 1.5411 11 5.749t*10 7.878t 10 1.169t 09 1.751E 09 1.248t 09 7.8328 l
1 W
130 1.920t 11 8.650E*10 6.406t.10 7.4918 10 6.9145 10 5.7721 10 4.37M i
WW 118 9.4495 12 5 4175 10 5.890t=10 5.7671 10 7.750s.10 7.215t=10 5.3988 il 92 2.372t.12 1.5285 10 4.90et*ic 4.M9t.10 5.00M.10 4.37Br*10 3.52M 10 2.6015 10 I
46W H
4.139t 13 1.8Mt*11 1.021t *10 1.MM 10 2.3218 10 2.5918 10 2.335t*10 1.845t*10 W
52 2.0254 12 7.430E.11 3.9025 11 4.5148 11 7.25M 11 1.135t 10 1.2058 10 1.135t=10 WW 18 1.01M*19 1.2525 19 1.4375 13 2.59M 12 7.8918 12 1.950t*11 2.M3t*11 2.967tell MinAst 2138 7.290t 12 2.7398 10 3 447t*10 4.487t*10 6.860t.10 4.4228 10 3.6208' D!stautt 990M StLtAst POIN1 (NILil) satica Den 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 80WWINO Wo.
8 53 6.5464 11 6.1718 11 5.775t*11 5.4844 11 5 038t=11 3.579t.11 2.670t 11 1.6951 11 WWE 82 7.0095 11 7.447E*11 7.028ta11 6.6218 11 6.206ta11 4.47M 11 3.380E 11 2 1718 11 -
WE iM t.86At*10 1.714t 10 1.5675 10 1.4375 10 1.31st 10 4.937t 11 6.520t 11 4.012t*11 5NE 276 2 439t.10 2.274t*10 2.100t *10 1.95M 10 1.8118 10 1.260t*10 9.3248 11 5.8451 11 t
142 1.549E *10 1.4575 10 1.3Mf 10 1.27M 10 1.189t=10 8.4908 11 6.40M 11 4.133ta11 ISE 146 1.8458 10 1.7138 10 1.582t=10 1.461S 10 1.3515 10 9.337t*11 6.8938 11 4.2728 11 st 312 3.474t 10 3.190t.10 2.9215 10 2.68M*10 2.4648 10 1.6ent 10 1.233t*10 7.6058 11
I*
558 141 3.8251 10 3.2005 10 2.7258 10 2.3518 10.t.053t 10 1.200E 10 8.044t*11 4.639t.11 s
tal 6.857Ea10 5.41M 10 4.412E.10 3.672t.10 3.117t=10 1.674t 10 1.069t 1 SW 133 4.136t*10 3.252t 10 2.09t*10 2.180t*10 1.850t*10 9.850E tl 6.2921 11 3.310t M W
150 2.762t*10 2.2868 10 1.9318 10 1.6565 10 1.430t=10 8.285t 11 5.5218 WW 118 3.31M 10 2.713t 10 2.269t.10 1.9275 10 1.Mit 10 9.291t.11 6.049t*11 3.2171 11
< I-W 92 2.1428 10 1.795t*10 1.524t=10 1.3175 10 1.147t=10 7.454t 11 4.7171 11 2.4171 11 WW 54 1.5635 10 1.330E 10 1.157t=10 1.0118 10 7.428t 11 5.0345 11 3.3818 11 1.820t.11 W
52 1.023t*10 9.1175 11 8.126t 11 7.2828 11 6.555t*11 5.038t.11 3.469t 11 1.9968 11 l
18 1.050t*11 3.0144 11 2.9075 11 2.769t 11 2.605t 11 1.30M*11 1.354t*11 9.8264 12
(
MtkAct 2134 2.4095 10 2.0588*10 1.7875 10 1.571t t0 1.386t t0 8.733t 11 6.0Mt 1 WW su Oltfamot th0M tiltAtt P0itt (MILtt) stCTOR 988 20.00 25.00 30.00 35.00 40.00 45.00 50.00 00WWIND WO.
W 53 1.190E 11 8.854t.12 6.847t.12 5.45M.12 4.4458 12 4.5Mt 12 3.550t*12 WNE 82 1.5421 11 1.161t*11 9.092t=12 7.328E 12 6.0345 12 5.060t.12 4.2945 12 M
1M 2.7sSE*11 2.0738 11 1.612t 11 1.2948 11 1.0638 11 8.915E 12 7.5748*12 INE 276 4.10er 11 3.165t.11
- 2. Mat.11 2.134t*11 1.7538 11 1.4708 11 1.249 tall t
182 2.958t 11 2.2475 11 2.22st.11 1.7908 11 1.45M 11 1.21M 11 1.0271 11 ESE 146 2.951t*11 2.4158 11 1.8326 11 1.4395 11 1.1608 11 9.560t*12 7.990t.12 SE 312 5.213t 11 4.6558 11 3.512t*11 2.751t*11 2.214t=11 1.8241 11 1.526t.11 S5t 141 2.9548 11 2.0611 11 1.528t.11 1.177t.11 9.337t=12 7.592t 12 6.2791 12 8
its 3.4744 11 2.399t*11 1.772t.11 1.363t 11 1.082t.11 8.823t*12 7.324t 12 58V 133 2.0944 11 1.447t.11 1.099t 11 8.500t.12 6.919t 12 5.7284 12 4.823ta12 SW 130 1.959t 11 1.3821 11 1.037t tt 8.0sM 12 6.451t 12 5.3134 12 4.4564 12 WSW 118 2.038tatt 1.427E 11 1.060t 11 8.130t 12 6.4384 12 5.0145 12 4.154t 12 W
92 1.508t.11 1.045t*11 7.7618 12 6.011t=12 4.5Mt.12 3.5515 12 2.971t 12 WW 54 1.15M tt 8.11st.12 5.943C 12 4.195t 12 3.241t*12 2.635t 12 2.1813 12 W
52 1.214t=11 8.119ta12 5.846t*12 3.624t 12 2.846t 12 2.3028 12 1.8971 12 NW 18 5.8tM*tt 3.8528 12 2.7454 12 2.0438 12 1.570t 12 1.239E *12 9.955t 13 AVtaAGE 2138 2.358ta11 1.775t *11 1.3855 11 1.0005 11 8.69M 12 7.200E 12 6.0328 12 1'I L
A-6 i-
f APPENDIX A-7 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR April - June 1989 I
i I
I 80810W E0180W RND WART [t 1989 SENELAL R/0'8 APtll 110 JuMt ?0 SECTOR evttAGI M3 DEL 18tC/M3) 8411MD SELLA 8t ORGUND*LtVtl evitAOL Cul/0 M f0Rt OLPLE180N 00WWWlWD N0.
OllieWCt 7804 SittAtt PolNT INittl)
Sition 088
.12
.25
.50
.75 1.00 1.50 2.0?
2.50 i
k 180 2.60tt 05 7.65H 06 2.55N M i.4018 M 9.1Mt=07 5.0318 07 3.3014 07 2.392t 07 WWE US 3.05M 05 8.9775 06 3.0328 M 1.683t
- M 1.106t=06 6.052t*07 3.943t*07 2.845t*07 NE 259 4.1371 05 1.212E 05 3.$7M
- 06 2.130t 06 1.3995 06 7.8DE 07 5.1778 07 3.774t
- 07 ENE 142 2.727t*05 7.9725 06 2.584
- M 1.41M 06 9.225t*07 5.1548 07 3.4141 07 2.4901 07 8
144 2.5675 05 7.5175 06 2.445t*06 1.322t 06 0.58N 07 4.7798 07 3.1671 07 2.310!*07 Est 105 1.63M*05 4.766t M 1.59M*06 8.719E 07 5.690t.07 3.13 M 07 2.0584 07 1.49M
- 07 St M
1.15M 05 3.354t*06 1.252t 06 6.8854 07 4.515f 07 2.4568 07 1.5998 07 1.050t 07 I
SSE 57 8.755E.06 2.571t 06 8.9664 07 4.438t*07 t.87M 07 1.55M*07 1.0128 07 7.2958 06 8
92 1.3814 05 3.965t 06 1.1528 06 6.3918 07 4.0968 07 2.222t 07 1.4491 07 1.047t 07 i
SSW 88 1.159t=05
- 3. Mot 06 1.0ME 06 5.99M*07 3.895t 07 2.090t=07 1.350t*07 9.693t 08 SW 85 9.286t 06 2.701t 06 8.3691 07 4.529t*07 2.M5t *07 1.584 07 1.028t*07 7.394t 08 WSW M
1.212t 05 3.5275 06 1.10M 06 5.991t*07 3.8898 07 2.10M
- 07 1.M?t = C7 9.8501 08 W
153 2.578t*05 7.559t M 2.3096 06 1.38M 06 9.0298 07
- 4. Met.07 3.3428 07 2.134E 07 WWW 147 2.308t*05 6.46tt*06 2.180t*06 1.1Mt 06 7.7Mt *07 4.275t*07 I.799t 07 2.229t*07 NW 147 2.799t*05 6.7218 06 2.31M 06 1.275t*06 8.320E 07 4.5415 07 2.MM 07 2.1ME 07 WNW 135 2.58M 05 7.59M 86 2.5118 M 1.3FM.06 8.969t 07 4.M18 07 3.2H8 07 2.3718 07 evtkAGE 2151 2.069t 05 6.M9t*06 1.9848 M 1.091t*06 7.12M*07 3.920t 07 2.5718 07 1.5,6t 07 I.
00WWWIND WO.
Ol8fANCE fMM stLEASE PolNT (Mllt8)
StCTOR 088 3.00 3.5V 4.00 4.50 e.00 7.50 10.00 15.00 N
180 1.M8t*07 1.448t*07 1.Det
- 07 1.kSt 07 9.0228 08 5.213t 08 3.562t.08. 2.0948 08 I
NNE 238 2.1964 07 1.765t*07 1.4628 07 1.2378 07 1.06M 07 6.14M.08 4.1915 00 2.4564 08 WE 259 2.929t.07 2.367t 07 1.970t*07 1.67M 07 1.452t 07 8.490E.08 5.M7t 08 3.473t 08 I
INE 142 1.9328 07 1.540E 07 1.298t 07 1.103t 07 9.55tt 08 5.M9t=08 3.8291 04 2.2738 08 E
144 1.7918 07 1.446t 07 1.7038 07 1.022t*07 8.84M 08 5.151t*08 3.539t*06 2.100t*08 Ist 105 1.1550 07 9.3088 08 7.726t 08 6.549t 08 5.6548 08 3.3688 04 2.2358 08 1.317t 08
.I 88 95 8.12M*06 6.541t 08 5.4258 08 4.5918 08 4.3528 08 2.5058 08 1.709t 08 1.003t 08 888 57 5.6.Jt 08 4.510t 08 3.730t*08 3.149t 08 2.708t.08 1.54N 08 1.049t *08 6.1048 09 8
92 8.102t 08 6.5 85 04 5.4084 00 4.5728 08 3.937t*08 2.tSM
- 06 1.537t 06. 9.0218 09 l
88W 88 7.4688 04 5.988E 08 4.M6t*06 4.164t*08 3.5734 08 2.024t 04 1.36N 08 7.9548 09 i
SW 85 5.7054*De 4.5848 08 3.7964 88 3.2075*08 2.7596+08 1.5818 08 1.0784 08 6.340t 09 W8W 84 7.603t*00 6.110E 08 5.054t*08 4.273E 08 4.M 5t*08 2.106t 08 1.4358 08 8.4328 09 l.
r W
153 1.4495 07 1.3275 07 1.100t*07 9.3206 08 8.0418 08 4.640t 08 3.168E 08
- 1. Mot 08 WWW 147 1.723t
- 07 1.34H +01 1.150t=07 9.7358 08 7.6358 08 4.404t*06 3.00M 08 1.764t 06 W
147 1.6448 07 1.124t*07 1.0968 07 9.258E 08 7.972t 08 4.577t 08 3.111t*08, 1.819t 08 NNW 135 1.8358 07 1.4798 07 1.228t 07 1.M it 07 8.998t 08 5.2173 08 3.57M 08 2.108t 08 evitAGE 2151 1.43M 07 1.15M 07 9.59M 08 8.179t*06 7.0173 08 4.0434 08 2.7651 06 1.6281 06 00NWWIND No.
Ol814WCt retM stit481 POINT INilf t)
SECTOR 088 20.00 25.00 30.00 35.00 40.00 45.00 50.00 N
- 180 1.44 M 08 1.087t 08 8.686t*09 7.180t 09 6.085t 09 5.2648 09 4.618t 09 NNE 238 1.648t 08 1.369t 08 1.0131 08 8.3548 09 7.067t 09 6.104t *09 5.M ?t 09
- E 259 2.405t 08 1.819E 08 1.454t*08 1.2088 08 1.025t 08 8.874t*09 7.7908 09 ENE 142 1.573t 08 1.189E*08 9.533t*09 7.899t 09 6.70M 09 5.8084 09 5.1018 09 t
144 1.455t=08 1.101t 08 8.830t 09 7.3234 09 6.2234 09 5.395t 09 4.7448 09 I
E8E 105 9.08M 09 6.8544 09 5.483t 09 4.537t*09 3.849t 09 3.3 ME 09 2.9295 09 i,
St 95 6.9144 09 5.2098 09 4.160t*09 3.4344 09 2.9144 09 2.5248 09 2.2171 09 i
88E 57 4.185t 09 3.142t 09 2.5C3t*09 2.0651 09 1.748t 09 1.513t 09 1.3288 09 l
8 92 6.21M 09 4.683f 09 3.7415 09 3.0934 09 2.623t 09 2.275t*09 2.0005 09 SSW 88 5.4528 09 4.092f 09 3.tS8t 09 2.648E 09 2.2758 09 1.9728 09 1.73M 09 SV 85 4.3858 09 3.314t 09 2.652t 09 2.1975 09 1.847t*09 1.621t 09 1.4288 09 W8W M
5.8188 09 4.384t 09 3.508t *09 2.9038 09 2.463t 09 2.1375 09 1.879t.09 o
W 153 1.2828 08 9.65M 09 7.71M 09 6.382E 09 5.410E 09 4.684t 09 4.11M 09 l
WWW 147 1.215t 08 9.1464 09 7.30M 09 6.0304 09 5.11M 09 4.4288 09 3.886t 09 NW 147 1.249t*08 9.389t 09 7.448E.09 6.180E 09 5.2318 09 4.524t 09 3.967t 09 I
WNW 135 1.45M 08 1.0978 08 8.7754 09 7.262E 09 6.1584 09 5.329t 09 4.6771 09 6VERAGE 2151 1.1Di=08 8.4682 09 6.772t 09 5.601E*09 4.749t 09 4.1128 09 3.610E 09 A-7
s APPENDIX A-B l
DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR April - June 1989 I
SMTON E0180N IND 8u481881989 SENELAL R/0'$ API.L i 10 JUNE 30 St010R AVtkACt ICDtl
\\
en0uub BELLAsts estuMD.Ltvtl AVt4A04 Cal /0 AFitt MPLETION (tieULATORT W1051.111 DEPitflou It0Dit)
(8tt/m3)
DOWNWIND NO.
DISTANCE FROM htLLAN 90lW1 (NILil)
St010e oss
.12
.25 50
.75 1.00 1.50 2.00 1.50 N
100 2.509t 05 7.te9t 06 2.330s 06
- 1. Mat 06 8.01N 07 4.200t*07 2.7341 07 1.936t 07 Nut 234 2.9404 05 8.52M 06 2.772E M 1.500t M 9.694t 07 5.1595 07 3.2M4 07 2.303t*07 Nt 259 3.9908 05 1.1515 05 3.54M N 1.09et 06 1.22M*06 6.M9t*07
- 4. ten 07 3.35H 07 ENE 142 2.630E*05 7.572t 06 2.3EE M 1.259t 06 8.Deat 07 4.3948 07 2.62st 07 2.016t 07 t
144 2.4754 05 T.140E 06 2.23H 06 1.1788 M 7.5 Pet 07 4.074t 07 2.625t 07 1.670t*07 8 58 105 1.5788 05 4.5208 06 1.4598 06 7.7708 07 4.9098 07 2.6728 07 1.705t*07 1.209E*07 st 95 1.113t 05 3.167t 06 1.1Mt.N 6.1364 07 3.9584 07 2.0948 07 1.3258 07 8.499E 08 Sst 57 8.M38 06 2.M2t*06 0.1 58 07 3.955t 07 2.522t*07 1.3aM 07 8.3EE 06 5.90H 08 8
92 1.332t*05 3.7Ma*06 1.05M M 5.60M 07 3.5915 07 1.0944*c7 1.2004 07 8.4741 08 SSW SE 1.11st 07 3.1738 06 1.001t*06 5.340E 07 3.415t 07 1.7528 07 1.118t 07 7.6478 06 sw 85 8.95H 06 2.56H+06 7.H9t=07 4.3aM 07 f.582t 07 1.35M *07 8.513t=08 5.966t 08 W5W M
1.169t 05 3.3508 06 1.000t 06 5.3398 07 3.410E 07 1.79M 07 1.1325 07 7.974t 08 W
153 2.486E 05 7.iect N 2.1108 06 1.D5t*06 7.91M 07 4.219t 07 2.685t 07 1.7278 07 WW 147 2.129t 05 6.1388 06 1.9925 M 1.0EE M 6.8ME *07 3.M 54 07 2.319t*07 1.604t*07 ~
W 147 2.217t 05 6.3ME M 2.1175 06 1.1ME 06 7.395t*07 3.8718 07 2.457t 07 1.779t 07 WWW 135 2.49H 05 7.213t N 2.2954 06 1.2256 06 7.063t 07 4.329t 07 2.7058 07 1.9205 07 AVtkAet 2151 1.995t 05 5.7458 M 1.8138 N 9.7254 07 6.2475 07 3.34at 07 2.139t 07 1,5028 07 5
00WWINO NO.
DISTANCE P0(BI RELSAtt 90!N7 (NILit)
Sic 104 oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N
100 1.470t.07 1.1ME 07 9.5108 08 7.956t 08 6.753E 08 3.64M 06 2.396t*04 1.306t 08 NNE 238 1.74M 07 1.3816 07 1.1275 07 9.415t 08 8.01M 08 4.340E 08 2.82N 04 1.534t 08 I
NE 259 2.3398 07 1.8f M 07 1.519t 07 1.2768 07 1.0921 07 5.9995 08 3.934t*06 2.169t 06 s
ENE 142 1.53M.07 1.2291 07 1.0018 07 8.399t 08 7.182t 08 3.93H 08 2.5?M 08 1.420t 08 E
144 1.4244 07 1.131k 07 9.270E 06 7.7518 05 6.651E 05 3.639t=08 2.3815 06 1.3128 08 tSt 105 9.1864 08 7.382E.08 5.9568 08 4.98H 08 4.251t 08 2.309E 08 1.504E 08 8.2258 09 st 95 6.459E*08 5.117t 08 4.1821 08 3.495t 08 3.272t 08 1.770E 08 1.150E 08 6.26M 09 888 57 4.4695 06 3.5398 06 2.87M Os 2.3975 08 2.0ME.08 1.09M 08 7.05M*09 3.813t=09 8
92 6.4425 04 5.104t.08 4.1698 08 3.480t 08 2.960E 08 1.594t 08 1.034E 08 5.63H 09 SSW 88 5.93at 08 4.68H.os 3.81M.Os 3.170E*0s 2.6eet Os 1.430t 08 9.20M 09 4.96AI.09 SW 85 4.5364 08 3.5864 06 2.92M=ce 2.441t 08 2.075t*08 1.117t*00 7.250t=09 3.960t 09 W5W N
4.0458 08 4.750E 08 3.099E.08 3.tSM 08 3.0418 08 1.4488 08 9.6534 09 5.te7t*09 W
153 1.311t 07 1.034t 07 8.482t*08 7.095t*08 4.0444 08 3.279t 06 2.1318 08 1.1621 M WNW 147 1.370t.07 1.005t*07 8.8628 08 7.4114 08 5.7404 08 3.112t 08 2.022t*08 1.102t.08 W
147 1.310t.07 1.0ME 07 8.446t*0s 7.N 75 08 5.9Mt 08 3.230t 08 2.09M
- 04 1.1361 06 NW 135 1.4596 07 1.1573 07 9.463t*08 7.9368 08 6.76H cs 3.6aM 08 3.404t 08.1.3178 06 avita 8t 2151 1.1418 07 9.N 58 08 7.39H 08 6.100E-08 5.27M 08 2.857t.0s 1.86N.08 1.0178 08 DWNWINO Wo.
CitTANct FROM RELEAtt 90lNT (NILES)
SECTOR Ost 20.00 25.00 30.00 35.00 40.00 45.00 50.00 N
180 8.399t 09 5.960t 09 4.530t 09 3.5938 09 2.929t 09 2.449t 09 2.082t 09 I
NNE 238 9.8288 09 4.969t 09 5.3918 09 4.1808 09 3.402t*09 2.k OE 09 2.4108 09 NE 259 1.400E 08 9.9871 09 7.6215 09 6.044t 09 4.9ME 09 4.129t 09 3.511t=09 ENE 142 9.1575 09 6.530E 09 4.982t 09 3.953t 09 3.22st.09 2.702t 09 2.299t*09 t
l I
144 8.469t*09 6.0444 09 4.6148 09 3.6ME 09 2.99M 09 2.510t 09 2.138t 09 Est 105 5.290s.09 3.7EE 09 2.06H 09 2.270E 09 1.855t 09 1.5518 09 1.320t 09 St 95 4.0244 09 2.860t=09 2.174t 09 1.720E 09 1.40M 09 1.1758 09 9.9921 10 8st 57 2.4368 09 1.725E 09 1.30st.09 1.03M 09 8.4154 10 7.041t.10 5.98M 10 8
92 3.610t*09 2.572E 09 1.955t 09 1.5444 09 1.26M 09 1.059t 09 9.015t 10 SSW SS 3.174E 09 2.247E 09 1.703t.09 1.MH 09 1.095E 09 9.179t =10 7.810t*10 SW BS 2.55M *09 1.1208 09 1.3AM 09 1.099E 09 8.986E 10 7.5458 10 6.435t=10 W5W M
3.3875 09 2.410E 09 1.8338 09 1.4525 09 1.106E 09 9.942t 10 8.469t*10 W
153 7.4418 09 5.303E.09 4.033t 09 3.19M 09 2.6Nt 09 2.1805 09 1.054t 09 WWW 147 7.071t 09 5.023t*09 3.8188 09 3.021t.09 2.463t 09 2.060E 09 1.751t 09 W
147 7.27M*09 5.15M 09 3.913t.09 3.0921 09 2.51st 09 2.105t 09 1.7stt 09 NNW 135 8.4688 09 6.0251 09 4.5875 09 3.6345 09 2.9M E 09 2.48N 09 2.108E.09 I
AYtkAGE 2151 6.534t 09 4.650t 09 3.539t*09 2.803E 09 2.28M 09 1.9138 09 1.6271 09 I
A-8
APPENDIX A-9 i
I-r RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR April - June 1989 80610N EDISON tuo SuAttti 1989 StWitAL E/O'8 APtlk 110 Juwt 30 Stt10e AvinAGt m00th I
Stam:0 SELEAtts AVELA44 DtP051110m AAttl (SEWLA1041 Sul0E 1.111 MODEL)
(1/M2)
I DWWWlue No.
Ol81ANCE #8m SELIASE POIN1 (MILit) 8tt102 088
.12
.25
.50
.75 1.00 1.50 2.00 2.50 W
180 1.415t.07 4.760t=08 1.60N 08 8.48M*M 5.74M 09 2.5385 09 1.HN *09 1.055t 09 s
but 338 1.8725 07 6.294t.08 2.itM 08 1.1225 00 6 M9t 09 3.35M 09 2.047t*09 1.395t
- 09 Nt 359 R.03M
- 07 6.849t 08 2.31M 08 1.221t*00 7.5521 09 3.65tt 09 2.22N 09 1.518t*09 l
Ikt 142 1.1175 07 3.7558 08 1.3608 08 6.M28 09 4.140t.09 2.002t*09 1.222t=09 8.3248 10 t
144 1.132t 07 3.808t*04 1.28M 08 6.786t*09 4.199t 09 2.030t*09 1.239t*09 4.441t*10 88t 105 8.tS7t*08 2.777t*00 9.377t +M 4.968t-09 3.06tt M 1.480s 09 9.0324 10 6.1554 10 St 95 7.470t.08 2.5128 08 9.332t*09 4.925t 09 3.0471 09 1.47M *09 8.989t 10 5.5Mt 10 I
Bst 57 4.9314 08 1.658t 08 5.599E.M 2.eht 09
- 1. Mat *09 8.037t.10 4.90M 10 3.341t 10 92 4.6814 08 2.920t*08 8.21M*09 4.33et M 2.682t 09 1.M75 09 7.914t 10 5.3938 10
$$W 88 7.612t 88 2.5405 08 7.859t 09 4.147t 09 3.56M*09 1.241t*09 7.570t*10 5.15M 10 SW 85 7.353t 08 2.473E.08 7.591t.09 4.00M
- 09 2.478t 09 1.1988 09 7.312t*10 4.98M*10 W5W 84 7.teet 08 2.4434 08 7.5035 09 3.9595 09 2.4495 09 1.184t*09 7.22M 10 4.9248 10 W
153 1.32M 07 4.451t 08 1.5en.88 7.9318 09 4.9075 09 2.3FM*09 1.4488 09 8.9eM*10 I
WW 147 1.tht*07 3.887t 08 1.3tM 88 6.927t 09 4.38H 09 2.0734 09
- 1. test M 9.479t 10 W
147 1.1568 07 3.8875 08 1.3134 08 6.927t=09 4.386t M 2.07M 09 1.2658 09 8.617E 10 t
WWW 135 1.063t 07 3.570t 08 1.3064 08 6.562t*09 3.9365 09 1.90M 09 1.1614 09 7.9148 10 Avl 8Aet 2151 1.089t 07 3.M3t=08 1.30R 88 6.400E 09 3.M 54 09 1.9171 09 1.170t 09 7.9Mt.10 l
DWWWINO NO.
DISTAuct F8cM SELEAtt POIN1 (M1Lil)
SEC10R 988 3.00 3.50 4.00 4.50 3.00 7.50 10.00 15.00 t
b' 100 7.7218 10 5.905t 10- 4.6708 10 3.7538 10 3.0Nt*10 1.5528 10 9.545t 11 4.710t 11
'I Nut 238 1.0218 09 7.80Bi+10 6.1748 10
- 4. Mat *10 4.0ME 10 2.05Ma10 1.367t *10 6.2275 11 ut 259 1.1114 09 8.497t*10 6.7195 10 5.399t 10 4.455E.10 2.234t*10 1.373t 10 6.777t*11 tut 142 6.0918 10 4.659t 10 3.684t*10
- 2. Mat *10 2.442t.10 1.225t*10 7.530t.11 3.715t 11 l'.
t 144 6.1775 10 4.724t*10 3.7368 10 3.0028 10 2.477t*10 1.2425 10 7.6ht.11 3.76N.11 l
Ist 105 4.5044 10 3.4458 10 2.7248 10 2.1ME*10 1.00M 10 9.055t*11 5.568t 11 2.7475 11 St 95 4.0758 10 3.117t 10 2.4Mt*10 1.9005 10 1.797t*10 9.012t*11 5.5425 11 2.734t'11 l'I 88t 57 2.4458 10 1.870E 10 1.479t*10 1.188t 10 9.804t*11 4.91M 11 3.023t*11 1.491t *11 1 -
B 92
- 3. Met 10 3.01N.10 2.38M *10 1.918E.10 1.582t=10 7.9345 11 4.879f*11 2.4078 11 l
SSW 88
- 3. m t*10 2.887t*10 2.3835 10 1.83M 10 1.514t.10 7.589t*11 4.M7t.11 2.3031 11 Iv 85 3.646t=10 2.789t*10 2.205t*10 1.77tt.10 1.4625 10 7.330E 11 4.5088 11 2.2245 11 WSW 84 3.6034 10 2.756t.10 2.179t 10 1.7518 10 1.5 ME 10 7.2448 11 4.455t.11 2.1988 11 I
W 153 4.5634 10 5.0208 10 3.969t*10 3.190t*10 2.6325 10 1.319t.10 4.114t.11 4.003t 11 WW 147 6.9M4 10 5.30M*10 4.1954 10 3.371t*10 2.5284 10 1.tett 10 7.7958 11 3.84M*11 NW 147 6.30M 10 4.823t*10 3.81M 10 3.0655 10 2.528t.10 1.teet.10 7.795t*11 3.84M*11 1
1 NmW 135 5.7918 10 4.4298 10 3.5028 10 2.816E 10 2.322t 10 1.164t 10 7.159t*11 3.5328 11 i
AVISAot 2151 5.00H 10 4.4418 10 3.511t 10 2.822t 10 2.332t.10 1.165t*10 7.161t 11 3.533t*11 DOWNWINO NO.
OlB14NCE F80M SELEASE POINT (MILtt)
StC10R 088 30.00 25.00 30.00 35.00 40.00 45.00 50.00 W
180 2.8955 11 1.949t 11 1.37M 11 1.027E 11 8.010E*12 6.551t 12 5.439t 12 Nut 138 3.8285 11 2.577t 11 1.816E 11 1.3575 11 1.059t.11 8.Mit 12 7.192t.12 Nt 259 4.1658 11 2.804t.11 1.976t 11 1.4775 11 1.153t*11 9.426t 12 7.826t.12 INI 142 2.2844 11 1.538E.11 1.083t 11 8.099t 12 6.3195 12 5.1485 12 4.2918 12 t
144 2.31M*11 1.559t*11 1.099t*11 8.213t*12 6.400t=12 5.240t*12 4.351t=12 Ett 105 1.689t*11 1.1375 11 8.0114 12 5.989t*12 4.6725 12 3.8218 12 3.173t 12 I.~
St 95 1.6818 11 1.131t*11 7.972t 12 5.960E 12 4.650t*12 3.00M 12 3.158t*12 885 57 9.16M.12 6.1728 12 4.349t 12 3.251t*12 2.534E 12 2.074t 12 1.722t 12 B
92 1.480t*11 9.N 1t*12 7.019t.12 5.247t *12 4.0948 12 3.348ta12 2.780t*12 StW 88 1.4158 11 9.528t*12 6.714t*12 5.019t*12 3.91M 12 3.2038 12 2.659t.12 SW 85 1.367E.11 9.203t*12 6.48M*12 4.848t=12 3.782t=12 3.0935 12 1.569t=12 fI e
W8V 84 1.351E*11 9.095t*12 6.400s.12 4.791t 12 3.738t*12 3.057t 12 2.53N 12 W
153 2.4618 11 1.657t*11 1.167t *11 8.726t*12 6.808t 12 5.5688 12 4.62M *12 L
WW 147 2.3ME=11 1.5928 11 1.121t.11 8.3Mt 12 6.541t*12 5.350t*12 4.4421 12 1
NW 147 2.3Mi*11 1.592t 11 1.121E.11 8.3Mt 12 6.541t 12 5.350t.12 4.4425 12 NuW 135 2.171t*11 1.462t*11 1.030t.11 7.700E 12 6.007E 12 4.91M *12 4.0795 12 evttAot 2151 2.172t 11 1.4425 11 1.030t.11 7.7018 12 6.009t.12 4.914t*12 4.080t 12 i
A-9
.I
I APPENDIX A-10 UNDEPLFTED RELATIVE CONCENTRATIONS PER UNIT MISSION FOR MAIN STACK FOR r
April - June 1989
,g I
SEC10R Avtt4Gt N%tt 80$10N EDISON INO suntitt 1989 StutnAL R/0'8 APtil 110 JUNE 30 j
ESEC/N3)
STACE GELLANs 88tNND Ltvit Avita 08 Cul/0 MFORt OtPLtll0N k
88 C10R 888,
12
.23
.50
.75 1.00 1.50 2.00 2.50 DISTANCE 980N StLIA$t Wolut (MILit) 00WWIND NO.
W 144 4.378t 10 1.44M 08 1.2Mt.08 9.192t *09 8.9715 09 1.227t 06 1.4821 06 1.$59t Of P'
WNE 106 1.MH 10 9.2618 09 5.950E.09 4.961t*09 4.983t*09 6.7190 09 4.06M*09 8.5168 09 I
ut 253 1.2868 09 3.83M.08 2.7728 08
- 1. M at 08 1.8568 08 2.205t*06 2.4368 06 2.4451 08 SNI 317 1.4DE.09 4.3?M.08 2.5881 08 1.780E 08 1.7218 08 2.070t 08 2.2915 08 2.306bO8 8
117 3.550t*10 9.878t*09 6.6708 09 5.624t 09 4.100t=09 4.6ME*09 1.053t 08 1.1148 08 2 88 154 7.37M 10 2.310E 08 1.52W.08 8.139f*09 8.18H 09 1.151E 08 1.3451 08 1.376t 06
)
88 147 3.MM.00 1.157t*07 5.490t 08 2.98M*00 2.31M 08 2.3995 08 2.34M
- 08 1.566E 08 J
I 884 137 4.M it 09 1.52M 07 6.80M 08 5.415D08 6-42H 08 5.493t 08 4.449E 08 3.64M 06 8
M 1.285t*09 5.9488 06 4.455t*06 9.53M.08 8.43M.08 4.71M 08 7.46M 08 5.8021 08 88W 106 2.810L *09 1.tkt 07 6.899t 08 9.0 Ot*08 1.5758 07 1.4151 07 9.114t 08 6.539D06 W
109 2.621t 09 1.M2t*07 7.2775 08 8.34M 08 4.4998 08 7.8828 08 6.2215 08 5.005t 08 l
WW 75 2.297t 09 1.65H 07 7.4725 08 5.0488 08 4.060E 08 5.93M 08 4.67M 06 3.772t 08 W
62 7.979taiO 4.844t*08 3.309t 08 2.88H.08 3.420E.00 3.5918 08 3.22H 08 2.5498 08
)
I WW 69 6.00M 10 3.0155 08 1.9675 08 1.7028 08 2.3608 08 2.8628 08 2.75M.08 2.2921 08 W
111 9.9598 10 4.333t*88 2.35M 08 1.5325 08 1.5108 08 1.830s.08 1.9718 08 1.933t*06 NW 173 1.29M*09 4.118E 08 2.3575 08 1.M0E*08 1.7218 08 2.2488 06 2.500E 08 2.4978 06 evtSA06 2168 1.5858 09 6.7095 08 3.6006 08 3.419t 08 3.932t.08 3.9564 08 3.384t 06 2.828E 08 i
88 CTOR OSS 3.00 3 30 4.00 4.50 5 00 f.50 10.00 15.00
]
Dl81AN08 F80N SELLASE POINT (N!Ltt) l 00WWluo No.
W 144 1.5218 06 1.456t 88 1.382t
- 08 1.310f.08 1.D54 08 9.1818 09 7.134t.09 4.851t*09 I
NME ice 8.3728 09 8.089t=09 7.7458 09 7.404t 09 7.038t 09 5.387t.09 4.2824 09 3.007D M NE 253 2.32H 08 2.184t 08 2.043D08 1.915D 08 1.789E 08 1.299E 08 9.9948 09 6.7108 09 ENE 317 2.2064 08 2.082t 08 1.958D 08 1.844 0 08 1.730E*08 1.277E 06 9.9495 09 6.81H 09 117 1.0958 08 1.052t*08 1.002E 08 9.530t 09 9.0125 09 6.752t*09 5.275t 09 3.6045 09 l
F*
BSE 154 1.320E 08 1.24M 08 1.169t 08 1.097t.08 1.02M 08 7.4525 09 5.745t 09 3.866t 09 i
88 147 1.4318 08 1.307t 06 1.19M*06 1.1010 08 1.0148 08 7.0931 09 5.382t.09 3.578t 09 SSE
.137 3.0568+08 2.6198+08 2.284D 08 2.0154+08 1.7975+08 L1564 08 8.4021+09 6.1168 09 8
88 4.546t*08 3.6944 08 3.0854 08 2.62M*08 2.275t*08 1.329E 08 9.161t*09 5.464t 09 88W 106 5.0364 08 4.044t 08 3.349t 08 2.8334 08 2.4418 08 1.4071 06 9.5978 09 5.6238 09 SW 109 4.1434 08 3.510E 08 3.0298 05 2.M9t*00 2.3428 08 1.45e4 08 1.036t 08 6.385t=09 i'.
WOW 75 3.119t.08 2.630D06 2.272t*08 1.9844 08 1.7518 08 1.0804 08 7.652t 09 4.7021 09 l
W 62 2.206t.08 1.929t 08 1.7056 08 1.520t*08 1.3ME*08 1.184t 08 8.192t*09 4.869t*09 l'
[
WW 69 2.027t 08 1.001D08 1.610E 08 1.450D00 1.0948 08 8.4508 09 6.3021 09 3.9394 09 j
W 111 1.009t*08 1.678t 08 1.552t=08 1.441t*08 1.336t*08 1.2928 08 9.443t 09 6.782t*09
(
WW 173 2.361008 2.2005 06 2.0415 08 1.8975-08 1.759E*08 1.2444 06 1.005t*06 1.033t*06
'I AvtSA88 2168 2.4408 06 2.141t 08 1.905t.88 1.711t 08 1.535t*08 1.07M*08 7.933t*09 5.4158 09 DOWWIND NO.
Ol81ANCE 7894 84 LEASE POINT (MILit) t' i
SECfot 088 20.00 25.00 30.00 35.00 40.00 45.00 50.00 I
W 144 3.M 2t 09 2.0988 09 2.3964 09 2.038t 09 1.771t*09 2.467t 09 2,176t 09 l-I NME 106 2.309t 09 1.865D09 1.358t.09 1.3375 09 1.170E.09 1.0421 09 9.3755 10 l
1 NE 253 5.005t 09 3.9Mt.09 3.!?Ot*09 2.7?M
- 09 2.407E 09 2.12M 09 1.900D 09 ENE 317 5.151t 09 4.294D09 4.049t 09 3.427t 09 2.9638 99 2.6108 09 2.325t 09 E
117 2.714t 09 2.163D09 2.3500 09 1.9858 09 1.709t 09 1.500E 09 1.332f 09 Ett 154 2.891D09 2.7128 09 2.2258 09 1.8804 09 1.W 44 09 1.430E 09 1.273f =09 St 147 2.6688 09 2.989t*09 2.4446 09 2.0615 09 1.7775 09 1.5411 09 1.388t*09 888 137 4.377t 09 3.380t 09 2.744D 09 2.300D09 1.9738 09 1.726E 09 1.530D 09 8
88 3.7971 09 2.878t 09 2.3118 09 t.918t.09 1.6318 09 1.417t 09 1.2471 09 SSW 106 3.8758 09 2.919t 09 2.3325 09 1.928E.09 1.633E 09 1.414t 09 1.2418 09 l-W 109 4.539t 09 3.490E 09 2.824t.09 2.3618 09 2.1238 09 1.853t 09 1.638D 09 W8W 75 3.331D 09 2.58M.09 2.D5t a09 1.8548 09 1.57M.09 1.390009 1.222t 09 i
W 62 3.378t 09 2.5534 09 2.043D 09 1.690E 09 1.5145 00 1.3075 09 1.1448 09 WNW 69 2.815t 09 2.3301 09 2.133D 09 1.8720 09 1.5840 09 1.370t 09 1.2028 09 W
111 4.828t 09 3.860t 09 3.171t.09 3.137t 09 2.65 H 09 2.2944 09 2.0111 09 WW 1T3 7.131t 09 5.374t*09 4.2918 09 3.545009 3.004t 09 2.601t 09 2.284t*09 AvtkAct 2168 3.9J3t.09 3.1415 09 2.649t 09 2.2575 09 1.9450 09 1.7575 09 1.553D09 l
1 t
l I A-10 l I-
i I
APPENDIX A-11 DEPLETED' RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR AprH - June 1989 00$10N E0l&DN INO SQARTit 1989 MuttAL E/0's APRIL 1 to JWNt 30 MCTOR AvtR4Gt ecDEL Eltt/M3) 81ACK RELlatte enWND Ltytt ASAGE Cul/0 A7tta DIPLtil0N tuff. AND A10NIC tutt0Y iM4 DIPLt110N NODit)
I DWWIND No.
BISTANCE FRm MLLAN 90lN1 (N!Lil)
Sec 0R Ost
.12
.25
.50 75 1.00 1.50 2.00 2.50 W
144 4.37tE 10 1.449t 08
- 1. h44 08 9.1598 09 8.95M 09 1.322t 08 1.473t 08 1.5448 08 WWE 106 1.M5t=10 5.2Ht 09 5.920E 09 4.945t.09 4.9648 09 6.689t 09 8.0135 09 8.4388 09 I
ht 15 3 1.28M*09 3.8318 04 3.7ME*06 1.954t 08 1.8498 04 2.19M 08 3.4218 00 2.423t*08
)
INE 317 1.47M 09 4.374t*08 2.58M *08 1.7748 08 1.715t*08 2.062t 08 1.278t 06 2.tMt 08 E
117 3.558t 10 9.8738 09 6.6598.M 5.4001 09 6.075t M 8.M75 09 1.0464 08 1.10M 04 1
8 88 154 7.37M 10 8.300f*08 1.32M*06 8.100t=09 8.1588 09 1.%75 08 1.3371 08 1.3628 08 88 147
- 3. Met 09 1.15M
- 07 5.473t 08 2.970t es 2.3Mt es 2.382t 08 3.32M 08 1.544t M I
888 137 4.5618 09 1.5215 07 6.777t 08 5.4025 08 6.4075 08 5.4598 08 4.398t 06 3.579f*06 8
88 1.2854 09 5.E21 08 4.4358 08 9.5198 08 8.4154 08 8.H0E 08 7.35M 08
- 5. M4t 06 Ssv 106 2.010t 09 1.18H 07 6.87M 08 9.060t 08 1.5706 07 1.395t 07 8.87M 08 6.NM 08 SW 109 3.6218 09 1.M0t 07 7.74M 08 8.310E 08 8.467t=08 7.8118 08 6.111t 08 4.0M8 08 Wsw 75 2.397t*09 1.6528 07 7.4368 08 5.017t*08 6.0188 08 5.865t 08 4.50M*08
- 3. utt 08 i
W 62 7.979t*10 4.858E 08 3.29H+0S 2.9748 08 3.4058 08 3.561t*06 3.1775 00 2.449t*06 WW 69 6.003t 10 3.0128 08 1.9588 08 1.4NE 08 1.35Ma08 2.847t*J6 2.779t 08 2.2578 06 1
W 111 9.9598 10 4.3tet 08 2.h8E.06 1.StH 08 1.50M 08 1.Stot 08 1.95M*08 1.90M 08 hw 173 1.397t 09 4.11H 04 2.3518 06 1.M64 08 1.7%t 08 2.2373 08 2.480s.06 2.4ME 08 l
AvtRACE 2168 1.58M 09 6.792E 08 3.587t 08 3.40st*00 3.916t*06 3.9228 06 3.3ME*00 2.7pt 08 W
DWWIND Wo.
DISTANCE Fam RELEASE PO!WT (NILi8) f sitt0R Des 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 a
144 1.5018 08 1.430t 08 1.358t 00 1.2730 0s 1.19M es 8.589t*09 6.459t 09 4.1058 09 I
WWE 106 8.tME 09 7.W 95 09 7.5748 09 7.2034 09 6.0088 09 5.0575 09 3.998t*09 2.5Mt*09 WE 253 2.396t*08
- 2. Mat 08 2.0018 08 1.tMt 08 1.735t*08 1.226t*06 9.169t*09 5.8144 09
]
l INE 317 2.100t 08 2.5M 08 1.9258 08 1.8075 08 1.689E 08 1.t23t*06 9.3395 09 6.uft 09 t
117 1.0775 08 1.850t 08 9.750t*09 9.224t 09 8.M3t 09 6.3575 09 4.70M 09 2.9871 09 ist 154 1.3018 08 1.2225 06 1.1418 08 1.065E.08 9.9101 09 7.000E*09 5.25M 09 3.358t 09 st
%7 1.4058 08 1.2754 08 1.1618 08 1.063t 08 9.7t?D09 6.605t 09 4.868t 09 3.0668 09 j
BSE 137 2.9828 08 2.539t 06 2.2004 08 1.929E*08 1.709t 04 1.06M.08 7.5238 09 5.1 4 e 09 i
s 08 4.3968 08 3.53M 08 2.9214 08 2.460E 08 2.100t.08 1.1628 08 7.548E 09 4.0118 09 ISW 106 4.7475 08 3.7448 04 3.0444 08 2.527t 06 2.1354 08 1.120t.08 6.999t 09 3.5401 09 SW 109 3.9795 08 3.330t*0s 2.83et 08 I.450s es 3.139t*00 1.258t 08 8.4tM 09 4.6aet 09 W5W 75 3.995E 08 2.50M 08 2.1298 08 1.8Mt.08 1.5995 08 9.190t*09 6.0851 09 3.tTM 09 l
W 62 2.133f 08 1.EM 88 1.6135 06 1.4218 08 1.MM 08 9.6018 09 6.0HE 09 3.039t 09 WW 69 1.9818 08 1.74E 08 1.5495 08 1.3sM *08 1.03M 08 7.5738 09 5.33M*09 3.003t 09 W
111 1.7738 08 1.43M.08 1.5018 08 1.38tt 08 1.271t*08 1.1$14 08 7.976t*09 4.970t 09 kW 173 2.3tet=08 2.149t*08 1.9018 08 1.8308 08 1.6SM*08 1.1500 08 8.900E 09 7.58H 09 AvttAot 248 2.368t 08
- 2. Wit *08 1.81M 08 1.621t 08 1.44tt*06 9.5ME*09 6.784t 09 4.2058 09 DWWINO NO.
BlSTANCE PROM RELIASE POINT (N.Ltt)
SECTOR Des 20.00 25.00 30.00 35.00 40.00 45.00 50.00 W
144 2.082t 09 2.1454 09
- 1. Mot *09 1.3238 09 1.078t 09 1.105t*09 8.989t 10 t
NNE 106 1.8618 09 1.41M 09 1.1%t
- 09 9.0%f
- 10 7.44M 10 6.2 H1 10 5.331E 10 i
NE 253 4.095t 09 3.964t*09 2.30at 09 1.91st*09 1.575t 09 1.319t 09 1.119t 09 l
INE 317 4.4618 09 3.550E 09 3.1318 09 2.530E 09 2.0914 09 1.760t 09 1.501t=09 t
117 2.09M
- 09 1.5614 09 1.523t.09 1.200E*09 9.6995 10 8.00M 10 6.710E 10 i
Ett 154 2.3918 09 2.1038 09 1.Mit 09 1.3225 09 1.0908 09 9.1596 10 7.801t 10 St 147 2.1748 09 2.349t 09 1.74M*09 1.398t.09 1.16M 09 9.610E 10 8.160f*10 est 137 3.430t*09 2.478f 09 1.8818 09 1.475t 09 1.1458 09 9.7228 10 8.092t*10 8
88 2.490E 09 1.708t
- 09 1.2458 09 9.439t 10 7.380E 10 5.925t.10 4.646t 10 ssW 106 2.17M 09 1.49tt 09 1.1028 09 8.519t 10 6.809t 10 5.5968 10 4.685t 10 SW 109 3.041t 09 2.146t*09 1.601t*09 1.239t*09 9.910E 10 8.0228 10 6.608E 10 W5W 75 2.051t*09 1.405t.09 9.7148 10 7.38M 10 5.8211 10 4.548E.10 3.7938 10 W
62 1.81M 09 1.20H 09 8.59M 10 6.420t*10 4.450s 10 3.224E 10 2.M4t 10 WNW 69 1.940t 09 1.4038 09 1.0448 09 6.471t *10 4.831E 10 3.5958 10 3.20M 10 I
W 111 3.15M*09 1.2048 09 1.603t 09 7.9558 10 4.223E 10 5.020E.10 4.134t 10 l
kNW 173 4.7188 09 3.217t*09 2.334E 09 1.7608 09 1.367t 09 1.0918 09 8.860f 10 6vitAGE 248 2.799f 09 2.884t 09 1.615t 09 1.2306 09 9.8695 10 8.2341 10 6.879t*10 8
A-11 I
i o,
APPENDIX.A-12 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR April - June 1989 i
I D0510N EDISON 2ND GUARTER 1999 GENthAL 1/0'$ APall 110 AINE 30 SECf0R AvinAGt ecDEL 81ACK HLEA$tt AvltAGE MPCstilom hAtt$ EptPLtito Cul/0
- HP. VELOCiff MODEL
- Nti. AND A10Mit futRGY 1968)
(1/M2)
DOWNWINO NO.
DlltANCE FRON htLEAM POINT (Nilll) stClot est,
.12
.35
.50
.75 1.00 1.50 2.00 2.50
)
N 144 4.370t.12 1.4495 10 1.8Mt.10 9.159t*11 8.9ME=11 1.tt2f=10 1.473t.10 1.5448 10
)
I but 106 1.MH +12 5.35M 11 5.920t*11 4.MM 11 4.964t 11 6.6898 11 0.01M *11 8.43M
- 11 NE 253 1.3468 11 3.8315 10 2.7mt.10 1.9548 10 1.449E.10 0.196t 10 2.421t.10 2.423t 10 tut 317 1.47M 11 4.3745 10 2.5834 10 1.7744 10 1.7158 10 2.062t*10 2.278t*10 2.289t*10 "1
i 117 3.5588 12 9.8738 11 6.H98 11 5.600t=11 6.078t 11 8.64M 11 1.M48 10 1.103t**0 ist 154 7.376t*12 2.3006 10 1.natt.10 8.ipet.11 8.1545 11 1.147t.10 1.3371 10 1.M28 10
)
St 147 3.64M*11 1.15M 09 5.4738 10 2.970E 10 3.306t*10 2.382t 10 1.323t*10 1.544t=10
+
I S5t 137
- 4. Hit 11 1.5218 09 6.777t=10 5.402t.10 6.40M 10 5.459t 10 4.398t.10 3.579E 10 8
88 1.205E 11 5.MM 10 4.4354 10 9.5195 10 8.4154 10
- 8. M ot 10 7.35M*10 5.M4t.10 t
SsW 106 2.0106 11 1.18M 09 6.876t 10 9.068t 10 1.570s 09 1.3955*09 8.870E 10 6.N M *10 SW 109 2.6218 11 l.M0t*09 7.2434*10 8.31st*10 8.467t 10 7.8118 10 6.1115 10 4.4M8 10 WsW 75 2.MM *11 1.652f.09 7.436t=10 5.01M *10 6.0188 10 5.005 10 4.bMr 10 3.M2t 10 I
W 62 7.979t 12 4.8308 10 3.2955 10 2.8748 10 3.4058 10 3.561t 10 3.177t.10 3.489t 10 WNW 69 6.00M 12. 3.0128 10 1.9588 10 1.60et*10 2.353E*10 2.0475 10 2.729E 10 2.257t'10 W
111 9.959t=12 4.329t=10 3.348t=10 1.525t*10 1.503E*10 1.820t 10 1.95M 10 1.90M.10 kW 173 1.MM 11 4.11M*10 2.3518 10 1.0 48 10 1.7144*10 2.33M 10 2.4act.10 2.4ME 10 I
avtaAGE RMS 1.5054 11 6.7028 10 3.5875 10 3.4008 10 3.914t*10 3.9828 10 3.3348 10 2.?Mt*10 00WWIND No.
DISTANCE Pa0M R$ltASE POINT EN!Lil)
SEC10k 085 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N
144 1.501E.10 ' 1.430t*10 1.350t.10 1.273t.10 1.19M 10 8.589t*11 6.459t.11 4.105t+11 I
WNr 106 8.3Mt*11 7.969t 11 7.574t.11 7.2038 11 6.8008 11 5.05M.11 3.898t 11 2.5 ME 11 e
Nt 253 2.2HE*10 2.1488 40 2.0014=10 1.8ME*10 1.73Ha10 1.22M 10 9.169t 11 5.814t*11 But 317 2.180t*10 2.0534 10 1.925t*10 1.00M 10 1.689t*10 1.223t 10 9.339t 11 6.147t*11 t
117 1.0775 10 1.0306 10 9.75tE*11 9.224t=11 8.M34 11 6.25M.11 4.706t.11 2.9578 11 Itt 154 1.3011 10 1.222t*10 1.1418 10 1.0658 10 9.9108 11 7.000t.11 5.253t *11 3.35M 11 I
at 147 1.405t*10 1.t?H 10 1.1618 10 1.063t.10 9.72M *11 6.405t*11 4.Het.11 3.0Mt.11 I
888 137 2.9828 10 2.5398 10 2.2006 10 1.929t*10 1.704 10 1.0Mt.10 7.52M 11 5.11M 11 l
8 to 4.39M 10 3.536t*10 2.9218 10 2.460s 10 2.100E*10 1.162E.10 7.5488 11 4.0118 11 SSW 106 4.747t.10 3.7448 10 3.0444 10 2.527t*10 2.1354 10 1.1206 10 6.999t*11 3.540t*11 SW 109 3.979t 10 3.3308 10 2.83at.10 3.450E*10 2.139ta10 1.253E.10 8.420t.11 4.64M *11 I
WsW 75 2.995t*10 2.50M 10 2.129E.10 1.8Mt=10 1.599t *10 9.1988 11 6.08H 11 3.27M 11 W
62 2.133t*10 1.844t*10 1.6138 10 1.4214 10 1.2608 10 9.601t*11 6.0Mt.11 3.039t*11 WNW 69 1.9818 16 1.7468 10 1.549t*10 1.3838 10 1.0338 10. 7.5738 11 5.33M 11 3.003t.11 W
111 1.7738 10 1.6338 10 1.5018 10 1.38M*10 1.371t *10 1.1518 10. 7.97M 11 4.9708 11 NW 1 73 2.320t*10 2.149t*10 1.9818 10 1.830E 10 1.6854 10 1.150t 10 8.900t 11 7.506t=11 AvtaACE tiet 2.344t.10 2.0618 10 1.8188 10 1.6218 10 1.442t*10 9.5Mt 11 6.7848 11 4.2058 11 80WWIND NO.
Ol8?ANCE FROM RELLAtt POINT (N! Lit) sition Det 20.00 25.00 30.00 35.00 40.00 45.00 50.00 I
i N
144 2.882E 11 2.1458 11
- 1. Mot *11 1.323t*11 1.0788 11 1.105t.11 8.9095 12 NNE 106 1.M1t*11 1.41M 11 1.1148 11 9.014t.12 7.4486 12 6.2Mt 12 5.331t*12 NE 253 4.0958 11 3.064t 11 2.3005 11 1.918t.11 1.575t *11 1.319t 11 1.1195 11 But 317 4.4618 11 3.5505 11 3.1315 11 2.530t*11 2.0915 11 1.740s.11 1.5015 11 t
117 2.0HE*11 1.5618 11 1.5tM.11 1.200t*11 9.699t.12 8.008t=12 6.7108 12 i. I tst 154 2.3918 11 2.1038 11 1.M 18 11 1.322t*11 1.0908 11 9.159t*12 7.801t.12 8t 147 2.1744*11 2.2498 11 1.745t*11 1.390f=11 1.1485 11 9.610t.12 8.160t.12 I
854 137 3.430t=11 2.470s.11 1.0818 11 1.47H 11 1.1854 11 9.7228 12 0.0928 12 l-5 88 2.490t=11 1.7 dst.11 1.245t.11 9.439t 12 7.380t 12 5.925t 12 4.846t.12 Ssu 106 2.173t*11 1.492t 11 1.1028 11 8.5195 17 6.809t=12 5.59M 12 4.6858 12 SW 109 3.0418 11 2.14M.11 1.6015 11 1.239t=11 9.9108 12 8.0225 12 6.60M.12
, I WsV 75 2.0515 11 1.4055 11 9.7148 12 7.3438 12 5.821E*12 4.548t*12 3.753t.12 W
62 1.815E.11 1.2058 1t 8.59M.12 6.420t*12 4.450t 12 3.224t 12 2.M4t.12 l
WW 69
- 1. Mot *11 1.40M*11 1.044t 11 6.471t*12 4.8315 12 3.0958 12 3.20M *12 l
W 111 3.15M*11 2.204t.11 1.6034 11 7.9555 12 6.2238 12 5.020t*12 4.134t 12 NW 1 73 4.71M 11 3.21M.11 2.3344 11 1.7608 11 1.367E 11 1.0918 11 8.8605 12 I.
AVERAGt 2168 2.799E.11 2.0848 11 1.6158 11 1.230s.11 9.469t.12 8.234t*12 6.879t=12 l
l' l
A-12 I
~ ~ " '
y APPENDIX A-13 UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR July - September 1989 90510N ROISON 340 guntigt 1999 etut&AL E/0'8 AfLT 110 strttusta 30 Sgtfon avstect acotL t$tC/M3) 04tWND tittAtts ORouu0 Livil evitAtt Cul/0 D4 FORE DIPLttl0N I
OWWWINO NO.
0181ANCE 700M RELLAtt POIN1 (MILil)
SECTOR 005
.it
.25
.50
.75 1.00 1.50 2.00 2.50
~
a el 4.52M 05 1.3354 05 4.3438 06 2.4544 06 1.6358 06 9.098 07 5.9tM 07 4.M4t*07 put 141 5.01M 05 1.4734 05 4.D0t.06 2.65M M 1.7634 06 9.8ME 07 6.4 ME 07 4.695t 07 I
bt 402 9.5ME 05 t.0518 05 9.6995 M 5.NM*06 3.4ME 06 1.878E M 1.22M 06 8.te9t 07 But Mt 1.23M 04 3.6208 05 1.15M *05 6.2468 06 4.064t 06 2.284t=06 1.5211 06 1.112t M i
1M 1.0738 04 3.it9t*05 9.7Mt M 5.MOE 06 3.395t 06 1.929t 06 1.2968 06 9.5418 07 ttt 99 3.61M M 1.0658 05 3.450s 06 1.9108 06 1.tS9E 06 6.9888 07 4.595t 07 3.3351 07 SE 102
- 3. M44 05 1.060t 05 4.032t M 2.N 9E 06 1.4825 06 8.0948 07 5.3618 07 3.4461 07 8st 61 2.1818 05 6.439t 06 3.tkt 06 1.11M*06 7.3098 07 3.977t 07 2.5815 07 1.8571 07 8
47 1.7598 M 5.3555 06 1.4608 M 8.0344 07 5.381t*07
- 2. Wit 07 1.8755 07 1.3521 07 i
88W S3 1.4118 05 4.744t M 1.3528 06 4.7 tot 07 4.61M
- 07 2.390t.07 1.5548 07 1.120t 07 SW 68 1.9100 05 5.654t=06 S.790E 06 9.8234 07 6.346t 07 3.4315 07 2.21M 07 1.5 MI 07 WsW 107 2.14M 05 6.548t 06 2.001t*06 1.1134 M 7.1.?M 07 3.?ME*07 2.417t*07 1.724t*07 I
W 117 3.8218 05 1.121E 05 3.4448 06 2.019t 06 1.2528 06 7.09M 07 4.689t 07 3.1034 07 WW 120 3.211t *M 9.6575 06 3.M 98 06 1.8775 06 1.2118 06 4.472t 07 4.1728 07 3.2811 07 W
62 3.353t 05 6.05M M t.479E*06 1.3818 06 9.0345 07 4.000t*07 3.154t 07 2.htt
- 07 WW 61 3.540t=05 1.0tet 05 3.MM 06 2.0398 M 1.3416 06 7.2875 07 4.724t
- 07 3.3978 07 avt&Act 3023 4.490t*05 1.3Dt 05 4.335t 06 2.3708 06 1.553E 06 8.5471 07 5.630t 07 4.Mit 07 I*"
OOWNWIND NO.
Ols16Mct it0M Rittatt POINT INILtt)
SEC10e ess 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 W
65 3.31M 07
- 2. Mat 07 2.215t 07 1.87ar.07 1.623t=07 9.4448 08 6.471t 08 3.799t
- 08 I
NME 101 3.6396 07 2.9375 07 2.4428 07 2.044 07 1.7968 07 1.049t*07 7.210t 08 4.4591 08 kt 402 6.8318 07 5.482t 07 4.536t 07 3.834t 07 3.304t*07 1.0 88 0? 1.290E 07 7.5tM 08 l
But 362 8.636t*07 6.981t 07 5.81M 07 4.949t 07 4.2915 07 2.512t*07 1.731E.07 1.031t 07 E
196 7.4354 07 6.02M 07 5.0328 07 4.7954 07 3.7328 07 2.1908 07 1.522t*07 9.139t*06 R$t 99 2.582t 07 2.0025 07 1.D OE 07 1.469E*07 1.270E 07 7.390t*06 5.07M 08 2.9978 08 I
St 102
- 2. Mot *07 2.138t 07 1.770s 07 1.49M 07 1.4173 07 8.1418 08 5.544t 06 3.240t*08 S$t 6) 1.430E 07 1.140E 07 9.49tt 08 8.01M 08 4.901t*08 3.959t 06 2.6905 08 1.5451 04 8
47 1.0415 07 8.360t*08 6.9348 08 5.873t 08 5.0675 08 2.934t*08 2.0c3t*06 1.171t=08 SSW 53 8.6314 08 6.9375 08 5.730t*08 4.871t*06 4.304t 08 2.436t 08 1.6 Mt 08 9.780E 09 SW 68 1.2208 07 9.7618 08 8.05M 08 6.7388 08 5.828E 08 3.31M*08 2.241t*08 1.297t*W Wsv 107 1.31M 07 1.048t 07 8.6218 08 7.24M 08 6.830t*08 3.509t 06 2.3550 06 1.3478 08 I
W 117 2.4005 07 1.933E 07 1.604t 07 1.359t 07 1.174E 07 6.760E 08 4.623t 08 2.728t*06 WW 120 2.500t*07 2.000t 07
- 1. M 58 07 1.38tt 07 1.0775 07 6.07M 08 4.081t 08 2.338t 08 i
W 62 1.740t*07 1.393E 07 1.149t*07 9.6718 08 8.299t 08 4.704t*06 3.174t.08 1.833t*06 kW 41 2.6181 07 2.1018 07 1.737t 07 1.4644 07 1.259E 07 7.17M 08' 4.8648 08 2.8254 06 avttADE 8023 3.139E 07 2.528t.07 2.097E*07 1.7?st 07 1.541t.07 8.9028 04 6.090t 08 3.5854 06 00WNWINO NO.
OlSTANCE 700M RELEAtt POINT EMILtt) sicTom Oss 20.00 25.00 30.00 35.00 40.00 45.00 50.00 I
N 65 2.612t*08 1.9635 08 1.56 M 08 1.3918 08 1.0918 08 9.39M 09 8.2121 09 but 101 2.9395 08 2.215t*06 1.7718 08 1.4636 08 1.239t.08 1.069t*06 9.359t 09 M
402 5.16M 06 3.877t 08 3.092t*08 2.551t*08 2.159t 08 1.8ME 08 1.6344 08 tut 362 7.1555 08 5.41st 08 4.3518 08 3.610t*08 3.069t 08 2.659t 00 2.33M 08 E
196 6.3695 08 4.839t 06 3.9975 08 3.2418 06 2.761t 08 2.3978 08 2.110t*08 I
e ISE 99 2.M 9t 08 1.560t*08 1.248t*00 1.032t*08 8.740t*09 7.551t 09 6.619t*09 i
SE 102 2.2244 08
- 1. M 9t 08 1.330t*08 1.0975 08 9.269t 09 8.005t 09 7.010t 09 I
858 61 1.0728 08 8.0355 09 6.394t*09 5.2ME 09 4.44BE*09 3.839t 09 3.359t*09 8
47 8.058E 09 6.061t*09 4.8375 09 3.992t*09 3.3758 09 2.9175 09 2.556t 09 ssu 53 6.753t 09 5.095t 09 4.0744 09 3.370E 09 2.857E*09 2.4734 09 2.171t*09 SW 68 8.87M 09 6.650E 09 5.209t 09 4.358t 09 3.685t*09 3.186t 09 2.7941 09
'I 4
W5W 107 9.17M 09 6.960t*09 5.44M.09 4.480E 09 3.7868 09 3.274t 09 2.873t*09 V
117 1.0858 08 1.4244 08 1.140E 08 9.454t 09 8.0368 09 6.97M 09 6.141t*09 WWW 120 1.589t*06 1.185t 08 9.3964 09 7.7195 09 6.510t 09 5.620t 09 4.920t 09 W
62 1.249E 08 9.325E 09 7.397t 09 6.07st 09 5.1254 09 4.422t 09 3.868t 09 eNW 61 1.930E*08 1.444t 08 1.1471 08 9.439t*09 7.9654 09 6.8731 09 6.0138 09 I
abitAct 2023 2A71t 08 1.8622 08 1.489t*06 1.231t 08 1.044t 06 9.0271 09 7.920t 09 I
A-13 I
APPENDIX A 14
' I DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR July - September 1989 r
i SICtot Avinact moott,
I D0$f0N B0180N 3RD Guntitt 1999 OENikAL 1/0 8 JULY 110 MPitnSta 30
($tt/M3)
OkWN0*Ltytt avtRAr.t cul/0 AFitt otPLt130N (ht0ULAYORY SU10t 1.111 O!PLif)DN MODEL)
StouND H LLAtti
)
0181&NCE PROM ttLtAst 9018T (N!Lt8)
SEC10R 085
.12
.25
.50
.75 1.00 1.50 2.00 2.50 DWWl@
NO.
f N
65 4.3618 05 1.h tt 05 3.9 Ht 06
- 2. ISM 06 1.434t.06 7.727t 07 4.90M 07 3.466t 07 i
I WNI 101 4.8M8 05 1.399t*05 4.323t*06 2.3ME M 1.546t 06 8.3858 07 5.3571 07 3.8018 07 et 402 9.2575 05 2 700f 05 8.065f 06 4.717t*06 3.012t 06 1.6018 06 1.0175 06 7.16M 07 INE 362 1.te9t 04 3.439t 05 1.054t 05 5.566t.06 3.5m
- 06 1.9471 06 1.260t 06 9.0046 07 I
t 196 1.035t 04 2.9728 05 8.92M *06 4.670t.06 2.9778 06 1.MM 06 1.0744 06 7.724t 07 Ist 99 3.4851 05 1.011t 05 3.15M 06 1.70M 06 1.103t 06 5.9575 07 3.tht 07 2.7005 07 st 102 3.535t
- H 1.014t 05 3.685t*06 2.005t *06 1.2998 06 6.900t 07 4.3568 07 2.790t 07 858 61 2.1ftM M 6.11M*06 2.0146 06 9.915t*07 6.4088 07 3.390E 07 2.1388 07 1.503t 07 I
s 47 1.72M*05 5.0&M 06 1.3358 06 7.16M*07 4.629t*07 2.45H 07 1.5535 07 1.094t 07 ssW 53 1.3618 05 4.032t 06 1.144t.06 6.04M 07 3.8718 07 2.0371 07 1.2671 07 9.068t 08 SW 68 1.k 25 05 5.370s 06 1.kM 06 8.75M *07 5.599t 07 2.9255 07 1.835t*07 1.2 pt 07 Wsw 107 2.0706 05 6.219t*06 1.902t 06 9.9148 07 6.249t*07 3.20M 07 2.0028 07 1.3%t *07 W
117 3.6858 05 1.0Mt*05 3.1488 06 1.7995 06 1.132t 06 6.050t 07 3.8kt 07 2.5121 07 I
WW 120 3.093 M 9.13t*06 3.152t 06 1.67M 06
- 1. Wit 06 5.517t*07 3.4M 07 2.65M 07 W
62 2.2698 M 6.50st 06 2.hM*N 1.2314 06 7.924t 07 4.1618 07 2.61M 07 1.8318 07 WW 61 3.4148 05 9.7628 06 3.3325 06 1.0175 06 1.17H 06 6.21Ha07 3.913t 07 2.75M 07 AVERAct 2023 4.330E 05 1.2564 05 3.9626 06 2.119t 06 1.1615 06 7.304t 07 4.6Mt 07 3.28st*07 I
DistAuct Pa0N ktttAtt 90 tut (MILtt) st010R Det 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 l
DWWIND No.
N 65 2.634t.07 2.08M 07 1.707t
- 07 1.00t*07 1.225t*07 6.6 5t 08 4.35M
- 06 2.373t 06 W1 101 2.093E 07 2.29st 07 1.0834 07 1.5806 07 1.350t 07 7.4118 06 4.0518 06 2.660t*06 WI 402 5.431t 07 4.289t 07 3.49M 07 2.919t.07 2.484t 07 1.3415 07 6.680t 08 4.7015 06 tut 362 6.M7t 07 5.461t 07 4.48it 07 3.760t.07 3.22M 07 1.775t 07 1.1654 07 6.44H 08 t
196 5.912t 07 4.71M 07 3.879t 07 3.270t 07 2.00M 07 1.5534 07 1.024t 07 5 M t 08 Est 99 2.05M 07 1.629t 07 1.333t*07 1.110t*07 9.5518 08 5.227t 06 3.41M 06 1.872f 06 St 102 2.115t 07 1.6 3t 07 1.36$1 07 1.139t 07 1.0668 07 5.752t 06 3.730t 08 2.024t*06 f *I
$58 61 1.1378 07 8.9784 08 7.31M*08 6.102t 08 5.18M *06 2.7904 06 1.010E*06 9.77H 09 t
47 8.2818 06 6.54M 06 5.345t.08 4.471t 08 3.810t*08 2.035 08 1.346t 08 7.31H 09 tsW 53 6.463t 08 5.4271 08 4.432t 08 3.7008 06 3.1618 08 1.7215 06 1.1215 08 6.109t 09 SW 68 9.69M 08 7.6371 08 6.210t*04 5.167t 08 4.382t 06 2.3438 08 1.504t*06 8.101t*09 W5W 107 1.046t 07 8.200E 08 6.645t 08 5.51M*08 5.1358 08 2.479t 06 1.544t 06 8.41N 09 W
117 1.999t 07 1.51N 07 1.23M 07 1.035t*07 8.824E 08 4.782f 08 3.110t 08 1.7048 06 I
WW 120 1.994E 07 1.565t 07 1.26at 07 1.052t*07 8.09M 08 4.294t 06 2.74M 06 1.461t 08 l
W 62 -
1.3Et=07 1.090E 07 8.060t*08 7.362t*08 6.240t 08 3.32St 06 2.135E 08 1.1458 08 NW 61 2.082t*07 1.M at 07 1.3396 07 1.114t 07 9.4621 08 5.072t 04 '3.27M 08 1.78t 06 6vitAot 2023 2.49M 07 1.978t 07 1.617t 07 1.3545 07 1.159t 07 6.2095 06 4.097E 06 2.239t=08 0! STANCE fkON RELLAlt 9OINT (MILit)
SECfot 088 20.00 25.00 30.00 35.00 40.00 45.00 50.00 00WWIND NO.
N 65 1.520t*06 1.07tE*08 8.182t*09 6.459t*09 5.249t 09 4.37N 09 3.70N 09 WWE 101 1.7115 06 1.216t*08 9.2548 09 7.32N 09 5.962t 09 4.974t 10 4.2198 09 WE 402 3.005t 08 2.129t*08 1.61M 08 1.27M 08 1.039t 08 8.682t.09 7.3745 09 ENE 362 4.1658-08 2.975t*08 2.274f 08 1.807t*08 1.47M 08 1.2371 08 1.0544 08 E
196 3.70M
- 08 2.65M 08 2.0364 06 1.622f 08 1.3295 06 1.115t.06 9.51M.09 Ist 99 1.2048 08 8.56M*09 6.521t 09 5.1628 09 4.2075 09 3.514t 09 2.963t*09 st 102 1.294t 06 9.168t*09 6.9518 09 5.487t 09 4.4625 09 3.725t 09 3.160E 09 I
Sit 61 6.239t 09 4.412t=09 3.3425 09 2.6358 09 2.1415 09 1.7864 09 1.5145 09 8
47 4.690t*09 3.328t 09 2.52M 09 1.9908 09 1.62M 09 1.3575 09 1.152t 09 85W 53 3.931t*09 2.79M*89 2.129E 09 1.68M 09 1.3758 09 1.1515 09 9.7641 10 SW 68 L.165t 09 3.652f 09 2.7M E 09 2.181t*09 1.7741 09 1.48M 09 1.260t*09 V5W 107 5.342E 09 3.74M a 09 2.kSt 09 2.242t*09 1.8228 09 1.5244 09 1.295t*09 I
W 117 1.093 06 7.8175 09 5.9608 09 4.731t.09 3.4488 09 3.24M.09 2.764t*09 WW 120 9.251E 09 6.5091 09 4.910t 09 3.862t*09 3.1348 09 2.6158 09 2.2168 09 W
62 7.269t 09 5.121t*09 3.8dM 09 3.0418 09 2.44M 09 2.058t*09 1.70 E 09 mW 61 1.123t 06 7.929t 09 5.99" M 4.72M 09 3.8348 09 3.19st 09 2.710t*09 I
AvinAGE 2023 1.088 06 1.0238 06 7.782t 09 6.1611 09 5.0241 09 4.200t*09 3.570t 09 I
A-14 I
l APPENDIX A-15 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR REACTOR BUILDING VENT FOR July - September 1989 r l
]
I tol10N E0ll0N 3M Sat 1It 1999 ttutLAL t/088 WLY 110 St9ttNMt 30 MC10R evitAtt ec0th (1/m2)
M0Laf0 htttasta evinAGE Ot90st110m Batts tatWLA10tf Sulpt 1.111 naDit) e Olg1Auct faen stLIAtt 901st tat 1 Lit)
SECTOR 985 12
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.50 75 1.00 1.50 2.00 2.50 DWWWIND Wo.
l u
65 S.4354 08 1.420t 08 6.17M 09 3.297t*09 2.01M 09 9.74M.10 5.9458 10 4.051t'io Nut 101 S.64M *08 2.6 0t*08 9.591t*09 5.0618 09 3.1318 09 1.5144 09 9.23at *10 - 6.295t*10 l
~
WI 402 3.Mit*07 1.1 ME 07 3.01M 08 2.0145 M 1.2465 04 6.0271 09 3.6F7t *09 2.5 Mt 09 I.
IWI 162 3.te27t*07 1.0186 07 3.437t M t.8144 08 1.12N*06 $.42M.09 3.311t*09 2.256t*09 8
196 1.639t 07 S.5118 M 1.061t*08 9.821t*09 6.07M*09 2.930t 09 1.79M*09 1.22H 09 ISI 99 8.2795 08 2.7Et*06 9.401t*09 4.961t*09 3.069t*09 1.6868 09 9.0558 10 6.170t*10 St 102 8.52M
- Cl
- 2. heat *04 1.htt*08 5.62M*09 3.4788 09 1.642t*09 1.02M 09 6.3575 10 Slt -
61 S.610t=08 1.88M 08 6.372t*0V 3.053 09 1.091t*09 9.105 10 5.5795 10 3.802t*10 I-8 47 6.71M*04 1.$464 08 4.4438 09 2.3Mt*09 1.6lM 09 7.0464 10 4.299t.10 2.929t*10 Ssv 53 4.SMt 06 1.639E
- 06 5.03M 09 2.65e8 09 1.6438 09 7 ket 10 4.ktt 10 3.3038 10 SW 68 6.2545 06 2.1035 08 6.45M 09 3.40M 09 2.100E 09 1.0198 09 6.220t*10 6.2Mid0 t '
Wsw 107 9.8418 08 3.309t*08 1.0166 08 5.Mit*09 3.3175 09 1.604t*09 9.78 3 10 6.6695 10 I
W 117 1.07M 07 3.619t*08 1.1114 08 6.649t*09 3.9908 99 1.9298 09 1.1775 09 7.292t*10 WW 120 1.00M*07 3.374E 08 1.139t OS 6.01M*09 3.7208 09 1.7998 09 1.090t 09 8.227t 10 3
W 62 S.tht*08 1.74M*08 S.087t*09 3.103 09 1.9228 09 9.29M*10 S.6714 10 3.864t*10 WWW 61 S.10Ha08 1.71H 08 5.7928 89 3.0575 09 1.0918 09 9.16M 10 5.579t*10 3.80M*10 evinAtt 2023 1.0pt*07 3.MM *06 1.210E 08 4.4068*09 3.962t 09 1.914t*09 1.1 HE 09 7.9278 10 I
SitteNCE F9 m RittA88 POINT (NILif) f M CTOR Ost 3.00 3.50 4.00 6.50 8.00 7.50 10.00 15.00 DWWWIND WO.
W 65 2.964t*10 2.H7t*10 1.79M*10 1.6414 10 1.109t*10 $.960f=11 3.665t 11 1.80N 11 Wat 101 4.60M*10 3.62M 10 2.7tM *10 2.2398 10 1.4475 10 9.N15 11 5.69>t*11 2 810t'11
'I kt 402 1.8338 09 1.602t 09 1.109t*09 8.911t=10 7.35M*10 3.6464 10 2.NM *10 1.11N.10 But 162 1.6514 09 1.M38 09 9.905t*10 8.0244 10 6.6218 10 3.319t 10 2.041t*10 1.007t.10
- i t
196 8.939t*10 6.83M *10 5.6064 10 6.34M *10 3.585t*10 1.797t=10 1.105t *10 5.4538 11 Ist 99 4.515t*10 3.454t*10 2.731E=10 2.1Mt*10 1.0118 10 9.079t*11 5 582t 11 2.7568 11 et 102 '4.6528 10 3.llet.10 2.014t*10 2.261t*10 2.05N.10 1.0295 10 6.32M*11 3.121t 11 SSE 61 2.752t*10 2.128t*10 1.683t*10 1.35N 10 1.116t*10 5.59M*11 3.440t 1; 1.6971 11 47 2.i&4t
- 10 1.Mor 10 1.29M*10 1.0428 10 8.$Mt*11 4.3108 11 2.650t=11 1.306t 11 SSW
$3 2.4175 10 1.MM 10 1.462t*10 1.1758*10 9.8938 11
- 4. hot *11 2.9tN'11 1.474t*11 sw 68 3.1018 10 2.373t =10 1.87M*10 1.50>t 10 1.244t*10 6.235t*11 3 834t*11 1.992t 11 i
W9W 107 4.0808 10 3.73M 10 2.9514 10 2.372t*10 2.1534 10 9.812t 11 6.033t=11 2.977t
- 11 W
117 5.33M*10 4.981t=10 3.227t=10 2.593t*10 2.140f*10 1.073t 10 6.597t*11 3.255t.11 WWW 120 6.02M 10 4.60M *10 3.641t*10 2.9Nf*10 2.1958 10 1.100E*10 6.76M*11 3.3Ht.11 NW 62 2.828t*10 2.10t 10 1.710t*10 1.374 10 1.1348 10 S.6854 11 3.4968 11 1.725t*11
(
I WNW 61 2.7828 10 2.12SE*10 1.6834*10 1.352t+10 1.114E*10 S.59M 11* 3.440s 11 1.6971+11 l
i I
e evttA0E 2023
$.0018 10 4.4375 10 3.500E 10 2.819t*10 2.3SM *10 1.165t.10 7.16W 1' 3.535t*11 0151Autt PROM stLEASE 90 TWT (MILIE)
SECTot est 20.00 25.00 30.00 35.00 40.00 45.00
$0.00 DWWWIND Wo.
u 65 1.1118 11 7.48M*12 S.FFM 12 3.942t*12 3.0758 12 2.515t*12 2.084t*12 I
WNE 101 1.72M 11 1.163t*11 8.19M *12 6.125t*12 4.779t=12 3.908t*12 3.2451 12
.E 602 6.874t*11 4.628t*11 3.261t*11 2.4388 11 1.902t*11 1.5564 11 1.29 H 11
(
tut 362 6.1908 11 4.168t*11 2.936t*11 2.195t*11 1.713f 11 1.601t.11 1.163t*11 E
196 3.352t 11 2.25M 11 1.990t*11 1.189t*11 9.2768 12 7.584t 12 6.29M *12 to IM 99 1.69M 11 1.140C*11 8.031t*12 4.004t=12 4.6848 12 3.831t=12 3.1818 12 i
I St 102 1.919t*11 1.292t*11 9.109f*12 6.3048 12 5.3098 12 4.342t 12 3.605t*12 SSE 61 1.043t*11 7.023t.12
- 4. Mat *12 3.6995 12 2.sht =12 2.360t 12 1.960t=12 8
47 S.0375 12 5.411t*12 3.8134 12 2.850t 12 2.2248 12 1.819t*12 1.5105 12 SSW 53 9.M34 12 6.1028 12 4.299t*12 3.214t*12 2.508t*12 2.0518 12 1.703t.12 sv 68 1.108 11 7.529t*12 5.51M 12 4.124t*12 3.21M *12 2.6318 12 2.185t*12 W5W 107 1.83M *11 1.2325 11 8.64M*12 6.449E*12 5.063t*12 4.140E*12 3,43M 12
'I 5
W 117 2.001t*11 1.34M 11 9.4918 12 7.095t*12 5.5364 12 4.52M*12 3.759t*12 l
WWW 120 2.0522*11 1.3821 11 9.734t=12 7.277t*12 5.67tE*12 4.643t*12 J.MM *12 l
NW 62 1.060ta11 7.138t*12 5.029t 12 3.760t 12 2.9338 12 2.399t*12 1 *92t*12 WWW 41 1.M3t*11 7.02M 12 4 kat 12 3.6995 12 2.886t 12 2.3608 12 1.v60t*12
/I AVIRAGE 2023 2.173t*11 1.46M *11 1.0311 11 7.70Ma12 6.012t*12 4.1'175 12 4.043t 12 I
A-15
'I
i APPENDIX A-16 I
UNDEPl.[TED RELATIVE CONCENTRATIONS PER UNIT INIS$10N FOR MAIN STACK FOR July - September 1989 I
l l
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APPENDIX A-17 DEPl.ETED RELATIVE CONCENTRATIONS PER UNIT EN!$$10N FOR M IN STACK FOR July - September 1989 I
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I i
1 APPENDIX A-18 j
RELATIVE DEPOSITION CONCENTRATIONS PER UNIT EMISSION FOR MAIN STACK FOR f
7 July - September 1989 h
t 1
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D0ttps Ottt0N 340 Whitti 1999 GINtuk 6/0 8 Allt 110 MPit81HR 30
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58 379 6.0398 12 8.71st.10 3.Htt*te 3.9168 10 3.41M.10 4.9&M 10 l.6tM
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I A-18
t I
t APPENDIX A-19 i
UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMIS$10N FOR REACTOR BUIL. DING VENT FOR t
October - December 1989 i
I I
l I
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8.76M M F.948 N t.ept M 1.49et M 9.8?M 0F l.41t*07 3.$31 07
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- D9 4.116E 09 3.6158 09 2.9844 09 2.527t*D9 f.169t 09 1.9tM 09 Nd 41 9,019t*D9 6.7795 09 5.4Det 99 4.u7t M 3.?kt 09 3.2775 M t.8771 09 had 60 5.617t 09 4.1744 09 3.798t
- D9 3.70tt 09 2.tTM
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i APPENDIX A-20 DEPLETED RELATIVE CONCENTRATIONS PER UNIT
{
I ENISSION FOR REACTOR BUILDING VENT FOR i
October - December 1989 i
Boston itita tt6tLAL t/9 6 416 utttt 1999 OCitN41 to pitsett 31 sett0t evtstCt emit stMD Dittants NW@.Livit evthAM tal/0 6Ftit MPattiet EMM&tatt OJipt 1.111 tit >titt0w n1 tit)
($tt/m3)
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- M 1.71H.05
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3M
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$ 0673.M 1.7708 05 $.tBM.m 3.tht M 1.9ht*06 1.041t *M 6.lkt*07 4.575t*C7 M
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M t.6418 09 1.7941 09 1.3575 pt 1.0708 09 4.7018 10 7.tD08 10 6.199t 10 i
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t.t32t 09 1.054 09 1.00M pt 8.Sut.10 6.htt *10
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A-20
l i
i i
j APPENDIX A-21 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT 5
EMISSION FOR REACTOR BUILDING VENT FOR I
October - December 1989 1
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7.bOM D6 3.M61 M 4.66H 09 4.6764 99 4.M M*D9 1.H96 09 4.lklei0 1.4178 10 i
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1.kSt*07 6.tobt 04 2.995t
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- 09 3.410t 09 f.Mit M 1.4tN 09 I
t SM 2.7475 07 9.t Ht 06 3.170t.06 1.EM M 1.0198 08 4.9264 09 3.DDSt M t.06M*M I
4 68 3 76 3.079t 07 1.83M 07 3.6Mt
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$6L 1M 1.ilM 07 3.879t 08 1.3104 M 6.8kt 09 3.htet.D9 1.0606 09 1.1478 09 7.616t 10 8
36 3.70M 08 1.M6t
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A-21 I
I i
APPENDIX A-22 i
UNDEPLETED RELATIVE CONCENTRATIONS PER UNIT EMIS$10N FOR MAIN STACK FOR October - December 1989 t
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A-22 l
1 I
l
I APPENDIX A-23 DEPLETED RELATIVE CONCENTRATIONS PER UNIT EMISSION FOR MIN STACK FOR October - December 1989 DDitak ttjeCh athtuk t/9's 418 Mitil 1999 ICtWit 1 TO M004Mt 31 Mttet SVILAGI e@tt Statt StLL6Sta aktue LtWEL ovthM 08/4 title MPLt11M tee 1. 6e 6tmit tetht? 1966 MPkttack entu e t at t/*J)
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60 1.40E 99 9.608t M l.1464.te 1.0&et 07 9.6218 06 9.5464 00 ?.7998 04 6.794t
4.MM a ii 9.16M.M 8.3FM 08 4.6?st=08 4.H64 08 3.9198 86 3.ptM M t.4978.M Wad M
9.81M 14 8.8881 09 1.5M 88 1.69M.08 3.WM tt 3.kM.06 2.Wi Of 1.9971.M I
W 43 1.$1M 10 f.3Mt.pt 6.?tet 89 1.3108 04 8.1988 00 8.924 06 2.01M 08 f.944t M Wd 62 1.0168 10 5.teet M ?.tht pt 1.t?M 80 3.1688 06 f.that=88 2.6248 06 3.M?l 06 W
M 9.3598 11
- 5. Stet M
?. hts.pt 5.8898 00 4.3FM.pt 5.6668 99 6.6358 09 6.?kt*pt bud 1M l.7964 19 3.6178 11 1.3798.M t.MPl.pt 4.tHl e M 8.4718 09 1.06M 06 1.11M.M I
4W6 Met trM l.1498 10 1.M71 08 8.3Hl.tl 3.7005 08 3.Dit tt 3.6348 06 3.36M 08 3.?t08 M Dehe#vtuo 80.
6tStence tem ttttatt potet (SILes) etC10e ets 3.00 3.H 4.00 4.H S.00 7.50 10.M 15.00 W
74 f.%08 M ?.0068 M 6.76M*M 6.4508 99 6.itM pt 4.6Ht.pt 3.35t 09 8.114t*p9 I
MWI 102 1.M64 06 9.ht pt 9.3164 H 6.70M.pt 4.000t.09 S.6964 pt 4.1218 09 2.63M*p9 M
M3 8.761t*00 8.l?M.04 3.30st.06 2.2144 06 3.M04.M 1.4178 06 1.039t
- M 6.H 98 pt Out iH 3.1908 M t.k tt 06 1.06?l.06 1.?'M.06 1.6108 04 1.100E 08 f.9tN*pt 4.6574 09 4
375 3.408 M t.9708 08 3.7648 04 3.5794 08 t.3kt 04 1.u?t.M 1.tus M
?.66M.pt e tt 402 4.4728 08
- 4. tut *04 3.691t*06 3.kSt et 3.0718 06 3.kM
- 06 1.47tt*06 6.6525 09 tt 302 3.3??t M 3.0tM 00 2.6988 06 3.43M 08 t.PMt.06 1.64M.00 1.Cht M 6.tltt pt tal 103 3.0241 M t.bOM
- 00 3.1118 06 1.8068 M 1.S6M
- 00 6.9128 09 5.tht.09 3.417t 09 6
60 4.3614 08 3 Het 08 3.?pt*06 3.9668 06 1.htet.04 9.S458 09 S.Mtt.pt 3.305t.09 Std at 3.ptet M t.60et 06 1.90s.06 1.6698 06 1.30M.06 6.7688 09 3.625t.09 1.676t pt SW M
3.0618 08 1.?tfl M 1.6tM te 1.88M.08 1.1364 08 6.4tM*M 4.307t *M t.146t 09 I
W6d M
1.5998 M 1.3118 06 1.066E.00 9.7901 99 f.9998.pt 4.3675 09 f.6118 09 1.4 M.pt W
43 1.908 08 1.65M.06 1.6308 06 1.9408 06 1.0064 08 f.put.pt 4.PtM 09 f.094t 99 Wd M
t.M9t
- 06 1.011t 06 1.6028 08 1.654 88 1.968t*06 f.OM pt 5.7606 09 t.k96 09 W
38 6.4118 09 l.Wl M l.60it M $,0708 99 4,6538 99 3.87b8 09 2.665tapp 1.474t 09 WW 10$
1.0kt 06 1.03M M t.?4M*M 9.1764 09 8.5938 M 6.1388 09 5.0064 09 8.4M pt 8vtuM ttM 2.36tt 04 3.M08 M 1.4 pet 08 1.6118 06 1.63tt M 9.1998 09 6.4258 09 3.Mit pt DtWWW1M 80.
Distamct them atitAtt polvt tuttil)
SECtot ett 90.00 35.00 H.00 35.00 60.D0 45.00
$0.00 I
t 74 1.4tM 99 1.plM apt 8.0275 10 6.791t 10 5.M?t 10 S.476t*10 4.4 ?M *iB mwt 1 02 1.3334 09 1.360t.09 1.Mit pt 8.3648 10 6.kM
- 10 8.7075 10 4.htot 10 at 363 4.6 tit *pt 3.t?68 M t.lpt.pt 3.0338 00 1.6664 09 1.Mt M 1.itM
- M tut 193 ~ 3.312t 09 t.HPlapt t.9975 99 1.6M8 99 1.3508 99 1.1tM *p9 9.4S?t*10 t
325 5.D98 09 3.ekt.pt 3.6275 99 t.7118 M t.P00tept 1.htM.M 1.lbM 09 I
t ti 602 6.kM pt 4.94M pt 3.? dst M t.9M4 09 t.3904 09 1.9096 09 1.Mit 09 tt 302 4.3006 09 3.009t.09 f.tht M t.t??t.M 1.kat.pt 1.ltot 09 1.tSt.pt
$lt 103 f.P00t.pt 1.9548 09 1.1608 99 9.iitt.10 7.32M 10 6.0tM 10 S.H9t*10 6
60 1.7368 99 1.1508 99 4.D75 10 6.1798 10 4.tCM.10 3.kM aid 3.160t 10 SSW 62 9.9018 10 6.6641 10 4.99M
- 10 3.768t a10 2.990tet0 3.44M*10 3.0Mt*10 SW H
1.30M apt 6.0871 10 6.665t*10 4.9118 10 3.MM 10 3.0668 10 t.49M.10 I
WsW M
4.9Dt=10 6.0 h8 10 4.It6t.10 3.1708 10 2.45M ait 1.6458 10 1.latt.10 W
43 1.24M pt 6.11M 10 S.640t *10 4.Het.10 3.01DE*10 3.14 + 10 1.?kt 10 WW 63 1.?tM 09 1.23M pt 8.6015 10 S.9108 10 4.4?H a10 3.5908 10 2.931s.10 W
34 9.D 9t.10 6.640s.10 4.8064 10 3.83M *ip t.225t.10 1.7975 10 1.479E.10 WW 105 3.23H.pt 2.1158 09 1.6175 09 1.tt?t 09 9.599t.10 7.6 58 10 6.2498 10 6VitAGI tt04 2.55M
- pt 1.9071 09 1.4?M.M 1.1448.M 9.1Mt.10 7.064 10 6.385t.10 A-23 I
APPENDIX A-24 RELATIVE DEPOSITION CONCENTRATIONS PER UNIT ENISSION FOR MIN STACK TOR October - December 1989 8081> Stiles Natuk E/e*3 479 maatte 1999 ettettt t 10 MClett 31 M tiot avtkatt osat(L tt&ts htLtute 644648 Dt908ttit Mitt (MPLitt0 Det/t
- M9. vtLetitt ausitt
- mtt. 6ND Ath!t twit $t 1%8)
( 1 / 06 2 )
I D W We'lu0 he, bitt4stt Ptm MLLAst Polti tulLil) titim SDS,
.it
.Il
.60 75 1.00 1.$0 P.M t.50
[
t P4 l.060s.16 4.4578 12 1.7908 11 1.4Mia11 1.99H.11 4.6b4t*11 6.7948 11 f.0968 11 WI 102 9.M M *13
- 3. Mat it 1.3908 11 1.9164 11 3.9pt.11 8.306t*11
- 1. kH + 10 1.0968 10 et 863 9.9764*13 4.htt*11 6.6Mt=11 S.kM *11 1.BM *10 3.U6t*10 f.phtete t.900t.10 BWI 193 1.7664 15 6.9ptatt 3.669t*11 S.phlett 1.ekt.10 1.8698 10 3.50t 10 f.307t*10 t
&il f.11M*tt 6.tett*11 1.600t*10 1.M7t*10 1.707t*10 3.65M*10 3.19M*10 3.39N
- 10 tat 662 9.M14*tt 3.BGH ei0 4.9ME*it 3.761t*10 3.9ktate
- 4. hts.10 5.0968 10 4.6761 10 St Mt 3.536t*11
- 1. tut.09 f.13M
- 10 S.7ME to 6.7611'10 S.9618 H 6.7878 10 3.7678 10 i
DM 103 1.6644 11 S.7675 10 7.uM e t0 ?.1008 10 7.4468 10 6.tkt*10
- 6. net.10 3.f418 10 l
8 M
1.404 11 5.608tal0 5.3168 10
- 1. Met *D9 9.4 tit *10 9.llet.10 F.7996 10 9.7941 4 DW 61 I.h68.ti 1.5911 t0 3.tMt.10 4.6001 10 8.0368 10 9.1818 10 5.that +10 4.1418*10 l
SW W
4.W 08 13 9.1875 11 f.35t*10 4.4708 10 4.89H.10 3.919t
- H 3.09M*10 8.HFt.10 WWW 34 9.019t
- 4 8.htet*11 1.0575 10 1.6974 10 3.D97t.10 3.kM
- 10 f.h6t*10 1.9978 10 W
43 1.938t*18 f.BM 11 S.7tet*tt 1.3101 10 f.W34*10 3.M6t.10 2.0 tit 10 f.t'48*10 WW M
1.016tett S teet.11 ?.468 11 1.trat.10 3.1688 10 2.8Mt*10 2.4268 10 f.S&78 10 W
H 9.3898 13 l.820t*11 7.9698 11
- 5. Stat *11 4.3?M 11 S. Met.11 6.Mll'11 6.764t*11 e#W 105 5.FME*tt 3.61M.13 1.379t*11 8.99M.11 4.#9t*11 8.4748 11 1.95M 10 1.1121 10 6ve6Att itk 8.htt a tt 1.9675 10 8.3398 10 2.7$88 10 3.N 14 10 3.6httet0 3.htt.10 2.720t*10 DRAWie me.
Dit16mti Pam htithet polti thlLil) attim el 3.90 3.H 4.00 4.H 5.00 7.H 10.M 15.00 I
t to 7.hti.it F.0064 11 6.76Mett 6.450t.11 6.itM.11 4.60et.tt 3.375t *11 3,1141 11 wt tot 1.0664 10 9.9Mt 11 9.31M*11 4.70M
- t t 6.9808 11 S.6468 11 4.2216 11 8.65tt 11 ut h3 8.7618 10 3.l?tt*10 2.30st*10
- 8. tid 10
- 3. Mat 10 1.4178 10 1.H98 10 6.M98 11 ENI 1 93 2.1908 10 2.htt.10 1.M7t*10 1.F6M 10 1.6108 10 1.100s.10 F.968t.it 4.637ta11 t
325 3.40t*10 f.979f*t0 f.?ttE*10 8.l?tt*10 2.3968 10 1.MP5 10 1.tPM 10 7.5Mt*11 1 54 602 4.47ttet0 4.664t * % 3.6918 10 3.hH*M 3.0718 10 3.04M 10 1.4TM.10 4.Hitati et H2 3.37M*10 3.01M *10 P.690t.10 8.OM *10 2.70H 10 1.uM 10 1.0ht.10 6.tltt*11
$58 103 3.0761 10 2.6038 10 3.1114 4 1.thet.10 1.but *10 8.9228 11 S.tutett 3.4ttt*11 8
60 4.M16 10 3.pM
- 10 t.750s.10 3.3661 10 1.0008 10 9.66t*tt 5.0518 11
- f. tent *tt
$8W 63 3.000t 10 2.6064 10 1.9pt.10
- 1. leet *10 1.3066 10 6.26M.11
- 3. 451 11 1.6768 11 tW W
3.9618 10 1.73 Plat 0 1.667t *10 1.0875 10 1.1868 10 6.6875 11 4.7028 11 2.141 11 I
WW M
1.598t*10 1.3118 10 1.0064 10 9.398t*tt 7.9988 11 4.367t=11 2.8118 11 1.455t.11 W
43 1.N3t.10 1.65M.10 1.utt*10 1.76M*H 1.0Mt.10 F.M4t.11 4.t9M it 2.M4t 11 i
WW M
2.M9t *10 1.0114 10 1.60M.M t.6tht=10 1.0638 10 F.M9t+11
$.260E*11 2.k9t*11 W
6.4118 11
- l. tut.11 S.H14 11 3.070s.11 4.MM *11 3.87H. t t 3.5658 11 1.4748 11 L
WW 105 1.0664 4 1.0 pt 10 9.76M a t t 9.1PM 11 8.D9M.11 6.tnotett 3.006t.11 S.1Mt*11 6VikAGE ttM t.3608 10 8.060t 10 1.009t 10 1.611t*10 1.431t*10 9.199t.11 6.425t*11 3.Mlt 11 DSAWIND Wo.
Olttamet Pts etLlaN polyt tutttt) l titta 888 H.00 tl.00 30.tw 35.00 60.00 45.00 H.00 l
I N
F4 1.45M eit 1.M9t a11 8.ht7tatt 6.391t*12
$.05M.1) $.474t.12 4.4?M*tt wt 102
- 1. 2 28 11 1.3608 11 1.plit*11 4.3468 12 6.ktt*tt
$.F07t*17 4.620tett Wt h3 4.4118 11 3.t?tt.11 2.llet.11 t.03M
- ti
- 1. M6t 11 1.395t.11 1.163t.11 BWV 193 3.31M.11 2.$08t*ti 2.0971 11 1.htt*tt 1.350s.11 1.1888 11 9.4SPl+12 8
325 3.D9t
- 11 3.tht*ti 3.4t?t.11 2.7*18 11 f.300t.11 1.MM.11 1.l Mt.11 888 402 6.kM a t t 4.kSt*11 3.7068 11 3.9366 11 2.3908 11 1.999t.11 1.6611 11 St HI 4.H08 11 3.609t.11 2.p968 11 8.377t 11 1.k0t.11 1.Stot.11 1.376t.11 all 103 2.700t *11 1.lkt.11 1.160ta11 9.1198 12 F.3ht e tt 6.0268 12 S.C39t*18 8
M 1.7864 11 1.150t*11 8.237t*tt 6.179t*12 4.6038*13 3.ketatt 3.1608 11 80V 62 9.901t*tt 6.M6tatt 4.MPt.12 3.7p8 12 f.9908 11
- f. ult it 2.0kt.tt
+
SW W
t.308t.11 4.MPlett 6.6458 12 4.9111 12 3.kM 12 3.amt tt 2.49M.12 WW M
8.9tM tt 6.0Miett 4.326t*18 3.t?ct.tt 3.68t.tt 1.ht:t.12 1.53M
- t t W
43 1.7488 11 8.t175.tt 5 kat.tt
- 4. net *12 3.0108 12 2.1698 12
- 1. net.12 WW M
1.?tM
- t t 1.23M elt 4.4018 12 S.9108 12 4.4?H 12 3.5908 12 3.Mit.t!
W M
9.Delett 6.68at*12 4.906t.12 3.83M
- 12 3.ttlf.12 1.79M 12 1.479t a tt WW 105 3.28M 11 2.11H a11 1.61M 11 1.22M.11 9.6996 12 F.pH ait 6.2495 12 6VikAtil 1204 f.llM 11 1.9075 11 1.47M.11 1.%M *11 9.1Hl.12 7.MM *12 6.3858 11 A-24 I
-