Radioactive Effluent & Waste Disposal Rept,Jan-Dec 1998. with 990510 Ltr

ML20206P119
Person / Time
Site:	Pilgrim
Issue date:	12/31/1998
From:	Alexander J, Sejkora K, Smalley P BOSTON EDISON CO.
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
RTR-REGGD-01.021, RTR-REGGD-1.021 BECO-2.99.034, NUDOCS 9905180151
Download: ML20206P119 (225)
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{{#Wiki_filter:r '- CD (./hejV Boston Edison A eEc cNERGY COMPANY fy,".Gid icy"**- I J.F. Alexandsc Nuclear Assessment Group Manager May 10, 1999 BECo Ltr. 2.99.034 l U. S. Nuclear Regulatory Commission Attn.: Cocument Control Desk WashingP.n, D.C. 20555 i l The enclosed 1998 annual" Radioactive Effluent and Waste Disposal Report,"is submitted in accordance with Pilgrim Nuclear Power Station Technical Specification 5.6.3. and Revision 1 of Regulatory Guide 1.21. 1 i 1 } l J. . exander 4 RLC/cis/299034 ' Attachment  ; cc: Mr. Alan B. Wang, Project Manager Project Directorate 1-3 Office of Nuclear Reactor Regulation Mall Stop: OWF 8F2 - l U. S. Nuclear Regulatory Commission 1 White Flint North s{ / 11555 Rockville Pike Rockville, MD 20852 U.S. Nuclear Regulatory Commission Region 1 475 Allendale Road King of Prussia, PA 19406 - ' ,O Senior Resident inspector Pilgrim Nuclear Power Station Pilgrim Nuclear Power Station, Rocky Hill Road, Plymouth, Massachusetts 02360 9905180151 981231 PDR ADOCK 0S000293 O PDR ,

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PILGRIM NUCLEAR POWER STATION l Radioactive Effluent and Waste Disposal Report . 1 1 January 01 through December 31,1998 l

             & Boston Edison j

I

         & Boston Edison PILGRIM NUCLEAR POWER STATION RADIOACTIVE EFFLUENT AND WASTE DISPOSAL REPORT JANUARY 01 THROUGH DECEMBER 31,1998 Prepared by:                                    u 03#1r M/9 K. J. Sgoraj                    M Senior Environmental Radiochemist Reviewed b                                                   I Co T9 P. O. Smalley             X

Chemistry Department Manager Approved by: - OM / /2 6 /B!f/ fi S. R. L"andahl Radiation Protection Manager 2 _ _ _ _ _ _ _ _ _ _ _ _ _ . )

Pigrim Nuclear Power Station Effluent and Waste Disposal Rsport January-December 1998 4 TABLE OF CONTENTS SECTION l SECTION TITLE lPAGE ~ i 1.0 EXECUTIVE

SUMMARY

5 2.0 RADIOACTIVE EFFLUENT DATA 8

2.1 Supplementa

Effluent Release Data 8 2.2 Gaseous Efflueni Data 8 2.3 Liquid Effluent Data 9 3.0 METEOROLOGICAL DATA 4.0 MAXIMUM INDIVIDUAL DOSES f2223 4.1 Doses From Noble Gas Releases 23 4.2 Doses From Gaseous Effluent Releases 25 4.3 Doses From Liquid Effluent Releases I 31 5.0 POPULATION AND AVERAGE INDIVIDUAL DOSES 37 5.1 Doses From Gaseous Effluent Releases 38 , 5.2 Doses From Liquid Effluent Releases 40 l 6.0 OFFSITE AMBIENT RADIATION MEASUREMENTS 42 l 7.0 PERCENT OF ODCM EFFL'UENT CONTROL LIMITS 45 7.1 Gaseous Effluent Releases 45 l 7.2 Liquid Effluent Releases 48 4 8.0 RADIOACTIVE WASTE DISPOSAL DATA 51 9.0 OFFSITE DOSE CALCULATION MANUAL REVISIONS 54

10.0 REFERENCES

55  ; APPENDIX A Meteorological Joint Frequency Distributions 56 APPENDIX B Atmospheric Dispersion And Deposition Factors I 89 APPENDIX C Offsite Dose Calculation Manual 130 3

f Pilgrim Nuclear Power Station ( Effluent and Waste Disposal Report January-December 1998 LIST OF TABLES TABLE l TABLE TITLE l PAGE 2.1 Supplemental Information i 10 2.2-A Gaseous Effluents - Summation of All Releases I 12 2.2-B Gaseous Effluents - Elevated Releases 14 2.2-C Gaseous Effluents - Ground Level Releases 16 2.3-A Liquid Effluents - Summation of All Releases 18 2.3-B Liquid Effluents 20 4.1 Maximum Doses from Noble Gas Releases During 1998 24 4.2-A Maximum Individual Organ Doses from Gaseous Effluents 26 January-March 1998 ,, 4.2-B Maximum Individual Organ Doses from Gaseous Effluents 27 l April-June 1998

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1 4.2-C Maximum Individual Organ Doses from Gaseous Effluents 28 l July-September 1998 4.2-D Maximum Individual Organ Doses from Gaseous Effluents 29 October-December 1998 t 4.2-E . Maximum Individual Organ Doses from Gaseous Effluents 30 January-December 1998 , 4.3-A Maximum individual Organ Doses from Liquid Effluents 32 January-March 1998 , 4.3-B Maximum Individual Organ Doses from Liquid Effluents 33 April-June 1998 4.3-C Maximum Individual Organ Doses from Liquid Effluents 34 July September 1998 4.3-D Maximum Individual Organ Doses from Liquid Effluents 35 October-December 1998 l 4.3-E Maximum Individual Organ Doses from Liquid Effluents 36 January-December 1998 l ~ ! 5.1-A Population Doses From Gaseous Effluent Releases During 1998 39 5.1 -B Average Individual Doses From Gaseous Effluent Releases During 39 1998 5.2 A Population Doses From Liquid Effluent Releases During 1998 , 41 5.2-B Average Individual Doses From Liquid Effluent Releases During 1998

                                                                            ,,,   [ 41 6.0     Average TLD Exposures by Distance Zone During 1998                       44 7.1     Percent of ODCM Effluent Control Limits for Gaseous Effluent             46 Releases During 1998 7.2     Percent of ODCM Effluent Control Limits for Liquid Effluent Releases     49 During 1998                                                          ,,

8.0 , Solid Waste and irradiated Fuel Shipments [ 52 4

I EXECUTIVE

SUMMARY

BOSTON EDISON COMPANY PILGRIM NUCLEAR POWER STATION RADIOACTIVE EFFLUENT AND WASTE DISPOSAL REPORT INCLUDING METEOROLOGICAL DATA JANUARY 01 THROUGH DECEMBER 31,1998 INTRODUCTION This report quantifies the radioactive gaseous, liquid, and radwaste releases, and summarizes the local meteorological data for the period from January 01 through December 31,1998. This document { j has been prepared in accordance with the requirements set forth in the Pilgrim Nuclear Power Station j (PNPS) Technical Specifications and Revision 1 of Regulatory Guide 1.21, " Measuring, Evaluating, j and Reporting Radioactivity in Solid Wastes and Releases of Radioactive Material in Liquid and Gaseous Effluents from Light Water Cooled Nuclear Power Plants". I The quantity of radioactive material released from PNPS was determined from sample analyses and  ; continuous on-line monitoring of gaseous releases from the main stack, reactor building vent, turbine j building, and various decontamination facilities, and liquid releases into the discharge canal. The quantity and volume of radioactive waste which was shipped offsite from PNPS for processing and burial were determined from data contained on the radwaste shipping documentation. The meteorological data were obtained from monitoring instruments located on the 220-foot meteorological tower located at Pilgrim Station. GASEOUS EFFLUENTS Gaseous radioactive releases for the reporting period are quantified in Tables 2.2-A, 2.2-B, and 2.2-C. Radioactive noble gases released during the period totaled 660 Curies. Releases of radioactive particulates and iodines totaled 0.019 Curies, and tritium releases totaled 40 Curies. No , gross alpha radioactivity was detected in gaseous effluents. ' Noble gases released in gaseous effluents resulted in a maximum total body dose of 0.088 mrem, with a corresponding skin dose of 0.13 mrem. The release of radioactivity in gaseous effluents from l PNPS during 1998 resulted in a total body dose to the maximum-exposed hypothetical individual of l about 0.33 mrem from radioactive particulates, iodines, and tritium. The maximum hypothetical dose to any organ from radioactive particulates, iodines, and tritium was about 0.60 mrem. All of these maximum doses occurred to a hypothetical individual located on property under Boston Edisen (BECo) control. The maximum, hypotheiical total body dose from the combined release of radioactivity in gaseous effluents was 0.42 mrem. The cumulative total body dose to the entire population within 50 miles of PNPS from combined gaseous offluents was about 0.58 person rem. ' The average individual living within 50 miles of PNPS received a total body dose of about 0.00014 mrem from combined gaseous effluents released during 1998. The maximum individual doses from gaseous radioactive effluents were compared to the applicable ODCM dose limits. Noble gas doses were less than 1.6% of the corresponding 10CFR50 dose ! objectives. Maximum doses resulting from releases of particulates, iodines, and tritium in gaseous effluents were less than 4% of corresponding 10CFR50 objectives. 5 l l l

i i LIQUID EFFLUENTS I Liquid radioactive releases for the reporting period are quantified in Tables 2.3-A and 2.3-B. Liquid effluents released into the discharge canal contained 0.0065 Curies of fission and activation products, and 2.3 Curies of tritium. No dissolved / entrained noble gases or gross alpha radioactivity were detected in liquid effluents. The release of radioactivity in liquid effluents from PNPS during 1998 resulted in a total body dose of about 0.00023 mrem to the maximum-exposed hypothetical individual. The maximum hypothetical dose to any organ from liquid effluents was about 0.00093 mrem. The cumulative total body dose from liquid effluents to the entire population within 50 miles of PNPS was about 0.0025 person-rem. l The average individual living within 50 miles of PNPS received a total body dose of about 0.00000000059 mrem from liquid effluents released during 1998.  ;

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l' The maximum individual doses from liquid radioactive effluents were compared to the applicable ODCM dose limits. All doses from liquid effluents were less than 0.02% of their corresponding effluent control limit. In addition, all quarterly average concentrations of radioactivity in liquids released to Cape Cod Bay were less than 0.2% of the corresponding limits. METEOROLOGICAL DATA l i Meteorological joint frequency distributions are listed in Appendix A. The data recovery for the annual reporting period exceeded 92%. The predominant wind direction was from the south-southwest, which occurred approximately 15% of the time during the reporting period. The predominant stability class was Class E, which occurred about 42% of the time during the reporting period OFFSITE AMBIENT RADIATION MEASUREMENTS Ambient radiation exposure was evaluated to complete the assessment of radiological impact on humans. A small number of thermoluminescent dosimeters (TLDs) indicated an increase in ambient l radiation exposure on BECo property in close proximity to the station, resulting from nitrogen-16 contained within the plant steam system. The dose to a hypothetical member of the public accessing such areas on BECo property during 1998 was estimated as being about 2.5 mrem. There was no measurable increase during 1998 in ambient radiation measurements at the location of the nearest resident to PNPS. The collective total body dose to a maximum-exposed hypothetical individual from radioactive gases, liquids, and ambient exposure resulting from PNPS operation during 1998 was calculated as being 2.9 mrem. This amount is about 0.8% of the typical dose of 300 to 400 mrem received each year by an average person from other sources of natural and man-made radiation. Although this calculated collective dose occurs to a maximum-exposed hypothetical individual, it is also well below the NRC , dose limit of 100 mrem /yr specified in 10CFR20.1301, as well as the EPA dose limit of 25 mrem /yr specified in 40CFR190. Both of these limits are to be applied to real members of the general public, so the fact that the dose to the hypothetical maximum-exposed individual is within the limits ensures that any dose received by a real member of the public would be smaller and well within any applicable limit. RADIOACTIVE SOLID WASTE DISPOSAL Solid radioactive waste shipped offsite for processing and disposal during the reporting period is described in Table 8.0. Approximately 1048 cubic meters of solid waste, containing 496 Curies of radioactivity, were shipped during the reporting period. Following processing and volume reduction, the volume of waste disposed of via burial was about 96 cubic meters. 6

CONCLUSION The PNPS Offsite Dose Calculation Manual contains effluent controls to limit doses resulting from releases of radioactivity to the environment. None of the effluent controls associated with liquid or gaseous effluents were exceeded during the reporting period, as confirmed by conservative dose assessments performed at weekly and monthly intervals. Conformance to the PNPS ODCM effluent controllimits ensures that releases of radioactivity in liquid and gaseous effluents are kept as low as reasonably achievable in accordance with 10 CFR Part 50, Appendix 1. Compliance with the ODCM also demonstrates that requirements of the Environmental Protection Agency's nuclear fuel cycle standard, 40CFR190.10, Subpart B, have been met. Based on the dose assessment results for 1998, there was no significant radiological impact on the general public from PNPS operation. 1 I l 7

1 2.0 RADIOACTIVE EFFLUENT DATA Radioactive gaseous and liquid releases for the reporting period are given in the standard format presented in Tables 1 A,18,1C,2A,2B, and Supplemental Information table from NRC Regulatory l Guide 1.21 (Reference 1) format. 2.1 Supplemental Effluent Release Data Supplementalinformation related to radioactive gaseous and liquid releases for the reporting period are given in the standard NRC Regulatory Guide 1.21 format in Table 2.1. i l 2.2 Gaseous Effluent Data Gaseous radioactivity is released from Pilgrim Station to the atmosphere from the main stack, reactor building vent, turbine building, and various decontamination facilities. Ccmbined gaseous effluent releases from all release points are summarized in Table 2.2-A. No alpha activity was detected on l any of the particulate filters collected during the reporting period. The total gaseous releases for l various categories of radionuclides, as well as the corresponding average release rates, can be summarized as follows:

       . Noble gases:                              660 Ci, 20.9 pCi/sec
      . Particulates and lodines with         0.0185 Ci, 0.000587 pCi/sec half-life greater than 8 days
       . Tritium:                                  40.4 Ci, 1.28 pCi/sec Effluent releases from the main stack are detailed in Table 2.2-B. The main stack is an elevated release point with a height of approximately 400 feet above sea level. The main stack is located about 700 feet west-northwest of the reactor building.

Ground-level effluent releases are detailed in Table 2.2-C. Data in this table includes releases from the reactor building vent, turbine building, and assorted equipment decontamination facilities (e.g., hot machine shop, carbon dioxide pellet decon trailer, plastic media decon trailer, etc.) used during the period. Due to the close proximity of the reactor building, both of these release points are considered to be mixed-mode / ground level release points. l 8

r l 2.3 Llauld Effluent Data f ! Liquid radioactivity is released from PNPS to Cape Cod Bay via the circulating water discharge canal. l These effluents enter Cape Cod Bay at the outfall of the canal, which is located about 1100 feet north of the reactor building. i Liquid effluent releases are summarized in Table 2.3-A. Detailed breakdowns for individual radionuclides are listed in Table 2.3-B. No dissolved / entrained gases or gross alpha radioactivity were detected in liquid effluents released during the reporting period. Total releases for the various categories of radionuclides, as well as their corresponding mean concentrations, can be summarized as follows:

         . Total Effluent Volume:                   558,000 Liters
         . Total Dilution Volume:                     3,420,000,000 Liters
         . Fission / Activation products:           0.00654 Ci, 0.00000000191 Ci/mL l

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         . Tritium:                                 2.27 Cl, 0.000000664 pCi/mL
         . Dissolved / entrained noble gases:        Not Detected i

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Table 2.1 Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Supplemental Information January-June 1998 FACILITY: PILGRIM NUCLEAR POWER STATION LICENSE: DPR-35

1. REGULATORY LIMITS

a. Fission and activation gases: 500 mrem /yr total body and 3000 mrem /yr for skin at site boundary b,c. lodines, particulates with half-life: 1500 mrem /yr to any organ at site boundary

        >8 days, tritium

d. Liquid effluents: 0.06 mrem / month for whole body and 0.2 mrem / month for any organ (without radwaste treatment)

2. EFFLUENT CONCENTRATION LIMITS

a. Fission and activation gases: 10CFR20 Appendix B Table 11

b. lodines: 10CFR20 Appendix B Table 11

c. Particulates with half-life > 8 days: 10CFR20 Appendix B Table ll

d. Liquid effluents: 2E-04 pCi/mL for entrained noble gases; 10CFR20 Appendix B Table 11 values for all other radionuclides

3. AVERAGE ENERGY Not Applicable

4. MEASUREMENTS AND APPROXIMATIONS OF TOTAL RADIOACTIVITY

a. Fission and activation gases: High purity germanium gamma spectroscopy

b. lodines: for all gamma emitters; radiochemistry

c. Particulates: analysis for H-3, Fe-55 (liquid effluents),

d. Liquid effluents: Sr-89, and Sr-90

5. BATCH RELEASES Jan-Mar 1998 Apr-Jun 1998

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a. Liquid Effluents

1. Total number of releases: 1.20E+01 1.70E+01

2. Totaltime period (minutes): 6.13E+02 1.29E+03

3. Maximum time period (minutes): 1.95E+02 1.80E+02

4. Average time period (minutes): 5.11 E+01 7.59E+01

5. Minimum time period (minutes): 2.00E+01 2.50E+01

6. Average stream flow (Liters / min): 1.17E+06 1.20E+06 during periods of release of effluents into a flowing stream

b. Gaseous Effluents None None

6. ABNORMAL RELEASES

a. Liquid Effluents None None

b. Gaseous Effluents None None j l

i 10 l 1

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F Table 2.1 (continued) Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Supplemental Information July-December 1998 FACILITY: PILGRIM NUCLEAR POWER STATION LICENSE: DPR 35

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1. REGULATORY LIMITS

a. Fission and activation gases: 500 mrem /yr total body and 3000 mrem /yr for skin at site boundary b,c. lodines, particulates with half-life: 1500 mrem /yr to any organ at site boundary

           >8 days, tritium l       d. Liquid effluents:                               0.06 mrem / month for whole body and j                                                          0.2 mrem / month for any organ j                                                           (without radwaste treatment) i

2. EFFLUENT CONCENTRATION LIMITS

a. Fission and activation gases: 10CFR20 Appendix B Table il

b. lodines: 10CFR20 Appendix B TabM !)

c. Particulates with half-life > 8 days: 10CFR20 Appondix B Table il

d. Liquid effluents: 2E-04 Ci/mL for entrained noble gases; 10CFR20 Appendix B Table ll values for all other radionuclides j 3. AVERAGE ENERGY Not Applicable l

l 4. MEASUREMENTS AND APPROXIMATIONS OFTOTAL RADIOACTIVITY

a. Fission and activation gases: High purity germanium gamma spectroscopy l

i b. lodines: for all gamma emitters; radiochemistry

c. Particulates: analysis for H-3, Fe-55 (liquid effluents),

d. Liquid effluents: Sr-89, and Sr-90

5. BATCH RELEASES Jul-Sep 1998 Oct-Dec 1998 ,

i l a. Liquid Effluents ' il ' i l 1. Total number of releases: 1.30E+01 7.00E+00 l

2. Totaltime period (minutes): 6.99E+02 2.90E+02

3. Maximum time period (minutes): 1.60E+02 1.30E+02 l 4. Average time period (minutes): 5.38E+01 4.14E+01

! 5. Minimum time period (minutes): 2.50E+01 2.50E+01

6. Average stream flow (Liters / min): 1.17E+06 1.17E+06 during periods of release of effluents into a flowing stream

b. Gaseous Effluents None None

6. ABNORMAL RELEASES ,

a. Liquid Effluents None None

b. Gaseous Effluents None None 11 l.

Table 2.2-A Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Gaseous Effluents - Summation of All Releases January-June 1998 Period: Period: Estimated Jan-Mar 1998 Apr-Jun 1998 Total Error A. FISSION AND ACTIVATION GASES Total Release: Cl 1.07E+02 1.32E+02 i22 % l Average Release Rate During Period: Ci/sec 1.3SE+01 1.67E+01 Percent of Effluent Control Limit B. IODINES Totallodine-131 Release: Ci 3.04E-04 6.11 E-04 *20% l Average Release Rate During Period: Ci/sec 3.86E-05 7.74E-05 Percent of Effluent Control Limit C. PARTICULATES Total Release: Ci 3.49E-04 5.54E-04 121 % l Average Release Rate During Period: pCi/sec 4.42E-05 7.02E-05 Percent of Effluent Control Limit Gross Alpha Radioactivity: Ci NDA NDA D. TRITIUM Total Release: Ci 9.92E+00 9.04E+00 120 % l Average Release Rate During Period: pCi/sec 1.26E+00 1.15E+00 Percent of Effluent Control Limit Notes for Table 2.2-A:

• Percent of Effluent Control Limit values based on dose assessments are provided in Section 7 of this report.

1. NDA stands for No Detectable Activity.

2. LLD for airbome gross alpha activity listed as NDA is 1E-11 Ci/cc.

I i 12

l Table 2.2-A (continued) Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Gaseous Effluents - Summation of All Releases July-December 1998 l I Period: Period: Estimated Jul Sep 1998 Oct-Dec 1998 Total Error A. FISSION AND ACTIVATION GASES Total Release: Ci 2.14E+02 2.07E+02 t22% l l Average Release Rate During Period: pCi/sec 2.71 E+01 2.62E+01  ; Percent of Effluent Control Limit

• l B. lODINES l Totallodine-131 Release: Ci 6.86E-04 6.28E-04 i20% l Average Release Rate During Period: pCi/sec 8.70E-05 7.96E-05 Percent of Effluent Control Limit *
• 1 C. PARTICULATES l Total Release: Ci 5.79E-04 3.42E-04 121 % l j Average Release Rate During Period: pCi/sec 7.34E-05 4.34E-05 Percent of Effluent Control Limit
• Gross Alpha Radioactivity: Ci NDA NDA D. TRITlUM Total Release: Ci 1.01 E+01 1.13E+01 120% l Average Release Rate During Period: pCi/sec 1.28E+00 1.43E+00 Percent of Effluent Control Limit
• Notes for Table 2.2-A: i
• Percent of Effluent Control Limit values based on dose assessments are provided in Section 7 of this report.

1. NDA stands for No Detectable Activity.

2. LLD for airbome gross alpha activity listed as NDA is 1E-11 pCi/cc.

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Tabla 2.2-B Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Gaseous Effluents - Elevated Release January-June 1998 Continuous Mode Batch Mode Nuclide Released Jan-Mar 1998 l Apr-Jun 1998 Jan-Mar 1998 l Apr-Jun 1998

1. FISSION AND ACTIVATION GASES-Cl -

Kr-85m 2.56E+01 2.90E+01 N/A N/A Kr-87 9.48E+00 1.41 E+01 N/A N/A , Kr-88 4.79E+01 5.65E+01 N/A N/A 1 Xe-131m NDA NDA N/A N/A Xe-133 2.20E+01 2.41 E+01 N/A N/A Xe-135 2.48E+00 8.55E+00 N/A N/A Xe-135m NDA NDA N/A N/A Xe-138 NDA NDA N/A N/A Total for period 1.07E+02 1.32E+02 N/A N/A I

2. lODINES - Cl 1-131 2.44E-04 4.16E-04 N/A N/A l133 1.15E-03 2.08E-00 N/A N/A Total for period 1.39E-03 2.50E-03 N/A N/A

3. PARTICULATES-Cl l Co-60 1.31 E-06 NDA N/A N/A l Sr-89 4.56E-05 1.43E-04 N/A N/A I Sr-90 NDA 1.75E-06 N/A N/A l Cs-134 NDA NDA N/A N/A l Cs-137 NDA 5.80E-06 N/A N/A I Ba/La-140 1.83E-04 2.71 E-04 N/A N/A Total for period 2.30E-04 4.22E-04 N/A N/A

4. TRITIUM - Cl l H-3 l 5.84 E-01 l 6.90E-01 l N/A l N/A l Notes for Table 2.2-B:

1. N/A stands for not applicable.

2. NDA stands for No Detectable Activity.

3. LLD for airborne radionuclides listed as NDA are as follows:

Fission Gases: 1E-04 pCi/cc lodines: 1E-12 pCi/cc Particulates: 1 E-11 Ci/cc 14

Table 2.2-B (continusd) Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Gaseous Effluents - Elevated Release July-Deco.mber 1998 Continuous Mode Batch Mode Nuclide Released Jul-Sep 1998 l Oct-Dec 1998 Jul-Sep 1998 l Oct-Dec 1998

1. FISSION AND ACTIVATION GASES-Ci Kr-85m 3.91 E+01 4.24E+01 N/A N/A Kr-87 2.13E+01 1.90E+01 N/A N/A Kr-88 7.77E+01 7.81 E+01 N/A N/A 3 Xe-131 m NDA NDA N/A N/A  !

Xe-133 3.50E+01 4.01 E+01 N/A N/A I Xe-135 2.78E+01 2.69E+01 N/A N/A Xe-135m NDA NDA N/A N/A Xe-138 NDA NDA N/A N/A Total for period 2.01 E+02 2.07E+02 N/A N/A 1

2. lODINES - Cl 1-131 3.86E-04 2.73E-04 N/A N/A I l-133 2.02E-03 1.55E-03 N/A N/A l l

Total for period 2.41 E-03 1.82E-03 N/A N/A

3. PARTICULATES - Cl -

Co-60 NDA NDA N/A N/A Sr-89 8.02E-05 3.80E-05 N/A N/A Sr-90 5.39E-07 6.95E-07 N/A N/A Cs-134 NDA NDA N/A N/A Cs-137 NDA 1.24E-06 N/A N/A Ba/La-140 2.96E-04 1.47E-04 N/A N/A Total for period 3.77E-04 1.87E-04 N/A N/A

4. TRITlUM - Cl l H-3 l 1.04 E+00 l 1.33E+00 l N/A l N/A l Notes for Table 2.2-B:

1. N/A stands for not applicable.

2. NDA stands for No Detectable Activity.

3. LLD for airborne radionuclides listed as NDA are as follows:  ;

Fission Gases: 1E-04 pCi/cc lodines: 1E-12 Ci/cc Particulates: 1E-11 Ci/cc l 15

Tabl3 2.2-C Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Gaseous Effluents - Ground Level Release January-June 1998 , Continuous Mode Batch Mode Nuclide Released Jan-Mar 1998 l Apr-Jun 1998 Jan-Mar 1998 l Apr-Jun 1998

1. FISSION AND ACTIVATION GASES-Ci {

Kr 85m NDA NDA N/A N/A I Kr-87 NDA NDA N/A N/A Kr-88 NDA NDA N/A N/A  ; Xe-133 NDA NDA N/A N/A I Xe-135 NDA NDA N/A N/A Xe-135m NDA NDA N/A N/A Xe-138 NDA NDA N/A N/A Total for period NDA NDA N/A N/A

2. lODINES - Cl 1-131 6.02E-05 1.95E-04 N/A N/A l-133 8.01 E-04 1.51 E-03 N/A N/A 1 Total for period 8.61 E-04 1.71 E-03 N/A N/A

3. PARTICULATES - Cl Co-60 9.74 E-06 1.04E-05 N/A N/A Sr-89 1.09E-04 1.22E-04 N/A N/A Sr-90 NDA NDA N/A N/A '

Cs-134 NDA NDA N/A N/A Cs 137 NDA NDA N/A N/A Ba/La-140 NDA NDA N/A N/A 1 l Total for period 1.19E-04 1.32E-04 N/A N/A  !

4. TRITIUM - Cl l H-3 l 9.34E+00 l 8.35E+00 l N/A l N/A l Notes for Table 2.2-C:

1. N/A stands for not applicable.

2. NDA stands for No Detectable Activity.

3. LLD for airborne radionuclides listed as NDA are as follows:

Fission Gases: 1E-04 pCi/cc lodines: 1E-12 pCi/cc Particulates: 1E-11 pCi/cc 16

Tabla 2.2 C (continued) Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Gaseous Effluents - Ground Level Release July-December 1998 Continuous Mode Batch Mode Nuclide Released Jul-Sep 1998 l Oct-Dec 1998 Jul-Sep 1998 l Oct-Dec 1998

1. FISSION AND ACTIVATION GASES-Cl Kr-85m NDA NDA N/A N/A Kr-87 NDA NDA N/A N/A Kr 88 NDA NDA N/A N/A Xe-133 1.34E+01 NDA N/A N/A Xe 135 NDA NDA N/A N/A l Xe-135m NDA ~

NDA N/A N/A l Xe-138 NDA NDA N/A N/A I Total for period 1.34E+01 NDA N/A N/A

2. IODINES - Cl l-131 3.00E-04 3.55E-04 N/A N/A l-133 1.90E-03 3.46E-03 N/A N/A ,

i Total for period 2.20E-03 3.82E-03 N/A N/A

3. PARTICULATES - Cl Co-60 3.14 E-06 4.82E-06 N/A N/A Sr-89 1.63E 04 1.50E-04 N/A N/A Sr-90 NDA NDA N/A N/A Cs-134 NDA NDA N/A N/A I Cs-137 NDA NDA N/A N/A Ba/La-140 3.59E-05 NDA N/A N/A Total for period 2.02E-04 1.55E-04 N/A N/A

4. TRITIUM - Cl 4 l H-3 l 9.09E+00 l 9.96E+00 l N/A l N/A l Notes for Table 2.2-C:

1. N/A stands for not applicable.

l 2. NDA stands for No Detectable Activity.

3. LLD for airborne radionuclides listed as NDA are as follows:

Fission Gases: 1E-04 pCi/cc lodines: 1E-12 pCi/cc Particulates: 1E-11 pCi/cc l 17

Tabla 2.3-A

                                           . Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Liquid Effluents - Summation of All Releases January-June 1998 Period:         Period:     Estimated Jan-Mar 1998    Apr Jun 1998   Total Error A. FISSION AND ACTIVATION PRODUCTS Total Release (not including H-3, noble gas, or alpha): Ci        1.51 E-03       4.29E-03        i12%     l Average Diluted Concentration During Period: pCi/mL               2.10E-09        2.79E-09                 ,

j Percent of Effluent Concentration Limit

• 2.81 E-02% 1.13E-01%

B. TRITIUM Total Release: Ci 4.17E-02 2.20E+00 i9.4% l- ) Average Diluted Concentration During Period: pCi/mL 5.79E-08 1.43E-06 Percent of Effluent Concentration Limit

• 5.79E-03% 1.43E-01%

C. DISSOLVED AND l'NTRAINED GASES Total Release: Ci NDA NDA 116 % l Average Diluted Concent ration During Period: pCi/mL NDA NDA Percent of Effluent Con.:entration Limit

• NDA NDA D. GROSS ALPHA F.ADICACTIVITY l Total Release: Ci l NDA l NDA l i34 % l E. VOLUME OF WASTE RELEASED PRIOR TO DILUTION l Waste Volume: Liters l 9.83E+04 l 3.30E+05 l 15.7 % l l

F. VOLUME OF DILUTION WATER USED DURING PERIOD l l Dilution Volume: Liters l 7.20E+08 l 1.54 E+09 l 10% l Notes for Table 2.3-A: 1

• Additional percent of Effluent Control Limit salues based on dose assessments are provided in Sectic.) 7 of this j report.  ;

1. NDA stands for No Detectable Activity.

2. LLD for dissolved and entrained gases listed as NDA is 1E-05 pCi/mL.

3. LLD for liquid gross alpha activity listed as NDA is 1E-07 pCi/mL.

18

Tabla 2.3 A (continued) Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Liquid Effluents Summation of All Releases July-December 1998 Period: Period: Estimated Jul-Sep 1998 Oct-Dec 1998 Total Error A. FISSION AND ACTIVATION PRODUCTS Total Release (not including H-3, noble gas, or alpha): Ci 5.10E-04 2.31 E-04 112 % l Average Diluted Concentration During Period: uCi/mL 6.21 E-10 6.79E-10 Percent of Effluent Concentration Limit

• 3.45E-02% 2.47E-02%

B. TRITlUM TotalRelease: Ci 1.69E-02 1.14E-02 19.4 % l Average Diluted Concentration During Period: pCi/mL 2.06E-08 3.35E-08 Percent of Effluent Concentration Limit

• 2.06E-03% 3.35E-03%

C. DISSOLVED AND ENTRAINED GASES Total Release: Ci NDA NDA f16% l Average Diluted Concentration During Period: pCi/mL NDA NDA Percent of Effluent Concentration Limit

• NDA NDA D. GROSS ALPHA RADIOACTIVITY l Total Release: Ci l NDA l NDA l 134 % l E. VOLUME OF WASTE RELEASED PRIOR TO DILUTION i j Waste Volume: Liters l 8.87E+04 l 4.06E+04 l 15.7 % l F. VOLUME OF DILUTION WATER USED DURING PERIOD l Dilution Volume: Liters l 8.21 E+08 l 3.40E+08 l 110 % l Notes for Table 2.3-A:  ;
• Additional percent of Effluent Control Limit values based on dose assessments are provided in Section 7 of this j report.

1. NDA stands for No Detectable Activity.

2. LLD for dissolved and entrained gases listed as NDA is 1E-05 pCi/mL.

3. LLD for liquid gross alpha activity listed as NDA is 1E-07 pCi/mL.

19

Tabla 2.3-B

Pilgrim Nuclear Power Station

! Effluent and Waste Disposal Report . Liquid Effluents l January-June 1998 l Continuous Mode Batch Mode Nuclide Released Jan-Mar 1998 l Apr-Jun 1998 Jan-Mar 1998 l Apr-Jun 1998

1. FISSION AND ACTIVATION PRODUCTS-Cl Cr-51 N/A N/A NDA NDA Mn-54 N/A N/A 1.13E-04 5.95E-04 Fe-55 N/A N/A 1.04 E-03 1.47E-03 Fe-59 N/A N/A NDA 2.10E-05 Co-58 N/A N/A NDA NDA Co-60 N/A N/A 2.57E-04 7.71 E-04 Zn-65 N/A N/A NDA NDA Sr-89 N/A N/A 7.75E-07 1.76E-05 Sr-90 N/A N/A 3.08E-06 2.68E-05 Zr/Nb-95 N/A N/A NDA NDA Mo-99/Tc-99m N/A N/A NDA NDA Ag-110m N/A N/A NDA NDA Sb-124 N/A N/A NDA NDA l-131 N/A N/A NDA NDA l-133 N/A N/A NDA NDA Cs-134 N/A N/A NDA NDA Cs 137 N/A N/A 9.62E-05 1.39E-03 Ba/La-140 N/A N/A NDA NDA Ce-141 N/A N/A NDA NDA Total for period N/A N/A 1.51 E-03 4.29E-03

2. DISSOLVED AND ENTRAINED GASES - Cl Xe-133 N/A N/A NDA NDA Xe-135 N/A N/A NDA NDA Total for period N/A N/A NDA NDA Notes for Table 2.3-B:

1. N/A stands for not applicable.

2. NDA stands for No Detectable Activity.

3. LLD for liquid radionuclides listed as NDA are as follows:

Strontium: SE-08 Ci/mL lodines: 1E-06 pCi/mL Noble Gases: 1E-05 Ci/mL All Others: SE-07 pCi/mL l 20 l j

Tabl3 2.3-B Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Liquid Effluents July-December 1998 Continuous Mode Batch Mode Nuclide Released Jul-Sep 1998 l Oct-Dec 1998 Jul-Sep 1998 l Oct-Dec 1998

1. FISSION AND ACTIVATION PRODUCTS-Cl Cr 51 N/A N/A NDA NDA Mn-54 N/A N/A 2.84E-05 7.26E-06 Fe-55 N/A N/A 1.23E-04 1.22E-04 Fe-59 N/A N/A NDA NDA Co-58 N/A N/A NDA NDA Co-60 N/A N/A 1.28E-04 3.10E-05 .

Zn-65 N/A N/A NDA NDA Sr-89 N/A N/A NDA NDA Sr-90 N/A N/A 8.32E-06 1.83E-06 { Zr/Nb-95 N/A N/A NDA NDA i Mo-99/Tc-99m N/A N/A NDA NDA - Ag-110m N/A N/A NDA NDA , Sb-124 N/A N/A NDA NDA l-131 N/A N/A NDA NDA l-133 N/A N/A NDA NDA Cs-134 N/A N/A NDA NDA Cs-137 N/A N/A 2.22E-04 6.87E-05 Ba/La-140 N/A N/A NDA NDA Ce-141 N/A N/A NDA NDA Total for period N/A N/A 5.10E-04 2.31 E-04

2. DISSOLVED AND ENTRAINED GASES - Cl Xe-133 N/A N/A NDA NDA Xe-135 N/A N/A NDA NDA Total for period N/A N/A NDA NDA Notes for Table 2.3-B:

1. N/A stands for not applicable.

2. NDA stands for No Detectable Activity.

3. LLD for liquid radionuclides listed as NDA are as follows:

Strontium: SE-08 pCi/mL lodines: 1E-06 Ci/mL , Noble Gases: 1E-05 pCi/mL All Others: 56-07 pCi/mL 21

l 1 3.0 METEOROLOGICAL DATA Meteorological data (References 2 and 3) are summarized for the reporting period in Appendix A, in the standard joint frequency distribution format as given in NRC Regulatory Guide 1.21. l The predominant meteorological conditions observed during the annual reporting period can be summarized with their corresponding frequencies as follows: e Stability Class: Class E,42% j e Wind Direction (from): South-southwest,15% e 33-ft Wind Speed: 4-7 mph, 51% e 220-ft Wind Speed: 13-18 mph, 32% There were a limited number of instances when data collection from the 220-ft meteorological tower was not continuous. Typically, such data losses were attributed to loss of power, malfunction of the sensors, and/or malfunction of the digital dataloggers. Data recovery for the period was about 97% j for the 33-ft level, and 92% for the 220-ft level of the tower. These data recovery values exceed the 4 NRC's recommended annual recovery goal of 90%. I I 22 l

l l 4.0 MAXIMUM INDIVIDUAL DOSES I l Doses to the maximum exposed individual resulting from radionuclides in effluents released offsite  ; were calculated using methods presented in the PNPS Offsite Dose Calculation Manual (ODCM, Reference 4), NRC Regulatory Guide 1.109 (Reference 5), NRC Regulatory Guide 1.111 (Reference 6), and the Pilgrim Station Unit 1 Appendix l Evaluation (Reference 7). Maximum l individual doses are calculated separately for: (1) noble gases in gaseous effluents, (2) particulates, l l lodines, and tritium in gaseous effluents; and, (3) liquid effluents. Maximum consumption and use I factors for various pathways from Table E-5 of the PNPS ODCM are used for calculating the doses to the maximum exposed individual. l Information related to liquid and gaseous effluent releases are summarized Section 2 of this report. l These effluent release data were used as input to computer programs to calculate the resulting i doses. The Duke Engineering and Services "YODA"-series of computer programs (Reference 8) was used to compile the dose contributions to the various organs in each age class from major exposure pathways. 4.1 Doses From Noble Gas Releases l Gaseous effluent release data presented in Tables 2.2-A,2.2-B, and 2.2-C from this effluent release l report were used as input to the Duke Engineering "YODA" computer programs to calculate radiation l doses. These data include gaseous releases from the PNPS main stack, reactor building vent, and turbine building roof exhausters. Meteorological data obtained from tne PNPS 220-foot meteorological tower during 1998 were also used as input to the Duke Engineering's "AEOLUS" computer program (Reference 9). This program calculated the atmospheric dispersion and deposition factors used in the "YODA"-series of computer programs to calculate maximum individual doses. These various dispersion (x/Q) and deposition (D/Q) factors are presented in Appendix B. The maximum individual doses resulting from radioactive noble gases released in gaseous effluents are presented in Table 4.1 according to specific receptor locations. This table includes all noble gas doses for the individual calendar quarters and total calendar year. i lt should be noted that doses calculated for the entire year may not equal the sum of the doses for I individual quarters. Doses from gaseous effluents are largely dependent on the meteorological conditions during the release period, as prescribed by the NRC in regulatory guides 1.109 and 1.111. Changes in meteorological conditions throughout the year can affect the amount of dispersion of gaseous effluents and the resulting dose. For example, a release of gaseous effluent during a period when there is little mixing in the air will yield a higher dose than if the same amount of radioactivity is i released during a period when atmospheric mixing is high. Quarterly dose values presented in the following tables were calculated using meteorological conditions observed during the applicable , quarterly period. In the case of the annual dose values presented, the radionuclide activity from the four quarters were summed for the entire year and doses were calculated using annual-average meteorological conditions. Noble gases released in gaseous effluents from PNPS during 1998 resulted in a maximum total body dose of 0.088 mrem. The maximum skin dose was 0.13 mrem. Both of these doses occurred to a hypothetical individual, located at the shoreline 0.15 kilometers E (total body dose) or 0.10 kilometers NNE (skin dose) of the PNPS Reactor Building. This area is under Boston Edison Control. Doses to more " realistic" individuals at offsite locations would be lower than doses for these hypothetical site boundary individuals. 23

Table 4.1 ) }- Maximum Doses From Noble Gas Releases Durina 1998 Gamma

• Beta Total Releasa Air Dose Air Dose Body Dose Skin Dose Period (location) (location) ('ocation) (location)

Jan-Mar 1.82E-02 mrad 4.10E-03 mrad 1.23E-02 mrem 1.44E-02 mrem (0.34 km SSW) (1.25 km SSW) (0.34 km SSW) (0.34 km SSW) Apr-Jun 3.29E-02 mrad 3.576-03 mrad 2.22E 02 mrem 2.55E-02 mrem (0.08 krr[4) (1.23 km SSW) (0.80 km N) (0.80 km N) Jul-Sep 7.92E-02 arad 1.46E-01 mrad 5.23E-02 mrem 1.04E-01 mrem (0.10 km f!E) (0.10 km NNE) (0.10 km NNE) (0.10 km NNE) Oct-Dec 5.82E-02 mrad 2.78E-03 mrad 3.93E-02 mrem 4.52E-02 mrem (0.15 km E) (1.23 km SSW) (0.15 km E) (0.15 km E) I Jan-Dec 1.31E-01 mrad 9.72E-02 mrad 8.81E-02 mrem 1.27E-01 mrem (0.15 km E) (0.80 km N) (0.15 km E) (0.10 km NNE) 24

r 4.2 Doses From Gaseous Effluent Releases Gaseous effluent release data presented in Tables 2.2-A,2.2-B, and 2.2-C from this effluent release report were used as input to the Duke Engineering "YODA" computer programs to calculate radiation doses. Tnece data include gaseous releases from the PNPS main stack, reactor building vent, and turbine building roof exhausters. Meteorological data obtained from the PNPS 220-foot meteorological tower during 1998 were also used as input to the Duke Engineering's "AEOLUS" computer program (Reference 9). This program calculated the atmospheric dispersion and > deposition factors used in the "YODA"-series of computer programs to calculate maximum individual doses. These various dispersion (x/Q) and depositio.. 'D/Q) factors are presented in Appendix B. The maximum individual doses resulting from radioactive particulates, iodines, and tritium released in gaseous effluents ara presented in Tables 4.2-A through 4.2-E. These tables cover the individual l calendar quarters anc. the total calendar year, respectively. Doses resulting from releases of noble gases are addressed independently in the PNPS ODCM. Therefore, nona of these tables for maximum individual Joses include any dose contribution from noble gases. The presentation and analysis of doses resulting from noble gases are addressed in Section 4.1 of this report. Tables 4.2-A through 4.2-E summarize the maximum total body and organ doses for the adult, teen, child, and infant age classes resulting from the major gaseous exposure path vays. These tables present the dose data according to specific receptor location and the exposure pathways assumed to occur at that location. For example, the second column of the tables presents the information for the

 , hypothetical maximum-exposed at the rnost restrictive site boundary location, where only inhalation and ground deposition exposure patir..r; are assumed to occur. Since this is a shoreline location controlled by Boston Edison Company, the other pathways of garden vegetable production, milk praduction, and meat production are assumed not to occur. Doses for other offsite locations not under Boston Edison control, where other exposure pathways can and do occur, are presented in subsequent columns of the tables, and represent the potential maximum doses to individuals at these locations.

It should be noted that doses calculated for the entire year may not equal the sum of the doses for individual quarters. As wLs the case with noble gas doses described in Section 4.1, quarterly doses were calculated using miteorological conditions observed during the applicable quarterly period. Annual dose values are hsed on the sum of the quarterly noble gas releases, along with the annual-average meteorological conditions. A more detailed discussion of the reasons for the differences in annual doses from the r,ummed quarterly doses can be found in Section 4.1. Radioactivity relet ned in gaseous effluents from PNPS during 1998 resulted in a n aximum total body dose (teen age class) of 0.33 mrem. The maximum organ dose (child age class, thyroid) was 0.60 mrem. Both of these doses occurred to hypotheticalindividuals at the shoreline 0.08 kilometers N o, the PNPS Reactor Building, an area under Boston Edison Control. For the more " realistic" inuviduals at offsite locations, the maximum total body dose was 0.017 mrem (child age class at a location 0.8 kilometers SE from the Reactor Building), while the maximum organ dose was 0.068 mrem (infant thyroid at a location 4 kilometers WSW from the Reactor Building, yielding vegetables, cow milk, and goat milk). l 25

Table 4.2-A Maximum Individual Organ Dose at Receptor Location -- mrem From Gaseous Release Period: January March 1998 Receptor: Bound Cow / Goat Garden Cow / Meat Resident Meat Direction: N WSW SE W SE S Distance': 0.08 km 3.97 km 0.82 km 5.77 km 0.79 km 3.80 km Pathway'- DI DIVCG DIV DIVCM DI DIVM Age Class: Adult Bone 3.06E-03 4.77E-05 6.87E-04 2.29E-05 1.26E-04 3.34E-05 Gl-LLI 6.83E-02 2.20E-04 4.23E-03 1.55E-04 1.31 E-03 1.52E-04  : Kidney 6.82E-02 2.17E-04 4.13E-03 1.53E-04 1.31 E-03 1.46E-04 l Liver 6.81 E-02 2.15E-04 4.13E-03 1.52E-04 1.31 E-03 1.46E-04 Lung 6.92E-02 2.12E-04 4.14E-03 1.51 E-04 1.32E-03 1.46E-04 . Thyroid 8.13E-02 1.34E-03 5.10E-03 5.64E-04 1.53E-03 2.97E-04 Total Body 6.81 E-02 2.14E-04 4.14E-03 1.52E-04 1.31 E-03 1.47E-04 Age Class: Teen Bone 3.16E-03 7.58E-05 9.83E-04 3.40E-05 1.27E-04 4.71 E-05 GI-LLI 6.87E-02 2.61 E-04 4.67E-03 1.71 E-04 1.32E-03 1.61 E-04 Kidney 6.86E-02 2.61 E-04 4.55E-03 1.69E-04 1.32E-03 1.55E-04 Liver 6.85E-02 2.57E-04 4.55E-03 1.68E-04 1.31 E-03 1.54E-04 Lung 7.03E-02 2.52E-04 4.58E-03 1.67E-04 1.35E-03 1.55E-04 Thyroid 8.60E-02 1.98E-03 5.47E-03 7.66E-04 1.61 E-03 2.84E-04 Total Body 6.85E-02 2.56E-04 4.58E-03 1.68E-04 1.31 E-03 1.55E-04 Age Class: Child Bone 3.28E-03 1.77E-04 2.17E-03 7.73E-05 1.29E-04 1.05E-04 GI-LLI 6.10E-02 3.75E-04 6.32E-03 2.37E-04 1.18E-03 2.14E-04 l Kidney 6.10E-02 3.84E-04 6.24E-03 2.39E-04 1.18E-03 2.10E-04 l Liver 6.10E-02 3.78E-04 6.24E-03 2.37E-04 1.18E-03 2.10E-04 ) Lung 6.25E-02 3.68E-04 6.26E-03 2.34E-04 1.20E-03 2.10E-04 , Thyroid 8.29E-02 3.77E-03 7.58E-03 1.39E-03 1.55E-03 4.03E-04 , Total Body 6.09E-02 3.77E-04 6.30E-03 2.38E-04 1.18E-03 2.12E-04 Age Class: Infant Bone 3.14E-03 1.65E-04 1.19E-04 3.79E-05 1.27E-04 4.73E-06 GI-LLI 3.62E-02 3.00E-04 6.88E-04 1.03E-04 7.28E-04 2.28E-05 j Kidney 3.63E-02 3.26E-04 6.89E-04 1.11 E-04 7.29E-04 2.29E-05 i Liver 3.63E-02 3.21 E-04 6.89E-04 1.10E-04 7.29E-04 2.29E-05  ; Lung 3.76E-02 2.97E-04 7.11 E-04 1.03E-04 7.52E-04 2.41 E-05 i Thyroid 5.66E-02 8.29E-03 1.02E-03 2.69E-03 1.08E-03 4.57E-05 l Total Body 3.62E-02 3.11 E-04 6.88E-04 1.06E-04 7.28E-04 2.28E-05  ! Distances are measured with respect to the reactor vent ) 8 Pathway designations are as follows: D = Deposition (Ground Plane) I = Inhalation V = Vegetable Garden C = Cow Milk G = Goat Milk M = Meat Doses are conservative since it is unlikely for veptables to be grown outside or for animals to be fed on pasture during winter months. j i 26 i

l l Tabl3 4.2-B Maximum Individual Organ Dose at Receptor Location -- mrem From Gaseous Release Period: April-June 1998 l Receptor: Bound Cow / Goat Garden Cow / Meat Resident Meat Direction: N WSW SE W NW S Distance': 0.08 km 3.97 km 0.82 km 5.77 km 0.74 km 3.80 km Pathway *: DI DIVCG DIV DIVCM DI DIVM Age Class: Adult Bone 4.64 E-03 1.59E-04 3.34E-04 5.28E-05 1.11 E-04 5.78E-05 GI-LLI 1.03E-01 5.70E-04 2.92E-03 2.70E-04 1.74E-03 1.05E-04 Kidney 1.03E-01 5.70E-04 2.88E-03 2.67E 04 1.73E-03 9.80E-05 Liver 1.03E-01 5.66E-04 2.87E-03 2.66E-04 1.73E-03 9.80E-05 Lung 1.05E-01 5.48E-04 2.88E-03 2.63E-04 1.76E-03 9.76E-05 i Thyroid 1.54E-01 4.61 E-03 4.20E-03 1.18E-03 2.53E-03 3.19E-04 { Total Body 1.03E-01 5.68E-04 2.88E-03 2.68E-04 1.73E-03 1.02E-04 Age Class: Teen Bone 4.85E-03 2.46E-04 4.77E-04 7.59E-05 1.14E-04 /.93E-05 GI-LLI 1.04E-01 6.77E-04 3.23E-03 2.97E-04 1.75E-03 1.11 E-04 l Kidney 1.04E-01 6.90E-04 3.18E-03 2.97E-04 1.75E-03 1.04E-04 Liver 1.03E-01 6.83E-04 3.17E-03 2.95E-04 1.74E-03 1.04E-04 Lung 1.07E-01 6.53E-04 3.19E-03 2.91 E-04 1.79E-03 1.04E-04 Thyroid 1.70E-01 6.86E-03 4.46E-03 _ .61 E-03 2.78E-03 2.94E-04 Total Body 1.03E-01 6.78E-04 3.18E-03 ,,2.97E-04 1.74E-03 t .09E-04 Age Class: Child Bone 5.12E-03 5.51 E-04 1.05E-03 1.63E-04 1.18E-04 1.67E-04 GI-LLI 9.19E-02 9.72E-04 4.39E-03 4.13E-04 1.55E-03 1.45F-04 Kidney 9.22E-02 1.02E-03 4.36E-03 4.21 E-04 1.56E-03 1.40E-04 Liver 9.20E-02 1.01 E-03 4.36E-03 4.19E-04 1.55E-03 1.41 E-04 l Lung 9.47E-02 9.55E-04 4.37E-03 4.09E-04 1.60E-03 1.40E-04 I Thyroid 1.74E-01 1.32E-02 6.18E-03 2.96E-03 2.83E-03 4.23E-04 Total Body 9.18E-02 1.00E-03 4.39E-03 4.22E-04 1.55E-03 1.51 E-04 Age Class: infant Bone 4.83E-03 4.91 E-04 5.77E-05 7.29E-05 1.14E-04 4.43E-06 GI-LLI 5.46E-02 7.77E-04 4.56E-04 1.78E-04 9.36E-04 1.61 E-05 Kidney 5.49E-02 8.81 E-04 4.58E-04 1.98E-04 9.40E-04 1.62E-05 Liver 5.48E-02 8.95E-04 4.58E-04 1.99E-04 9.39E-04 1.62E-05 Lung 5.72E-02 7.72E-04 4.75E-04 1.79E-04 9.76E-04 1.75E-05 Thyroid 1.30E-01 2.94E-02 1.02E-03 5.84E-03 2.12E-03 4.86E-05 Total Body 5.46E-02 8.21 E-04 4.56E-04 1.86E-04 9.36E-04 1.61 E-05 Distances are measured with respect to the reactor vent 2 Pathway designations are as follows: D = Deposition (Ground Plane) I = Inhalation V = Vegetable Garden C = Cow Milk G = Goat Milk M = Meat 27

Tabla 4.2-C Maximum Individual Organ Dose at Receptor Location -- mrem From Gaseous Release Period: July-September 1998 Receptor: Bound Cow / Goat Garden Cow / Meat Resident Meat Direction: NNE WSW SE W ESE S Distance': 0.10 km 3.97 km 0.82 km 5.77 km 0.80 km 3.80 km Pathway": Di DIVCG DIV DIVCM DI DIVM Age Class: Adult Bone 3.88E-03 8.84E-05 2.98E-04 3.39E-05 2.82E-05 1.03E-05 GI-LLI 1.23E-01 4.22E-04 1.75E-03 2.02E-04 1.17E-03 1.42E-05 Kidney 1.23E-01 4.23E-04 1.70E-03 2.00E-04 1.17E-03 1.26E-05 Liver 1.22E-01 4.15E-04 1.70E-03 1.98E-04 1.16E-03 1.24E-05 Lung 1.25E-01 4.07E-04 1.71 E-03 1.96E-04 1.19E-03 1.24E-05 Thyroid 2.00E-01 3.64E-03 3.11 E-03 1.08E-03 1.86E-03 7.74E-05 Total Body 1.22E-01 4.14E-04 1.71 E-03 1.98E-04 1.16E-03 1.29E-05 Age Class: Teen Bone 4.20E-03 1.42E-04 4.42E-04 5.10E-05 3.11 E-05 1.45E-05 GI-LLI 1.24E-01 5.03E-04 1.93E-03 2.23E-04 1.18E-03 1.49E-05 Kidney 1.24E-01 5.12E-04 1.88E-03 2.23E-04 1.18E-03 1.33E-05 Liver 1.23E-01 4.99E-04 1.88E-03 2.20E-04 1.17E-03 1.31 E-05 Lung 1.28E-01 4.85E-04 1.89E-03 2.17E-04 1.21 E-03 1.33E-05 Thyroid 2.23E-01 5.42E-03 3.19E-03 1.50E-03 2.07E-03 6.84E-05 Total Body 1.23E-01 4.96E-04 1.89E-03 2.20E-04 1.17E-03 1.38E-05 Age Class: Child Bone 4.60E-03 3.35E-04 1.02E-03 1.17E-04 3.47E-05 3.24E-05 GI-LLI 1.09E-01 7.25E-04 2.62E-03 3.10E-04 1.04E-03 1.90E-05 Kidney 1.10E-01 7.59E-04 2.59E-03 3.17E-04 1.04E-03 1.80E-05 Liver 1.09E-01 7.39E-04 2.59E-03 3.12E-04 1.04E-03 1.78E-05 Lung 1.13E-01 7.11 E-04 2.60E-03 3.06E-04 1.08E-03 1.79E-05 Thyroid 2.32E-01 1.04E-02 4.48E-03 2.77E-03 2.15E-03 1.00E-04 Total Body 1.09E-01 7.37E-04 2.61 E-03 3.13E-04 1.04E-03 1.93E-05 Age Class: Infant Cone 4.17E-03 - 3.16E-04 1.74E-05 5.69E-05 3.08E-05 3.59E-07 GI-LLI 6.41 E-02 5.79E-04 2.54E-04 1.33E-04 6.06E-04 1.85E-06 Kidney 6.45E-02 6.54E-04 2.56E-04 1.51 E-04 6.10E-04 1.87E-% Liver 6.44E-02 6.42E-04 2.56E-04 1.48E-04 6.09E-04 1.87E-06 Lung 6.80E-02 5.73E-04 2.69E-04 1.33E-04 6.41 E-04 2.17E-06 Thyroid 1.78E-01 2.33E-02 6.85E-04 5.61 E-03 1.63E-03 9.19E-06 Total Body 6.41 E-02 6.09E-04 2.55E-04 1.40E-04 6.06E-04 1.85E-06

                 ' Distances are measured with respect to the reactor vent

• Pathway designations are as follows:

D = Deposition (Ground Plane) I = Inhalation V = Vegetable Garden C = Cow Milk G = Goat Milk M = Meat 28

l Tabla 4.2-D Maximum Individual Organ Dose at Receptor Location -- mrem From Gaseous Release Period: October-December 1998 Receptor: Bound Cow / Goat Garden Cow / Meat Resident Meat Direction: NNE WSW SE W ESE S Distance': 0.10 km 3.97 km 0.82 km 5.77 km 0.80 km 3.80 km Pathway : D1 DIVCG DIV DIVCM DI DIVM Age Class: Adult Bone 2.23E-03 2.53E-05 6.13E-04 2.17E-05 6.92E-05 2.01 E-05 GI-LLI 6.15E-02 1.51 E-04 3.03E-03 1.56E-04 1.13E-03 8.06E-05 Kidney 6.16E-02 1.52E-04 2.95E-03 1.56E-04 1.13E-03 7.81 E-05 Liver 6.14E-02 1.50E-04 2.94E-03 1.54E-04 1.13E-03 7.78E-05 Lung 6.22E-02 1.46E-04 2.94E-03 1.53E-04 1.14E-03 7.77E-05 Thyroid 1.15E-01 1.20E-03 6.54E-03 7.69E-04 2.03E-03 2.15E-04 Total Body 6.12E-02 1.49E-04 2.95E-03 1.55E-04 1.13E-03 7.87E-05 Age Class: Teen Bone 2.39E-03 4.03E-05 9.01 E-04 3.25E-05 7.19E-05 2.83E-05 GI-LLI 6.19E-02 1.79E-04 3.35E-03 1.72E-04 1.14E-03 8.52E-05 Kidney 6.22E-02 1.84E-04 3.26E-03 1.74E-04 1.14E-03 8.26E-05 Liver 6.19E-02 1.80E-04 3.25E-03 1.71 E-04 1.14E-03 8.23E-05 Lung 6.33E-02 1.74E-04 3.26E-03 1.69E-04 1.16E-03 8.24E-05 Thyroid 1.32E-01 1.78E-03 6.57E-03 1.06E-03 2.32E-03 2.02E-04 Total Body 6.16E-02 1.78E-04 3.27E-03 1.71 E-04 1.13E-03 8.35E-05 Age Class: Child Bone 2.60E-03 9.32E-05 2.06E-03 7.34E-05 7.54E-05 6.23E-05 GI-LLI 5.48E-02 2.59E-04 4.53E-03 2.41 E-04 1.01 E-03 1.14E-04 Kidney 5.52E-02 2.72E-04 4.48E-03 2.46E-04 1.02E-03 1.13E-04 Liver 5.50E-02 2.66E-04 4.47E-03 2.43E-04 1.02E-03 1.12E-04 Lung 5.62E-02 2.56E-04 4.47E-03 2.38E-04 1.04E-03 1.12E-04 Thyroid 1.43E-01 3.41 E-03 9.34E-03 1.96E-03 2.49E-03 2.90E-04 Total Body 5.48E-02 2.64E-04 4.52E-03 2.43E-04 1.01 E-03 1.15E-04 Age Class: infant Bone 2.39E-03 8.89E-05 5.21 E-05 3.67E-05 7.18E-05 1.35E-06 GI-LLI 3.22E-02 2.08E-04 4.58E-04 1.04E-04 6.08E-04 1.10E-05 Kidney 3.26E-02 2.33E-04 4.63E-04 1.17E-04 6.14E-04 1.12E-05 Liver 3.25E-02 2.31 E-04 4.62E-04 1.15E-04 6.13E-04 1.11 E-05 Lung 3.37E-02 2.06E-04 4.77E-04 1.03E-04 6.32E-04 1.16E-05 Thyroid 1.13E-01 7.60E-03 1.49E-03 3.91 E-03 1.97E-03 3.78E-05 Total Body 3.23E-02 2.18E-04 4.59E-04 1.08E-04 6.09E-04 1.11 E-05 Distances are measured with respect to the reactor vent 2 Pathway designations are as follows: D = Deposition (Ground Plane) I = Inhalation V = Vegetable Garden C = Cow Milk G = Goat Milk M = Meat Doses are conservative since it is unlikely for vegetables to be grown outside or for animals to be fed on pasture during winter months. 29 l

Table 4.2-E Maximum Individual Organ Dose at Receptor Location -- mrem From Gaseous Release Period: January-December 1998 Receptor: Bound Cow / Goat Garden Cow / Meat Resident Meat Direction: N WSW SE W ESE S Distance': 0.08 km 3.97 km 0.82 km 5.77 km 0.80 km 3.80 km Pathway *- DI DIVCG DIV DIVCM DI DIVM Age Class: Adult Bone 1.14E-02 2.90E-04 1.94E-03 1.25E-04 2.78E-04 1.22E-04 Gl-LLI 3.32E-01 1.39E-03 1.14E-02 7.91 E-04 4.40E-03 3.49E-04 Kidney 3.32E-01 1.39E-03 1.11 E-02 7.84E-04 4.40E-03 3.32E-04 Liver 3.31 E-01 1.37E-03 1.11 E-02 7.78E-04 4.39E-03 3.31 E-04 Lung 3.37E-01 1.34E-03 1.11 E-02 7.71 E-04 4.46E-03 3.31 E-04 Thyroid 5.17E-01 1.07E-02 1.90E-02 3.56E-03 6.61 E-03 9.60E-04 Total Body 3.31 E-01 1.37E-03 1.12E-02 7.80E-04 4.38E-03 3.37E-04 Age Class: Teen Bone 1.21 E-02 4.60E-04 2.83E-03 1.84E-04 2.86E-04 1.70ET4~ ) GI-LLI 3.34E-01 1.65E-03 1.26E-02 8.72E-04 4.43E-03 3.68E-04 Kidney 3.35E-01 1.68E-03 1.23E-02 8.72E-04 4.43E-03 3.51 E-04

  , l[ver           3.34E-01      1.65E-03     1.23E-02     8.63E-04      4.42E-03       3.50E-04

_Long 3.43E-01 1.60E-03 1.23E-02 8.52E-04 4.54E-03 3.51 E-04 j Thyroid 5.76E-01 1.59E-02 1.96E-02 4.90E-03 7.32E-03 8.94E-04 1 Total Body 3.33E-01 1.64E-03 1.23E-02 8.63E-04 4.41 E-03 3.58E-04 Age Class: Child Bone 1.30E-02 1.06E-03 6.39E-03 4.11 E-04 2.98E-04 3.70E-04 GI-LLI 2.96E-01 2.38E-03 1.71 E-02 1.21 E-03 3.93E-03 4.88E-04 Kidney 2.97E-01 2.48E-03 1.69E-02 1.24E-03 3.95E-03 4.77E-04 I Liver 2.96E-01 2.43E-03 1.69E-02 1.22E-03 3.94E-03 4.77E-04 i Lung 3.05E-01 2.34E-03 1.69E-02 1.20E-03 4.04E-03 4.76E-04 Thyroid 5.97E-01 3.04E-02 2.76E-02 9.00E-03 7.55E-03 1.28E-03 _ l Total Body 2.96E-01 2.42E-03 1.70E-02 1.23E-03 3.93E-03 , 4.54t:-04 l Age Class: infant Bone 1.21 E-02 9.84E-04 2.26E-04 1.97E-04 2.86E-04 9.17E-06 GI-LLI 1.74E-01 1.90E-03 1.76E-03 5.23E-04 2.37E-03 4.98E-05 Kidney 1.75E-01 2.13E-03 1.77E-03 5.83E-04 2.38E-03 5.02E-05 Liver 1.75E-01 2.11 E-03 1.77E-03 5.76E-04 2.38E-03 5.01 E-05 Lung 1.82E-01 1.89E-03 1.84E-03 5.22E-04 2.47E-03 5.35E-05 Thyroid 4.51 E-01 6.76E-02 4.23E-03 1.78E-02 5.70E-03 1.49E-04 Total Body 1.74E-01 1.99E-03 1.76E-03 5.45E-04 2.37E-03 4.98E-05 ' Distances are measured with respect to the reactor vent ' Pathway designations are as follows: D = Deposition (Ground Plane) I = Inhalation V = Vegetable Garden C = Cow Milk G = Goat Milk M = Meat 30

i 4.3 Doses From Liauid Effluent Releases Liquid effluent release data presented in Tables 2.3-A and 2.3-B were used as input to the Duke Engineering "YODA" computer programs to calculate radiation doses. The maximum individual doses resulting from radionuclides released in liquid effluents are presented in Tables 4.3-A through j 4.3-E. These tables cover the individual calendar quarters and the total calendar year, respectively. 1 Tables 4.3-A through 4.3-E summarize the maximum total body and organ doses for the adult, teen, and child age classes resulting from the major liquid exposure pathways. NRC Regulatory Guide 1.109 does not recognize the infant age class as being exposed to the liquid effluent pathways. j Therefore, doses for this age class are not included in any of the tables. I It should be noted that doses calculated for the entire year may not equal the sum of the doses for j the individual quarters. Doses from liquid effluents are based on the concentration (activity divided by volume) of radionuclides released in the effluent, as prescribed by the NRC in Regulatory Guide 1.109. If a larger proportion of activity is released with a relatively smaller volume of dilution water during a given quarter, the resulting concentration for that quarter will be higher than concentrations { from other quarters. This will result in a proportionally higher dose for that quarter. However, when that quarter's activity values are included in the annual sum, and divided by the total annual dilution flow, the resulting dose contribution will be smaller. In such a situation, the annual dose will actually be less than the sum of the individual quarterly doses. l Radioactivity released in liquid effluents from PNPS during 1998 resulted in a maximum total body dose (teen age class) of 0.00023 mrem. The maximum organ dose (child age class, bone) was 0.00093 mrem. l l 1 31

Table 4.3-A Maximum Individual Organ Doses By Exposure Pathway -- mrem From Liquid Release Period: January-March 1998 Exposure Saltwater Saltwater Shoreline Swimming / Pathway Fish Shellfish Deposits' Boating

• Total Age Class: Adult Bone 6.08E-05 1.69E-04 4.25E-06 5.49E-09 2.32E-04 GI-LLI 3.62E-05 9.81 E-05 4.25E-06 5.49E-09 1.36E-04 Kidney 1.57E-06 4.50E-07 4.25E-06 5.49E-09 4.15E-06 Liver 4.55E-05 1.18E-04 4.25E-06 5.49E-09 1.66E-04 Lung 2.28E-05 6.44E-05 4.25E-06 5.49E-09 8.93E-05 Thyroid 2.68E-08 1.19E-08 4.25E-06 5.49E-09 2.17E-06 Total Body 1.26E-05 3.14E-05 4.25E-06 5.49E-09 4.61 E-05 Age Class: Teen Bone 6.36E-05 1.54 E-04 1.19E-05 5.49E-09 2.29E-04 GI-LLI 2.76E-05 6.63E-05 1.19E-05 5.49E-09 1.06E-04 Kidney 1.60E-06 3.99E-07 1.19E-05 5.49E-09 1.39E-05 Liver 4.86E-05 1.11 E-04 1.19E-05 5.49E-09 1.71 E-04 Lung 2.79E-05 6.88E-05 1.19E-05 5.49E-09 1.09E-04 Thyroid 2.06E-08 7.99E-09 1.19E-05 5.49E-09 1.19E-05 Total Body 1.24E-05 2.90E-05 1.19E-05 5.49E-09 5.33E-05 Age Class: Child Bone 8.32E-05 2.34 E-04 2.48E-06 3.06E-09 3.20E-04 GI-LLI 1.08E-05 3.06E-05 2.48E-06 3.06E-09 4.39E-05 Kidney 1.31 E-06 3.78E-07 2.48E-06 3.06E-09 4.17E-06 Liver 4.70E-05 1.26E-04 2.48E-06 3.06E-09 1.75E-04 I Lung 2.44E-05 6.98E-05 2.48E-06 3.06E-09 9.67E-05 Thyroid 1.70E-08 7.65E-09 2.48E-06 3.06E-09 2.50E-06 Total Body 1.49E-05 4.26E-05 2.48E-06 3.06E-09 6.00E-05
• These doses are conservative since the same usage factor was applied for each quarter.

In reality, it is unlikely that anyone would be swimming or boating during these months. 1 However, the resulting dose is considerably lower than those from other pathways and does not contribute much to the total dose. 32

Table 4.3-B Maximum Individual Organ Doses By Exposure Pathway -- mrem From Liquid Release Period: April-June 1998 Exposure Saltwater Saltwater Shoreline Swimming / Pathway Fish Shellfish Deposits Boating Total Age Class: Adult Bone 1.15E-04 2.57E-04 9.91 E-06 2.19E-08 3.82E-04 GI-LLI 9.98E-05 2.32E 04 9.91 E-06 2.19E-08 3.42E-04 Kidney 1.81 E-05 5.23E-06 9.91 E-06 2.19E-08 3.33E-05 Liver 1.13E-04 1.91 E-04 9.91 E-06 2.19E-08 3.14E-04 Lung 3.84E-05 9.45E-05 9.91 E-06 2.19E-08 1.43E-04 Thyroid 1.39E-06 6.16E-07 9.91 E-06 2.19E-08 1.19E-05 Total Body 4.76E-05 6.36E-05 9.91 E-06 2.19E-08 1.21 E-04 Age Class: Teen Bone 1.21 E-04 2.33E-04 5.54E-05 2.19E-08 4.09E-04 GI-LLI 7.26E-05 1.51 E-04 5.54E-05 2.19E-08 2.79E-04 Kidney 1.84E-05 4.58E-06 5.54E-05 2.19E-08 7.84 E-05 Liver 1.19E-04 1.78E-04 5.54E-05 2.19E-08 3.52E-04 Lung 4.62E-05 1.01 E-04 5.54E-05 2.19E-08 2.03E-04 Thyroid 1.07E-06 4.14E-07 5.54 E-05 2.19E-08 5.69E-05 Total Body 3.65E-05 5.51 E-05 5.54E-05 , 2.19E-08 1.47E-04 Age Class: Child Bone 1.56E-04 3.49E-04 1.16E-05 1.22E-08 5.17E-04 GI-LLI 2.73E-05 6.69E-05 1.16E-05 1.22E-08 1.06E-04 Kidney 1.55E-05 4.46E-06 1.16E-05 1.22E-08 3.15E-05 Liver 1.10E-04 1.99E-04 1.16E-05 1.22E-08 3.21 E-04 Lung 3.98E-05 1.02E-04 1.16 E-05 1.22E-08 1.53E-04 Thyroid 8.83E-07 3.97E-07 1.10E 09 1.22E-08 1.29E-05 Total Body 3.18E-05 7.46E-05 1.1645 1.22E-08 1.18E-04 33 l

Table 4.3-C Maximum Individual Organ Doses By Exposure Pathway -- mrem From Liquid Release Period: July-September 1998 Exposure Saltwater Saltwater Shoreline Swimming / Pathway Fish Shellfish Deposits Boating Total Age Class: Adult Bone 1.26E-05 2.47E-05 1.61 E-06 3.24E-09 3.89E-05 GI-LLI 7.87E-06 2.34E-05 1.61 E-06 3.24E-09 3.29E-05 Kidney 2.39E-06 6.48E-07 1.61 E-06 3.24E-09 4.65E-06 Liver 1.20E-05 1.63E-05 1.61 E-06 3.24E-09 2.99E-05 Lung 3.41 E-06 7.79E-06 1.61 E-06 3.24E-09 1.28E-05 Thyroid 1.09E-08 4.81 E-09 1.61 E-06 3.24E-09 1.63E-06 Total Body 6.14E-06 7.02E-06 1.61 E-06 3.24E-09 1.48E-05 Age Class: Teen i Bone 1.31 E-05 2.19E-05 9.00E-06 3.24E-09 4.40E-05 I GI-!.LI 5.74E-06 1.50E-05 9.00E-06 3.24E-09 2.97E-05 Kidney 2.48E-06 5.88E-07 9.00E-06 3.24 E-09 1.21 E-05

                                                                                 )

l Liver 1.26E-05 1.52E-05 9.00E-06 3.24E-09 3.68E-05 i Lung 4.16E-06 8.33E-06 9.00E-06 3.24 E-09 2.15E-05 Thyroid 8.35E-09 3.23E-09 9.00E-06 3.24E-09 9.01 E-06 Total Body 4.28E-06 5.81 E-06 9.00E-06 3.24E-09 1.91 E-05 Age Class: Child Bone 1.66E-05 3.20E-05 1.89E-06 1.80E-09 5.05E-05 GI-LLI 2.13E-06 6.49E-06 1.89E-06 1.80E-09 1.05E-05 Kidney 2.13E-06 5.86E-07 1.89E-06 1.80E-09 4.60E-06 Liver 1.18E-05 1.70E-05 1.89E-06 1.80E-09 3.07E-05 Lung 3.58E-06 8.43E-06 1.89E-06 1.80E-09 1.39E-05 Thyroid 6.89E-09 3.10E-09 1.89E-06 1.80E-09 1.90E-06 Total Body 3.18E-06 7.43E-06 1.89E-06 1.80E-09 1.25E-06 h 34

Table 4.3-D Maximum Individual Organ Doses By Exposure Pathway -- mrem From Liquid Release Period: October-December 1998 i Exposure Saltwater Saltwater Shoreline Swimming / Pathway Fish Shellfish Deposits Boating' Total Age Class: Adult Bone 8.54E-06 2.08E-05 4.41 E-07 8.44E-10 2.98E-05 GI-LLI 4.00E-06 1.16E-05 4.41 E-07 8.44E-10 1.60E-05 Kidney 7.37E-07 2.00E-07 4.41 E-07 8.44E-10 1.38E-06 Liver 6.95E-06 1.43E-05 4.41 E-07 8.44E-10 2.17E-05

                                                                                          )

j Lung 2.88E-06 7.61 E-06 4.41 E-07 8.44E-10 1.09E-05 ' Thyroid 7.34E-09 3.25E-09 4.41 E-07 8.44E-10 4.53E-07 Total Body 2.62E-06 4.15E-06 4.41 E-07 8.44E-10 7.21 E-06 Age Class: Teen Bone 8.93E-06 1.89E-05 2.46E-06 8.44E-10 3.03E-05 GI-LLI 3.08E-06 7.81 E-06 2.46E-06 8.44E-10 1.34E-05 l Kidney 7.65E-07 1.82E-07 2.46E-06 8.44E-10 3.41 E-06 Liver 7.39E-06 1.34E-05 2.46E-06 8.44E-10 2.33E-05 Lung 3.52E 06 8.14E-06 2.46E-06 8.44E-10 1.41 t -05_ Thyroid 5.65E-09 2.19E-09 2.46E-06 8.44E-10 2.47E-06 _ Total Body 2.10E-06 3.68E-06 2.46E-06 8.44E-10 8.24E-06 Age Class: Child Bone 1.16E-05 2.85E-05 5.14E-07 4.71 E-10 4.06E-05 GI-LLI 1.23E-06 3.61 E-06 5.14E-07 4.71 E-10 5.35E-06 Kidney 6.59E-07 1.81 E-07 5.14E-07 4.71 E-10 1.35E-06 Liver 7.06E-06 1.52E-05 5.14E-07 4.71 E-10 2.28E-05 Lung 3.06E-06 8.25E-06 5.14E-07 4.71 E-10 1.18E-05 Thyroid 4.66E-09 2.10E-09 5.14E-07 4.71 E-10 5.21 E-07 Total Body 2.01 E-06 5.20E-06 5.14E-07 4.71 E-10 7.72E-06

• These doses are conservative since the same usage factor was applied for each quarter.

In reality, it is unlikely that anyone would be swimming or boating during these months. However, the resulting dose is considerably lower than those from other pathways and does not contribute much to the total dose. 35

Table 4.3-E Maximum Individual Organ Doses By Exposure Pathway -- mrem , From Liquid Release Period: January-December 1998 j Exposure Saltwater Saltwater Shoreline Swimming / Pathway Fish Shellfish Deposits Boating Total Age Class: Adult Bone 1.98E-04 4.73E-04 1.42E-05 3.17E-08 6.85E-04 GI-LLI 1.49E-04 3.67E-04 1.42E-05 3.17E-08 5.30E-04 Kidney 2.30E-05 6.58E-06 1.42E-05 3.17E-08 4.39E-05 Liver 1.79E-04 3.42E-04 1.42E-05 3.17E-08 5.35E-04 Lung 6.78E-05 1.75E-04 1.42E-05 3.17E-08 2.57E-04 Thyroid 1.45E-06 6.42E-07 1.42E-05 3.17E-08 1.64E-05 Total Body 6.94E-05 1.07E-04 1.42E-05 3.17E-08 1.91 E-04 Age Class: Teen Bone 2.07E-04 4.30E-04 7.93E-05 3.17E-08 7.16E-04 GI-LLI 1.10E-04 2.41 E-04 7.93E-05 3.17E-08 4.30E-04

                                                                               )

Kidney 2.34E-05 5.80E-06 7.93E-05 3.17E-08 1.09E-04 , Liver 1.88E-04 3.19E-04 7.93E-05 3.17E-08 5.86E-04 { Lung 8.21 E-05 1.87E-04 7.93E-05 3.17E-08 3.48E-04  ! Thyroid 1.11 E-06 4.32E-07 7.93E-05 3.17E-08 8.09E-05 Total Body 5.56E-05 9.41 E-05 7.93E-05 3.17E-08 2.29E-04 Age Class: Child Bone 2.68E-04 6.47E-04 1.65E-05 1.77E-08 9.32E-04 GI-LLI 4.17E-05 1.08E-04 1.65E-05 1.77E-08 1.66E-04 Kidney 1.98E-05 5.65E-06 1.65E-05 1.77E-08 4.20E-05 Liver 1.77E-04 3.58E-04 1.65E-05 1.77E-08 5.52E-04 Lung 7.12E-06 1.89E-04 1.65E-05 1.77E-08 2.77E-04 j Thyroid 9.21 E-07 4.14E-07 1.65E-05 1.77E-08 1.79E-05 l Total Body 5.22E-05 1.30E-04 1.65E-05 1.77E-08 1.99E-04 36

l l 5.0 POPULATION AND AVERAGE INDIVIDUAL DOSES

 .Neither the PNPS Technical Specifications nor the ODCM contain limits related to population doses.

However, NRC Regulatory Guide 1.21 (Reference 1) recommends calculation of population and l average individual doses to the total body as part of the overall assessment of radiological impact on I

man. l The population dose is the collective sum of doses received by the entire population residing within l 50 miles of PNPS. For example, the average individual receives about 300 to 400 mrem (0.3 to 0.4 rem) per year from cosmic radiation and naturally-occurring radionuclides in the air, soil, water, and food. Assuming each person in the population of 4.18 million people living within 50 miles of PNPS l received a dose of 350 mrem (0.35 rem) from such natural radiation exposure, the population total ( body dose would be estimated to be: 0.35 rem / person

• 4.18 million people = 1.46 million person-rem Total body doses to the entire population within 50 miles of Pilgrim Station resulting from radionuclides in effluents released offsite were calculated using the population distribution based on 1980 census data.

These cumulative population doses were also calculated using methods presented in the PNPS ODCM, NRC Regulatory Guide 1.109, NRC Regulatory Guide 1.111, and the PNPS Appendix i Evaluation. Population doses were calculated separately for gaseous and liquid effluents, and are presented in Tables 5.1-A and 5.2-A , respectively. Unlike the ODCM effluent controls addressing doses to maximum exposed individuals resulting from the three types of releases addressed in Section 4 of this report, population doses for gaseous effluents combine the dose contributions from l noble gases along with those from radioactive particuirtr s, iodines, and tritium. Also, in the case of the population doses, averaae consumption and use factors for various pathways from Table E-4 of the PNPS ODCM were assumed, rather than the maximum use factors assumed for the maximum exposed individual. I l Information related to liquid and gaseous effluent releases, as summarized in Section 2 of this report, l were used as input to computer programs to calculate the resulting total body doses. The Duke l Engineering "YODA"-series of computer programs was used to compile the dose contributions to the ! total body in each age class from major exposure pathways. In addition to the population total body doses, doses to an average individual in the population were calculated. These average total body doses were estimated by dividing the total population dose (person-rem) by the total population of 4.18 million people within 50 miles of PNPS. The average individual doses, in mrem, are presented for gaseous and liquid effluents in Tables 5.1 B and 5.2-C, respectively. 37 i l

5.1 Dos *s From Gas *ous Effluent Rnleas*s Population total body doses (person-rem) resulting from releases of radionuclides in gaseous effluents are presented in Table 5.1-A. These population doses represent the collective sum of doses received by the entire population living within 50 mile of PNPS. This table includes the doses for the four calendar quarters and entire year resulting from the various gaseous exposure pathways. The corresponding average individual total body doses (mrem) are presented in Table 5.1-B. Radioactivity released in gaseous effluents from PNPS during 1998 resulted in a cumulative population total body dose of 0.58 person-rem. The corresponding average individual total body dose was 0.00014 mrem. Again, it should be noted that the calculated doses for the entire year may be different from the sum of the individual four quarters. This difference is due to the methods and equations used to calculate dose from gaseous effluents, as prescribed by the NRC in Regulatory Guide 1.109. A more detailed discussion of the reasons for the differences can be found in Sections 4.1 and 4.2, in the discussion of maximum individual doses from gaseous effluent releases. 1 1 r 38

Table 5.1-A Population Doses From Gaseous Effluent Releases Durina 1998 Population Total Body Dose : person-rem Exposure Pathway Jan-Mar Apr-Jun Jul-Sep Oct-Dec Jan-Dec Noble Gas 6.85E-02 1.84E-01 1.58E-01 1.30E-01 5.32E-01 Ground Deposition 3.16E-04 4.94E-04 7.62E-05 1.49E-04 9.27E-04 inhalation 6.72E-03 1.54E-02 8.38E-03 8.29E-03 3.90E-02 Vegetables 6.11 E-04* 1.39E-03 7.59E-04 6.02E-04* 3.39E-03 Milk 4.48E-04* 9.97E-04 5.77E-04 4.64E-04* 2.51 E-03 Meat 2.71 E-05* 5.79E-05 3.28E-05 2.58E-05* 1.45E-04 Total 7.66E-02 2.02E-01 1.68E-01 1.40E-01 5.78E-01 Table 5.1-B Average Individual Doses From Gaseous Effluer.t Releases During 1998 Average Individual Total Body Dose : mrem Exposure Pathway Jan-Mar Apr-Jun Jul-Sep Oct-Dec Jan-Dec Noble Gas 1.64E-05 4.40E-05 3.78E-05 3.11 E-05 1.27E-04 Ground Deposition 7.56E-08 1.18E-07 1.82E-08 3.56E-08 2.22E-07 Inhalation 1.61 E-06 3.68E-06 2.00E-06 1.98E-06 9.33E-06 Vegetables 1.46E-07* 3.32E-07 1.81 E-07 1.44E-07* 8.11 E-07 Milk 1.07E-07* 2.38E-07 1.38E-07 1.11 E-07* 6.00E-07 Meat 6.48E-09* 1.38E-08 7.84E-09 6.17E-09* 3.47E-08 Total 1.83E-05 4.84E-05 4.01 E-05 3.34E-05 1.38E-04

• Dose estimates are conservative since vegetables are not grown outside during winter months and animals are generally not fed on pasture during winter months.

39

5.2 Dosss from Liauid Effluent Releases Population total body doses (person-rem) resulting from releases of radionuclides in liquid effluents are presented in Table 5.2-A. These population doses represent the collective sum of doses received j by the entire population living within 50 mile of PNPS. This table includes the doses for the four l calendar quarters and entire year resulting from the various liquid exposure pathways. The corresponding average individual total body doses (mrem) are presented in Table 5.2-B. l Radioactivity released in liquid effluents from PNPS during 1998 resulted in a cumulative population { total body dose of 0.0025 person-rem. The corresponding average individual total body dose was i 0.00000000059 mrem.

                                                                                                      ]

Again, it should be noted that the calculated doses for the entire year may be different from the sum of the individual four quarters. This difference is due to the methods and equations used to calculate dose from liquid effluents, as prescribed by the NRC in Regulatory Guide 1.109. A more detailed discussion of the reasons for the differences can be found in Section 4.3, in the discussion of maximum individual doses from liquid effluer.t releases. l l 40

Tabis 5.2-A Population Doses From Liquid Effluent Releases During 1998 Population Total Body Dose : person-rem Exposure Pathway Jan-Mar Apr-Jun Jul-Sep Oct-Dec Jan-Dec Fish 2.35E-04 - 7.77E-04 9.57E-05 4.38E-05 1.16E-03 Shellfish 3.60E-04 6.98E-04 7.49E-05 4.64E-05 1.18E-03 Shoreline 2.40E-05* 9.75E-05 1.49E-05 3.93E-06* 1.41 E-04 Swimming / Boating 5.50E-08* 2.19E-07 3.24E-08 8.43E-09* 3.17E-07 Total 6.19E-04 1.57E-03 1.86E-04 9.41 E-05 2.48E-03 Table 5.2-A Average individual Doses From Liquid Effluent Releases During 1998 Average Individual Total Body Dose : mrem Exposure Pathway Jan-Mar Apr-Jun Jul-Sep Oct-Dec Jan-Dec Fish 5.63E-08 1.86E-07 2.29E-08 1.05E-08 2.77E-07 Shellfish 8.61 E-08 1.67E-07 1.79E-08 1.11 E-08 2.83E-07 Shoreline 5.73E-09' 2.33E-08 3.56E-09 9.39E-10* 3.38E-08 Swimming / Boating 1.31 E-11

• 5.24E-11 7.74E-12 2.02E-12* 7.58E-11

  . Total                    1.48E-07      3.76E-07      4.44E-08    2.25E-08    5.94E-07

• Doses are conservative since swimming and beach activity during these months is very limited.

41

6.0 OFFSITE AMBIENT RADIATION MEASUREMENTS The PNPS ODCM does not contain control limits related specifically to offsite ambient radiation exposure. However, Regulatory Guide 1.21 (Reference 1) recommends calculation of ambient radiation exposure as part of the overall assessment of radiological impact on man. Thermoluminescent dosimeters (TLDs) are located at 83 sites beyond the boundary of the PNPS restricted / protected area. A number of these TLDs are located within the site boundary, on Boston Edison property in close proximity to the station proper. The TLDs are collected on a quarterly basis and used to calculate the ambient radiation exposure in milliroentgen (mR) over the exposure period. These TLDs are grouped into four zones of increasing distance from the station. Average exposure values for each of these zones were calculated for each calendar quarter and the total year. The average exposure values (mR) for the four zones are presented in Table 6.0. In addition to responding to ambient radiation exposure, TLDs will also record radiation resulting from noble gases (plume and immersion exposure), particulate materials deposited on the ground, cosmic i rays from outer space, and from naturally-occurring radioactivity in the soil and air. Typically, the l exposure from cosmic rays and other natural radioactivity components is about 40 to 70 mR/ year. As calculated in Sections 4.1 and 4.2 of this report, the ambient radiation component of doses from PNPS effluent emissions are below 1 mrem /yr and would not be discernible above the natural radiation exposure levels. The major source of ambient radiation exposure from PNPS results from high energy gamma rays emitted from nitrogen-16 (N-16) contained in steam flowing through the turbine. Although the N-16 is  ; enclosed in the process lines and turbine and is not released into the environment, the ambient i radiation exposure and sky shine from this contained source accounts for the majority of the radiation dose, especially in close proximity to the station. Other sources of ambient radiation exposure include radiation emitted from contained radioactive materials and/or radwaste at the facility. Despite these sources of ambient radiation exposure at PNPS, increases in exposure from ambient radiation j are typically not observable above background radiation levels at locat;ons beyond Boston Edison controlled property. The average exposure values presented in Table 6.0 appear to indicate an elevation in ambient exposures in Zone 1, those TLDs within 2 miles of PNPS. Most of this apparent elevation is due to increases in exposure levels measured at TLD locations on Boston Edison property in close proximity to the station proper. For example, the annual exposure at TLD location OA, located at the Overlook Area near the PNPS Health Club (l&S Building), was 606 mR for the entire year. This location is immediately adjacent to the station proper and overlooks the turbine building, therefore receiving the highest direct ambient and sky shine exposure. When the near-site TLDs (those located within 0.6 km of the Reactor Building) are removed from the calculation of averages, the mean annual exposure in Zone 1 falls from 97.6 89.8 mR/yr to 63.7 i 7.5 mR/yr. Such a corrected dose is not statistically different from the Zone 4 average of 61.8 6.7 mR/yr. Although the annual exposure at TLD locatian OA was 544 mR above the average Zone 4 exposure rate, this area is not continuously occupied by members of the general public. When adjusted for such occupancy, a hypothetical member of the public who was at this location 'or 40 hours per year would only receive an incremental dose of 2.5 mrem over natural background radiation levels. At the nearest residence 0.80 kilometers (0.5 miles) southeast of the PNPS P.sactor Building, the annual exposure was calculated as being 60.9 6.5 mR, which compares quite well to the Zone 4 annual average of 61.8 i 6.7 mR. 42

It must bn emphasiz:d that the projected ambient exposures discussed on the previous page are calculated to occur to a maximum exposed hvoothetical individual. Even though conservative assumptions are made in the projection of these dose consequences, all of the projected doses are well below the NRC dose limit of 100 mrem /yr specified in 10CFR20.1301, as well as the EPA dose limit of 25 mrem /yr specified in 40CFR190. Both of these limits are to be applied to real members of the general public, so the fact that the dose to the hypothetical maximum-exposed individual is within the limits ensures that any dose received by a real member of the public would be smaller and well within any applicable limit. In 1994, Boston Edison contracted with the Plymouth Athletic Club to provide health club services in the old training facility (l&S Building) overlooking the plant. This site is immediately adjacent to the protected area boundary near monitoring location OA and receives appreciable amounts of direct ambient and sky shine exposure from the turbine building. Although the personnel assigned to this facility are contractors of Boston Edison Company, and some have received Level 1 general employee training, they are considered to be members of the public. Due to their extended presence in the facility (2000 hr) during 1998, these personnel represent the most conservative case in regards to ambient radiation exposure to a member of the public. Their annual incremental radiation dose above background during 1998 is estimated as being about 43 mrem, based on the average exposure measured by three TLDs in the building. The exposures measured by these three TLDs located in the health club would also include any increase in ambient radiation resulting from noble gases and/or particulate activity deposited on the ground from gaseous releases. However, they would not indicate any internal dose received by these contractor personnel from inhalation of small amounts of PNPS-related radioactivity contained in the air. An environmental air sampler located immediately adjacent to the health club did not indicate any PNPS-related activity during 1998. Dose calculations performed in the same manner as those outlined in Section 4.2 yielded a projected total body dose to the maximum-exposed contractor (2000 hr/yr exposure) of about 0.005 mrem, resulting from inhalation. Again, it must b3 emphasized that this exposure was received by personnel who are contractors of Boston Edison Company, working in a facility on property under the ownership and control of Boston Edison. Since this exposure was received within the owner-controlled area, it is not used for comparison to the annual dose limit of 25 mrem /yr specified in 40CFR190. This regulation expressly applies to areas at or beyond the owner-controlled property, and is not applicable in this situation. As stated earlier, TLDs at and beyond the site boundary do not indicate elevated ambient radiation levels resulting from the operation of Pilgrim Station. Although some of the TLDs in close proximity to PNPS indicate increases in exposure levels from ambient radiation, such increases are localized to areas under Boston Edison control. For members of the general public who are not employed or contracted with Boston Edison and are accessing Boston Edison controlled areas (e.g., Shorefront Recreation Area, Health Club, parking lots, etc.), such increases in dose from ambient radiation exposure are estimated as being less than 3 mrem / year. 43

Table 6.0 Average TLD Exposures By Distance Zone During 1998 i Average Exposure Standard Deviation: mR/ period Exposure Zone 1* Zone 2 Zone 3 Zone 4 , Period 0-3 km 3-8 km 8-15 km >15 km Jan-Mar 24.3 i 23.3 15.5 i 2.7 15.3 i 1.7 15.8 i 1.7 Apr-Jun 23.6 i 22.2 14.1 i 2.9 13.8 2.1 14.2 i 1.4 Jul-Sep 24.7 i 22.2 15.7 i 3.3 15.1 1.8 16.2 i 2.0 Oct Dec 25.0 i 23.0 15.2 i 2.8 15.2 i 1.6 15.6 i 1.4 1 Jan-Dec 97.6 i 89.8** 60.4 i 11.8 59.5 i 7.2 61.8 i 6.7

• Zone 1 extends from the PNPS restricted / protected area boundary outward to 3 kilometers (2 miles), and includes several TLDs located within the site boundary.

" When corrected for TLDs located within the site boundary, the Zone 1 annual average is calculated to be 63.7 i 7.5 mR/yr. l 1 I l I i 44

7.0 PERCENT OF ODCM EFFLUENT CONTROL LIMITS The PNPS ODCM contains dose and concentration limits for radioactive effluents. In addition, the  ! effluent controls specified ensure that radioactive releases are maintained as low as reasonably achievable. The percentage of the PNPS ODCM Control limit values were determined from doses calculated in Section 4, the effluent releases summarized in Section 2, and the ODCM Control limits / objectives listed in Tables 7.1 and 7.2. The percent of applicable control limit values are provided to supplement the information provided in the Section 2 of this report. The format for the percent of applicable limits is modified from that prescribed in Regulatory Guide 1.21 (Reference 1) to accommodate the Radioactive Effluents Technical Specifications (RETS) which became effective March 01, 1986. The percentages have been grouped according to whether the releases were via liquid or gaseous effluent pathways. 7.1 Gaseous Effluent Releases Dose-based effluent controls related to exposures arising from gaseous effluent releases are presented in Table 7.1. The maximum quarterly air doses and annual whole body doses listed in Table 4.1 were used to calculate the percentage values shown in Table 7.1. All doses resulting from noble gas exposure were a small percentage of the applicable effluent control. Organ dose limits for the maximum-exposed individual from radioactive particulates, iodines, and tritium from the PNPS ODCM are also shown in Table 7.1. The maximum quarterly and annual organ doses from Tables 4.2-A through 4.2-E were used to calculate the percentages shown in Table 7.1. The resulting organ doses from Pilgrim Station's gaseous releases during 1998 were a small percentage of the corresponding effluent control. 45

Table 7.1 Percent of ODCM Effluent Control Limits for Gaseous Effluent Releases During 1998 A. Instantaneous Dose Rate Limit - Noble Gases PNPS ODCM Control 3.3.1.a Limit: 500 mrem /yr Total Body Dose Period Value - mrem /vr Fraction of Limit January-December 8.81 E-02 1.76E-02% B. Instantaneous Dose Rate Limit - Noble Gases PNPS ODCM Control 3.3.1.a Limit: 3000 mrem /yr Skin Dose Period Value - mrem /vr Fraction of Limit January-December 1.27E-01 4.23E-03% C. Instantaneous Dose Rate Limit - Particulates, lodines, & Tritium PNPS ODCM Control 3.3.1.b Limit: 1500 mrem /yr Organ Dose Period Value - mrem /vr Fraction of Limit January-December 5.97E-01 3.98E-02% D. Quarterly Dose Objective - Noble Gas Gamma Air Dose PNPS ODCM Control 3.3.2.a Objective: 5 mrad Gamma Air Dose Period Value - mrad Fraction of Limit January-March 1.82E-02 3.64E-01 % April-June 3.29E-02 6.58E-01% July-September 7.92E-02 1.58E+00% October-December 5.82E-02 1.16E+00% E. Annual Dose Objective - Noble Gas Gamma Air Dose PNPS ODCM Control 3.3.2.b Objective: 10 mrad Gamma Air Dose Period Value - mrad /vr Fraction of Limit January-December 1.31 E-01 1.31 E+00% 46 i

Tabla 7.1 (continued) Percent of ODCM Effluent Control Limits for Gaseous Effluent Releases During 1998 F. Quarterly Dose Objective - Noble Gas Beta Air Dose PNPS ODCM Control 3.3.2.a Objective: 10 mrad Beta Air Dose Period Value - mrad Fraction of Limit January-March 4.10E-03 4.10E-02% April-June 3.57E-03 3.57E-02% July-September 1.46E-01 1.46E+00% October-December 2.78E-03 2.78E-02% G. Annual Dose Objective - Noble Gas Gamma Air Dose PNPS ODCM Control 3.3.2.b Objective: 20 mrad Beta Air Dose Period Value - mrad /vr Fraction of Limit January-December 9.72E-02 4.86E-01% H. Quarterly Dose Objective - Particulates, lodines, & Tritium PNPS ODCM Control 3.3.3.a Objective: 7.5 mrem Organ Dose Period Value - mrem Fraction of Limit 1 January-March 8.60E-02 1.15E+00% ) April-June 1.74E-01 2.32E+00% July-September 2.32E-01 3.09E+00% October-December 1.43E-01 1.91 E+00%

  ^

l. Annual Dose Objective - Particulates, lodines, & Tritium PNPS ODCM Control 3.3.3.b Objective: 15 mrem Organ Dose Period Value - mrem /vr Fraction of Limit  ;

January-December 5.97E-01 3.98E+00% 47

r. 7.2 Liauid Effluent Releases Liquid effluent concentration limits and dose objectives from the PNPS ODCM are shown in Table 7.2. The quarterly average concentrations from Table 2.3-A were used to calculate the percent , concentration limits. The maximum quarterly and annual whole body and organ doses from Tables 4.3 A through 4.3-E were used to calculate the percentages shown in Table 7.2. The resulting concentration and doses from Pilgrim Station's liquid releases during 1998 were a very small , percentage of the corresponding effluent control. I l j 48

r l l Table 7.2 Percent of ODCM Effluent Control Limits for Liquid Effluent Releases During 1998 A. Fission and Activation Product Effluent Concentration Limit PNPS ODCM Control 3.2.1 Limit: 10CFR20 Appendix B, Table 2, Column 2 Value l Period ' Value - uCi/mL Fraction of Limit ! January-March 2.10E-09 2.81 E-02% April-June 2.79E-09 1.13E-01 % July-September 6.21 E-10 3.45E-02% October-December 6.79E-10 2.47E-02% l B. Tritium Average Concentration Limit l PNPS ODCM Control 3.2.1 Limit: 1.0E-03 Ci/mL l Period Value - uCi/mL Fraction of Limit January-March 5.79E-08 5.79E-03% April-June 1.43E-06 1.43E-01% July-September 2.06E-08 2.06E-03% October-December 3.35E-08 3.35E-03% C. Dissolved and Entrained Noble Gases Concentration Limit PNPS ODCM Control 3.2.1 l Limit: 2.0E-04 pCi/mL l Period Value - uCi/mL Fraction of Limit ] January-March NDA --

April-June NDA --

1 I July September NDA -- October-December NDA -- l I l 49 l l

Table 7.2 (continued) Percent of ODCM Effluent Control Limits for Liquid Effluent Releases During 1998 D. Quarterly Total Body Dose Objective PNPS ODCM Control 3.2.2.a

l. Objective: 1.5 mrem Total Body Dose Period Value - mrem Fraction of Limit January-March 6.00E-05 4.00E-03%

April-June 1.47E-04 9.80E-03% , July-September 1.91 E-05 1.27E-03%  ! October-December 8.24E-06 ' 5.49E-04%

                                                                                                   ]

E. Annual Total Body Dose Objective PNPS ODCM Control 3.2.2.b Objective: 3 mrem Total Body Dose

• Period Value - mrem Fraction of Limit l January-December 2.29E-04 7.63E-03%

F. Quarterly Organ Dose Objective PNPS ODCM Control 3.2.2.a Objective: 5 mrem Organ Dose Period Value - mrem Fraction of Limit January-March 3.20E-04 6.40E-03%

            . April-June                         5.17E-04                     1.03E-02%

July-September 5.05E-05 1.01 E-03% October-December 4.06E-05 8.12E-04% l G. Annual Organ Dose Objective PNPS ODCM Control 3.2.2.b Objective: 10 mrem Organ Dose Period Value - mrem Fraction of Limit January-December 9.32E-04 9.32E-03% l i - ( l 50 l

8.0 RADIOACTIVE WASTE DISPOSAL DATA Radioactive wastes which were shipped offsite for processing and disposal during the reporting period are described in Table 8.0, in the standard NRC Regulatory Guide 1.21 format. The total quantity of radioactivity in Curies and the total volume in cubic meters are summarized in Table 8.0 for the following waste categories:

• Spent resins, filter sludges, and evaporator bottoms;
• Dry compressible wastes, contaminated equipment, etc.;

e Irradiated components, control rods, etc.; and, e Other. During the reporting period, a volume of 62 cubic meters of spent resins, filter sludges, etc., containing 495 Curies of radioactivity, was shipped from PNPS for processing and disposal. This category of waste resulted in a final disposal volume of 1.2 cubic meters. Dry compressible wastes and contaminated equipment shipped during the period totaled 990 cubic meters and contained 0.76 Curies of radioactivity. Following processing and volume reduction, the disposal volume of these wastes was 97 cubic meters. No irradiated components were shipped during the reporting period. No shipments of irradiated fuel were made during the reporting period. Estimates of major radionuclides, those comprising greater than 1% of the total activity in each waste category shipped, are listed in Table 8.0. Seven shipments to Memphis, TN (Hake, Inc.), 8 shipments to Oak Ridge, TN (GTS Duratek), and 6 shipments to Oak Ridge, TN (Molten Metal Technology) were made during the reporting period. i 51

Tabla 8.0 Pilgrim Nuclear Power Station Effluent and Waste Disposal Report Solid Waste and Irradiated Fuel Shipments January-June 1998 A. SOLID WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel)

1. Estimate of volume and activity content by type of waste Jan-Jun 1998 Type of waste Volume - m' Curies Total Error

a. Spent resins, filters, filter sludges, 2.37E+01 5.50E+01 i 25%

evaporator bottoms, etc.

b. Dry compressible waste, contaminated 1.06E+02 2.41 E-02 i 25%

equipment, etc.

c. Irradiated components, control rods, etc. None None N/A

d. Other (describe) None None N/A l

2. Estimate of major nuclide composition by type of waste' Type of waste 7 Radionuclide Abundance Total Error l

a. Spent resins, filters, filter sludges, Mn-54 1.92E+00% i 25 % I evaporator bottoms, etc. Fe-55 2.66E+01% i 25 % l Co-60 4.29E+01% i 25 %

Ni-63 2.12E+00% i 25% Cs-137 2.56E+01% i 25 %

b. Dry compressible waste, contaminated Mn-54 5.91 E+00% i 25%

equipment, etc. Fe-55 7.90E+01% i 25 % Co-60 1.21 E+01% i 25% ~ Cs-137 1.65E+00% i25%-

c. Irradiated components, control rod 5, etc. None None N/A

d. Other (describe) None None l N/A

' ' Major"is defined as any radionuclide comprising >1% of the totalactivityin the waste category.

3. Solid Waste Disposition Numberof Shipments Mode of Transportation Destination 2 Tractor-trailer Hake Associates,"

Memphis, TN 5 Tractor-trailer Molten Metal Technology," Oak Ridge, TN ' This processorprovides volume reduction services for dry compressible waste, contaminated equipment, etc. Remaining radioactive wastes willbe shipped to either Chem Nuclear Systems, Inc. In Bamwell, SC, or Envirocare of Utah for final disposal. I B. IRRADIATED FUEL SHIPMENTS & DISPOSITION Number of Shipments Mode of Transportation Dest;. , ;n None N/A N/A 52 l

p l l Tcble 8.0 (continuod) . Pilgrim Nuclear Power Station ! Effluent and Waste Disposal Report Solid Waste and irradiated Fuel Shipments July-December 1998 A. SOLID WASTE SHIPPED OFFSITQOR BURIAL OR DISPOSAL (Not irradiated fuel)

 - 1. Estimate of volume and activity content by type of waste i                                                                               Jul-Dec 1998 I                    Type of waste                          Volume - m*             Curies         Total Error

a. Spent resins, filters, filter sludges, 3.79E+01 4.40E+02 i25% j evaporator bottoms, etc. I

b. Dry compressible waste, contaminated 8.80E+02 7.33E-01 i 25 %

equipment, etc.

c. Irradiated components, control rods, etc. None None N/A

d. Other(describe) None None N/A

2. Estimate of major nuclide composition by type of waste' Type of waste Radionuclide Abundance Total Error

a. Spent resins, filters, filter sludges, Mn-54 5.47E+00% 25%

evaporator bottoms, etc. Fe-55 7.75E+01% i 25 % Co-60 1.40E+01% i 25 % Cs-137 2.37E+00% i 25 %

b. Dry compressible waste, contaminated Mn-54 6.08E+00% 25 % ,

equipment, etc. Fe-55 7.59E+01% i25% I Co-60 1.39E+01% i 25% l Cs-137 2.07E+00% i 25% l

c. Irradiated components, control rods, etc. None None N/A

d. Other (describe) None None N/A

   '

• Major"is definedas any radionuclide comprising >1% of the totalactivityin the waste category.

3. Solid Waste Disposition Number of Shipments Mode of Transportation Destination l 5 Tractor-trailer Hake Associates," i Memphis, TN  !

8 Tractor-trailer GTS Duratek," l Oak Ridge, TN l 1 Tractor-trailer Molten Metal Technology," l Oak Ridge, TN

  " This processorprovides volume reduction services for dry compressible waste, contaminated equipment, etc. Remaining radioactive wastes will be shipped to either Chem Nuclear Systems, Inc. in Bamwell, SC, or Envirocare of Utah for final disposal.

B. IRRADIATED FUEL SHIPMENTS & DISPOSITION Numberof Shipments Mode of Transportation Destination None N/A N/A 53 I l

9.0 OFFSITE DOSE CALCULATION MANUAL REVISIONS The PNPS Offsite Dose Calculation Manual (ODCM) was revised in August 1998 to incorporate changes recommended by the NRC in Generic Letter 89-01. This changed relocated the effluent control and environmental monitoring programs from the Technical Specifications to the ODCM. A copy of the revised ODCM is included with this report as Appendix C. 54

                                                                                                     )

l

10.0 REFERENCES

1. U.S. Nuclear Regulatory Commission, " Measuring, Evaluating, and Reporting Radioactivity in Solid Wastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from Light- )

Water Cooled Nuclear Power Plants", Regulatory Guide 1.21, Revision 1, June 1974. '

2. T.A. Messier memorandum REG 98117 to K.J. Sejkora, " Documentation for Calculation of 1st and 2nd Quarter 1998 JFD Tables for Pilgrim Station", dated August 14,1998.

l 3. T.A. Messier memorandum REG 99-035 to K.J. Sejkora, " Documentation for Calculation of 3rd and 4th Quarter 1998 JFD Tables for Pilgrim Station", dated April 7,1999.

4. Boston Edison Company, " Pilgrim Nuclear Power Station Offsite Dose Calculation Manual",

Revision 8, August 1998.

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

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

7. Boston Edison Company," Pilgrim Station Unit 1 Appendix l Evaluation", April 1977. j 1

8. DE&S Calculation No. BEC-089," Dose Assessment for January-December 1998 Effluent Report",

April 1999. l 9. J.N. Hamawi,"AEOLUS", Yankee Atomic Electric Company, YAEC-1120, January 1977. 1 I l l l 1 55

APPENDIX A Meteorological Joint Frequency Distributions TABLE TABLE TITLE PAGE A-1 Distribution of Wind Directions and Speeds for the 33-ft Level 57 of the 220-ft Tower A-2 Distribution of Wind Directions and Speeds for the 220-ft Level of 73 the 220-ft Tower t 56 I - _-____-______.

Tcbb A-1 DistriW. ions of Wind Directions and Speeds for the 33-ft Level of the 220-ft Tower PILGRIN JAN98-NAR98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CIASS A CLASS FREQUENCY (PERCENT) = 0.70 WIND DIRECTION FRON SPEED (NPN) N NME ME ENE E ESE SE SSE S SSW SW WSW W WNW NW ISM VRSL TOTAL CAIJE O 1 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 2 (1) .00 .55 .00 .00 .00 .00 .00 .00 .55 .00 .00 .00 .00 .00 .00 .00 .00 1.10 (2) .00 .05 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .10 C-3 0 1 0 0 1 0 1 0 1 0 0 0 0 0 0 0 0 4 (1) .00 .55 .00 .00 .55 .00 .55 .00 .55 .00 .00 .00 .00 .00 .00 .00 .00 2.21 (2) .00 .05 .,0 0 .00 .05 .00 .05 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .19 4-7 10 17 5 10 2 2 0 1 4 3 3 5 11 12 9 8 0 102 (1) 5.52 9.39 2.76 5.52 1.10 1.10 .00 .55 2.21 1.66 1.66 2.75 6.08 6.63 4.97 4.42 .00 56.35 (2) .48 .82 ~ .24 .48 .10 .10 .00 .05 .19 .14 .14 .24 .53 .58 .43 .38 .00 4.90 0-12 6 5 10 1 0 0 0 0 4 10 2 1 10 10 5 3 0 67 (1) 3.31 2.75 5.52 .55 .00 .00 .00 .00 2.21 5.52 1.10 .55 5.52 5.52 2.76 1.66 .00 37.02 (2) .29 .24 .48 .05 .00 .00 .00 .00 .19 .48 .10 .05 .48 .48 .24 .14 .00 3.22 13-18 0 0 1 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 (1) .00 .00 .55 .00 .00 .00 .00 .00 .00 2.76 .00 .00 .00 .00 .00 .00 .00 3.31 (2) .00 .00 .05 .00 .00 .00 .00 .00 .00 .24 .00 .00 .00 .00 .00 .00 .00 .29 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 16 24 16 11 3 2 1 1 10 18 5 6 21 22 14 11 0 101 (1) 8.84 13.26 8.84 6.08 1.66 1.10 .55 .55 5.52 9.94 2.76 3.31 11.60 12.15 7.73 6.08 .00 100.00 (2) .77 1.15 .77 .53 .it .10 .05 .05 .48 .86 .24 .29 1.01 1.06 .67 .53 .00 8.70 33.0 FT WIND DATA STABILITY CLASS B CLASS FREQUENCY (PERCENT) = 3.22 WIND DIRECTION froes SPEED (MPM) N BAER NE ENE E ESE SE SSE S SSW SW w.1W W WNW NW NNW VRSL TOTAL CA!J8 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 til .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 1.49 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.49 (2) .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 4-7 1 5 2 9 2 0 0 0 0 2 1 2 3 2 4 0 0 33 (1) 1.49 7.46 2.99 13.43 2.99 .00 .00 .00 .00 2.99 1.49 2.99 4.40 2.99 5.97 .00 .00 49.25 (2) .05 .24 .10 .43 .10 .00 .00 .00 .00 .10 .05 .10 .14 .10 .19 .00 .00 1.59 8-12 0 3 2 1 1 0 0 0 4 10 3 0 1 3 0 0 0 28 (1) .00 4.48 2.99 1.49 1.49 .00 .00 .00 5.97 14.93 4.48 .00 1.49 4.48 .00 .00 .00 41.79 (2) .00 .14 .10 .05 .05 .00 .00 .00 .19 .48 .14 .00 .05 .14 .00 .00 .00 1.35 13-18 0 3 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 5 (1) .00 4.48 .00 .00 .00 .00 .00 .00 .00 1.49 .00 .00 1.49 .00 .00 .00 .00 7.46 (2) .00 .14 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .00 .24 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 1 11 5 10 3 0 0 0 4 13 4 2 5 5 4 0 0 67 (1) 1.49 16.42 7.46 14.93 4.48 .00 .00 .00 5.97 19.40 5.97 2.99 7.46 7.46 5.97 .00 .00 100.00 (2) .05 .53 .34 .48 .14 .00 .00 .00 .19 .62 .19 .10 .24 .34 .19 .00 .00 3.22 (1)= PERCENT OF ALL GOOD OSSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIOIIS FOR THIS PERIOD C = CALH (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NFM) 57

1 Table A-1 (continund) PILGRIN JAN98-MAR 98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DhTA STABILITY CLASS C l CLASS FREQUENCY (PERCENT) = 2.98 i WIND DIRECTION FRON SPEED (MPH) N NME ME ENE E ESE SE SSE S SSW SW WSW W WNW NW MNW VRSL TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ) l C-3 0 1 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 2 l (1) .00 1.61 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.61 .00 .00 .00 3.23 l (2) .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .10 ) l 4-7 0 3 2 1 5 0 0 0 1 1 1 6 2 3 4 0 0 29 j (1) .00 4.84 3.23 1.61 8.06 .00 .00 .00 1.61 1.61 1.61 9.68 3.23 4.84 6.45 .00 .00 46.77 (2) .00 .14 .10 .05 .24 .00 .00 .00 .05 .05 .05 .29 .10 .14 .19 .00 .00 1.39 8-12 0 3 5 0 0 0 1 1 4 2 1 0 1 1 1 0 0 20 (1) .00 4.84 0.06 .00 .00 .00 1.61 1.61 6.45 3.23 1.61 .00 1.61 1.61 1.61 .00 .00 32.26 (2) .00 .14 .24 .00 .00 .00 .05 .05 .19 .10 .05 .00 .05 .05 .05 .00 .00 .96 13-18 0 4 5 0 0 0 0 0 0 1 0 0 1 0 0 0 0 11 (1) .00 6.45 0.06 .00 .00 .00 .03 .00 .00 1.61 .00 .00 1.61 .00 .00 .00 .00 17.74 (2) .00 .19 .24 .00 .00 .00 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .00 .53 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 11 12 1 5 0 1 1 5 4 2 6 4 5 5 0 0 62 (1) .00 17.74 19.35 1.61 8.06 .00 1.61 1.61 0.06 6.45 3.23 9.68 6.45 8.06 8.06 .00 .00 100.00 (2) .00 .53 .58 .05 .24 .00 .05 .05 .24 .19 .10 .29 .19 .24 .24 .00 .06 2.98 33.0 FT WIND DATA STABILITY CLhSS D CLASS FREQUENCY (PERCENT) = 32.34 WIND DIRECTION FRON SPEED (NPM) N NME ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL

                          "                        0       0     0           0    0     0        0     0    0    0       0 CAIJs       0    0           0      0     0                         0 til
             ,7    Gi>  .00   .00    .00   .00  .00     .00    .00   .00   .00  .00   .00     .00   .00  .00   .00     .00 tap     .00   .00   .00   .00    .00   .00  .00     .00    .00   .00   .00  .00   .00     .00   .00  .00   .00    .00 C-3        0    2     2     3      2     1     8       5     1     0     0    1     2        1     4    1    0      33 (1)     .00   .30   .30   .45    .30   .15 1.19     .74    .15   .00   .00  .15  .30      .15   .59  .15   .00   4.90 (2)     .00   .10   .10   .14    .10   .05  .30     .24    .05   .00   .00  .05   .10     .05   .19  .05   .00   1.59 4-7        6   21    20    14     26    13     3       7    21    10    12   17    20      17     19    1    0    227 (1)     .89  3.12 2.97 2.00     3.86 1.93   .45    1.04 3.12    1.49 1.78 2.53 2.97     2.53 2.82    .15   .00  33.73 (2)     .29  1.01   .96   .67   1.25   .62  .14     .34 1.01     .48   .58  .82   .96     .82   .91  .05   .00  10.91 0-12      11    42    31    12     22     6     0       7    18    21    14    4    37      38     46   11    0    320 (1)    1.63 6.24 4.61 1.78 3.27        .89  .00    1.04 2.67    3.12 2.08   .59 5.50 5.65 6.84 1.63        .00  47.55 (2)     .53 3.02 1.49     .50   1.06   .29  .00     .34    .86  1.01   .67  .19 1.78 1.83 2.21       .53   .00  15.38 13-18        7   22    33    10      2     0     0       0     1     8     0    0     2        2     0    0    0      87 (1)    1.04 3.27 4.90 1.49       .30   .00  .00     .00    .15  1.19   .00  .00   .30     .30   .00   .00  .00  12.93 (2)     .34 1.06 1.59     .48    .10   .00  .00     .00    .05   .38   .00  .00   .10     .10   .00  .00   .00   4.18 19-24        0    3     2     1      0     0     0       0     0     0     0    0     0        0     0    0    0       6 (1)     .00   .45   .30   .15    .00   .00  .00     .00    .00   .00   .00  .00   .00     .00    .00  .00  .00     .89 (2)     .00   .14   .10   .05    .00   .00  .00     .00    .00   .00   .00  .00   .00     .00   .00   .00  .00     .29 GT 24         0    0     0     0      0     0     0       0     0      0    0    0     0        0     0    0    0       0 (1)     .00   .00   .00   .00    .00   .00  .00     .00    .00   .00   .00  .00   .00     .00    .00  .00  .00     .00 ,

(2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 24 90 88 40 52 20 11 19 41 39 26 22 61 58 69 13 0 673 (1) 3.57 13.37 13.08 5.94 7.73 2.97 1.63 2.82 6.09 5.79 3.86 3.27 9.06 8.62 10.25 1.93 .00 100.00 (2) 1.15 4.32 4.23 1.92 2.50 .95 .53 .91 1.97 1.87 1.25 1.06 2.93 2.79 3.32 .62 .00 32.34 (1) PERCE M OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL OOOD OBSERVATIONS FOR THIS PERIOD Ce CA!Jt (WIND SPEED LESS TRAN OR EQUAL TO 0.95 MPR) 58 l

1 Table A-1 (continued) PILORIN JAN98-NhA98 NET DATA JOINT FLEQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DhTA STASILITY CLASS E CLASS FREQUENCY (PERCENT) = 45.89 WIND DIRECTION FROM SPEED (NPN) N NME ME EME E ESE SE SSE S SSW SW WSW W WNW NW MNW VRSL TOTAL i CAIJs 0 0 0 0 0 0 0 0 0 3 0 0 1 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .31 .00 .00 .10 .00 .00 .00 .00 .42 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .14 .00 .00 .05 .00 .00 .00 .00 .19 C-3 5 2 2 3 7 5 10 19 10 4 7 9 15 11 21 12 0 142 (1) .52 .21 .31 .31 .73 .52 1.05 1.99 1.05 .42 .73 .94 1.57 1.15 2.20 1.26 .00 14.87 (2) .24 .30 .10 .14 .34 .24 .48 .91 .48 .19 .38 .43 .72 .53 1.01 .58 .00 6.82 l 4-7 13 2? 18 10 14 7 9 21 40 42 30 30 49 61 42 15 0 424 (1) .1.36 2.41 1.88 1.05 1.47 .73 .94 2.30 4.19 4.40 3.14 3.14 5.13 6.39 4.40 1.57 .00 44.40 (2) .62 1.11 .86 .48 .67 .34 .43 1.01 1.92 2.02 1.44 1.44 2.35 2.93 2.02 .72 .00 20.37 8-12 19 14 11 11 12 4 4 8 20 58 10 16 15 13 32 23 0 270 < (1) 1.99 1.47 1.15 1.15 1.25 .42 .42 .84 2.09 6.07 1.05 1.68 1.57 1.36 3.35 2.41 .00 28.27 (2) .91 .67 .53 .53 .58 .19 .19 .38 .96 2.79 .48 .77 .72 .62 1.54 1.11 .00 12.97 l 13-18 4 19 21 6 4 4 0 15 10 14 0 0 4 0 0 1 0 102 (1) .42 1.99 2.20 .63 .42 .42 .00 1.57 1.05 1.47 .00 .00 .42 .00 .00 .10 .00 10.68 (2) .19 .91 1.01 .29 .19 .19 .00 .72 .48 5? .00 .00 .19 .00 .00 .05 .00 4.90 19-24 0 6 6 1 0 0 0 0 0 0 0 0 0 0 0 0 0 13 (1) .00 .63 .63 .10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.36 (2) .00 .29 .29 .05 .00 .00 . C(# .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .62 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 41 64 50 31 37 20 23 63 80 121 47 55 84 85 95 51 0 955 (1) 4.29 6.70 6.07 3.25 3.87 2.09 2.41 6.60 8.38 12.67 4.92 5.76 8.80 8.90 9.95 5.34 .00 100.00 l (2) 1.97 3.08 2.79 1.49 1.78 .96 1.11 3.03 3.84 5.81 2.26 2.64 4.04 4.08 4.57 2.45 .00 45.89 33.0 FT WIND DATA STABILITY CIASS F CLASS FREQUENCY (PERCElrr) = 5.81 WIND DIRECTION FROM SPEED (ISPE) N ISEE ME ENE E ESE SE SSE 5 SSW SW WSW W WNW NW tesW VRBL TOTAL CA1JE O O O 0 0 0 0 0 2 1 0 1 0 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.65 .83 .00 .83 .00 .00 .00 .00 .00 3.31 (2) .00 .00 .00 .00 .00 .00 .00 .00 .10 .05 .00 .05 .00 .00 .00 .00 .00 .19 C-3 0 0 0 0 2 2 3 2 3 2 4 6 7 2 1 0 0 34 (1) .00 .00 .00 .00 1.65 1.65 2.40 1.65 3.48 1.65 3.31 4.96 5.79 1.65 .83 .00 .00 28.10 (2) .00 .00 .00 .00 .10 . it .1% .10 .14 .10 .19 .29 .34 .10 .05 .00 .00 1.63 4-7 0 0 0 0 1 0 0 2 3 17 30 7 6 1 1 2 0 60 (1) .00 .00 .00 .00 .83 .00 .00 1.65 2.48 14.05 16.53 5.79 4.96 .83 .83 1.65 .00 49.59 (2) .00 .00 .00 .00 .05 .00 . 0' . .10 .14 .82 .96 .34 .29 .05 .05 .10 .00 2.88 0 12 2 0 0 0 0 0 0 0 1 12 7 0 0 0 0 0 0 22 (1) 1.65 .00 .00 .00 .00 .00 .00 .0C .83 9.92 5.79 .00 .00 .00 .00 .00 .00 18.18 (2) .10 .00 .00 .00 .00 .00 .00 .00 .05 .58 .34 .00 .00 .00 .00 .00 .00 1.06 13-18 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 ,00 .83 .00 .00 .00 .00 .00 .00 .00 .83 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .05 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 2 0 0 0 3 2 3 4 9 33 31 14 13 3 2 2 0 121 (1) 1.65 .00 .00 .00 2.48 1.65 2.48 3.31 7.44 27.27 25.63 11.57 10.74 2.48 1.65 1.65 .00 100.00 (2) .10 .00 .00 .00 .14 .10 .14 .19 .43 1.59 1.49 .67 .62 .14 .10 .10 .00 5.81 (1)= FERCENT OF ALL P30D OBSERVATIONS FOR TEIS PAGE (2)= PERCENT OF ALL 2OOD OBSERVATIONS FOR TEIS PERIOD C = CALM (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NFE) 59

Table A-1 (continued) PILGRIN JAN98-NAR98 NET DhTA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DhTA STABILITY CLkSS G CLASS FREQUENCY (PERCE8rf) 1.06 NIND DIRECTION FRON SPEED (NPE) N NME NE ENE E ESE SE SSE S SSW SW WSW W WWW NW NNW VRSL TOTAL CA!Je 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 1 0 0 1 1 0 1 1 1 0 0 0 6 (1) .00 .00 .00 .00 .00 4.55 .00 .00 4.55 4.55 .00 4.55 4.55 4.55 .00 .00 .00 27.27 (2) .00 .00 .00 .00 .00 .05 .00 .00 .05 .05 .00 .05 .05 .05 .00 .00 .00 .29 4-7 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 4.55 4.55 4.55 4.55 .00 .00 .00 .00 .00 18.18 (2) .00 .00 .v0 .00 .00 .00 .00 .00 .05 .05 .05 .05 .00 .00 .00 .00 .00 .19 8-12 0 0 0 0 0 0 0 0 0 7 5 0 0 0 0 0 0 12 l (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 31.82 22.73 .00 .00 .00 .00 .00 .00 54.15 l (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .34 .24 .00 .00 .00 .00 .00 .00 .58 l l 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 j (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .C3 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 0 0 0 0 1 0 0 2 9 6 2 1 1 0 0 0 22 (1) .00 .00 .00 .00 .00 4.55 .00 .00 9.09 40.91 27.27 9.09 4.55 4.55 .00 .00 .00 100.00 (2) .00 .00 .00 .00 .00 .05 .00 .00 .10 .43 .29 .10 .05 .05 .00 .00 .00 1.06 1 33.0 FT WIND DETA STABILITY CLASS ALL CLASS FREQUENCY (PERCENT) = 100.00 WIND DIRECTION FROM j SPEED (MPE) N NME NE ENE E ESE SE SSE S SSW SW WFM W WNW NW NNW VRSL TOTAL j CALM 0 1 0 0 0 0 0 0 3 4 0 1 1 0 0 0 0 10 (1) .00 .05 .00 .00 .00 .00 .00 .00 .14 .19 .00 .05 .05 .00 .00 .00 .00 .48 (2) .00 .05 .00 .00 .00 .00 .00 .00 .14 .19 .00 .05 .05 .00 .00 .00 .00 .48 C-3 5 6 5 6 12 9 22 26 16 7 11 17 25 16 26 13 0 222 (1) *24 .29 .24 .29 .58 .43 1.06 1.25 .77 .34 .53 .82 1.20 .77 1.25 .62 .00 10.67 (2) .24 .29 .24 .29 .58 .43 1.06 1.25 .77 .34 .53 .82 1.30 .77 1.25 .62 .00 10.67 6-7 30 69 47 44 50 22 12 31 70 76 68 68 91 96 79 26 0 879 (1) 1.44 3.32 2.26 2.11 2.40 1.06 .58 1.49 3.36 3.65 3.27 3.27 4.37 4.61 3.80 1.25 .00 42.24 (2) 1.44 3.32 2.26 2.11 2.40 1.06 .50 1.49 3.36 3.65 3.27 3.27 4.37 4.61 3.80 1.25 .00 42.24 8-12 38 67 59 25 35 10 5 16 51 120 42 21 64 65 84 37 0 739 (1) 1.83 3.32 2.84 1.20 1.68 .48 .24 .77 2.45 5.77 2.02 1.01 3.00 3.12 4.04 1.78 .00 35.51 (2) 1.83 3.22 2.84 1.30 1.68 .48 .24 .77 2.45 5.77 2.02 1.01 3.08 3.12 4.04 1.78 .00 35.51 l 13 18 11 48 60 16 6 4 0 15 11 30 0 0 8 2 0 1 0 212 (1) .53 2.31 2.88 .77 .29 .19 .00 .72 .53 1.44 .00 .00 .30 .10 .00 . 05 .00 10.19 (2) .53 2.31 2.88 .77 .29 .19 .00 .72 .53 1.44 .00 .00 .38 .10 .00 .05 .00 10.19 19-24 0 9 8 2 0 0 0 0 0 0 0 0 0 0 0 0 0 19 (1) .00 .43 .38 .10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .91 (2) .00 .43 .38 .10 .00 .06 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .91 j OT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 84 200 179 93 103 45 39 88 151 237 121 107 189 179 189 77 0 2001 (1) 4.04 9.61_ 8.60 4.47 4.95 2.16 1.87 4.23 7.26 11.39 5.81 5.14 9.08 8.60 9.08 3.70 .00 100.00 (2) 4.04 9.61 8.60 4.47 4.95 2.16 1.87 4.23 7.25 11.39 5.81 5.14 9.00 8.60 9.08 3.70 .00 100.00 ' (1)= PERCEIFF OF ALL 000D OBSERVATIONS FOR THIS PAGE I l (2)= PERCENT OF ALL GOOD OSSERVATIONS FOR THIS PERIOD C = CAIAI (WIIED SPEED LESS TRAN OR EQUAL TO 0.95 MPM) 60 i

Table A-1 (continued) PIIARIN APR98-JfM98 NET DATA JOINT FREQUENCY DISTRISUTION (220-F00T TOWER) 33.0 FT WIND DhTA STABILITY CLASS A CLASE FREQUENCY (PERCBNT) = 15.59 WIND DIRECTION FROM SPBSD(MPE) N BRIE ME ENE E ESE SE SSE S SSW SW WSW W WNW NW IBRf VRSL TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 1 0 1 0 1 1 1 2 0 0 1 0 0 0 1 0 9 (1) .00 .32 .00 .32 .00 .32 .32 .32 .64 .00 .00 .32 .00 .00 .00 .32 .00 2.07 (2) .00 .05 .00 .05 .00 .05 .05 .05 .10 .00 .00 .05 .00 .00 .00 .05 .00 .45 4-7 19 12 12 15 11 13 7 6 10 9 8 11 30 12 11 11 0 197 (1) 6.05 3.82 3.82 4.78 3.50 4.14 2.23 1.91 3.18 2.87 2.55 3.50 9.55 3.82 3.50 3.50 .00 62.74 (2) .94 .50 .60 .74 .55 .65 .35 .30 .50 .45 .40 .55 1.49 .60 .55 .55 .00 9.78 8-12 6 12 10 1 0 0 0 1 18 22 5 1 18 3 0 4 0 101 (1) 1.91 3.82 3.18 .32 .00 .00 .00 .32 5.73 7.01 1.59 .32 5.73 .96 .00 1.27 .00 32.17 (2) .30 .60 .50 .05 .00 .00 .00 .05 .89 1.09 .25 .05 .89 .15 .00 .20 .00 5.01 13-18 2 0 4 0 0 0 0 0 0 0 0 0 1 0 0 0 0 7 (1) .64 .00 1.27 .00 .00 .00 .00 .00 .00 .00 .00 .00 .32 .00 .00 .00 .00 2.33 (2) .30 .00 .20 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .35 i 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 27 25 26 17 11 14 8 8 30 31 13 13 49 15 11 16 0 314 (1) 8.60 7.96 8.28 5.41 3.50 4.46 2.55 2.55 9.55 9.87 4.14 4.14 15.61 4.78 3.50 5.10 .00 100.00 (2) 1.34 1.24 1.39 .34 .55 .70 .40 .40 1.49 1.54 .65 .65 2.43 .74 .55 .79 .00 15.59 1 33.0 FT WIND DATA STABILITY CLASS S CLASS FREQUENCY (PERCENT) 3.57 WIND DIRECTION FROM SPEED (MPE) N DSIE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VREL TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 1 0 1 1 0 0 0 0 0 0 1 1 0 5  ! (1) .00 .00 .00 .00 1.39 .00 1.39 1.39 .00 .00 .00 .00 .00 .00 1.39 1.39 .00 6.94 . (2) .00 .00 00 .00 .05 .00 .05 .05 .00 .00 .00 .00 .00 .00 .05 .09 .00 .35 . I 4-7 0 1 2 10 3 3 5 1 2 1 4 3 5 3 1 1 0 45 (1) .00 1.39 2.70 13.89 4.17 4.17 6.94 1.39 2.78 1.39 5.56 4.17 6.94 4.17 1.39 1.39 .00 62.50 (2) .00 .05 .10 .50 .15 .15 .25 .05 .10 .05 .30 .15 .25 .15 .05 .05 .00 3.23 8-12 0 0 5 0 0 0 0 0 5 9 0 0 2 0 0 0 0 22 til .00 .00 6.94 .00 .00 .00 .00 .00 8.33 12.50 .00 .00 2.78 .00 .00 .00 .00 30.56 (2) .00 .00 .25 .00 .00 .00 .00 .00 .30 .45 .00 .00 .10 .00 .00 .00 .00 1.09 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 1 7 10 4 3 6 2 8 to 4 3 7 3 2 2 0 72 (1) .00 1.39 9.72 13.89 5.56 4.17 8.33 2.78 11.11 13.89 5.56 4.17 9.72 4.17 2.78 2.78 .00 100.00 (2) .00 .05 .35 .50 .20 .15 .30 .10 .40 .50 .30 .15 .35 .15 .10 .10 .00 3.57 (1)= PERCEurr OF ALL 000D OBSERVATIONS FOR TEIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS 70k THIS PERIOD Ce CA1JE (WIND SPEED LESS THAN OR EQUAL TO 0.95 NFE) 61

Table A-1 (continued) PILGRIM APR98-JUN98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 PT WIND DktA STABILITY CIASS C CLASS FREQUENCY (.*ERCENT) = 3.23 WIND DIRECTION FROM SPEED (MPE) N IEEE ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL CAIJE 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .03 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 1 1 1 1 0 0 2 0 0 1 1 0 0 1 0 9 (1) .00 .00 1.54 1.54 1.54 1.54 .00 .00 3.00 .00 .00 1.54 1.54 .00 .00 1.54 .00 13.85 (2) .00 .00 .05 .05 .05 .05 .00 .00 .10 .00 .00 .05 .05 .00 .00 .05 .00 .45 4-7 1 1 0 7 3 2 4 2 4 2 4 1 2 3 0 1 0 37 (1) 1.54 1.54 .00 10.77 4.62 3.08 6.15 3.08 6.15 3.00 6.15 1.54 3.00 4.62 .00 1.54 .00 56.92 (2) .05 .05 .00 .75 .15 .10 .20 .10 .20 .10 .20 .05 .10 .15 .00 .05 .00 1.84 0-12 0 2 6 0 0 0 0 0 3 4 0 0 1 1 0 0 0 17 (1) .00 3.08 9.23 .00 .00 .00 .00 .00 4.62 6.15 .00 .00 1.54 1.54 .00 .00 .00 26.15 (2) .00 .10 .30 .00 .00 .00 .00 .00 .15 .30 .00 .00 .05 .05 .00 .00 .00 .84 13-18 0 0 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 2 (1) .00 .00 .00 1.54 .00 .00 .00 .00 .00 1.54 .00 .00 .00 .00 .00 .00 .00 3.00 (2) .00 .00 .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .10 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 1 3 7 9 4 3 4 2 9 7 4 2 4 4 0 2 0 65 (1) 1.54 4.62 10.77 13.85 6.15 4.62 6.15 3.00 13.05 10.77 6.15 3.08 6.15 6.15 .00 3.08 .00 100.00 (2) .05 .15 .35 .45 .20 .15 .30 .10 .45 .35 .30 .10 .20 .30 .00 .10 .00 3.23 33.0 PT WIND DhTA STABILITY CLASS D CLASS FREQUENCY (PERCENT) = 22.49 WIND DIRECTION FRON SPEED (NPR) N IEEE ME ENE E ESE SE SSE 3 SSW SW WSW W WNW NW NNW VRBL TOTAL CAIJE O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1)- .V0 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 17 13 2 2 9 3 10 3 0 6 3 5 2 3 0 78 (1) .00 .00 3.75 2.87 .44 .44 1.99 .66 2.21 .66 .00 1.32 .66 1.10 .44 .66 .00 17.22 (2) .00 .00 .84 .65 .10 .10 .45 .15 .50 .15 .00 .30 .15 .25 .10 .15 .00 3.87 4-7 7 16 23 23 11 0 12 12 22 28 11 13 20 6 4 11 0 227 (1) 1.55 3.53 5.08 5.08 2.43 1.77 2.65 2.65 4.06 6.10 2.43 2.87 4.42 1.32 .tB 2.43 .00 50.11 (2) .35 .79 1.14 1.14 .55 .40 .60 .60 1.09 1.39 .55 .55 .99 .30 .20 .55 .00 11.27 8-12 4 17 17 4 3 0 1 0 12 36 4 2 8 4 2 0 0 114 (1) .88 3.75 3.75 .88 .66 .00 .22 .00 2.65 7.95 .83 .44 1.77 .88 .44 .00 .00 25.17 (2) .20 .84 .84 .30 .15 .00 .05 .00 .60 1.79 .29 .10 .40 .30 .10 .00 .00 5.66 13-18 2 2 19 4 0 0 0 0 0 0 0 0 0 0 0 0 0 27 (1) .44 .44 4.19 .88 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 5.96 I (2) .10 .10 .94 .20 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.34 19-24 0 5 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 7 (1) .00 1.10 .44 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.55 (2) .00 .25 .10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .35 (PF 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 ALL SPEEDS 13 40 78 44 16 10 22 15 44 67 15 21 31 15 8 14 0 453 (1) 2.87 8.03 17.22 9.71 3.53 2.21 4.86 3.31 9.71 14.79 3.31 4.64 6.04 3.31 1.77 3.09 .00 100.00 (2) .65 1.99 3.87 2.18 .79 .50 1.09 .74 2.18 3.33 .74 1.04 1.54 .74 .40 .70 .00 22.49 (1)= PERCBNT OF ALL OOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL OOOD OBSERVATICIIS FOR THIS PERIOD C = CALN (WIND SPEED LESS TRAN OR EQUAL TO 0.95 MPN)  : 62 1

Table A-1 (continued) PILGRIN APR98-JUN98 NET DATA JOIFF FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DhTA STABILITY CLASS E CLASS FREQUENCY (PERCEWT) = 42.40 WIND DIRECTION FROM SPEED (NPN) N NME NE ENE E ESE SE SSE S SSW SW WSW W WNW NW MMW VRSL TOTAL CALM 0 0 0 1 1 0 2 0 2 1 1 0 1 0 0 0 0 9 (1) .00 .00 .00 .12 .12 .00 .33 .00 .33 .12 .12 .00 .12 .00 .00 .00 .00 1.05 (2) .00 .00 .00 .05 .05 .00 .10 .00 .10 .05 .05 .00 .05 .00 .00 .00 .00 .45 C-3 6 8 13 23 20 26 26 14 21 13 8 16 13 17 19 10 0 253 (1) .70 .94 1.52 2.69 2.34 3.04 3.04 1.54 2.46 1.52 .94 1.87 1.52 1.99 2.22 1.17 .00 29.63 (2) .30 .40 .65 1.14 .99 1.29 1.29 .70 1.04 .65 .40 .79 .65 .84 .94 .50 .00 12.56 4-7 10 11 8 2 15 28 48 32 51 46 21 35 35 25 17 6 .0 397 (1) 1.17 1.29 .94 1.05 1.76 3.28 5.62 3.75 5.97 S.39 2.46 4.10 4.10 2.93 1.99 .70 .00 46.49 (2) .50 .55 .40 .45 .74 1.39 2.38 1.59 2.53 2.28 1.04 1.74 1.74 1.24 .84 .30 .00 19.71 8-12 2 15 15 4 2 3 3 1 18 56 34 12 2 0 3 2 0 172 (1) .23 1.76 1.76 .4? .23 .35 .35 .12 2.11 6.56 3.98 1.41 .23 .00 .35 .23 .00 20.14 (2) .10 .74 .74 .30 .10 .15 .15 .05 .89 2.78 1.69 .60 .10 .00 .15 .10 .00 8.54 i 1 13-18 0 0 1 6 1 0 0 0 1 7 3 0 0 0 0 0 0 19 (1) .00 .00 .12 .70 .12 .00 .00 .00 .12 .82 .35 .00 .00 .00 .00 .00 .00 2.22 (2) .00 .00 .05 .30 .05 .00 .00 .00 .05 .35 .15 .00 .00 .00 .00 .00 .00 .94 19-24 0 0 2 2 0 0 0 0 0 0 0 0 0 0 0 0 0 4 (1) .00 .00 .23 .23 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .47 (2) .00 .00 .10 .10 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .20 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 18 34 39 45 39 57 79 47 93 123 67 63 51 42 39 18 0 854 (1) 2.11 3.98 4.57 5.27 4.57 6.67 9.25 5.50 10.89 14.40 7.85 7.38 5.97 4.92 4.57 2.11 .00 100.00 (2) .89 1.69 1.94 2.23 1.94 2.83 3.92 2.33 4.62 6.11 3.33 3.13 2.53 2.09 1.94 .89 .00 42.40 33.0 FT WIND DATA STABILITY CLASS F Ct. ASS FREQUENCY (PERCENT) = 9.38 WIND DIRECTION FRON SPEED (MPM) N NME ME EME E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL CAIJE O 1 0 0 0 1 1 5 3 1 1 0 0 1 0 0 0 14 (1) .00 .53 .00 .00 .00 .53 .53 2.65 1.59 .53 .53 .00 .00 .53 .00 .00 .00 7.41 (2) .00 .05 .00 .00 .00 .05 .05 .25 .15 .05 .05 .00 .00 .05 .00 .00 .00 .70 C-3 0 0 5 2 3 2 4 10 6 7 4 8 6 7 7 3 0 74 (1) .00 .00 2.65 1.06 1.59 1.06 2.12 5.29 3.17 3.70 2.12 4.23 3.17 3.70 3.70 1.59 .00 39.15 (2) .00 .00 .25 .10 .15 .10 .30 .50 .30 .35 .30 .40 .30 .35 .35 .15 .00 3.67 4-7 0 1 0 5 2 5 2 3 1 10 11 21 6 0 2 3 0 72 (1) .00 .53 .00 2.65 1.06 2.65 1.06 1.59 .53 5.29 5.82 11.11 3.17 .00 1.06 1.59 .00 38.10 (2) .00 .05 .00 .35 .10 .35 .10 .15 .05 .50 .55 1.04 .30 .00 .10 .15 .00 3.57 8-12 0 1 0 0 0 0 0 0 0 13 13 0 0 0 0 0 0 27 (1) .00 .53 .00 .00 .00 .00 .00 .00 .00 6.88 6.88 .00 .00 .00 .00 .00 .00 14.29 (2) .00 .05 .00 .00 .00 .00 .00 .00 .00 .65 .65 .00 .00 .00 .00 .00 .00 1.34 13-18 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 1.06 .00 .00 .00 .00 .00 .00 .00 1.06 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 .00 .00 .00 .00 .00 .00 .00 .10 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 3 5 7 5 8 7 18 10 33 29 29 12 8 9 6 0 189 (1) .00 1.59 2.65 3.70 2.65 4.23 3.70 9.52 5.29 17.46 15.34 15.34 6.35 4.23 4.76 3.17 .00 100.00 (2) .00 .15 .25 .35 .25 .40 .35 .89 .50 1.64 1.44 1.44 .60 .40 .45 .30 .00 9.38 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR TEIS PAGE (2)= PERCEIFF OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CA1JE (WIND SPEED LESS THAN OR EQOAL TO 0.95 MPM) 63

Tabb A-1 (continu:d) P1LORIN APR98-JUN98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CLASS G CLASS FREQUENCY (PERCENT) = 3.33 WIND DIRECTION FROM SPEED (NPE) N NME ME ENE E ESE SE SSE S SSW SW WSW W WNW NW INEW VRBL TOTAL CALM 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 1.49 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.49 (2) .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 l C-3 0 0 0 0 1 1 1 0 1 5 4 1 3 0 1 1 0 19 (1) .00 .00 .00 .00 1.49 1.49 1.49 .00 1.49 7.46 5.97 1.49 4.48 .00 1.49 1.49 .00 28.36 l (2) .00 .00 .00 .00 .05 .05 .05 .00 .05 .25 .20 .05 .15 .00 .05 .05 .00 .94 i 4-7 0 0 0 1 1 0 0 0 1 5 20 2 0 0 0 1 0 31 (1) .00 .00 .00 1.49 1.49 .00 .00 .00 1.49 7.46 29.65 2.99 .00 .00 .00 1.49 .00 46.27 (2) .00 .00 .00 .05 .05 .00 .00 .00 .45 .25 .99 .10 .00 .00 .00 .05 .00 1.54 8-12 0 0 0 0 0 0 0 0 0 2 11 0 0 0 0 0 0 13 (1) 00 .00 .00 .00 .00 .00 .00 .00 .00 2.99 16.42 .00 .00 .00 .00 .00 .00 19.40 l (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 .55 .00 .00 .00 .00 .00 .00 .65 f 13 18 0 0 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 3 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 4.48 .00 .00 .00 .00 .00 .00 .00 4.48 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .15 .00 .00 .00 .00 .00 .00 .00 .15 q 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 : (1) .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 er 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 0 0 1 3 1 1 0 2 15 35 3 3 0 1 2 0 67 J (1) .00 .00 .00 1.49 4.48 1.49 1.49 .00 2.99 22.39 52.24 4.48 4.48 .00 1.49 2.99 .00 100.00 (2) .00 .00 .00 .05 .15 .05 .05 .00 .10 .74 1.74 .15 .15 .00 .05 .10 .00 3.33 J 1 33.0 FT WIND DATA STABILITY CLkSS ALL CLASS FREQUENCY (PERCENT) = 100.00 WIND DIkRCTION FROM SPEED (NPN) N BEEE ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL CALM 0 1 0 1 2 1 3 5 5 2 2 0 1 1 0 0 0 24 (1) .00 .05 .00 .05 .10 .05 .15 .25 .25 .10 .10 .00 .05 .05 .00 .00 .00 1.19 (2) .00 .05 .00 .05 .10 .05 .15 .25 .25 .30 .10 .00 .05 .05 -. 0 0 .00 .00 1.19 C-3 6 9 36 40 28 33 42 29 42 28 16 33 26 29 30 20 0 447 (1) .30 .45 1.79 1.99 1.39 1.64 2.09 1.44 2.09 1.39 .79 1.64 1.29 1.44 1.49 .99 .00 22.19 (2) .30 .45 1.79 1.99 1.39 1.64 2.09 1,44 2.09 1.39 .79 1.64 1.29 1.44 1.49 .99 .00 22.19 4-7 37 42 45 70 46 59 78 56 91 101 79 86 98 49 35 34 0 1006 (1) 1.84 2.09 2.23 3.48 2.28 2.93 3.07 2.78 4.52 5.01 3.92 4.27 4.87 2.43 1.74 1.69 .00 49.95 (2) 1.84 2.09 2.23 3.48 2.20 2.93 3.87 2.78 4.52 5.01 3.92 4.27 4.87 2.43 1.74 1.69 .00 49.95 8-12 12 47 53 9 5 3 4 2 57 142 67 15 31 8 5 6 0 466 (1) .60 2.33 2.63 .45 .25 .15 .30 .10 2.83 7.05 3.33 .74 1.54 .40 .25 .30 .00 23.14 (2) .60 2.33 2.63 .45 .25 .15 .20 .10 2.83 7.05 3.33 .74 1.54 .40 .25 .30 .00 23.14 13 18 4 2 24 11 1 0 0 0 1 13 3 0 1 0 0 0 0 60 (1) .20 .10 1.19 .55 .05 .00 .00 .00 .05 .55 .15 .00 .05 .00 *

                                                                                                           .00  .00    2.98 (2)     .20    .10 1.19   .55   .05   .00    .00   .00    .05   .65   .15   .00   .05    .00  .00      .00  .00    2.98 19-24       0      5    4     2      0    0      0      0     0     0      0     0     0     0       0     1    0       11 (1)     .00    .25  .30   .10   .00   .00    .00   .00    .00   .00   .00   .00   .00    .00   .00    .00   .00      .55 (2)     .00    .25  .30   .10    .00  .00    .00   .00    .00   .00   .00   .00   .00    .00   .00    .00   .00      .55 Uf 24        0      0    0     0      0    0      0      0     0     0      0     0     0     0       0     0     0       0 (1)     .00   .00   .00   .00    .00  .00   .00     .00   .00   .00   .00   .00   .00    .00   .00    .00   .00      .00 (2)     .00    .00  .00   .00    .00  .00    .00    .00   .00   .00   .00    .00  .00    .00   .00    .00   .00      .00 ALL SPEEDS 59      106   162   133     82   96   127      92   196   284   167   134   157     87     70     60     0   2014 (1)    2.93 5.26   0.04 6.60 4.07 4.77 6.31 4.57 9.73 14.20 8.29 6.65 7.80 4.32 3.48 2.98                   .00  100.00 (2)    2.93 5.26   0.04 6.60 4.07 4.77 6.31 4.57 9.73 14.20 8.29 6.65 7.00 4.32 3.48 2.98                   .00  100.00 (1)= PERCEIrf OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCEart OF ALL GOOD OBSERVATIONS FOR TE18 PERIOD C = CAIJi (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NPE)

I l l 1 1 64 l l 1 1

s Tebb A-1 (continu d) PILORIN JUL98-SEP90 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER)

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4 33.0 FT WIND DhTA STABILITY CLASS A CLESS FREQUENCY (PERCENT) = 13.41 WIND DIRECTION FROM i SPEED (MPN) N NME NE ENE 2 ESE SE SSE S SSW SW WSW W NNW NW BBRf VRSL TOTAL calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .0C .00 .00 .00 .00 .00 .00 .00 .00 .00 , (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ) C-3 1 1 1 1 5 3 4 0 3 1 1 0 2 6 7 5 0 41 (1) .34 .34 .34 .34 1.70 1.02 1.36 .00 1.02 .34 .34 .00 .60 2.04 2.38 1.70 .00 13.95 (2) .05 .05 .05 .05 .23 .14 .18 .00 .14 .05 .05 .00 .09 .27 .33 .W3 .00 1.07 4-7 8 22 8 20 14 5 1 2 13 21 16 4 25 19 6 14 0 190 (1) 2.72 7.40 2.72 6.80 4.76 1.70 .34 .50 4.42 7.14 5.44 1.36 8.50 6.46 2.04 4.75 .00 67.35 (2) .36 1.00 .36 .91 .64 .23 .05 .09 .59 .96 .73 .18 1.14 .87 .27 .64 .00 9.03 0-12 1 0 0 3 0 0 0 0 5 42 4 0 0 0 0 0 0 55 i (1). .34 .00 .00 1.02 .00 .00 .00 .00 1.70 14.29 1.36 .00 .00 .00 .00 .00 .00 10.71 (2) .05 .00 .00 .14 .00 .00 .00 .00 .23 1.92 .10 .00 .00 .00 .00 .00 .00 2.51 13-10 0 '0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .03 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .0D .0S .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 ,00 .00 .00 .00 .00 .00 .00 .00 .00 .00 . '0 0 .00 .00 (2) .00 .00 .00 .02 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 10 23 9 14 19 8 5 2 21 64 21 4 27 25 13 19 0 294 (1) 3.40 7.82 3.06 8.16 6.46 2.72 1.70 .50 7.14 21.77 7.14 1.36 3.18 0,50 4.42 6.46 .00 100.00 (2) .46 1.05 .41 1.09 .37 .36 .23 .09 .96 2.92 .96 .it 1.23 1.14 .59 .87 .00 13.41 33.0 FT WIND DhTA STASILITY CLASS B CLASS FREQUENCY (PERCBNT) = 5.24 WIND DIRECTION FROM SPEED (MPH) N 3RIE NE ENE 'E ESE SE SSE S SSW SW WSW W NNW IEW ISfW VRSL TOTAL Cals 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00

42) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 j C-3 0 3 0 2 0 0 6 1 2 1 0 2 3 0 2 1 0 23 (1) .00 2.61 .00 1.74 .00 .00 5.22 .61 1.74 .87 .00 1.74 2.61 .00 1.74 .87 .00 20.00 (2) .00 .14 .00 .09 .00 .00 .27 .05 .09 .05 .00 .00 .14 .00 .09 .05 .00 1.05 4-7 0 2 1 9 7 1 1 1 4 20 7 4 6 3 1 2 0 69 (1) .00 1.74 . 37 7.43 6.09 .87 .87 .37 3.48 17.39 6.09 3.48 5.22 2.61 .37 1.74 .00 60.00 (2) .00 .09 .05 .41 .32 .05 .05 .05 .18 .91 .32 .10 .27 .14 .05 .09 .00 3.15 8-12 0 0 0 0 0 0 0 0 2 19 2 0 0 0 0 0 0 23 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.74 16.52 1.74 .00 .00 .00 .00 .00 .00 20.00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .09 .87 .09 .00 .00 .00 .00 .00 .00 1.05 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 5 1 11 7 1 7 2 8 40 9 6 9 3 3 3 0 115 (1) .00 4.35 .87 9.57 6.09 .87 6.09 1.74 6.96 34.7B 7.83 5.22 7.03 2.61 2.61 2.61 .00 100.00 (2) .00 .23 .05 .50 .32 .05 .32 .09 .36 1.82 .41 .27 .41 .14 .14 .14 .00 5.24 (1)= PERCEarF OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCEIFF OF ALL GOOD ORSERVATIONS FOR THIS PERIOD C = CALM (WIND SPEED LESS THAN OR RQUAL TO 0.95 MPM) 65

Table A 1 (continued) P11J3RIN JUL98-SEP98 NET DATA JOIarf FREQUENCY DIf?RIBUTION (220-FOOT TOWER) 33.0 FT WIND DhTA STABILITY CLASS C CLASS FREQUENCY (PERCENT) = 4.38 WIND DIRECTION FRON SPEED (NPN) N NME ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 1 1 1 3 3 1 4 0 4 0 0 1 2 0 1 1 0 23 (1) 1.04 1.04 1.04 3.13 3.13 1.04 4.17 .00 4.17 .00 .00 1.04 2.08 .00 1.04 1.04 .00 23.96 (2) .05 .05 .05 .14 .14 .05 .18 .00 .18 .00 .00 .05 .09 .00 .05 .05 .00 1.05 4-7 0 0 1 5 5 2 0 1 5 17 7 3 5 1 1 2 0 55 (1) .00 .00 1.04 5.21 5.21 2.08 .00 1.04 5.21 17.71 7.29 3.13 5.21 1.04 1.04 2.00 .00 57.29 (2) .00 .00 .05 .23 .23 .09 .00 .05 .23 .78 .32 .14 .23 ., 0 5 .05 .09 00 2.51 0 12 0 0 0 1 0 0 0 0 2 11 4 0 0 0 0 0 0 18 (1) .00 .00 .00 1.04 .00 .00 .00 .00 2.08 11.46 4.17 .00 .00 .00 .00 .00 .00 18.75 (2) .00 .00 .00 .05 .04 .00 .00 .00 .09 .50 .18 .00 .00 .00 .00 .00 .00 .82 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .40 .00 .00 .00 .00 .00 .00 (2) .00 .00 .v0 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 f (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 1 1 2 9 8 3 4 1 11 28 11 4 7 1 2 3 0 96 (1) 1.04 1.04 2.00 9.30 8.33 3.13 4.17 1.04 11.46 29.17 11.46 4.17 7.29 1.04 2.00 3.13 .00 100.00 (2) .05 .05 .09 .41 .36 .14 .it .05 .50 1.28 .50 .18 .32 .05 .09 .14 .00 4.38 33.0 FT WIND DhTA STABILITY CLASS D CLASS FREQUENCY (PancEnrf) = 20.29 WIND DIRECTION FRON SPEED (NPN) N NME ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 1 12 18 23 7 12 10 8 7 7 4 5 6 7 7 0 132 (1) .00 .22 2.70 4.04 5.17 1.57 2.70 2.25 1.80 1.57 1.57 .90 1.12 .90 1.57 1.57 .00 29.66 (2) .00 .05 .55 .82 1.05 .32 .55 .46 .36 .32 .32 .18 .23 .18 .32 .32 .00 6.02 4-7 0 0 3 24 16 7 2 3 44 82 14 14 17 6 8 2 0 241 (1) .00 .00 .67 5.39 3.60 1.57 .45 .45 9.89 18.43 3.15 3.15 3.82 1.35 1.80 .45 .00 54.16 (2) .00 .00 .14 1.09 .73 .32 .09 .09 2.01 3.74 .64 .64 .78 .27 .36 .09 .00 10.99 8-12 0 1 0 1 0 0 0 0 3 57 9 1 0 0 0 0 0 72 (1) .00 .22 .00 .22 .00 .00 .00 .00 .67 12.81 2.02 .22 .00 .00 .00 .00 .00 16.10 (2) .00 .05 .00 .05 ,00 .00 .00 .00 .14 2.60 .41 .05 .00 .00 .00 .00 .00 3.28 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 2 15 43 39 14 14 12 55 146 30 19 22 10 15 9 0 445 (1) .00 .45 3.37 9.66 8.76 3.15 3.15 2.70 12.36 32.81 6.74 4.27 4.94 2.25 3.37 2.02 .00 100.00 (2) .00 .09 .58 1.96 1.78 .64 .64 .55 2.51 6.66 1.37 .87 1.00 .46 .68 .41 .00 20.29 (1)= PERCEtFF OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD Ce CA!JE (WIND SPEED LESS TMAN OR EQUAL TO 0.95 NPH) 66

o > l 1 Tabb A-1 (continuzd) 1 PILQRIN JUL98-SEP90 BRT DhTA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) I 33.0 FT WIND DhTA STABILITY CLASS E CLASS FREQUENCY (PERCENT) e 37.35 WIND DIREC720N FROM l SPEED (MPB) N NME NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW vRsL TOTAL Calm 0 0 1 0 0 0 1 1 0 0 0 1 1 0 0 0 0 5 (1) .00 .00 .12 .00 .00 .00 .12 .12 .00 .00 .00 .12 .12 .00 .00 .00 .00 .61 (2) .00 .00 .05 .00 .00 .00 .05 .05 .00 .00 .00 .05 .05 .00 .00 .00 .00 .23  ; I ( C-3 0 5 6 14 16 12 15 20 33 15 16 12 26 32 11 9 0 242 I (1) .00 .61 .73 1.71 1.95 1.47 1.83 2.44 4.03 1.03 1.95 1.47 3.17 3.91 1.34 1.10 .00 29.55 (2) .00 .23 .27 .64 .73 .55 .68 .91 1.50 .68 .73 .55 1.19 1.46 .50 .41 .00 11.04 { 4-7 3 4 12 14 8 1 3 0 68 158 60 68 25 11 11 4 0 450 (1) .37 .49 1.47 1.71 .98 .12 .37 .00 8.30 19.29 7.33 8.30 3.05 1.34 1.34 .49 .00 54.95 (2) .14 .18 .55 .54 .36 .05 .14 .00 3.10 7.20 2.74 3.10 1.14 .50 .50 .18 .00 20.52 0-12 0 3 2 0 0 0 0 0 2 99 16 0 0 0 0 0 0 122 (1) .00 .37 .24 .00 .00 .00 .00 .00 .24 12.09 1.95 .00 .00 .00 .00 .00 .00 14.90 (2) .00 .14 .09 .00 .00 .00 .00 .00 .09 4.51 .73 .00 .00 .00 .00 .00 .00 5.56 13-10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 g (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .90 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 3 12 21 28 24 13 19 21 103 272 92 81 52 43 22 13 0 819 (1) .37 1.47 2.56 3.42 2.93 1.59 2.32 2.56 12.58 33.21 11.23 9.99 6.35 5.25 2.69 1.59 .00 100.00 (2) .14 .55 .96 1.28 1.n9 .59 .87 .96 4.70 12.40 4.20 3.69 2.37 1.96 1.00 .59 .00 37.35 l 33.0 FT WIND DATA STAnILITY CLASS F CLASS FREQUENCY (PERCENT) = 15.02 l WIND DIRECTION FROM l SPEED (MPB) N INIE ME EME E WJE SE SSE S SSW SW WSW W WNW NW NNW VREL TCFFAL ! Calm 0 0 0 0 0 1 0 0 1 1 1 1 2 0 0 0 0 7 (1) .00 .00 .00 .00 .00 .29 .00 .60 .29 .29 .29 .29 .58 .00 .00 .00 .00 2.02 (2) .00 .00 .00 .00 .00 .05 .00 .00 .05 .05 .05 .05 .09 .00 .00 .00 .00 .32 C-3 0 2 0 0 3 1 5 4 10 11 18 33 24 12 2 2 0 127 (1) .00 .50 .00 .00 .86 .29 1.44 1.15 2.88 3.17 5.19 9.51 6.92 3.46 .58 .58 .00 36.60 (2) .00 .09 .00 .00 .14 .05 .23 .18 .46 .50 .82 1.56 1.09 .55 .09 .09 .00 5.79 l l 4-7 0 0 0 0 0 1 0 2 7 57 79 21 3 2 0 0 0 172 l (1) .00 .00 .00 .00 .00 .29 .00 .50 2.02 16.43 22.77 6.05 .86 .58 .00 .00 .00 49.57 (2) .00 .00 .00 .00 .00 .05 .00 .09 .32 2.60 3.40 .96 .14 .09 .00 .00 .12 7.04 8-12 0 0 0 0 0 0 0 0 0 10 26 0 0 0 0 0 0 41 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 4.32 7.49 . '0 0 .00 .00 .00 .00 .00 11.82 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .68 1.19 .00 .00 .00 .00 .00 .00 1.07 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l l 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .,09 .00 .00 .00 .00 .00 M 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 2 0 0 3 s 5 6 10 84 124 55 29 14 2 2 0 347 (1) .00 .58 .00 .00 .86 .86 1.44 1.73 5.19 24.21 35.73 15.85 8.36 4.03 .50 .58 .00 100.00 (2) .00 .09 .00 .00 .14 .14 .23 .27 .82 3.03 5.65 2.51 1.32 .64 .09 .09 .00 15.82 i t (1)= PERCEtrT OF ALL 000D OBSERVATIONS FOR THIS PAGE ' l (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR T'818 PERIOD l C = CAIJE (WIND SPEED LESS TRAN OR EQUAL TO 0.95 MPE) I 1 67 i l J

Table A-1 (continu:d) PILORIN JUL98-SEP90 NET DhTA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CLASS G CLASS FREQUENCY (PERCENT) = 3.51 WIND DIRECTION FROM SPEED (NPM) N INIE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 2 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.30 .00 .00 1.30 .00 .00 .00 2.60 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .09 C-3 0 0 0 0 0 0 0 0 1 2 12 15 6 0 0 0 0 36 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.30 2.60 15.58 19.48 7.79 .00 .00 .00 .00 46.75 (2) .00 .00 .00 .00 .00 .00 .00 .00 .05 .09 .55 .68 .27 .00 .00 .00 .00 1.64 4-7 0 0 0 0 0 0 0 0 0 1 33 1 0 0 0 0 0 35 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 1.30 42.06 1.30 .00 .00 .00 .00 .00 45.45 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 1.50 .05 .00 .00 .00 .00 .00 1.60 8-12 0 0 0 0 0 0 0 0 0 1 3 0 0 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 1.30 3.90 .00 .00 .00 .00 .00 .00 5.19 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .14 .00 .00 .00 .00 .00 .00 .18 13-10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .02 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .30 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 er 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 0 0 0 0 0 0 0 1 4 49 16 6 1 0 0 0 77 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.30 5.19 63.64 20.78 7.79 1.30 .00 .00 .00 100.00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .05 .18 2.33 .73 .27 .05 .00 .00 .00 3.51 33.0 FT WIND DATA STASILITY CLkSS ALL CLASS FREQUENCY (PERCENT) = 100.00 WIND DIRECTION FROM SPEED (NPN) N ISIE NE ENE E ESE SE SSE S SSW SW WSW W NNW NW NNW VRSL TOTAL Cala 0 0 1 0 0 1 1 1 1 1 2 2 3 1 0 0 0 14 (1) .00 .00 .05 .00 .00 .05 .0S .05 .05 .05 .09 .09 - .14 .05 .00 .00 .00 .64 (2) .00 .00 .05 .00 .00 .05 .05 .05 .05 .05 .09 .09 .14 .05 .00 .00 .00 .64 C-3 2 13 20 38 50 24 46 35 61 37 54 67 68 54 30 25 0 638 (1) .09 .59 .91 1.73 2.28 1.09 2.10 1.60 2.78 1.69 2.46 3.06 3.10 2.46 1.37 1.14 .00 28.45 (2) .09 .59 .91 1.73 2.28 1.09 2.10 1.60 2.70 1.69 2.46 3.06 3.10 2,46 1.37 1.14 .00 20.45 4-7 11 28 25 72 50 17 7 8 141 356 216 115 81 42 27 24 0 1220 (1) .50 1.20 1.14 3.28 2.28 .78 .32 .36 6.43 16.23 9.85 5.24 3.69 1.92 1.23 1.09 .00 55.63 (2) .50 1.28 1.14 3.20 2.28 .78 .32 .36 6.43 16.23 9.85 5.24 3.69 1.92 1.23 1.09 .00 55.63 8-12 1 4 2 5 0 0 0 0 14 244 64 1 0 0 0 0 0 335 (1) .05 .18 .09 .23 .00 .00 .00 .00 .64 11.13 2.92 .05 .00 .00 .00 .00 .00 15.28 (2) .05 .18 .09 .23 .00 .00 .00 .00 .64 11.13 2.92 .05 .00 .00 .00 .00 .00 15.28 13-10 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ,00 .00 .00 .00 00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 G 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 . (,0 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l ALL SPEEDS 14 45 48 115 100 42 54 44 217 638 336 185 152 97 57 49 0 2193 l (1) .64 2.05 2.19 5.24 4.56 1.92 2.46 2.01 9.90 29.09 15.32 8.44 6.93 4.42 2.60 2.23 .00 100.00 i (2) .64 2.05 2.19 5.24 4.56 1.92 2.46 2.01 9.90 29.09 15.33 8,44 6.93 4.42 2.60 2.23 .00 100.00 l (1)= PERCEIFF OF ALL GOOD OSSERVATIONS FOR TNIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR TNIS PERIOD C = CAMI (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NPN) 68

Tabla A-1 (continu::d) PILGRIN OCT98-DEC98 NET DhTA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CL&SS A CLkSS FREQUENCY (PERCENT) = 11.54 WIND DIRECTION FROM SPEED (MPR) N NME NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW YRSL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .50 .00 .00 C-3 0 2 2 1 0 0 0 0 0 0 1 2 2 1 3 1 0 15 (1) .00 .79 .79 .40 .00 .00 .00 .00 .00 .00 .40 .79 .79 .40 1.19 .40 .00 5.95 (2) .00 .09 .09 .05 .00 .00 .00 .00 .00 .00 .05 .09 .09 .05 .14 .05 .00 .69 4-7 11 15 9 3 9 2 1 2 8 4 1 7 39 28 21 13 0 173 (1) 4.37 5.95 3.57 1.19 3.57 .79 .40 .79 3.17 1.59 .40 2.78 15.48 11.11 0.33 5.16 .00 68.65 (2) .50 .69 .41 .14 .41 .09 .05 .09 .37 .18 .05 .32 1.79 1.28 .96 .60 .00 7.92 0-12 0 0 0 0 0 0 0 0 4 15 4 9 19 4 0 6 0 61 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.59 5.95 1.59 3.57 7.54 1.59 .00 2.38 .00 24.21 (2) .00 .00 .00 .00 .00 .00 .00 .00 .18 .59 .18 .41 .87 .18 .00 .27 .00 2.79 13 18 0 0 0 0 0 0 0 0 0 0 0 0 0 3 0 0 0 3 (1) .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 1.19 .00 .00 .00 1.19 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .14 .00 .00 .00 .14 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 11 17 11 4 9 2 1 2 12 19 6 18 60 36 24 20 0 252 (1) 4.37 6.75 4.37 1.59 3.57 .79 .40 .79 4.76 7.54 2.38 7.14 23.81 14.29 9.52 7.94 .00 100.00 (2) .50 .78 .50 .18 .41 .09 .05 .09 .55 .87 .27 .82 2.75 1.65 1.10 .92 .00 11.54 33.0 FT WIND DATA STABILITY CLASS B CLASS FREQUENCY (PERCErf) = 2.79 WIND DIRECTION FRON SPEED (NPH) N IAEE NE ENE E ESE SE SSE S SSW SW WSW W WWW NW NNW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 1 0 0 0 1 1 1 1 0 1 0 0 2 1 0 9 (1) .00 .00 1.64 .00 .00 .00 1.64 1.64 1.64 1.64 .00 1.64 .00 .00 3.28 1.64 .00 14.75 (2) .00 .00 .05 .00 .00 .00 .05 .05 .05 .05 .00 .05 .00 .00 .09 .05 .00 .41 4-7 0 2 0 1 2 2 3 0 1 0 0 10 7 4 1 1 0 34 (1). .00 3,28 .00 1.64 3.28 3.28 4.92 .00 1,64 .00 .00 16.39 11.48 6.56 1.64 1.64 .00 55.74 (2) .00 .09 00 .05 .09 .09 .14 .00 .05 .00 .00 .46 .32 .18 .05 .05 .00 1,56 8-12 0 0 0 0 0 0 0 0 1 5 2 1 2 4 1 2 0 18 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.64 8.20 3.28 1.64 3.28 6.56 1.64 3.28 .00 29.51 (2) .00 .00 .00 .00 .00 .00 .00 .00 .05 .23 .09 .05 .09 .18 .05 .09 .00 .82 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 2 1 1 2 2 4 1 3 6 2 12 9 8 4 4 0 61 (1) .00 3.28 1.64 1.64 3.28 3.28 6.55 1.64 4.92 9.84 1.28 19.67 14.75 13.11 6.56 6.56 .00 100.00 (2) .00 .09 .05 .05 .09 .09 .18 .05 .14 .27 .09 .55 .41 .37 .18 .18 .00 2.79 (1)= PERCErf OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS POR THIS PERIOD C = CALM (WIND SPEED LESS TNAN OR EQUAL TO 0.95 MPH) 69

Table A-1 (continued) PILGRIN OCT98-DEC98 NET DATA JOINT FREQUENCY DISTRI8UTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CLASS C CLASS FREQUENCY (PERCENT) = 3.11 WIND DIRECTION FRON SPEED (NPN) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VREL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 2 0 0 0 1 0 0 1 0 0 0 0 2 1 0 0 7 (1) .00 2.94 .00 .00 .00 1.47 .00 .00 1.47 .00 .00 .00 .00 2.94 1.47 .00 .00 10.29 (2) .00 .09 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .00 .09 .05 .00 .00 .32 4-7 1 1 3 2 1 3 4 0 1 2 3 6 8 3 0 0 0 38 (1) 1.47 1.47 4.41 2.94 1.47 4.41 5.88 .00 1.47 2.94 4.41 8.82 11.76 4.41 .00 .00 .00 55.88 (2) .05 .05 .14 .09 .05 .14 .18 .00 .05 .09 .14 .27 .37 .14 .00 .00 .00 1.74 8-12 0 2 0 0 1 0 0 1 0 4 7 1 3 1 1 2 0 23 (1) .00 2.94 .00 .00 1.47 .00 .00 1.47 .00 5.88 10.29 1.47 4.41 1.47 1.47 2.94 .00 33.82 (2) .00 .09 .00 .00 .05 .00 .00 .05 .00 .18 .32 .05 .14 .05 .05 .09 .00 1.05 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 1 5 3 2 2 4 4 1 2 6 10 7 11 6 2 2 0 68 (1) 1.47 7.35 4.41 2.94 2.94 5.88 5.08 1.47 2.94 8.82 14.71 10.29 16.18 8.02 2.94 2.94 .00 100.00 (2) .05 .23 .14 .09 .09 .18 .18 .05 .09 .7 .46 .32 .50 .27 .09 .09 .00 3.11 33.0 FT WIND DATA STABILITY CLASS D CLASS FREQUENCY (PERCENT) = 32.83 WIND DIRECTION FRON SPEED (NPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VREL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 2 2 3 6 5 11 4 7 5 3 2 3 4 2 0 0 59 (1) .00 .28 .28 .42 .84 .70 1.53 .56 .98 .70 .42 .28 .42 .56 .28 .00 .00 8.23 l (2) .00 .09 .09 .14 .27 .23 .50 .18 .32 .23 .14 .09 .14 .18 .09 .00 .00 2.70 4-7 6 18 19 5 22 21 31 9 17 27 21 41 45 39 40 13 0 374 l (1) .84 2.51 2.65 .70 3.07 2.93 4.32 1.26 2.37 3.77 2.93 5.72 6.28 5.44 5.58 1.81 .00 52.16 j (2) .27 .82 .87 .23 1.01 .96 1.42 .41 .78 1.24 .96 1.88 2.06 1.79 1.83 .60 .00 17.12 1 8-12 8 25 11 12 20 3 7 0 10 56 11 14 23 38 20 0 0 266 (1) 1.12 3.49 1.53 1.67 2.79 .42 .98 .00 1.39 7.81 1.53 1.95 3.21 5.30 2.79 1.12 .00 37.10 (2) .37 1.14 .50 .55 .92 .14 .32 .00 .46 2.56 .50 .64 1.05 1.74 .92 .37 .00 12.18 13-18 0 0 0 0 0 0 0 1 2 2 0 0 0 5 0 0 0 it (1) .00 .00 .00 .00 .00 .00 .00 .14 .28 .28 .00 .00 1.12 .70 .00 .00 .00 2.51 (2) .00 .00 .00 .00 .00 .00 .00 .05 .09 .09 .00 .00 .37 .23 .00 .00 .00 .82 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 14 45 32 20 48 29 49 14 36 90 35 57 79 86 62 21 0 717 (1) 1.95 6.28 4.46 2.79 6.69 4.04 6.83 1.95 5.02 12.55 4.88 7.95 11.02 11.99 8.65 2.93 .00 100.00 (2) .64 2.06 1.47 .92 2.30 1.33 2.24 .64 1.65 4.12 1.60 2.61 3.62 3.94 2.84 .96 .00 32.83 (1)= PERCENT OF ALL QOOD OSSERVATIONS FOR THIS PAGE (2)= PERCEFF OF ALL GOOD OSSERVATIONS FOR THIS FERIOD C = CALN (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NPM) 70

r Table A-1 (continued) l PI1ARIN OCT98-DEC98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CLASS E CLASS FRSQUENCY (PERCENT) . 40.00 WIND DIRECTION FROM SPEED (MPR) N BAIE NE EME E ESE SE SSE S SSW SW WSW W WNW NW MNW VR.3L TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 4 0 4 3 5 14 18 23 24 17 5 14 26 20 18 3 0 198 (1) .45 .00 .45 .34 .56 1.57 2.02 2.50 2.69 1.91 .56 1.57 2.92 2.24 2.02 .34 .00 22.22 (2) .18 .00 .18 .14 .23 .64 .82 1.05 1.10 .78 .23 .54 1.19 .92 .82 .14 .00 9.07 4-7 5 9 5 6 13 7 18 14 24 35 73 166 80 24 21 0 0 508 (1) .56 1.01 .56 .57 1.46 .79 2.02 1.57 2.69 2.93 0.19 18.63 8.98 2.69 2.36 .90 .00 57.01 (2) .23 .41 .23 .27 .50 .32 .82 .64 1.10 1.60 3.34 7.60 3.66 1.10 .96 .37 .00 23.26 8 12 7 6 0 0 0 4 3 3 10 34 43 27 28 3 8 0 0 176 (1) .79 .67 .00 .00 .00 .45 .34 .34 1.12 3.82 4.83 3.03 3.14 .34 .90 .00 .00 19.75 (2) .32 .27 .00 .00 .00 .18 .14 .14 .46 1.56 1.97 1.24 1.28 .14 .37 .00 .00 8.06 13-18 0 0 0 0 0 0 0 0 6 3 0 0 0 0 0 0 0 9 (1) .00 .00 .00 .00 .00 .00 .00 .00 .67 .34 .00 .00 .00 .00 .00 .00 .00 1.01 l (2) .00 .00 .00 .00 .00 .00 .00 .00 .27 .14 .00 .00 .00 .00 .00 .00 .00 .41 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 i (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 16 15 9 9 18 25 39 40 64 89 121 207 134 47 47 11 0 891 (1) 1.00 1.68 1.01 1.01 2.02 2.81 4.38 4.49 7.18 9.99 13.50 23.23 15.04 5.27 5.27 1.23 .00 100.00 (2) .73 .69 .41 .41 .82 1.14 1.79 1.83 2.93 4.08 5.54 9.48 6.14 2.15 2.15 .50 .00 40.80 33.0 FT WIND DATA STABILITY CLASS F CLASS FREQUENCY (PERCENT) a 7.65 WIND DIRECTION FROM SPEED (NPN) N MNE ME ENE E ESE SE SSE 5 SSW SW WSW W WNW NW NNW VRSL TOTAL Calm 0 0 0 0 1 0 0 1 0 0 0 0 0 0 0 0 0 2 (1) .00 .00 .00 .00 .50 .00 .00 .60 .00 .00 .00 .00 .00 .00 ,00 .00 .00 1.20 (2) .00 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 C-3 0 0 0 0 1 3 1 3 9 17 6 16 8 4 1 0 0 69 (1) .00 .00 .00 .00 .60 1.80 .60 1.00 5.39 10.18 3.59 9.58 4.79 2.40 .60 .00 .00 41.32 (2) .00 .00 .00 .00 .05 .14 .05 .14 .41 .78 .27 .73 .37 .18 .05 .00 .00 3.16 4-7 0 0 0 0 0 0 1 2 4 10 51 16 3 0 0 0 0 87 (1) .00 .00 .00 .00 .00 .00 .60 1.20 2.40 5.99 30.54 9.58 1.00 .00 .00 .00 .00 52.10 (2) .00 .00 .00 .00 .00 .00 .05 .09 .18 .46 2.34 .73 .14 .00 .00 .00 .00 3.98 i 8-12 0 0 0 0 0 0 0 0 0 1 8 0 0 0 0 0 0 9 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .60 4.79 .00 .00 .00 .00 .00 .00 5.39 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .37 .00 .00 .00 .00 .00 .00 .41 l 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 I (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00  ! (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 M 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 j (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00

              .00   .00                     .00                       .00  .00   .00   .00           .00 (2)     .00   .00   .00   .00    .00  .00   .00   .00    .00    .00  .00   .00    .00    .00   .00  .00   .00     .00 l

ALL $PEEDS O O O O 2 3 2 6 13 28 65 32 11 4 1 0 0 167  ! (1) .00 .00 .00 .00 1.20 1.80 1.20 3.59 7.78 16.77 38.92 19.16 6.59 2.40 .60 .00 .00 100.00 (2) .00 .00 .00 .00 .09 .16 .09 .27 .50 1.28 2.08 1.47 .50 .18 .05 .00 .00 7.65 j (1)= PERCENT OF ALL 000D OBSERVATIONS FOR THIS PAGE l (2)= PERCEart OF ALL GOOD OBSERVATIONS FOR THIS PERIOD Ce CA1J8 (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NPR) l 71

y Table A-1 (continued) PIL3RIN OCT98-DEC90 MIT DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 33.0 FT WIND DATA STABILITY CLASS G CLASS FREQUENCY (PERCEWT) = 1.28 WIND DIRECTION FROM SPEED (NPN) N NME NE ENE E ESE SE SSE S SSW SW WSW W WNW NW ISAf VRBL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (* - 3 0 0 0 0 0 0 0 0 0 3 7 5 1 0 0 0 0 16 (1) .00 .00 .00 .00 .00 .00 .02 .00 .00 10.71 25.00 17.84 3.57 .00 .00 .00 .00 57.14 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .14 .32 .23 .05 .00 .00 .00 .00 .73 4-7 0 0 0 0 0 0 0 0 0 2 5 1 0 0 0 0 0 8 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 7.14 17.86 3.57 .00 .00 .00 .00 .00 20.57 (2) .~0 0 .00 .00 .00 .00 .00 .00 .00 .00 .09 .23 .05 .00 .00 .00 .00 .00 .37 8-12 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 14.29 .00 .00 .00 .00 .00 .00 .00 14.29 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 .00 .00 .00 .00 .00 .00 .00 .18 13-18 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ,00 .00 .00 .00 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 , (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ) OT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 0 0 0 0 0 0 0 0 9 12 6 1 0 0 0 0 2F (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 32.14 42.06 21.43 3.57 .00 .00 .00 .00 100.0J (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .41 .55 .27 .05 .00 .00 .00 .00 1.28 33.0 FT WIND DATA STABILITY CLASS ALL CLASS FREQUENCY (PERCEWT) = 100.00 WIND DIRECTION FROM SPEED (MPN) N IBIE ME ENE E ESE SE SSR S SSW SW WSW W WNW NW NNW VIUBL TOTAL Cala 0 0 0 0 1 0 0 1 0 0 0 0 0 0 0 0 0 2 (1) .00 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 (2) .00 .00 .00 .00 .05 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 C-3 4 6 9 7 12 23 31 31 42 43 22 40 40 31 27 5 0 373 (1) .18 .27 .41 .32 .55 1.05 1.42 1.42 1.92 1.97 1.01 1.83 1.83 1.42 1.24 .23 .00 17.08 (2) .18 .27 .41 .33 .55 1.05 1.42 1.42 1.92 1.97 1.01 1.03 1.03 1.42 1.24 .23 .00 17.00 4-7 23 45 36 17 47 35 50 27 55 80 154 247 182 98 83 35 0 1222 (1) 1.05 2.06 1.65 .70 2.15 1.60 2.66 1.24 2.52 3.66 7.05 11.31 0.33 4.49 3.00 1.60 .00 55.95 (2) 1.05 2.06 1.65 .78 2.15 1.60 2.66 1.24 2.52 3.66 7.05 11.31 0.33 4.49 3.80 1.60 .00 55.95 8-12 15 33 11 12 21 7 10 4 25 119 75 52 75 50 30 1B 0 557 (1) .69 1.51 .50 .55 .96 .32 .46 .18 1.14 5.45 3.43 2.30 3.43 2.29 1.37 .32 .00 25.50 (2) .69 1.51 .50 .55 .96 .32 .46 .18 1.14 5.45 3.43 2.38 3.43 2.29 1.37 .82 .00 25.50 13-18 0 0 0 0 0 0 0 1 0 5 0 0 0 8 0 0 0 30 (1) .00 .00 .00 .00 .00 .00 .00 .05 .37 .23 .00 .00 .37 .37 .00 .00 .00 1.37 (2) .00 .00 .00 .00 .00 .00 .00 .05 .37 .23 .00 .00 .37 .37 .00 .00 .00 1.37 j i 19-24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 j GT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 42 54 56 36 31 65 99 64 130 247 251 339 305 187 140 58 0 2184 (1) 1.92 3.05 2.56 1.65 3.71 2.98 4.53 2.93 5.95 11.31 11.49 15.52 13.97 8.56 6.41 2.66 .00 100.00 (2) 1.92 3.85 2.56 1.65 3.71 2.98 4.53 2.93 5.95 11.31 11.49 15.52 13.97 8.56 6.41 2.66 .00 100.00 (1) PERCENT CF ALL GOOD OBSERVATIONS FOR THIS PAGE (2) PERCENT OF ALL GOOD OBSERVATIONS FOR TMIS PERIOD C

• CALM (WIND SPEED LESS TMAN OR EQUAL TO 0.95 MPR) 72

p l-l l l Tabb A-2 Distributions of Wind Directions and Speeds for the 220-ft Level of the 220-ft Tower 4 l l PILGRIM JAN98-NAR98 NET DhTA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) I 220.0 PT WIND DhTA STABILITY CLkSS A CLASS FREQUENCY (PERCEMT) = 8.44 WIND DIRECTION FROM SPSED(NPE) N 881E NE ENE E ESE SE SSE S SSW SW WSW W WNW NW BBRf VRBL TOTAL CAM 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 2 (1) ,00 .60 .00 .00 .00 .00 .00 .60 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.20 (2) .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 C-3 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .50 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .50 (2) .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 i 4-7 3 3 1 2 0 1 0 0 1 0 0 0 1 0 1 7 0 20 (1) 1.00 1.80 .60 1.20 .00 .60 .00 .00 .60 .00 .00 .00 .60 .00 .60 4.19 .00 11.98 (2) .15 .15 .05 .10 .00 .05 .00 .00 .05 .00 .00 .00 .05 .00 .05 .35 .00 1.01 l 8-12 2 4 1 4 3 3 0 0 1 0 5 3 4 4 6 6 0 46 (1) 1.20 2.40 .60 2.40 1.80 1.00 .00 .00 .60 .00 2.99 1.80 2.40 2.40 3.59 3.59 .00 27.54 (2) .10 .30 .05 .20 .15 .15 .00 .00 .05 .00 .25 .15 .20 .30 .30 .30 .00 2 33 13-18 4 7 1 0 1 0 0 0 5 10 3 2 2 10 4 10 0 59 (1) 3.40 4.19 .60 .00 .60 .00 .00 .00 2.99 5.99 1.80 1.20 1.20 5.99 2.40 5.95 .00 35.33 (2) .20 .35 .05 .00 .05 .00 .00 .00 .25 .51 .15 .10 .10 .51 .30 .51 ,00 2.90 19-24 1 1 5 1 1 0 0 0 0 4 0 0 0 5 6 5 0 29 (1) .60 .60 2.99 .60 .60 .00 .00 .00 .00 2.40 .00 .00 .00 2.99 3.59 2.99 .00 17.37 (2) .05 .05 .25 .05 .05 .00 .00 .00 .00 .20 .00 .00 .00 .25 .30 .25 .00 1.47 l GT 24 3 0 2 0 0 0 0 0 0 1 0 0 1 3 0 0 0 10 (1) 1.80 .00 1.20 .00 .00 .00 .00 .00 .00 .60 00 .00 .60 1.80 .00 .00 .00 5.99 (2) .15 .00 .10 .00 .00 .00 .00 .00 .00 .05 .00 .00 .05 .15 .00 .00 .00 .51 ALL SPEEDS 13 17 10 7 5 4 0 1 7 15 8 5 8 22 17 28 0 167 (1) 7.78 10.18 5.99 4.19 2.99 2.40 .00 .60 4.19 8.98 4.79 2.99 4.79 13.17 10.18 16.77 .00 100.00 (2) .56 .86 .51 .35 .25 .20 .00 .05 .35 .76 .40 .25 .40 1.11 .86 1.42 .00 8.44 l 220.0 FT WIND DkTA STABILITY CIASS B CLASS FREQUENCY (PERCENT) = 3.13 l WIND DIARCTIOR $RON SPEED (NPH) N IEEE ME ENE E ESR SE SSR S SSW SW WSW W WNW BRf NNW VRBL TOTAL l 1 CAIJE O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l (2) .00 .00 00 .90 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 i (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4-7 1 0 2 0 1 0 0 0 0 1 0 0 1 1 0 0 0 7 (1) 1.61 .00 3.23 .00 1.61 .00 .00 .00 .00 1.61 .00 .00 1.61 1.61 .00 .00 .00 11.29 (2) .05 .00 .10 .00 .05 .00 .00 .00 .00 .05 .00 .00 .05 .05 .00 .bb .00 .35 8-12 1 3 0 3 2 0 0 0 0 3 1 0 2 0 2 0 0 17 (1) 1.61 4.04 .00 4.04 3.23 .00 .00 .00 .00 4.84 1.61 .00 3.23 .00 3.23 .00 .00 27.42 (2) .05 .15 .00 .15 .10 .00 .00 .00 .00 .15 .05 .00 .10 .00 .10 .00 .00 .86 13-18 0 0 1 2 2 0 0 0 2 3 5 2 2 1 2 1 0 23 (1) .00 .00 1.61 3.23 3.23 .00 .00 .00 3.23 4.84 0.06 3.23 3.23 1.61 3.23 1.61 .00 37.10 (2) .00 .00 .05 .10 .10 .00 .00 .00 .10 .15 .25 .10 .10 .05 .10 .05 .00 1.16 19-24 1 2 1 0 0 0 0 0 1 3 0 0 0 0 0 0 0 8 (1) 1.61 3.23 1.61 .00 .00 .00 .00 .00 1.61 4.84 .00 .00 .00 .00 .00 .00 .00 12.90 (2) .05 .10 .05 .00 .00 .00 00 .00 .05 .15 .00 .00 .00 .00 .00 .00 .00 .40 GT 24 0 3 1 0 0 0 0 0 0 0 0 0 0 2 1 0 0 7 (1) .00 4.84 1.61 .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 3.23 1.61 .00 .00 11.29 (2) .00 .15 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 .05 .00 .00 .35 ALL SPEEDS 3 0 5 5 5 0 0 0 3 10 6 2 5 4 5 1 0 62 (1) 4.84 12.90 8,06 8.06 0.06 .00 .00 .00 4.84 16.13 9.68 3.23 0.06 6.45 8.06 1.61 .00 100.00 (2) .15 .40 .25 .25 .25 .00 .00 .00 .15 .51 .30 .30 .25 .30 .25 .05 .00 3.13 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR TEIS PAGE (2)= PERCENT OF ALL GOOD OSSERVATICIIs FOR TEIS PERIOD C = CALN (WIND SPEED LESS TRAN OR EQUAL TO 0.95 MPE) l 73 i-

1 Tabb A-2 (continurd) PILORIN JAN98-NAR99 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DhTA STASILITY CLASS C CLASS FREQUENCY {FERCENT) 3.03 WIND DIRECTION FRO 4 SrBED(MrE) N NME NE sNE E ESE SE SSE 8 SF4 SW WSW W WWW WW NNW VRSL TOTAL j CAIJB 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 - .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .06 .00 ,00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4-7 0 0 1 0 0 0 0 0 1 0 0 0 1 1 2 0 0 6 (1) .00 .00 1.67 .00 .00 .00 .00 .00 1.67 .00 .00 .00 1.6? 1.67 3.33 .00 .00 10.00 (2) .00 .00 .05 .00 .00 .00 .00 .00 .05 .00 . 0 i> .00 .05 .05 .10 .00 .00 .30 8 12 1 2 1 1 3 0 0 0 1 0 1 3 2 3 1 0 0 19 (1) 1.47 3.33 1.47 1.67 5.00 .00 .00 .00 1.67 .00 1.67 5.00 3.33 5.00 1.67 .00 .00 31.67 (2) .05 .10 .05 .05 .15 .00 .00 .00 .05 .00 .05 .15 .30 .15 .05 .00 .00 .96 13-18 0 1 0 1 1 0 0 1 3 2 0 2 1 0 2 0 0 14 l (1) .00 1.67- .00 1.67 1.67 .00 .00 1.67 5.00 3.33 .00 3.33 1.67 .00 3.33 .00 .00 23.33 I (2) .00 .05 .00 .05 .05 .00 .00 .05 .15 .10 .00 .10 .05 .00 .30 .00 .00 .71 19 24 1 4 0 0 0 0 1 0 1 0 0 0 0 2 0 0 0 9 (1) 1.67 6.67 .00 .00 .00 .00 1.67 .00 1.67 .00 .00 .00 .00 3.33 .00 .00 .00 15.00 (2) .05 .30 .00 .00 .00 .00 .05 .00 .05 .00 .00 .00 .00 .10 .00 .00 .00 .46 GT 24 0 5 5 1 0 0 0 0 0 0 0 0 0 0 1 0 0 12 (1) s.00 8.33 '8.33 1v67 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.67 .00 .00 20.00 (2) .00 .25 .25 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .61 ALL SPEEDS 2 12 7 3 4 0 1 1 6 2 1 5 4 6 6 0 0 60 1 (1) 3.33 20.00 11.67 5.00 6.67 .00 1.67 1.67 10.00 3.33 1.67 8.33 6.67 10.00 10.00 .00 .00 100.00 l (2) .10 .61 .35 .15 .30 .00 .05 .05 .30 .10 .05 .25 .20 .30 .30 .00 .00 3.03 l 220.0 FT WIND DATA STASILITY CLESS D CLASS FREQUENCY (PERCENT) = 31.80 WIND DIRECTION FRON SPEED (MPE) N NME NE ENE E ESE SS SSE S SSW SW WSW W WNW NW NNW VREL TOTAL CAIJE O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 1 2 0 0 0 1 0 0 0 1 0 1 1 0 0 0 7 (1) .00 .16 .32 .00 .00 .00 .16 .00 .00 .00 .16 .00 .16 .16 .00 .00 .00 1.11 (2) .00 .05 .10 .00 .00 .00 .45 .00 .00 .00 .05 .00 .05 .05 .00 .00 .00 .35 4-7 0 1 3 3 11 6 1 5 5 2 2 2 3 5 4 2 0 55 (1) .00 .16 .48 .40 1.75 .95 .16 .79 .79 .32 .32 .32 .48 .79 .64 .32 .00 0.74 (2) .00 .05 .15 .15 .56 .30 .05 .25 .25 .10 .10 .10 .15 .25 .20 .10 .00 2.78 8-12 9 3 6 6 6 17 4 4 7 10 10 1 10 3 4 1 0 106 (1) 1.43 1.27 .95 .95 .95 2.70 .64 .64 1.11 1.59 1.59 .16 1,59 .48 .64 .16 .00 16.85 (2) .46 .40 .30 .30 .30 .86 .20 .30 .35 .51 .51 .05 .51 .15 .20 .05 .00 5.36 13-18 5 29 13 6 15 3 0 4 9 18 8 5 8 17 16 1 0 157 (1) .79 4.61 2.07 .95 2.38 .48 .00 .64 1.43 2.86 1.27 .79 1.27 2.70 2.54 .16 .00 24.96 (2) .25 1,47 .66 .30 .76 .15 .00 .20 .46 .91 .40 .25 .40 .86 .81 .05 .00 7.94 19-24 10 23 7 5 12 3 2 3 11 4 11 2 3 14 20 0 0 146 (1) 1.59 3.66 1.11 .79 1.91 .48 .32 .48 1.75 .64 1.75 .32 .48 2.23 4.45 1.27 .00 23.21 (2) .51 1.16 .35 .25 .61 .15 .10 .15 .56 .20 .56 .10 .15 .71 1.42 .40 .00 7.38 0F 24 15 32 21 15 6 2 0 0 1 6 1 0 5 16 33 5 0 138 (1) 2.30 5.09 3.34 2.38 .95 .32 .00 .00 .16 .95 .16 .00 .79 2.54 5.25 79 .00 25.13 (2) .76 1.62 1.06 .76 .30 .10 .00 .00 .05 .30 .05 .00 .25 .81 1.67 .25 .00 7.99 ALL SPEEDS 39 94 52 35 50 31 0 16 33 40 33 10 30 56 85 17 0 629 (1) 6.20 14.94 0.27 5.56 7.95 4.93 1.27 2.54 5.25 6.36 5.25 1.59 4.77 8.90 13.51 2.70 .00 100.00 (2) 1.97 4.75 2.63 1,77 2.53 1.57 .40 .81 1.67 2.02 1,67 .51 1.52 2.83 4.30 .86 .00 31.80 (1)= PERCBIPF OF ALL GOOD OSSERVATIONS FOR TEIS PACE (2)e PERCENT OF ALL 00C5D OBSERVATIONS FOR THIS PERIOD C = CAIJE (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NPN) 6 74

I J Tabb A-2 (continu:d) j l PILGRIM JAN90-It&R90 NET DhTA JOINT FRSQUENCY DISTRISUTION (220-FOOT TOWER) 220.0 PT WIND DhTA STASILITY CLASS S C1 ASS FREQUENCY (PERCENT) = 46.71 WIND DIRECTION FROM SPEED (NPN) N WE 15 ENE 3 ESE Sit SSE S SSW SW WSW W NNW NW Innt VRSL TOTAL CAIAI O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 j (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l C 0 1 1 1 3 1 0 0 1 1 2 1 0 1 3 0 0 16 (1) .00 .11 .11 .11 .32 .11 .00 .00 .11 .11 .22 .11 .00 .11 .32 .00 .00 1.73 1 (2) .00 .05 .05 .05 .15 .05 .00 .00 .05 .05 .10 .05 .00 .05 .15 .00 .00 .01 ) 4-7 2 7 2 2 0 5 6 3 5 3 1 5 4 5 7 5 0 70 (1) .22 .76 522 .22 .87 .54 .65 .32 .54 .32 .11 .54 .43 .54 .76 .54 .00 7.58 (2) .10 .35 .10 .10 .40 .25 .30 .15 .25 .15 .05 .25 .20 .25 .35 .25 .00 3.54 8-12 9 17 9 2 7 8 11 8 8 11 16 7 13 20 22 20 0 its (1) .97 1.04 .97 .22 .75 .87 1.19 .87 .87 1.19 1.73 .76 1.41 2.16 2.30 2.16 .00 20.35 (2) .46 .06 .46 .10 .35 .40 .56 .40 .40 .56 .81 .35 .66 1.01 1.11 1.01 .00 9.50 13-18 10 10 0 16 5 1 4 13 13 41 40 13 20 29 43 26 0 292 ) (1) 1.00 1.08 .87 1.73 .54 .11 .43 1.41 1.41 4.44 4.33 1.41 2.16 3.14 4.65 2.81 .00 31.60 . (2) 351 .51 .40 .81 .25 .05 .20 .66 .66 2.07 2.02 .66 1.01 1.47 2.17 1.31 .00 14.76 19-24 21 7 3 10 4 6 0 3 10 31 15 13 10 21 12 14 0 100 (1) 2.27 .76 .32 1.00 .43 .65 .00 .32 1.00 3.35 1.82 1.41 1.08 2.27 1.30 1.52 .00 19.40 (2) 1.06 .35 .15 .51 .20 .30 .00 .15 .51 1.57 .76 .66 .51 1.06 .61 .71 .00 9.10 GT 24 17 19 22 13 4 6 3 8 3 20 0 0 4 5 33 21 0 170 l (1) 1.04 2.06 2.30 1.41 .43 .55 .32 .07 .32 2.16 .00 .00 .43 .54 3.57 2.27 .00 19.26 - (2) .56 .96 1.11 .66 .30 .30 .15 .40 .15 1.01 .00 .00 .30 .25 1.67 1.06 .00 9.00 ALL SPEEDS 59 61 45 44 31 27 24 35 40 107 74 39 51 81 120 06 0 924 (1) 6.39 6.50 4.87 4.76 3.35 2.92 2.50 3.79 4.33 11.50 0.01 4.22 5.52 0.77 12.99 9.31 .00 100.00 (2) 2.90 3.00 2.20 2.22 1.57 1.37 1.21 1.77 2.02 5.41 3.74 1.97 2.58 4.10 6.07 4.35 .00 46.71 220.0 FT WIND DhTA CTASILITY CLASS F CLASS FRB00ENCY (PERCEarr) = 6.02 WIND DIRECTICII FROA8 SPEED (NPN) N ISE NE EIR 3 ESE SE SSR S SSW SW WSW W NInt NW IRRf VRSL TOTAL CALII O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 2 0 0 0 1 0 1 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 1.60 .00 .00 .00 84 .00 .84 .00 .00 .00 .00 3.36 (2) .00 .00 # 00 .00 .00 .00 .10 .00 .00 .00 .05 .00 .05 .00 .00 .00 .00 .20 4-7 2 2 0 1 3 0 1 1 1 1 1 1 3 3 3 4 0 26 (1) 1.60 1,68 .00 .84 2.52 .00 .84 .84 .04 .84 .84 .34 2.52 1.60 2.52 3.36 .00 21.05 (2) .10 .10 .00 .05 .15 .00 .05 .05 .05 .05 .05 .05 .15 .10 .15 .20 .00 1.31 0 12 0 0 0 0 0 0 2 0 2 1 3 2 1 0 2 2 0 23 (1) .00 .00 .00 .00 .00 .00 1.60 .00 1.60 .94 2.52 1.68 .84 6.72 1.68 1.60 .00 19.33 (2) .00 .00 .00 .00 .00 .00 .10 .00 .10 .05 .15 .10 .05 .40 .10 .10 .00 1.16 13-18 0 0 0 0 1 0 0 0 3 3 11 2 3 3 2 3 0 31 (1) .00 .00 .00 .00 .84 .00 .00 .00 2.52 2.52 9.24 1.68 2.52 2.52 1.60 2.52 .00 25,05 (2) .00 .00 .00 .00 .05 .00 .00 .00 .15 .15 .56 .10 .15 .15 .10 .15 .00 1.57 19-24 1 0 0 0 0 0 0 0 1 2 21 2 1 1 0 0 0 29 (1) .04 .00 .00 .00 .00 .00 .00 .00 .84 1.68 17.65 1.68 .84 .84 .00 .00 .00 24.37 , (2) .05 .00 .00 .00 .00 .00 .00 .00 .05 .10 1.06 .10 .05 .05 .00 .00 .00 1.47  ! M 24 1 0 0 0 0 0 0 0 0 2 3 0 0 0 0 0 0 6 (1) .34 .00 .00 .00 .00 .00 .00 .00 .00 1.68 2.52 .00 .00 .00 .00 .00 .00 5.04 (2) .05 .00 .00 .00 .00 .00 .00 .00 .00 .10 .15 .00 .00 .00 .00 .,00 .00 .30 ALL SPEEDS 4 2 0 1 4 0 5 1 7 9 40 7 9 14 7 9 0 119 i (1) 3.36 1.68 .00 .34 3.36 .00 4.30 .04 5.88 7.56 33.51 5.00 7.56 11.76 5.88 7.56 .00 100.00 ) (2) .30 .10 .00 .05 .30 .00 .25 .05 .35 .46 2.02 .35 .46 .71 .35 .46 .00 6.02 (1)= PERCBNT OF ALL GOOD OBSERVATIONS FOR THIS PAGS (2)= PERCEIFF OF ALL GOOD OSSERVATICIIS FOR THIS PERIOD C = CA1AE (WIND SPEED LESS TNAM OR EQUAL TO 0.95 IEPH) l 1 75 l

Tabb A-2 (continued) PILQRIN JAN98-MAR 98 NET DhTA JOINT FREQUENCY DISTRIStTION (220-FOOT TOWER) 220.0 FT WIND DATA STABILITY CLASS O CLASS FREQUENCY (PERCENT) = .86 WIND . DIRECTION FROM SPEED (MPM) N NME NE EME E ESE SE 881f 8 SSW SW WSW W WNW NW NNW VREL TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 j (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 i (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 f C-3 3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00

            .00   .00               .00        .00                                .00         .00  .00   .00  .00      .00 (2)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00   .00   .00  .00    .00  .00   .00  .00      .00 4-7      0     0     0      0     0     0     0       0       0     0     0    0     0      0    0     0    0        0 (1)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00   .00   .00  .00    .00  .00   .00  .00      .00   4 (2)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00   .00   .00  .00    .00  .00   .00  .00      .00 8-12       0     0     0      0     0     0     0       0       0     0     0    0     0      0    0     1    0        1 (1)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00   .00   .00  .00    .00  .00  5.88  .00     5.88 (2)    .00   .00  .00    .00   .00   .00  .00      .00     .00   .00   .00    00  .00    .00  .00   .05  .00      .05 13 18        0     0     0      0     0     0     0       0       0     0     0    2     2      1    1     0    0        6 (1)    .00   .00  .00    .00   .00   .00  .00      .00     .00   .00   .00 11.76 11.76 5.08 5.68    .00  .00    35.29 (2)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00   .00   .10  .10    .05  .05   .00   .00     .30 19-24        0     0     0      0     0     0     0       0       0     0     3    0     0      0    0     0    0        3 (1)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00 17.65   .00  .00    .00  .00   .00   .00   17.65 (2)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .00   .15   .00  .00    .00  .00   .00   .00     .15 GT 24        0     0     0      0     0     0     0       0       0     1     6    0     0      0    0     0    0        7 (1)    .00   .00  .00    .00   .00   .00   .00     .00     .00  5.00 35.29   .00  .00    .00  .00   .00   .00   41.18 (2)    .00   .00  .00    .00   .00   .00   .00     .00     .00   .05   .30   .00  .00    .00  .00   .00   .00     .35 ALL SPEEDS 0        0     0      0     0     0     0       0       0     1     9    2     2      1    1     1    0       17    ,

(1) .00 .00 .00 .00 .00 .00 .00 .00 .00 5.08 $2.94 11.76 11.76 5.88 5.88 5.88 .00 100.00 I (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .46 .10 .10 .05 .05 .05 .00 .86 1 i 220.0 FT WIND DATA STABILITY CLAS8 ALL CLASE FREQUENCY (PERCENT) = 100.00 WIND DIRECTION FROM SPEED (MPR) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL l l CALM 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 2 (1) .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 (2) .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .10 C-3 0 3 3 1 3 1 3 0 1 1 4 1 2 2 3 0 0 28 (1) .00 .15 .15 .05 .15 .05 .15 .00 .05 .05 .20 .05 .10 .10 .15 .00 .00 1.42 (2) .00 .15 .15 .05 .15 .05 .15 .00 .05 .05 .20 .05 .10 .10 .15 .00 .00 1.42 4-7 0 13 9 0 23 12 8 9 13 7 4 8 13 14 17 18 0 184 (1) .40 .66 .46 .40 1.16 .61 .40 .46 .66 .35 .20 .40 .66 .71 .86 .91 .00 9.30 (2) .40 .66 .46 .40 1.16 .61 .40 .46 .66 .35 .20 .40 .66 .71 .86 .91 .00 9.30 8-12 22 34 17 16 21 28 17 12 19 25 36 16 32 38 37 30 0 400 (1) 1.11 1.72 .85 .81 1.06 1.42 .86 .61 .96 1.26 1.82 .81 1.62 1.92 1.87 1.52 .00 20.22 (2) 1.11 1.72 .86 .81 1.06 1.42 .86 .61 .96 1.26 1.82 .81 1.62 1.92 1.87 1.52 .00 20.22 13-18 19 47 23 25 25 4 4 18 35 77 67 28 38 61 70 41 0 582 (1) .95 2.38 1.16 1.26 1.26 .20 .30 .91 1.77 3.89 3.39 1.42 1.92 3.00 3.54 2.07 .00 29.42 (2) .96 2.38 1.16 1.26 1.26 .30 .30 .91 1.77 3.89 3.39 1.42 1.92 3.08 3.54 2.07 .00 29.42 19-24 35 37 16 16 17 9 3 6 24 44 50 17 14 43 46 27 0 404 (1) 1.77 1.w? .81 .81 .86 .46 .15 30 1.21 2.22 2.53 .86 .71 2.17 2.33 1.37 .00 20.42 (2) 1.77 1.87 .81 .81 .86 .46 .15 .30 1.21 2.22 2.53 .86 .71 2.17 2.33 1.37 .00 20.42 GT 24 36 59 51 29 10 8 3 8 4 30 10 0 10 26 68 26 0 378 (1) 1.82 2.98 2.58 1.47 .51 .40 .15 .40 .20 1.52 .51 .00 .51 1.31 3.44 1.31 .00 19.11 (2) 1.82 2.98 2.58 1.47 .51 .40 .15 .40 .20 1.52 .51 .00 .51 1.31 3.44 1.31 .00 19.11 ALL SPEEDS 120 194 119 95 99 62 38 54 96 184 171 70 109 184 241 142 0 1976 (1) 6.07 9.81 6.02 4.00 5.01 3.13 1.92 2.73 4.85 9.30 0.65 3.54 5.51 9.30 12.18 7.18 .00 100.00 (2) 6.07 9.81 6.02 4.00 5.01 3.13 1.92 2.73 4.85 9.30 8.65 3.54 5.51 9.30 12.18 7.18 .00 100.00 (1). PERCENT OF ALL GOOD CBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CALM (WIND SPEED LESS TNAN OR SQUAL TO 0.95 MPE) 76

Tabla A-2 (continu::d) PILGRIN APR98-JUN98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DATA STABILITY CLASS A CLASS FREQUENCY (PERCENT) = 14.51 WIND DIRECTION FRON SPEED (MPE) N BEIR NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRBL TOTAL CALM 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .C2 4-7 0 2 7 2 2 0 0 0 0 0 0 3 0 0 0 2 0 18 (1) .00 .81 2.82 .81 .81 .00 .00 .00 .00 .00 .00 1.21 .00 .00 .00 .81 .00 7.26 (2) .00 .12 .41 .12 .12 .00 .00 .00 .00 .00 .00 .18 .00 .00 .00 .12 .00 1.05 8-12 13 4 2 4 6 8 9 2 8 6 4 5 7 3 2 3 0 86 (1) 5.24 1.61 .81 1.61 2.42 3.23 3.63 .81 3.23 2.42 1.61 2.02 2.82 1.21 .81 1.21 .00 34.68 (2) .76 .23 .12 .23 .35 .47 .53 .12 .47 .35 .23 .29 .41 .18 .12 .18 .00 5.03 13-18 6 11 0 0 0 3 4 1 13 9 4 5 14 4 2 6 0 82 (1) 2.42 4.44 .00 .00 .00 1.21 1.61 .40 5.24 3.63 1.61 2.02 5.65 1.61 .81 2.42 .00 33.06 (2) .35 .64 .00 .00 .00 .18 .23 .06 .76 .53 .23 .29 .82 .23 .12 .35 .00 4.00 19-24 2 8 3 0 0 0 2 1 2 5 2 0 3 3 0 5 0 36 (1) .81 3.23 1.21 .00 .00 .00 .81 .40 .81 2.02 .81 .00 1.21 1.21 .00 2.02 .00 14.52 (2) .12 .47 .18 .00 .00 .00 .12 .06 .12 .29 .12 .00 .18 .18 .00 .29 .00 2.11 GT 24 2 1 5 0 0 0 0 0 1 0 0 0 7 6 0 4 0 26 (1) .81 .40 2.02 .00 .00 .00 .00 .00 .40 .00 .00 .00 2.82 2.42 .00 1.61 .00 10.48 (2) .12 .06 .29 .00 .00 .00 .00 .00 .06 .00 .00 .00 .41 .35 .00 .23 .00 1.52 ALL SPEEDS 23 26 17 6 0 11 15 4 24 20 10 13 31 16 4 20 0 248 (1) 9.27 10.48 6.85 2.42 3.23 4.44 6.05 1.61 9.68 0.06 4.03 5.24 12.50 6.45 1.61 0.06 .00 100.00 (2) 1.35 1.52 .99 .35 .47 .64 .88 .33 1.40 1.17 .59 .76 1.81 .94 .23 1.17 .00 14.51 220.0 FT WIND DATA STABILITY CLESS 3 CLASS FREQURNCY (PERCEart) = 3.86 WIND DIRECTION FRON SPEED (NPE) N BEIE ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL CALN 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l 4-7 0 1 3 2 1 1 0 1 0 1 0 0 0 0 1 0 0 11 (1) .00 1.52 4.55 3.03 1.52 1.52 .00 1.52 .00 1.52 .00 .00 .00 .00 1.52 .00 .00 16.67 i (2) .00 .06 .18 .12 .06 .06 .00 .06 .00 .06 .00 .00 .00 .00 .06 .00 .00 .64 i 8-12 0 1 0 1 1 3 0 3 0 1 1 0 1 0 2 1 0 15 (1) .00 1.52 .00 1.52 1.52 4.55 .00 4.55 .00 1.52 1.52 .00 1.52 .00 3.03 1.52 .00 22.73 (2) .00 .06 .00 .06 .06 .18 .00 .18 .00 .06 .06 .00 .06 .00 .12 .06 .00 .38 13-18 1 0 0 0 0 3 4 1 5 4 0 1 3 2 0 1 0 25 (1) 1.52 .00 .00 .00 .00 4.55 6.06 1.52 7.58 6.06 .00 1.52 4.55 3.03 .00 1.52 .00 37.08 (2) .06 .00 .00 .00 .00 .18 .23 .06 .29 .23 .00 .06 .18 .12 .00 .06 .00 1.46 19-24 0 0 3 0 0 0 0 0 1 2 0 0 3 0 0 1 0 10 (1) .00 .00 4.55 .00 .00 .00 .00 .00 1.52 3.03 .00 .00 4.55 .00 .00 1.52 .00 15.15 (2) .00 .00 .18 .00 .00 .00 .00 .00 .06 .12 .00 .00 .18 .00 .00 .06 .00 .59 OT 24 1 0 1 1 0 0 0 0 0 1 0 0 1 0 0 0 0 5 (1) 1.52 .00 1.52 1.52 .00 .00 .00 .00 .00 1.52 .00 .00 1.52 .00 .00 .00 .00 7.58 (2) .06 .00 .06 .06 .00 .00 .00 .00 .00 .06 .00 .00 .06 .00 .00 .00 .00 .29 ALL SPEEDS 2 2 7 4 2 7 4 5 6 9 1 1 8 2 3 3 0 66 (1) 3.03 3.03 10.61 6.06 3.03 10.61 6.06 7.58 9.09 13.64 1.52 1.52 12.12 3.03 4.55 4.55 .00 100.00 (2) .12 .12 .41 .23 .12 .41 .23 .29 .35 .53 .06 .06 .47 .12 .18 .18 .00 3.86 (1)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCEIFF OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CALM (WIND SPEED LESS THAN OR EQUAL TO 0.95 MPH) 77

Table A-2 (continued) PILORIN APR98-JUN90 NET DhTA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DhTA STASILITY CLASS C CLASS FREQUENCY (PERCENT) = 3.28 WIND DIRECTION PRON SPEED (MPB) N IRIE ME ENE E ESE SE SSE S SSW SW WSW W WNW WW NMW VRBL TOTAL CALas 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 2 (1) .00 .00 .00 .00 1.79 .00 .00 .00 .00 .00 .00 1.79 .00 .00 .00 .00 .00 3.57 j (2) .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 .12 t 4-7 0 0 0 2 1 3 0 1 1 2 0 1 1 0 0 1 0 13 (1) .00 .00 .00 3.57 1.79 5.36 .00 1.79 1.79 3.57 .00 1.79 1.79 .00 .00 1.79 .00 23.21 (2) .00 .00 .00 .12 .06 .18 .00 .06 .06 .A2 .00 .06 .06 .00 .00 .06 .00 .76 6-12 1 0 0 1 1 0 2 0 1 2 2 1 0 0 0 1 0 12 (1) 1.79 .00 .00 1.79 1.79 .00 3.57 .00 1.79 3.57 3.57 1.79 .00 .00 .00 1.19 .00 21.43 ' ' (2) .06 .00 .00 .06 .06 .00 .12 .00 .06 .12 .12 .06 .00 .00 .00 .06 .00 .70 13-18 0 2 0 0 1 0 4 2 4 2 0 0 0 1 0 0 0 16 (1) .00 3.57 .00 .00 1.79 .00 7.14 3.57 7.14 3.57 .00 .00 .00 1.79 .00 .00 .00 28.57 ) (2) .00 .12 .00 .00 .06 .00 .23 .12 .23 .12 .00 .00 .00 .06 .00 .00 .00 .94 19-24 0 0 3 3 0 0 0 0 0 1 0 0 1 2 0 0 0 10 (1) .00 .00 5.36 5.36 .00 .00 .00 .00 .00 1.79 .00 .00 1.79 3.57 .00 .00 .00 17.86 (2) .00 .00 .18 .18 .00 .00 .00 .00 .00 .06 .00 .00 .06 .12 .00 .00 .00 .59 GT 24 1 0 0 1 0 0 0 0 0 1 0 0 0 0 0 0 0 3 (1) 1.79 .00 .00 1.79 .00 .00 .00 .00 .00 1.79 .00 .00 .00 .00 .00 .00 .00 5.36 (2) .06 .00 .00 .06 .00 .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 .00 .00 .18 ALL SPEEDS 2 2 3 7 4 3 6 3 6 8 2 3 2 3 0 2 0 56 (1) 3.57 3.57 5.36 12.50 7.14 5.36 10.71 5.36 10.71 14.29 3.57 5.36 3.57 5.36 .00 3.57 .00 100.00 (2) .13 .12 .10 .41 .23 .10 .35 .it .35 .47 .12 .it .12 .18 .00 .12 .00 3.20 220.0 FT WIND DLTA STABILITY CLASS D ~ CLASS FREQUEBICY (PERCENT) = 22.53 WIND DIRECTIOtt frost SPEED (IEPB) N BAER IIE ENE E ESE SE SSE S SSW SW WSW W WWW NW SEfW VRSL TOTAL CAIJE 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 C-3 0 3 3 1 2 2 1 1 1 1 0 0 2 1 0 0 0 17 (1) .00 .52 .78 .26 .52 .52 .26 .26 .26 .26 .00 .00 .52 .26 .00 .00 .00 4.42 (2) .00 .12 .18 .06 .12 .12 .06 .06 .06 .06 .00 .00 .12 .06 .00 .00 .00 .99 4-7 2 4 16 12 3 2 1 4 4 2 0 0 3 0 1 1 0 55 (1) .52 1.04 4.16 3.12 .78 .52 .26 1.04 1.04 .52 .00 .00 .70 .00 .26 .26 .00 14.29 (2) .12 .23 .94 .70 .1B .12 .06 .23 .23 .12 .00 .00 .10 .00 .06 .06 .00 3.22 0-12 0 7 1 6 5 4 11 8 7 16 5 2 7 1 4 3 0 95 (1) 2.00 1.82 .26 1.56 1.30 1.04 2.86 2.08 1.82 4.16 1.30 .52 1.82 .26 1.04 .78 .00 24.58 (2) .47 .41 .06 .35 .29 .23 .64 .47 .41 .94 .29 .12 .41 .06 .33 .18 .00 5.56 13-18 2 10 5 2 5 1 10 6 9 9 10 4 4 10 2 6 0 95 (1) .52 2.60 1.30 .52 1.30 .25 2.60 1.56 2.34 2.34 2.60 1.04 1.04 2.60 .52 1.56 .00 24.68 (2) .12 .59 .29 .12 .29 .06 .59 .45 .53 .53 .59 .23 .23 .59 .12 .35 .00 5.56 19-24 1 6 3 3 0 0 0 2 2 17 2 0 5 5 3 5 0 54 (1) .26 1.56 .78 .78 .00 .00 .00 .52 .53 4.42 .52 .00 1.30 1.30 .78 1.30 .00 14.03 (2) .06 .35 .18 .18 .00 .00 .00 .12 .12 .99 .12 .00 .29 .29 .18 .29 .00 3.16 pt 24 9 12 27 7 1 0 0 0 2 4 0 0 4 2 1 0 0 69 til 2.34 3.12 7.01 1.82 .26 .00 .00 .00 .52 1.04 .00 .00 1.04 .52 .26 .00 .00 17.92 (2) .53 .70 1.50 .41 .06 .00 .00 .00 .12 .23 .00 .00 .23 .12 .06 .00 .00 4.04 ALL SPEEDS 22 41 55 31 16 9 23 21 25 49 17 6 25 19 11 15 0 385 (1) 5.71 10.65 14.29 8.05 4.15 2.34 5.97 5.45 6.49 12.73 4.42 1.56 6.49 4.94 2.06 3.90 .00 100.00 (2) 1.29 2.40 3.22 1.81 .94 .53 1.35 1.23 1.46 2.87 .99 .35 1.46 1.11 .64 .se .00 22.53 (1)= PERCENT OF ALL GOOD OBSERVATICiss FOR TKIS PAGE (2)e PERCBNT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CAIJE (WIND SPEED LESS THAN OR SQUAL TO 0.95 MPB) 78

Table A-2 (continued) PILORIN APR90-JUN90 MIT DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 PT WIND DhTA STABILITY CLASS E CLASS FREQUENCY (PERCENT) = 44.94 WIND DIRECTION FROM SPEED (MPN) 9f 3515 NE ENE E ESS SE SSE S SSW SW WSW W WNW NW NNW VR5L TOTAL CAus 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .00 .00 .00 .13 .00 .00 .13 .00 .00 .00 .00 .00 .26 (2) .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .06 .00 .00 .00 .00 .00 .12 C-3 1 1 1 5 4 6 3 4 4 1 1 0 3 4 1 2 0 41 (1) .13 .13 .13 .65 .53 .78 .39 .52 .52 .13 .13 .00 .39 .52 .13 .26 .00 5.34 (2) .06 .06 .06 ,29 .23 .35 .18 .23 .23 .06 .06 .00 .18 .23 .06 .12 .00 2.40 4-7 1 9 14 8 18 11 13 8 13 11 1 2 4 4 9 13 0 139 (1) .13 1.17 1.02 1.04 2.34 1.43 1.69 1.04 1.69 1.43 .13 .26 .52 .52 1.17 1.69 .00 18.10 (2) .06 .53 .82 .47 1.05 .54 .76 .47 .76 .64 .06 .12 .23 .23 .53 .76 .00 8.13 0-12 11 4 4 3 14 10 25 24 23 14 9 4 9 5 11 7 0 177 (1) 1.43 .52 .52 .39 1.02 1.30 3.26 3.13- 2.99 1.82 1.17 .52 1.17 .65 1.43 .91 .00 23.05 (2) .64 .23 .33 .it .82 .59 1.46 1.40 1.35 .32 .53 .23 .53 .29 .64 .41 .00 10.36 13-10 3 2 4 1 5 7 32 le 25 26 13 8 11 15 24 7 0 201 (1) .39 .26 .52 .13 .65 .91 4.17 2.34 3.26 3.39 1.69 1.04 1.43 1.95 3.13 .91 .00 26.17 (2) .18 .12 .33 .06 .29 .41 1.87 1.05 1.46 1.52 .76 .47 .64 .0B 1.40 .41 .00 11.76 19-24 2 7 4 1 3 2 14 3 7 45 26 16 14 5 3 2 0 154 (1) .26 .91 .52 .13 .39 .26 1.82 .39 .91 5.86 3.39 2.00 1.82 .65 .39 .26 .00 20.05 (2) .12 .41 .23 .06 .18 .12 .02 .18 .41 2.63 1.52 .94 .82 .29 .10 .12 .00 9.01 GT 24 5 4 11 .12 2 2 2 0 1 0 0 0 0 1 3 3 0 54 (1) .55 .52 1.43 1.56 .26 .26 .26 .00 .13 1.04 .00 .00 .00 .13 .39 .39 .00 7.03 (2) .29 .23 .54 .70 .12 .12 .12 .00 .06 .47 .00 . 00 .00 .06 .18 .18 .00 3.16 ALL SPEEDS 23 27 38 30 46 38 09 57 74 105 50 31 41 34 51 34 0 768 (1) 2.99 3.52 4.95 a.91 5.99 4.95 11.59 7.42 9.64 13.67 6.51 4.04 5.34 4.43 6.64 4.43 .00 100.00 (2) 1.35 1.58 2.33 1,76 2.69 2.22 5.21 3.34 4.33 6.14 2.93 1.81 2.40 2.99 2.98 1.99 .00 44.94 220.0 FT WIND DATA STABILITY CLASS F CIASS FREQUENCY (PERCENT) = 8.40 WIND DIRECTIcar FRON SPEED (MPE) N IglE NE ENE E ESE SE SSE S SSW SW WSvf W WNW IIW ISIN VRBL TOTAL CAud 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 1 1 1 1 0 2 2 3 0 0 1 0 0 0 0 12 (1) .00 .00 .69 .69 .69 .69 .00 1.38 1.30 2.07 .00 .00 .69 .00 .00 .00 . 10 8.28 (2) .00 .00 .06 .06 .06 .06 .00 .12 .12 .18 .00 .00 .06 .00 .00 .00 .L O .70 4-7 1 1 6 2 0 2 3 4 6 5 4 0 1 1 3 5 0 44 (1) .69 .69 4.14 1.38 .00 1.38 2.07 2.76 4.14 3.45 2.76 .00 .69 .69 2,07 3.45 .00 30.34 (2) .06 .06 .35 .12 .00 .12 .18 .23 .35 .29 .23 .00 .06 .06 .10 .29 .00 2.57 8-12 1 0 3 1 1 1 6 2 1 1 0 1 1 3 2 1 0 25 (1) .69 .00 2.07 .69 .69 .69 4.14 1.30 .69 .69 .00 .59 .69 2.07 1.30 .69 .00 17.24 (2) .06 .00 .18 .06 .06 .06 .35 .12 .06 .06 .00 .06 .06 .13 .12 .06 .00 1.46 13-18 0 2 0 0 1 0 9 2 2 3 5 7 8 7 0 1 0 47 (1) .00 1.38 .00 .00 .69 .00 6.21 1.38 1.38 2.07 3.45 4.83 5.52 4.83 .00 .59 .00 32.41 (2) .00 .12 .00 .00 .06 .00 .53 .12 .12 .18 .29 .41 .47 .41 .00 .06 .00 2.75 19-24 0 0 0 1 0 0 0 0 0 2 5 2 2 0 0 1 0 13 (1) .00 .00 .00 .69 .00 .00 .00 .00 .00 1.38 3.45 1.38 1.38 .00 .00 .59 .00 8.97 (2) .00 .00 .00 .06 .00 .00 .00 .00 .00 .12 .29 .12 .12 .00 .00 .06 .00 .76 OF 24 0 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 2.76 .00 .00 .00 .00 .00 .00 2.76 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .23 .00 .00 .00 .00 .00 .00 .23 ALL APEEDS 2 3 10 5 3 4 18 10 11 14 18 10 13 11 5 8 0 145 (1) 1.38 2.07 6.90 3.45 2.07 2.76 12.41 6.90 7.59 9.66 12.41 6.90 8.97 7.59 3.45 5.52 .00 100.00 (2) .12 .18 .59 .29 .18 .23 1.05 .59 .64 .82 1.05 .59 .76 .64 .29 .47 .00 8.48 (1)= PERCENT OF ALL 000D OSSERVATICIIS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATICIES FOR THIS PERIOD Ca CALM (WIND SPEED LESS TNAN OR EQUAL TO 0.95 NPN) 79 Y l

Table A-2 (continued) PI!AIRIN APR98-JUN98 NET DhTA JOIIFF FREQUENCY DISTRIBUTION (220-POOT TOWER) 220.0 FT WIND DATA STASILITY CIASS O CLASS FREQUENCY (PERCENT) = 2.40 WIND DIRECTION FRON i SPEED (KtN) N BRIE ME ENE E ESE SE SSE S SSW SW WSW W WNW NW MNW VRBL TOTAL I CA!JI O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

             .00                                                                                                            )

(1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l (2) .00 .00 . 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ' C-3 0 0 0 0 0 0 0 0 0 0 2 0 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4.88 .00 .00 .00 .00 .00 .00 4.88 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .12 .00 .00 .00 .00 .00 .00 .12 4-7 0 0 0 0 0 0 2 0 0 0 1 1 1 0 1 0 0 6 (1) .00 .00 .00 .00 .00 .00 4.88 .00 .00 .00 2.44 2.44 2.44 .00 2.44 .00 .00 14.63 (2) .00 .00 .00 .00 .00 .00 .12 .00 .00 .00 .06 .06 .06 .00 .06 .00 .00 .35 8-12 0 0 -1 0 0 1 1 1 1 1 3 0 1 3 0 0 0 13 (1) .00 .00 2.44 .00 .00 2.44 2.44 2.44 2.44 2.44 7.32 .00 2.44 7.32 .00 .00 .00 31.71 (2) .00 .00 .06 .00 .00 .06 .06 .06 .06 .06 .18 .00 .06 .18 .00 .00 .00 .76 13-18 0 0 0 0' O O 1 0 0 0 3 2 7 1 0 0 0 14 (1) .00 .00 .00 .00 .00 .00 2.44 .00 .00 .00 1.32 4.88 17.07 2.44 .00 .00 .00 34.15 (2) .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .18 .12 .41 .06 .00 .00 .00 .82 19-24 0 0 0 0 0 0 0 0 0 0 4 1 0 0 0 0 0 5 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 9.76 2.44 .00 .00 .00 .00 .00 12.20 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .23 .06 .00 .00 .00 .00 .00 .29 l M 24 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 2.44 .00 .00 .00 .00 .00 .00 2.44 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .00 .00 .00 .00 .06 ALL SPEEDS 0 0 1 0 0 1 4 1 1 1 14 4 9 4 1 0 0 41 (1) .00 .00 2.44 .00 .00 2.44 9.75 2.44 2.44 2.44 34.15 9.75 21.95 9.75 2.44 .00 .00 100.00 (2) .00 .00 .06 .00 .00 .06 .23 .06 .06 .06 .82 .23 .53 .23 .06 .00 .00 2.40 220.0 FT WIND DATA STASILITY CLASS ALL CLASS FREQUENCY (PERCENT) = 100.00 WIND DIRECTION FROM SPEED (NPil) N IndE ME ENE E ESE SE SSE S SSW SW WSW W BAIN NW MMW VRSL TOTAL CAIJi 0 0 0 0 0 0 0 0 1 0 0 1 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .06 .00 .00 .00 .00 .00 .12 (2) .00 .00 .00 .00 .00 .00 .00 .00 .06 .00 .00 .06 .00 .00 .00 .00 .00 .12 C-3 1' 3 5 7 8 9 4 7 7 5 3 1 6 5 1 2 0 74 (1) .06 .18 .29 .41 .47 .53 .23 .41 .41 .29 .18 .06 .35 .29 .06 .12 .00 4.33 (2) .06 .18 .29 .41 .47 .53 .23 .41 .41 .29 .18 .06 .35 .29 .06 .12 .00 4.33 4-7 4- 17 46 28 25 19 19 18 24 21 6 7 10 5 15 22 0 386 (1)- .23 .99 2.69 1.64 1.46 1.11 1.11 1.05 1.40 1.23 .35 .41 .59 .29 .88 1.29 .00 16.73 (2) .23 .99 2.69 1.64 1.46 1.11 1.11 1.05 1.40 1.23 .35 .41 .59 .29 .88 1.29 .00 16.73 8-12 34 16 11 16 28 27 54 40 41 41 24 13 26 15 21 16 0 423 (1) 1.99 .94 .64 .94 1.64 1.58 3.15 2.34 2.40 2.40 1.40 .76 1.52 .88 1.23 .94 .00 24.75 (2) 1.99 .94 .64 .94 1.54 1.58 3.16 2.34 2.40 2.40 1.40 .76 1.52 .88 1.23 .94 .00 24.75 13-18 12 27 9 3 12 14 64 30 58 53 35 27 47 40 28 21 0 480 (1) .70 1.58 .53 .18 .70 .82 3.74 1.76 3.39 3.10 2.05 1.50 2.75 2.34 1.64 1.23 .00 20.09 (2) .70 1.58 .53 .18 .70 .82 3.74 1.76 3.39 3.10 2.05 1.58 2.75 2.34 1.64 1.23 .00 28.09 19-24 5 21 16 8 3 2 16 6 12 72 39 19 28 15 6 14 0 282

   ,(1)      .29  1.23   .94   .47    .18  .12    .94   .35    .70  4.21 2.28 1.11 1.64       .88  .35   .82   .00  16.50 (2)     .29  1.23   .94   .47    .38  .12    .94   .35    .70  4.21 2.38 1.11 1.64      .88   .35    .82  .00  16.50 GT 24        18     17    44   21      3    2      2      0     4    14     5    0   12        9    4      7    0    162 (1)    1.05   .99  2.57 1.23     .18  .12    .12   .00    .23   .82   .29  .00  .70      .53  .23    .41  .00   9.48 (2)    1.05    .99 3.57 1.23     .18  .12    .12   .00    .23   .82   .29  .00  .70     .53   .23    .41  .00   9.48 ALL SPEEDS 74       101   131    83     79   73    159   101    147   206  112    68  129       89   75     82    0   1709 (1)     4.33 5.91 7.67    4.86 4.62 4.27 9.30 5.91 8.60 12.05 6.55 3.98 7.55 5.21 4.39 4.00                .00 100.00 (2)     4.33 5.91 7.67 4.06 4.52 4.27 9.30 5.91 8.60 12.05 6.55 3.98 7.55 5.21 4.39 4.80                   .00 100.00 (1)= PERCBNF OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCEIFF OF ALL GOOD OSSERVATIONS FOR THIS PERIOD                                                                       i C = CALII (WIND SPEED LESS TNAM OR EQUAL TO 0.95 MPE)                                                                       l I

80 l l 1

1 Table A-2 (continued) PILORIN JUL90-SEP90 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 PT WIND DhTA STABILITY CLASS A CLASS FREQUENCY (PERCENT) = 13.41 WIND DIRECTION FROM SPESD(NPE) N BRIE ME ENE E ESE SE SSE S SSW SW WsW W WNW siw NNW VRBL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 00 .00 .00 .00 C-3 0 0 0 0 0 1 0 0 0 0 1 0 0 0 0 0 0 2 (1) .00 .00 .00 .00 .00 .34 .00 .00 .00 .00 .34 .00 .00 .00 .00 .00 .00 .68 (2) .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .09 { 4-7 3 6 3 6 10 7 1 0 4 1 2 1 5 4 9 3 0 70 (1) 1.02 2.04 1.02 2.04 3.40 2.38 .34 .00 1.36 .34 .68 .34 1.70 1.36 3.06 2.72 .00 23.81 (2) .14 .27 .14 .27 .46 .32 .05 .00 .10 .05 .09 .05 .23 .18 .41 .36 .00 3.19 8 12 6 2 1 4 7 7 7 2 14 6 8 5 12 7 7 6 0 101 i (1) 2.04 .58 .34 1.36 2.30 2.38 2.38 .68 4.76 2.04 2.72 1.70 4.08 2.38 2.38 2.04 .00 34.35 I (2) .27 .09 .05 .18 .32 .32 .32 .09 .64 .27 .36 .23 .55 .32 .32 .27 .00 4.61 13-18 4 3 0 3 1 0 0 0 14 33 12 1 10 5 1 6 0 93 (1) 1.36 1.02 .00 1.02 .34 .00 .00 .00 4.76 11.22 4.08 .34 3.40 1.70 .34 2.04 .00 31.63 . (2) .18 .14 .00 .14 ,05 .00 .00 .00 .64 1.50 .55 .05 .46 .23 .05 .27 .00 4.24 I 19-24 2 0 0 0 0 0 0 0 1 0 1 0 0 8 1 2 0 23 I

                                                                                                                            'i (1)     .68   .00   .00   .00   .00  .00   .00    .00    .34   2.72  .34    .00   .00   2.72  .34   .68   .00   7.02 (2)     .09   .00   .00   .00   .00  .00   .00    .00    .05    .36  .05    .00   .00    .36  .05   .09   .00   1.05 GT 24      1      0    0     0     0    0      0      0     0      0     0     0      0     2     0    2     0       5 s (1)     .34   .00   .00   .00   .00  .00   .00    .00    .00    .00  .00    .00   .00    .68  .00   .60   .00   1.70  )

(2) .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .09 .00 .09 .00 .23 q l ALL SPEEDS 16 11 4 13 10 15 0 2 33 40 24 7 27 26 18 24 0 294 (1) 5.44 3.74 1.36 4.42 6.12 5.10 2.72 .68 11.22 16.33 8.15 2.30 9.18 8.84 6.12 0.16 .00 100.00 (2) .73 .50 .10 .59 .82 .68 .36 .09 1.50 2.19 1.09 .32 1.23 1.19 .82 1.09 .00 13.41 220.0 FT WIND DATA STABILITY CLASS 3 CLASS FREQUENCY (PERCENT) = 5.24 WIND DIRECTION FRON SPEED (NPE) N REIE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 , (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 l 4-7 0 4 4 4 6 0 0 1 1 1 1 1 1 1 3 1 0 29 (1) .00 3.40 3.40 3.48 5.22 .00 .00 .87 .87 .87 .87 .07 .87 .87 2.61 .87 .00 25.22 (2) .00 .it .13 .18 .27 .00 .00 .05 .05 .05 .05 .05 .05 .05 .14 .05 .00 1.32 8-12 0 1 0 1 2 2 8 1 5 7 1 1 3 1 1 1 0 35 (1) .00 .87 .00 .37 1.74 1.74 6 96 .87 4.35 6.09 .87 .07 2.61 .87 .87 .87 .00 30.43 i (2) .00 .05 .00 .05 .09 .09 36 .05 .23 .32 .05 .05 .14 .05 .05 .05 .00 1.60 13-18 0 0 0 0 0 0 0 0 6 20 7 4 3 1 0 1 0 42 (1) .00 .00 .00 .00 .00 .00 .00 .00 5.22 17.39 6.09 3.48 2.61 .87 .00 .87 .00 36.52 (2) .00 .00 .00 .00 .00 .00 .00 .00 .27 .91 .32 .18 .14 .05 .00 .05 .00 1.92 19-24 0 0 0 0 0 0 0 0 0 5 1 0 0 2 0 0 0 8 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 4.35 .87 .00 .00 1.74 .00 .00 .00 6.96 i (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .23 .05 .00 .00 .09 .00 .00 .00 .36 I OT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1 (1) .00 .00 .C0 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .C0 .87 .00 .87 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .05 ALL SPEEDS 0 5 4 5 8 2 0 2 12 33 10 6 7 5 4 4 0 115 (1) .00 4.35 3.40 4.35 6.96 1.74 6.96 1.74 10.43 28.70 8.70 5.22 6.09 4.35 3.48 3.48 .00 100.00 (2) .00 .23 .10 .23 .36 .09 .36 .09 .55 1.50 .46 .27 .32 .23 .18 .18 .00 5.24 (1)= PERCENT OF ALL GOOD OSSERVATICIBS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CAuI (WIND SPEED LESS THAN OR EQUAL TO 0.95 MPM) 81

Table A-2 (continued) PILeRIN JUL98-SEP90 NET DATA .70ZWF FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DATA STASILITY CLASS C CLASS FREQUENCY (PERCENT) = 4.38 WIND DIRECTION FROM SPEED (NPE) N IEEE ME ENE E ESE SE SSE S SSW SW WSW W WsIW NW IAIW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00. .00 .00 .00 .00 C-3 0 0 0 0 . 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4-7 1 2 2 1 5 0 1 0 4 2 1 1 1 1 1 0 0 23 (1) 1.04 2,08 2.00 1.04 5.21 .00 1.04 .00 4.17 2.08 1.04 1.04 1.04 1.04 1.04 .00 .00 23.96 (2) .05 .09 . 09 .05 .23 .00 .05 .00 418 .09 .05 .05 .05 .05 .05 .00 .00 1.05 8-12 0 0 0 1 1 5' 5 0 4 8 4 1 4 3 0 1 0 37 (1) .00 .00 .00 1.04 1.04 5.21 5.21 .00 4.11 0.33 4.17 1.04 4.17 3.13 .00 1.04 .00 38.54 (2) .00 .00 .00 .05 .05 .23 .23 .00 .18 .36 .it .05 .it .14 .00 .05 .00 1.69 13-18 0 0 0 0 0 0 1 0 3 13 7 3 1 0 0 0 0 28 (1) .00 .00 .00 .00 .00 .00 1.04 .00 3.13 13.54 7.29 3.13 1.04 .00 .00 .00 .00 29.17 (2) .00 .00 .00 .00 .00 .00 .05 .00 .14 .59 .32 .14 .05 .00 .00 .00 .00 1.20 19-24 0 0 0 1 0 0 0 0 1 4 0 0 0 0 1 0 0 7 (1) .00 .00 .00 1.04 .00 .00 .00 .00 1.04 4.17 .00 .00 .00 .00 1.04 .00 .00 7.29 (2) .00 .00 .00 .05 .00 .00 .00 .00 .05 .it .00 .00 .00 .00 .05 .00 .00 .32 QT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.04 .00 .00 .00 1.04 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .05 ALL SPEEDS 1 2 2 3 6 5 7 0 12 27 12 5 6 5 2 1 0 96 (1) 1.04 2.00 2.08 3.13 6.25 5.21 7.29 .00 12.50 28.12 12.50 5.21 6.25 5.21 2.00 1.04 .00 100.00 (2) .05 .09 .09 .14 .27 .23 .32 .00 .55 1.23 .55 .23 .27 .23 .09 .05 .00 4.30 220.0 FT WIND DATA STABILITY CLASS D CLASS FREQUENCY (PERCBNF) = 20.29 WIND DIRECTION FROM SPEED (IIPE) N NME ME BRIE E ESE SE SSE S SSW SW WSW W NNW NW IBIW VRSL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 1 3 3 3 1 1 1 3 0 2 0 0 0 0 1 0 19 l (1) .00 .22 .67 .67 .67 .22 .22 .22 .67 .00 .45 .00 .00 .00 .00 .22 .00 4.27 (2) .00 .05 .14 .14 .14 .05 .05 .05 .14 .00 .09 .00 .00 .00 .00 .05 .00 .87 4-7 2 3 8 9 1e 21 9 2. 2 0 5 3 4 2 1 6 0 95 (1) .45 .67 1.80 2.02 4.04 4.72 2.02 .45 .45 .00 1.12 .67 .90 45 .22 1.35 .00 21.35 I (2) .09 .14 .36 .41 .82 .96 .41 .09 .07 .00 .33 .14 .18 .09 .05 .27 .00 4.33 l S-12 2 1 1 0 3 22 12 6 16 31 3 0 10 4 1 4 0 116 (1) .45 .22 .22 .00 .67 4.94 2.70 1.35 3.60 6.b7 .67 .00 2.25 .90 .22 .90 .00 26.07 (2) .09 .05 .05 .00 .14 1.00 .55 .27 .73 1.41 .14 .00 .46 .10 .05 .10 .00 5.29 13-18 0 0 0 0 0 1 1 1 29 81 16 7 12 1 1 3 0 153 (1) .00 .00 .00 .00 .00 .22 .22 .23 6.52 10.20 3.60 1.57 2.70 .22 .22 .67 .00 34.38 (2) .00 .00 .00 .00 .00 .05 .05 . 'e 5 1.32 3.69 .73 .32 .55 .05 .05 .14 .00 6.98 19-24 0 0 0 2 0 0 0 0 1 32 6 0 6 3 8 1 0 59 (1) .00 .00 .00 .45 .00 .00 .00 .00 .22 7.19 1.35 .00 1.35 .67 1.80 .22 .00 13.26 (2) .00 .00 .00 .09 .00 .00 .00 .00 .05 1.46 .27 .00 .27 .14 .36 .05 .00 2.69 GT 24 2 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 3 (1) .45 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .22 .00 .00 .00 .00 .67 (2) .09 .00 .00 .00 .00 ,00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .14 ALL SPEEDS 6 5 12 14 24 45 23 10 51 144 32 10 33 10 11 15 0 445 (1) 1.35 1.12 2.70 3.15 5.39 10.11 5.17 2.25 11.46 32.36 7.19 2.25 7.42 2.25 2.47 3.37 .00 100.00 (2) .27 .23 .55 .64 1.09 2.05 1.05 .46 2.33 6.57 1.46 .46 1.50 .46 .50 68 .00 20.29 (1)= PRE N F OF ALL GOOD OSSERVATIONS FOR TEIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CAIJE (WIND SPEED LESS TEAM OR EQUAL TO 0.95 IIPE) 82

Table A-2 (continued) PILORIN JUL98-SEP90 MRT DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DATA STABILITY CLASS E CLASS FREQUENCY (PERCEWF) = 37.35 WIND DIRECTION FROM SPEED (MPM) N 3RIE NE ENE E ESE SE SSE S S8W SW WSW W WNW NW NNW VRBL TOTAL j i Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 j C-3 0 0 5 4 2 0 0 2 1 2 2 0 1 0 0 0 0 19 (1) .00 .00 .61 .49 .24 .00 .00 .24 .12 .24 .24 .00 .12 .00 .00 .00 .00 2.32 (2) .00 .00 423 .18 .09 .00 .00 .09 .05 .09 .09 .00 .05 .00 .00 .00 .00 .87 4-7 2 1 3 7 7 10 8 3 2 4 4 6 3 2 1 7 0 70 (1) .24 .12 .37 .95 .85 1.22 .98 .37 .24 .49 .49 .73 .37 .24 .12 .85 .00 8.55 (2) .09 .05 .14 .32 .32 .46 .36 .14 .09 .18 .18 .27 .14 .09 .05 .32 .90 3.19 8-12 0 1 4 5 0 9 12 8 27 29 15 0 7 9 14 17 0 173 (1) .00 .12 .49 .61 .98 1.10 1.47 .98 3.30 3.54 1.03 .98 .85 1.10 1.71 2.08 .00 21.12 (2) .00 .05 .18 .23 .36 .41 .55 .36 1.23 1.32 .68 .36 .32 .41 .64 .78 .00 7.89 13-18 2 2 3 1 2 1 6 4 30 122 57 20 37 21 12 7 0 327 (1) .24 .24 .37 .12 .24 .12 .73 .49 3.66 14.90 6.96 2.44 4.52 2.56 1.47 .85 .00 39.93 (2) .09 .09 .14 .05 .09 .05 .27 .18 1.37 5.56 2.60 .91 1.69 .96 .55 .32 .00 14.91 19-24 1 1 4 2 0 0 0 0 8 126 20 5 15 14 8 4 0 200 (1) .12 .12 .49 .24 .00 .00 .00 .00 .98 15.38 2.44 .61 1.83 1.71 .98 .49 .00 25.40 (2) .05 .05 .19 .09 .00 .00 .00 .00 .36 5.75 .91 .23 .68 .64 .36 .18 .00 9.48 GT 24 5 3 1 0 2 0 0 0 2 0 1 0 3 0 1 4 0 22 (1) .61 .37 .12 .00 .24 .00 .00 .00 .24 .00 .12 .00 .37 .00 .12 .49 .00 2.69 (2) .23 .14 .05 .00 .09 .00 .00 .00 .09 .00 .05 .00 .14 .00 .05 .18 .00 1.00 ALL SPEEDS 10 8 20 19 21 20 26 17 10 283 99 39 66 46 36 39 0 819 (1) 1.22 .98 2.44 2.32 2.56 2.44 3.17 2.08 8.55 34.55 12.09 4.76 8.06 5.62 4.40 4.76 .00 100.00 (2) .46 .36 .91 .87 .96 .91 1.19 .78 3.19 12.90 4.51 1.78 3.01 2.10 1.64 1.78 .00 37.35 220.0 FT WIND DATA STABILITY CLASS F CLASS FREQUENCY (PERCENT) = 15.82 WIND DIRECTION FROM SPEED (MPH) N MNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 1 1 1 3 0 2 0 2 0 0 1 1 0 0 12 (1) .00 .00 .00 .29 .29 .29 .86 .00 .58 .00 .58 .00 .00 .29 .29 .00 .00 1.46 (2) .00 .00 .00 .05 .05 .05 .14 .00 .09 .00 .09 .00 .00 .05 .05 .00 .00 .55 4-7 0 1 0 1 0 6 3 1 4 4 7 2 5 1 1 2 0 38 (1) .00 .29 .00 .29 .00 1.73 .86 .29 1.15 1.15 2.02 .58 1.44 .29 .29 .58 .00 10.95 (2) .00 .05 .00 .05 .00 .27 .14 .05 .18 .18 .32 .09 .23 .05 .05 .09 .00 1.73 8-12 1 0 0 0 1 1 1 9 7 5 8 12 7 15 22 6 0 95 (1) .29 .00 .00 .00 .29 .29 .29 2.59 2.02 1.44 2.31 3.46 2.02 4.32 6.34 1.73 .00 27.38 (2) .05 .00 .00 .00 .05 .05 .05 .41 .32 .23 .36 .55 .32 .68 1.00 .27 .00 4.33 13-18 0 0 0 0 0 0 2 7 6 26 34 22 27 11 7 1 0 143 (1) .00 .00 .00 .00 .00 .00 .58 2.02 1.73 7.49 9.80 6.34 7.78 3.17 2.02 .29 .00 41.21 (2) .00 .00 .00 .00 .00 .00 .09 .32 .27 1.19 1.55 1.00 1.23 .50 .32 .05 .00 6.52 19 24 0 0 0 0 0 1 0 1 0 19 30 3 0 2 2 1 0 59 (1) .00 .00 .00 .00 .00 .29 .00 .29 .00 5.48 8.65 .86 .00 .58 .58 .29 .00 17.00 (2) .00 .00 .00 .00 .00 .05 .00 .05 .00 .87 1.37 .14 .00 .09 .09 .05 .00 2.69 QT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 1 1 0 2 2 9 9 18 19 54 81 39 39 30 33 10 0 347 (1) .29 .29 .00 .50 .50 2.59 2.59 5.19 5.48 15.56 23.34 11.24 11.24 8.65 9.51 2.88 .00 100.00 (2) .05 .05 .00 .09 .09 .41 .41 .82 .87 2.46 3.69 1.78 1.78 1.37 1.50 .46 .00 15.82 (1)= PERCENT OF ALL OOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL OOOD OBSERVATIONS FOR THIS PERIOD C = CAIJi (WIND SPEED LESS THAN OR EQUAL TO 0.95 MPH) 83

Table A-2 (continund) PILGRIN .7UL98-SEP98 IIET DATA JOINT FREQUENCY DISTAIBUTION (220-FOOT TOWER) 220.0 FT WIND DATA STASILITY CLASS G CLASS FREQUENCY (PERCENT) = 3.51 WIND DIRECTION FROM SPEED (NPN) N BRIE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRBL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.30 .00 .00 .00 .00 .00 1.30 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .05 C-3 0 0 0 0 0 0 1 1 1 1 0 3 0 0 0 2 0 9 (1) .00 .00 .00 .00 .00 .00 1.30 1.30 1.30 1.30 .00 3.90 .00 .00 .00 2.60 .00 11.69 (2) .00 .00 .00 .00 .00 .00 .05 .05 .05 .05 .00 .14 .00 .00 .00 .09 .00 .41 4-7 0 3 1 2 0 2 0 1 2 2 3 2 3 1 1 1 0 24 (1) .00 3.90 1.30 2.60 .00 2.60 .00 1.30 2.60 2.60 3.90 2.60 3.90 1.30 1.14 1.30 .00 31.17 (2) .00 .14 .05 .09 .00 .09 .00 .05 .09 .09 .14 .09 .14 .05 .05 .05 .00 1.09 8-12 0 0 0 0 0 0 0 0 1 3 4 2 2 9 1 0 0 22 (1) .00 .00 .00 .00 .00 .00 .00 .00 1.30 3.90 5.19 2.60 2.60 11.69 1.30 .00 .00 28.57 (2) .00 .00 .00 .00 .00 .00 .00 .00 .05 .14 .18 .09 .09 .41 .05 .00 .00 1.00 13-18 0 0 0 0 0 0 0 0 0 0 0 2 3 1 0 0 0 14 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 10.39 2.60 3.90 1.30 .00 .00 .00 18.18 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .36 .09 .14 .05 .00 .00 .00 .64 19-24 0 0 0 0 0 0 0 2 0 0 7 0 0 0 0 0 0 7 (1) .00 .00 .00 .00 .00 .00 .00 .30 .00 .00 9.09 .00 .00 .00 .00 .00 .00 9.09 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .32 .00 .00 .00 .00 .00 .00 .32 OT 24 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 < (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 ALL SPEEDS 0 3 1 2 0 2 1 2 4 6 22 10 0 11 2 3 0 77 (1) .00 3.90 1.30 2.60 .00 2.60 1.30 2.60 5.19 7.79 28.57 12.99 10.39 14.29 2.60 3.90 .00 100.00 (2) .00 .14 .05 .09 .00 .09 .05 .09 .18 .27 1.00 .46 .36 .50 .09 .14 .00 3.51 220.0 FT WIND DATA STABILITY CLASS ALL CLASS FREQUENCY (PERCEWr) 100.00 WIND DIRECTION FRON SPEED (NPM) N BRIE ME ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .05 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .05 C-3 0 1 8 8 6 3 5 4 7 3 7 3 1 1 1 3 0 61 (1) .00 .05 .36 .35 .27 .14 .23 .18 .32 .14 .32 .14 .05 .05 .05 .14 .00 2.78 (2) .00 .05 .36 .36 .27 .14 .23 .18 .32 .14 .32 .14 .05 .05 .05 .14 .00 2.78 4-7 8 20 21 30 46 46 22 0 19 14 23 16 22 12 17 25 0 349 (1) .36 .91 .96 1.37 2.10 2.10 1.00 .36 .87 .64 1.05 .73 1.00 .55 .78 1.14 .00 15.91 (2) .36 .91 .96 1.37 2.10 2.10 1.00 .36 .87 .64 1.05 .73 1.00 .55 .78 1.14 .00 15.91 3-12 9 5 6 11 22 46 45 26 74 89 43 29 45 48 46 35 0 579 (1) .41 .23 .27 .50 1.00 2.10 2.05 1.19 3.37 4.06 1.96 1.32 2.05 2.19 2.10 1.60 .00 26.40 (2) .41 .23 .27 .50 1.00 2.10 2.05 1.19 3.37 4.06 1.96 1.32 2.05 2.19 2.10 1.60 ,00 26.40 13-18 6 5 3 4 3 2 10 12 88 295 141 59 93 40 21 18 0 000 (1) .27 .23 .14 .18 .14 .09 .46 .55 4.01 13.45 6.43 2.69 4.24 1.82 .96 .82 .00 36.48 (2) .27 .23 .14 .18 .14 .09 .46 .55 4.01 13.45 6.43 2.69 4.24 1.f2 .96 .82 .00 36.48 19-24 3 1 4 5 0 1 0 1 11 194 65 8 21 29 20 0 0 371 ( (1) .14 .05 .18 .23 .00 .05 .00 .05 .s0 0.85 2.96 .36 .96 1.32 .91 .36 .00 16.92 (2) .14 .05 .18 .23 .00 .05 .00 .05 .50 8.85 2.96 .36 .96 1.32 .91 .36 .00 16.92 of 24 8 3 1 0 2 0 0 0 2 0 1 0 4 3 1 7 0 32 (1) .36 .14 .05 .00 .09 .00 .00 .00 .09 .00 .05 .00 .18 .14 .05 .32 .00 1.46 (2) .36 .14 .05 .00 .09 .00 .00 .00 .09 .00 .05 .00 .18 .14 .05 .32 .00 1.46 ALL SPEEDS 34 35 43 58 79 98 82 51 201 595 280 116 186 133 106 96 0 2193 (1) 1.55 1.60 1.96 2.64 3.60 4.47 3.74 2.33 9.17 27.13 12.77 5.29 8.48 6.06 4.03 4.38 .00 100.00 (2) 1.55 1.60 1.96 2.64 3.60 4.47 3.74 2.33 9.17 27.13 12.77 5.29 8.48 6.06 4.83 4.38 .00 100.00 (1)= PERCENT OF ALL GOOD CSSERVATIONS FOR THIS PAGE (2)= PERCEIrf CF ALL GOOD OBSERVATICIIS FOR THIS PERIOD Ce CAIJE (WIRED SPEED LESS TRAN OR EQUAL TO 0.95 MPM) 84

Tabla A-2 (continued) PILGRIN OCT90-DEC90 MRT DATA JOIIfr FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DATA STABILITY CIASS A CLASS FREQUENCY (PERCENT) = 11.54 WIND DIRECTION FRON SPEED (NPM) N BRIE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW BBRf VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 i (1) .00 .40 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .40 (2) .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05

                                                                                                                                                                                                          )

4-7 0 6 3 2 2 2 0 0 1 0 0 0 3 4 4 2 0 29 (1) .00 2.38 1.19 .79 .79 .79 .00 .00 .40 .00 .00 .00 1.19 1.59 1.59 .79 .00 11.51 (2) .00 .27 .14 .09 .09 .09 .00 .00 .05 .00 .00 .00 .14 .it .it .09 .00 1.33 0-12 4 2 0 0 7 1 1 1 6 1 0 3 13 13 8 2 0 62 (1) 1.59 .79 .00 .00 2.78 .40 .40 .40 2.38 .40 .00 1.19 5.16 5.16 3.17 .79 .00 24.60 (2) .18 .09 .00 .00 .32 .05 .05 .05 .27 .05 .00 .14 .60 .60 .37 .09 .00 2.04 13-10 6 0 5 0 2 1 1 1 4 7 3 5 18 16 7 12 0 08 (1) 2.38 .00 1.98 .00 .79 ,40 .40 .40 1.59 2.78 1.19 1.98 7.14 6.35 2.78 4.76 .00 34.92 (2) .27 .00 .23 .00 .09 .05 .05 .05 .18 .32 .14 .23 .82 .73 .32 .55 .00 4.03 19-24 0 0 0 0 0 0 1 0 0 6 6 1 18 10 2 6 0 50 (1) .00 .00 .00 .00 .00 .00 .40 .00 .00 2.30 2.38 .40 7.14 3.97 .79 2.30 .00 19.84 (2) .00 .00 .00 .00 .00 .00 .05 .00 .00 .27 .27 .05 .82 .46 .09 .27 .00 2.29 GT 24 0 0 0 0 0 0 0 0 0 9 1 0 0 13 3 5 0 22 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .40 .00 .00 5.16 1.19 1.98 .00 8.73 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 95 .00 .00 .60 .14 .33 .00 1.01 ALL SPEEDS 10 9 8 2 11 4 3 2 11 14 10 9 52 56 24 27 0 252 (1) 3.97 3.57 3.17 .79 4.37 1.59 1.19 .79 4.37 5.56 3.97 3.57 20.63 22.22 9.52 10.71 .00 100.00 (2) .46 .41 .37 .09 .50 .18 .14 .09 .50 .54 .46 .41 2.38 2.56 1.10 1.24 .00 11.54 220.0 FT WIND DATA STABILITY CLASS 3 CLASS FREQUENCY (PERCENT) = 2.79 WIND DIRECTION FROBE SPEED (NPM) N ISIE NE ENE E ESE SE SSE S SSW SW WSW W WNW 3Rf NNW VRBL TOTAL Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4-7 1 1 0 1 0 0 0 0 0 1 0 0 0 1 3 0 0 8 (1) 1,64 1.64 .00 1.64 .00 .00 .00 .00 .00 1.64 .00 .00 .00 1.54 4.92 .00 .00 13.11 (2) .05 .05 .00 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .05 .14 .00 .00 .37 0-12 0 1 0 0 1 2 5 0 1 0 0 4 1 1 1 0 0 17 (1) .00 1.64 .00 .00 1.64 3.28 8.20 .00 1.64 .00 .00 6.56 1.64 1.64 1.64 .00 .00 27.87 (2) .00 .05 .00 .00 .05 .09 .23 .00 .05 .00 .00 .18 .05 .05 .05 .00 .00 .78 13-10 1 0 0 0 0 0 0 0 0 1 1 4 8 3 0 0 0 it (1) 1.64 .00 .00 .00 .00 .00 .00 .00 .00 1.64 1.64 6.56 13.11 4.92 .00 .00 .00 29.51 (2) .05 .00 .00 .00 .00 .00 .00 .00 .00 .05 .05 .18 .37 .14 .00 .00 .00 .82 19-24 1 0 0 0 0 0 1 0 0 2 3 0 2 0 0 0 0 9 (1) 1.54 .00 .00 .00 .00 .00 1.64 .00 .00 3.20 4.92 .00 3.25 .00 .00 .00 .00 14.75 (2) .05 .00 .00 .00 .00 .00 .05 .00 .00 .09 .14 .00 .09 .00 .00 .00 .00 .41 er 24 0 0 0 0 0 0 0 0 0 0 0 0 1 2 4 2 0 9 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1.64 3.28 6.56 3.20 .00 14.75 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .09 .10 .09 .00 .41 ALL SPEEDS 3 2 0 1 1 2 6 0 1 4 4 8 12 7 8 2 0 61 til 4.92 3.28 .00 1.64 1.54 3.28 9.84 .00 1.64 6.56 6.56 13.11 19.67 11.48 13.11 3.28 .00 100.00 (2) .14 .09 .00 .05 .05 .09 .27 .00 .05 .18 .it .37 .55 .32 .37 .09 .00 2.79 (1)= PERCBNT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CAME (WIND SPEED LESS THAN OR EQUAL TO 0.95 MPM) 85

Table A-2 (continued) PILDRIN OCT90-DEC98 NET DATA JOINF FREQ'JENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DATA STABILITY CLASS C CLASS FREQUENCY (PERCEWT) = 3.11 WIND DIRECTION FROM SPEED (NPM) N WNE ME ENE E ESE SE SSE $ SSW SW WSW W WWW NW NNW VRSL TOTAL calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .02 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 4-7 0 4 1 1 1 0 1 0 0 0 0 0 0 3 0 1 0 12 (1) .00 5.00 1.47 1.47 1.47 .00 1.47 .00 .00 .00 .00 .00 .00 4.41 .00 1.47 .00 17.65 (2) .00 .10 .05 .05 .05 .00 .05 .00 .00 .00 .00 .00 .00 .14 .00 .05 .00 .55 8-12 0 0 0 0 0 0 5 0 1 2 1 3 3 1 0 1 0 17 (1) .00 .00 .00 .00 .00 .00 7.35 .00 1.47 2.94 1.47 4.41 4.41 1.47 .00 1.47 .00 25.00 (2) .00 .00 .00 .00 .00 .00 .23 .00 .05 .09 .05 .14 .14 .05 .00 .05 .00 .78 13-18 1 0 0 0 0 0 0 1 0 2 4 3 2 3 1 1 0 10 (1) 1.47 .00 .00 .00 .00 .00 .00 1.47 .00 2.94 5.00 4.41 2.94 4.41 1.47 1.47 .00 26.47 (2) .05 .00 .00 .00 .00 .00 .00 .05 .00 .09 .10 .14 .09 .14 .05 .05 .00 .32 19-24 0 2 1 0 1 1 0 0 0 0 6 1 2 2 0 0 0 16 (1) .00 2.94 1.47 .00 1.47 1.47 .00 .00 .00 .00 0.82 1.47 2.94 2.94 .00 .00 .00 23.53 (2) .00 .09 .05 .00 .05 ,0~ CO .00 .00 .00 .27 .05 .09 .09 .00 .00 .00 .73 GT 24 0 3 0 0 0 0 2 0 0 0 0 0 1 1 1 2 0 5 (1) .00 .00 .00 .00 .00 53 .r, .00 .00 .00 .00 .00 1.47 1.47 1.47 2.94 .00 7.35 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .05 .05 .09 .00 .23 ALL SPEEDS 1 6 2 1 2 1 6 1 1 4 11 7 8 10 2 5 0 68 (1) 1.47 8.02 2.94 1.47 2.94 1.47 0.02 1.47 1.47 5.08 16.10 10.29 11.76 14.71 2.94 7.35 .00 100.00 (2) .05 .27 .09 .05 .09 .05 .27 .05 .05 .10 .50 .32 .37 .46 .09 .23 .00 3.11 220.0 FT WIND DATA STABILITY CLASS D CLASS FREQUENCY (PERCENT) = 32.83 WIND DIRECTION FROM SPEED (NPM) N NME ME ENE E ESE SE SSE S SSW SW WSW W WWW NW NNW VRSL TOTAL Cala 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 . 0's .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .0L .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 1 2 1 0 1 0 0 0 1 0 0 0 0 6 (1) .00 .00 .00 .00 .14 .23 .14 .00 .14 .00 .00 .00 .14 .00 .00 .00 .00 .34 (2) .00 .00 .00 .00 .05 .09 .05 .00 .05 .00 .00 .00 .05 .00 .00 .00 .00 .27 4-7 0 3 5 1 1 6 7 4 6 4 4 4 1 1 2 0 0 49 (1) .00 .42 .70 .14 .14 .84 .98 .56 .84 .56 .56 .56 .14 .14 .28 .00 .00 6.03 (2) .00 .14 .23 .05 .05 .27 .32 .18 .27 .10 .10 .18 .05 .05 .09 .00 .00 2.24 8-12 2 0 5 5 4 7 13 9 6 9 10 5 10 7 5 3 0 108 (1) .28 1.12 .70 .70 .56 .98 1.01 1.26 .84 1.26 1.39 .70 1.39 .98 .70 .42 .00 15.06 (2) .09 .37 .23 .23 .18 .32 .60 .41 .27 .41 .46 .23 .46 .32 .23 .14 .00 4.95 13-18 4 10 5 6 17 15 19 2 12 19 22 18 25 27 21 10 0 240 (1) .56 2.51 .70 .84 2.37 2.09 2.45 .28 1.67 2.65 3.07 2.51 3.49 3.77 2.93 1.39 .00 33.47 (2) .10 .82 .23 .27 .70 .69 .87 .09 .55 .87 1.01 .82 1.14 1.24 .96 .46 .00 10.99 19-24 4 7 8 9 11 4 12 1 6 29 22 10 16 25 30 10 0 204 (1) .56 .98 1.12 1.25 1.53 .56 1.67 .14 .84 4.04 3.0* 4.09 2.23 3.49 4.18 1.39 .00 28.45 (2) .18 .32 .37 .41 .50 .18 .55 .05 .27 1.33 4.03 .46 .73 1.14 1.37 .46 .00 9.34 GF 34 11 0 1 0 2 0 5 1 2 0 2 0 8 30 28 12 0 110 (1) 1.53 .00 .14 .00 .26 .00 .70 .14 .28 .( .28 .00 1.11 5.30 3.91 1.67 .00 15.34 (2) . 50 .00 .05 .00 .09 .00 .33 .05 .09 .0 .09 .00 .3V 1.74 1.28 .55 .00 5.04 ALL SPEEDS 21 36 24 21 36 34 57 17 33 1 60 37 61 90 06 35 0 717 (1) 2.93 5.02 3.35 2.93 5.02 4.74 7.95 2.37 4.60 0 1 8.37 5.16 0.51 13.67 11.99 4.80 .00 100.00 (2) .96 1.65 1.10 .96 1.65 1.56 2.61 .78 1.51 2.79 2.75 1.69 2.79 4.49 3.94 1.60 .00 32.83 (1)e PERCEIFF OF ALL GOOD OBSEEVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CAIM (WIND SPEED LESS THAN OR EQUAL TO 0.95 MPM) 86

Table A-2 (continuud) PILORIN OCT98-DEC98 NET DATA JOINT FREQUENCY DISTRIBUTION (220-FOOT TOWER) 220.0 FT WIND DhTA STABILITY CLASS E CLASS FREQUENCY (PERCEarf) = 40.00 WIND DIRECTION FROM SPEED (NPN) N BRIE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRSL TOTAL calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 2 0 0 0 0 0 1 0 1 0 1 1 0 0 0 6 (1) .00 .00 .22 .00 .00 .00 .00 .00 .11 .00 .11 .00 .11 .11 .00 .00 .00 .67 (2) .00 .00 .09 .00 .00 .00 .00 .00 .05 .00 .05 .00 .05 .05 .00 .00 .00 .27 47 0 1 0 0 4 5 1 3 6 7 2 2 3 3 4 2 0 43 (1) .00 .11 .00 .00 .45 .56 .11 .34 .67 .79 .22 .22 .34 .34 .45 .22 .00 4.83 (2) .00 .05 .00 .00 .18 .23 .05 .14 .27 .32 .09 .09 .14 .14 .18 .09 .00 1.97 8-13 4 2 3 2 0 13 10 14 22 11 7 12 30 19 27 21 0 211 (1) .45 .22 .34 .22 .90 1.46 1.12 1.57 2.47 1.91 .79 1.35 3.37 2.13 3.03 2.36 .00 23.68 (2) .18 .09 .14 .09 .37 .60 .46 .64 1.01 .78 .32 .55 1.37 .87 1.24 .96 .00 9.66 13-18 3 6 0 4 6 7 19 12 6 18 22 45 84 47 18 10 0 307 (1) .34 .67 .00 .45 .67 .79 2.13 1.35 .67 2.02 2.47 5.05 9.43 5.27 2.02 1.12 .00 34.46 t (2) .14 .27 .00 .18 .27 .32 .87 .55 .27 .82 1.01 2,06 3.85 2.15 .82 .46 .00 14.06 19-24 4 1 1 4 1 2 2 4 1 19 60 40 74 27 8 2 0 250 (1) .45 .11 .11 .45 .11 .22 .22 .45 .11 2.13 6.73 4.49 8.31 3.03 .90 .22 .00 28.06 (2) .18 .05 .05 .18 .05 .09 .09 .18 .05 .87 2.75 1.83 3.39 1.24 .37 .09 .00 11.45 GT 24 7 1 0 0 0 3 3 1 5 4 9 0 6 12 12 11 0 14 (1) .79 .11 .00 .00 .00 .34 .34 .11 .36 .45 1.01 .00 .67 1.35 1.35 1.23 .00 8.31 (2) .32 .05 .00 .00 .00 .14 .14 .05 .33 .18 .41 .00 .27 .55 .55 .50 .00 3.39 ALL SPEEDS 18 11 6 10 19 30 35 34 41 65 101 99 198 109 69 46 0 891 (1) 2.02 1.23 .67 1.12 2.13 3.37 3.93 3.82 4.60 7.30 11.34 11.11 22.22 12.23 7.74 5.16 .00 100.00 (2) .82 .50 .27 .46 .87 1.37 1.60 1.56 1.80 2.98 4.62 4.53 9.07 4.99 3.15 2.11 .00 40.80 220.0 FT WIND DATA STABILITY CLASS F CLASS FREQUINCY (PERCENT) = 7.65 WIND DIRECTION FRON SPEED (MPH) N NNE NE ENE E ESE SE SSE S SSW SW WSW W WNW NW NNW VRBL TOTAL i Calm 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 l (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 1 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 C-3 0 0 0 0 0 2 1 0 0 0 0 0 1 0 0 0 0 4 (1) .00 .00 .00 .00 .00 1.20 .60 .00 .00 .00 .00 .00 .50 .00 .00 .00 .00 2.40 (2) .00 .00 .00 .00 .00 .09 .05 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .18 4-7 1 0 1 0 0 1 1 2 4 6 2 1 2 1 1 2 0 25 (1) .60 .00 .50 .00 .00 .60 .40 1.20 2.40 3.59 1.20 .60 1.20 .60 .60 1.20 .00 14.97 (2) .05 .00 .05 .00 .00 .05 .05 .09 .18 .27 .09 .05 .09 .05 .05 .09 .00 1.14 j 8-12 0 0 0 0 0 0 6 7 5 5 7 2 6 19 5 3 0 65 l (1) .00 .00 .00 .00 .00 .00 3.59 4.19 2.99 2.99 4.19 1.20 3.59 11.38 2.99 1.00 .00 38.92 1 (2) .00 .00 .00 .00 .00 .00 .27 .32 .23 .23 .32 .09 .27 .87 .23 .14 .00 2.98 l 13-18 0 0 0 0 0 0 3 3 2 0 4 10 20 2 3 0 0 47 (1) .00 .00 .00 .00 .00 .00 1.80 1.80 1.20 .00 2.40 5.99 11.98 1.20 1.80 .00 .00 28.14 (2) .00 .00 .00 .00 .00 .00 .14 .14 .09 .00 .18 .46 .92 .09 .14 .00 .00 2.15 j 19-24 0 0 0 0 0 0 0 0 0 0 14 10 1 0 0 0 0 25 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 8.38 5.99 .60 .00 .00 .00 .00 14.97 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .64 .46 .05 .00 .00 .00 .00 1.14 , GT 24 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .60 .00 .00 .00 .00 .00 .00 .60 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .05 ALL SPEEDS 1 0 1 0 0 3 11 12 11 11 28 23 30 22 9 5 0 167 (1) .60 .00 .60 .00 .00 1.80 6.59 7.19 6.59 6.59 16.77 13.77 17.96 13.17 5.39 2.99 .00 100.00 (2) .05 .00 .05 .00 .00 .14 .50 .55 .50 .50 1.28 1.05 1.37 1.01 .41 .23 .00 7.65 (1)* PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PAGE (2)= PERCENT OF ALL GOOD OBSERVATIONS FOR THIS PERIOD C = CAIM (WIND SPEED LESS TRAN OR EQUAL TO 0.95 NPN) 87

Table A-2 (continued) PILGRIN OCT98-DEC98 NET DATA JOIsrf FREQUENCY DISTRIBUTION (220.F007 TOWER) 220.0 FT WIND DhTA STABILITY CLASS G CLASS FREQUENCY (PERCENT) = 1.28 WIND DIRECTION FROtt SPEED (alPN) N IAIK NE BIER E ESE SE SSE S SSW SW WSW W NNW NW IBRf VRBL TOTAL Calm 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 3.57 .00 .00 .00 .00 .00 .00 .00 .00 .00 . 00 .00 .00 3.57 (2) .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 C-3 0 0 0 0 1 2 0 0 0 1 1 0 0 0 0 0 0 5 (1) .00 .00 .00 .00 3.57 7.14 .00 .00 .00 3.57 3.57 .00 .00 .00 .00 .00 .00 17.06 (2) .00 .00 .00 .00 .05 .09 .00 .00 .00 .05 .05 .00 .00 .00 .00 .00 .00 .23 4-7 0 0 2 0 1 1 0 0 1 1 2 1 0 0 0 0 0 9 (1) .00 .00 7.14 .00 3.57 3.57 .00 .00 3.57 3.57 7.14 3.57 .00 .00 .00 .00 .00 32.14 (2) .00 .00 .09 .00 .05 .05 .00 .00 .05 .05 .09 .05 .00 .00 .00 .00 .00 .41 8-12 0 0 0 0 0 0 0 0 0 0 3 0 0 0 0 0 0 3 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 10.71 .00 .00 .00 .00 .00 .00 10.71 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .14 .00 .00 .00 .00 .00 .00 .14 13-18 0 0 0 0 0 0 0 0 0 0 1 0 0 2 1 0 0 4 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 3.57 .00 .00 7.14 3.57 .00 .00 14.29 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .09 .05 .00 .00 .18 19-24 0 0 0 0 0 0 0 0 0 0 5 0 0 0 0 0 0 5 (1) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 17.86 .60 .00 .00 .00 .00 .00 17.06 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .23 .00 .00 .00 .00 .00 .00 .23 J GT 24 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .00 ,00 .00 .00 .00 .00 3.57 .00 .00 .00 .00 .00 .00 3.57 (2) .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .05 ALL SPEEDS 0 0 2 0 3 3 0 0 1 2 13 1 0 2 1 0 0 28 (1) .00 .00 7.14 .00 10.71 10.71 .00 .00 3.57 7.14 46.43 3.57 .00 7.14 3.57 .00 .00 100.00 (2) .00 .00 .09 .00 .14 .14 .00 .00 .05 .09 .60 .05 .00 .09 .05 .00 .00 1.28 220.0 FT WIND DATA STABILITY CLASS ALL CLASS FREQUENCY (PERCENr) 100.00 WIND DIRECTICII FRON SPEED (IEPN) N BREE IfE BIE E E8E SE SSE S SSW Set WSW W WNIf thf IBRf VRSL TOTAL Cala 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 1 (1) .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 (2) .00 .00 .00 .00 .05 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .00 .05 C-3 0 1 2 0 2 6 2 0 2 1 2 0 3 1 0 0 0 22 (1) .00 .05 .09 .00 .09 .27 .09 .00 .09 .05 .09 .00 .14 .05 .00 .00 .00 1.01 (2) .00 .05 .09 .00 .09 .27 .09 .00 .09 .05 .09 .00 .14 .05 .00 .00 .00 1.01 4-7 2 15 12 5 9 15 10 9 le 19 10 0 9 13 14 7 0 175 (1) .09 .59 .55 .23 .41 .69 .46 .41 .82 .87 .46 .37 .41 .50 .64 .32 .00 8.01 (2) .09 .69 .55 .23 .41 .69 .45 .41 .82 .87 .46 .37 .41 .60 .64 .32 .00 0.01 8-12 10 13 8 7 20 23 40 31 41 34 28 29 63 60 46 30 0 483 (1) .46 .60 .37 .32 .92 1.05 1.83 1.42 1.88 1.56 1.28 1.33 2.88 2.75 2.11 1.37 .00 22.12 (2) .46 .60. .37 .32 .92 1.05 1.83 1.42 1.88 1.56 1.28 1.33 2.00 2.75 2.11 1.37 .00 22.12 13-18 15 24 10 10 25 23 42 19 24 47 57 85 157 100 51 33 0 722 (1) .59 1.10 .46 .46 1.14 1.05 1.92 .87 1.10 2.15 2.61 3.09 7.19 4.50 2.34 1.51 .00 33.06 (2) .69 1.10 .46 .46 1.14 1.05 1.92 .87 1.10 2.15 2.61 3.89 7.19 4.58 2.34 1.51 .00 33.06 19-24 9 10 10 13 13 7 16 5 7 56 116 62 113 64 40 is 0 559 (1) .41 .46 .46 .60 .60 .32 .73 .23 .32 2.56 5.31 2,84 5.17 2.93 1.83 .82 .00 25.60 (2) .41 .46 .46 .60 .50 .32 .73 .23 .32 2.56 5.31 2.04 5.17 2.93 1.83 .82 .00 25.60 GT 24 18 1 1 0 2 3 0 2 7 4 14 0 16 66 48 32 0 222 (1) .82 .05 .05 .00 .09 .14 .37 .09 .32 .18 .54 .00 .73 3.02 2.20 1.47 .00 10.16 (2) .82 .05 .05 .00 .09 .14 .37 .09 .32 .18 .64 .00 .73 3.02 2.20 1.47 .00 10.16 ALL SPEEDS 54 64 43 $5 72 77 110 66 99 161 227 184 361 304 199 120 0 2184 (1) 2.47 2.93 1.97 1.60 3.30 3.53 5.40 3.02 4.53 7.37 10.39 8.42 16.53 13.92 9.11 5.49 .00 100.00 (2) 2.47 2.93 1.97 1.60 3.30 3.53 5.40 3.02 4.53 7.37 10.39 8.42 16.53 13.92 9.11 5.49 .00 100.00 (1)= PERCEIFF OF ALL GOOD OBSERVATIONS FOR THIH PAGE (2) PERCESIT OF ALL GOOD OBSERVATIOGIS FOR TNIS PERIOD C = CAIJE (WIND SPEED LESS TitAal OR EQUAL TO 0.95 MPN) 88

l APPENDIX B Atmospheric Dispersion and Deposition Factors TABLE TITLE PAGE i ! B-1 Undepleted x/O Factors for Main Stack 90 B-2 Depleted X/O Factors for Main Stack 95 B-3 Gamma x/O Factors for Main Stack 100 B-4 Deposition D/O Factors for Main Stack 105 B-5 Undepleted x/O Factors for Reactor Building Vent 110 B-6 Depleted x/O Factors for Reactor Building Vent 115 B-7 Gamma x/O Factors for Reactor Building Vent 120 B-8 Deposition D/O Factors for Reactor Building Vent 125 89

1 l ifable El-1 Undepleted x/O Factors for Main Stack PNPS 1ST 90ARTER 1998 m e m E/QSt ELEVATED -- SECTUA AVERAGE NODEL STACE RELEASE GROUND-LEVEL AVERAGE CNI/O BEFORE DEPLETION -- (SEC/N3) DOWWWIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR 058 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 96 3.485E-10 1.3255-08 1.127E-08 1.055E-00 1.159E-08 1.4415-08 1.5208-08 1.482E-08 NME 104 6.0533-10 2.1665-08 1.0755-08 1.249E-00 1.231E-08 1.740E-00 2.065E-00 2.121E-00 NE 171 4.2495-10 1.5533-08 1.2312-08 8.5793-09 9.299E-09 1.4275-08 1.7313-08 1.000E 00 ENE 70 2.6195-10 9.1023 09 8.1805-09 6.9775-09 6.6525-09 7.709E-09 8.6405-09 8.8235 09 5 109 4.0205-10 1.6035-08 1.524E-00 1.169F-08 1.1463-08 1.4233-08 1.5693-00 1.5563-08 ESE 184 1.0263-09 3.0308-08 1.7923-08 1.5635-00 1.7055-00 2.3883-00 2.6203-00 2.5853-08 SE 241 1.247E-09 4.1193-08 3.2875-08 2.8923-08 3.1245-08 4.367E-08 3.6608-08 3.564E-00 SSE 142 3.0873-09 1.061E-07 3.9223-08 6.0373-08 8.1353-08 7.3823-08 6.0643-08 4.9753-00 > S 120 1.945E-09 3.6093-08 7.9665-00 1.5C1E-07 1.289E-07 1.0663-07 7.827E-08 5.7255-00 I SSW 194 3.5523-09 7.158E-08 1.740E-07 2.2323-07 3.0913 07 2.236E-07 1.4233-07 1.011E-07 SW 119 3.8553-09 3.1933-08 6.6415-00 1. 07 0E-0's 9.9223-00 0.1263 00 6.0575-08 4.6813-00 WSW 95 4.4943-09 4.1275-00 4.604E-08 4.925E-08 6.714E-08 6.1415-00 4.5725-08 3.536E-00 W 99 1.653E-09 2.407E.00 5.7075-00 6.1523-00 6.7555-08 6.3903-08 4.9193-08 4.101E.08 NNW 62 6.8753-10 9.954E-09 1.011E-08 2.1055-00 3.273E-08 3.704E-00 3.1465-00 2.709E-08 NW 38 3.1265-17 3.070E-11 5.0025-10 1.2513-09 2.6225-09 5.0073-09 7.4575-09 7.006E 09 MNW 54 1.0143-17 8.0865-10 1.0763-00 7.5735-09 7.920E-09 1.017E-00 1.1145-08 1.1063-08 AVERAGE 1970 1.4793-09 2.9313-04 3.7523 00 4.9025-08 5.6065-00 5.0002-00 3.9195 00 3.233E-08 DONMWIND NO. DISTANCE FR001 RELEASE POINF (NILES) SECTOR DES 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 L M 96 1.3755-08 1.2623 08 1.1575-00 1.065E-08 9.7995-09 6.772E-09 5.0415-09 3.225E-09 NME 104 2.0303-00 1.906E-08 1.777E-00 1.6575-08 1.541E-00 1.0913-08 8.191E-09 5.204E-09 NE 171 1.755E-00 1.670s-08 1.576E-08 1.406E-00 1.395E-08 1.0243-08 7.902E-09 5.312E-09 ENE 70 8.4688-09 8.015E-09 7.537E-09 7.093E-09 6.6465-09 4.0333-09 3.7023-09 2.450E-09 E 109 1.465E-08 1.3613-08 1.2593 00 1.1673-08 1.0003-00 7.6135-09 5.743E-09 3.7503-09 ESE 184 2.4235-08 2.2443-00 2.070E-08 1.914E-08 1.7675-08 1.232E-08 9.217E-09 5.9363-09 SE 241 3.2983-00 3.0245-00 2.7698-00 2.544E-08 2.330E-00 1.604E-08 1.196E-08 7.535E-09 l SSE 142 4.154E-00 3.5345-08 3.055E-00 2.6725 00 2.362E-00 1.458E-08 1.030E-08 6.676E-09 8 120 4.3875-08 3.505E-00 2.0073-00 2.427E-00 2.001E-00 K.1785-08 7.9265-09 4.554E-09 SSW 194 7.7023 08 6.1333-08 5.0425-08 4.236E-08 3.6295-00 2.051E-08 1.3783-00 7.9035-09 SW 119 3.7413-08 3.0763-08 2.5873-00 2.2123-08 1.921E-08 1.121E-08 7.60SE-09 4.366E-09 WSW 95 2.832E-00 2.336E-08 1.970E-00 1.6895-08 1.470E-08 0.650E-09 5.9288-09 3.461E-09 W 99 3.4385-08 2.9315-00 2.536E-08 2.2215-08 1.967E-08 1.490E-08 1.0093-08 5.0095-09 WWW 62 2.3113 00 1.9905-00 1.734E-08 1.527E-00 1.3565-08 7.9545-09 '6.1545-09 3.592E-09 NW 38 7.6675-09 7.2073-09 6.0575-09 6.4415-09 6.0283-09 6.177E-09 4.5103-09 3.207E-09 MNW $4 1.0435-08 9.6925-09 0.9663-09 8.3135-09 7.675E-09 5.351E-09 4.210E-09 3.470E-09 AVERAGE 1978 2.723E-00 2.342E-00 2.047E-08 1.013E-Of 1.620E-08 1.061E-08 7.635E-09 4.704E-09 DotSAfIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR des 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 96 2.3313 09 1.007E-09 1.4675-09 1.2323-09 1.054E-09 1.120E-09 9.t95E-10 NME 184 3.8295-09 2.9713-09 2.415E-09 2.0273-09 1.735E-09 1.5183-09 1.3453-09 NE 171 3.9625-09 3.130E-09 2.586E-09 2.198E-09 1.9025-09 1.6703 09 1.4993-09 ENE 70 1.8145-09 1.4663-09 1.309E-09 1.1005-09 9.4195-10 8.246E-10 7.3005-10 E 109 2.750E-09 2.154E-09 2.138E-09 1.789E-09 1.520E-09 1.3333-09 1.1793-09 BSE 184 4.3065-09 3.6905-09 2.9885-09 2.4905-09 2.1315-09 1.8595-09 1.643E-09 SE 241 5.4163-09 4.9065-09 3.9263-09 3.2563-09 2.750E-09 2.3933-09 2.10$E-09 SSR 142 4.6545-09 3.5295-09 2.830E-09 2.351E-09 1.9943-09 1.7323-09 1.5245-09 8 120 3.1005-09 2.315E-09 1.036E-09 1.512E-09 1.2735-09 1.0993-09 9.623E-10 SSN 194 5.307E-09 4.0203-09 3.1985-09 2.637E-09 2.2233-09 1.922E-09 1.6055-09 SW 119 2.9698-09 2.212E-09 1.7495-09 1.4375-09 1.2203-09 1.0525 09 9.197E-10 WFW 95 2.3778-09 1.7963-09 1.483E-09 1.220E-09 1.026E-09 8.9223-10 7.0075-10 W 99 3.9593-09 2.9553-09 2.3425-09 1.9273-99 1.6775-09 1.4445-09 1.2615-09 NNW 62 2.4613-09 1.0933-09 1.5575-09 1.2943-09 1.0833-09 9.311E-10 0.1213-10 NW 38 2.2615-09 1.7043-09 1.4525-09 1.3603-09 1.1435-09 9.8415-10 0.5943-10 MNW 54 2.3025-09 1.7883-09 1.424E-09 1.176E-09 9.9375-10 0.606E-10 7.5573-10 AVERAGE 1970 3.3725-09 2.6523-09 2.1695-09 1.8135-09 1.5435-09 1.353E-09 1.1913 09 90

l'abis B-1 Undepleted x/O Factors for Main Stack PNPS 2ND QUARTER 1990 miaRAL 1/98: BLEVATED -- SECTOR AVERAW N0 DEL STACE 33rmant GROUND-LEVEL AVERAM CWI/O BEFORE DEPLETION -- (BBC/N3) D00MrIND NO. DISTANCE FROM RELEASE POINT'(NILES) SBCTOR Oss .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 147 1.3003-09 4.3933-08 2.4933-00 1.6743-00 1.6095-00 2.0423 00 2.4365 00 2.5025-06 NME 206 1.1235 09 3.6513 00 2.7613-00 2.0995-00 2.1135 00 2.7053-08 3.0493-00 3.1173-00 l MB 112 5.783E 10 1.7705-00 9.1415-09 6.5185-09 7.1295-09 9.9073-09 1.1483-08 1.1763-08 I ENE 68 7.9473-10 2.9293-08 1.4303-00 1.0095-08 9.3063-09 9.2243-09 9.6875-09 9.9173-09 3 129 1.6733 5.0703-00 2.6083-00 1.5295-08 1.4003-00 1.6313-00 1.8035-08 1.8195-08 ESS 99 7.9738-10 2.1575-08 1.0795-00 7.6175-09 8.2015-09 1.1525-00 1.3633-08 1.4103-00 SR 75 5.3973-10 2.1943-00. 2.0223-00 1.0083-08 9.2795-09 1.5175-08 1.3665 00 1.4303-08 l Ses 02 3.579s-09 9.0073-00 5.6763-00 5.2785 08 6.7095-08 6.20ss-00 5.226s-00 4.3565-08 5 74 4.7848-09 7.7633-00 6.0863-00 1.1135-07 9.3203-00 7.9275 00 5.0913-08 4.3365-08 SSW 101 6.0328-09 8.6773-00 9.2903-00 1.3665-07 2.1295-07 1.6305-07 1.0393-07 7.3003-00 SW 131 9.4293-09 0.9073-08 9.1293-08 1.4333-07 1.4275-07 1.3013-07 1.0333-07 8.3083-08 WSW 03 5.6273-09 5.5633-08 7.1983-08 7.1783-08 1.0345-07 1.0673-07 0.4018-08 6.7153-00 W 19 3.3225-09 4.4303-00 5.4005-08 5.1145-08 6.1993-00 6.7433-00 5.5403-08 4.7853-08 NNW 73 2.1075-09 3.3043-08 4.4633-00 3.2585-00 3.9853-00 4.9673-08 4.6165-08 4.2643-08 NN 159 1.9993-09' 3.4608-00 2.0075-08 1.5205-08 1.6853-00 2.4455-00 3.0633-00 2.9255-08 NNN 101 2.3565-10 9.5153-09 1.3535-00 1.0533-08 1.0283-00 1.4705-00 1.8525-08 1.9005-08

  ,AVERASE 1709      2.0005-09   4.6705-08   3.9953-08   4.4593-00    5.2005-00   5.0445-00 4.2035-08 3.5995-08 DotBINIMD NO.                  DISTANCE FROM RELEASE POINT (NILES)

SBCTOR OBS 3.00 3.50 4.03 4.50 5.00 7.50 10.00 15.00 l l N 147 2.5415-00 2.4515 2.3403-08 2.2315-00 2.1128-00 1.5023-00 1.2305-08 0.3105-09 i MNB 206 2.980E-00 2.0063-00 2.6275 00 2.4633-00 2.3013-00 1.6655 08 1.274E-08 8.4663-09 i NE 113 1.1315-08 1.0713-08 1.0003-08 9.4905-09. 0.0903-09 6.5245 09 5.0505-09 3.4255-09 RME 68 - 9.5143-09 9.1383-09 8.7275-09 8.3455-09 7.9103-09 6.0043-09 4.7173-09 3.2333-09 E 129 1.7405-08 1.6305-00 1.5343-00 1.4375-00 1.3413-00 9.6785-09 7.3945 09 4.8993-09 ESE 89 1.3745-08 1.3005-08 1.2355-08 1.1655-00 1.0935-08 7.9885-09 6.1305-09 4.0805-09 SR 75 1.3915-08 1.3208-08 1.2415-00 1.1665-00 1.0903-00 7.0465-09 5.9588-09 3.9135-09 SEE S2 3.668E-04 3.1415-08 3.7203-00 2.3975-00 2.1263-00 1.3253-00 9.4045-09 6.153E-09 8 74 3.3335-00 2.6713-00 ' 2.2063-00 ' 1.0613-08 1.5995-08 9.1083-09 6.1515-09 3.550E-09 Ssw 101 5.6173-08 4.4673-00 3.6685-00 3.0783-08 2.6358-08 1.4843-08 9.9273-09 5.6413-09 SW 131 6.0335-08 5.7465-00 4.9235-08 4.2785-00 3.7655-00 2.1965 00 1.6035-00 9.5613 09 1 MSN 03 5.4905-00 4.5943-00 3.9202-00 3.3935-00 2.9765-08 1.7925-00 1.2423-08 7.3565-09 h W 79 4.1065-08 3.5625-08 3.1245-00 2.7663-00 2.4695-08 1.9533-08 1.3365-00 7.8433-09 MNW 73 3.8203 3.4235-08 2.8233-00 2.554k-00 2.3193-08 1.6405-08 1.2215 00 7.610E-09 l NW 159 2.7933-08 2.6283-08 2.4565-00 2.297E-04 2.1405-00 2.0975-08 1.5245-08 1.0773-00 l ' MNW 101 '1.9613-00 1.8895-08 1.790E-00 1.7005-08 1.6128-08 1.198E-08 1.0073-08 1.0905-00 AVERAGE 1709 3.108E-00 2.7275-00 2.4073-00 2.1615 00 1.9543-08 1.3595-08 9.9445-09 6.6123-09 DotRarIND NO. DISTANCE FROM RELEASE POIsrr (NItaS) SBCTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 147 6.1923 09 4.0963-09 4.030E-09 3.4195-09 2.9533 3.4565-09 3.0415-09 NME 206 6.2675-09 4.9303-09 4.0563-09 3.437E-09 2.9675-09 2.6135-09 2.3303-09 l NE 112 2.5793-09 2.060E-09 1.7083-09 1.4593-09 1.2698 1.1265-09 1.0115-09 ENE 50 2.4295-09 1.9943-09 1.0145-09 1.5343-09 1.3215-09 1.1613 09 1.0343-09 I 129 . 3.6245-09 2.055E-09 2.9253-09 2.4618-09 2.1115-09 1.0505-09 1.?425-09 I ESE 89 3.0185-09 2.7073-09 2.2075-09 1.8583-09 1.595E-09 1.3983-09 1.3415-09 BS 75 2.8675-09 2.7093-09 2.2483-09 1.8755-09 1.5975-09 1.3913 09 1.2205-09 l SEE 82 4.2923-09 3.2555-09 2.6103-09 2.1673-09 1.8383-09 1.595E-09 1.4023-09 l 5 74 2.4273-09 1.0103-09 1.4463-09 1.1935-09 1.0075-09 8.7103-10 7.6415-10 SSN 101 3.8223-09 3.8453-09 2.2515-09 1.8503-09 1.5565-09 1.3423-09 1.1745-09 SW 131 6.6545-09~ 5.0368-09 4.0293-09 3.3415-09 2.9223-0* 2.520E-09 2.2188-09 WSW 03 5.0915-09 3.0705 09 3.2895-09 2.7075-09 2.2783-09 1.9935-09 1.7423-09 W 79 5.3973-09 4.0575-09 3.2313-09 2.6713-09 2.3375-09 2.0203-09 1.7693-09 WWW 73 5.4213-09 4.4333 09 3.9575-09 3.4383-09 2.9995-09 2.5053-09 2.1943-09 WN 159 7.6165-09 6.0443-09 4.9445-09 4.791E-09 4.0443-09 3.4953-09 3.0645 09 NNN 101 1.5768-09 5.7033-09 4.5493-09 3.7623-09 3.1785-09 2.7483-09 2.4105-09 AVERAGE 1709 4.7055-09 3.7073-09 3.0015-09 2.6235-09 2.2423-09 2.0065-09 1.7665-09 ) I l l I I i 91

Table B-1 Undepleted x/O Factors for Main Stack PIIPS 3RD QUARTER 1998 ""m R/08: ELEVATED -- SECTOR AVERAGE NDDEL STACE RELEAS3 GROUND-LEVEL AVERAGE CEI/O BEFORE DEPLETION -- (SEC/NJ) l DONNNIND NO. DISTANCE FRON RELEASE POINT (NILES) BBCTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 201 1.5365-09 5.6883-00 3.9703-00 2.002E-00 2.6553-06 '2.7053-00 2.0355-00 2.719E-08 ISE 595 2.0845-09 7.0365-00 6.7675-00 5.1875-08 4.9475-08 5.0003-08 6.264E-08 6.1645 08 NE 200 1.0813-09 4.367E-08 3.1333-00 2.2105-08 1.900E-00 2.1555-00 2.323E-00 2.330E.00 EME 116 3.4993-10 1.5235-08 1.5193-00 1.1143-08 9.2563-09 9.0225-09 9.561E-09 9.5883-09 E 186 1.2913 09 5.0005-00 3.0373-08 1.966E-08 1.7553-00 1.844E-00 1.910E-08 1.0585-00 l ESE 133 1.1223-09 3.0073-04 2.1103-00 1.387E-08 1.1843-08 1.1743-08 1.201E-08 1.1723-00 l SE 106 2.2123-09 1.1625-07 6.5863-08 2.9663-08 1.9353-08 1.7433-00 1.1645-08 1.1305-08 l SSE 96 4.3835-09 1.5953-07 7.3953-00 4.9725-08 6.0028-00 5.3545 00 4.397E-08 3.623E-08 i a 34 2.7013-09 5.030E-00 2.3825-00 3.5523-08 2.9523 00 2.4585-00 1.0153-00 1.3385-08  ! SSW 35 2.5535-09 5.5423-00 5.1595-00 4.4005-08 5.4823-08 5.9635-00 3.927E-00 2.850E-00 < SW 43 2.1295-09 3.0075-08 4.6933-00 6.179E-06 5.1568 08 5.5438-00 4.2993-06 3.399E-08 i WSW 50 9.5703-09 9.1545-08 5.3505-08 4.163E-06 5.824E-08 6.1415-00 4.910E-08 3.971E-08 W 79 5.6095-09 9.250s-08 9.4993-08 6.6565-08 6.420E-08 5.8195-00 4.4523-00 3.710E-08 NNW 98 2.3005-09 4.4865-00 4.5403-08 4.902E-08 6.4585-98 6.7043-00 5.4625-00 4.6915 08 NW 83 9.2005-10 3.411E-08 2.5173-00 1.934E-08 1.7683-08 1.8575-00 1.8475-00 1.729E-08 IRIN 51 9.8385-11 4.0755-09 4.3723-09 2.8903-09 2.9055-09 4.837E-09 6.1135-09 6.5425-09 i AVERAGE 2193 2.502E-09 5.0985-08 4.3193-00 3.4273-08 3.5533-08 3.5453-00 3.0233-00 2.6445-08

                                                                                                              )

i DOWNWIND NO. DISTARICE FROM RELEASE POINT (NILES) l SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 201 2.5215-00 2.322E-08 2.1375-08 1.9755 00 1.825E-08 1.2855 00 9.7293-09 6.4093-09 IRIE 595 5.7723-08 5.3485-08 4.940E-08 4.5775-00 4.2355-00 2.9763-08 2.2335-08 1.4545-08 NE 280 2.2325-08 2.1175-08 2.0005-08 1.0923-08 1.784E-08 1.33t5-08 1.056E-08 7.3773-09 BNR , 116 9.2145-09 8.7843-09 8.343E-09 7.9332-09 7.513B-09 '5.7393-09 4.575E-09 3.251E-09 5 186 1.7442-08 1.6245-08 1.5105-08 1.4298-08 1.3135-00 9.494E-09 7.3243-09 4.9585-09 ISE 133 1.1065-08 1.0395-08 9.7553-09 9.1835-09 8.614E-09 6.3903-09 5.025E-09 3.5033-09 SB 106 1.0605-08 1.0003-00 9.5065-09 8.9845-09 8.455E-09 6.346E-09 5.0293-09 3.540E-09 SEE 96 3.0413-08 2.6043-00 2.2675-08 1.997E-00 1.778E-00 1.1355-08 8.199E-09 5.0325-09 8 34 1.0335-08 8.3123-09 6.8955-09 5.8435-09 5.0345-09 2.9023-09 1.9795-09 1.1605-09 SSW 35 2.1903-00 1.7593-00 1.4595-08 1.2403-08 1.0723-00 6.2323-09 4.290E-09' 2.565E-09 SW 43 2.7625-08 2.3013-08 1.9573-00 1.689E-08 1.4703-08 S.8625-09 6.130E-09 3.6215-09 WBW 58 3.2025-05 2.773E-00 2.385E-00 2.0795-08 1.0343-08 1.1293-08 7.9475 09 4.8035-09 W 79 3.1175-00 2.660E*00 2.3033 00 2.0193-08 1.708B-00 1.323E-00 9.020E-09 5.243E-09 WNW SS 4.0233-00 3.4095-00 2.0065-00 2.490E-00 2.2273-00 1.5125-00 1.1083-00 6.7665-09 NW 32 1.5755-00 1.4315-08 1.3033-08 1.1933-00 1.096E-08 1.0435-00 7.6465-09 5.5983-09 EEIN $1 6.4563-09 6.2165-09 5.9105-09 5.6213-09 5.3115-09 3.9005-09 3.4273-09 4.9293-09 AVERAGE 2193 2.315E-00 2.050E-00 1.0195-08 1.6455-00 1.4955-08 1.0465-08 7.7725-09 5.2565-09 DOWNWIIID NO. DISTARICE FRON RELEASE POINT (NILES) SECTOR 058 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 201 4.7365-09 3.7323-09 3.0673-09 2.601W09 2.2483 09 2.8915-09 2.5513-09 IIIB 595 1.0623-08 0.2873-09 6.7655-09 5.7033 09 4.9005-09 4.3013-09 3.0225-09 NE 200 5.6515-09 4.5615-09 3.8083-09 3.273k-09 2.860E-09 2.5455-09 2.290E-09 EIIB 116 2.5253-09 2.1005-09 2.2383-09 1.920E-09 1.6895-09 1.5072-09 1.3595-09 E 106 3.7203-09 2.973E-09 3.2015-09 2.7043-09 2.3275-0P 2.0438-09 1.017E-09 ESE 133 2.6825-09 2.6263-09 2.1755-09 1.0575-09 1.f125-09 1.4275-09 1.277E.09 SE 106- 2.7215-09 3.122E-09 2.5563-09 2.1593-09 1.831E-09 1.6205-09 1.4465-09 SEE 96 4.1575-09 3.2005-09 2.5923-09 2.1725-09 1.8575-09 1.6225-09 1.4363-09 8 34 0.0265-10 6.067E-10 4.0575-10 4.0333-10 3.4223-10 2.9723-10 2.6105-10 SSW 35 1.7933-09 1.3673-09 1.1035-09 9.2233-10 7.0703-10 6.8605-10 6.0653-10 SW 43 2.508E-09 1.0935-09 1.5113-09 1.251E-09 1.0895-09 9.4415-10 8.2975-10 WSW SS 3.3723-09 J.5115-09 2.3515-09 1.9465-09 1.6463-09 1.4685-09 1.200E-09 W - 79 3.604E-09 2.700E-09 2.157E-09 1.7833-09 1.5525-09 1.3413-09 1.1755-09 WIEW 90 4.7913-03 3.961E-09 3.6675-09 3.2493-09 2.736E-09 2.35SE-09 2.0635-09 IIW 82 4.0053-09 -3.2293-09 2.6645-09 2.7193-09 2.2943-09 1.900E-09 1.734E-09 I IIIW 51 3.4465-09 2.6193-09 2.1043-09 1.7503-09 1.4853-09 1.2895-09 3.1335-09 AVERa m 2193 3.8213-09 3.105E-09 2.6535-09 2.2765-09 1.9553-09 1.770E-09 1.5683-09 I i 92

Table B-1 Undepleted x/Q Factors for Main Stack PNPS 47N QUARTER 1990 GENERAL E/OS: ELEVATED -- SECTOR AVERAGE NODEL STACK **'.=*== GROUND-LEVEL AVERAGE CEI/O BEFORE DEPLETION -- (SEC/K3) DogentIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR 038 .12 .25 .50 .75 1.00 1.5p 2.00 - 2.50 N 99 5.2313-10 1.009E-08 8.0605-09 5.5065-09 7.326E-09 1.210E-08 1.442E-04 1.405E-08 NME 161 5.6503-10 1.6143-00 1.1173-08 9.436E-09 1.174E-08 1.7405-08 1.969E-08 1.9595-08 NE 227 3.0595-10 1.0865-08. 1.052E-00 1.007E-08 1.340E-08 1.9333-00 2.167E-08 2.1573-08 SNE 184 4.0923-10 1.546E-08 1.7238-00 1.3375-08 1.2953-08 1.6385-08 1.8533-08 1.8683-08 3 361 2.2363-09 7.301E-08 3.8413-03 2.368E-00 2.303E-00 2.947E-08 3.3013-08 3.4538-00 ESE 304 2.335E-09 7.310E-04 3.7605 2.037E-00 2.9663-08 3.4435-08 3.509E-08 3.327E-08 SE 199 1.5033-09 S.902E-08 4.5493-00 2.0773-00 2.7385-08 3.452E-08 2.764E-00 2.623E-00 SSE 120 2.459E-09 6.3843-08 3.8735-08 5.0415-00 6.635E-08 5.4128-08 4.2603-08 3.4163-00 8 54 1.406E-09 2.562E-08 3.6153-08 5.7063-08 4.517E-08 3.6725-08 2.7313-00 2.012E-08 SSW 64 1.9085-09 4.7145-00 #.5365 00 9.2025 00 1.036E-07 6.490E-08 4.0845-00 2.8713 08 SW 43 3.3065-09 2.7113-00 2.7095-08 4.6083-08 4.3445-08 3.637E-03 2.7618-00 2.1695-00 l WSW 35 1.2793-09 1.354E-00 2.1613-08 2.4145-00 2.9943-05 2.4073 00 1.785E 00 1.340E-08 W 72 3.3363-09 3.630E-00 3.109E-00 3.4135-00 3.7685-08 3.4755-00 2.6005-08 2.1255-08 NNW 77 6.0155-10 1.006E-08 1.5063-00 2.2193-00 3.202E-08 3.820E-08 3.253E-08 2.8645-08 NW 118 2.090E-10 8.163E 09 1.6108-08 1.6173-08 1.020E-00 2.2133-00 2.2253-00 2.067E-05 MWW 66 9.3095-11 2.799E-09 1.360E-09 1.7243-09 3.2935 09 6.7093-09 8.3635-09 8.7545-09 AVERAGE 2184 1.425E-09 3.1423-00 2.766E-00 2.9508 00 3.1623-00 3.016E-00 2.601E-00 2.289E-08 DOWNWIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTom- CBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 99 1.4295-08 1.3465-08 1.256E-00 1.1735-08 1.0913-08 7.784E-09 5.092E-09 3.840E-09 REE 161 1.8415-00 1.704E-00 1.5713-08 1.452E-08 1.341E-00 9.3585-09 7.0005-09 4.5075-09 NE 227 2.030E.00 1.005E-08 1.7433 00 1.6165-08 1.4963-08 1.0553-08 7.959E-09 5.1963-09 ENE 104 1.7743-08 1.560E-00 1.545E-08 1.441E-08 1.340s.00 9.5403-09 7.234E-09 4.743E-09 3 361 3.311E-08 3.1258-03 2.9303-00 2.7498-08 2.568E-08 1.852E-08 1.4133-08 9.350E-09 ESE 304 3.0488-08 2.7003-00 2.530E-08 2.329E-00 2.130E-00 1.473E-08 1.099E-08 7.0923-09 SS 199 2.393E-08 2.169E-08 1.9603-08 1.795E-08 1.6393-08 1.1073-08 0.126E-09 5.115E-09 SSE 120 2.0075-00 2.3613 00 2.023E-08 1.759E-08 1.5473-08 9.4163-09 6.5923-09 4.191E-09 3 54 1.546E-08 1.2383-08 1.0233-08 8.631E-09 7.420E-09 4.2393-09 2.869E-09 1.6595-09 SSW 64 2.162E-08 1.706E-00 1.393E-08 1.1665-08 9.952E-09 5.568E-09 3.7135 09 2.103E-09 SW 43 1.763E-08 1.4753-08 1.261E-00 1.0953-08 9.6425 09 5.9425-09 4.1853-09 2.5203-09 WSW 35 1.0595-08 8.610E-09 7.180E-09 6.1035-09 5.274E-09 3.0393-09 3.0465-09 1.162E-09 W 72 1.760E-08 1.488E-00 1.2025-00 1.121E-08 9.9295-09 1.123E-08 8.256E-09 5.2715-09 WNW 77 2.4923-00 2.184E-08 1.932E-08 1.7255-08 1.551E-08 9.840E-09 8.095E-09 5.044E-09 NW 113 1.863E-08 1.6713-04 1.5035-08 1.3593-08 1.235E-08 1.0563-08 7.470E-09 4.9545-09 gent 66 8.4755-09 8.027E-09 7.5343-09 7.0605-09 6.609E-09 4.780E-09 3.960E-09 4.2113-09 AVERAGE 2104 2.0083 08 1.779E-08 1.590E-08 1.4355-08 1.3023-00 9.1363-09 6.783E-09 4.4365-09 DONNKIND NO. DISTANCE FRON RELEASE POInff (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 99 2.0193-09 2.2053 09 1.002E-09 1.5215-09 1.3005-09 1.5643-09 1.373E-09 NME 161 3.276E-09 2.5513-09 2.070s-09 1.749E-99 1.501E-09 1.3175-09 1.169E-09 NE 227 3.8153-09 2.992E-09 2.4495-09 2.0715-09 1.7855-09 1.570E-09 1.399E-09 ENE 184 3.479E-09 2.8043-09 2.500E-09 2.097E-09 1.794E-09 1.560E-09 1.3093-09 E 361 6.893E-09 5.415E-09 5.277E-09 4.416E-09 3.769E-09 3.2903-09 2.900E-09 383 304 5.1665-09 4.450E-09 3.6155-09 3.031E-09 2.5925-09 2.2663-09 2.007E-09 SE 199 - 3.667E-09 3.3083-09 2.6495-09 2.190E-09 1.8638-09 1.617E-09 1.4233-09 SSR 120 2.9073-09 2.1973-09 1.7575-09 1.4575-09 1.2345-09 1.0703-09 9.403E-10 8 54 1.1365-09 0.5173-10 6.7773-10 5.596E-10 4.723E-10 4.0843-10 3.5813-10 SSW 64 1.4313-09 1.0693-09 8.481E-10 6.9925-10 5.0903-10 5.1012-10 4.478E-10 , SW 43 1.782E-09 1.362E-09 1.097E-09 9.151E-10 8.359E-10 7.275E-10 6.420E-10 WSW 35 7.8672-10 5.8685-10 4.7345-10 3.8763-10 3.2485-10 2.0055-10 2.4493-10 W 72 3.5513-09 3.015E-09 2.4705-09 2.090E-09 2.668E-09 2.353E-09 2.076E-09 NNW 77 3.623E-09 3.1563-09 3.262E-09 3.106E-09 2.6233-09 2.2675-09 1.987E-09 NW 110 3.430E-09 2.6638-09 3.1465-09 1.9375-09 1.6253-09 1.3975-09 1.2193-09 NNW 66 2.8073 09 2.1643-09 1.7213-09 1.420E-09 1.196E-09 1.0325-09 9.032E-10 AVERAGE 2104 3.1855-09 2.550E-09 2.176E-09 1.8535-09 1.636E-09 1.4525 09 1.200E-09 l 93

t Table B-1 Undepleted x/O Factors for Main Stack PHPS 1998 GE MRAL X/984 ELEVATED -- SECTOR AVERAGE MODEL STACE SELEASE MOUND-LEVEL AVERAM CSI/0 SEranE DEPLETION -- (sEC/N3) DotEntIND NO. DISTANCE FRON **fam POINT (NILES) SECTOR 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 543 9.3733-10 :3.2933-08 2.1035-08 1.5495-08 1.5465-08 1.8713-08 2.052E-00 2.0523-00 lam 1146 1.1243-09 3.6565-00 3.1883-08 2.4173-08 2.4135-08 3.0515 08 3.3943-08 3.3803-08 35 790 6.2545-10 _ ,2.2213-00 1.6335 00 1.2443-08 1.2035-00 1.6705-00 1.8463-08 1.911E-00 EMB 438 4.3863-10 '1.6773 08 1.3035-08 1.0503-08 9.6273-09 1.0735-00 1.1793 00 1.1915-08 5 785 1.4105-09 4.8263-04 2.7933-00 1.7873 00 1.6795-08 1.9943-08 2.2023-00 2.200E-00 BSE 710 -1.3505-09 4.2155-00 2.2623-08 1.6905-08 1.7385-00 2.0823-00 2.2093-00 2.1548-08 EE - 621 1.1595-09 4.7575-00 3.7323-00 2.3643-00 2.1475-04 2.7153-08 2.2523-08 2.1963-08 SSE 440 2.5865-09 0.1173-00 4.0045-08 5.5333-00 6.0603-08 6.0473-08 4.9443-0t 4.0545-08 8 282 2.3903-09 4.1453-08 4.8713-00 0.7535-00 7.1625-08 5.9505-08 4.4025-00 3.2325-08 SSW 394 3.3963-09 6.1695-00 9.9523-00 1.2065-07 1.6393-07 -1.2323-07 7.8673-00 5.5953-08 SW 336 4.2345-09 4.0105-0s 5.3283-08 0.5913-00 8.3095-00 7.2435-08 5.5893-00 4.4213-08 WSW 271 4.5355 4.3633-08 4.4665-08 4.5155-08 6.2333-00 6.1105-08 4.7215 00 3.7355-00 W 329 3.5385 09 '5.0303 00 5.7253-08 5.2795-08 5.7373-00 5.520E-00 4.2955-08 3.6043-00 NNW 310 1.4043-09 2.4583-00 2.670E-00 2.9925-08 4.0925-00 4.6193-08 3.9115 08 3.4383-00 MW 397 .7.5473-10 1.6115-08 1.5503-00 1.3145-00 1.3953-06 1.7653-00 1.0955-08 1.0445-00 Isar 272 1.0215-10 4.1033-09 7.0633 09 5.3423-09 5.8253-09 8.7595-09 1.0593-08 1.1073-00 AVERAGE 8064 1.0753-09 3.0105-00 3.5203-08 3.8545-08 4.2845-08 4.0575-04 3.3663-04 2.0033-08 D0eentIND NO. DISTANCE FRom murmm poggy (ggLag) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 543 1.9493-08 1.0253-08 1.7013-00 1.5095-08 1.4005-08 1.0625 08 0.0053-09 5.3373-09 33 5 - 1146 3.1983-00 2.9703-00 2.7623 00 2.5663 00 2.380E-08 1.6833-04 1.2693-00 0.2655-09 NE 790 1.0273-04 1.7233-08 1.6165 00 1.5105-08 1.4215-00 1.0395 00 0.0375-09 5.4423-09 EIE 438 1.1405-08 1.0795-08 '1.0153-08 9.5603-09 0.9813 09 6.5025-09 5.1115-09 3.4575-09 5 785 2.0995-08 1.9693-08 1.03FB-08 1.7198-00 1.6025-08 1.1523 00 8.7943-09 5.8393-09 BSE 710 2.0123-08 1.8635-08 1.7225-08 1.5973-08 1.4793-08 1.0443-08 7.9025-09 5.1943-09 55 621 2.0423 00 1.001E-00 1.7345-08 1.6015-00 1.470s-08 1.032E-00 7.7415-09 5.0265-09 583 440 3.3835-00 2.8005-00 2.4925 00 2.1935-00 1.9333 00 1.2023 00 0.5343-09 5.6635-09 5 282 2.4823-00 1.9873-00 1.6405-08 1.3833-08 1.107N-04 6.7543-09 4.5633-09 2.634E-09 SSN 394 4.2613 00 3.3913-00 2.7083-00 2.3455-08 2.0105-08 1.1385-08 7.6575-09 4.4015-09 SW 336 3.5945-08 2.9983-08 2.5525-00 2.2053-08 1.9325-00 1.1633 08 0.063E-09 4.7673-09 WSW . 271 3.0393-08 2.5343-00 2.1575-00 1.0445-08 1.6335-08 9.8163-09 6.0033-09 4.0293-09 W' 329 3.0383-08 2.6003 00 2.2583-00 1.9045-08 1.7613-00 1.4445-08 9.9975-09 5.9405-09 tapf 310 2.9873-08 2.6153-00 2.3103-00 .1.0605-08 1.0505-00 1.1515-08 9.302E-09 5.7005-09 MW 397 1.7135-08 1.5773-08 1.4503 00 1.3375-08 1.2345-00 1.1653-08 8.4415 09 5.9335 09 IBIW 272 1.0763-08 1.0243-00 9.6595-09 9.1013-09 8.5353-09 6.220E-09 5.1713-09 5.6603-09 AVERAM 8064 2.4903-00 2.1833-08 1.9303-08 1.7393-08 1.5713 08 1.0765-00 7.9313-09 5.2053-09 DOIAINIIID 11 0 . . DISTANCE FACII RELEASE POINT (IIILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00' 50.00 W 543 3.9363-09 3.0935-09 2.5363-09 2.1463-09 1.850E-09 2.2193-09 1.953E-09 33 5 - 1146 6.0423-09 4.7205-09 3.8543-09 3.2503-09 2.7943-09 2.4525-09 2.180E-09 ME 790 4.0895-09 3.2575-09 2.6955-09 2.2995-09 1.9978-09 1.7 68E-09 1.504E-09 51 5 430 2.5095-09 2.1355-09 1.991E-09 1.6873-09 1.4563-09 1.2833-09 1.1443-09 I 785 4.3235-09 3.4095-09 3.4445-09 2.8925-09 2.4765-09 2.1665-09 1.9195-09 RSE - 710 3.0253-09 ' 3.4028-09 2.7713-09 2.3323-09 2.0013-09 1.7543-09 1.5575-09 SE $21 3.6693 3.5393-09 .2.8523-09 2.370s-09 2.0245-09 1.7635-09 1.5555 09 SSR 440 3.9695-09 3.0213-09 2.4285-09 2.0213-09 1.7185-09 1.4943-09 1.3163-09 8 282 1.0013-09 1.3495-09 1.0723-09 8.8503-10 7.4663-10 6.4563-10 5.6625-10 SSW ' 394 3.007E-09 2.2525-09 1.7913-09 1.4795-09 1.2493-09 1.0005-09 9.4848-10 SW 336 3.3035-09 2.4933-09 1.9913-09 1.6495-09 1.4415-09 1.2405-09 1.0955-09 WSW 271 2.7923-09 2.1315-09 1.8203-09. 1.5075-09 1.2703-09 1.1165-09 9.7723-10 W 329 4.1385-09 3.1383-09 3.5155-09 2.0098-09 2.0513-09 1.7843-09 1.5665-09 tant 310 4.0375-09 3.3365-09 3.1013-05 2.7713-09 2.3345 09 2.0143-09 1.7633-09 Ist . 397 4.1993-09 3.3185-09 2.7095-09 2.6135-09 2.2?13-09 1.0995 09 1.6623-09 IRIIf 272 . 3.9095-09 2.9465-09 2.3523-09 1.944E-09 1.6455-09 1.4245-09 1.2493-09 AVERA W 8064 3.7345-09 2.9713 09 2.4963-09 2.1223-09 1.0283-09 1.6325-09 1.4405-09 94

F Table B-2 , Depleted x/O Factors for Main Stack PNPS 1ST QUARTER 1998 GENERAL E/95g ELEVATED -- SECTOR AVERAGE NODEL STACE RELEASE tutOUND-LEVEL AVERAGE CMI/O AFTER DEPLETIcet (NET. AND ATONIC ENERGY 1968 DEPLETION NODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 96 3.4858-10 1.3245-08 1.1255-00 1.051E-08 1.1545-08 1.4313 08 1.5133-00 1.461E-08 NME 104 6.0535-10 2.1655-00 1.0713-00 1.244E-08 1.2265-00 1.734E-08 2.0533-00 2.1023-08 NE 171 4.2495-10 1.5533-08 1.220E-08 8.5465-09 9.266E-09 1.4213-08 1.7195-00 1.7893 08 ENE 70 2.6195-10 9.0953-09 8.1635-09 6.9525-09 6.620E-09 7.6645-09 S.582E-09 8.7295-09 3 109 4.0205-10 1.603E-08 1.520E-08 1.163E-08 1.139E-08 1.4143-08 1.5543-00 1.5363-08 j ESE 104 1.0263-09 3.0205 00 1.7003-08 1.5578-08 1.7785-00 2.3775-00 2.6013-00 2.5555-08 l SE 241 1.2475-09 4.116E-00 3.2705-00 2.882E.00 3.113E-08 4.348k-08 3.6358 00 3.527E-00 ass 142 3.007E-09 1.060E-07 3.9013 00 6.0203-08 8.1213 08 7.3485-08 6.0063-00 4.897E-00 E 120 1.9455-09 1 6065-08 7.9553-00 1.5015-07 1.2055-07 1.0575-07 7.6883-08 5.567E-00 SSW 194 3.5$23-09 7.1505-00 1.7335-07 2.2253-07 3.076E-07 2.1963-07 1.3793-07 9.6545-00 SW 119 3.8553-09 3.190E-00 6.627E-08 1.0683-07 9.8895 00 0.0523 00 5.945E-00 4.530E-08 WSW 95 4.4945-09 4.1235-00 4.5945-08 4.9155-08 6.6985-08 6.0963-00 4.5073-08 3.455E-08 W 99 1.6535-09 2.4053-00 5.695E-05 6.1385-08 6.7355-00 6.3445-08 4.8405-08 4.004E-08 NNW 62 6.8755-10 9.9445-09 1.0095-00 2.1035-08 3.260E.00 3.7623-08 3.106E-08 2.6525-00 MW 38 3.1265-17 3.0703-11 5.0003-10 1.250E-09 2.6195-09 5.7895-09 7.4013-09 7.7773-09 ! NNW 54 1.0145-17 8.0855-10 1.0535 08 7.282E-09. 7.6225 09 9.040E-09 1.0773-08 1.064E-08 AVERAGE 1978 1.4793-09 2.9283-08 3.740E-08 4.8898-08 5.5043-00 4.9493-08 3.8533-00 3.1535-08 DONNWIND NO. DISTANCE FRON RELEASE POINF (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 96 1.3493-08 1.2323-00 1.123E-08 1.0273-08 9.3005-09 6.2713-09 4.510E-09 2.7015-09 NME 104 2.0035-08 1.8735-00 1.730E-00 1.612E-00 1.491E-00 1.0263-00 7.492E-09 4.5752-09 ME 171 1.7203-08 1.6353-00 1.5345-08 1.4375-00 1.3405-00 9.503E-09 7.0058-09 4.463E-09 ENE 70 8.341E-09 7.834E-09 7.3433-09 6.060E-09 6.3913-09 4.4765-09 3.297E-09 2.030E-09 E 109 1.4303-08 1.3285-00 1.220E-08 1.1245-00 1.0345-00 7.052E-09 5.1505-09 3.1593-09 l ESE 104 2.3835-08 2.1933-00 2.010E-08 1.045E-00 1.6923-08 1.1353-00 8.1798-09 4.9193-09 ! SE 241 3.2493-08 2.9645-00 2.690E-08 2.4843-00 2.249E-00 1.490E-08 1.0635-08 6.2903-09 SSE 142 4.0613-08 3.430E-00 2.9435-08 2.5545-00 2.2405-08 1.3295-00 9.022E-09 5.318E-09 8 120 4.2265-08 3.3433-00 2.7283-08 2.2725-08 1.9293-08 1.042E-08 6.711E-09 3.5575-09 SSW 194 7.2493 00 5.6663-08 4.6052-08 3.8135-00 3.2195-08 1.6975-08 1.0695-08 5.4655-09 l SW 119 3.5783-00 2.900E-00 2.4038-08 2.0253-00 1.733E-08 9.440E-09 6.033E-09 3.140E-09 r NSW 95 2.742E-00 2.239E-08 1.8705-00 1.5875 08 1.360E-00 7.6665-09 5.0165-09 2.7015-09 l W 99 3.3223-00 2.7995-08 2.3933-00 2.071E-08 1.810E-08 1.2235-08 7.691E-09 3.8663-09 ! WNW 62 2.2393-08 1.9085-08 1.6445-00 1.4313-08 1.256E-08 6.0025-09 4.9905-09 2.6075-09 i NW 38 7.5025-09 7.060E-09 6.5903-09 6.1323-09 5.683E-09 5.4103-09 3.7153-09 2.2393-09 l NNW 54 9.960E-09 9.1793-09 8.4145-09 7.7253-09 7.0603-09 4.6013-09 3.485E-09 2.3083-09 AVERAGE 1978 2.,%345 00 2.2465-08 1.9465-08 1.708E-08 1.5135-08 9.425E-09 6.4013-09 3.7143-09 t j DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) i BBCTOR 058 20.00 25.00 30.00 34.95 40.00 45.00 50.00 l l N 96 1.8355-09 1.3415-09 1.029E-09 ~ 8.190E-10 6.6535-10 5.830E-10 4.8445-10 NNW 184 3.1475-09 2.323E-09 1.000E-09 1.4455-09 1.1833-09 9.9163-10 8.430E-10 i NE 171 3.1338-09 2.3425-09 1.026E-09 1.473E-09 1.2115-09 1.017E-09 8.659E-10 l ENE 70 1.3963 09 1.049E-09 8.570E-10 6.7755-10 5.470E-10 4.520E-10 3.0045-10 E 109 2.1778-09 1.6035-09 1.3813-09 1.0795-09 0.612E-10 7.0565-10 5.8745-10 ESE 184 3.353E-09 2.645E-09 2.0145 09 .1.5923-09 1.205E-09 1.0633-09 8.920E-10 SE 241 4.2315-09 3.377E-09 2.532E-09 1.9785-09 1.581E-09 1.2993-09 1.0053-09 l SSR 142 3.4365-09 2.4265-09 1.0173-09 1.415E-09 1.1295-09 9.252E-10 7.7023*10 l 8 120 2.2543-09 1.577E-09 1.1783-09 9.1933-10 7.3543-10 6.0503-10 5.075E-10 SSW 194 3.376E-09 2.317E-09 1.705E-09 1.315E-09 1.0435-09 8.5395-10 7.123E-10 I SW 119 1.9755-09 1.377E-09 1.0265-09 0.029E-10 6.416E-10 5.297E-10 4.450E-10 l WSW 95 1.730E-09 1.222E-09 9.0675-10 7.084E-10 5.679E-10 4.5793-10 3.040E-10 I N 99 2.3403-09 1.5723-09 1.1335-09 0.5625-10 6.1075-10 4.5405-10 3.7435-10 l NNW 62 1.6215-09 1.1163-09 8.005E-10 5.576E-10 4.2603-10 3.443E-10 2.835E-10 NW 30 1.3768-09 9.233E.14 6.5035-10 3.1223-10 2.3643-10 1.0543-10 1.483E-10 NNW 54 1.4645-09 9.9108-10 7.1795-10 5.435E-10 4.2235-10 3.386E-10 2.7655-10 AVERAGE 1978 2.4283 09 1.7635-09 1.336E-09 1.0313-09 0.216E-10 6.7555-10 5.6513-10 95

l Table B-2 Depleted x/O Factors for Main Stack PWPS 2ND QUARTER 1998 GENERAL X/Q8: ELEVATED -- SECTOR AVERAGE MODEL STACE RELEASE GROUND-LEVEL AVERAGE CMI/O AFTER DEPLETION (NET. AND ATONIC ENERGY 1968 DEPLETION MODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 147 1.3005-09 4.390E-00 2.4865-08 1.6603 00 1.601E-00 2.032E-00 2.4175-00 2.5403-08 leIE 206 1.123E-09 3.649E 08 2.7553-00 2.0915-00 2.1043-08 2.6915-06 3.0465-08 3.0815-08 NE 112 5.7833-10 1.7695-08 9.1173-09 6.493E-09 7.1015-09 9.8658-09 1.141E-08 1.166E-08 ENE 60 7.9473-10 2.9265-08 1.4255-00 1.0043-00 9.229E-09 9.117E-09 9.5525 09 9.6235 09 3 129 1.673E-09 5.0673-00 2.6013-08 1.5233-00 1.3943-08 1.6223-08 1.7873-08 1.7943-00 BSE 89 7.9735-10 2.155E-08 1.0775-08 7.595E-09 8.178E-09 1.1488-08 1.3553-08 1.4015 08 SE 75 5.397E-10 2.1025-00 2.015E-08 1.001E-00 9.2315 09 1.5113-08 1.3505~00 1.424E-00 SSR 82 3.5793-09 9.0003-08 5.6583-08 5.2663-08 6.691E-08 6.1655-08 5.1553-08 4.2585-03 S 74 4.7843-09 7.7553-08 6.0765 00 1.1125-07 9.290E-08 7.035E-08 5.740E-08 4.163E-08 l SSW 101 6.0323-09 8.6693-00 9.2823-08 1.364E-07 2.1193-07 1.593E-07 9.9765-08 6.9533-08 l SW 131 9.4293-09 S.796E-08 9.100E-08 1.4303-07 1.423E-07 1.200E-07 1.0115-07 8.035E-00  ! WSW 83 5.6273-09 5.557E 00 7.179E-08 7.156E-08 1.030E-07 1.054E-07 8.1935-00 6.4393-08 W 79 3.3223-09 4.4255-00 5.3835-08 5.0935-08 6.160E-08 6.507E-08 5.4555-08 4.667E-08 NNW 73 2.1673-09 3.3013 00 4.4485-08 3.2425 08 3.966E-OS 4.9345-08 4.5555 00 4.165E-08 NW 159 1.9998-09 3.457E-00 2.002E-08 1.5153-00 1.679E-00 2.4355-00 2.044E-08 2.8933 08 NNW 101 2.3563-10 9.6103-09 1.3495-08 1.0485-08 1.0233-08 1.470E-00 1.0303 00 1.962E-08 AVERAGE 1709 2.000E-09 4.6745-08 3.9043-00 4.447E-00 5.187E-00 4.986E-08 4.1203-00 3.495E-00 DONNNIND NO. DISTANCE PROM RELEASE POIsrF (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 147 2.4865-00 2.3733-00 2.235E-00 2.100E*00 1.9565-08 1.3445-08 9.659E-09 5.755E-09 BBIE 206 2.930E-00 2.7415-00 2.5405-00 2.3702-08 2.196E-08 1.5185-00 1.1085-08 6.738E-09 NE 112 1.118E-08 1.0548 00 9.875E-09 9.254E-09 8.6355-09 6.1705-09 4.6505-09 2.991E-09 EIIE 68 9.2253-09 S.725E-09 8.1713-09 7.6333-09 7.0573-09 4.660E-09 3.2658-09 1.9495-09 5 129 1.704E-00 1.5923 08 1.4773-00 1.370E-00 1.265E-08 8.6215-09 6.222E-09 3.1233-09 ESE 89 1.3403-08 1.2713-04 1.100E-08 1.1075-08 1.026E-08 7.0075-09 5.020E-09 2.940E-09 SE 75 1.372E.00 1.2943-00 1.2095-08 1.1285-08 1.047E-08 7.243E-09 5.278E-09 3.1945-09 SSE 82 3.5408-08 3.003E-00 2.577E-00 2.235E-08 1.9575-08 1.141E-08 7.570E-09 4.230E-09 i 8 74 3.157E-08 2.4963-08 2.035E-08 1.6943-08 1.437E-00 7.7113-09 4.933E-09 2.509E-09 SSW 101 5.1935-08 4.0525-00 3.2673-00 2.6943-00 2.2663-00 1.1783-08 7.345E-09 3.697E-09 SW 131 6.5183-08 5.4033-00 4.5615-08 3.904E-08 3.3035-00 1.911E-08 1.230E-08 6.416E-09 WSW 83 5.165E-04 4.235E-08 3.5375-03 2.9965-00 2.5713-00 1.3903-08 8.7115-09 4.307E-09 W 79 3.960E-08 3.393E-08 2.9303-00 2.566E-08 2.2583-00 1.5655-00 9.813E-09 4.9065-09 WNW 73 3.6863-00 3.259E-08 2.640E-00 2.359E-08 2.100E-08 1.357E-08 9.190E-09 4.030E-09 MW 159 2.7475-08 2.5685-08 2.3643-00 2.213E-08 2.046E-08 1.8843-00 1.306E-08 8.2595-09 gent 101 1.9223-08 1.036E-08 1.7313-08 1.6285-08 1.521E-08 1.064E-08 8.332E-09 6.640E-09 AVERAGE 1709 2.9063-08 2.590E-00 2.2593 00 2.0038-08 1.708E-08 1.156E-08 7.900E-09 4.573E-09 DOWNWIND NO. DISTARICE FROM RELEASE PCIsrF (MILES) SECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 147 3.8755 09 2.796E-09 2.1143-09 1.6553-09 1.3233-09 1.1095-09 9.043E-10 leIE 206 4.5883-09 3.3415-09 2.5485-09 2.0155-09 1.627E-09 1.346E-09 1.1315-09 NE 113 2.1383-09 1.621E-09 1.2783-09 1.040E-09 8.612E-10 7.207E-10 6.2453-10 EXE 68 1.3613-09 1.0575-09 9.1073-10 7.3813-10 6.096E-10 5.146E-10 4.402E-10 E 129 2.5273 09 1.8495-09 1.7005-09 1.347E-09 1.092E-09 9.0028-10 7.6773-10 ESE 89 1.960E-09 1.5575-09 1.1705-09 9.165E-10 7.3545-10 6.063E-10 5.0825-10 SE 75 2.1623 09 1.000E-09 1.340E-09 1.033E-09 8.129E-10 6.5723-10 5.3953-10 SSE S2 2.6095-09 1.7675-09 1.276E-09 9.6293-10 7.4563-10 5.9535-10 4.8465-10 8 74 1.630E-09 1.136E-09 8.4545-10 6.576E-10 5.251E-10 4.310E-10 3.6163-10 SSW '101 2.2645 09 1.5433-09 1.1303-09 8.674E-10 6.8503-10 5.503E-10 4.6425-10 SW 131 3.920E-09 2.630E-09 1.8845-09 1.4125-09 1.077E-09 8.5413-10 6.9222-10 WSW 83 2.5535-09 1.670E-09 1.122E-09 8.3135-10 6.3655-10 4.0093-10 3.920E-10 W 79 2.9285-09 1.9308-09 1.3763-09 1.0253-09 7.1075-10 5.1205-10 4.156E-10 WIIW 73 3.9435-09 1.9005-09 1.306E-09 S.415E-10 6.116E-10 4.8535-10 3.940E-10 MW 159 5.3473-09 3.049E-09 2.075E-09 1.533E-09 1.197E-09 9.4965-10 7.7475-10 IAIW 101 3.9293-09 2.5813-09 1.822E-09 1.3515-09 1.0305-09 8.1325-10 6.550E-10 AVERAGE 1709 2.9215-09 8.071E-09 1.5483-09 1.1393-09 8.910E-10 7.2193-10 5.9605-10 1 96 l

Table B-2 Depleted x/O Factors for Main Stack PNPS 3RD QUARTER 1996 M WMAL E/QSe ELEVATED -- SECTOR AVERAGE NODEL STACK RELEASE GROUND-LEVEL AVERAGE CEI/Q AFTER DEPLETION (NET. AND ATONIC ENERGY 1968 DEPLETION NODEL) == (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 t N 201 1.536E-09 5.684E-08 3.958E-08 2.868E-08 2.640E-08 2.763E-08 2.804E-08 2.678E-08 NME 595 2.084E-09 7.032E-08 6.753E-08 5.168E-08 4.9262-08 5.773E-08 6.223E.08 6.106E-08 NE 280 1.0815-09 4.3032-08 3.123E-08 2.199E-08 1.976E-08 2.141E-08 2.303E-08 2.302E-08 ENE 116 3.499E-10 1.522E-08 1.5145-08 1.1083-08 9.187E-09 8.937E-09 9.453E-09 9.451E-09 E 186 1.291E-09 4.995E-08 3.0263-08 1.955E-30 1.744E-08 1.831E-08 1.892E-08 1.835E-08 ESE 133 1.1225-09 3.804E-08 2.111E-08 1.380E-08 1.180E-08 1.166E-08 1.190E-08 1.158E-08 SE 106 2.212E-09 1.160E-07 6.551E-08 2.937E-08 1.913E-08 1.7252-08 1.151E-08 1.115E-08 SSB 96 4.3833-09 1.5933-07 7.3598-08 4.9593-08 6.063E-08 5.312E-08 4.332E-08 3.541E-08 8 34 2.781E-09 5.025E-00 2.374E-08 3.542E-08 2.938E-08 2.424E-04 1.7655-08 1.283E-08 SSW 35 2.553E-09 5.536E-00 5.120E-08 4.365E-08 5.425E-08 5.854E-08 3.815E-08 2.740E-05 BW 43 2.1295-09 3.0045-08 4.6693-08 6.150E-08 6.1215-08 5.464E-08 4.1783-08 3.245E-08 Wsw 58 9.570E-09 9.143E-08 5.324E-08 4.142E-08 5.796E-08 6.065E-08 4.788E-08 3.812E-00 W 79 5.609E-09 9.2393-08 9.456E-08 6.618E-08 6.385E-08 5.7493-08 4.356E-08 3.587E-08 WNW 98 2.300E-09 4.480E-00 4.530E-08 4.966E-08 6.433E-08 6.646E-08 5.371E-08 4.569E-08 NW 82 9.288E-10 2.409E-00 2.510E-09 1.914E-06 1.757E-08 1.841E.00 1.823E-08 1.697E-08 NNW 51 9.8383-11 4.072E-09 4.3583-09 2.873E-09 2.971E-09 4.815E-09 6.060E-09 6.444E-09 AVERAGE 2193 2.502E-09 5.883E-08 4.3013-08 3.410E-08 3.532E-00 3.508E-08 2.971E-00 2.578E-08 i DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) } SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 f N 201 2.469E-08 2.259E-08 2.065E-08 1.895E-08 1.737E-08 1.174E-06 8.533E-09 5.210E-09 NNE 595 5.6972-08 5.257E-08 4.835E-08 4.459E-08 4.107E-00 2.813E-08 2.061E-08 1.275E-08 NE 280 2.195E-08 2.072E-08 1.948E-08 1.833E-08 1.71/E-08 1.251E-08 9.580E-09 6.309E-09 ENE 116 9.0473-09 0.588E-09 8.1182-09 7.681E-09 7.236E-09 5.366E-09 4.167E-09 2.80$E-09 E 186 1.714E-08 1.589E-00 1.471E-08 1 366E-08 1.265E-08 8.895E-09 6.673E-09 4.204E-09 ESE 133 1.089E-08 1.019E-08 9.523E-09 8.923E-09 8.331E-09 6.024E-09 4.616E-09 3.052E-09 SE 106 1.051E-08 9.883E-09 9.284E-09 8.7385-09 8.188E-09 5.997E-09 4.6313-09 3.0872-09 { SSE 96 2.946E-00 2.501E-08 2.159E-08 1.885E-08 1.664E-08 1.018E-08 7.060E-09 4.541E-09 1 8 34 9.784E-09 7.778E-09 6.3783-09 5.3455-09 4.5558-09 2.498E-09 1.6312-09 8.883E-10 SSW 35 2.085E-00 1.6575-08 1.361E-08 1.145E-08 9.806E-09 5.411E-09 3.5325-09 1.903E-09 BW 43 2.585E-08 2.110E-08 1.757E-08 1.4855-08 1.272E-00 6.881E-09 4.331E-09 2.173E-09 WSW 58 3.096E-08 2.569E-00 2.169E-08 1.055E-08 1.605E-08 8.980E-09 5.767E-09 2.947E-09 W 79 2.973E-00 2.502E-08 2.135E-08 1.845E-00 1.610E-08 1.050E-08 6.594E-09 3.326E-09 WNW 98 3.878E-05 3.3275-08 2.648E-08 2.3235-00 2.055E-08 1.309E-08 8.987E-09 4.854E-09 NW 82 1.534E-08 1.383E-08 1.2493-08 1.1353-08 1.0345 08 9.1768-09 6.324E-09 3.8455-09 NNW 51 6.310E-09 6.0238-09 5.600E-09 5.342E-09 4.997E-09 3.548E-09 2.883E-09 3.480E-09 AVERAGE 2193 2.239E-08 1.967E-08 1.731E-08 1.552E-08 1.399E-08 9.307E-09 6.620E-09 4.091E-09 i DOWNWIND NO. DISTANCE FRON RELEASE POINT (MILES) SECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 I l N 201 3.590E-09 2.649E-09 2.046E-09 1.6373-09 1.3373-69 1.2725-09 1.0493-09 ' NNE 595 8.8832-09 6.636E-09 5.1935-09 4.20$E-09 3.471E-09 2.931E-09 2.508E-09 j NE 280 4.562E-09 3.4783-09 2.7452-09 2.235E-09 1.8513-09 1.564E-09 1.3393-09 I ENE 116 2.067E-09 1.686E-09 1.594E-09 1.289E-09 1.0575-09 8.826E-10 7.448E-10 i E 186 3.061E-09 2.323E-09 2.259E-09 1.806E-09 1.471E-09 1.226E-09 1.035E-09 I ESE 133 2.213E-09 1.991E-09 1.554E-09 1.253E-09 1.0293-09 8.6273-10 7.3313-10 SE 106 2.241E-09 2.225E-09 1.689E-09 1.325E-09 1.059E-09 8.651E-10 7.170E-10 SSE 96 2.9442-09 2.057E-09 1.511E-09 1.1513-09 8.951E-10 7.140E-10 5.791E-10 8 34 5.774E-10 4.131E-10 3.145E-10 2.497E-10 2.030E-10 1.696E-10 1.4415-10 SSW 35 1.1978-09 8.232E-10 6.014E-10 4.5772-10 3.5675-10 2.858E-10 2.335E-10 l FW 43 1.312E-09 8.798E-10 6.321E-10 4.768E-10 3.704E-10 2.958E-10 2.4093-10 l WEW $8 1.787E-09 1.2043-09 8.5495-10 6.330E-10 4.829E-10 3.4712-10 2.798E-10 i W 79 2.0285-09 1.3763-09 1.003E-09 7.675E-10 5.640E-10 4.3275-10 3.615E-10 WNW 90 3.061E-09 2.177E-09 1.603E-09 9.422E-10 6.8492-10 5.452E-10 4.4433-10 NW 82 2.385E-09 1.636E-09 1.180E-09 6.037E-10 4.736E-10 3.836E-10 3.170E-10 NNW 51 2.153E-09 1.449E-09 1.0331-09 7.651E-10 5.783E-10 4.486E-10 3.541E-10  ; i AVERAGE 2193 2.754E-09 2.063E-09 1.613E-09 1.2372-09 9.927E-10 8.266E-10 6.925E-10 97

i l Table B-2 l Depleted X/O Factors for Main Stack I PNPS 4TE QUARTER 1998 QENERAL X/QSs ELEVATED -- SECTOR AVERAGE NODEL STACK RELEASE GRO"ND-LEVEL AVERAGE CMI/O AFTER DEPLETION (MET. AND ATONIC ENERGY 1968 DEPLETION NODEL) -- (SEC/N3) i DOWNWIND NO. DISTANCE FROM RELEASE POI M (MILES) SECTOR 058 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 99 5.2315-10 1.807E-08 8.032E-09 5.5643-09 7.3025-09 1.20$E-08 1.430E-08 1.465E-08 NME 161 5.650E-10 1.6135-08 1.114E-00 9.4065-09 1.171E-08 1.742E-08 1.9575-08 1.9393-00 ME 227 3.8595-10 1.0053-08 1.050E-08 1.005E-00 1.337E-08 1.9262-08 2.1533-08 2.136E-08 ENE 104 4.0923-10 1.5453-08 1.719E-08 1.331E-08 1.209E-08 1.630E-08 1.841E-00 1.8$0E-08 E 361 2.2368 09 7.3755-00 3.830E*08 2.3533-00 2.2933-08 2.9355-08 3.3622-00 3.425E-08 ESE 304 2.3353-09 7.305E-08 3.748E-00 2.8253-08 2.952E-08 3.423E-00 3.402E-08 3.2923-08 SE 199 1.5835-09 5.9775-00 4.5315-08 2.860E-08 2.7262-08 3.4373-00 2.7465-08 2.597E-00 SSE 120 2.4593-09 6.300E-08 3.063E-08 5.8298-08 6.616E-08 5.378E-00 4.213E-08 3.359E-08 5 54 1.406E-09 2.560E-00 3.609E-00 5.6975-08 4.5055-00 3.644E-00 2.606E-08 1.960E-08 Ssw 64 1.900d-09 4.700E-08 0.512E-08 9.1643-08 1.028E-07 6.3423-00 3.9435-08 2.7415 08 BW 43 3.3063-09 2.700E-08 2.782E-08 4.5983-00 4.326E-08 3.593E-00 2.6945 08 2.0035-08 l Wsw 35 1.2795-09 1.3523-08 2.1565-00 2.40SE-00 2.903E-08 2.4648-08 1.7555-00 1.314E-08 l W 72 3.336E-09 3.6345-00 3.182E-08 3.407E-00 3.750E-08 3.453E-00 2.568E.08 2.082E-08 NNW 77 6.0153-10 1.0053-08 1.502E-08 2.2155-08 3.276E-08 3.0052-08 3.2115-08 2.8022-08 NW 118 2.890E-10 8.1595-09 1.6075-00 1.6103-00 1.8125-00 2.200E-06 2.203E-08 2.036E-08 q NNW 66 9.3095-11 2.7903-09 1.3573-09 1.721E-09 3.200E-09 6.687E-09 8.3075-09 8.654E-09 j AVERAGE 2154 1.425E-09 3.1393-08 2.759E.00 2.9415-08 3.149E-08 2.990E-00 2.5675-00 2.2472-08 DOWNWIND NO. DISTANCE FROM RELEASE POIM (MILES) SECTOR 095 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 ) N 99 1.4005-00 1.3073-00 1.2105-08 1.120E-08 1.033E-08 7.035E-09 5.0903-09 3.055E-09 NME 161 1.0135-08 1.670E-08 1.5325-00 1.400E-08 1.293E-08 8.7575-09 6.354E-09 3.857E-09 NE 227 2.0923-98 1.8515-00 1.703E-00 1.5713-08 1.44SE-00 9.940E-09 7.301E-09 4.532E-09 l ENE 184 1.750E-08 1.6313-08 1.5123-00 1.403E-08 1.299E-00 9.037E-09 6.682E-09 4.179E-09 E 361 3.2723-00 3.076E-08 2.8715-00 2.6813-08 2.492E-08 1.750E-08 1.299E-08 8.1373-09 ESE 304 3.0065-00 2.731E-00 2.4033-08 2.269E-08 2.074E-08 1.394E-08 1.0145-08 6.234E-09 SE 199 2.360E-00 2.129E-08 1.9235-08 1.7453-08 1.585E-00 1.0425-08 7.4378-09 4.4333-09 SSE 120 2.743E-00 2.2925-08 1.950E-08 1.683E-08 1.4695-00 8.6103-09 5.800E-09 3.3305-09 8 54 1.4923 00 1.184E-00 9.6013-09 8.0855-09 6.0793-09 3.7335-09 2.4043-09 1.270E-09 SSW 64 2.0413-08 1.5955-08 1.290E-08 1.070E-08 9.050E-09 4.8665-09 3.135E-09 1.675E-09 SW 43 1.6635-08 1.3665-08 1.1468-08 9.7635-09 8.433E-09 4.762E-09 3.105E-09 1.640E-09 Wsw 35 1.02SE-08 8.25SE-09 6.830E-09 5.7575-09 4.935E-09 2.736E-09 1.7705-09 9.478E-10 W 72 1.7103-00 1.4343-08 1.225E-08 1.062E-08 9.3182-09 1.004E-08 6.873E-09 3.607E-09 WWW 77 2.4145-08 2.093E-08 1.031E-08 1,6153-08 1.435E-08 0.507E-09 6.510E-09 3.549E-09 NW 118 1.8243 08 1.6245-08 1.450E-08 1.3028-00 1.174E-08 9.5293-09 6.481E-09 3.879E-09 NNW 66 0.333E-09 7.845E-09 7.3188-09 6.8225-09 6.336E-09 4.427E-09 3.5243-09 3.141E-09 AVERAGE 2184 1.959E-00 1.7255-00 1.532E-08 1.373E-00 1.2373-00 0.365E-09 5.9763-09 3.5935-09 DOWNWIND NO. DISTANCE FROM RELEASE POIlrf (NILES) BECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 99 2.0675-09 1.490E-09 1.137E-09 8.934E-10 7.160E-10 6.321E-10 5.1265-10 NME 161 2.6463-09 1.947E-09 1.50V9-09 1.1978-09 9.734E-10 8.102E-10 6.0385-10 NE 227 3.1715-09 2.3745-09 1.8585-09 1.5055-09 1.243E-09 1.050E-09 8.990E-10 EMI 104 2.9293-09 2.247E-09 1.076E-09 1.503E-09 1.220E-09 1.027E-09 8.7093-10 l E 361 5.607E-09 4.2423-09 3.689E-09 2.928E-09 2.373E-09 1.973E-09 1.664E-09 l ESE 304 4.332E-09 3.4813-09 2.600E-09 2.150E-09 1.7553 09 1.467E-09 1.244E-09 1.8555-09 1.460E-09 1.175E-09 9.709E-10 8.146E-10 SE 199 3.015E-09 2.450E-09 SSE 120 2.141E-09 1.5045-09 1.1233-09 8.741E-10 6.9668-10 5.712E-10 4.763E-10 8 54 0.0353-10 5.628E-10 4.218E-10 3.306E-10 2.662E-10 2.209E-10 1.8663-10 Ssw 64 1.0043-09 7.745E-10 5.893E-10 4.674E-10 3.797E-10 3.160E-10 2.680E-10 SW 43 1.0465-09 7.2793-10 5.371E-10 4.131E-10 3.300E-10 2.637E-10 2.145E-10 Wsw 35 6.060E-10 4.2063-10 3.1883-10 2.494E-10 2.000E-10 1.619E-10 1.350E-10 l W 72 2.0903-09 1.3133-09 8.9735-10 6.575E-10 4.153E-10 2.9615-10 2.465E-10 NNW 77 2.2495-09 1.6663-09 1.2445-09 6.409E-10 4.6943-10 3.750E-10 3.0623-10 MW 118 2.4825-09 1.751E-09 1.2903-09 7.7773-10 6.1195-10 4.967E-10 4.110E-10 NNW 66 1.9513-09 1.331E-09 9.6763-10 7.3265-10 5.674E-10 4.5205-10 3.663E-3 0 AVERAGE 2184 2.394E-09 1.7698-09 1.3753-09 1.049E-09 0.376E-10 6.9283-10 5.8135-10 l l l 98

l' Table B-2 Depleted x/O Factors for Main Stack PNPS 1993 n m m E/QSs ELEVATED == SECTOR AVERAGE MODEL STACK RELEASE GROUND-LEVEL AVERAGE CEI/Q AFTER DEPLETION (NET. AND ATONIC ENERGY 1968 DEPLETION NODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FRON RELSESE PCItrF (MILES) SECTOR OSS .12 .25 .5J .75 1.00 1.50 2.00 2.50 N 543 9.373E-10 3.2903-08 2.097E-00 1.5425-08 1.530E-00 1.0595 00 2.0333-00 2.023E-08 MNE 1146 1.1262-09 3.6548-08 3.181E-00 2.4095-00 2.403E-08 3.037E-08 3.3713-00 3.3545-00 NE 790 6.2545-10 2.220s 00 1.520E-00 1.239E-08 1.277E-Os 1.6625-00 1.8735-00 1.0915-00 BME 438 4.3865-10 1.676E-00 1.3793-08 1.045E-00 9.5693-09 1.0665-08 1.169E-08 1.1783-00 3 705 1.410E-09 4.822E-00 2.784E-08 1.770E-00 1.670E-00 1.9833-00 2.1853-00 2.103E-00 ESE 710 1.3585-09 4.2133-00 2.2563-08 1.6838-08 1.730E 60 2.070E.00 2.1925-00 2.130E-08 SE $21 1.1593-09 4.7535-08 3.717E-00 2.3492-00 2.1343-08 2.7013 08 2.236E-00 2.1735-00 SSE 440 2.5865-09 8.110E-08 4.0673-00 5.522E-0W 6.8503-00 6.0103-00 4.005E-08 3.9763-08 8 202 2.3903-09 4.1428-00 4.0623-00 0.7393-08 7.141E-00 5.900E-08 4.310E-00 3.127E-00 SSW 394 3.3963-09 6.1633 00 9.919E-00 1.2025-07 1.629E-07 1.2073-07 7.503E+00 5.319E-08 SW 336 4.2343-09 4.0055-00 5.3115-00 0.5693-08 8.277E-00 7.163E-08 5.4668-08 4.2633-08 WSW 271 4.535E-09 4.3583-08 4.451E-00 4.5015 00 5.2105-08 6.046E-08 4.619E-08 3.6055-08 W 329 3.5303-09 5.0255-08 5.70GE-CD 5.260E-08 5.7123-08 5.4723-08 4.225E-08 3.5113-08 WNW 310 1.404E-09 2.456E-00 2.6625-00 2.9035-00 4.079E-08 4.5073-08 3.856E-00 3.3585-08 NW 397 7.5473-10 1.6095-08 1.554E-08 1.300E-08 1.309E-08 1.7553-08 1.0775-08 1.817E-08 DNIW 272 1.0213-10 4.100E-09 6.9953-09 5.2545-09 5.7353-09 8.632E-09 1.0445-08 1.086E-00 AVERAGE 8064 1.075E-09 3.007E-08 3.517E-08 3.8423-08 4.2653-08 4.016E-05 3.3098-08 2.8135-08 DouMWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 543 1.900E-00 1.7738-08 1.630E-00 1.5155-08 1.3975-60 9.4845-09 6.0535-09 4.1275-09 MNE 1146 3.153E-00 2.9223-00 2.696E-00 2.492E-08 2.298E-00 1.575E-00 1.1513-00 7.0615-09 ME 790 1.000E-08 1.609E.00 1.577E-08 1.472E-08 1.371E-08 9.732E-09 7.306E-09 4.6725-09 ENE 430 1.120E-00 1.0535-08 9.0363-09 9.192E-09 8.550E-09 5.9925 09 4.444E-09 2.8065-09 E 785 2.066E-Os 1.9203-00 1.790E-08 1.6645-08 1.541E-08 1.072E-00 7.9153-09 4.933E-09 ESE 710 1.980E-08 1.824E-00 1.6765-08 1.544E-08 1.421E-08 9.603E-09 7.072E-09 4.350E-09 SE 621 2.012E-00 1.847E-08 1.691E-08 1.554E-00 1.426E-08 9.641E-09 6.9995-09 4.260E-09 SSE 440 3.292E-00 2.7795-00 2.303E-08 2.0693-08 1.815E-00 1.078E-08 7.310E-09 4.340E-09 8 282 2.376E-00 1.0013-00 1.536E-00 1.281E-08 1.000E-08 5.801E-09 3.786E-09 2.007E-09 SSW 394 3.9983-00 3.1365-08 2.5415-06 2.1073-00 1.702E-08 9.449E-09 5.9893-09 3.095E-09 SW 336 3.413E-08 2.000E-00 2.3448-08 1.992E-08 1.716E-08 9.5268-09 6.1238-09 3.167E-09 WSW 271 2.8873-00 2.369E-08 1.9033-00 1.6055-08 1.450E-00 0.0093-09 5.126E-09 2.633E-09 W 329 2.926E-00 2.4743-00 2.122E-00 1.841E-08 1.6135-08 1.199E-08 7.6213-09 3.069E-09 WNW 310 2.006E-08 2.497E-08 2.180E-00 1.920E-08 1.702Et08 9.843E-09 7.301E-09 3.944E-09 NW 397 1.6773-08 1.534E-00 1.3993-00 1.2813-08 1.1725-00 1.040E-08 7.1545-09 4.396E-09 MNW 272 1.0493-08 9.905E-09 9.260E-09 8.646E-09 0.0315-09 5.560E-09 4.359E-09 3.7903-09 AVERAGE 8064 2.4095-00 2.094E-00 1.8423-08 1.637E-08 1.4663-08 9.522E-09 6.684E-09 3.9643-09 DOWNWIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR 038 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 543 2.0073-09 2.040E-09 1.5655-09 1.2393-09 1.001E-09 8 9565-10 7.347E-10 MNE 1146 4.8775-09 3.610E-09 2.000E-09 2.249E-09 1.0435-09 1.545E-09 1.314E-09 NE 790 3.3213-09 2.507E-09 1.969E-09 1.597E-09 1.320E-09 1.114E-09 9.5225-10 ENE 430 1.986E-09 1.548E-09 1.345E-09 1.000E-09 0.835E-10 7.384E-10 6.250E-10 E 785 3.442E-09 2.566E-09 2.3133-09 1.034E-09 1.405E-09 1.233E-09 1.0393-09 ESE 710 3.0135-09 2.463E-09 1.892E-09 1.500E-09 1.226E-09 1.0213-09 8.629E-10 SE 621 2.9225-09 2.400E-09 1.867E-09 1.460E-09 1.1665-09 9.562E-10 7.9625-10 SSE 440 2.776E-09 1.9363-09 1.4312-09 1.1013-09 8.671E-10 7.020E-10 5.701E-10 S 282 1.2735-09 8.9233-10 6.680s-10 5.223E-10 4.190E-10 3.4613-10 2.909E-10 S$W 394 1.927E-09 1.3293-09 9.809E-10 7.575E-10 6.009E-10 4.913E-10 4.094E-10 SW 336 1.955E-09 1.3325-09 9.600E-10 7.3775-10 5.756E-10 4.6262-10 3.795E-10 WSW 271 1.6165-09 1.0993-09 7.790E-10 5.896E-10 4.596E-10 3.525E-10 2.904E-10 W 329 2.3123-09 1.5265-09 1.005E-09 8.141E-10 5.662E-10 4.1775-10 3.4495-10 WNW 310 2.463E-09 1.7385-09 1.263E-09 7.457E-10 5.4758-10 4.372E-10 3.560E-10 MW 397 2.7913-09 1.9613-09 1.4415-09 7.762E-10 6.0413-10 4.056E-10 3.9815-10 teIN 272 2.3065-09 1.5453-09 1.1055-09 p.260E-10 6.329E-10 4.990E-10 4.021E-10 AVERAGE 8064 2.612E-09 1.9113-09 1.467E-09 1.1155-09 0.8733-10 7.311E-10 6.1095-10 1 1 I l l 99 I

                                                                                                             )

l Table B-3 i j Gamma x/O Factors for Main Stack { l l 1 PKPS 1ST QUARTER 1998 GENERAL E/QSs ELEVATED 87ACK RELEASE t AFERAGE GANNA DILUTION FACTORS (NET. AND ATOMIC ENERGY 1968 FINITE CthUD SECTOR AVERAGE MODEL) == (SEC/M3) j l i DOWNWIND NO. DISTANCE PROM RELEASE POINT (NILES) SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 96 3.156E-07 1.6295-07 8.122E-08 5.350E-08 4.104E-08 2.850E-00 2.195E-08 1.786E-OS NME 184 4.0585 07 2.505E-07 1.2455-07 8.106E-08 6.149E-08 4.2393-08 3.279E-00 2.691E-08 ) NE 171 5.092E-07 2.6048-07 1.298E-07 8.557E-08 6.516E-08 4.5075-08 3.490E-08 2.8643-00 i EME 70 2.304E-07 1.106E-07 5.903E-08 3.8753-08 3.9523-08 2.032E-08 1.5653 08 1.2783-08 l E 109 3.764E-07 1.9433-07 9.609E-08 6.322E-08 4.800E 08 3.296E-08 2.535E-00 2.0705-00 ) ESE 104 5.522E-07 2.8598-07 1.396E-07 9.428E-00 7.2313-08 5.036E-08 3.096E-08 3.1823-08 I SE 241 9.930E-07 5.116E-07 3.039E-07 1.7903-07 1.1935-07 0.3233-08 4.947E-00 4.030E-08 SSE 142 9.350E-07 4.4743-07 2.2593-07 1.0273-07 8.181E-08 5.545E-00 4.1415-08 3.2753-08 8 120 4.536E-07 2.369E+07 1.3513-07 1.0173-07 7.494E-08 5.157E-00 3.766E-00 2.875E-08 SSW 194 9.477E-07 4.9493-07 2.573E-07 1.714E-07 1.4923-07 9.939E-08 6.000E-00 5.181E.08 SW 119 5.42SE-07 2.000E-07 1.576E-07 1.056E-07 7.920E-08 5.3003-08 3.038E-00 2.971E-08 WSW 95 5.0798-07 2.630E-07 1.240E-07 7.430E-08 5.630E-08 3.874E-00 2.802E-C0 2.172E-08 W 99 6.653E-07 3.412E-07 1.992E-07 1.133E-07 8.619E-08 5.794E.00 3.9215-08 3.0f9E-08 WNW 62 2.743E-07 1.404E-07 1.040E-07 6.462E-08 5.4068-08 3.8265-08 2.667E-00 2.1315-00 NW 38 1.925E-07 9.687E-08 4.9343-08 3.3733 08 2.600E-68 1.8303-08 1.4295-08 1.174E-08 NNW $4 2.163E-07 1.084E-07 6.0093-08 3.6108-08 2.784E-08 1.964E-08 1.533E-08 1.259E-08 AVWRAGE 1978 5.062E-07 2.621E-07 1.405E-07 8.743E-00 6.707E-08 4.5945-08 3.305E-08 2.6212-08 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 96 1.5005-08 1.2095-08 1.1273-00 9.997E-09 8.9633-09 5.817E-09 4.220E-09 2.6552-09 MNE 104 2.2773-08 1.970E-08 1.733E-08 1.545E-08 1.391E-00 9.167E-09 6.7285-09 4.2025-09 NE 171 2.424E-00 2.100E-08 1.051E-08 3.654E-08 1.492E.00 9.9275-09 7.353E-09 4.754E-09 RME 70 1.077E-08 9.305E 09 8.124E-09 7.299E-09 6.5763-09 4.347E-09 3.206E-09 2.063E-09 E 109 1.7458-08 1.5052 00 1.321E-08 1.175E-08 1.0575-08 6.932E-09 5.082E-09 3.2345-09 ESE 184 2.600E-00 2.310E-08 2.026E-00 1.801E-00 1.6183-00 1.057E-08 7.7253-09 4.889E-09 SE 241 3.305E-00 2.910E-08 2.5473-00 2.2602 00 2.0272 08 1.317E-08 9.590E-09 6.043E-09 SSE 142 2.693E-08 2.2755-08 1.963E-08 1.719E-08 1.525E-08 9.604E-09 6.898E-09 4.443E-09 8 120 2.292E-00 1.891E-08 1.500E-08 1.379E-08 1.207E-08 7.295E-09 5.103E-09 3.073E-09 Ssw 194 4.114E-08 3.383E-08 2.856E-08 2.456E-08 2.146E-08 1.291E-08 8.991E-09 5.372E-09 SW 119 2.3995-08 1.996E-08 1.6995-08 1.470E-08 1.291E-08 7.852E-09 5.476E-09 3.2545-09 WBW 95 1.757E-08 1.4653 08 1.250E-08 1.084E-08 9.5393-09 5.846E-09 4.111E-09 2.483E-09 W 99 2.540E-08 2.140E-00 1.041E-08 1.60SE-08 1.423E-08 9.830E-09 6.070E-09 4.113E-09 WWW 62 1.758E-08 1.480E-08 1.284E-08 1.124E-08 9.9713-09 5.000E-09 4.548E-09 2.743E-09 NW 38 9.942E 09 8.611E-09 7.585E-09 6.770E-09 6.103E-09 4.755E-09 3.449E-09 2.305E-09 NNW 54 1.064E-08 9.196E-09 8.003E-09 7.198E-09 6.476E-09 4.253E-09 3.2135-09 2.378E-09 AVERAGE 1978 2.169E-00 1.8405-00 1.593E-00 1.400E-00 1.246E-08 8.005E-09 5.7863-09 3.630E-09 DOWNWIND- NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 96 1.904E-09 1.471E-09 1.194E-09 1.002E-09 S.572E-10 8.453E.10 7.4465-10 NME 184 3.094E-09 2.4012 09 1.9543-09 1.642E-09 1.407E-09 1.231E-09 1.091E-09 NE 171 3.477E-09 2.723E-09 2.231E-09 1.886E-09 1.6253 09 1.428E-09 1.271E-09 ENE TO 1.5025-09 1.1933-09 1.020E-09 8.6533-10 7.4275-10 6.509E-10 5.776E-10 E 109 2.3413-09 1.820E-09 1.650E-09 1.383E-09 1.1833-09 1.033E-09 9.142E-10 ESE 184 3.523E-09 2.891E-09 2.344E-09 1.964E-09 1.670E-09 1.465E-09 1.296E-09 SE 241 4.342E-09 3.690E-09 2.9785-09 2.487E-09 2.119E-09 1.846E-09 1.630E-09 SSE 142 3.1663-09 2.438E-09 1.975E-09 1.655E-09 1.415E-09 1.236E-09 1.094E-09 8 120 2.152E-09 1.6375-09 1.315E-09 1.094E-09 9.291E-10 8.0732-10 7.109E 10 SSW 194 3.7483-09 2.844E-09 2.281E-09 1.896E-09 1.6083-09 1.396E-09 1.229E-09 j SW 119 2.258E-09 1.7055-09 1.361E-09 1.127E-09 9.589E-10 8.295E-10 7.273E-10 ' Wsw 95 1.741E-09 1.330E-09 1.093E-09 9.0802-1b 7.6983-10 6.710E-10 5.9003 10 W 99 2.070E-09 2.176E-09 1.7443-09 1.4483-09 1.2513-09 1.084E-09 9.517E-10 WNW 62 1.919E-09 1.4823-09 1.217E-09 1.016E-09 8.575E-10 7.414E-10 6.498E-10 NW 38 1.6465-09 1.290E-09 1.052E-09 9.368E-10 7.9693-10 6.930E-10 6.107E-10 NNW 54 1.6713-09 1.2743-09 1.025E-09 8.534E-10 7.255E-10 6.311E-10 5.5632-10 AVERAGE 1970 2.585E-09 2.0235-09 1.653E-09 1.3853-09 1.183E-09 1.037E-09 9.152E 10 , 100

F1 l l

                                                                                                                   )

l Table B-3 Gamma x/O Factors for Main Stack j PNPS 2ND QUARTER 1998 GENERAL E/088 ELEVATED STACK RELEASE AVERAGE GANNA DILOTION FACTORS (NFT. AND ATONIC ENERGY 1968 FINITE CLOUD SECTOR AVERAGE NODEL) -- (SEC/N3) DOWNWIND WO. D.ISTANCE FRON RELEASE POINT (NILES) SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 l f N 147 7.725E-07 4.001E-07 1.941E-07 1.244E-07 9.480E-08 6.561E-08 5.088E-00 4.181E-00 NME 206 8.190E-07 4.222E-07 2.087E-07 1.360E-07 1.036E-07 7.148E-00 5.519E-08 4.516E-08 NE 112 3.949E-07 2.0313-07 9.910E-08 6.4243-08 4.899E-08 3.382E-00 2.608E-00 2.129E-00 ENE 60 3.2583-07 1.718E-07 0.070E-08 4.973E-08 3.790E-00 2.608E-08 2.008E-00 1.640'8-08 ) E 129 5.333E-07 2.P13E-07 1.320E-07 8.078E-08 6.120E-08 4.207E-08 3.245E-00 2.659E-08 ESE 89 3.794E-07 1.9623-07 9.490E-08 6.353E-08 4.854E-08 3.373E-60 2.616E-00 2.1465-00 83 75 7.1693-07 3.667E-07 1.002E-07 1.836E-07 6.270E-08 4.329E-04 2.3963-08 1.967E-00 SSE $2 1.115E-06 5.056E-07 2.912E-07 9.7313-08 7.675E-08 5.168E-08 3.852E-08 3.0488-08 8 14 4.7612-07 2.565E-07 1.0963-07 7.715E-08 5.724E-08 3.982E-08 2.9252-00 2.238E-08 SEW 101 7.376E-07 3.8972-07 1.757E-07 1.199E-07 1.0693-07 7.282E-08 5.0493-08 3.805E-08 SW 131 1.0988-f6 5.698E-07 3.101E-07 1.872E-07 1.4175-07 9.6863 08 7.123E-08 5.582E-08 WSW 03 1.1375-06 5.0495-07 2.572E-07 1.4513-07 1.108E-07 7.809E-08 5.723E-08 4.469E-08 l W 79 0.133E-07 4.195E-07 2.533E-07 1.3195-07 1.01bE-07 6.898E-08 4.724E-08 3.763E-08 WNW 73 5.3135-07 2.7493-07 2.133E-07 1.278E-07 1.050E-07 7.179E-08 5.050E-08 4.079E-08 NW 159 7.2423-07 3.723E-07 1.824E-07 1.190E-07 9.10SE-08 6.3282-08 4.099E-08 4.007E-08 NNW 101 5.60$E-07 2.850E-07 1.445E-07 9.665E-08 7.349E-08 5.072E-08 3.931E-08 3.232E-08 AVERAGE 1709 6.959E-07 3.612E-07 1.832E-07 1.076E-07 8.2613-08 5.688E-08 4.172E-08 3.3415-08 DOWNWIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR 088 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 147 3.544E-08 3.077E-08 2.718E-08 2.434E-08 2.201E-08 1.473E-08 1.095E-08 7.112E-09 NNE 206 3.814E-08 3.298E-00 2.902E-08 2.588E-08 2.332E-08 1.543E-08 1.139E-08 7.321E-09 NE 112 1.796E-08 1.5533-08 1.367E-08 1.220E-08 1.101E-08 7.337E-09 5.4555-09 3.557E-09 EME 68 1.384E-08 1.199E-08 1.057E-08 9.442E-09 8.554E-09 5.7295-09 4.2683-09 2.7895-09 E 129 2.249E-08 1.947E-08 1.714E-08 1.530E-08 1.300E-08 9.1592-09 6.770E-09 4.3613-09 ESE 89 1.816E-08 1.573E-08 1.306E-08 1.2393-08 1.1183-08 7.434E-09 5,5033-09 3.555E-09 SE 75 1.666E-08 1.4435-00 1.272E-08 1.136E-08 1.025E-08 6.8033-09 5.020E-09 3.243E-09 SSE 82 2.506E-00 2.118E-00 1.827E-08 1.6003-08 1.420E-08 8.944E-09 6.419E-09 4.138E-09 8 74 1.704E-08 1.473E-08 1.247E-08 1.074E-08 9.408E-09 5.694E-09 3.984E-09 2.396E-09 SsW 101 3.021E-08 2.4843-08 2.096E-08 1.002E-08 1.575E-08 9.466E-09 6.580E-09 3.913E-09 SW 131 4.551E-08 3.8183-08 3.274E-08 2.854E-00 2.5223-08 1.568E-08 1.112E-08 6.7 0 9E-0 9 WEW 83 3.6343-08 3.0433-08 2.604E-08 2.265E-08 1.999E-08 1.234E-08 8.718E-09 5.295E-09 W 79 3.107E-08 2.6335-08 2.277E-08 1.998E-08 1.7755-08 1.257E-08 8.062E-09 5.400E-09 WNW 73 3.4073-08 2.916E-08 2.3313-08 2.040E-00 1.842E-08 1.224E-08 8.973E-09 5.630E-09 NW 159 3.382E-00 2.922E-08 2.570E-08 2.291E-08 2.063E-08 1.593E-00 1.155E-08 7.718E-09 NNW 101 2.742E-00 2.300E-00 2.101E-08 1.880E-08 1.699E-08 1.134E-08 8.774E-09 7.2673-09 AVERAGE 1109 2.775E-08 2.367E-08 2.047E-08 1.807E-00 1.615E-08 1.068E-08 7.7713-09 5.030E-09 DOWNWIND NO. DISTANCE FROM RELEASE POI 9ff (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 147 5.209E-09 4.003E-09 3.349E-09 2.833E-09 2.442E-09 2.531E-09 2.239E-09 NME 206 5.333E-09 4.165E-09 3.407E-09 2.878E-09 2.476E-09 2.174E-09 1.933E-09 NE 112 2.621E-09 2.065E-09 1.700E-09 1.444E-09 1.249E-09 1.102E-09 9.8385-10 ENE 60 2.052E-09 1.6465-09 1.4345-09 1.213E-09 1.045E-09 9.1908-10 8.180E-10 E 129 3.182E-09 2.4865-09 2.300E-09 1.936E-09 1.661E-09 1.4558-09 1.290E-09 ESE 89 2.5978-09 2.106E-09 1.784E-09 1.504E-09 1.291E-09 1.132E-09 1.006E-09 SE 75 2.364E-09 2.088E-09 1.695E-09 1.423E-09 1.218E-09 1.066E-09 9.4415-10 SSE 82 2.946E-09 2.266E-09 1.036E-09 1.538E-09 1.314E-09 1.147E-09 1.0143-09 8 74 1.678E-09 1.277E-09 1.0265-09 8.534E-10 7.2495-10 6.299E-10 5.5485-10 SSW 101 2.722E-09 2.060E-09 1.648E-09 1.366E-09 1.156E-09 1.002E-09 8.800E-10 SW 131 4.7935-09 3.6655-09 2.952E-09 2.462E-09 2.12SE-09 1.849E-09 1.629E-09 Wsw 83 3.726E-09 2.058E-09 2.380E-09 1.978E-09 1.678E-09 1.469E-09 1.292E-09 W 79 3.006E-09 2.908E-09 2.345E-09 1.957E-09 1.703E 09 1.4832-09 1.307E-09 WWW '73 4.038E-09 3.227E-09 2.759E-09 2.363E-09 2.012E-09 1.753E-09 1.5473-09 NW 159 5.522E-09 4.336E-09 3.5433-09 3.172E+09 2.705E-09 2.358E-09 2.082E-09 MNW 101 5.144E-09 3.942E-09 3.1842-09 2.6613-09 2.2695-09 1.977E-09 1.745E-09 AVERAGE 1709 3.608E-09 2.8295-09 2.334E-09 1.974E-09 1.692E-09 1.503E-09 1.329E-09 i 101

Table B-3 j Gamma x/O Factors for Main Stack PNPS 3RD QUARTER 1998 QENERAL E/QS ELEVATED OTACE RELEASE AVERAGE GANNA DILUTION FACTORS (NET. AND ATONIC ENERGY 1960 FINITE CLOUD SECTOR AVFRAGE MODEL) -- (SEC/N3) DOWNW181D NO. DISTANCE FROM RELEASE POINT (NILES) l SECTOR 055 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 201 7.1978-67 3.786E-07 1.82SE-07 1.143E-07 8.654E-08 5.900E-08 4.508E-00 3.664E-08 NNE 595 1.468E-06 7.596E-07 3.703E-07 2.4618-07 1.864E-07 1.2755-07 9.7743-08 7.966E-08 NE 280 8.2273-07 4.2643-07 2.086E-07 1.3343-07 1.010E-07 6.890E-08 5.279E-08 4.302E-08 ENE 116 4.6313-07 2.373E-07 1.181E-07 7.709E-08 5.7975-08 3.903E-00 2.9642-08 2.406E-09 E 186 5.641E-07 2.979E-07 1.4135-07 8.686E-00 6.5582-00 4.463E-08 3.413E-08 2.7005-06 E8E 133 4.0053-07 2.117E-07 9.9285-08 6.293E-08 4.742E-00 3.2153-00 2.452E-08 1.993E-00 EE 106 9.955E-07 5.355E-07 2.289E-07 1.066E-07 6.606E-08 4.4033-08 2.225E-08 1.811E-08 883 96 1.3023-06 6.981E-07 3.288E-07 0.979E-08 7.057E-08 4.727E-08 3.516E-00 2.7812-08 8 34 2.047E-07 1.145E-07 3.922E-08 2.468E-08 1.029E-08 1.2645-08 9.258E-09 7.073E-09 SBW 35 3.144E-07 1.727E-07 7.021E-00 4.210E-08 3.494E-08 2.387E-08 1.638E-08 1.239E-08 EM 43 4.533E-07 2.3573-07 1.323E-07 7.963E-08 5.956E-08 3.999E-00 2.9075-08 2.265E-08 WSW 58 8.366E-07 4.394E-07 1.6943-07 9.044E-00 6.835E-08 4.803E-08 3.5262-00 2.766E-08 W 79 7.490E-07 3.994E-07 2.235E-07 1.114E-07 0.1185-08 5.366E-08 3.601E-08 2.840E-08 WNW 90 5.622E-07 2.941E-07 2.236E-07 1.332E-07 1.109E-07 7.618E-08 5.3113 00 4.235E-08 NN 82 4.2088-07 2.226E-07 1.108E-07 7.170E-08 5.396E-08 3.641E-08 2.762E-00 2.235E-08 NWW 51 2.163E-07 1.100E-07 5.537E-08 3.682E-08 2.596E-08 1.9203-08 1.493E-08 1.227E-08 AVERAGE 2193 6.563E-07 3.458E-07 1.694E-07 9.4195-08 7.105E-08 4.8292-08 3.518E-08 2.826E-08 1 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR Ons 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 3.078E-Os I N 201 2.649E-08 2.322E-00 2.063E-08 1.8548-00 1.2153-08 8.917E-09 5.695E-09 NNE 595 6.704E-08 5.777E-08 5.066E-08 4.505E-05 4.049E-08 2.6532-08 1.944E-00 1.237E-08 NE 280 3.629E-08 3.137E-00 2.7632-08 2.4673-08 2.236E-08 1.4863-08 1.108E-08 7.255E-09 ENE 116 2.025E-08 1.749E-08 1.540E-08 1.375E-08 1.241E-08 8.324E-09 6.237E-09 4.128E-09 E 106 2.342E-08 2.021E-00 1.776E-08 1.582E-08 1.425E-08 9.4383-09 6.984E-09 4.5232-09 ESE 133 1.6775-08 1.444E-08 1.274E-08 1.1363-08 1.025E-08 6.8313-09 5.0905-09 3.339E-09 SE 106 1.5285-08 1.321E-00 1.164E-08 1.040E-08 9.3933-09 6.292E-09 4.7053-09 3.1023-09 SEE 96 2.288E-08 1.9355-08 1.672E-00 1.466E-08 1.303E-08 8.274E-09 5.971E-09 3.937E-09 j S 34 5.6373-09 4.651E-09 3.9375-09 3.394E-09 2.973E-09 1.8023-09 1.263E-09 7.620E-10 stW 35 9.875E-09 8.153E-09 6.909E-09 5.970E-09 5.242E-09 3.2005-09 2.257E-09 1.380E-09 NW 43 1.840E-08 1.5393-08 1.316E-08 1.1445-08 1.008E-08 6.2063-09 4.3753-09 2.650E-09 WSW SS 2.259E-00 1.098E-08 1.630E-08 1.422E-08 1.258E-08 7.839E-09 5.577E-09 3.424E-09 j W 79 2.325E-08 1.956E-08 1.681E-08 1.4672-08 1.297E-08 8.851E-09 6.174E-09 3.684E WNW 98 3.495E-00 2.960E-08 2.3443-00 2.0575-08 1.8273-08 1.188E-08 8.580E-09 5.255E-09 l NW 82 1.872E-08 1.6063-08 1.404E-08 1.245E-08 1.116E-08 8.4975-09 6.138E-09 4.104E-09 ' NNW 51 1.041E-08 9.031E-09 7.973E-09 7.133E-09 6.446E-09 4.3153-09 3.372E-09 3.063E-09 AVERAGE 2193 2.353E-00 2.011E-08 1.740E-08 1.539E-08 1.377E-08 9.081E-09 6.634E-09 4.2928-09 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR 038 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 201 4.138E-09 3.227E-09 2.640E-09 2.230E-09 1.919E-09 2.052E-09 1.815E-09 NME 595 0.951E-09 6.959E-09 5.6763-09 4.781E-09 4.1058-09 3.598E-09 3.193E-09 NE 280 5.361E-09 4.2335-09 3.492E-09 2.971E-09 2.5715-09 2.2713-09 2.030E-09 ENE 116 3.077E-09 2.324E-09 2.317E-09 1.976E-09 1.715E-09 1.517E-09 1.358E-09 E 186 3.3175-09 2.604E-09 2.457E-09 2.074E-09 1.783E-09 1.5643-09 1.390E-09 ESE 133 2.470E-09 2.156E-09 1.774E-09 1.506E-09 1.3025-09 1.148E-09 1.024E-09 SE 106 2.3025-09 2.1742-09 1.782E-09 1.50$E-09 1.300E-09 1.142E-09 1.016E-09 SSE 96 2.8228-09 2.182E-09 1.774E-09 1.491E-09 1.278E-09 1.118E 09 9.916E-10 s 34 5.356E-10 4.087E-10 3.294E-10 2.748E-10 2.341E-10 2.038E-10 1.799E-10 88W 15 9.789E-10 7.528E-10 6.1132-10 5.134E-10 4.398E-10 3.8473-10 3.410E-10 SW 43 1.062E-09 1.418E-09 1.1415-09 9.500E-10 8.182E-10 7.112E-10 6.2658-10 WEW 58 2.427E-09 1.8755-09 1.590E-09 1.326E-09 1.129E-09 9.946E-10 8.768E-10 W 79 2.569E-09 1.9472-09 1.5622-09 1.298E-09 1.121E-09 9.7175-10 0.539E-10 WNW 98 3.723E-09 2.9575-09 2.5313-09 2.167E-09 1.838E-09 1.594E-09 1.402E-09 NW 82 2.934E-09 2.311E-09 1.892E-09 1.731E-09 1.475E-09 1.2833-09 1.132E-09 NNW $1 2.185E-09 1.684E-09 1.366E-09 1.146E-09 9.796E-10 0.5535-10 7.567E-10 l AVERAGE 2193 7.103E-09 2.463E-09 2.059E-09 1.746E-09 1.501E-09 1.338E-09 1.187E-09 t 102

Tabla B-3 GammaX/O Factors for Main Stack PNPS 4TH QUARTER 1998 GENERAL E/Q8s ELEVATED STACK RELEASE AVERAGE GAIStA DILUTION FACTORS (MET. AND ATONIC ENERGY 1968 FINITE CLOUD SECTOR AVERAGE MODEL) -- (SEC/N3) DOWNWIND NO. DIETANCE FROM RELEASE POIFF (MILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 99 3.710E-07 1.9168-07 9.335E-08 6.057E-08 4.663E-08 1.282E-08 2.564E-00 2.110E-08 NNE 161 4.469E-07 2.295E-07 1.141E-07 7.540E-08 5.788E-08 4.0425-08 3.134E-08 2.5652-08 NE 227 5.333E-07 2.716E-07 1.3693-07 9.1975-08 7.061E-08 4.916E-08 3.800E-08 3.101E-08 ENE 184 4.517E-07 2.322E-07 1.168E-07 7.700C-08 5.845E-08 4.015E-00 3.092E-00 2.528E-00 E 361 9.065E-07 4.7613-07 2.261E-07 1.408E-07 1.073E-07 7.431E-08 5.756E-08 4.72t2-08 ESE 304 7.3143-07 3.879E-07 1.018E-07 1.163E-07 8.883E-08 6.140E-00 4.714E-08 3.8293-08 SE 199 7.4763 07 3.936E-07 2.2713-07 1.2688-07 8.365E-08 5.767E-08 3.407E-08 2.774E-08 SSE 120 5.803E-07 3.085E-07 1.631E-07 7.611E-08 5.979E-08 3.970E-08 2.922E-08 2.206E-08 8 54 1.883E-07 1.007E-07 5.264E-00 3.727E-08 2.719E-08 1.847E-00 1.346E-08 1.028E-08 68W 64 3.6815 07 1.9873-07 9.6263-00 6.2342 08 5.153E-08 3.250E-08 2.212E-08 1.545E-08 SW 43 2.9582-07 1.543E-07 8.172E-08 5.340E-08 4.053E-08 2.7595-00 2.019E-08 1.573E-08 wrw 35 1.973E-07 1.025E-07 4,959E-08 3.004E-00 2.265E-08 1.531E 58 1.094E-08 8.3933-09 w 72 4.989E-07 2.5853-07 1.410E-07 7.773E-08 5.928E-08 4.0028-08 2.7173-08 2.153E-00 WNW 77 3.780E-07 1.929E-07 1.436E-07 8.874E-08 7.451E-00 5.145R-08 3.589E-00 2.883E-08 NW 118 3.912E-07 2.000E-07 1.031E-07 6.976E-08 5.3262-00 3.664E-08 2.8005-08 2.267E-08 NNW 66 2.161E-07 1.095E-07 5.513E-00 3.7268-00 2.8772 00 2.030E*08 1.5873-08 1.305E-08 AVERAGE 2184 4.564E-07 2.380E-07 1.239E-07 7.635E-08 5.818E-08 3.987E-08 2.9223-08 2.350E-08 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILLS) SECTom OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 99 1.787E-08 1.548E-08 1.363E-08 1.2155-08 1.0955-08 7.229E-09 5.314E-09 3.386E-09 NNE 161 2.163E-00 1.06SE-08 1.637E-08 1.4553-00 1.308E-08 0.566E-09 6.265E-09 3.9683-09 NE 227 2.612E-08 2.251E-08 1.9753-08 1.757E-08 1.579E-08 1.037E-08 7.6113-09 4.058E-09 ENE 184 2.132E-08 1.9415-08 1.618E-08 1.4415-08 1.297E-08 8.540E-09 6.2765-09 4 011E-09 E 361 3.992E-08 3.456E-08 3.044E-00 2.717E-08 2.450E-08 1.624E-00 1.199E-08 7.722E-09 EEE 304 3.211E-08 2.758E-08 2.412E-03 2.139E-08 1.918E-08 1.248E-08 9.104E-09 5.762E-09 SE 199 2.3288-08 2.000E-08 1.748E-08 1.549E-08 1.388E-08 8.994E-09 6.529E-09 4.0923-09 SSE 120 1.862E-08 1.562E-08 1.3393-08 1.167E-00 1.031E-08 6.401E-09 4.548E-09 2.872E-09 8 54 8.195E-09 6.762E-09 5.7238-09 4.933E-09 4.321E-09 2.618E-09 1.033E-09 1.1053-09 Ssw 64 1.289E-08 1.050E-00 0.785E-09 7.503E-09 6.519E-09 3.036E-09 2.622E-09 1.520E-09 SW 43 1.277E-08 1.068E-08 9.1405-09 7.953E-09 7.0195-09 4.353E-09 3.0833-09 1.879E-09 WSW 7' 5.724E-09 5.561E-09 4.712E-09 4.064E-09 3.5595-09 2.145E-09 1.406E-09 8.743E-10 W 72 1.773E-08 1.501E-08 1.2973-08 1.139E-08 1.014E-08 8.0482-09 5.795E-09 3.631E-09 WNW 77 2.395E-00 2.p tr 08 1.772E*08 1.561E-08 1.392E-08 8.388E-09 6.755E-09 4.204E-09 NW 118 1.895E-08 1.621E-08 1.4115-00 1.246E-08 1.113E-08 8.093E-09 5.7473-09 3.6623-09 I NNW $6 1.105E-08 9.5713-09 8.430E-09 7.523E-09 6.782E-09 4.489E-09 3.450E-09 2.804E-09 AVERAGE 2184 1.957E-08 1.672E-08 1.456E-08 1.2873-08 1.150E-08 7.550E-09 5.526E-09 3.522E-09 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) EECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 99 2.452E-09 1.906E-09 1.552E-09 1.3063-09 1.120E-09 1.1593-09 1.0223-09 MNE 161 2.863E-09 2.221E-09 1.8075-09 1.519E-09 1.3922-09 1.1393-09 1.010E-09 NE 227 3.526E-09 2.747E-09 2.2442-09 1.093E-09 1.627E-09 1.428E-09 1.269E-09 ENE 184 2.910E-09 2.304E-09 1.978E-09 1.662E-09 1.424E-09 1.246E-09 1.104E-09 E 361 5.626E-09 4.394E-09 3.975E-09 3.3393-09 2.860E-09 2.502E-09 2.217E-09 ESE 304 4.158E-09 3.4233-09 2.7795-09 2.333E-09 1.997E-09 1.7453-09 1.546E-09 SE 199 2.932E-09 2.481E-09 1.9995-09 1.668E-09 1.420E-09 1.235E-09 1.090E-09 SSE 120 2.020E-09 1.5523-09 1.2535-09 1.047E-09 8.9203-10 7.772E-10 6.862E-10 8 54 7.7455-10 5.898E-10 4.742E-10 3.948E-10 3.3553-10 2.916E-10 2.569E-10 SSW 64 1.043E-09 7,0175-10 6.2313-10 5.1515-10 4.350E-10 3.7603-10 3.297E-10 SW 43 1.328E-09 1.0165-09 0.199E-10 6.847E-10 5.983E-10 5.2095-10 4.597E-10 WSW 35 6.036E-10 4.552E-10 3.601E-10 3.035E-10 2.557E-10 2.2133-10 1.936E-10 W 72 2.616E-09 2.032E-09 1.658E-09 1.398E-09 1.377E-09 1.211E-09 1.075E-09 WNW 77 3.008E-09 2.440E-09 2.166E-09 1.900E-09 1.618E-09 1.407E-09 1.241E-09 NW 118 2.569E-09 1.980E-09 1.598E-09 1.390E-09 1.176E-09 1.0183-09 8.936E-10 NNW 66 1.9775-09 1.510E-09 1.217E-09 1.014E-09 8.630E-10 7.506E-10 6.615E-10 AVERAGE 2184 2.526E-09 1.990E-09 1.657E-09 1.398E-09 1.206E-09 1.064E-09 9.408E-10 l l 1 103 l l

Tabla B-3 Gamma x/O Factors for Main Stack PWPS 1998 GENERAL E/QSs ELEVATED STACE RELEASE AVERAGE GA35EA DILUTION FACTORS (NET. AND ATONIC ENERGY 1968 FINITE CLOUD SECTOR AVERAGE NODEL) -- (SEC/N3) DolWWIND NO. DISTANCE Frost RELEASE POINT (NILES) ^&ECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 543 5.372E-07 2.7965-07 1.360E-07 0.6982-06 6.6323-08 4.5035 00 3.5373-08 2.8923-08 NME 1146 8.120E-07 4.196E-07 2.085E-07 1.360E-07 1.0345-07 7.115E-08 5.4805-08 4.4703-08 NE 790 5.7605-07 2.964E-07 1.4665-07 9.500E.00 7.296E-08 5.027E-08 3.0733-08 3.164E-08 EMB 430 3.7393-07 1.9295-07 9.535E-08 6.1963-00 4.6873-08 3.200E-00 2.4533-08 1.9993-00 5 705 6.043E-07 3.1723-07 1.5145-07 9.439E-00 7.1633-00 4.926E-08 3.796E-00 3.105E-08 Ess 710 5.220E-07 2.7438-07 1.306E-07 8.5193-08 6.498E-08 4.400E-00 3.4545-00 2.815E-08 SE 621 7.059E-07 3.6915-07 2.146E-07 1.212E-07 7.905E-08 5.496E-08 3.2523-00 2.651E-00 SSE 440 7.1465-07 3.0075-07 1.9775-07 9.0943-00 7.179E-00 4.8212-00 3.583E-00 2.029E-08 3 202 2.964E-07 1.5865-07 0.1513-08 5.020E-00 4.299E-00 2.963E-00 2.1675-00 1.6553-08 85W 394 5.500E-07 2.9675-07 1.459E-07 9.609E-08 8.301E-08 5.5313-08 3.8153-00 2.969E-08 SW 336 5.430E-07 2.0223-07 1.542E-07 1.0195-07 7.6775-04 5.1975-08 3.796E-08 2.9593-08 Wsw 271 5.6315-07 2.9255-07 1.368E-07 8.1003-08 6.2125-08 4.3335-08 3.1613-00 2.463E-08 W 329 6.7443-07 3.5123-07 1.9355-07 1.064E 07 0.076E-00 5.432E-00 3.602E-08 2.9165-00 WWW 310 4.3515-07 2.249E-07 1.6233-07 9.793E-08 0.204E-00 5.649E-00 3.9325-08 3,1523-08 NW 397 4.2323-07 2.173E-07 1.00SE-07 7.1983-08 5.4775-08 3.772E-04 2.8983-08 2.3593-08 IEIN 272 2.090E-07 1.4653-07 7.534E-00 4.9455-08 3.780E-00 2.631E-08 2.0455-00 1.682E-06 AVERAGE 8064 5.3953-07 2.812E-07 1.4623-07 8.9763-08 6.8635-09 4.6905-08 3.4335-00 2.7493-08 DOWNWIND NO. 328tANCE FROIE RELEASE POINT (NILES) SECTOR Oss 3.00 3.5% 4.00 4.50 5.00 7.50 10.00 15.00 N 543 2.4413-00 2.1093-08 1.8535-08 1.652E-00 1.4873-08 9.814E-09 7.2233-09 4.626E-09 last 1146 3.7755-08 3.2588-00 2.0618-08 2.547E-00 2.291E-08 1.505E-08 1.10$E-08 7.0403-09 NE 790 2.6708 00 2.307E-00 2.030E-00 1.8115-00 1.6333-00 1.0845-00 0.033E-09 5.2095-09 BME 430 1.606E-08 1.4575-09 1.2023-08 1.1443-08 1.031E-00 6.0575-09 5.0863-09 3.306E-09 3 785 2.6223-00 2.2675-00 1.994E-08 1.7785-08 1.6025-08 1.0603-00 7.8275-09 5.0373-09 ESE 710 2.369E-08 2.041E-08 1.791r-08 1.5935-08 1.432E-08 9.410E-09 6.9135-09 4.4233-09 SE 621 2.231E-08 1.9225-00 1.686E-00 1.4995-00 1.3473-08 8.8283-09 6.4713-09 4.1253-09 SSE 440 2.321E-08 1.950E-08 1.6883-08 1.477E-00 1.3103-00 B.243E-09 5.9145-09 3.819E-09 8 202 1.3203-08 1.0893-08 9.2155-09 7.940E-09 6.952E-09 4.2065-09 2.9432-09 1.772E-09 SSW 294 2.2743-00 1.868E-08 1.575E-08 1.3548-08 1.1035-08 7.1005-09 4.935E-09 2.9403-09 sW 336 2.4035-00 2.0105-08 1.719E-08 1.4945 00 1.318E-08 8.1203-09 5.7333-09 3.470E-09 Wsw 271 2.4013-00 1.674E-00 1.4315-08 1.244E-08 1.0975-08 6.7713-09 4.7813-09 2.902E-09 W 329 2.397E-00 2.0245-08 1.1445-08 1.527E-08 1.354E-00 9.671E-09 6.810E-09 4.1423-09 WNW 310 2.6143-00 2.2228-08 1.927E-08 1.695E-08 1.5095-00 0.9905-09 7.1813-09 4.434E-09 NW 397 1.983E-08 1.707E-08 1.495E-08 1.32SE-08 1.1925-08 9.0512-09 6.523E-09 4.312E-09 Ient 272 1.4252-00 1.235E-08 1.0095-00 9.733E-09 S.784E-09 5.039E-09 4.502E-09 3.719E-09 AVERAGE 8064 2.2033-08 1.9473-08 1.6935 00 1.4943-08 1.335E-00 8.713E-09 6.371E-09 4.0005-09 DotApf1MD NO. DISTANCE FROtf RELEASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 543 3.3613-09 2.621E-09 2.1413-09 1.8073-09 1.553E-09 1.6163-09 1.4283-09 leIE 1146 5.0995-09 3.9655-09 3.2345-09 2.7243-09 2.3393-09 2.050E-09 1.0193-09 NE 790 3.821E-09 3.001E-09 2.4653-09 2.090E-09 1.804E-09 1.588E-09 1.416E-09 EIEE 430 2.428E-09 1.952E-09 1.7215-09 1.457E-09 1.255E-09 1.104E-09 9.831E-10 E 705 3.673E-09 2.871E-09 2.636E-09 2.217E-09 1.901E-09 1.6643-09 1.476E-09 ESE 710 3.213E-09 2.6863-09 2.189E-09 1.842E-09 1.5815-09 1.384E-09 1.2283-09 SE $21 2.9805-09 2.6135-09 2.118E-09 1.775E-09 1.5172-09 1.3252-09 1.172E-09 stb 440 2.720E-09 2.0943-09 1.6978-09 1.422E-09 1.2163-09 1.062E-09 9.394E 10 5 202 1.241E-09 9.447E-10 7.5925-10 6.319E-10 5.3695-10 4.667E-10 4.1115-10 SSW 394 2.0493-09 1.5535-09 1.246E-09 1.035E-09 8.78't-10 7.6243-10 6.7093-10 SW 336 2.430E-09 1.058E-09 1.493E-09 1.243E-09 1.0~2E-09 9.3073-10 0.192E-10 Wsw 271 2.0423-09 1.5673-09 1.3065-09 1.C065-09 9.7155-10 0.0705-10 7.100E-10 W 329 2.9195-09 2.2315-09 1.799E-09 1.502E-09 1.J46E-09 1.1723-09 1.034E-09 WNW 310 3.1543-09 2.5133-09 2.1585-09 1.053E-09 3.574E-09 1.360E-09 1,2045-09 NW 397 3.070E-09 2.4013-09 1.950s-09 1.750E-09 1 4895-09 1.295E-09 1.142E-09 teIW 272 2.631E-09 2.0163-09 1.620E-09 1.360s-09 1.160E-09 1.010E-09 0.910E-10 AVERAGE 8064 2.9283-09 2.305E-09 1.9093-09 1.6123-09 1.384E-09 1.2255-09 1.084E-09 104

e liabla El-4 i Deposition D/O Factors for Main Stack 9 l l PHPS 1ST QUARTER 1990 GEMBRAL 3/QSs ELEVATED *- SECTOR AVERAGE N0 DEL gracg mermaam AVERA M DEPOSITION RATES (DEPLETED CE1/Q

• DEP. VELOCITY N0 DEL -- IST. AND ATOMIC BMBROY 1968) -- (1/N2)

DOtBEFIED 50. DISTANCE FROM m2m poggyr (ggLEE) SECTOR DES .12 .25 .50 .75 1.00 1.50 2.00 2.50 , 1 M 96 3.4055-12 1.3243-10 1.1255-10 1.0513-10 1.1545-10 1.4315-10 1.5135-10 1.4613-10 MME 184 6.8533-12 2.1655-10 1.0713-10 1.2445-10 1.2265-10 1.7343-10 2.0535-10 2.1025-10 ME 171 4.2493-12 1.5535-10 1.2283-10 0.5463-11 9.2665-11 1.4213-10 1.7193-10 1.7895-10 EME TO 2.6195-12 9.0965-11 8.1633-11 6.9525-11 6.6205-11 7.6648-11 8.5825-11 0.7293-11 3 109 4.0205-12 1.6023-10 1.5205-10 1.1635-18 1.1395-10 1.4143-10 1.5545-10 1.5363-10 f l ESE 184 ,1.0265-11 3.0205-10 1.7083-10 1.5573 10 1.7783-10 2.3773-10 2.6015-10 2.5563-10 l SE 241 1.2475-11 4.1165-10 3.2703-10 2.8825-10 3.1135-10 4.3403-10 3.6355-10 3.5273-10 'l SSE 142 3.0873-11 1.0603-09 3.9015-10 6.0283-10 0.1213-10 7.3405-10 6.0065-10 4.8975-10 8 120 1.9455-11 3.6065-10 .7.9553-10 1.5015-09 1.2855-09 1.0575-09 7.6805-10 5.5675-10 SSW 194 3.5535-11 7.1503-10 1.7333-09 2.2253-09 3.076E-09 2.196E-09 1.3793-09 9.6545-10 , SW 119 3.0553-11 3.1903-10 6.6275-10 1.0685-09 9.0895-10 0.0523-10 5.9453-10 4.5305-10 l WSW 95 4.4945-11 4.1235-10 4.5945-10 4.9155-10 6.6985-10 6.0965-10 4.5073-10 3.4553-10 l W. 99 1.6533-11 2.4053-10 5.6953-10 6.1303-10 6.7353-10 6.3445-10 4.040E-10 4.0045-10 MWW 62 6.0755-12 9.9445-11 1.0095-10 2.1033-10 3.2685-10 3.7623-10 3.1065-10 2.6523-10 MW 30 3.1263-19 3.0703-13 5.0005-12 1.2503-11 3.6195-11 5.7895-11 7.4018-11 7.7773-11 MMW ' 54 1.0145-19 0.0053-12 1.0533-10 7.2823-11 7.6223-11 9.8483-11 1.0773-10 1.0645-10 AVERAGE 1970 1.4795-11 2.9205-10 3.7405-10 4.8095-10 5.5843-10 4.9495-10 3.0535-10 3.1535-10 D00Mf!ND NO. DISTANCE FRom m m m POINT (NILES) EBCTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 96 1.3495-10 1.2325-10 1.1235-10 1.0273-10 9.3883-11 6.2715-11 4.5105-11 2.701E-11 MME 184 2.0035-10 1.8733-10 1.7585-20 1.6125-10 1.4915-10 1.0265-10 7.4925-11 4.5755-11 NE 171 1.7285-10 1.6355-10 1.5345-10 1.4373-10 1.3405-10 9.5028-11 7.0855-11 4.4633-11 EME 70 0.3413-11 7.0545-11 7.3435-11 4.0603-11 6.3915-11 4.4765-11 3.2975-11 2.0305-11 3 109 . 1.4305-10 1.3283-10 1.2205-10 1.13?S-10 1.0345-10 7.0523-11 5.1503-11 3.1593-11 ESE 184 2.3835-10 2.1935-10 2.0105-10 1.845E-10 1.692E-10 1.135E-10 0.1795-11 4.9195-11 SE 241 3.249E-10 2.9643-10 2.6905-10 2.4645 90 2.249E-10 1.4905-10 1.0635-10 6.2905-11 ESE 142 4.0613-10 3.4303-10 2.9435-10 2.55&B-1D 2.2405-10 1.3293 10 9.0223-11 5.3185-11 S 120 4.2263-10 3.3435-10 2.7205-10 2.2725-10 2 9293-10 1.0425-10 6.7115-11 3.5575-11 SSW 194 7.2495-10 5.6863-10 4.6053-10 3.0135-10 3.3i?'-10 1.6975-10 1.0693-10 5.4653-11 SW 119 3.5783-10 2.9005-10 2.4035-10 2.0253-10 1.7333-10 P-4403-11 6.0335-11 3.1403-11 WSW 95 2.7425-10 2.2395-10 1.0703-10 1.5873-10 1.3683-10 7.0663-11 5.0165-11 2.7015-11 W '99 3.322E-10 2.7995-10 2.3935-10 2.0713-10 1.0105-10 1.2233-10 7.6915-11 3.8643-11 WNW 62 2.2393-10 1.9005-10 1.6445-10 1.4313-10 1.2563-10 6.682E-11 4.9908-11 2.6075-11 NW 38 7.5025-11 7.0683-11 6.590E-11 6.1323-11 5.6035-11 5.4103-11 3.7155-11 2.2395-11 MMW 54 9.9603-11 9.1795-11 8.4143-11 7.7253-11 7.0683-11 4.6813-11 3.4053 11 2.3883-11 AVEm&GE 1970 2.6345-10 2.2465-10 1.9465-10 1.7083-10 1.5135-10 9.4253-11 6.4813-11 3.7145-11 D00EstIMD NO. DISTANCE FROM RELEASE POINT (NILES) EBCTom 038 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 96 1.0355-11 1.3415-11 1.0295-11 8.1905-12 6.6535-12 5.8305-12 4.8445-12 MME 184 3.1475-11 2.3233-11 1.0005-11 1.4455-11 1.1033-11 9.9163-12 9.4303-12 NE 171 3.1333-11 2.3425-11 1.0263-11 1.4733-11 1.2113-11 1.0175-11 s.6595-12 EME 70 1.3963-11 1.0493-11 8.5703-12 6.7753-12 5.4705-12 4.5203-12 3.0043-12 3 109 2.1773-11 1.6035-11 1.3815-11 1.0795-11' O.6125-12 7.0565-12 5.0745-12 ESE 184 3.3535-11 2.6453-11 2.0145-11 1.5923-11 1.2053-11 1.0633-11 0.9205-12 ER 241 4.2313-11 3.3775-11 2.532E-11 1.9783-11 1.5015-11 1.2995-11 1.0055-11 SSR 142 3.4365-11 2.4265-11 1.8173-11 1.416E-11 1.1295-11 9.2523-12 7.7025-12 8 120 2.2545-11 1.577E-11 1.1703-11 9.1933-12 7.3545-12 6.0585-13 5.0753-12 SSW 194 3.3765-11 2.3175-11 1.7053-11 1.3155-11 1.0435-11 0.5395-12 7.1233-12 SW 119 1.9755-11 1.3773-11 1.0205-11 8.0293-12 6,4165-12 5.2975-12 4.4503-12 WWW -95 1.7305-11 1.2225-11 9.0675-12 7.0845-12 5.6795-12 4.579d-12 3.0405-12 W 99 2.3403-11 1.5723-11 1.1333-11 8.5625-12 6.1075-12 4.540E-12 3.7433-12 WWW 62 1.6313-11 1.1163-11 0.0058-12 5.5763-12 4.2603-12 3.4435-12 2.0355-12 MW 30 1.3763-11 9.2333-12 6.5035-12 3.1225-12 2.3645-12 1.0545-12 1.4835-12 MMW 54 1.4643-11 9.910E-12 7.1793-12 5.4355-12 4.2235-12 3.3863-12 2.7653-12 AVERAGE 1970 2.420E-11 1.7635-11 1.3365-11 1.0315-11 8.2165-12 6.7555-12 5.6515-12 105

I i

                                                     " fable E3-4                                             )

Deposition D/O Factors for Main Stack PNPS 2ND QUARTER 1998 GENERAL E/Q44 ELEVATED -- FECTOR AVERAGE MODEL STACE RELEASE AVERAGE DEPOSITION RATES (DEPLETED CHI /O

• DEP. VEI4 CITY NODEL -- MET. AND ATONIC ENERGY 1968) -- (1/N2)

DOWNWIND WO. DISTANCE FROM RELEASE POIFF (N1LkS) 3RCTOR 088 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 147 1.380E-11 4.390E-10 2.4863-10 1.668E-10 1.601E-10 2.0322-10 2.417E-10 2.548E-10 NNE 206 1.1238-11 3.6493-10 2.755E-10 2.091E-10 2.10ez-10 2.691E-10 3.046E-10 3.081E-10 NE 112 5.783E-12 1.7692-10 9.117E-11 6.493E-11 7.101E-11 9.865E-11 1.141E-10 1.166E-10 ENE 80 7.947E-12 2.926E-10 1.425E-10 1.0043-10 9.229E-11 9.117E-11 9.552E-11 9.623E-11 E 129 1.673E-11 5.0673-10 2.601E-10 1.$233-10 1.394E-10 1.622E-10 1.787E-10 1.754E-10 ESE 89 7.973E-12 2.155E-10 1.0773-10 7.595E-11 0.178E-11 1.148E-10 1.355E-10 1.401E-10 SE 75 5.397E-12 2.102E-10 2.016E-10 1.081E-10 9.231E-11 1.511E-10 1.358E-10 1.424E-10 SSE 82 3.579E-11 9.800E-10 5.658E-10 5.266E-10 6.691E-10 6.1653-10 5.1553-10 4.258E-10 S 74 4.784E-11 7.756E-10 6.076E-10 1.112E-09 9.2903-10 7.835E-10 5.740E-10 4.163E-10 85W 101 6.832E-11 8.669E-10 9.282E-10 1.3642-09 2.119E-09 1.593E-09 9.978E-10 6.953E-10 SW 131 9.429E-11 8.796E-10 9.100E-10 1.430E-09 1.423E-09 1.288E-09 1.011E-09 8.035E-10 l WBW 83 5.6272-11 5.5573-10 7.179E-10 7.1562-10 1.030E-09 1.054E-09 0.193E-10 6.439E-10 W 79 3.322E-11 4.425E-10 5.3833-10 5.093E-10 6.160E-10 6.687E-10 5.455E-10 4.667E-10 NHW 73 2.107E-11 3.3013-10 4.4483-10 3.2423-10 3.966E-10 4.934E-10 4.555E-10 4.1655-10 NW 159 1.999E-11 3.457E-10 2.002E-10 1.5155-10 1.679E-10 2.435E-10 2.844E-10 2.893E-10 NNW 101 2.356E-12 9.610E 11 1.349E-10 1.048E-10 1.023E-10 1.470E-10 1.8385-10 1.9623-10 AVERADE 1709 2.800E-11 4.674E-10 3.984E-10 4.447E-10 5.187E-10 4.986E-10 4.120E-10 3.495E-10 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 147 2.486E-10 2.372E-10 2.235E-10 2.100E-10 1.954E-10 1.344E-10 9.659E-11 5.755E-11 MNE 206 2.930E-10 2.741E-10 2.548E-10 2.370E-10 2.196E-10 1.5183-10 1.108E-10 6.738E-11 NE 112 1.1185-10 1.054E-10 9.875E-11 9.254E-11 8.6355-11 6.170E-11 4.650E-11 2.9913-11 ENE 68 9.225E-11 8.725E-11 0.171E-11 7.633E-11 7.057E-11 4.660E-11 3.265E-11 1.949E-11 l E 129 1.704E-10 1.592E-10 1.477E-10 1.370E-10 1.265E-10 8.621E-11 6.2222-11 3.723E-11 l ESE 89 1.3485-10 1.271E-10 1.188E-10 1.107E-10 1.026E-10 7.0073-11 5.020E-11 2.948E-11 l SE 75 1.372E-10 1.294E-10 1.2092-10 1.128E-10 1.047E-10 7.243E-11 5.278E-11 3.194E-11 SSE 82 3.548E-10 3.003E-10 2.577E-10 2.235E-10 1.9575-10 1.141E-10 7.578E-11 4.230E-11 8 74 3.1573-10 2.496E-10 2.035E-10 1.694E-10 1.437E-10 7.711E-11 4.933E-11 2.589E-11 Ssw 101 5.1938-10 4.052E-10 3.267E-10 2.694E-10 2.266E-10 1.178E-10 7.345E-11 3.697E-11 SW 131 6.5183-10 5.4038-10 4.5618-10 3.904E-10 3.383E-10 1.911E-10 1.2385-10 6.416E-11 W5W 83 5.165E-10 4.235E-10 3.537E-10 2.996E-10 2.571E-10 1.390E-10 8.711E-11 4.307E-11 W 79 3.960E-10 3.3935-10 2.938E-10 2.566E-10 2.258E-10 1.565E-10 9.8135-11 4.906E-11 WNW 73 3.686E-10 3.2593-10 2.648E-10 2.359E-10 2.108E-10 1.357E-10 9.190E-11 4.830E-11 NW 159 2.7478-10 2.568E-10 2.3842-10 2.213E-10 2.046E-10 1.884E-10 1.306E-10 8.259E-11 HNW 101 1.922E-10 1.8363-10 1.7312-10 1.628E-10 1.521E-10 1.0648-10 8.332E-11 6.640E-11 AVERAGE 1709 2.986E-10 2.590E-10 2.259E-10 2.003E-10 1.788E-10 1.156E-10 7.9083-11 4.5735-11 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR CIS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 147 3.875E-11 2.796E-11 2.114E-11 1.655E-11 1.323E-11 1.109E-11 9.043E-12 NNE 206 4.588E-11 3.3415-11 2.548E-11 2.015E-11 1.627E-11 1.346E-11 1.131E-11 NE 112 2.1382-11 1.621E-11 1.2785-11 1.040E-11 8.612E-12 7.2875-12 6.245E-12 ENE 68 1.361E-11 1.0573-11 9.107E-12 7.3815-12 6.096E-12 5.146E-12 4.402E-12 E 129 2.527E-11 1.849E-11 1.7003-11 1.347E-11 1.0922-11 9.082E-12 7.677E-12 ESE 89 1.960E-11 1.557E-11 1.170E-11 9.165E-12 7.354E-12 6.063E-12 5.002E-12 SE 75 2.162E-11 1.808E-11 1.340E-11 1.0332-11 8.129E-12 6.572E-12 5.395E-12 SSE 82 2.6093-11 1.767E-11 1.276E-11 9.629E-12 7.456E-12 5.953E-12 4.846E-12 8 74 1.630E-11 1.136E-11 8.454E-12 6.5762-12 5.251E-12 4.318E-12 3.616E-12 ssw 101 2.264E-11 1.543E-11 1.130E-11 8.674E-12 6.850E-12 5.583E-12 4.642E-12 SW 131 3.920E-11 2.630E-11 1.884E-11 1.4122-11 1.077E-11 8.541E-12 6.922E-12 WSW 83 2.5535-11 1.678E-11 1.122E-11 8.313E-12 6.365E-12 4.809E-12 3.920E-12 W 79 2.928E-11 1.9383-11 1.3763-11 1.025E-11 7.107E-12 5.120E-12 4.156E-12 WNW 73 2.943E-11 1.9888-11 1.386E-11 8.4152-12 6.116E-12 4.8635-12 3.940E-12 NW 159 5.347E 11 3.849E-11 2.875E-11 1.5333-11 1.187E-11 9.496E-12 7.747E-12 NNW 101 3.9293-11 2.581E-11 1.8223-11 1.351E-11 1.030E-11 0.132E-12 6.550E-12 AVERAGE 1709 2.921E-11 2.071E-11 1.548E-11 1.139E-11 8.918E-12 7.2192-12 5.9682-12 106

t l l-  ! l Table B-4 l Deposition D/O Factors for Main Stack l l i PWPS 3RD QUARish 1990 mem X/QSs ELEVATED -- SECTOR AVERAGE NODEL STACE RELEASE AVERACE DEPOSITION RATES (DEPLETED CMI/O

• DEP. VII4 CITY NODEL -- NET. AND ATONIC ENERGY 1960) -- (1/N2)

DONWWIND NO. DISTANCE PROM RELEASE POINT (NILES) SECTOR 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 i N 201 1.536E-11 5.6845-10 3.950E-10 2.8683-10 2.640E-10 2.7635-10 2.804E-10 2.6785-10 l NME 595 2.0845-11 7.032E-10 6.7533-10 5.1605-10 4.9265-10 5.773E-10 6.2233-10 6.1055-10 ) NE 200 1.0015-11 4.3035-10 3.1235-10 2.1993-10 1.9763-10 2.1415-10 2.3035-10 2.302E-10 l BME 116 3.4995-12 1.522E-10 1.514E-10 1.1085-10 9.187E-11 8.9373-11 9.453E-11 9.4513-11 E 106 1.2913-11 4.9965-10 3.0263-10 1.9553-10 1.7445-10 1.8313-10 1.8925-10 1.8353-10 ESE 133 1.1225-11 3.8045-10 2.1115-10 1.300E-10 1.180E-10 1.166E-10 1.1905-10 1.1588-10 SR 106 2.2125-11 1.160s-09 6.5515-10 2.937E-10 1.913E-10 1.7253-10 1.1513-10 1.1155-10 SSE 96 4.3033-11 1.5933-09 7.3595-10 4.9595 10 6.0633-10 5.312E-10 4.332E-10 3.541E-10 8 34 2.781E-11 5.0253-10 2.3745-10 3.5425-10 2.930E-10 2.424E-10 1.765E-10 1.253E-10 SSW 35 2.5535-11 5.5363-10 5.1285-10 4.3653-10 5.425E-10 5.854E-10 3.815E-10 2.740s-10 SW 43 2.1293-11 3.0045-10 4.6695-10 6.1505-10 6.1213-10 5.464E.10 4.178E-10 3.245E-10 WSW 58 9.570E-11 9.1435-10 5.3245-10 4.1423-10 5.796E-10 6.0655 'O 4.7888-10 3.8123-10 , W 79 5.6095-11 9.2395-10 9.4565-10 6.6135-10 6.3853-10 5.7493-10 4.356E-10 3.507E-10 l WWW 90 2.3003-11 4.4005-10 4.530E-10 4.9665-10 6.4333-10 6.6465-10 5.371E-10 4.569E-10 NW A2 9.2885-12 2.4093-10 2.510E-10 1.9145-10 1.7573-10 1.8413-10 1.023E-10 1.697E-10 NNW 51 9.8303-13 4.0725 4.350E-11 2.873E-11 2.971E-11 4.0155-11 6.060E-11 6.4445-11 AVERAGE 2193 2.5028-11 5.0833-10 4.301E-10 3.410E-10 3.532E-10 3.5085-10 2.971E-10 2.573E-10 l DOWNWIND No. DISTANCE rROM RELEASE PoIwr (NILES) SECTom 038 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 201 2.4695-10 2.2595-10 2.0653-10 1.8953-10 1.7375-10 1.1745-10 0.5333-11 5.2102-11 Mh5 595 5.6973-10 5.2575-10 4.035E-10 4.4595-10 4.107E-10 2.8133-10 2.061E-10 1.2758-10 NE 200 2.1955-10 2.0728-10 1.940E-10 1.033B-10 1.7173-10 1.2515-10 9.5005-11 6.3095-11 EME 116 9.047E-11 0.500E-11 0.110E-11 7.601E-11 7.236E-11 5.3663-11 4.1673-11 2.0055-11 3 106 1.7145-10 1.5093-10 1.471E-10 1.3665-10 1.265E-10 0.095E-11 6.6733-11 4.2045-11 ESE 133 1.0093-10 1.0193-10 9.523E-11 0.9238-11 0.3313-11 6.0243-11 4.616E-11 3.0525-11 SE 106 1.051E-10 9.0835-11 9.2045-11 0.7385-11 0.1985-11 5.997E-11 4.631E-11 3.007E-11 SEE 96 2.9465-10 2.5018-10 2.1595-10 1.885E-10 1.6645-10 1.0105-10 7.0605-11 4.5415-11 8 34 9.704E-11 7.7785-11 6.3785-11 5.3453-11 4.5553-11 2.498E-11 1.6313-11 8.0833-12 SSW 35 2.085E-10 1.6573-10 1.361E-10 1.145E 9.0063-11 5.411E-11 3.532E-11 1.9035-11 SW 43 2.585E-10 2.110E-10 * . 7575-10 1.4853-10 1.2723-10 6.8813-11 4.3313-11 2.1735-11 I WBW 58 3.096E-10 2.5695-10 2.169E-10 1.0553-10 1.6053-10 0.900E-11 5.767E-11 2.9475 11 W 79 2.9733-10 2.5023-10 2.1355-10 1.8455-10 1.610E-10 1.0503-10 6.594E-11 3.3265-11 WNW 98 3.8705-10 3.3275-10 2.6483-10 3.3233-10 2.0555-10 1.3093-10 S.9875-11 4.8545-11 NW 02 1.5343-10 1.3033-10 1.2495-10 1.1355-10 1.034E-10 9.1768-11 6.3243-11 3.8455-11 MMW 51 6.310E-11 6.0235-11 5.6805-11 5.3425-11 4.9975-11 3.540E-11 2.883E-11 3.4805-11 AVERAGE 2193 2.2395-10 1.9675-10 1.7313 10 1.5523-10 1.3995-10 9.307E-11 6.6203-11 4.0913-11 l l DONMWIND NO. DISTANCE FROM RELEASE POINT (NILES) l SBCTOE OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 201 3.5905-11 2.6495-11 2.0465-11 1.637E-11 1.337E-11 1.272E-11 1.0493-11 MNE 595 8.0833-11 6.6363-11 5.193E-11 4.205E-11 3.4715-11 2.9312-11 2.5005-11 NE 200 4.5625-11 3.47BE-11 2.7453-11 2.2355-11 1.0515-11 1.5645-11 1.339E-11 ENE 116 2.067E-11 1.6063-11 1.5943-11 1.209E-11 1.0575-11 8.826E-12 7.440E-12 E 106 3.0615-11 2.323E-11 2.2593-11 1.8063-11 1.471E-11 1.2265-11 1.035E-11 ESE 133 2.213E-11 1.9913-11 1.554E-11 1.2535-11 1.029E-11 0.6275-12 7.331E-12 SE 106 2.2415-11 2.225E-11 1.6895-11 1.3253-11 1.0595-11 0.651E-12 7.1708-12 SSE 96 2.944E-11 2.0575-11 1.511E-11 1.1515-11 8.9515-12 7.140E-12 5.7913-12 8 34 5.774E-12 4.1313-12 3.145E-12 2.4975-12 2.030E-12 1.6965-12 1.4413-12 SSW 35 1.1975-11 0.2323-12 6.0143-12 4.577E-12 3.567E-12 2.850E-12 2.335E-12 SW 43 1.3125-11 8.7985-12 6.321E-12 4.7605-12 3.704E-12 2.950E-12 2.4095-12 l WSW SS 1.7073-11 1.2043-11 8.549E-12 6.3305-12 4.829E-12 3.4715-12 2.7983-12 W 79 2.0295-11 1.3765-11 1.0035-11 7.675E-12 5.6403-12 4.327E-12 3.615E-12 WWW 98 3.0613-11 2.1775-11 1.6035-11 9.4225-12 6.0493-12 5.452E-12 4.443E-12 WW 02 2.3055-11 1.6363-11 1.180E-11 6.0373-12 4.736E-12 3.8365-12 3.1703-12 NNW $1 2.1533-11 1.449E-11 1.0333-11 7.6513-12 5.783E-12 4.486E-12 3.541E 12 AVERAGE 2193 2.7545-11 2.0633-11 1.613E-11 1.2375-11 9.9275-12 0.2665-12 6.925E-12 l I i l l l 107 1 l

Table B-4 Deposition D/O Factors for Main Stack  ; 1 l l PNPS 4TE QUARTER 1990 GENERAL E/Q8s ELEVATED -- SECTOR AVERAGE NODEL STACE RELEASE ' AVERAGE DEPOSITION RATES (DEPLETED CBI/O

• DEP. VELOCITY MODEL -- MET. AND ATONIC ENERGY 1960) -- (1/M2)

DOMWWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 99 5.2313 12 1.007E-10 3.032E 11 5.5645-11 7.3023-11 1.2053-10 1.4305-10 1.4653-10 MME 161 5.6503-12 1.613E-10 1.1143-10 9.406E-11 1.171E-10 1.7425 10 1.9575-10 1.9395-10 ME 227 3.0595-12 1.0853-10 1.050E-10 1.005E-10 1.3373-10 1.9265-10 2.1535-10 2.136E-10 ENE 104 4.092E-12 1.5453-10 1.7193-10 1.3313 10 1.2093-10 1.6305-10 1.041E-10 1.050E-10 E 361 2.2363-11 7.3753-10 3.0305-10 2.3503-10 2.2935-10 2.935E-10 3.3623-10 3.4253-10 ESE 304 2.3353-11 7.3055-10 3.740E-10 2.025E-10 2.952E-10 3.423E-10 3.402E-10 3.2923-10 SE 199 1.5035-11 5.977E-10 4.5313-10 2.060E-10 2.7265-10 3.437E-10 2.7465-10 2.597E-10 SSE 120 2.4595-11 6.300E-10 3.0633-10 5.0293-10 6.6163-10 5.3705-10 4.2135-10 3.3595-10 8 54 1.4065-11 2.560E-10 3.609E-10 5.6975-10 4.505E-10 3.6443-10 2.6065-10 1.9605-10 SSW 64 1.9003-11 4.7005-10 0.5125-10 9.164E-10 1.0285-09 6.3423-10 3.9432-10 2.741E-10 SW 43 3.306E-11 2.7005-10 2.7035-10 4.5905-10 4.3265-10 3.5933-10 2.694E-10 2.0033-10 WSW 35 1.279E-11 1.3523-10 2.1568-10 2.400E-10 2.9035-10 2.4643-10 1.7553-10 1.314E-10 W 72 3.336E-11 3.6345-10 3.1025-10 3.4073-10 3.7503-10 3.4535-10 2.560E-10 2.0033-10 MNW 77 6.0155-12 1.0055-10 1.5023-10 2.215E-10 3.2763-10 3.005s-10 3.2113-10 2.0025-10 NW 118 2.0903-12 8.159E-11 1.6073-10 1.610E-10 1.0125-10 2.200E-10 2.203E-10 2.0363-10 MNW 66 9.3893-13 2.7995-11 1.3575-11 1.7213-11 3.200E-11 6.6073-11 8.307E-11 8.654E-11 AVERAGE 2104 1.4253-11 J.1395-10 '2.759E-10 2.9415-10 3.1495-10 2.990E-10 2.567E-10 2.2475-10 DONNWIND NO. DISTANCE FkoM RELEASE POINT (MILES) 4BCTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 99 1.4005-10 1.3075-10 1.210E-10 1.1203-10 1.0335-10 7.035E-11 5.0903-11 3.055E-11 MME 161 1.0135-10 1.6703-10 1.532E-10 1.408E-10 1.2935-10 0.7572-11 6.3545-11 3.057E-11 NE 227 2.0023-10 1.0515-10 1.7035-10 1.5713-10 1.440E-10 9.9405-11 7.3015-11 4.532E-11 EME 184 1.7503-10 1.6312-10 1.5125-10 1.4035-10 1.2993-10 9.0375-11 6.602E-11 4.1793-11 2 361 3.2723-10 3.0765-10 2.071E-10 2.6013-10 2.4923-10 1.750E-10 1.2995-10 0.1375-11 ESE 304 3.006E-10 2.7313-10 2.403E-10 2.2695-10 2.0743-10 1.3943-10 1.0145-40 6.2343-11 SE 199 2.3603-10 2.129E-10 1.923E-10 1.745E-10 1.5055-10 1.042E-10 7.4375-11 4.433E-11 SEE 120 2.743E-10 2.2925-10 1.950E-10 1.6035-10 1.469E-10 0.6105-11 5.000E-11 3.3305-11 8 54 1.4923-13 1.104E-10 9.6015-11 0.005E-11 6.0793-11 3.7333-11 2.4045-11 1.270E-11 SSW 64 2.0415-10 1.5953-10 1.290E-10 1.070E-10 9.050E-11 4.066E-11 3.1355-11 1.6755-11 SW 43 1.6635-10 1.366E-10 1.1465-10 9.763E-11 0.4333-11 4.762E-11 3.1053-11 1.6483-11 WSW 35 1.025E-10 0.2583-11 6.0303-11 5.757E-11 4.935E-11 2.736E-11 1.778E-11 9.470E-12 W 72 1.7105-10 1.434E-10 1.2255-10 1.062E-10 9.310E-11 1.004E-10 6.8735-11 3.607E-11 WWW 77 2.414E-10 2.0935-10 1.0313-10 1.6155-10 1.435E-10 8.507E-11 6.510E-11 3.549E-11 EW 110 1.0245-10 1.6243-10 1.4505-10 1.302E-10 1.1743-10 9.5295-11 6.401E-11 3.879E-11 MNW 86 0.3333-11 7.0453-11 7.3103-11 6.0223-11 6.3365-11 4.427E-11 3.524E-11 3.141E-11 AVERAGE 2184 1.9595-10 1.7253-10 1.5325-10 1.373E-10 1.2375-10 0.3655-11 5.9765-11 3.5935-11 l DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SBCTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 99 2.067E-11 1.4903-11 1.137E-11 0.9345-12 7.160E-12 6.3215-12 5.1265-12 MME 161 2.646E-11 1.9475-11 1.5005-11 1.197E-11 9.7345-12 0.102E-12 6.0383-12 i ME 227 3.1713-11 2.3745-11 1.050E-11 1.5055-11 1.2433-11 1.050E-11 8.990Ea12 l ENE 184 2.929E-11 2.2475-11 1.0765-11 1.503E-11 1.2205-11 1.027E-11 8.7093-12 S 361 5.6073-11 4.2423-11 3.6895-11 2.9203 11 2.373E-11 1.9733-11 1.6645-11 , ESE 304 4.332E-11 3.4813-11 2.680E-11 2.1505-11 1.7553-11 1.4675-11 1.2448-11  ! BE 199 3.015E-11 2.4503-11 1.0553-11 1.460E-11 1.1755-11 9.7093-12 0.1465-12 SSE 120 2.141E-11 1.5045-11 1.1235-11 0.7413-12 6.9663-12 5.7123-12 4.7635-12 8 54 0.0353-12 5.6203-12 4.210E-12 3.3065-12 2.6625-12 2.209E-12 1.8663-12 SSW 64 1.0845-11 7.7453-12 5.093E-12 4.674E-12 3.797E-12 3.1603-12 2.6005-12 SW 43 1.0465-11 7.2793-12 5.3712-12 4.131E-12 3.3005-12 2.6375-12 2.1453-12 I WSW 35 6.060E-12 4.206E-12 3.1983-12 2.494E-12 2.0005-12 1.6195-12 1.3503-12 W 72 2.0905-11 1.3135-11 8.9733-12 6.5753-12 4.153E-12 2.9615-12 2.465E-12 WWW 77 2.2495-11 1.6665-11 1.244E-11 6.4393-12 4.6943-12 3.750E-12 3.0625-12 NW 110 2.4023-11 1.7513-11 1.290E-11 7.7775-12 6.1195-12 4.967E-12 4.1105-12 MNW 66 1.951E-11 1.331E-11 9.676E-12 7.326E-12 5.6748-12 4.520E 12 3.663E-12 AVERAGE 2104 2.3945-11 1.7695 11 1.3755-11 1.0495-11 8.376E-12 6.9205-12 5.0135-12 4 108

1 Table B-4 1 Deposition D/O Factors for Main Stack i PNPS 1998 GENERAL E/QSI ELEVATED -- BBCTOR AVERAGE NODEL STACE RELEASE AVERAGE DEPOSITION EATES (DEPLETED CNI/O

• DEP. VELOCITY NODEL -- NET. AM ATONIC ENEROY 1968) -- (1/N2) i DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) ]

SBCTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 l 1 N 543 9.3733-12 3.2905-10 2.0973-10 1.5423-10 1.530E-10 1.059E-10 2.0335-10 2.0235-10 l NME 1146 1.1268-11 3.6545-10 3.1813-10 2.4093 10 2.403t-10 3.0375-10 3.3713-10 3.3545-10 I NE 790 6.254E-12 2.2203-10 1.5205-10 1.2395-10 1.277&-10 1.6625-10 1.0733-10 1.8912-10 ENE 438 4.3863-12 1.6763-10 1.3795-10 1.0453-10 9.569E-11 1.0665-10 1.1695-10 1.176E-10 3 705 1.410E-11 4.8233 10 2.7843-10 1.7783-10 1.670E-10 1.9033-10 2.185E-10 2.1835-10 ESE 710 1.3585-11 4.2135-10 2.2565-10 1.6835-10 1.730E-10 2.070E-10 2.1925-10 2.1305-10 SE 621 1.1593-11 4.7535-10 3.7173-10 2.3493-10 2.1343-10 2.7013-10 2.236E-10 2.1732-10 SSE 440 2.586E-11 8.1103-10 4.0675-10 5.5225-10 6.8503-10 6.0105-10 4.80SE-10 3.9765-10 S 282 2.390E-11 4.1425-10 4.8625-10 8.7393-10 7.1415-10 5.900E-10 4.3103-10 3.1275-10 SSW 394 3.3965-11 6.1638-10 9.9195-10 1.2025-09 1.6293-09 1.207E-09 7.6033-10 5.329E-10 SW 336 4.2345-11 4.005E-10 5.3113 10 8.569E-10 0.277E-10 7.1633-10 5.4633-10 4.2638-10 ] WSW 271 4.533E-11 4.3535-10 4.4515-10 4.5013-10 6.210E-10 6.046E-10 4.619E-10 3.6053-10 i W 329 3.530E-11 5.0255-10 5.7063-10 5.2605-10 5.712E-10 5.4725-10 4.2253-10 3.5113-10 NNN 310 1.4043-11 2.4565-10 2.6423-10 2.983E-10 4.0795-10 4.5873-10 3.8563-10 3.358E-10 NW 397 7.5475-12 1.6095-10 1.5545-10 1.3003-10 1.3095-10 1.7555-10 1.077E-10 1.8175-10 MNW 272 1.0213-12 4.1005-11 6.9953-11 5.2545-11 5.7358-11 8.6523-11 1.0445-10 1.0863-10 AVERAGE 9064 1.3753-11 3.007E-10 3.5175-10 3.842E-10 4.2655-10 4.0163-10 3.309E-10 2.8133-10 DOWNWIND NO. DISTANCE FROM RELEASE POINF (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 543 1.9003-10 1.7735-10 1.(382-10 1.5155-10 1.3973-10 9.4043-11 6.0535-11 4.127E-11 NNE 1146 3.153E-10 2.9223-10 2.6963-10 2.4925-10 2.290E-10 1.5753-10 1.1515-10 7.0613-11 MB 790 1.000E-10 1.6095-10 1.5775-10 1.4723-10 1.3715-10 9.7323-11 7.306E-11 4.6725-11 EME 438 1.1205-10 1.0535-10 9.0353-11 9.1925-11 0.550E 11 5.9925-11 4.444E-11 2.806E-11 E 705 2.0668-10 1.920E-10 1.790E-10 1.6645-10 1.541E-10 1.072E-10 7.915E-11 4.9335-11 ESE 710 1.9005-10 1.0243-10 1.6763-10 1.5445-10 1.4213-10 9.6833-11 7.0725-11 4.350E-11 SE 621 2.0125-10 1.847E-10 1.691E-10 1.5545-10 1.426E-10 9.6415-11 6.999E-11 4.2605-11 SSE 440 3.2925-10 2.7795-10 2.3833-10 2.0693-10 1.815E-10 1.0785-10 7.3105 11 4.3403-11 8 282 2.3768-10 1.081E-10 1.5363-10 1.2015-10 1.000E-10 5.8813-11 3.7863-11 2.0075-11 SSW 394 3.990E-10 3.136E-10 2.5415-10 2.107E-10 1.702E-10 9.449E-11 5.9895-11 3.0953-11 SW 336 3.4133-10 2.8005-10 2.3443-10 1.992E-10 1.7163-10 9.5263-11 6.1235-11 3.167E-11 , WSW 271 2.8875-10 2.369E*10 1.9833-10 1.6053-10 1 450E-10 0.0093-11 5.126E-11 2.6335-11 ) W 329 2.9265-10 2.4743-10 2.1223-10 1.0415-10 1.6133-10 1.1093-10 7.6213-11 3.8693-11 J WWW 310 2.886E-10 2.497E-10 2.180E-10 1.920E-10 1.702E-10 9.843E-11 7.301E+11 3.944E-11 NW 397 1.6775-10 1.5343-10 1.3993-10 1.281E-10 1.1723-10 1.040E-10 7.154E-11 4.3963-11 l NNW 272 1.0495-10 9.905E-11 9.240E-11 8.646E-11 8.031E-11 5.5603-11 4.3595-11 3.790E 11 AVERAGE 8064 2.4093-10 2.0945-10 1.0425-10 1.6375-10 1.466E-10 9.5223-11 6.6043-11 3.966E-11 DOWNNIND NO. DISTANCE FROM RELEASE PCIIrt (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 543 2.807E-11 2.0405-11 1.5655-11 1.2395-11 1.001E-11 8.956E-12 7.347E 12 NME 1146 4.8773-11 3.5105-11 2.000E-11 2.249E-11 1.843E-11 1.545E-11 1.314E-11 NB 790 3.321E-11 2.5073-11 1.9695-11 1.5973-11 1.320E-11 1.1145-11 9.5223-12 EME 430 1.9865-11 1.540E-11 1.3453-11 1.0005-11 0.8353-12 7.3843-12 6.250E-12 E 785 3.4425-11 2.566E-11 2.3133-11 1.0345-11 1.405E-11 1.2333-11 1.039E-11 ESE 710 3.0135-11 2.4633-11 1.092E-11 1.500E-11 1.226E-11 1.021E-11 8.629E-12 SE 621 2.9225-31 2.400E-11 1.867E-11 1.460E-11 1.1665-11 9.5625-12 7.9625-12 SSE 440 2.7765-11 1.9365-11 1.431E-11 1.1018-11 8.671E-12 7.030E-12 5.7813-12 8 282 1.2733-11 8.9235-12 6.600E-12 5.2235-12 4.190E-12 3.4613-12 2.909E-12 SSW 394 1.9275-11 1.329E-11 9.8093-12 7.5753-12 6.0095-12 4.913E-12 4.094E-12 SW 336 1.955E-11 1.3323-11 9.6803-12 7.3775-12 5.756E-12 4.628E-12 3.7953-12 WSW 271 1.6163-11 1.0995-11 7.790E-12 5.8968-12 4.5963-12 3.5253-12 2.904E-12 W 329 2.3125-11 1.5268-11 1.0053-11 0.1415-12 5.662E-12 4.1775-12 3.4495-12 NNW 310 2.4633-11 1.7388-11 1.2635-11 7.4573-12 5.475E-12 4.372E-12 3.5605-12 NW 397 2.791E-11 1.9615-11 1.4413-11 7.7625 12 6.041E-12 4.8563-12 3.981E-12 NNW 272 2.3063-11 1.5453-11 1.1053-11 8.2605-12 6.3293-12 4.9985-12 4.0215-12 AVERAGE 8064 2.612E-11 1.9113-11 1.4678-11 1.1155-11 8.873E-12 7.3113-12 6.109E-12 I i 4 109

Table B-5 Undepleted x/O Factors for Reactor Building Vent PNPS 1ST QUARTER 1990 m e m X/QSs GROUND-LEVEL == SECTOR AVERAGE HODEL GROUND RELEASE GROUND-LEVEL AVERAGE CEI/Q BEFORE DEPLETION (SPLIT-E NODEL) -+ (SEC/M3) DONWWIND NO. DISTANCE FROM RELEASE POIlff (MILES) SECTOR 088 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 151 3.270s-05 9.5913-06 3.2605-06 1.000E-06 1.179E-06 6.4553-07 4.2145-07 3.043E-07 leIE 237 4.1073-05 1.1965-05 4.1143-06 2.270E-06 1.4923 06 8.1635-07 5.3273-07 3.0403-07 NE 121 2.4745-05 7.2943-06 3.4113-06 1.341E-06 8.8425-07 4.0813-07 3.195E-07 2.312E-07 ENE 107 2.4085-05 7.0913-06 2.4003-06 1.3333-06 8.756E-07 4.7953-07 3.124E-07 2.2533-07 E 189 3.3163-05 9.745E-06 3.449E-06 1.9053-06 1.2433-06 6.723E-07 4.355E-07 3.128E-07 BSE 179 2.7965-05 8.2135-06 2.9545-06 1.620E-06 1.050E-06 5.4493-07 3.653E-07 2.620E-07 SE 109 2.016E-05 8.3315 06 3.074E-06 1.689E-06 1.0943-06 5.8203-07 3.7453-07 2.6735-07 SSE 77 1.1833-05 3.395E-06 1.2563-06 6.960E-07 4.546E-07 2.445E-07 1.5793-07 1.133E-07 8 04 9.8215 06 2.8673-06 9.5043-07 5.2293-07 3.400E-07 1.0225 07 1.176E-07 8.4243-08 SSW 200 1.910E-05 5.812E-06 1.8723-06 1.0065-06 6.4645-07 3.4105-07 2.193E-07 1.5623-07 SW 179 1.6073-05 4.9553-06 1.6335-06 8.8195-07 5.652E-07 2.9743-07 1.8993-07 1.3475-07 WSW 93 1.0275-05 3.1375-06 1.023E-06 5.496E-07 3.516E-07 1.851E-07 1.1885-07 8.460E-00 W 103 1.610E-05 4.9115 06 1.5983-06 9.606E-07 6.209E-07 3.3033-07 1.9265-07 1.371E-07 WNW 45 9.6545-06 2.8845-06 1.0215-06 5.5883-07 3.4225-07 1.957E-07 1.396E-07 1.0025-07 NW 39 1.118E-05 3.3022-06 1.1813-06 6.5495 07 4.278E.07 2.3045-07 1.4095-07 1.066E-07 Innt 88 1.090E-05 5.504E-06 2.0115-06 1.119E-06 7.310E-07 3.933E-07 2.542E-07 1.822E-07 AVERAGE 2081 2.093E-05 6.197E-06 2.1303-06 1.1925 06 7.6995-07 4.157E-07 2.600E-07 1.929E-07 DOWNWIND NO. DISTANCE FRON RELEASE POINT (MILES) SECTOR 038 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 151 2.3493-07 1.800E-07 1.564E-07 1.323E-07 1.140E-07 6.563E-00 4.472E-00 2.6168-08 NIIE 237 2.973E-07 2.3915 07 1.980E-07 1.6745-07 1.443E-07 8.291E-08 5.640E-08 3.3088-08 NE 121 1.787E-07 1.4383-07 1.1935-07 1.0115-07 8.733E-08 5.061E-00 3.462E-08 2.0323-08 ENE 107 1.7385-07 1.396E-07 1 156E-07 9.7738-08 8.4235-00 4.8493-08 3.3048-00 1.933E-08 E 189 2.406E-07 1.927E-07 1.591E-07 1.340E-07 1.152E-07 6.554E-08 4.431E-08 2.5655-08 BSE 179 2.0135-07 1.610E-07 1.3288-07 1.1173-07 9.5032-00 5.4253-08 3.6575-00 2.1128-00 SE 109 2.046E-07 1.6313-07 1.475E-07 1.237E-07 1.059E-07 5.401E-00 3.616E-00 2.065E-00 SSE 77 0.7275-08 6.992E-08 5.7693-00 4.0513-08 4.1585-08 2.340E-08 1.5825-08 9.144E-09 8 84 6.4703-00 5.1763-08 4.267E-00 3.5875-00 3.0753-08 1.7363-08 1.1683-08 6.715E-09 SSW 200 1.1915-07 9.4763-00 7.7855-08 6.5373-00 5.596E-08 3.151E-05 2.109E-08 1.201E.08 ' SW 179 1.022E-07 a.1023-08 6.632E-08 5.550E-08 4.7393-00 2.6443-00 1.7575-08 9.000E-09 I WSW 93 6.4563-00 5.1375-08 4.6415-08 3.0943-00 3.333E-08 1.7043-00 1.1383-08 6.455E-09 W 103 1.044E-07 8.305E.00 6.817E-08 5.718E-08 4.8943-00 2.7535-08 1.840E-08 1.0445-08 WNW 45 7.6005-08 6.138E-08 4.5993-08 3.872E-08 3.325E-08 1.887E-08 1.271E-08 7.305E-09 MW 39 8.101E.00 6.5413-08 5.392E-69 4.537E-08 3.8933-00 2.2078-08 1.4065-08 0.5473-09 IEIW SS 1.400E-07 1.120E-07 9.235E-08 7.763E-08 6.4575-00 3.763E-00 2.534E-08 1.460E-08 AVERAGE 2001 1.482E-07 1.187E-07 9.0763-08 0.320E-08 7.146E-08 4.021E-08 2.7173-00 1.5713-00 DOWIININD NO. DISTAIICE FROII RELEASE POIlrf (MILES) SECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 151 1.7975-00 1.3513-08 1.0775-08 8.9095-09 7.524E-09 6.503E-09 5.699E-09 IEEE 237 2.272E-08 1.7073-08 1.361E-08 1.125E 08 9.501E-09 0.2128-09 7.1978-09 NE 121 1.390E-08 1.0525-08 8.394E-09 6.9425-09 5.0615-09 5.0593-09 4.4303-09 BNE 107 1.3273-08 9.9643-09 7.945E-09 6.566E-09 5.540E-09 4.703E-09 4.100E-09 E 109 1.7513-08 1.3105-06 1.0413-08 8.5815-09 7.230E-09 6.243E-09 5.465E-09 EBE 179 1.440E-00 1.0775-00 0.552E-09 7.051E-09 5.943E-09 5.1362-09 4.501E-09 SE 189 1.399E-08 1.0415-08 8.235E-09 6.768E-09 5.688E-09 4.9083-09 4.294E-09 SEE 77 6.2345-09 4.650s-09 3.696E-09 3.046E-09 2.5663-09 2.2183-09 1.943E-09 8 84 4.5715-09 3.4135 09 2.706E-09 2.2295-09 1.8775-09 1.622E-09 1.4215-09 SSW 200 8.1575-09 6.0845-09 4.8205-09 3.9688-09 3.342E-09 2.0883-09 2.5323-09 SW 179 6.6553-09 4.9313-09 3.0075-09 3.197E-09 2.673E-09 2.3035-09 2.0135-09 WSW 93 4.3715-09 3.252E-09 2.5713-09 2.113E-09 1.777E-09 1.533E-09 1.3435-09 W 103- 7.0605-09 5.2448-09 4.1425-09 3.3995-09 2.053E-09 2.4563 09 2.1455-09 WNW 45 4.9698-09 3.7005-09 2.9425-09 2.423E-Ok 2.039E-09 1.7593-09 1.540E-09 NW 39 5.0132-09 4.336E-09 3.4373-09 2.8283-06 2.370E-09 2.051E-09 1.793E-09 IIInt et 9.933E-09 7.410E-09 5.872E-09 4.032E-09 4.0643-09 3.507E-09 3.0675-09 AVERAGE 2001 1.073E-00 0.024E-09 6.3753-09 5.256E-09 4.4295-09 3.824E-09 3.340E-09 110

         ~           _

Tabla B-5

                             - Undepleted x/O Factors for Reactor Building Vent PNPS 2ND QUARTER 1990 GENERAL 3/QSs GROUND-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEASE GROUND-LEVEL AVERAGE CEI/O BEFORE DEPLETION (SPLIT-E NODEL) -- (SEC/N3)

DONNNIND NO. DISTANCE FRON RBum pogarf (MILES) SECTOR 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 196 5.5053-05 1.6163-05 5.5475-06 3.0703-06 2.0205-06 1.1025-06 7.1635-07 5.1603-07 388 206 5.7125-05 1.6703-05 5.6393-06 3.0005-06 2.013E-06 1.1085-04 7.270E-07 5.267E-07 NE 167 4.4215-05 1.2055-05. 4.1023-06 2.2053-06 1.420E-06 8.0493-07 5.3023-07 3.9508-07 ENE 134 3.6193-05 1.0613-05 3.5595-06 1.975E-06 1.2995-06 7.1405-07 4.6755 07 3.3005-07 3 157 3.450E-05 1.000E-05 3.422E-06 1.0713-06 1.2193-06 6.670E-07 4.362E-07 3.155E-07 ESE 07 2.3735-05 6.9365 06 2.3083-06 1.3303-06 8.7513-07 4.7695-07 3.090E-07 2.2313-07 SR 70 2.2215-05 6.4143-06 2.418E 06 1.3375-06 8.759E-07 4.0105-07 2.0633-07 2.073E-07 SEE 60 1.6043-05 4.7315-06 1.581E-06 7.0553-07 5.1275-07 2.0075-07 1.0353-07 1.327E-07 8 59 8.0845-06 2.3283 06 6.040E-07 3.7245-07 2.426E-07 1.3075 07 8.46tE-00 6.0925-00 SSN 106 1.6505-05 4.9303-06 1.5393-06 8.4072-07 5.5573-07 3.0103-07 1.9505-07 1.4003-07 SW 162 2.0555-05 8.7423-06 2.7743 06 1.516E-06 9.0355 07 5.259E-07 3.3843-07 2.414E-07 WSW 133 2.9605-05 8.8083-06 2.040E-06 1.551E-06 1.0013-06 5.350s-07 3.4535-07 2.470E-07 W 32 3.1703-05 9.2115-06 2.8403 06 1.6053 06 1.0075-06 5.9055-07 3.5003-07 2.C095-07 NNW 96 2.8095-05 0.3573-06 2.9043-06 1.604E-06 1.0493-06 5.7303-07 4.1115 07 2.970E-07 MW 127 4.1245-05 1.1995-05 4.2755-06 2.3633-06 1.5415-06 8.3435-07 5.4135-07 3.0955-07 sent 92 4.2105-05 1.2423-05 4.0155-06 2.267E-06 1.5125-06 8.391E-07 5.4915-87 3.9738-07 AVERAGE 2014 3.2243-05 9.4633-06 3.150E-06 1.7425-06 1.1305-06 6.2333-07 4.0555-07 2.930E-07 DONNWIND NO. DISTANCE FR008 RELEASE POINT (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 196 3.9795-07 3.1953-07 2.6443-07 2.2333-07 1.9233-07 1.1035-07 7.5053 00 4.3795 00 INIE 286 4.070E-07 3.275E-07 2.7155 07 2.3005-07 1.9055-07 1.1465-07 7.022E-08 4.593E-00 . I Ils 167 3.0743-07 2.4095-07 2.0743-07 1.7693-07 1.534E-07 8.989E-08 6.2073-08 3.716E-08 ENE 134 2.6123-07 2.1023-07 1.743E-07 1.476E-07 1.2745-07 7.359E-00 5.026E-00 2.949E-08 E 157 2.4375-07 1.9615-07 1.6253-07 1.3763-07 1.196E-07 6.820E-08 4.6575-00 2.733E-08 ESE 87 1.7213-07 1.3835-07 1.144E-07 9.6655-08 8.3225-00 4.7755-00 3.2493-08 1.096E-00 SE 70 1.605E-07 1.3935 07 1.1805-07 9.985E-00 8.6113-00 4.960s-08 3.387E-00 1.991E-00 SSE 60 1.0245-07 8.2365-00 6.827E-00 5.781E-00 4.907E-00 2.0795-08 1.965E-08 1.1533-08 8 59 4.690E-08 3.773E-00 3.1225-08 2.6355-08 2.2645-08 1.2903-08 8.741E-09 5.092E-09 SSW 106 1.0765-07 8.6173-08 7.119E-08 6.0003-08 5.167E-00 2.9563-08 2.003E-08 1.1593-00 SW 162 1.8415-07 1.466E-07 1.2065-07 1.0143-07 8.6925-08 4.9245-08 3.3038-00 1.000E-08 WSW 133 1.8915-07 1.5103-07 1.3605-07 1.150E-07 9.8652-08 5.0815-00 3.4223-08 1.970E-08 W 82 2.020E-07 1.6285-07 1.3515-07 1.1453-07 9.801E-08 5.6983-00 3.0963-08 2.303E-08 WNW 96 2.295E-07 1.8465-07 1.3903-07 1.175E-07 1.0123-07 5.0015-00 3.950E-00 2.3155 00 NW 127 3.001E-07 2.4073 07 1.9895-07 1.676E-07 1.440E-07 0.1903-0b 5.5525-08 3.2285-08 IEIW 92 3.0755-07 2.4795-07 2.060E-07 1.7485-07 1.5115-07 0.000E-08 6.0453-08 3.550E-00 AVERAGE 2014 2.2625-07 1.0195-07 1.5123-07 1.2795-07 1.1033-07 6.315E-08 4.304E 08 2.5213-00 DONNWIND NO. . DISTA80CE Frost RELEASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 196 3.0033-08 2.2535-08 1.795E-08 1.4025-08 1.2505-00 1.0003-08 9.4553-09 181B 206 3.1625-08 2.3003-08 1.9025-08 1.5755-00 1.3323-00 1.1525-08 1.0113-08 NE 167 2.5053 08 1.9628-08 1.5785-00 1.3145-00 1.1163-00 9.691E-09 8.5315-09 311E 134 2.0203-08 1.525E-08 1.2173-00 1.0075-00 8.5025-09 7.3443-09 6.4343-09 5 157 1.0023-00 1.4103-08 1.1325-00 9.380E-09 7.935E-09 6.0715-09 6.0323-09 ESE 07 1.3005-08 9.7548-09 7.7603-09 6.4145-09 5.4095-09 4.670E-09 4.009E-09 BE 70 1.3715-00 1.032E.00 8.2375-09 6.010E-09 5.764E-09 4.9875-09 4.375b-09 . SSE 60 7.9393-09 5.979E-09 4.777E-09 3.9565-09 3.3465-09 2.095E-09 2.540E-09 8 59 3.5013 09 2.6343-09 2.101E-09 1.7393-09 1.4725 09 1.2773-09 1.123E-09 SSW 106 7.9255-09 5.935E-09 4.7195-09 3.8933-09 3.2813-09 2.8325-09 2.479E-09 SW 162 1.2743-00 9.401E-09 7.5013-09 6.1635-09 5.1773-09 4.456E-09 3.893E-09 WSW 133 1.3433-00 1.0035-08 7.9653-09 6.564E-09 5.530E-09 4.7765-09 4.1033-09 W 32 1.5913-00 1.202E-00 9.6285-09 7.9933-09 6.7773-09 5.800E-09 5.1735 09 tEIN 96 1.591E-00 1.1963-00 9.5423-09 7.0935-09 6.6693-09 5.770E-09 5.0613-09 NW 127 2.200E-00 1.6543 00 1.315E-08 1.0055-00 9.1545 09 7.911E-09 6.9313-09 IEIW 92 2.4513-00 1.0445-00 1.4723 00 1.2173-08 1.0275-08 0.8535-09 7.7423-09 AVERAGE 2014- 1.733E-00 1.3035-00 1.040E-00 0.6015-09 7.2673-09 6.2833-09 5.509E-09 111

Tabb B-5 Undepleted x/O Factors for Reactor Building Vent PNPS 3RD QUAD NR 1998 MIERAL I/QSa GROUND-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEA ? M OUND-LEYFi M ydAGE CEI/O DEFORE DEPLETION (SPLIT-E NODEL) == (SEC/N3) D00AntIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 217 4.9215-05 1.451E-05 5.0273-06 2.7713-06 1.0098-06 9.8168-07 6.372E-07 4.583E-07 NME 630 9.2515-05 2.7465-05 9.3475-06 5.1555-06 3.3715-06 1.831E-06 1.190E-06 S.5612-07 NE 336 1.0145-04 2.9665-05 9.1613-05 4.9435-06 3.220E-06 1.8315-06 1.220E-06 9.0345-07 ENE 185 6.05ed-05 2.0035-05 6.3703-06 3.494E-06 2.290E-06 1.286E-06 8.5423-07 6.2415-07 E 152 5.2965-05 1.5533-05 5.011E-06 2.750E-06 1.812E-06 1.0075-06 6.633E-07 4.8225-07 383 97 3.215E-05 9.2793-06 3.096E-06 1.6998-06 1.1123 06 6.1553-07 4.054E-07 2.9485-07 SE 57 1.170E-05 3.4673-06 1.3243-05 7.2245-07 4.695E-07 2.5245-07 1.484E-07 1.0655-07 SSE 49 9.3025-06 2.7415-06 9.333E-07 4.588E-07 2.9003-07 1.6033-07 1.039E-07 7.4735-00 8 14 1.0312-06 2.027E-07 6.772E-08 3.4735-00 2.288E-08 1.271E 00 0.4198-09 6.1973 09 SSW 45 7.3313-06 2.1155-06 6.0295-07 3.2513-07 2.1333-07 1.1715-07 7.7045-00 5.616E-00 SW 40 1.1688-05 3.4723-06 1.1543-06 6.3045-07 4.0735-07 2.165E-07 1.3908-07 9.9153-00 WSW 115 2.0965-05 6.4695-06 2.0825-06 1.1128-06 7.1013 07 3.7203-07 2.3055-07 1.695E-07 W 100 2.2435-05 6.8743 06 2.1698-06 1.2095-06 8.310E-07 4.4155-07 2.578B-07 1.8373-07 NNW 42 1.2053-05 3.6093-06 1.2235-06 6.7465-07 4.4195-07 2.396E-07 1.7063 07 1.2255-07 NW 54 2.0235 05 6.037E-06 2.0075-06 1.1465-06 7.456E-07 4.0133-07 2.595E-07 1.0625-07 sent 44 1.0263-05 5.370E-06 1.9223-06 1.0675-06 6.9675-07 3.7575-07 2.420E-07 1.7403-07 AVERAGE 2193 3.3245-05 9.007E-06 3.224E-06 1.76BE-06 1.1535-06 6.339E-07 4.140E-07 2.999E-07 DOWNWIND No. DISTANCE FROM RELEASE POINT (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 217 3.5203-07 2.0298-07 2.3393-07 1.9735 07 1.6978-07 9.704E-00 6.5863 00 3.333E-08 leIE 638 6.5913-07 5.2888-07 4.3735-07 3.6943-07 3.1815-07 1.0265-07 1.2415-07 7.230E-05 NE 336 7.0405-07 5.7085-07 4.7675-07 4.0713-07 3.5363-07 2.0075-07 1.4475-07 8.685E-08 ENE 105 4.0503-07 3.9235-07 3.2605-07 2.7825-07 2.4125-07 1.4138-07 9.7425-08 5.0033-08 E 152 3.7393-07 3.0103-07 2.5103-07 2.1335-07 1.8465-07 1.076E-07 7.4035-08 4.3878-08 ISE 97 2.288E-07 1.0475-07 1.5353-07 1.303E-07 1.1363-07 6.5203-08 4.4763-00 2.649E-08 SE 57 0.1073-00 6.5595-00 5.9593-00 5.0255-00 4.310E-00 2.463E-08 1.6675-08 9.6603-09 SSE 49 5.7575-00 4.6213-08 3.0258-00 3.2323 00 2.7812-00 1.5943-08 1.083E-08 6.324E-09 8 14 4.8958-09 4.0175-09 3.389E-09 2.9163-09 2.530E-09 1.510E-09 1.074E 09 6.696E-10 SSW 45 4.3012-08 3.5555-00 2.9715-00 2.5335-00 2.195E-08 1.2918-08 S.9448-09 5.365E-09 SW 40 7.579E-08 6.0413-08 4.9658-05 4.165E-08 3.5635-00 1.9993-00 1.3305-08 7.6405-0D WSW 115 1.2095-07 1.0235-07 9.2338-08 7.7425-08 6.6215 08 3.3793-05 2.2575-00 1.200E-08 W 100 1.4005-07 1.1155-07 9.166E-00 7.7045-09 6.6035-00 3.7375-05 2.5103-00 1.435E-08 tant 42 9.4025-08 7.5305-00 5.6543-08 4.773E-08 4.1068-08 2.3545-08 1.5975-08 9.2592-09 NW 54 1.4305-07 1.1458-07 9.454E-00 7.970E-00 6.8513-00 3.9113-08 2.650E-00 1.5375-00 aant 44 1.3373-07 1.0705-07 8.0253-08 7.427E-00 6.3755-08 3.6195 08 2.4425-08 1.400E-00 AVERAGE 2193 3.3175-07 1.8653-07 1.552E-07 1.3155-07 1.135E-07 6.5475-08 4.477E-08 2.634E-00 D00mptIND 10 0 . DISTANCE FROM RELEASE POINT (NILES) SECTOR oss 20.00 25.00 30.00 34.95 40.00 45.00 50.00 , N 217 2.6262-08 1.9695-08 1.560E-08 1.2953-00 1.092E-08 9.434E-09 8.2643-09 MIIB 630 4.9575-08 3.7195-00 2.9625-08 2.446E-00 2.0645-08 1.7828-00 1.560E-08 NE 336 6.0525-00 4.5903-00 3.7023-08 1.084E-00 2.621E-00 2.273E-00 2.000E-08 EBIE 185 4.0245-09 3.0465-00 2.4443-6+ .031E-08 1.7215-00 1.4903-08 1.309E-00 3 152 3.0363-00 2.2933-00 1.0375-06 A.5243-08 1.2918-00 1.1173-00 9.798E-09 ESE 97 1.8315-00 1.3033-08 1.107E-00 9.1953 09 7.780E-09 6.7415-09 5.9213-09 SE 57 6.6145-09 4.960s-09 3.947E-09 3.2598-09 2.7513-09 2.3795-09 2.0068-09 SSE 49 4.356E-09 3.2015-09 2.620E-09 2.170E-09 1.037E-09 1.5935-09 1.4005-09 8 14 4.8178-10 3.745E-10 3.0605-10 2.505E-10 3.2275-10 1.960E-10 1.7453-10 SSW 45 3.7513-09 2.057E-09 2.300E-09 1.9173-09 1.6313-09 1.410E-09 1.250E-09 SW 48 5.1035-09 3.8615-09 3.0553-09 2.5135-09 2.1143-09 1.026E-09 1.5995-09 WSW 115- S.6815-09 6.4663-09 5.1178-09 4.2093-09 3.543E-09 3.060E-09 2.601E-09 W 100 9.7653 09 7.290E-09 5.781E-09 4.761E-09 4.0093-09 3.460E-09 3.030E-09 tant 42 6.330E-09 4.750E-09 3.7795-09 3.118E-09 2.6293-09 2.2685-09 1.905E-09 NW 54 1.0523-00 7.000E-09 6.2608-09 5.1725-09 4.3605-09 3.7643-09 3.296E-09 NNW 44 9.591E-09 7.160E-09 5.6795-09 4.675E-09 3.9335-09 3.392E-09 2.9673-09 AVERAGE 2193 1.016E-08 1.3683-08 1.0943-00 9.0653-09 7.6633-09 6.634E-09 5.8213-09 1 112

Tebb B-5 Undepleted x/O Factors for Reactor Building Vent PNPS 4TN QUAATER 1993 remt g/gge gaOUND-LEVEL *= SECTOR AVERAGE NODEL ENLOUND RELEASE GROUND-LEVEL AVERAGE CNI/O BEFORE DEPLETION (SPLIT-N NODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FR001 RELEASE POINT (NILES) SECTom 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 130 2.7173-05 8.004E-06 2.820E-06 1.5685-06 1.025E-06 5.540E-07 3.503E-07 2.571E-07 NME 247 4.1775-05 1.2453-05 4.2113-06 2.3012-06 1.496E-06 8.185E-07 5.350E-07 3.863E-07 NE 251 4.983E-05 1.460E-05 4.0195-06 2.655E-06 1.739E-06 9.6455 07 6.3463-07 4.607E-07 ENE 339 6.1995-05 1.8063-05 6.2743-06 3.4625-06 2.261E-06 1.232E-06 0.030E-07 5.794E-07 E 305 4.300E-05 1.262E-05 4.4573-06 2.443E-06 1.589E-06 0.568E-07 5.540E-07 3.985E-07 ESE 107 2.4673-05 7.4473-06 2.6335-06 1.435E-06 9.2863-07 4.9555-07 3.100E-07 2.276E-07 SE 140 1.9235-05 5.755E-06 2.072E-06 1.128E-06 7.292E-07 3.8813-07 2.4972-07 1.783E-07 SSE 58 5.838E-06 1.750E-06 6.1005-07 3.2695-07 2.1058-07 1.119E-07 7.217E-08 5.1688-08 8 43 5.0065-06 1.473E-06 4.7933-07 2.6115-07 1.693E-07 9.059E-08 5.8393-00 4.180E-08 SSW 84 8.6125-06 2.6853-06 8.536E-07 4.552E-07 2.913E-07 1.532E-07 9.785E-05 6.930E-08 SW 56 7.4263-06 2.3185-06 7.4573-07 3.9953-07 2.557E-07 1.3455-07 8.5883-05 6.0095-08 WSW 36 6.5583-06 2.0025-05 6.6205-07 3.5895-07 2.306E-07 1.2175-07 7.783E-00 5.520E-08 w 81 1.5355-05 4.710E-06 1.4755-06 8.907B*07 5.000E-07 3.1173-07 1.827E-07 1.305E-07 WNw 65 1.515E-05 4.565E-06 1.613E-06 B.8083-07 5.782E-07 3.103E-07 2.197E-07 1.5698 07 NW 99 2.0755-05 6.280E-06 2.3075-06 1.2628-06 8.1333-07 4.309E-07 2.760E-07 1.963E-07 NNw 64 2.0435-05 5.9765-06 2.118E-06 1.1815-06 7.7465-07 4.190E-07 2.7193-07 1.953E-07 AVERAGE 2184 2.3295-05 6.9103-06 2.385E-06 1.314E-06 8.5455-07 4.621E-07 2.998E-07 2.1545-07 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 130 1.976E-07 1.502E-07 1.3068-07 1.1003-07 9.449E-08 5.377E-08 3.634E-00 2.101E-00 NME 247 2.9733 07 2.386E-07 1.9743-07 1.6693-07 1.4385-07 8.271E-00 5.622E-08 3.276E-00 NE 251 3.566E-07 2.8745-07 2.3875-07 2.024E-07 1.750E-07 1.015E-07 6.955E-08 4.104E-08 ENE 339 4.471E-07 3.5923-07 2.9735-07 2.5115-07 2.162E-07 1.238E-07 8.419E-00 4.918E-08 E 305 3.0655-07 3.455E-07 2.020E-07 1.7093-07 1.468E-07 8.349E-08 5.647E-08 3.2743-08 ESS 107 1.7393-07 1.3873-07 1.1415-07 9.5903 08 8.220E-08 4.6473-08 3.120E-08 1.783E-00 SE 140 1.363E-07 1.0873 07 9.8403-00 8.2658-08 7.079E-08 3.626E-00 2.430E-08 1.386E-00 SSE SS 3.9603-00 3.166E-00 2.611r-00 2.200E-08 1.800E-08 1.072E-08 7.222E-09 4.154E-09 8 42 3.206E-08 2.5638-00 2.1135-08 1.770E-00 1.5245-00 0.616E-09 5.797E-09 3.3353-09 SSW 84 5.2553-08 4.1645-08 3.4113-08 2.8603-00 2.445E-08 1.3723-00 9.1373-09 5.1512-09 SW 56 4.613E-08 3.6545 00 2.9928 00 2.5075-00 2,142E-08 1.199E-08 7.9693-09 4.475E-09 WSW 36 4.2023-00 3.335E-08 3.0073-00 2.5173-05 2.150E-08 1.0925-08 7.269E-09 4.103E-09 W 81 9.9575-00 7.936E-08 6.532E-00 5.490E-08 4.720E-00 2.685E-08 1.005E-08 1.0295-08 WWW 65 1.2003-07 9.5695-08 7.150E-00 6.0173-08 5.160E-08 2.921E-08 1.965E-08 1.126E-00 NW 99 1.495k-07 1.1995-07 9.740E-08 0.1633-08 6.9763-00 3.901E-00 2.6005-08 1.471E-08 tasw $4 1.5045-07 1.205E-07 9.955E-00 3.3095-08 7.209E-08 4.1073-00 2.780E-08 1.6115-08 AVEPAGE 2104 1.6553-07 1.3253-07 1.0975-07 9.2445-08 7.946E-08 4.501E 08 3.0455 00 1.7635-08 DOWNwIMD NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 130 1.4333-00 1.0722-08 0.5003-09 7.010E-09 5.9025-09 5.09hE-09 4.455E-09 3RIE 247 2.246E-08 1.686E-08 1.344E-08 1.1113-00 9.379E-09 0.102E-09 7.100E-09 NE 251 2.8325-08 2.1353-00 1.700E-08 1.4153-08 1.197E-08 1.035E-08 9.000E-09 ENE 339 3.373E-08 3.532E-00 2.010E-08 1.66BE-08 1.400E-08 1.217E-00 1.067E-08 E 305 2.2405-08 1.6783-08 1.335E-00 1.102E-08 9.299E-09 0.041E-09 7.050E-09 ESE 187 1.211E-00 9.033E-09 7.1575-09 5.890E-03 4.956E-09 4.2763-09 3.743E-09 SE 140 9.410E-09 7.012E-09 5.551E-09 4.567E-09 3.842E-09 3.318E-09 2.9053-09 SSE 58 2.040E-09 2.128E-09 1.692E-09 1.398E-09 1.180E-09 1.0225-09 8.982E-10 8 42 2.276E-09 1.7032-09 1.3522-09 1.116E-09 9.4113-10 0.146E-10 7.140E-10 SSW 04 3.400E-09 2.595E-09 2.052E-09 1.6075 09 1,420E-09 1.2253-09 1.074E-09 SW 56 3.0193-09 2.240E-09 1.760E-09 1.4513-09 1.218E-09 1.050E-09 9.197E-10 WSW 36 2.7695-09 2.054E-09 1.621E-09 1.3305-09 1.116E-09 9.621E-10 0.412E-10 W 81 6.97BE-09 5.1943-09 4.1113-09 3.3773-09 2.835E-09 2.440E-09 2.130E-09 WWW 65 7.647E-09 5.690E-09 4.514E-09 3.7113 T. 3.119E-09 2.687E-09 2.348E-09 Nw 99 9.9133-09 7.3533-09 5.000E-09 4.755E-09 3.988E-09 3.4345-09 3.000E-09 Inew 64 1.0933-08 8.219E-09 6.527E-09 5.378E-09 4.5283-09 3.906E-09 3.416E-09 AVERAGE 2104 1.2043-08 9.016E-09 7.1693-09 5.914E-09 4.9065-09 4.306E-09 3.771E-09 113

Table B-5 Undepleted x/O Factors for Reactor Building Vent PNPS 1938 mut E/OS: GaOuMD-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEASE GROUND-LE/EL AVERAGE CEI/O DEPORE DEPLETION (SPLIT-3 MODEL) -- (SEC/N3) DONNNIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 694 4.086E-05 1.2013-05 4.150E-06 2.295E-06 1.5023-06 8.174E-07 5.311E-07 3.823E-07 NME 1408 5.830E-05 1.725E-05 5.856E-06 3.221E-06 2.1033-06 1.149E-06 7.496E-07 5.4093-07 NE 875 5.569E-05 1.629E-05 5.181E-06 2.818E-06 1.8385-06 1.0343-06 6.880E-07 5.033E-07 ENE 765 4.822E-05 1.410E-05 4.704E-06 2.5943-06 1.699E-04 9.383E-07 6.160E-07 4.466E-07 l E 803 4.114E-05 1.206E-05 4.1065-06 2.256E-06 1.474E-06 8.052E-07 5.254E-07 3.794E-07 j ESE 550 2.719E-05 7.9885-06 2.773E-06 1.5245-06 9.932E-07 5.3925-07 3.5053-07 2.524E-07 j SE 456 2.0183-05 5.952E-06 2.1233-06 1.165E-06 7.5645-07 4.066E-07 2.6285-07 1.885E-07 4 SSE 244 1.007E-05 2.952E-06 1.027E-06 5.609E-07 3.649E-07 1.971E-07 1.2793-07 9.205E-08 ) 8 199 5.709E-06 1.6585-06 5.372E-01 2.933E-07 1.908E-07 1.025E-07 6.624E-08 4.755E-08 i SSW 435 1.275E-05 3.0393-06 1.202E-06 6.5053 07 4.212E-07 2.253E-07 1.4548-07 1.041E-07 i SW 445 1.567E-05 4.790E-06 1.5523-06 8.432E-07 5.440E-07 2.888E-07 1.052E-07 1.318E-07 WSW 377 1.667E-05 5.0745-06 1.6305-06 8.8433-07 5.680E-07 3.007E-07 1.9313-07 1.376E-07 W 366 2.125E-05 6.390E-06 2.0093 06 1.200E-06 7.754E-07 4.100E-07 2.464E-07 1.769E-07 NNW 248 1.626E-05 4.8063-06 1.674E-06 9.223E-07 4.0173-07 3.263E-07 2.328E-07 1.674E-07 MW 319 2.3145-05 6.8433-06 2.441E-06 1.3448-06 8.740E-07 4.699E-07 3.036E-07 2.176E-07 NNW 288 2.466E-05 7.236E-06 2.492E-06 1.3943-06 9.190E-07 5.017E-07 3.259E-07 2.3465-07 AVERAGE 8472 2.7373-05 8.078E-06 2.717E-06 1.498E-06 9.164E-07 5.325E-07 3.469E-07 2.502E-07 DONNWIND NO. DISTANCE FRON RELEASE POINT (MILES) SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 694 2.9455-07 2.3643-07 1.9555-07 1.650E-07 1.420E-07 8.133E-08 5.524E-08 3.217E-08 NME 1408 4.170E-07 3.350E-07 2.773E-07 2.344E-07 2.020E-07 1.162E-07 7.9092-08 4.620E-08 j NE 875 3.911E-07 3.1643-07 2.6365-07 2.2445-07 1.946E-07 1.140E-07 7.864E-08 4.6895-08 ENE 765 3.456E-07 2.784E-07 2.3115 07 1.958E-07 1.691E-07 9.7895-08 6.6993-08 3.9465-08 E 803 2.928E-07 2.3545-07 1.950E-07 1.649E-07 1.4212-07 8.172E-08 5.5675-08 3.259E-08 ESE 550 1.9443-07 1.560E-07 1.290E-07 1.089E-07 9.365E-08 5.3563-08 3.634E-08 2.115E-08 SE 456 1.4473-07 1.158E-07 1.051E-07 8.844E-08 7.590E-08 3.913E-00 2.6393-08 1.522R-08 SSE 244 7.0895-08 5.6883-08 4.703E-08 3.9695-08 3.4135-08 1.950E-08 1.322E-08 7.6943-09 i s 199 3.659E-00 2.933E-00 2.4235-00 2.0415-08 1.752E-08 9.945E-09 6.719E-09 3.893E-09 I SSW 435 7.970E-08 6.370E-08 5.253E-08 4.427E-08 3.8013-00 2.164E-08 1.461E-08 8.421E 09 SW 445 1.004E-07 7.981E-08 6.552E-08 5.497E-08 4.7055-08 -2.647E-08 1.769E-08 1.003E-08 WSW 377 1.050E-07 8.360E-08 7.556E-08 6.344E-08 5.432E-08 2.783E-08 1.8653-08 1.064E-08 W 366 1.3563-07 1.0845-07 8.942E-08 7.5373-08 6.477E-08 3.690E-08 2.493E-08 1.441E-08 WWW 248 1.287E-07 1.0315-07 7.743E-08 6.530E-08 5.615E-08 3.2053-08 2.171E-08 1.260E-08 i NW 319 1.670E-07 1.3363-07 1.101E-07 9.266E-08 7.952E-08 4.509E-06 3.0415-08 1.754E-08 , MNW 288 1.009E-07 1.452E-07 1.2023-07 1.0153-07 8.737E-08 5.014E-08 3.408E-08 1.984E-08 l AVERAGE 8472 1.920E-07 1.548E-07 1.286E-07 1.087E-07 9.364E-08 5.334E-08 3.627E-00 2.117E-08 DONNWIND NO. D1 STANCE FROM RELEASE POINT (MILES) SECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 694 2.205E-08 1.653E-08 1.316E-08 1.087E-08 9.169E-09 7.919E-09 6.935E-09 NME 1408 3.1723-00 2.383E-08 1.900E-08 1.570E-08 1.3262-08 1.146E-08 1.004E-08 NE 875 3.254E-00 2.4655-08 1.980E-08 1.6465-08 1.396E-08 1.210E-08 1.063E-08 RNE 765 2.719E-00 2.049E-08 1.638E-08 1.356E-08 1.147E.00 9.916E-09 8.6962-09 E 803 2.241E-08 1.685E-08 1.345E-08 1.112E-08 9.4005 09 8.1303-09 7.130E-09 ESE 550 1.449E-08 1.087E-08 8.658E-09 7.1535-09 6.037E-09 5.219E-09 4.575E-09 SE 456 1.0385-08 7.762E-09 6.1633-09 5.000E-09 4.2813-09 3.6983-09 3.240E-09 SSE 244 5.278E-09 3.9632-09 3.158E-09 2.611E-09 2.20$E-09 1.909E-09 1.675E-09 8 199 2.666E-09 2.000E-09 1.592E-09 1.3152-09 1.111E-09 9.627E-10 8.456E-10 SSW 435 5.750E-09 4.314E-09 3.430E-09 2.831E-09 2.389E-09 2.066E-09 1.812E-09 SW 445 6.784E-09 5.042E-09 3.985E-09 3.272E-09 2.749E-09 2.368E-09 2.071E-09 WSW 377 7.226E-09 5.387E-09 4.268E-09 3.512E-09 2.956E-09 2.552E-09 2.2358-09 W 366 9.844E-09 7.371E-09 5.863E-09 4.830E-09 4.0012-09 3.526E-09 3.090E-09 WWW 248 8.615E-09 6.4535-09 5.133E-09 4.235E-09 3.571E-09 3.084E-09 2.700E-09 NW 319 1.196E-08 8.932E-09 7.089E-09 5.8393-09 4.917E-09 4.244E-09 3.715E-09 NNW *16 1.358E-08 1.0185 08 8.095E-09 6.6773-09 5.625E-09 4.851E-09 4.242E-09 AVERAGE 8472 1.453E-08 1.091E 08 8.7013-09 7.193E-09 6.074E-09 5.250E-09 4.602E-09 114

Table B-6 Depleted x/O Factors for Reactor Building Vent PNPS 1ST QUARTER 1993 mmeran E/08: GROUND-LEVEL -- SECTOR AVERACE NODEL GROUND RELEASE GROUND-LEVEL AVERAGE CNI/O AFTER DEPLETION (REGULATORY GUIDE 1.111 DEPLETION NODEL) == (SEC/N3) DONNWIND NO. DISTANCE FRON RELEASE POINF (NILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 151 3.1545-05 9.1105-06 2.900E-06 1.6043-06 1.0333-06 5.503E-07 3.491E-07 2.4643-07 NME 237 3.9613 05 1.136E-05 3.7615-0G 2.030E-06 1.308E-06 6.959E-07 4.413E-07 3.115E-07 NE 121 2.3063-05 6.9205-06 2.2045-06 1.195E-06 7.752E-07 4.1615-07 2.6473-07 1.072E-07 BME 107 2.3225 05 6.7355-06 2.1943-06 1.1883-06 7.677E-07 4,06es-07 2.500E-07 1.0245-07 E 109 3.1983-05 9.2575-06 3.1525-06 1.6983-06 1.090E-06 5.7323-07 3.6083-07 2.5325-07 ESE 179 2.6965-05 7.8023-06 2.700E-06 1.4443-06 9.2093-07 4.815E-07 3.026E-07 2.121E-07 BE 189 2.7165-05 7.914E-06 2.0093-06 1.5053-06 9.590E-07 4.96tE-07 3.1025 07 2.164E-07 SSE 77 1.1413 05 3.225E-06 1.1485-06 6.209E-07 3.9853-07 2.085E-07 1.300E-07 9.174E-08 8 84 9.4725-06 2.723E-06 S.686E-07 4.6602-07 2.981E-07 1.5545-07 9.7403-08 6.820E-00 SSW 200 1.842E-05 5.521E.06 1.711E-06 8.968E-07 S.667E-07 2.9145-07 1.016E-07 1.265E-07 BW 179 1.5503-05 4.7065-06 1.4925-06 7.8593-07 4.9555-07 2.535E*07 1.573E-07 1.090E-07 WBW 93 9.9045-06 2.9803-06 9.346E 07 4.0985-07 3.083E-07 1.5783-07 9.842E-00 6.856E-08 W 103 1.5525-05 4.6655-06 1.460E-06 8.560E-07 5.443E-07 2.8165-07 1.595E-07 1.110E-07 NNW 45 9.3105-06 2.7393-06 9.320E-07 4.900E-07 3.175E-07 1.6683 07 1.156E-07 8.112E-08 NW 39 1.0783-05 3.1375-06 1.0005-06 5.836E-07 3.750E-07 1.9655-07 1.233E-07 8.631E-08 NNW 80 1.0225-05 5.220E-06 1.8383-06 9.9745-07 6.409E-07 3.3575-07 2.106E-07 1.4755-07 AVERAGE 2001 2.0185-05 5.877E-06 1.9545-06 1.054E-06 6.7493-07 3.5445-07 2.226E-07 1.562E-07 DONNWIND NO. DISTANCE FROM RELEASE POINF (NILES) SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 151 1.8685-07 1.4773-07 1.2065-07 1.007E-07 8.5755-00 4.637E-05 3.00SE-08 1.634E-08 HME 237 2.3643-07 1.070E-07 1.527E-07 1.274E-07 1.005E-07 5.858E-08 3.0005-00 2.066E-08 ME 121 1.421E-07 1.1253-07 9.190E-08 7.697E-08 6.b66E-08 3.5768-00 2.329E 00 1.2705-08 ENE 107 1.3825-07 1.0925-07 8.910E-00 7.4405-08 6.3333 00 3.426E-00 2.223E-00 1.207E-08 E 109 1.913E-07 1.5083-07 1.236E-07 1.020E-07 0.6595-00 4.630E-00 2.981E-08 1.6023-08 ESE 179 1.6005-07 1.260E-07 1.0233-07 8.5032-08 7.205E-00 3.83JE-00 2.460E-08 1.319E-08 SE 109 1.637E.07 1.2763-07 1.137E-07 9.4193-08 7.96tE-08 3.8165-00 2.433E-00 1.290E-08

 $$E       77   6.9395-08   5.471E-04. 4.4475-08      3.692E-08  3.1275-08  1.6595-0s    1.0643-08 5.712E-09 8         84   5.1448-04   4.0495-08   3.209E-05     2.7313-08  2.3123 08  1.2273-08    7.856E-09 4.195E-09 SSW      200   9.466E-00   7.413E-08    6.0015 00    4.9763-08  4.2075-05  2.2265-00    1.419E-08 7.500E-09 SW       179   B.1263-00   6.338E-08    5.1135 00    4.2255-08  3.5635-08  1.860E-08    1.182E-08 6.171E-09 WSW       93   5.1333-08   4.0193-08   3.5785-08     2.9653-08  2.5065-08  1.204E-00    7.656E-09 4.0323-09 W        103   8.304E-08   6.4975-08    5.2553-08    4.353E-08  3.6805-08  1.9455-08    1.2385-08 6.523E-09 WWW       45   6.1075-08   4.802E-08   3.545E-OF     2.94BE-00  2.500E-08  1.334E-00    B.5513-09 4.5632-09 NW        39   6.5053-08   5.1185-08   4.1575-08     3.453E 00  2.9275-08  1.559E-08    1.0005-08 5.339E-09 NNW       SS   1.1135-07   0.764E-00   7.119E-08     5.910E-00  5.005E-00  2.659E-00    1.705E-08 9.122E-09 AVERAGE 2081   1.1795-07   9.295E-08   7.6135-08     6.3335-00  5.373E-08  2.8413-08    1.028E.00 9.015E-09 DOWWWIND  NO.                DISTANCE FRoet RELEASE POINT (NILES)

SECTOR oss 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 151 1.0465-08 7.410E-09 5.6305-09 4.460E-09 3.622E-09 3.0263-09 2.5693-09 NME 237 1.3225-08 9.3743 09 7.113E-09 5.633E-09 4.574E-09 3.821E 09 3.244E-09 NE 121 8.1393-09 5.7753-09 4.387E-09 3.475E-09 2.821E-09 2.3545-09 1.9978-09 ENE 107 7.7243-09 5.473E-09 4.1523-09 3.2073-09 2.6673-09 2.226E-09 1.8085-09 i E 189 1.019E-08 7.194E-09 5.4393-09 4.296E-09 3.480E-09 2.9053-09 2.464E-09 ' ESE 179 B.384E-09 5.914E-09 4.469E-09 3.530E-09 2.8613-09 2.390E-09 2.0295-09 l SE 189 8.146E-09 5.71BE-09 4.304E-09 3.300E-09 2.730E-09 2.284E-09 1.9353-09 SSE 77 3.629E-09 2.5583-09 1.9323-09 1.525E-09 1.235E-09 1.0323-09 8.759E-10  ; 5 St 2.6615-09 1.8743-09 1.414E-09 1.116E-09 9.035E-10 7.540E-10 6.406E-10 ' SSW 200 4.740E-09 3.341E-09 2.519E-09 1.987E-09 1.609E-09 1.344E-09 1.141E-09 SW 179 3.874E-09 2.7005-09 2.031E-09 1.595E-09 1.287E-09 1.0715-09 9.072E-10 WSW 93 2.544E-09 1.786E-09 1.343E-09 1.0583-09 8.553E-10 7.175E-10 6.052E-10 W 103 4.110E-09 2.000E-09 2.165E-09 1.702E-09 1.373E-09 1.143E-09 9.671E-10 WWW 45 2.893E-09 2.0365-09 1.5373-09 1.213E-09 9.816E-10 8.1865-10 6.939E-10 MW 39 3.384E-09 2.3015-09 1.7962-09 1.4165-09 1.145E-09 9.541E-10 8.082E-10 NNW SS 5.782E-09 4.0692-09 3.0695-09 2.4195-09 1.9565-09 1.632E-09 1.382E-09 AVERAGE 2001 6.244E-09 4.4063-09 3.3312-09 2.6313-09 2.132E-09 1.779E-09 1.509E-09 l 115

Table B-6 Depleted x/O Factors for Reactor Building Vent PNPS 2ND QUARTEE 1990 m m t. X/QSs GROUND-LEVEL -* SECTOR AVERAGE MODEL GROUND RELEASE INIOUND-LEVEL AVERAGE CNZ/Q AFTER DEPLETION (REGULATORY GUIDE 1.111 DEPLETION MODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 196 5.309E-05 1.5355-05 5.0705-06 2.743E-06 1.771E-06 9.3923-07 5.9345-07 4.177E-07 NME 286 5.5095-05 1.594E-05 5.154E-06 2.7525-06 1.7655-04 9.446E-07 6.0225 07 4.264E-07 NE 167 4.264E-05 1.2205-05 3.749E-06 1.9653-06 1.252E-06 6.962E-07 4.450E-07 3.1975-07 EME 134 3.490E-05 1.003E-05 3.2525-06 1.760E-06 1.1393-06 6.0943-07 3.0723-07 2.7373-07 E 157 3.3275-05 9.5725-06 3.1275-06 1.6673-06 1.069E-06 5.6065-07 3.5135-07 2.5545-07 ESE 07 2.200E-05 6.5005-06 2.1825-06 1.185E-06 7.6725-07 4.066E-07 2.566E-01 1.806E-07 88 70 2.1425-05 6.0925-06 2.210E-06 1.1913 06 7.6795-07 4.101E-07 2.371E-07 1.670E-07 SSE 60 1.5478-05 4.493E-06 1.4455-05 7.0005-07 4.4955-07 2.3935-07 1.520E-07 1.074E-07 8 59 7.796E-06 2.2125-06 6.2525 07 3.3193-07 2.1275-07 1.114E-07 7.014E-00 4.932E-00 SSW 106 1.5995-05 4.5035-06 1.4075-06 7.5645-07 4.0725-07 2.5663-07 1.615E-07 1.133E-07 SW 162 2.7543-05 8.3043-06 2.535E 06 1.351E-06 8.6228-07 4.4843-07 2.8035-07 1.9553-07 WSW 133 2.054E-05 S.4425-06 2.5035-06 1.3025-06 8.7925-07 4.5685-07 2.8608-07 1.9998-07 W S2 3.0575 05 0.7493-06 2.5963-06 1.5013-06 9.5262-07 5.1025-07 2.972E-07 2.112E-07 WNW 96 2.7863-05 7.9305-06 2.654E-06 1.4295-06 9.1945 07 4.085E-07 3.4063-07 2.404E-07 MW 127 3.9775-05 1.1393-05 3.907E-06 2.1065-06 1.351E-06 7.1135-07 4.484E-07 3.1533-07 NNW 92 4.0683-05 1.179E-05 3.669E-06 2.0205-06 1.326E-06 7.1535-07 4.5405-07 3.216E-07 AVERAGE 2014 3.1095-05 S.9093-06 2.007E-06 1.353E-06 9.9015-07 5.3145-07 3.3595-07 2.3725-07 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 196 3.163E-07 2.4995-07 2.0385-07 1.7005-07 1.4465-07 7.796E-08 5.0495-08 2.735E-08 IssE 306 3.2365-07 2.562E-07 2.0933-07 1.7513-07 1.4923-07 0.0943-04 5.262E 00 2.069E-08 NE 167 2.445E-07 1.9403-07 1.600E-07 1.344E-07 1.1545-07 6.351E-08 4.176E-08 2.3215 08 ENE 134 2.0775-07 1.6455-07 1.3445-07 1.124E-07 9.577E-00 5.1993-08 3.3813-08 1.0425-00 3 157 1.9383-07 1.5345-01 1.2533-07 1.0473-07 8.9175 00 4.0243-00 3.1335-00 1.7073-00 BSE 07 1.3605-07 1.0023-07 0.0213-08 7.3575-08 6.2575-08 3.3745-00 2.186E-08 1.184E-00 SR 70 1.276E-07 1.0125-07 9.0943-00 7.6015-08 6.4143-08 3.5055-00 2.2705-00 1.2443-00 SSE 60 0.144E-00 6.4443-08 5.3633-00 4.4013-00 3.750E-00 2.034E-00 1.3225 00 7.200E-09 3 59 3.7363 00 2.9523-00 2.4075-00 2.006E-00 1.7028-08 9.1135-09 5.0013-09 3.1015-09 SSW 106 0.5535-08 6.7425-00 5.400E-08 4.5743-08 3.0055-00 2.009E-00 1.3473-08 7.240E-09 SW 162 1.4643-07 1.1473-07 9.294E 00 7.7153-08 6.535E 08 3.4793-00 2.2225 00 1.174E-08 WSW 133 1.503E-07 1.1815-07 1.054E-07 0.7553-08 7.4175-00 3.5905-00 2.302E-00 1.230E-08 W S2 1.4065-07 1.2745-07 1.0415-07 9.713E-00 1.4295-08 4.0263-00 2.6215-00 1.4393-00 WNW 96 1.0253-07 1.444E-07 1.0723-07 8.942E-08 7.606E-08 4.0995-05 2.6575-08 1.446E-08 NW 127 2.3065-P7 1.0035-07 1.533E-07 1.2765-07 1.0035-07 5.7923-08 3.735E-08 2.0163-00 lent 92 2.4453-07 1.940E-07 1.500E-07 1.3313-07 1.136E-07 6.223E-08 4.0663-08 2.223E-00 AVERAGE 2014 1.7993-07 1.423E-07 1.166E-07 9.7303-08 8.2918-08 4.4623 00 2.895E-00 1.5755-08 DOWNWIIID MO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 196 1.7483-08 1.2375-00 9.379E-09 7.420E-09 6.019E-09 5.0245-09 4.2625-09 ' IS8B 286 1.8413 00 1.307E-08 9.9385-09 7.084E-09 6.410E-09 5.360E-09 4.555E-09 PR 167 1.5055-08 1.0775-00 8.245E-09 6.578E-09 5.3743-09 4.5095-09 3.0465-09 381B 134 1.1813-08 8.3765-09 6.361E-09 5.040E-09 4.093E-09 3.417E-09 2.900E-09 E 157 1.0965-00 7.705E-09 5.910E-09 4.696E-09 3.0203-09 3.197E-09 2.7198-09 ESE 87 7.5678-09 5.3563-09 4.0595-09 3.2115-09 2.604E-09 2.1733-09 1.843E.09 SE TO 1.9783-09 5.665E-09 4.305E-09 3.4135-09 2.774E-09 2.320E-09 1.972E-09 SSE 60 4.6218-09 3.2033-09 2.496E-09 1.980E-09 1.610E-09 1.3473-09 1.1453-09 3 59 2.0303-09 1.4463-09 1.090E-09 0.706E-10 7.084E-10 5.942E-10 5.063E-10 4 SSW 106 4.6135-09 3.2595-09 2.4665-09 1.9493-09 1.579E-09 1.310E-09 1.110E-09 SW 162 7.4173-09 5.2073-09 3.9205-09 3.00$E-09 2.492E-09 2.0743-09 1.7553-09 WSW 133 7.8153-09 5.510E-09 4.1633 09 3.2063-09 2.662E-09 2.222E-09 1.0055-09 W 82 9.2645-09 6.6013-09 5.031E-09 4.0025-09 3.262E-09 2.736E-09 2.3323-09 WWW 96 9.2622-09 6.5695-09 4.987E-09 3.951E-09 3.210E-09 2.685E-09 2.2815-09 Int 127 1.2053-00 9.001E-09 6.0743-09 5.434E-09 4.406E-09 3.6815-09 3.124E-09 j 3EIN 92 1.4263-08 1.0125-00 7.6933-09 6.093E-09 4.9433-09 4.1195-09 3.490E-09 AVERAGE 2014 1.0095-08 7.155E-09 5.433E-09 4.306E-09 3.499E-09 2.924E-09 2.4833-09 i 116

1 Il

                                                    ' Table B-6 1

Depleted x/Q Factors for Reactor Building Vent 1 PNPS 3RD QUARTER 1998 GM m f- 3/088 GROUND-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEASE ' OROUND-LEVEL AVERAGE CNI/O AFTER DEPLETION (REGULATORY GUIDE 1.111 DEPLETION MODEL) -- (SEC/N3) DONMWIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR DES .12 .25 .50 .75 ] 1.00 1.50 2.00 2.30 i N 217 4.7463-05 1.3705-05 4.5943-06 2.4705-06 1.586E-06 8.3693-07 5.270E-07 3.711E-07 NME 638 8.922E-05 2.609E-05 0.5433-06 4.524E-06 2.9553-06 1.561E-06 9.8553-07 6.9313-07 NE 336 9.7833-05 2.8175-05 0.3735-06 4.405E-06 2.0235-06 1.5613-06 1.0185-05 7.314E-07 BNR 185 6.6105-05 1.9023-05 5.0303-06 3.1145-06 2.000E-06 1.096E-06 7.0758-07 5.052E-07 E 152 5.1075-05 1.4758-05 4.5003-06 2.4583-06 1.5093-06 8.583E-07 5.4943-07 3.904E-07 BSE 97 3.100E-05 3.014E-06 2.8295-06 1.514E-06 9.746E-07 5.2473-07 3.358E-07 2.307E-07 i EE 57 1.120E-05 3.293E-06 1.210E-06 6.437E-07 4.117E-07 2.1515-07 1.2293-07 8.6245-08 SSE 49 8.971E-06 2.604E 06 8.530E-07 4.0098-07 2.6125-07 1.3673-07 8.606E-00 6.0508-00 8 14 9.9473-07 2.6055-07 6.109E-08 3.095E-00 2.006E-08 1.0848-00 6.974E-09 5.0173-09 SWW 45 7.0703-06 2.0098-06 5.5103-07 2.897E-07 1.070E-07 9.900E-00 6.3015-08 4.546E-00 SW 40 1.1263-05 3.290E-06 1.0555-06 5.610E-07 3.571E-07 1.0465-07 1.1512-07 8.027E-08 WSW 115 2.0215-05 6.1455 1.9033-06 9.914E-07 6.226E-07 3.178E-07 1.976E-07 1.372E-07 W 100 2.163E-05 6.530E-06 1.9835-06 1.1493-06 7.285E-07 3.7645-07 2.135E-07 1.487E-07 WNW 42 1.1623-05 3.4285-06 1.1198-06 6.012E-07 3.874E-07 2.043E-07 1.4145-07 9.9145-00 MW 54 1.951E-05 5.7343-06 1.9073-06 1.0215-06 6.536E-07 3.421E-07 2.1493-07 1.507E-07 MMW 44 1.7613-05 5.1095-06 1.757E-06 9.506E-07 6.100E-07 3.2032-07 2.0115-07 1.4098-07 AVERAGE 2193 3.2053-05 9.3153-06 2.9473-06 1.575E-06 1.0113-06 5.4043-07 3.4295-07 2.4233-07 DONWWIND NO. DISTANCE PROM RELEASE POIrf (NILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 217 2.806E-07 2.2145-07 1.003E-07 1.502E-07 1.276E-07 6.0575-08 4.430E-00 2.394E-08 j NME 638 5.2415-07 4.1373-07 3.371E-07 2.812E-07 2.3913-07 1.290E-07 0.3505-08 4.5165-08 j NE 336 5.598E-07 4.466E-07 3.674E-07 3.0993-07 2.660E-07 1.475E-07 9.732E-08 5.4253-00 i BME 185 3.8575-07 3.0692-07 2.5195-07 2.118E-07 1.8135 07 9.980E-08 6.554E-05 3.625E-08 E 152 2.973E-07 2.3615-07 1.9355-07 1.6233-07 1.3085-07 7.6065-08 4.980E-00 2.740E-08 ESE 97 1.019E-07 1.4453-07 1.183E-07 9.918E-08 8.4645-08 4.6123-08 3.0113-08 1.6543-08 EE 57 6.5105-08 5.1315-08 4.594E-00 3.8252-00 3.2473-08 1.740E-08 1.122E-00 6.0345-09 SEE 49 4.5775-00 3.6153-08 2.9408-08 2.460E-00 2.091E-08 1.1265-08 7.288E-09 3.950E-09 8 14 3.0923-09 3.143E-09 2.6135-09 2.220E-09 1.9005-09 1.072E-09 7.2233-10 4.103E-10 SSW 45 3.404E-00 2.782E-GS 2.290E-08 1.9283-00 1.6513-08 9.1215-09 6.0175-09 3.3515-09 SW 48 6.0273-00 4.7263-08 3.827E-08 3.170E-08 2.6795-08 1.4138-08 9.0035-09 4.772E-09 WSW 115 - 1.025E-07 8.007E-08 7.1173-08 5.8935-08 4.9783-00 2.3005-08 1.5185-08 7.996E-09 W 100 1.1145-07 8.7233-08 7.066E-05 5.965E-08 4.9655-00 2.640E-08 1.609E-00 0.964E-09 WNW 42 7.476E-00 5.8915-08 4.3595-08 3.6335-08 3.0873-08 1.663E-00 1.074E-08 5.7843-09 4 NW 54 1.137E-07 8.9593-08 7.2885-08 6.0673-08 5.151E-0B 2.763E-08 1.783E-00 9.603E 09 NMW 44 1.063E-07 8.3715-08 6.8035-00 5.6545-08 4.793E-00 2.557E-08 1.643E-08 8.7978-09 AVERAGE 2193 1.842E-07 1.4595-07 1.196E-07 1.0015-07 8.5365-00 4.6263-04 3.0125 08 1.645E-03 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 217 1.520E-08 1.001E-08 8.1923-09 6.480E-09 5.257E-09 4.3893-09 3.125E-09 NME 638 2.005E-08 2.042E-08 1.540E-08 1.225E-08 9.933E-09 s.290E-09 7.032E-09 NE 336 3.5235-08 2.525E-08 1.934E-08 1.5443-00 1.261E-08 1.058E-00 9.015E-09 ENE 105 2.343E-08 1.673E-00 1.2778-08 1.0175-00 8.206E-09 6.935E-09 5.900E-09 E 152 1.767E-08 1.3593-08 9.602E-09 7.6312-09 6.2123-09 5.195E-09 4.4175-09 ESE 97 1.066E-00 1.5933-09 5.786E-09 4.598E-09 3.745E-09 3.1363-09 2.669E-09 SE 57 3.850E-09 2.724E-09 2.063E-09 1.6323 09 1.324E-09 1.107E-09 9.403E-10 SSE 49 2.535E-09 1.0023-09 1.369E-09 1.006E-09 8.8425-10 7.410E-10 6.3112-10 8 14 2.004E-10 2.0573-10 1.5992-10 1.294E-10 1.072E-10 9.1103-11 7.8715-11 1 SSW 45 2.184E-09 1.5693-09 1.202E-09 9.599E-10 7.852E-10 6.6005-10 5.6375-10 SW 40 3.0173-09 2.1205-09 1.5975-09 1.2585-09 1.018E-09 8.496E-10 7.207E-10 j WSW 115 5.0533-09 3.5513-09 2.674E-09 2.107E-09 1.7053-09 1.424E-09 1.200E-09 l W 100 5.684E-09 4.0038-09 3.021E-09 2.3835-09 1.9303-09 1.610E-09 1.366E-09 l I WNW 42 3.689E-09 2.6083-09 1.975E-09 1.561E-09 1.2652-09 1.055E-09 0.947E-10 NW 54 6.1233-09 4.3273-09 3.276E-09 2.5892-09 2.099E-09 1.751E-09 1.406E-09 MWW 44 5.583E-09 3.932E-09 2.968E-09 2.3403 09 1.893E-09 1.578E-09 1.337E-09 AVERAGE 2193 1.0575-08 7.515E-09 5.7135-09 4.530E-09 3.691E-09 3.087E-09 2.6243-09 117 1 1

Table B-6 Depleted x/O Factors for Reactor Building Vent PNFS 47H QUARTER 1990 mmm. E/Qs: GRouMD-LEVEL -- sector AVERAGE NoDEL GROUND RELEASE GROUND-LEVEL AVERAGE CEI/O AFTER DEPLETION (REGULATORY GUIDE 1.111 DEPLETION NODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTom 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 130 2.620E-05 7.602E-06 2.5053-06 1.3975-06 8.9895-07 4.723E-07 2.968E-07 2.081E-07 NME 247 4.0285 05 1.1835-05 3.8495-06 2.050E-06 1.3125-06 6.978E-07 4.432E-07 3.1273-07 NE 251 4.0053-05 1.387E-05 4.405E-06 2.366E-06 1.525E-06 S.223E-07 5.2573-07 3.730E-07 EME 339 5.9693-05 1.715E-05 5.7345-06 3.006E-06 1.982E-06 1.0513-06 6.6523 07 4.690E-07 E 305 4.1473-05 1.199E-05 4.074E-06 2.177E-06 1.393E-06 7.304E-07 4.596E-07 3.226E-07 BSE 187 2.3795-05 7.0745-06 2.4073-06 1.2783-06 8.141E-07 4.224E-07 2.6413-07 1.843E-07 SE 140 1.8553-05 5.4665-06 1.894E-06 1.0063-06 6.393E-07 3.309E-07 2.0683-07 1.444E-07 BER 58 5.630E 1.662E-06 5.575E-07 2.913E-07 1.045E-07 9.536E-08 5.9783-00 4.184E-00 j 8 42 4.8273-06 1.3995-06 4.3815-07 2.326E-07 1.485E-07 7.7233-08 4.8375-08 3.3045-08 j SSW 04 0.305E-06 2.5513-06 7.002E-07 4.0575-07 2.5548-07 1.306E-07 0.106E-08 5.617E-00 , F1 56 7.142E-06 2.1983-05 6.015E-07 3.560E-07 2.2423-07 1.146E-07 7.114R-08 4.9333-08 j WSW 36 6.324E-06 1.902E-05 6.0512-07 3.198E-07 2.022E-07 1.030E-07 6.447E-00 4.475E-08 W $1 1.481E-05 4.474E-06 1.340E-06 7.930E-07 5.00$E-07 2.657E-67 1.513E-07 1.056E-07 WNW 65 1.461E 05 4.3363-06 1.474E-06 7.921E-07 5.0693-07 2.6445-07 1.019E-07 1.270E-07 MW 99 2.001E-05 5.9653-06 2.1093-06 1.124E-09 7.1313-07 3.673E-07 2.2063-07 1.5893-07 NNW 64 1.970E-05 5.676E-06 1.9368-06 1.0533-06 6.791E-07 3.5795-07 2.252E-07 1.581E-07 AVERAGE 2184 2.246E-05 6.5723-06 2.100E-06 1.1713-06 7.4913-07 3.9405-07 2.4833-07 1.7443-07 DOWNWIND NO. DISTANCE FRON RELEASE POINT (NILES) SECTOR 038 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 130 1.571E-07 1.230E-07 1.0075-07 8.3743-00 7.1045-03 3.799E-00 2.445E-08 1.3125-08 MNE 247 2.3643-07 1.067E-07 1.522E-07 1.2713-07 1.082E-07 5.843E-08 3.7825-00 2.046E-08 NE 251 2.836E-07 2.249E-07 1.840E-07 1.541E-07 1.3155-07 7.1715-09 4.679E-00 2.564E-08 ENE 339 3.5553-07 2.8105-07 2.2925-07 1.9115-07 1.6255-07 0.750s-08 5.664E-00 3.072E-08 E 305 2.437E-07 1.9213-07 1.5635-07 1.301E-07 1.103E-07 5.8995-08 3.7998-08 2.0453-08 ESE 187 1.383E-07 1.005E-07 8.795E-08 7.3015-08 6.100E-08 3.2843-08 2.0995-08 1.1143-08 SE 140 1.0845-07 8.507E-08 7.585E-00 6.2923-08 5.3223-00 2.562E-08 1.6355-08 8.661E-09 S NE SS 3.1493-00 2.4775-00 2.0135-08 1.674E-08 1.419E-08 7.5755-09 4.8598-09 2.595E-09 8 42 2.549E-00 2.0053-08 1.6293-08 1.353E-08 1.146E-00 6.000E-09 3.900E-09 2.083E-09 SSW 84 4.179E-00 3.2585-00 2.630E-08 2.1775-08 1.836E-08 9.6915-09 6.147E-09 3.210E-09 j sw 56 3.660s-00 2.8595-00 2.3073-08 1.900E-08 1.610E-00 8.4713-09 5.361E-09 2.795E-09 i WSW 36 3.341E-00 2.609E-00 2.310E-08 1.916E-00 1.617E-08 7.7163-09 4.090E-09 2.5635-09 W 81 7.9173-00 6.2095-00 5.0358-08 4.185E-08 3.5495-08 1.0975-00 1.2145-00 6.427E-09 WNW 65 9.5393-08 7.486E-08 5.5185-08 4.5803-08 3.879E-00 2.064E-08 1.322E-00 7.0325-09 NW 99 1.189E-07 9.2995-08 7.514E 00 6.214E-08 5.245E-08 2.756E-08 1.7493-00 9.106E-09 NNW 64 1.1963-07 9.430E-00 7.674E-08 6.306E-08 5.4205-00 2.9023 08 1.070E-00 1.0065-08 AVERAGE 2184 1.3163-07 1.0368-07 8.453E-08 7.037E-08 5.974E-00 3.100E-00 2.048E-08 1.101E-08 DOWNWIND NO. DIETANCE FROM RELEASE PO1FF (NILES) SECTOR Oss 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 130 0.344E.09 5.884E-09 4.4465-09 3.509E-09 2.0415-09 2.3695-09 2.0083-09 NME 247 1.3075-00 9.2593-09 7.024E-09 5.561E-09 4.515E-09 3.770E-09 3.201E-09 NE 251 1.648E-00 1.1723-08 8.9245-09 7.0845-09 5.762E-09 4.817E-09 4.093E-09 ENE 339 1.964E-00 1.3911 00 1.0553-00 S.3495-09 6.777E.09 5.662E-09 4.000E-09 E 305 1.304E-08 9.216E-09 6.976E-09 5.517E-09 4.4768-09 3.742E-09 3.170E-09 BSE 187 7.052E-09 4.961E-09 3.740E-09 2.948E-09 2.3063-09 1.9909-09 1.687E-09 SE 140 5.478E-09 3.050E-09 2.9012-09 2.286E-09 1.850E-09 1.5442-09 1.309E-09 SSE 58 1.653E-09 1.1695-09 8.8443-10 6.997E-10 5.683E-10 4.7588-10 4.049E-10 8 42 1.3252-09 9.3515-10 7.0675-10 5.505E-10 4.530E-10 3.790E-10 3.2225-10 SSW 84 2.0303-09 1.4255-09 1.072E-09 8.4475-10 6.834E-10 5.702E-10 4.839E-10 SW 56 1.7575-09 1.230E-09 9.237E-10 7.2625-10 5.0645-10 4.086E-10 4.1413-10 WSW 36 1.6123-09 1.120E-09 8.470E-10 6.6563-10 5.373E-10 4.477E-10 3.792E-10 W B1 4.062E-09 2.0523-09 2.1483-09 1.6913-09 1.365E-09 1.135E-09 9.601E-10 WNW 65 4.451E-09 3.1293-09 2.359E-09 1.058E-09 1.502E-09 1.250E-09 1.058E-09 NW 99 5.773E-09 4.030E-09 3.031E-09 2.3805-09 1.920E-09 1.5903-09 1.352E-09 NNW 64 6.390E-09 4.513E-09 3.411E-09 2.692E-09 2.1798-09 1.8173-09 1.540E-09 AVERAGE 2184 7.010E-09 4.9515-09 3.746E-09 2.961E-09 2.4005-09 2.003E-09 1.700E-09 118

1 i Tabis B-6 Depleted x/O Factors for Reactor Building Vent PNPS 1998 GENERAL I/QSs GROUND-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEASE GRODND-LEVEL AVESAGE CEI/Q APTER DEPLETION (REGULATORY GUIDE 1.111 DEPLETION MODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POIIPP (MILES) SSCTOR 038 .12 .25 .50 75 1.00 1.50 2.00 2.50 N 694 3.941E-05 1.141E-05 3.7935-06 2.046E-06 1.317E-06 6.960E-07 4.3993-07 3.095E-07 NME 1400 5.630E-05 1.630E-05 5.3538-06 2.8713-06 1.844E-06 9.7965-07 6.2095-07 4.379E-07 NE 875 5.3715-05 1.5473-05 4.7355-06 2.5113-06 1.6123-06 8.013E-07 5.699E-07 4.075E-07 BME 765 4.650E-05 1.340E-05 4.2995-06 2.3125-06 1.4905-06 7.999E-07 5.102E-07 3.6163-07 E 803 3.968E-05 1.1465-05 3.753E-06 2.011E-06 1.292E-06 6.864E-07 4.352E-07 3.0715-07 ESE 550 2.6223-05 7.500E-06 2.535E-06 1.3583-06 8.707E-07 4.5973-07 2.9038-07 2.0433-07 SE 456 1.9465-05 5.6543-06 1.941E-06 1.0305-06 6.6325-07 3.466E-07 2.1775-07 1.5265-07 SSE 244 9.7093-06 2.0043 06 9.386E-07 4.999E-07 3.1995-07 1.681E-07 1.060E-07 7.452E-00 8 199 5.5063-06 1.575E-04 4.910E-07 2.6135-07 1.6733-01 8.7375-08 5.487E-08 3.050E-00 SSW 435 1.230E-05 3.6475-06 1.0995-06 5.797E-07 3.693E-07 1.921E-07 1.204E-07 8.425E-00 SW 445 1.5113 05 4.550E-06 1.4183-06 7.514E.07 4.7693-07 2.4623-07 1.5345-07 1.067E-07 WSW 377 1.6085-05 4.0205-06 1.4975-06 7.0005-07 4.9005-07 2.564E-07 1.5995-07 1.114E-07 w 366 2.050E-05 6.0695-06 1.0373-06 1.0693-06 6.7983-07 3.5645-07 2.0415-07 1.4323-07 WNW 248 1.5695-05 4.565E-06 1.530E-06 8.219E-07 5.2755-07 2.781E-07 1.9295-07 1.3553-07 i NW 319 2.231E-05 6.5003-06 2.231E-06 1.190E-06 7.662E-07 4.006E-07 2.5158-07 1.7615-07 l NNW 200 2.3793-05 6.8733-06 2.2785-06 1.243E-06 8.0575-07 4.277E-07 2.700E-07 1.099E-07 AVERAGE B472 2.6393-05 7.6735-06 2.4835-06 1.335E-06 S.562E-07 4.5392-07 2.073E-07 2.02SE-07 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) l SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 694 2.3423-07 1.0495-07 1.507E-07 1.2563-07 1.060E-07 5.747E-08 3.716E-00 2.010E-08 i ImIE 1400 3.3168-07 2.6213-07 2.1373-07 1.785E-07 1.5195-07 8.209E-08 5.321E-08 2.806E.00  ! NE 875 3.110E-07 2.475E-07 2.0323-07 1.700E-07 1.463E-07 0.0543-00 5.290E-00 2.929E-08 BNE 765 2.740E-07: 2.1783-07 1.701E-07 1.4915-07 1.272E-07 6.916E-08 4.506E-05 2.465E-00 E 803 2.320E-07 1.8415-07 1.503E-07 1.255E-07 1.060E-07 5.774E-08 3.7455-08 2.036E-08 ESE 550 1.5463-07 1.2203-07 9.9413-08 B.286E-00 7.0415-08 3.784E-00 2.444E-08 1.3213-05 SE 456 1.1515-07 9.0642-08 8.1003-08 6.7333-00 5.707E-08 2.7655-08 1.7753-00 9.5093-09 SSE 244 5.637E-08 4.4505-08 3.626E-08 3.022E-00 2.566E-08 1.370E-00 8.8965-09 4.006E-09 8 199 2.910E-00 2.2953-00 1.067E 00 1.5543-00 1.317E-00 7.0273-09 4.520E-09 2.4325-09 SSW 435 6.337E-08 4.984E-00 4.0495 00 3.3705-08 2.0505-00 1.529E-08 9.8295-09 5.260E-09 SW 445 7.9823-00 6.244E-08 5.0515-08 4.185E-08 3.537E-08 1.0708-00 1.1905-00 6.264E-09 WSW 377 S.340E-00 6.5402-08 5.0253-00 4.8295-08 4.0845-08 1.966E-00 1.2548-08 6.6465-09 w 366 1.0783-07 8.482E-08 6.8933-00 5.730E 03 4.0703-08 2.6075-08 1.677E-08 0.999E-09 WNW 248 1.023E-07 0.0683-08 5.969E-00 4.971E-08 4.2223-00 2.2645-08 1.4613-08 7.069E-09 NW 319 1.320E-07 1.045E-07 0.490E-08 7.054E-00 5.979E-00 3.186E-00 2.046E-08 1.0965-08 NMW 200 1.430E-07 1.1363-07 9.262E-08 7.7245-00 6.5693-08 3.5428-00 2.2935-08 1.2393-00 AVERAGE S472 1.5333-07 1.211E-07 9.9173-08 8.276E-00 7.0415-08 3.7605-05 2.440E-08 1.322E-00 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 694 1.283E-00 9.079E-09 6.0793-09 5.4423 09 4.4145-09 3.605E-09 3.126E-09 seIE 1400 1.8465 08 1.308E-00 9.927E-09 7.862E-09 6.302E-09 5.331E-09 4.525E-09 NE 075 1.894E-08 1.3545-08 1.035E-08 0.240E-09 6.721E-09 5.630E-09 4.793E-09 EME 765 1.5032-00 1.125E-00 8.5575-09 6.789E 09 5.520E-09 4.614E 09 3.920E-09 E 803 1.304E-08 9.2535-09 7.0273-09 5.569E-09 4.5255-09 3.7113E-09 3.2143-09 ESE $50 S.435E-09 5.9705-09 4.5252-09 3.501E-09 2.906E-09 2.420E-09 2.062E-09 SE 456 6.043E-09 4.2623-09 3.221E-09 2.543E-09 2.061E-09 1.721E-09 1.460E-09 SSE 244 3.072E-09 2.177E-09 1.650E=09 1.307E.09 1.0622 09 8.882E-10 7.551E-10 S 199 1.552E-09 1.098E-09 8.319E-10 6.505E-10 5.3495-10 4.4802 10 3.811E-10 SSW 435 3.3513-09 2.369E-09 1.793E-09 1.417E-09 1.150E-09 9.612E-10 0.1672-10 SW 445 3.9495-09 2.769E-09 2.082E-09 1.63BE-09 1.3233-09 1.102E-09 9.3333-10 WSW 377 4.206E-09 2.958E-09 2.230E-09 1.750E-09 1.423E-09 1.187E-09 1.007E-09 W 366 5.730E-09 4.04BE-09 3.064E-09 2.422E-09 1.964E-09 1.641E-09 1.3933-09 KNW 243 5.015E-09 3.544E-09 2.682E-09 2.120E-09 1.7195-09 1.435E-09 1.217E-09 NW 319 6.959E-09 4.9053-09 3.704E-09 2.923E-09 2.367E-09 1.975E-09 1.674E-09 9EIW 288 7.906E-09 5.588E-09 4.230E-09 3.343E-09 2.700E-09 2.2575-09 1.912E-09 AVERAGE S472 9.4583-09 5.993E-09 4.5473-09 3.601E-09 2.924E-09 2.443E-09 2.074E-09 119

Tabb B-7 Gamma x/O Factors for Reactor Building Vent PNPS 1ST QUARTER 1998 QENERAL I/QSs QROUND-LEVEL GROUND RELEASE AVERAGE GAISUL DILUTION FACTORS (MET. AND ATOMIC ENERGY 1968 FINITE CLOUD SECTOR AVERAGE NODEL) -- (SEC/M3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR 088 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 151 1.3553-06 3.105E-06 1.327E-06 0.081E-07 5.711E-07 3.4613-07 2.415E-D* 1.027E-07 NNE 237 8.939E-06 3.801E-06 1.657E-06 1.018E-06 7.192E-07 4.3575-07 1 %cE-07 2.302E-07 NE 121 5.059E-06 2.174E-G6 9.445E-07 5.836E-07 4.138R-** 2.52ss-4; 1.765E-07 1.339E-07 ENE 107 5.214E-06 2.230E-06 9.698E-07 5.9675-P' 4.220E 07 2.557E-07 1.783E-07 1.348E-07 E 189 7.934E-06 3.3532-06 1.455E-06 8.873E-07 6.250E-07 3.761E-07 2.610E-07 1.966E-07 ESE 179 6.9813-06 2.937E-06 1.2708-06 7.694E-07 5.400E-07 3.232E-07 2.2365-07 1.681E-07 SE 189 7.319E-06 3.091E-06 1.352E-06 8.222E-07 5.761E-07 3.433E-07 2.3675-07 1.773E-07 SSE 77 2.981E-06 1.2415-06 b.384E-07 3.278E-07 2.315E-07 1.3958-07 9.6913-08 7.304E-08 8 84 2.669E-06 1.101E-06 4.215E-07 2.520E-07 1.772E-07 1.062E-07 7.349E-08 5.523E-08 Stw 200 5.991E-06 2.455E-06 8.978E-07 5.190E-07 3.595E-07 2.111E-07 1.443E-07 1.074E-07 FW 179 4.6488-06 1.964E-06 7.604E-07 4.531E-07 3.140E-07 1.842E-07 1.257E-07 9.336E-08 WFW 93 3.070E-06 1.279E-06 4.821E-07 2.024E-07 1.945E-07 1.135E-07 7.740E-08 5.771E-08 W 103 4.198E-06 1.795E-06 7.10$E-07 4.740E-07 3.307E-07 1.959E-07 1.223E-07 9.126E-08 WNW 45 2.241E-06 9.604E-07 4.242E-07 2.605E-07 1.833E-07 1.1025-07 8.408E-00 6.321E-08 NW 39 2.716E-06 1.151E-06 5.027E-07 3.078E-07 2.1715-07 1.306E-07 9.058E-08 6.812E-08 NNW 88 4.401E-06 1.077E-06 8.4115-07 5.213E-07 3.682E-07 2.219E-07 1.541E-07 1.160E-07 AVERAGE 2081 5.107E-06 2.157E-06 9.096E-07 5.552E-07 3.902E-07 2.341E-07 1.619E-07 1.218E-07 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OBS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 151 1.456E-07 1.202E-07 1.0173-07 0.757E-00 7.6668-08 4.632E-08 3.245E-08 1.963E-08 NNE 237 1.839E-07 1.519E-07 1.286E-07 1.109E-07 9.788E-08 5.872E-08 4.120E-08 2.500E-08 NE 121 1.0715-07 8.8553-08 7.509E-08 6.4842-08 5.689E-08 3.466E-08 2.442E-08 1.488E-00 j ENE 107 1.0745-07 8.8642-08 7.500E-08 6.462E-08 5.657E-08 3.421E-00 2.398E-08 1.452E-08 l E 189 1.5633-07 1.285E-07 1.084E-07 9.312E-08 8.130E-08 4.8643-08 3.3833-00 2.024E-08 ESE 179 1.333E-07 1.095E-07 9.222E-08 7.907E-98 6.892E-08 4.100E-08 2.840E-00 1.691E-08 SE 189 1.403E-07 1.149E-07 1.062E-07 9.086E-08 7.903E-08 4.245E-00 2.923E-08 1.7235-06 SSE 77 5.814E-08 4.785E-00 4.038E-00 3.465E-08 3.022E-08 1.8012-08 1.251E-08 7.489E-09 8 84 4.300E-08 3.595E-00 3.027E-08 2.594E-08 2.260E-08 1.342E-08 9.279E-09 5.504E-09 SSW 200 8.435E-00 6.871E-08 5.7518-08 4.906E-08 4.258E-08 2.496E-08 1.704E-08 9.883E-09 BW 179 7.319E-08 5.951E-00 4.973E-08 4.236E-08 3.672E-00 2.1425-08 1.456E-08 8.384E-09 WBW 93 4.542E-00 3.705E-b8 3.415E-00 2.915E-08 2.532E-00 1.352E-05 9.246E-09 5.3733-09 W 103 7.186E-08 5.866E-08 4.918E-08 4.202E-08 3.652E-00 2.1523-00 1.475E-08 8.610E-09 WNW 45 5.009E.00 4.108E-08 3.145E-00 2.697E-08 2.352E-08 1.401E-08 9.699E-09 5.751E-09 NW 39 5.405E-08 4.4393-08 3.741E-08 3.209E-08 2.799E-08 1.669E-08 1.157E-08 6.884E-09 NNW 88 9.2292-09 7.592E-08 6.404E-08 5.496E-08 4.795E-08 2.061E-08 1.988E-08 1.188E-08 AVERAGE 2001 9.669E-08 7.945E-08 6.759E-08 5.801E-08 5.062E-08 2.kS9E-08 2.075E-00 1.239E-08 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR oss 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 151 1.377E-08 1.049E-08 8.443E-09 7.0335-09 5.978E-09 5.196E-09 4.576E-09 NME 237 1.756E-08 1.339E-08 1.078E-08 8.986E-09 7.641E-09 6.645E-09 5.854E-09 NE 121 1.0482-08 0.012E-09 6.4622-09 5.3923-09 4.589E-09 3.990E-09 3.515E-09 ENE 107 1.019E-08 7.767E-09 6.253E-09 5.210E-09 4.429E-09 3.849E-09 3.309E-09 j E 189 1.410E-08 1.069E-08 8.564E-09 7.111E-09 6.027E-09 5.229E-09 4.597E-09 i ESE 179 1.174E-08 8.879E-09 7.104E-09 5.892E-09 4.9902-09 4.328E-09 3.804E-09 SE 109 1.189E-DO 8.952E-09 7.136E-09 5.899E-09 4.983E-09 4.313E-09 3.784E-09 , SSE 77 5.212E-09 3.947E-09 3.160E-09 2.622E-09 2.221E-09 1.928E-09 1.696E-09 8 64 3.814E-09 2.879E-09 2.300E-09 1.904E-09 1.611E-09 1.396E-09 1.226E-09 SSW 200 6.770E-09 5.070E-09 4.028E-09 3.321E-09 2.799E-09 2.417E-09 2.117E-09 SW 179 5.7141-09 4.262E-09 3.3762-09 2.776E-09 2.333E-09 2.011E-09 1.757E-09 WSW 93 3.682E-09 2.7588-09 2.190E-09 1.804E-09 1.520E-09 1.3123-09 1.1483-09 W 103 5.916E-09 4.438E-09 3.531E-09 2.913E-09 2.456E-09 2.121E-09 1.857E-09 WNW 45 3.988E-09 3.0135-09 2.408E-09 1.995E-09 1.68eE-09 1.462E-09 1.283E-09 NW 39 4.779E-09 3.613E-09 2.8892-09 2.394E-09 2.0263-09 1.755E-09 1.5415-09 NNW 88 8.264E-09 6.256E-09 5.0072-09 4.153E-09 3.517E-09 3.050E-09 2.600E-09 AVERAGE 2081 8.610E-09 6.5262-09 5.2275-09 4.338E-09 3.675E-09 3.188E-09 2.802E-09 120

Tabla B-7 Gamma x/O Factors for Reactor Building Vent PNPS 2ND QUARTER 1990 ==m E/08: GROUNO-LEVEL GROUND RELEASE AVERAGE e m DILUTION FACTORS (IST. AND ATONIC ENERGY 1960 FINITE CLOUD SECTOR AVERAGE NDDEL) -- (SEC/N3) DOINININD No. DISTANCE FRON RELEASE 70ZIFF (NILES) SECTOR OSS - .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 196 '1.2533-05' 5.3005-06 2.2003-06 1.3995-06 9.4773 5.9713-07 4.1575-07 3.1405-07 IRE 206 1.2145-05 5.1665-06 2.2293-06 1.3623-06 9.617E-07 5.037E-07 4.000E-07 3.0913-07 NE 167' 7.0698-06 3.3703-06 1.4593-06 8.9478-07 6.3293-07 3.0963-07 2.7545-07 2.1065-07 31 5 134 7.6915-06 3.2755-06 1.4143-06 0.6905-07 6.1583-07 3.7473-07 2.6213-07 1.9075-07 3 157 0.3005-06 3.4458-06 1.420E-06 0.522E-07 5.999E-07 3.6235-07 2.5235-07 1.9073-07 383 07 5.4973-06 2.3175 06 9.9325-07 6.057E-07 4.2003-07 2.5003-07 1.0025-07 1.3613-07 SE TO 4.0623-06 2.0453-06 9.6745-07 5.9083-07 4.1015 *? 2.5433-07 1.6175-07 1.2273-07 SSE 60 3.0545-06 1.6045-06 6.6103-07 3.5845-47 2.'~ss-07 1.5198-07 1.0575-07 7.9053-00 8 59 2.577E-06 1.0163-06 3.2383-07 1.8345-07 1.200E-07 7.7273-00 5.3503-00 4.0215 00 SSN 106 4.300E-06 1.7005-06 6.722E-07 4.0018 s1 2.821E-07 1.695E-07 1.175E-07 0.040E-08 SW 162 7.5888-06 3.2113-06 1.2303-06 7.4*rs-07 5.1903-07 3.0035-07 2.1215-07 1.5053-07 WSW 133 7.0335-06 3.290R-06 1.2715-06 7.599E-07 5.2005-07 3.1305-07 2.150E-01 1.6093-07 W 32 6.6065-06 2.0313 06 1.1113-06 7.4163-07 5.2103-07 3.1545-07 2.0043 07 1.5193-07 NNW 96 6.5145-06 2.7425-06 1.1835-06 7.2213-07 5.1015-07 3.0905-07 2.372E-07 1.795E-07 NW 127 9.5003-06 4.0303-06 1.7735-06 1.0005-05 7.6683-07 4.6103-07 3.2098-07 2.4223-07 lent 92 8.4193-06 3.6105-06 1.5595-06 9.6793-07 6.9023-07 4.2325-07 2.9728-07 2.2613-07 4 AVERAGE 2014 7.2613-06 3.0675-06 1.2065-06 7.8375-07 5.52715-07 3.3443-07 2.3223-07' 1.7563-07 DOINHrIND 31 0 . DISTANCE FROBI RELEASE POINT (NILES) SECTOR Osa 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 196 2.5025-07 2.0635-07 1.7445-07 1.5013-07 1.3143-07 7.920E-00 5.5415-00 3.346E-08 NME 286 2.466E-07 2.0365-07 1.7243-07 1.4073-07 1.3025 07 7.0923 00 5.5395 00 3.3615-08 NE 167 1.6933-07 1.406E-07 1.1975-07 1.0303-07 9.1393-00 5.6295-08 4.0035-00 2.4793-08 ENE 134 1.5073-07 1.3123-07 1.1125 07 9.5915-00 8.4073-00 5.1063-00 3.5903-00 2.1033-00 3 157 1.520E-07 1.2535-07 1.0603-07 9.1265-08 7.9853-00 4.0175-08 3.3713-08 2.0308-00 ESE 87 1.0063-07 8.9575-00 7.5775-00 6.5245-00 5.1003-00 3.4443-08 2.4125-00 1.450E-00 SS 70 9.0215-00 8.1243-08 7.57/E-08 6.5363-00 5.7205-00 3.474E-08 1.4433 00 1.4005-00 SSE 60 6.3573-08 5.2393-00 4.4305-00 3.0145-08 3.330E-00 2.015E-00 1.4115-00 0.517E-09 8 59 3.1995-00 2.610E-08 2.2053-08 1.8903-00 1.6475-00 9.799E-09 6.7073-09 4.0415-09 SSW 106 7.0115 00 5.7595-08 4.0555-00 4.168E-00 3.6393-00 2.1795-00 1.5143-00 9.0245-09 SW 162 1.2498-07 1.0205-07 0.5595-00 7.3215-00 6.3693-00 3.7695-00 2.590E-08 1.5155 08 WSW 133 1.392E-07 1.0415-07 9.6245-00 0.240E-00 7.1745-08 3.0668-00 2.6673-00 1.5755-00 W 82 1.2135-07 1.0033-07 8.4895-00 7.310E-00 6.4103-00 3.0793-00 2.724E-08 1.6583-00 teIN 96 1.4333-07 1.1035-07 9.1073-00 7.8435-00 6.0645 00 4.1423-00 2.903E-00 1.760E-00 NW 127 1.9295-07 1.5093-07 1.3435-07 1.154E-07 1.0085-07 6.0455-08 4.2163-00 2.537E-08 Innt 92 1.0128-07 1.5025-07 1.2763-07 1.1045-07 9.7005-00 5.956E-00 4.2175-00 2.5063-08 AVERAGE 2014 1.400E-07 1.1553-07 9.812E-00 8.4515-00 7.3903-00 4.4453-08. 3.114E-00 1.8043-08 DOISRf!ND NO. DISTAIICE FROII RELEASE POINT (IIILES) SECTOR oss 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 196 2.3443-00 1.7845 00 1.434E-00 1.1943 000 1.014E-00 0.0093-09 7.7543-09 IRIE 206 2.363E-08 1.8035-00 1.4533 08 1.212E-00 1.031E-00 0.9695-09 7.9075-09 NE 167 1.7655-08 1.360E-00 1.1045-00 9.260E-09 7.9325-09 6.9295-09 6.1345-09 BME 134 1.5363-00 1.1733-00 9.4553-09 7.006E-09 6.7098 09 5.0335-09 5.140E-09 E 157 1.430E-00 1.0095-00 8.7673-09 7.306E-09 6.2133-09 5.4043-09 4.7625-09 ESE 87 1.0225-00 7.7793-09 6.2553-09 5.2073-09 4.423E-09 3.0423-09 3.303E-09 SE 70 1.0405-08 0.0055-09 6.4523-09 5.3035-09 4.5013-09 3.9073-09 3.5165-09 SEE 60 5.9743-09 4.5535-09 3.6645-09 3.053E-09 2.5965-09 2.2575-09 1.9005-09 3 59 2.0095-09 2.1263-09 1.7035-09 1.413E-09 1.1903-09 1.0405-09 9.1545-10 SSW 106 6.2003 09 4.757E-09 3.0105-09 3.1623-09 2.6793-09 2.322E-09 2.040E-09 SW 162 1.0435-00 7.0365-09 6.2393-09 5.1525-09 4.3455-09 3.752E-09 3.285E-09 WSW 133 1.0905-00 8.2235-09 6.5715-09 5.442E-09 4.6042-09 3.9005-09 3.501E-09 W 82 1.1603-00 8.9253-09 7.2023-09 6.017E-09 5.1203-09 4.470E-09 3.9475-09 WNW 96 1.2363-00 9.4195-09 7.5028-09 6.310E-09 5.373E-09 4.674E-09 4.120E-09 WW 127 1.7723-08 1.3465-08 1.0005-00 0.9013-09 7.6223-09 6.6215-09 5.020E-09 teIIf 92 1.029E-08 1.4015-08 1.1325-00 9.4595-09 0.056E-09 7.005E-09 6.173E-09 AVERAGE 2014 1.3223-08 1.0073-00 0.1093-09 6.757E-09 5.7455 09 4.9943-09 4.400E-09 121

1 l 1rabia B '7 Gamma x/O Factors for Reactor Building Vent

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PNPS JRD QUARTER 1998 GENERAL E/QSs GROUND-LEVEL GROUWJ RELEASE 4 AVE 9GGE enanth DILUTION FACTORS (NET., AND ATONIC ENERGY 1968 FINITE CLOUD SECTOR AVERAGE MODEL) -- (SEC/N3) DOWNWIND NO. DISTANCE FROM RELEASE POINT (WILES) SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 217 1.0183-05 7.2315-06 2.980E-06 1.768E-06 1.217E-06 7.003E-07 4.801E-07 3.556E-07 MNE 630 3.430E-05 1.365E-05 5.555E-06 3.2053 06 2.260E-06 1.3143-06 8.904E-07 6.590E-07 NE 336 3.7043-05 1.1423-05 4.6465-06 2.789E-06 1.9415-06 1.1755-06 8.197E-07 6.2023-07 ENE 185 2.0025-05 0.181E.06 3.371E-06 2.0343-06 1.417E-06 8.4953-07 5.884E-07 4.429E-07 E 152 1.7525-05 6.990E-06 3.8013 06 1.6645-06 1.154E-06 6.8425-07 4.6995-07 3.518E-07 ESE 97 1.110E-05 4.3413-06 1.7465-06 1.033E-06 7.163E-07 4.244E-07 2.9153-07 2.181E-07 SE 57 5.049E-06 1.935E-06 d.302E-07 4.760E-07 3.257E-07 1.8735-07 1.146E-07 8.447E-00 SSE 49 4.371E-06 1.626E-06 6.026E-07 3.0603-07 2.084E-07 1.195E-07 8.030E-08 5.917E-08 8 14 7.007E.07 2.270E-07 5.2313-08 2.4113 00 1.634E-08 9.409E-09 6.340E-09 4.689E-09 SSW 45 3.476E-06 1.2525-06 3.082E-07 2.094E-07 1.427E-07 8.2575-08 5.600E-00 4.176E-00 SW 48 5.0213 06 1.9563-06 7.2643-07 4.235E-07 2.890E-07 1.653E-07 1.1075-07 S.122E-08 WSW 115 9.8505-06 3.831E-06 1.366E-06 7.7375-07 5.195E-07 2.9173-07 1.9293-07 1.405E-07 W 100 9.897E-06 3.8722 06 1.3873-06 8.746E-07 5.924E-07 3.362E-07 2.0385-07 1.491E-07 WNW 42 4.705E-06 1.856E-06 7.410E-07 4.3525-07 2.996E-07 1.7393-07 1.293E-07 9.550E-08 NW 54 7.849E-06 3.121E-06 1.2705-06 7.460E-07 5.090E-07 2.935E-07 1.976E-07 1.459E-07 MNW 44 6.788E-06 2.717E-06 1.147E-06 6.873E-07 4.7363-07 2.7493-07 1.060E-07 1.375E-07 AVERAGE 2193 1.1675-05 4.638E-06 1.851E-06 1.096E-06 7.552E-07 4.430E-07 3.011E-07 2.243E-07 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 217 2.792E-07 2.274E-07 1.903E-07 1.6235-07 1.4093-07 S.270E-08 5.690E-08 3.363E-08 NNE 638 5.182E-07 4.222E-07 3.5353-07 3.0175-07 2.621E-07 1.544E-07 1.064E-07 6.294E-08 NE 336 4.9435-07 4.079E-07 3.455E-07 2.984E-07 2.619E-07 1.597E-07 1.128E-07 6.924E-08 ENE 185 3.520E-07 2.8975-07 2.4403-07 2.10SE-07 1.845E-07 1.1163-07 7.039E-00 4.773E-08 E 152 2.786E-07 2.2863-07 1.926E-07 1.654E-07 1.444E-07 8.6693-08 6.058E-08 3.658E-08 ISE 97 1.7275+07 1.416E-07 1.1923-07 1.0222-07 8.912E-08 5.316E-08 3.703E-08 2.230E-08 SE 57 6.6045-08 5.360E-08 4.919E-08 4.184E-08 3.6223-00 2.111E-08 1.443E-08 8.434E-09 SSE 49 4.6255-08 3.753E-08 3.1313-04 2.663E-00 2.3055-08 1.344E-08 9.10SE-09 5.300E-09 8 14 3.688E-09 3.010E-09 2.525E-09 2.158E-09 1.877E-09 1.1113-09 7.737E-10 4.7012-10 SSW 45 3.3042-05 2.7005-08 2.2005-08 1.9555-00 1.705E-08 1.020E-08 7.116E-09 4.295E-09 SW 48 6.321E-08 5.1095-00 4.2463-00 3.596E-08 3.103E-08 1.782E-08 1.2065-08 6.94SE-09 WSW 115 1.00$E-07 0.720E-08 7.930E-08 6.705E-08 5.771E-00 2.994E.08 2.009E-08 1.140E-08 W 100 1.156E-07 9.317E-08 7.734E-08 6.552E-08 5.654E-08 3.258E-08 2.204E-08 1.265E-08 WNW 42 7.473E-08 6.072E-08 4.613E-08 3.931E-08 3.410E-00 2.0015-08 1.3733-08 8.066E-09 NW 54 1.1435-07 9.293E-08 7.7663-08 6.6143-08 5.734E-05 3.3563-08 2.302E-00 1.353E-08 NNW 44 1.07BE-07 S.7703-08 7.330E-08 6.239E-08 5.4063-08 3.1573-00 2.163E-00 1.270E-08 AVERAGE 2193 1.760E-07 1.445E+07 1.2185-07 1.042E-07 9.074E-08 5.3725-08 3.726E-00 2.227E-08 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 217 2.3255-08 1.753E-08 1.4012 00 1.161E-08 9.8155-09 S.4975-09 7.456E-09 NME 638 4.356E-08 3.287E-00 2.620E-08 2.17BE-08 1.842E-08 1.594E-08 1.398E-08 l N3 336 4.8903-08 3.758E-08 3.044E-00 2.549E-00 2.176E-08 1.8955-08 1.673E-08 l ENE 185 3.3595-08 2.566E-08 2.072E-08 1.730E-08 1.473E-08 1.200E-08 1.120E-08 I E 152 2.562E-08 1.9513-08 1.5715-08 1.30SE-08 1.112E-08 9.652E-09 8.494E-09 RSE 97 1.559E-08 1.186E-08 9.534E-09 7.937E-09 6.743E-09 5.857E-09 5.157E-09 SE 57 5.000E-09 4.3585-09 3.4723-09 2.8693-09 2.422E-09 2.095E-09 1.837E-09 SSE 49 3.706E-09 2.789E-09 2.2255-09 1.842E-09 1.5575-09 1.348E-09 1.183E-09 8 14 3.321E-10 2.549E-10 2.072E 10 1.7432-10 1.4953-10 1.311E-10 1.165E-10 SSW 45 3.0105-09 2.2943-09 1.8483-09 1.5415-09 1.311E-09 1.140E-09 1.004E-09 SW 48 4.734E-09 3.533E-09 2.800E-09 2.305E-09 1.940E-09 1.674E-09 1.465E-09 WSW 115 7.7113-09 5.7263-09 4.5252-09 3.715E-09 3.119E-09 2.606E-09 2.346E-09 W 100 0.615E-09 6.420E-09 5.099E-09 4.1985-09 3.532E-09 3.045E-09 2.663E-09 WNW 42 5.562E-09 4.1975-09 3.3422-09 2.765E-09 2.335E-09 2.018E-09 1.768E-09 NW 54 9.329E-09 7.0223-09 5.604E-09 4.635E-09 3.916E-09 3.387E-09 2.969E-09 NNW 44 8.741E-09 6.570E-09 5.2343-09 4.324E-09 3.6493-09 3.154E-09 2.764E-09 AVERAGE 2193 1.5513-08 1.176E-08 9.440E-09 7.847E-09 6.6575-09 5.773E-09 5.076E-09 122

Tabla B-7 Garnma x/O Factors for Reactor Building Vent PIIPS 4TN QUARTER 1990 mmR E/OSI GROUND-LEVEL git 0UND RELEASE AVERAGE GAIBIA DILUTION FACTORS (IST. AND ATONIC ENERGY 1960 FINITE C14UD SECTOR AVERAGE NODEL) -- (SEC/M3) DOMMWIND NO. DISTANCE FROII RELEASE POINT (MILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 130 6.522E-06 2.7623-06 1.1993-06 7.323E-07 5.1593-07 3.1023-07 2.1513-07 1.620E-07 IEIR 247 9.0913 06 3.0905-06 1.6945-06 1.0375-06 7.3005-07 4.4095-07 3.0705-07 2.3175 07 NE 251 9.7275-05 4.1903-06 1.035E-06 1.1368-06 0.0533-07 4.922E-07 3.454E-07 2.6243 07 Ele 339 1.370E-05 5.8553-06 2.555E-06 1.5665-06 1.104E-06 6.6713 07 4.646E-07 3.5135 07 E 305 1.1233-05 4.6563-06 1.9493-06 1.1638-06 0.1633-07 4.0095-07 3.304E-07 2.5445-07 BSE 107 6.9303-06 2.0065-06 1.2005-06 7.105E-07 4.959E-07 2.9423-07 2.022E-07 1.512E-07 BE 140 5.5305-06 2.209E-06 9.4993-07 5.6115-07 3.917E-07 2.324E-07 1.590E-07 1.1963-07 SSE 50 1.9305-06 7.7335-07 2.9005-07 1.6005-07 1.163E-07 6.040E-00 4.605E-08 3.5015-00 8 42 1.5245-06 6.1515-07 2.2353-07 1.2963-07 p.007E-00 5.4235-00 3.742E-00 2.002E-00 SSW to 2.0403-06 1.1678-06 4.2145-07 2.415E-07 1.6698-07 9.7595-00 6.636E-00 4.9128-00 SW 56 2.3513 06 9.7393-07 3.6043-07 2.0953-07 1.4495-07 0.4053-00 5.778E-00 4.203E-00 WSW 36 1.0763-06 7.0943-07 3.0575-07 1.025E-07 1.2693-07 7.4755-00 5.1125 00 3.0048-00 W 01 3.9213-06 1.560E-06 6.4633-07 4.2913-07 3.0005-07 1.7943-07 1.125E-07 0.420E-00 NNW $5 3.6943-06 1.5053-06 6.9605-07 4.259E-07 2.9063-07 1.7813-07 1.3513-07 1.0123-07 NW 99 5.4123-06 2.310E-06 1.0255 06 6.250E-07 4.3603-07 2.500E-07 1.771E-07 1.322E-07 ImIW 64 4.6258-06 1.975E-06 0.7523 07 5.4145-07 3.0265-07 2.310E-07 1.607E-07 1.2135-07 AVERAGE 2104 5.6005-06 2.4003-06 1.0155-06 6.1615-07 4.3273-07 2.595E-07 1.7905-07 1.353E-07 DONIININD NO. DISTANCE FROII RELEASE POINT (MILES) SECTOR 038 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 130 1.2075-07 1.0598-07 0.9313-00 7.6708-00 6.696E-08 4.0075-00 2.7062-00 1.666E-00 NIIE 247 1.042E-07 1.5163-07 1.2017 07 1.1025-07 9.6375 00 5.0063-00 4.053E-00 2.435E.00 NE 251 2.0993-07 1.7375-07 1.474E-07 1.2745-07 1.110E-07 6.0173-00 4.010E-00 2.940E-00 EIIB 339 2.003E-07 2.3113-07 1.955E-07 1.6033-07 1.4725-07 0.0753-00 6.211E-00 3.754E-00 3 305 2.0193-07 1.6595-07 1.3908-07 1.200E-07 1.0465-07 6.241E-00 4.331E-00 2.504E.00 BBB 107 1.192E-07 9.742E-00 0.1773-00 6.9923-00 6.0023-00 3.5935-00 2.4693-00 1.440E-00 SE 140 9.436E-00 7.715E-00 7.1243-00 6.0915-00 5.2963-00 2.0413 00 1.9523 00 1.1433-00 SSE 50 2.7605-00 2.2553-00 1.092E-00 1.6173-00 1.4063-00 0.3025-09 5.701E-09 3.337E-09 3 42 2.2145-00 1.0125-00 1.5235-00 1.3033-00 1.1333-00 6.6983-09 4.6115-09 2.7163 09 SSW 04 3.0335-08 3.1063-00 2.5095 00 2.201E-00 1.9053-00 1.1075-00 7.4073-09 4.270E-02 SW . 54 3.3473-00 2.7153-00 2.265E-00 1.9275-00 1.669E-00 9.7098-09 6.576E-09 3.7563 09 WSW 36 2.9075-00 2.4325-00 2.230E-00 1.9005-00 1.655E-00 0.7955-09 5.994E-09 3.460E-09 W 01 6.6412-00 5.430E-00 4.5615-00 3.906E-00 3.402E-00 2.0225-00 1.393E-00 0.1753-09 NNW 65 0.0013-00 6.5535-00 5.009E-00 4.2905 00 3.737E-00 2.2198-00 1.5325 00 9.053E.09 WW 99 1.042E-07 0.5045-00 7.130E-00 6.0093-00 5.202E-00 3.1095-00 2.1205 00 1.2415-00 i NNW 64 9.6615-00 7.960E-00 6.7263-00 5.7035-00 5.0548 00 3.035E-00 2.1173-00 1.2733-03 AVERAGE 2104 1.0735-07 0.0163-00 7.453E-00 6.3905-00 5.5035-00 1.3143-00 2.3015 00 1.373E.00 IJONMWIND No. DIST&aICE FROII RELEASE PCIIrf (MILES) SECTOR 000 20.00 25.00 30.00 34.9F 40.00 45.00 50.00 N 130 1.161E-00 0.794E-09 7.0455-09 5.040E-09 4.955E-09 4.297E-09 3.776E-09 IINE 247 1.7035-00 1.295E-00 1.040E-00 0.655E-09 7.349E-09 6.300E-09 5.615E-09 NE 251 2.076E-00 1.5905-00 1.2045-00 1.073E-00 9.147E-09 7.9633-09 7.026E-09 EIIE 339 2.631E-00 2.003E.00 1.611E.00 1.3413-00 1.140E-00 9.905E-09 0.724E-09 ) E 305 1.790E-09 1.3625-00 1.0913-00 9.054E-09 7.674E-09 6.659E-09 5.056E-09 RSE 107 9.973E-09 7.4998-09 5.975E-09 4.9378-09 4.167E-09 3.603E-09 3.1585-09 BE 140 7.0735-09 5.916B-09 4.710E-09 3.009E-09 3.201E-09 2.030E-09 2.4073-09 SSE 50 2.2995-09 1.729E-09 1.370E-09 1.139E-09 9.617E-10 0.322E-10 7.301E-10 5 42 1.0763-09 1.4135-09 1.127E-09 9.325E-10 7.0038-10 6.020E*10 5.9943-10 SSW 04 2.0993-09 2.157E-09 1.706E-09 1.4025-09 1.177E-09 1.0143-09 0.0553-10 SW SE 2.5513-09 1.0903-09 1.5005-09 1.2323-09 1.034E-09 8.902E-10 7.771E-10 WSW 36 2.370E-09 1.771E-09 1.4055-09 1.1565-09 9.732E-10 0.3973-10 7.345E-10 W 01 5.640E-09 4.244E-09 3.303E-09 2.7963-09 2.3595-09 2.0375 09 1.704E-09 WNW 65 6.2633-09 4.7233-09 3.773E.09 3.123E-09 2.640E-09 2.205E-09 2.004E-09 IIW 99 0.5195-09 6.3053409 5.073E-09 4.103E-09 3.524E-09 3.044E-09 2.664E-09  ! IEIW 64 0.090E-09 6.749E-09 5.4145-09 4.490E-09 3.0153-09 3.310E-09 2.911E-09 l AVERAGE 2104 9.552E-09 7.235E-09 5.797E-09 4.0123-09 4.0705-09 3.5363-09 3.100E-09 123 1 j

Tablo B-7 Gamma x/O Factors for Reactor Building Vent PNPS 1993 mean E/081 OROUND LEVEL GROUND RELEASE AVERAGE m eu DILUTION FACTORS (NET. AND ATONIC ENERGY 1968 FINITE CLOUD SECTOR AVERAGE NODEL) -- (SEC/M3) DOIWWIND NO. DISTUICE FROM RELEASE POIlff (NILES) SECTOR OSS 52 .25 .50 .75 1.00 1.50 2.00 2.50 N 694 1.4923-05 5.932E-06 2.4455-06 1.455E-06 1.0043-06 5.0633-07 3.9825-07 2.953E-07 NNE 1400 2.069E-05 0.274E-06 3.4015-06 2.0223-06 1.3945-06 S.150E-07 5.5463-07 4.120E-07 i NE 875 1.6293-05 6.6,0s-06 2.7273-06 1.630E-06 1.138E-06 6.0253-07 4.7303-07 3.560E-07 l EME 765 1.578E-05 6.35SE-06 2.6335-06 1.5003-06 1.0965-05 6.4773-07 4.4403-07 3.3165-07 l E 803 1.5171-05 5.9653-06 2.410E-06 1.4213-06 9.799E-07 5.730E-07 3.8995-07 2.8975-07 l ESE 550 1.036E-05 4.066E 06 1.6535-06 9.7363-07 6.702E-07 3.9003-07 2.6455-07 1.960s-07 85 456 S.1323-06 3.1795-06 1.398E.06 7.616E-07 5.221E-07 3.0135-07 2.0335-07 1.500E-07 SSE 244 4.220E-06 1.6145-06 6.3345-07 3.6545-07 2.5053-07 1.4485-07 9.7863-08 7.233E-00 8 199 2.620E-06 8.770s-07 3.420E-07 1.9485-07 1.3365-07 7.7043-08 5.191E-08 3.025E-00 SSW 435 5.0095-06 2.2155-06 7.7093-07 4.3715-07 2.9733-07 1.690E-07 1.1383-07 8.350s-08 k SW 445 6.754E-06 2.6653-06 9.0155-07 5.7015-07 3.8765-07 2.200E-07 1.4755-07 1.0795-07 WSW 377 7.3235-06 2.8705-06 1.0445-06 6.010E-07 4.064E-07 2.3025-07 1.5343-07 1.123E-07 W 366 S.2643-06 3.2025-06 1.2143-06 7.000E-07 5.331E-07 3.072E-07 1.083E-07 1.300E-07 WWW 248 6.035E-06 2.402E-06 9.9295-07 5.8975-07 4.062E-07 2.3635-07 1.762E-07 1.304E-07 NW 319 0.832E-06 3.5213 06 1.4723-06 s.7393-07 5.9945-07 3.4633-07 2.3365-07 1.725E-07 ) NWW 280 0.590E-06 3.4505-06 1.440E-06 S.735E-07 6.0645-07 3.5605-07 2.4245-07 1.002E-07 AVERAGE S472 9.9073-06 3.964E-06 1.592E-06 9.461E-07 6.516E-07 3.0033-07 2.583E-07 1.9175-07 DONNWIND NO. DISTANCE PRON RELEASE POIlrf (NILES) SECTOR 035 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 694 2.3213-07 1.0928-07 1.585E-07 1.353E-07 1.1745-07 6.911E-08 4.763E-08 2.820E-08 NME 1408 3.2413-07 2.G44E-07 2.2175-07 1.0945-07 1.6472-07 9.730E-08 6.7215-08 3.992E-08 NE $75 2.828E-07 2.3275-07 1.9665-07 1.692E-07 1.4815-07 8.9535-08 6.2875-08 3.028E-08 kNE 765 2.621E-07 2.1473-07 1.006E-07 1.5403-07 1.3493-07 0.0423-08 5.595E-00 3.360s-08 3 803 3.200E-07 1.060E-07 1.5605-07 1.3328-07 1.158E-07 6.8363-08 4.722E-00 2.007E-08 E&E 550 1.5393-07 1.253E-07 1.0485-07 8.9303-08 7.755E-08 4.550E-08 3.1295+08 1.8475-00 SE 456 1.1733-07 9.525E-08 B.7445-00 7.433E-00 6.4335-08 3.4013-00 2.3223-08 1.357E-08 l- SSE 244 5.668E-08 4.609E-08 3.0513-08 3.278E-00 2.8415-08 1.6605-00 1.1385-05 6.609E-09 [ S 199 2.9905-08 2.426E-00 2.0225-08 1.717E-08 1.405E 08 S.6013-09 5.0613-09 3.4195-09 l SSW 435 6.497E-08 5.2535-08 4.371E-00 3.710E-08 3.2065-00 1.8503-00 1.2633-08 7.3095-09 ! SW i445 0.363E-08 6.7413-08 5.593E-08 4.734E-08 4.0833-00 2.3465-08 1.503E-08 9.049E-09 WSW 377 8.7135 08 7.029E-08 6.4195-08 5.4363-08 4.6893-08 3.450s-08 1.656E-08 9.504E-09 W 366 1.054E-07 8.7905-08 7.3315-08 6.236E-08 5.4018-00 3.149E-08 2.1513-08 1.256E-08 WWW 248 1.0233-07 8.3222-00 6.3273-08 5.3923-08 4.677E-00 2.7415-08 1.083E-08 1.109E-00 NW 319 1.350E-07 1.0975-07 9.159E-08 7.790E-00 6.7465-08 3.929E-00 2.607E-00 1.5738-00 NNW 288 1.4195-07 1.1595-07 9.722E-08 S.3063-08 7.221E-08 4.2675-00 2.950E-00 1.753E-00 l AVERAGE S472 1.5065-07 1.22SE-07 1.033E-07 0.0233-05 7.665E-08 4.400E-00 3.090E-08 1.8313 08 DONWWIND ND. DISTANCE FRON RELEASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 694 1.952E-08 1.473E-08 1.170E-00 9.7565-09 B.253E-09 7.145E-09 6.2693-09 NME 1408 2.769E-00 2.0943-00 1.6762-08 1.390E-08 1.1773-08 1.020E-00 8.954E-09 NE 875 2.6945-00 2.059E-08 1.6638-00 1.309E-08 1.1035-08 1.029E-08 9.0753-09 BNE 765 2.3443-00 1.7005-08 1.430E-08 1.109E-08 1.00DE-08 8.7575-09 7.7015-09 E 803 1.9475-00 1.473E-00 1.1793-08 9.786E-09 8.2095-09 7.184E-09 6.311E-09 ESE 550 1.2763-00 9.625E-09 7.690E-09 6.3695-09 5.386E-09 4.664E-09 4.0933-09 SE 456 9.3228-09 6.999E-09 5.571E-09 4.5013-09 3.SS2E-09 3.3578-09 2.9425-09 SSE 244 4.6135-09 3.473E-09 2.772E-09 2.294E-09 1.939E-09 1.679E-09 1.474E-09 8 199 2.3475-09 1.762E-09 1.4025-09 1.150E-09 9.7753-10 0.4615-10 7.4218-10 SSW 435 5.002E-09 3.7463-09 2.9783-09 2.4575-09 2.071E-09 1.788E-09 1.5663-09 SW 445 6.1443-09 4.574E-09 3.6195-09 2.9733-09 2.4978-09 2.1513-09 1.870E-09 WSW 377 6.460E-09 4.024E-09 3.0235-09 3.146E-09 2.6465-09 2.202E-09 1.996E-09 W 366 8.6303-09 6.4905-09 5.174E-09 4.277E-09 3.6125-09 3.123E-09 2.730E-09 WNW 248 7.656E-09 5.7673-09 4.605E-09 3.8115-09 3.221E-09 2.787E-09 2.4445-09 NW 319 1.0023-08 8.126E-09 6.4723-09 5.347E 09 4.512E-09 3.9013-09 3.419E-09 NNW 208 1.2153-08 9.174E-09 7.3378-09 6.0793-09 5.1415-09 4.440E-09 3.901E-09 AVERAGE 8472 1.269E-08 9.5848-09 7.6693-09 6.3595-09 5.383E-09 4.663E-09 4.094E-09 l 124

( l l Tabis B-8 l Deposition D/O Factors for Reactor Building Vent  ; l l PNPS 137 QUARTER 1990 - m I/QSs GROUND-LEVEL -= SECTOR AVERAGE NODEL GROUND RELEASE j AVERAGE DEPOSITION RATES (REGULATORY GUIDE 1.111 NODEL) -- (1/N2) i DOWNWIND No. DISTANCE FROM RELEASE POINT (NILES) SECTom 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 I N 151 1.227E-07 4.127E-08 1.3943-08 7.355E-09 4.5513-09 2.201E-09 1.343E-09 9.1495-10 NME 237 1.9265-07 6.470E-08 2.1885-08 1.1543-08 7.1433-09 3.454E-09 2.107E-09 1.436E-09 NE 121 9.8353-08 3.3075-00 1.1173-08 5.094E-09 3.6473-09 1.763E-09 1.076E-09 7.332E-10 . l BNE 107 8.697E-08 2.9253-08 9.877E-09 5.212E-09 3.225E-09 1.559E-09 9.5145-10 6.483E-10 l l E 109 1.5363-07 5.166E-08 1.745E-08 9.2062-09 5.696E-09 2.754k-09 1.681E-09 1.145E-09 1.455E-07 1.452E-08 ESE 179 4.8935-08 8.7193-09 5.395E-09 2.6095-09 1.592E-09 1.005E-09 SE 189 1.536E-07 5.166E-08 1.745E-08 9.206E-09 5.J96E-09 2.754E-09 1.6813-09 1.145E-09 SSE 77 6.2595-08 2.1055-08 7.1083 09 3.751E-09 2.321E-09 1.1223-09 6.047E-10 4.666E-10 l 8 84 7.510E-08 2.5263 08 7.754E-09 4.092E-09 2.532E-09 1.2245-09 7.4695-10 5.0905-10 ! , SSW 200 1.788E-07 6.0145-08 1.8465-08 9.742E-09 6.028E-09 2.9153-09 1.778E-09 1.212E-09 l BW 179 1.600E-07 5.3823-08 1.6525-08 8.719E-09 5.395E-09 2.609E-09 1.5925-09 1.085E-09 WsW 93 8.315E-08 2.796E-08 8.5858-09 4.530E-09 2.8033-09 1.3553-09 8.269E-10 5.635E-10 W 103 9.2095-08 3.0978-00 9.500E-09 5.519E-09 3.4153-09 1.651E-09 9.158E-10 6.2415-10 l WNW 45 3.658E-08 1.230E-04 4.154E-09 2.192E-09 1.356E-09 6.5583-10 4.401E-10 2.999E-10 NW 39 3.170E-08 1.066E-08 3.600E-09 1.900E-09 1.1758-09 5.684E-10 3.4683-10 2.363E-10 NNW SS 7.153E-08 1.4055-08 8.123E-09 4.287E-09 2.6525-09 1.283E-09 7.8253-10 5.3325-10 AVERAGE 2001 1.091E-07 3.6685-00 1.201E-08 6.367E-09 3.939E-09 1.9055-09 1.1593-09 7.898E-10 DOWNWIND NO. DISTANCE FRON RELEASE POINT (NILES) i SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 i N 151 6.695E-10 5.121E-10 4.0495-10 3.2545-10 2.685E-10 1.3463-10 8.2775-11 4.084E-11 NNE 237 1.051E-09 0.037E-10 6.3553-10 5.107E-10 4.214E-10 2.113E-10 1.299E-10 6.410E-11 NE 121 5.3653-10 4.1033-10 3.245E-10 2.607E-10 2.151E-10 1.079E-10 6.633E-11 3.272E-11 ENE 107 4.744E-10 3.6295-10 2.8695-10 2.306E-10 1.902E 10 9.530E-11 5.865E-11 2.894E-11 E 109 8.379E-10 6.4093-10 5.060E-10 4.073E-10 3.360E-10 1.605E-10 1.036E-10 5.1123-11 ESE 179 7.936E-10 6.070E-10 4.800E-10 3.0575-10 3.1025-10 1.5963-10 9.8125-11 4.841E-11 SE 109 8.379E-10 6.409E-10 5.5752-10 4.400E-10 3.696E-10 1.685E-10 1.036E-10 5.112E-11 SEE 77 3.4143-10 2.6112-10 2.065E-10 1.659E-10 1.369E-10 6.864E-11 4.2213-11 2.082E-11 5 84 3.7248-10 2.849E-10 2.2525-10 1.810E-10 1.493E-10 7.4883-11 4.604E-11 2.272E-11 SSW 200 0.8675-10 6.702E-10 5.363E-10 4.310E-10 3.5563-10 1.783E-10 1.096E-10 5.409E-11 SW 179 7.936E-10 6.070E-10 4.800E-10 3.8575-10 3.182E-10 1.596E-10 9.812E-11 4.841E-11 Wsw 93 4.1233-10 3.1545-10 2.743E-10 2.204E-10 1.819E-10 8.290E-11 5.098E-11 2.515E-11 W 103 4.5673-10 3.4938-10 2.762E-10 2.219E-10 1.831E-10 9.1825-11 5.6465-11 2.706E-11 , WWW 45 2.1955-10 1.679E-10 1.2075-10 9.697E-11 8.001E-11 4.011E-11 2.4672-11 1.217E-11 ! NW 39 1.729E-10 1.3233-10 1.046E-10 8.404E-11 6.934E-11 3.476E-11 2.1385-11 1.0555-11 l l NNW 88 3.902E-10 2.984E-10 2.360E-10 1.8965-10 1.545E-10 7.044E-11 4.8245-11 2.380E-11 AVERAGE 2001 5.779E-10 4.4205-10 3.535E-10 2.8415-10 2.344E-10 1.1598-10 7.1295-11 3.518E-11 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) SECTOR OSS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 151 2.510E-11 1.690E-11 1.1913-11 8.9285-12 6.945E-12 5.680E-12 4.716E-12 NME 237 3.940E-11 2.652E-11 1.869E-11 1.401E-11 1.090E-11 8.9153-12 7.4033-12 NE 121 2.011E-11 1.354E-11 9.5425-12 7.155E-12 5.565E-12 4.552E-12 3.779E-12 ENE 107 1.7795-11 1.198E-11 8.4383-12 6.327E-12 4.922E 12 4.025E-12 3.342E-12 E 189 3.142E-11 2.1155-11 1.490E-11 1.1183-11 8.693E-12 7.110E-12 5.903E-12 ESE 179 2.976E-11 2.003E-11 1.412E-11 1.058E-11 0.233E-12 6.733E-12 5.591E-12 SE 109 3.1425-11 2.1155-11 1.490E-11 1.118E-11 8.693E-12 7.110E-12 5.903E-12 SSE 77 1.2005-11 8.6185-12 6.0725-12 4.553E-12 3.542E-12 2.896E-12 2.40$E-12 8 84 1.396E-11 9.401E-12 6.6248-12 4.967E-12 3.064E-12 3.160E-12 2.624E-12

 $sW      200   3.3255-11    2.2385-11   1.577E-11  1.183E-11     9.1998-12 7.523E-12 6.247E-12 SW       179   2.976E-11    2.003E-11   1.412E-11  1.058E-11     8.233E-12 6.733E-12 5.591E-12 WrW       93   1.546E-11    1.041E-11   7.334E-12  5.499E-12    4.270E-12  3.498E-12 2.905E-12 W        103   1.7123-11    1.1535-11   8.122E-12  6.090E-12    4.7383-12  3.8742-12 3.217E-12 WNW       45   7.4005-12    5.0365-12   3.549E-12  2.661E-12    2.070E-12  1.693E-12 1.406E-12 NW        39   6.483E-12    4.365E-12   3.075E-12  2.306E-12    1.794E-12  1.4675-12 1.218E-12 NNW       08   1.463E 11    9.8495-12   6.9393-12  5.2035-12    4.040E-12  3.3103-12 2.749E-12 AVERAGE 2081   2.162E-11    1.456E-11   1.026E-11  7.690E-12     5.982E-12 4.892E-12 4.062E-12 l                                                         125 l

l L

i l l l l l Table B-8 Deposition D/O Factors for Reactor Building Vent j l l PNPS 2ND QUARTER 1998 GENERAL E/QSs GROUND-LEVEL == SECTOR AWRAGE NODEL l GROUND RELEASE j AYERAGE DEPOSITION RATES (REGULATORY QUIDE 1.111 MODEL) -- (1/M2) j DOWNWIND 90. DISTANCE FROM RELEASE POIFF (NILES) SECTOR 038 .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 196 1.646E-07 5.536E-08 1.869E-08 9.865E-09 6.104E-09 2.952E-09 1.8012-09 1.227E-09 NNE 286 2.4023-07 8.078E-00 2.728E-08 1.439E-08 8.906E-09 4.3072-09 2.6288-09 1.791E-09 NE 167 1.403E-07 4.717E-08 1.5933-08 8.405E-09 5.200E-09 2.515E-09 1.5342-09 1.046E-09 ENE 134 1.125E-07 3.785E-08 1.278E-08 6.744E-09 4.173E-09 2.018E-09 1.2313-09 8.389E-10 E 157 1.319E-07 4.434E-08 1.497E-08 7.902E-09 4.889E-09 2.364E-09 1.442E-09 9.829E-10 ESE 87 7.307E-08 2.457E+08 8.298E-09 4.379E-09 2.709E-09 1.510E-09 7.993E-10 5.447E-10 SE 70 5.879E-08 1.9775-08 7.344E-09 3.875E-09 2.398E-09 1.160E-09 6.431E-10 4.382E-10 SSE 60 5.543E-08 1.864E-08 6.295E-09 3.020E-09 1.8685-09 9.035E-10 5.512E-10 3.756E-19 3 59 5.946E-08 2.0003-08 5.627E-09 2.970E-09 1.837E-09 0.885E-10 5.4215-10 3.6945-10 Ssw 106 9.793E-08 3.293E-08 1.011E-08 5.335E-09 3.301E-09 1.596E-09 9.7395-10 6.6368-10 j BW 162 1.4975-07 5.033E-08 1.545E-08 8.154E-09 5.045E-09 2.440E-09 1.488E-09 1.014E-09 ) Wsw 133 1.2293-07 4.1325-08 1.2693-08 6.694F-09 4.1423-09 2.003E-09 1.222E-09 8.327E-10 W 82 7.576E-08 2.5483-08 7.821E-09 4.540E-09 2.8095-09 1.358E-09 7.534E.10 5.1345-10 i WWW 96 8.063E-05 2.7115-08 9.1575-09 4.832E-09 2.9893-09 1.446E-09 9.702E-10 6.611E-10 j NW 127 1.0673-07 3.587E-08 1.211E-08 6.3923-09 3.955E-09 1.912E-09 1.1673-09 7.951E-10 NNW 92 7.727E-08 2.598E-08 8.775E-09 4.630E-09 2.865E-09 1.385E-09 8.452E-10 5.7603-10 AVERAGE 2014 1.0925-07 3.6723-08 1.208E-08 6.383E-09 3.949E-09 1.910E-09 1.1625-09 7.918E-10 DOWNWIND MO. DISTANCE FRON RELEASE POINT (NILES) EECTOR OES 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 196 8.9795-10 6.868E-10 5.431E-10 4.364E-10 J.601E-10 1.8053-10 1.110E-10 5.477E-11 NNE 286 1.310E-09 1.002E-09 7.924E-10 6.366E-10 6.2545-10 2.634E-10 1.620E-10 7.992E-11 NE 167 7.650E-10 5.852E-10 4.6275-10 3.7183-10 3.068E-10 1.538E-10 9.459E-11 4.6673-11 ENE 134 6.1395-10 4.695E-10 3.713E-10 2.984E-10 2.4623-10 1.234E-10 7.589E-11 3.745E-11 E 157 7.192E-10 5.5C1E-10 4.350E-10 3.4963-10 2.884E-10 1.446E-10 9.892E-11 4.387E-11 ESE 87 3.986E-10 3.0485-10 2.410E-10 1.937E-10 1.598E-10 8.013E-11 4.9275-11 2.4312-11 SR 70 3.207E-10 2.4533-10 2.133E-10 1.7145-10 1.4153-10 7.092E-11 4.3618-11 2.152E-11 SSE 60 2.7495-10 2.1023-10 1.6623-10 1.336E-10 1.102E-10 5.5263-11 3.398E-11 1.677E-11 8 59 2.7032-10 2.0675-10 1.635E-10 1.314E-10 1.084E-10 5.434E-11 3.342E-11 1.6492-11 SpW 106 4.856E-10 3.714E-10 2.937E-10 2.360E-10 1.947E-10 9.7635-11 6.004E-11 2.962E-11 sw 162 7.421E 10 5.6765-10 4.4883-10 3.6075-10 2.976E-10 1.492E-10 9.175E-11 4.5273-11 WBW 133 C.093E-10 4.660E-10 4.053E-10 3.257E-10 2.688E-10 1.225E-10 7.5333-11 3.717E-11 W 82 3.756E-10 2.873E-10 2.2723-10 1.8265-10 1.506E-10 7.5533-11 4.644E-11 2.2912-11 WWW 96 4.8385-10 3.700E-10 2.660E-10 2.137E-10 1.764E-10 8.8423-11 5.4375-11 2.683E-11 NW 127 5.818E-10 4.450E-10 3.519E-10 2.828E-10 2.3333-10 1.170E-10 7.193E-11 3.549E-11 NNW 92 4.2153-10 3.224E-10 2.549E-10 2.048E-10 1.6903-10 8.4'4E-11 5.211E-11 2.571E-11 AVERAGE 2014 5.794E-10 4.432E-10 3.523E-10 2.8313-10 2.336E-10 1.163E-10 7.154E-11 3.530E-11 DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) SECTOR OES 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 196 3.366E-11 2.267E-11 1.597E-11 1.197E-11 9.3153-12 7.6183-12 6.326E-12 NNE 286 4.912E-11 3.307E-11 2.3305-11 1.7475-11 1.3595-11 1.112E-11 9.230E-12 NE 167 2.868E-11 1.931E-11 1.361E-11 1.0203-11 7.937E-12 6.491E-12 5.390E-12 ENE 134 2.3022-11 1.550E-11 1.092E-11 0.187E-12 6.368E-12 5.208E-12 4.3252-12 E 157 2.697E-11 1.8163-11 1.279E-11 9.592E-12 7.462E-12 6.103E-12 5.067E-12 ESE B7 1.494E-11 1.006E-11 7.0893-12 5.3155-12 4.135E-12 3.382E-12 2.8085-12 EE 70 1.3233-11 8.9043-12 6.274E-12 4.704E-12 3.659E-12 2.993E-12 2.485E-12 SSE 60 1.0312-11 6.938E-12 4.889E-12 3.666E-12 2.852E-12 2.332E 12 1.936E-12 8 59 1.013E-11 6.823E-12 4.807E-12 3.605E-12 2.004E-12 2.293E-12 1.9043-12 SEW 106 1.821E-11 1.226E-11 8.637E-12 6.476E-12 5.038E-12 4.120E-12 3.421E-12 { SW 162 2.7833-11 1.8733-11 1.3205-11 9.8982-12 7.699E-12 6.297E-12 5.228E-12 1 WSW 133 2.284E-11 1.538E-11 1.0848-11 8.126E-12 6.321E-12 5.1698-12 4.292E-12  ! W B2 1.400E-11 9.482E-12 6.681E-12 5.010E-12 3.897E-12 3.187E-12 2.646E-12 WNW 96 1.6492-11 1.110E-11 7.822E-12 5.865E-12 4.562E-12 3.731E-12 3.098E-12 NW 127 2.181E-11 1.469E-11 1.035E-11 7.7595-12 6.0362-12 4.936E-12 4.099E-12 NNW 92 1.580E-11 1.0643-11 7.496E-12 5.621E-12 4.372E-12 3.576E-12 2.969E-12 l AVERAGE 2014 2.1702-11 1.4615-11 1.029E-11 7.717E-12 6.003E-12 4.909E-12 4.077E-12 j i i i

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I 126 1 J

p t i Tcbla B-8 [ Deposition O/O Factors for Reactor Building Vent PNPS 3RD QUARTER 199g anuma u 2/QSs GROUND-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEASE AVERAGE DEPOSITION RATES (REGULATORY GUIDE 1.111 NODEL) -- (1/N2) DONNNIND NO. DISTANCE FRON RELEASE POINT (MILES) SECTOR OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 217 1.6745-07 5.629E-00 1.9015-00 1.0035-08 6.206E-09 3.0013-09 1.031E-09 1.24BE-09 l MNE 630 4.9213-07 1.6553-07 5.589E-00 2.9493-08 1.325E-08 8.5233-09 5.3835-09 3.668E-09 NE 336 2.5923 07 8.715E-00 2.943E+0B 1.5535-08 9.609E-09 4.6475-09 2.035E-09 1.932E-09 ENE 105 1.4273-07 4.7993-00 1.6215-08 8.5515-09 5.2913-09 2.5593-09 1.561E-09 1.064E-09 5 152 1.172E-07 3.9435-00 1.3313-08 7.0263-09 4.347E-09 2.1025-09 1.2835-09 8.739E-10 1 ESE 97 7.4823 00 2.5163-08 8.4973-09 4.4045-09 2.774E-09 1.3415-09 8.184E-10 5.577E-10 l SE 57 4.396E-00 1.470E-08 5.492E-09 2.890E-09 1.793E-09 8.6715-10 4.009E-10 3.2773-10 SSE 49 4.157E-00 1.3905-08 4.7213-09 2.2655-09 1.401E-09 6.777E-10 4.134E-10 2.817E-10 S 14 .1.296E-00 4.358E-09 1.2265-09 6.4715-10 4.004E-10 1.936E-10 1.1815-10 8.050E-11 SSW 45 3.810E-08 1.2845-08 3.942E-09 2.000E-09 1.287E-09 6.2235-10 3.797E-10 2.587E-10 SW 48 4.0723-08 1.370E-08 4.2055-09 2.219E-09 1.3735-09 6.630E-10 4.0505-10 2.760E-10 . WSW 115 9.7573-00 3.281E-08 1.007E-08 5.316E-09 3.209E-09 1.5905-09 9.703E-10 6.612E-10 W 100 0.4043 00 2.053E-00 0.760E-09 5.085E-09 3.1465-09 1.521E-09 8.430E-10 5.730E-10 l l WNW 42 3.2393-00 1.089E-00 3.679E-09 1.9415-09 1.201E-09 5.8083-10 3.098E-10 2.656E-10 l l NW 54 4.1655-08 1.4013-08 4.7305-09 2.4965-09 1.544E-09 7.460E-10 4.556E-10 3.1053-10 NNW 44 3.3945-08 1.1411-08 3.054E-09 2.0343-09 1.258E-09 6.0055-10 3.713E-10 2.530E-10 AVERAGE 2193 1.076E-07 3.610E-08 1.206E-08 6.3815-09 3.9485-09 1.9093-69 1.1595-09 7.896E-10 , 1 l i I l DoNNWIND No. DISTANCE rROM mELEASE POINT (u!LES)  : l SECTOR oss 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 I N 217 9.130E-10 6.9833-10 5.522E-10 4.4375-10 3.6613-10 1.0365-10 1.1295-10 5.569E-11 ! MNE 638 2.6045-09 2.053E-09 1.6232-09 1.3053-09 1.0763-09 5.397E-10 3.3195-10 1.6373-10 ME 336 1.4145-09 1.081E-09 8.550E-10 6.870E-10 5.669E-10 2.0423-10 1.7405-10 8.623E-11 ENE 185 7.703E-10 5.9535-10 4.7673-10 3.783E-10 3.121E-10 1.5658-10 9.623E 11 4.74SE-11 E 152 6.395E-10 4.9915-10 3.96SE-10 3.1085-10 2.564E-10 1.2863-10 7.906E-11 3.9013-11 ESE 97 4.0018-10 3.121E-10 2.460E-10 1.983E-10 1.636E-10 8.205E-11 5.0453-11 2.409E-11 SE 57 2.3985-10 1.834E-10 1.5955-10 1.282E-10 1.0505-10 5.304E-11 3.161E-11 1.6095-11 SSE 49 2.0625 10 1.577E-10 1.2475-10 1.0023-10 8.2673-11 4.145E-11 2.5493-11 1.258E-11 8 14 5.090E-11 4.505E-11 3.562E-11 2.8635-11 2.3625-11 1.194E-11 7.2823-12 3.593E-12 l SSW 45 1.893E-10 1.440E-10 1.145E-10 9.2025-11 7.5925-11 3.0068-11 2.3415-11 1.1555-11 l SW 48 2.0195-10 1.545E-10 1.2215-10 9.015E-11 0.090E-11 4.060E-11 2.4975-11 1.2323-11 l WSW 115 4.830E-10 3.7018-10 3.2195-10 2.5075-10 2.1345-10 9.720E-11 5.982Ev 1 2.951E 11 W 100 4.207E-10 3.2153-10 2.5455-10 2.0453-10 1.687E-10 9.4595-11 5.2015-11 2.5663-11 , WWW 42 1.9445-10 1.487E-10 1.0695-10 B.500E-11 7.0862-11 3.553E-11 2.185E-11 1.078E-11 l i NW 54 2.2723-10 1.730E-10 1.3743-10 1.1045-10 9.110E-11 4.5603-11 2.0095-11 1.306E-11 ) l' MNW de 1.8515-10 1.416E-10 1.1205-10 9.9975-11 7.4238-11 3.722E-11 2.2b9E-11 1.1293-11 1 AVERAGE 2193 5.7775-10 4.4195-10 3.5155-10 2.825E-10 2.331E-10 1.1625-10 7.1485-11 3.5275-11 l DOWNWIND NO. D28TANCE FROM RELEASE POINT (MILES) SECTOR onS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 217 3.4235-11 2.305E-11 1.6243-11 1.218E-11 9.471E-12 7.7462-12 6.4322-12 NME 630 1.006E-10 6.776E-11 4.7745-11 3.500E-11 2.785E-11 2.277E-11 1.091E-11 NE 336 5.3005-11 3.5683-11 2.514E-11 1.80$E-11 1.4675-11 1.199E-11 9.9598-12 EME 105 2.9183-11 1.965E-11 1.304E-11 1.038E-11 8.075E-12 6.6045-12 5.483E-12 E 152 2.3988-11 1.614E-11 1.137E-11 8.529E-12 6.634E-12 5.426E-12 4.50$E-12 ESE 97 1.530E-11 1.030E-11 7.2585-12 5.443E-12 4.2345-12 3.462E-12 2.875E-12 SE 57 9.890E-12 6.6598-12 4.692E-12 3.518E-12 2.737E-12 2.230E-12 1.8503-12 SSE 49 7.729E-12 5.2045-12 3.667E-12 3.7493-12 2.139E-12 1.749E-12 1.4523-12 8 14 2.200E-12 1.487E-12 1.0485-12 7.8555-13 6.1115-13 4.9975-13 4.1495-13 SSW 45 7.090E-12 4.779E-12 3.367E-12 2.5253-12 1.9643-12 1.6063-12 1.334E-12 SW 40 7.5725 12 5.098E-12 3.5925-12 2.693E-12 2.095E-12 1.713E-12 1.423E-12 WSW 115 1.814E-11 1.2215-11 8.605E-12 6.4535-12 5.019E-12 4.105E-12 3.40tE-12 W 100 1.5773-11 1.0625-11 7.483E-12 5.611E-12 4.365E-12 3.570E-12 2.964E-12 NWW 42 6.625E-12 4.460E-12 3.1435-12 2.3573-12 1.833E-12 1.499E-12 1.245E-12 NW 54 8.518E-12 5.7353-12 4.0418-12 3.030E-12 2.3573-12 1.920E-12 1.601E-12 NNW 44 6.941E-12 4.673E-12 3.2925-12 2.4695-12 1.920E-12 1.571E-12 1.304E-12 AVERAGE 2193 2.160E-11 1.459E-11 1.0203-11 7.7103-12 5.998E-12 4.905E-12 4.073E-12 127 l L.

o , i Tabla B-8 Deposition D/O Factors for Reactor Building Vent l i l PNPS 475 QUARTER 1998 m e m E/QSs GROUND-LEVEL -- ESCTOR AVERAGE NODEL l GROUND RELEASE l 1 AYERAdM DEPOSITION RATES (RBGULATORY GUIDE 1.111 NODEL) -- (1/N2) DoNNWIND No. DISTANCE rRoM RELEASE POINT (MILES > SECTOR OBS .12 .25 .50 .75 1.00 1.50 2.00 2.50 N 130 1.0075-07 3.3865-08 1.143E-08 6.0343-09 3.7333-09 1.8055-09 1.101E-09 7.505E-10 NME 247 1.9135-07 6.433E-08 2.1733-08 1.1465-00 7.0938-09 3.430E-09 2.693E-09 1.4265-09 i NE 251 1.9443-07 6.5373-08 2.200E-00 1.1653-00 7.2005-09 3.406E-09 2.1273-09 1.4493-09 . FME 339 2.6265-07 8.8295-08 2.9023-00 1.5733-08 9.735E-09 4.700E-09 2.872E-09 1.9573-09 ' E 305 2.3625-07 7.9445-00 2.683E-08 1.416E-00 B.759E-09 4.2353-09 2.504E-09 1.761E-09 ESE 107 1.4488-07 4.8705-08 1.5455-00 0.6793-09 5.370E-09 2.5975-09 1.5048-09 1.080E-09 SE 140 1.0043-07 3.646E-08 1.2315-08 6.4903-09 4.0205-09 1.9443-09 1.1063-09 8.083E-10 SSE 58 4.4925-08 1.5113-00 5.1013-09 2.692E-09 1.666E-09 8.0545-10 4.9148-10 3.3495-10 5 42 3.5783-08 1.2035-08 3.6945-09 1.9493-09 1.206E-09 5.032E-10 3.558E-10 2.425E-10 ssw 84 7.1565-00 2.407E-08 7.388E-09 3.899E-09 2.412E-09 1.1665-09 7.1173-10 4.850E-10 BW 56 4.7715-08 1.604E-08 4.9265 09 2.5993-09 1.6003-09 7.7773-10 4.7445-10 3,233E-10 W5W 36 3.0673-08 1.0313-00 3.1663-09 1.6715-09 1.034E-09 4.9993-10 3.050E-10 2.078E l W 81 6.9015-00 2.3215 08 7.1248-09 4.1355-09 2.5598-09 1.237E-09 6.8638-10 4.6765-10 l WWW 65 5.0343-08 1.6933-08 5.7173-09 3.017E-09 1.8673-09 9.0265-10 6.0503-10 4.1253-10 MW 99 7.6675-00 2.5705-08 8.700E-09 4.5955-09 2.843E-09 1.375E-09 8.380E-10 5.7165-10 NNW 64 4.9575-08 1.6673-00 5.629E-09 2.970E-09 1.030E-09 0.8083-10 5.4223-10 3.6955-10 AVERAGE 2184 1.0725-07 3.6043-00 1.2018-00 6.3598-09 3.934E-09 1.903E-09 1.160E-09 7.9045-10 l DOWNWIND No. DISTANCE FRON RELEASE POINT (MILES) 1 BBCTOR Osa 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 l N 130 5.4925-10 4.2015-10 3.3223-10 2.669E-10 2.2023-10 1.104E-10 6.790E-11 3.350E-11 NME 247 1.0432-09 7.9013-10 6.3113-10 5.0713-10 4.194E-10 2.090E-10 1.290E-10 6.3653-11 NE 251 1.060E-09 8.1105-10 6.413E-10 5.1545-10 4.2525-10 2.1325-10 1.311E-10 6.468E-11 ENE 339 1.432E-09 1.095E C9 8.661E-10 6.960E-10 5.743E-10 2.0793-10 1.771E-10 5.736E-11 E 305 1.2005-09 9.8555-10 7.7935-10 6.2623-10 S.167E-10 2.591E-10 1.593E-10 7.8605-11 35E 187 7.9003-10 6.0425-10 4.7783-10 3.0403-10 3.168E-10 1.5005-10 9.767E-11 4.0195-11 BE 140 5.9145-10 4.5245-10 3.935E-10 3.1623-10 2.6093-10 1.199E-10 7.312E-11 3.608E-11 ) SSE SS 2.4503-10 1.8743-10 1.4825-10 1.1915-10 9.8255-11 4.9265-11 3.0295-11 1.495E-11 l 8 42 1.774E-10 1.3575-10 1.0735-10 0.6233-11 7.1153-11 3.5675-11 2.1945-11 1.002E-11 88W 84 3.5495-10 2.7145-10 2.146E-10 1.725E-10 1.4233-10 7.135E-11 4.3073-11 2.1655-11 SW 56 2.3665-10 1.0103-10. 1.431E-10 1.150E-10 9.4873-11 4.756E-11 2.925E-11 1.4433-11 WSW 36 1.5213-10 1.163E-10 1.012E-10 8.13LE-11 6.7003-11 3.0585-11. 3,900E-11 9.2773-12 W 81 3.4223-10. 2.617E-10 2.070E-10 1.6635-10 1.3725-10 6.000E-11 4.2313-11 2.0875-11 WNW ES 3.0215-10 2.3103-10 1.661E-10 1.335E-10 1.1013-10 5.521E-11 3.3955-11 1.675E-11 l NW 99 4.1825-10 3.1993-10 2.5295-10 2.0335-10 1.6775-10 S.409E-11 5.171E-11 2.5513-11 ' l NNW 64 2.704E-10 2.060E-10 1.6353-10 1.3143-10 1.0043-10 5.4363-11 3.3435-11 1.6495-11 AVERAGE 2184 5.7843-10 4.424E-10 3.516E 10 2.8253-10 2.3313-10 1.1595-10 7.1295-11 3.51BE-11 e DONNNIND NO. DISTANCE FROM RELEASE POINT (NILRE) SECTOR oss 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N' 130 2.059E-11 1.386E-11 9.7683-12 7.324E-12 5.6973-12 4.660E-12 3.069E-12 NME 247 3.9125-11 2.6343-11 1.056E-11 1.3923 11 1.083E-11 0.0535-12 7.3515-12 NE 251 3.9763-11 2.6773-11 1.806E-11 1.414E-11 1.1003-11 8.996E-12 7.470E-12 ENE 339 5.3693-11 3.6153-11 2.5473-11 1.910E-11 1.4063-11 1.215E-11 1.0095-11 E 305 4.031E-11 3.2523-11 2.2923-11 1.7103-11 1.337E-11 1.0935-11 9.0775-12 ESE 187 2.9625-11 1.994E-11 1.405E-11 1.0545-11 8.196E-12 6.703E-12 5.5655-12 SE 140 2.2175-11 1.4933-11 1.052E-11 7.089E-12 6.136E-12 5.0185-12 4.1673-12 j SSE 50 9.187E-12 6.1052-12 4.3585-12 3.2688-12 2.5425-12 2.079E-12 1.7263-12 3 42 6.6525-12 4.4798-12 3.156E-12 2.3663-12 1.8413-12 1.505E-12 1.250E-12 SSW S4 1.3305-11 0.9505-12 .6.312E-12 4.7333-12 3.601E-12 3.011E-12 2.500E-12 BW 56 .8.070E-12 5.9723-12 4.208E-12 3.155E-12 2.4545-12 2.007E-12 1.6673-12 i WSW 36 5.70kE-12 3.0395-12 2.705E-12 2.020E-12 1.570E-12 1.2903-12 1.071E-12 W 81 1.2033-11 8.6385-12 6.086E-12 4.5642-12 3.5503-12 2.903E-12 2.411E-12 WWW 65 1.030E-11 6.9323-12 4.0043-12 3.662E-12 2.0493-12 2.330E-12 1.9345-12 NW 99 1.560E-11 1.056E-11 7.4395-12 5.570E-12 4.339E-12 3.5403-12 2.9465-12 NNW 64 1.0145-11 6.025E-12 4.0095-12 3.606E-12 2.005E-12 2.294E-12 1.905E-12 AVERAGE 2184 3.1623-11 1 456E-11 1.026E-11 7.690E-12 5.982E-12 4.092E-12 4.062E-12 i 1 r l l- 128

i Tcbla B-8 l Deposition D/O Factors for Reactor Building Vent i 1 PNPS 1998 GENERAL X/QSt GROUND-LEVEL -- SECTOR AVERAGE NODEL GROUND RELEASE l AVERAGE DEPOSITION RATES (REGULAWRY GUIDE 1.111 NODEL) -- (1/N2) i DOWNWIND NO. DISTANCE FROM RELEASE POINT (MILES) NECTOR- OSS .12 .25 .50 .75 1.00 1.50 2.00 2.50 'N 694 1.306E-07 4.6603-08 1.574E-06 8.3043-09 5.138E-09 2.484E-09 1.516E-09 1.033E-09 l NME 1400 2.811E-07 9.454E-08 3.193E-08 1.605E-08 1.042E-08 5.040E-09 3.075E-09 2.096E-09 I NE 875 1.7475-07 5.8753-08 1.9848-0d 1.047E-08 6.473E-09 3.1325-09 1.911E-09 1.3025-09 ! ENE 765 1.5273-07 5.136E-08 1.735E-08 9.153E-09 5.6635-09 2.7393-09 1.671E-09 1.139E-09 i E 803 1.6033-07 5.3913-08 1.821E-00 9.608E-09 5.944E-09 2.8753-09 1.754E-09 1.195E-09 ESE 550 1.0983-07 3.693E-00 1.2478-08 6.501E-09 4.0725 09 1.9693-09 1.201E-09 0.186E-10 SE 456 9.104E-08 3.0625-08 1.034E-08 5.456E-09 3.376E-09 1.632E-09 9.959E-10 6.787E-10 SSE 244 4.8725-08 1.6303-08 5.5333-09 2.919E-09 1.006E-09 8.7355-10 5.329E-10 3.6313-10 i S 199 4.370E-08 1.470E-00 4.512E-09 2.3015-09 1.473E-09 7.124E-10 4.346E-10 2.962E-10 J SSW 435 9.553E-08 3.213E-08 9.863E-09 5.2055-09 3.220E-09 1.557E-09 9.501E-10 6.474E-10 BW 445 9.773E-08 3.287E.00 1.009E-08 5.3243-09 3.294E-09 1.593E-09 9.7195-10 6.623E 10 Wsw 377 8.2003-00 2.7845-00 8.54BE-09 4.511E-09 2.791E-09 1.350E-09 8.234E-10 5.6113-10 W 366 0.0305-00 2.703E-00 8.2993-09 4.817E-09 2.900E-09 1.441E-09 7.994E-10 5.4475-10 WNW 248 4.951E-00 1.6655-00 5.623E-09 2.967E-09 1.836E-09 8.878E-10 5.958E-10 4.060E-10 NW 319 6.369E-00 2.1423-00 7.2333-09 3.817E-09 2.3623-09 1.142E-09 6.967E-10 4.7403 10 MWW ' 280 5.750E-08 1.934E-08 6.530E-09 3.446E-09 2.132E-09 1.0315-09 6.290E-10 4.286E-10 1 AVERAGE 8472 1.000E-07 3.6325-08 1.201E-08 6.3635-09 3.9378-09 1.904E-09 1.160E-09 7.904E-10 DOWNWIND NO. DISTANCE FROM RELEASE POINT (NILES) I SECTOR OSS 3.00 3.50 4.00 4.50 5.00 7.50 10.00 15.00 N 694 7.5583-10 5.781E-10 4.5713-10 3.673E-10 3.031E-10 1.520E-10 9.344E-11 4.610E-11 NNE 1408 1.533E-09 1.1735-09 9.274E-10 7.453E-10 6.149E-10 3.083E-10 1.8965-10 9.354E-11 NE 875 9.529E-10 7.289E-10 5.7638-10 4.631E-10 3.821E-10 1.916E-10 1.170E-10 5.8133-11 ENE 765 0.331E-10 6.372E 10 5.0395-10 4.0495-10 3.3415-10 1.675E-10 1.030E-10 5.002E-11 E 803 8.745E-10 6.6893-10 5.289E-10 4.250E-10 3.5073-10 1.758E-10 1.081E-10 5.334E-11 ESE 550 5.990E 10 4.581E-10 3.6233-10 2.911E-10 2.402E-10 1.204E-10 7.405E-11 3.654E-11 SE 456 4.966E-10 3.7983-10 3.304E-10 2.655E-10 2.1913-10 9.995E-11 6.1403-4. 3.029m ** SSE 244 2.6573-10 2.032E-10 1.607E-10 1.2913-10 1.066E-10 5.3433-11 3.285E-11 1.oJ1E-11 ] 8 199 2.1675-10 1.6585-10 1.311E-10 1.0533-10 B.691E-11 4.357E-11 2.679E-11 1.322E-11 l SSW 435 4.7375-10 3.4233-10 2.8655-10 2.302E-10 1.900E-10 9.525E-11 5.8575-11 2.890E-11 i sw 445 4.8465-10 3.7075-10 2.9313-10 2.355E-10 1.9433-10 9.7443-11 5.992E-11 2.956E-11 l WrW 377 4.106E-10 3.140E-10 2.731E-10 2.195E-10 1.811E-10 8.255E-11 5.076E-11 2.504E-11 366 3.986E-10 3.0493-10 2.411E-10 1.937E-10 1.598E-10 8.0145-11 4.928E-11 2.4315-11 WNW 248 2.971E-10 2.272E-10 1.633E-10 1.313E-10 1.083E-10 5.4309-11 3.339E-11 1.6433-11 1 NW 319 3.4743-10 2.6575-10 2.101E-10 1.6845-10 1.393E-10 6.9855-11 4.295E-11 2.1193-11 l MMW 288 3.1363-10 2.399E-10 1.0975-10 1.524E-10 1.2585-10 6.306E-11 3.878E-11 1.9135-11 AVERAGE 8472 5.783E-10 4.424E-10 3.522E-10 2.0303-10 2.335E-10 1.159E-10 7.129E-11 3.5185-11 DOWNWIND NO. DISTANCE FROM REX. EASE POINT (NILES) SECTOR OBS 20.00 25.00 30.00 34.95 40.00 45.00 50.00 N 694 2.634E-11 1.908E-11 1.344E-11 1.008E-11 7.8413-12 6.412E-12 5.324E-12 NME 1408 5.749E-11 3.871E-11 2.7275-11 2.045E-11 1.591E-11 1.301E-11 1.080E-11 NE 875 3.573E-11 2.40!E-11 1.695,E 11 1.271E-11 9.886E-12 0.0055-12 6.713E-12 ENE 765 3.1243-11 2.1035-11 1.482E-11 1.1115-11 8.643E-12 7.068E-12 5.869E-12 . E 803 3.279E-11 2.207E-11 1.5553-11 1.166E-11 9.072E-12 7.4205-12 6.1615-12 ESE 550 2.246E-11 1.512E-11 1.065E-11 7.988E-12 6.214E-12 5.082E 12 4.220E-12 , SE 456 1.062E-11 1.254E-11 8.0335-12 6.623E-12 5.152E-12 4.213E-12 3.499E-12 ] SSE 244 9.963E-12 6.7083-12 4.726E-12 3.544E-12 2.757E-12 2.255E-12 1.872E-12 i S 199 8.125E-12 5.471E-12 3.8555-12 2.8905-12 2.240E-12 1.039E-12 1.527E-12 Stw 435 1.7763-11 1.196E-31 8.4265-12 6.318E-12 4.9155-12 4.019E-12 3.3375-12 BW 445 1.817E-11 1.2233-11 8.620E-12 6.463E-12 5.0283-12 4.112E-12 3.414E-12 WrW 377 1.539E-11 1.036E-11 7.302E-12 5.4763-12 4.2595-12 3.483E-12 2.8925-12 , W 366 1.494E-11 1.006E-11 7.009E-12 5.3165-12 4.135E-12 3.382E-12 2.808E-12 ' WWW 248 1.0133-11 6.018E-12 4.8043-12 3.602E-12 2.002E-12 2.291E-12 1.903E-12 j NW 314 1.303E-11 8.769E-12 6.1795-12 4.633E-12 3.604E-12 2,948E-12 2.447E-12 - NNW 288 1.176E-11 7.9178-12 5.570E-12 4.183E-12 3.254E 12 2.661E-12 2.210E-12 l l AVERAGE 8472 2.162E-11 1.4563-11 1.026E-11 7.690E-12 5.982E-12 4.892E-12 4.062E-12 I 1 129 1 J

l APPENDIX C l PILGRIM NUCLEAR POWER STATION OFFSITE DOSE CALCULATION MANUAL , I 1 I The PNPS Offsite Dose Calculation Manual (ODCM) was revised in August 1998 to incorporate changes recommended by the NRC in Generic Letter 89-01. This changed relocated the effluent control and environmental monitoring programs from the Technical Specifications to the ODCM. A copy of the revised ODCM follows. , l 1 I l l l l l l l l l l l 1 l l l 130 l

PNPS-ODCM  ! Rtv. 8 l

 ,                                                                            l l

l i l PILGRIM NUCLEAR POWER STATION i i OFFSITE DOSE CALCULATION MANUAL i l l l I APPROVED BY: CHEMISTRY f.> ! T b l ' ate DEPARTMENT MANAGER , APPROVED BY: O,M 6 l RADIATION- +y Date P CTION MANAGER REVIEWED BY: 42 / / S/7 ORC CHATR'M N Date Rev. O was originally reviewed by ORC on June 10,1983. L ORC REVIEW REQUIRED t

l PNPS-ODCM Rsv. 8 RECORD OF DOCUMENT CHANGES DOCUMENT REV. DATE SECTION NO. IDENTIFICATION OF CHANGE APPROVED AND PAGE O Original Submittal 06/10/1983 All Sections 1 Update of TLD and Air Sample Locations OG/01/1987 7.0/7-7 & 7-8 2 Changes in response to NRC questions on PNPS 07/15/1988 All Sections ODCM (TAC #63012). Changes in response to j technical review performed by BECo Radictogical Section. 3 Changes in response to NRC comments on PNPS 07/12/1989 Preliminary pages, 1 ODCM Rev. 2 (TAC #69867). Correct typographical 3.3, 4.2, 6.1, 7.0 error in Table A-3. Incorporate new TLD locations. (7-3 & 7-5),8.1, Change responsible division. A-3 4 Update signature page to reflect new responsible 09/27/1991 Page i through vii; l organization. Update record of document changes, pages 13-15, { Renumber pages lii through vii to include list of 17-23,25-28, 1 effective page revisions. Revise pages containing 30-32, 49, and j equations and definitions to include machine- A-4; Appendix B. { generated scientific characters. Address gardens identified during 1990 garden census in Table 7-5 in accordance with Technical Specification 7.1.B.2. Expand definition of Lower Limit of detection in Appendix B. 5 Add Steam Jet Air Ejector Monitor to section 10/30/1991 Pages I, ii, iii, v, addressing monitor setpoints. 34a 6 Update revision Log; renumber pages il through viii; 08/11/1994 Pages i through clarity definition of dilution flow used for liquid viii; 14,17, 33, effluent discharges; clarify assumptions used in 34a, A-35 gaseous effluent dose calculations and SJAE monitor setpoints. 7 Reference NRC Safety Evaluation and 11/22/1995 Pages i through vi, 10CFR20.302 permit for onsite disposal of slightly Appendix C, page contaminated construction soil; repaginate C-1 preliminary pages. 8 Relocate Effluent Controls from PNPS Technical 08/27/1998 Entire document Specifications to the ODCM in accordance with Generic Letter 89-01; Repaginate and sectionalize entire ODCM; update distance and direction information for environmental sampling locations. ii

PNPS-ODCM Rsv. 8 LIST OF EFFECTIVE PAGE REVISIONS Page Rev. Page l Rev. ! Page 1 Rev. Page i Rev. Page ! Rev. Page i Rev. i 8 3/4 16 8 5-1 8 9-1 8 A-1 8 B-1 8 ii 8 3/4-17 8 52 8 9-2 8 A-2 8 B-2 8 iii 8 3/4-18 8 9-3 8 A-3 8 B-3 8 iv 8 3/4-19 8 9-4 8 A-4 8 v 8 3/4-20 8 9-5 8 A-5 8 vi 8 3/4-21 8 9-6 8 A-6 8 vii 8 3/4-22 8 9-7 8 A-7 8 viii 8 3/4-23 8 9-8 8 A-8 8 ix 8 3/4-24 8 6-1 8 9-9 8 A-9 8 C-1 8 3/4-25 8 6-2 8 9-10 8 A-10 8 3/4-26 8 9-11 l 8 A-11 8 3/4-27 8 9-12 8 A-12 8 3/4-28 8 9-13 8 A-13 8 3/4-29 8 9-14 8 A-14 8 l-1 8 3/4-30 8 9-15 8 A-15 8 l-2 8 3/4-31 8 A-16 8, 1-3 8 3/4-32 8 7-1 8 A-17 8 3/4-33 8 7-2 8 A-18 8 3/4-34 8 7-3 8 A-19 8 3/4-35 8 7-4 8 A-20 8 3/4-36 8 7-5 8 A-21 8 3/4-37 8 7-6 8 10-1 8 A-22 8 3/4-38 8 10-2 8 A-23 8 21 8 3/4 39 8 A-24 8 3/4-40 8 A-25 8 3/4-41 8 A-26 8 3/4-42 8 A-27 8 3/4-43 8 A-28 8 3/4-44 8 8-1 8 A-29 8 3/4-45 8 8-2 8 11 1 8 A-30 8 3/4-1 8 3/4-46 8 8-3 8 11-2 8 A-31 8 3/4-2 8 3/4-47 8 8-4 8 A-32 8 3/4-3 8 3/4-48 8 A-33 8 3/4-4 8 3/4-49 8 A-34 8 3/4-5 8 3/4-50 8 A-35 8 3/4-6 8 3/4-51 8 A-36 8 3/4-7 8 12 1 8 A-37 8 3/4-8 8 A-38 8 3/4-9 8 A-39 8 3/4-10 8 A-40 8 3/4-11 8 A-41 8 3/4-12 8 13-1 8 A-42 8 3/4-13 8 13-2 8 A-43 8 3/4-14 8 3/4-15 8 iii 1

PNPS-ODCM Rev. 8 TABLE OF CONTENTS SECTION TITLE PAGE RECORD OF DOCUMENT CHANGES ii LIST OF EFFECTIVE PAGE REVISIONS iii TABLE OF CONTENTS iv LIST OF FIGURES vii LIST OF TABLES viii

1.0 INTRODUCTION

1-1 2.0 DEFINITIONS 2-1 3/4.0 EFFLUENT AND ENVIRONMENTAL CONTROLS 3/4-1 3/4.1 INSTRUMENTATION 3/4-2 3/4.1.1 Radioactive Liquid Effluent instrumentation 3/4-2 3/4.1.2 Radioactive Gaseous Effluent Instrumentation 3/4-5 3/4.2 RADIOACTIVE LIQUID EFFLUENTS 3/4-10 3/4.2.1 Liquid Effluents Concentration 3/4-10 3/4.2.2 Dose - Liquids 3/4-12 3/4.2.3 Liquid Radwaste Treatment 3/4-13 3/4.3 RADIOACTIVE GASEOUS EFFLUENTS 3/4-15 3/4.3.1 Gaseous Effluents Dose Rate 3/4-15 3/4.3.2 Dosa - Noble Gases 3/4-17 3/4.3.3 Dose - lodine-131, lodine-133, Radioactive Material in Particulate 3/4-18 Form, and Tritium 3/4.3.4 Gaseous Effluent Treatment 3/4-19 3/4.4 TOTAL DOSE 3/4-21 3/4.4.1 Total Dose 3/4-21 3/4.5 RADIOLOGICAL ENVIRONMENTAL MONITORING 3/4-22 3/4.5.1 Environmental Monitoring Program 3/4-22 3/4.5.2 Land Use Census 3/4-46 i 3/4.6 EFFLUENT CONTROLS BASES 3/4-47 l 1 iv l J

PNPS-ODCM Rev. 8 TABLE OF CONTENTS (continued) SECTION - TITLE PAGE 5.0 RAD OLOGICAL EFFLUENT CONTROLS AND METHODOLOGY 5-1 CROSS REFERENCE

6.0 DESCRIPTION

OF RADWASTE SYSTEMS 6-1 6.1 Liquid Radwaste System 6-1 6.2 Treated Gaseous Radwaste System 6-1 7.0 RELEASE POINT AND MONITOR DESCRIPTION 7-1 7.1 Radioactive Effluent Release Point Description 7-1 7.1.1 Liquid Radioactive Waste Effluent Release 7-1 7.1.2 Main Stack Gas Release 7-1 7.1.3 Reactor Building Exhaust Vent Release 7-2 7.2 Radioactive Effluent Monitoring System Description 7-3 l 7.2.1 Liquid Radioactive Waste Effluent Monitoring System 7-3 7.2.2 Main Stack Gas Monitoring System 7-3 7.2.3 Reactor Building Exhaust Vent Monitoring System 7-4 ) 7.3 Measurement Method During Release 7-6 l 7.3.1 Liquid Effluent 7-6 7.3.2 Gaseous Effluent 7-6 7.3.3 Limitations 7-6 8.0 MONITOR SETPOINTS 8-1 8.1 Liquid Effluent Monitor 8-1 8.2 Gaseous Effluent Monitors 8-2 8.3 Steam Jet Air Ejector Monitor 8-3 9.0 CALCULATIONAL METHODS 9-1 9.1 Concentrations of Liquid Effluents 9-1 9.2 Liquid Effluents Dose Assessment Methodology 9-2 9.2.1 Liquid Pathways Annual Dose Rates 9-2 9.2.1.1 Aquatic Foods Ingestion (Fish, shellfish) 9-2 9.2.1.2 Shoreline Deposits (Discharge Canal and Recreational Area) 9-3 9.2.1.3 Swimming (White Horse Beach) 9-3 9.2.1.4 Yachting / Boating (Cape Cod Bay) 9-3 9.2.2 Definitions 9-4 , l v j

PNPS-ODCM Rev. 6 TABLE OF CONTENTS (continued) SECTION TITLE PAGE 9.3 Gaseous Effluents Dose Assessment Methodology 9-6 9.3.1 Gaseous Pathways Annual Dose Rates from Noble Gases 9-6 9.3.1.1 Gamma Air Dose 9-6 9.3.1.2 Beta Air Dose 9-7 9.3.1.3 Total Body Dose 9-7 9.3.1.4 Skin Dose 9-7 9.3.2 Gaseous Pathways Annual Dose Rates from lodine 131 and 133, 9-8 ) Particulates with a Half-Life Greater Than 8 Days, and Tritium l 9.3.2.1 Ground Plane Deposition 9-8 9.3.2.2 Breathing / Inhalation 9-8  ! 9.3.2.3 Leafy Vegetation Ingestion 9-9 9.3.2.4 Root Crop /Non-Leafy Vegetation Ingestion 9-10 9.3.2.5 Milk Ingestion 9-10 9.3.2.6 Meat Ingestion 9-10 9.3.3 Definitions 9-11  ! 9.4 Total Dose to a Member of the Public 9-15 4 10.0 RECEPTOR LOCATIONS, HYDROLOGY, AND METEOROLOGY 10-1 11.0 RADIOLOGICAL ENVIRONMENTAL SAMPLING AND 11-1 MEASUREMENT LOCATIONS 12.0 ANNUAL REPORT PREPARATION 12-1 12.1 Annual Effluent and Waste Disposal Report 12-1 12.2 Annual Radiological Environmental Operating Report 12-1

13.0 REFERENCES

13-1 Appendix A DATA REQUIRED FOR EFFLUENT CALCULATIONS A-1 Appendix B DEFINITION OF THE LOWER LIMIT OF DETECTION B-1 Appendix C NRC SAFETY EVALUATION FOR ONSITE DISPOSAL OF C-1 SLIGHTLY CONTAMINATED CONSTRUCTION SOIL vi

1 PNPS-ODCM Rev.8 LIST OF FIGURES FIGURE PAGE NUMBER FIGURE TITLE NUMBER 4.2-1 Liquid Radwaste Treatment System Schematic 3/4-14 4.3-1 Gaseous Effluent Treatment System Schematic 3/4-20 3.5-1 Environmental TLD Locations Within the PNPS Protected Area 3/4-32 3.5-2 TLD and Air / Soil Sampling Locations: Within 1 Kilometer 3/4-34 3.5-3 TLD and Air / Soil Sampling Locations: 1 to 5 Kilometers 3/4-36 3.5-4 TLD and Air / Soil Sampling Locations: Greater Than 5 Kilometers 3/4-38

                                                                                     ]

3.5-5 Terrestrial and Marine / Aquatic Sampling Locations 3/4-40 1 3.5-6 Environmental Sampling and Measurement Control Locations 3/4-42 l I l l I l l \ I l l 1 i l t Vii

                                                                                     )

PNPS-ODCM Rev. 8 LIST OF TABLES TABLE PAGE NUMBER TABLE TITLE NUMBER 1.1 Effluent Controls Cross-Reference 1-2 3.1 -1 Radioactive Liquid Effluent Monitoring Instrumentation 3/4-3 4.1-1 Radioactive Liquid Effluent Monitoring Instrumentation Surveillance 3/4-4 Requirements 3.1-2 Radioactive Gaseous Effluent Monitoring Instrumentation 3/4 6 l 4.1 -2 Radioactive Gaseous Effluent Monitoring Instrumentation Surveillance 3/4-8 Requirements 4.2-1 Radioactive Liquid Waste Sampling and Analysis Program 3/4-11 j 4.3-1 Radioactive Gaseous Waste Sampling and Analysis Program 3/4-16 3.5-1 Operational Radiological Environmental Monitoring Program 3/4-24 3.5-2 Environmental TLD Locations 3/4-29 3.5-3 Routine Radiological Environmental Sampling Locations 3/4-30 l 3.5-4 Reporting Levels for Radioactivity Concentrations in Environmental 3/4-44 Samples 4.5-1 Detection Capabilities for Environmental Sample Analysis 3/4-45 5-1 PNPS Effluent Controls And Methodology Cross-Reference 5-2 7-1 Radioactive Effluent Monitor Data 7-5 10-1 Critical Receptor Locations and Atmospheric Dispersion Factors 10-2 A-1 Bioaccumulation Factors To Be Used in The Absence Of Site-Specific A-1 Data i A-2 Dose Factors For immersion in Water A-2 l A-3 Recommended Values For Liquid Effluents A-3 A-4 Dose Factors For Exposure To A Semi-Infinite Cloud Of Noble Gases A-4 A-5 Stable Element Transfer Data A-5 A-6 Nuclide Transfer Parameters For Goat's Milk A-6 A-7 Animal Consumption Rates A-6 i A-8 Recommended Use Factors To Be Applied For The Average Individual A-7  ; 1 A-9 Recommended Use Factors To Be Applied For The Maximum Exposed A-8 Individual A-10 External Dose Factors For Standing On Contaminated Ground A-9 A-11 inhalation Dose Factors For Adult A-11 A-12 Inhalation Dose Factors For Teen A-15 A-13 Inhalation Dose Factors For Child A-19 A-14 Inhalation Dose Factors For Infant A-23 l l viii

l I l PNPS-ODCM Rsv.8 LIST OF TABLES (continued) TABLE PAGE NUMBER- TABLE TITLE NUMBER A-15 Ingestion Dose Factors For Adult A-27 A-16 Ingestion Dose Factors For Teen A-31 A-17 Ingestion Dose Factors For Child A-35 A-18 Ingestion Dose Factors For Infant A-39 A-19 Recommended Values For Gaseous Effluents A-43 l I l IX

PNPS-ODCM Rev. 8

1.0 INTRODUCTION

This manual contains the current methodology, parameters, data, and information used in the calculation of offsite doses due to radioactive gaseous and liquid effluents, in the calculation of gaseous and liquid effluent monitor alarm / trip setpoints, and in the conduct of the radiological environmental monitoring program. All effluent controls contained in the Offsite Dose Calculation Manual (ODCM) were originally part of the PNPS Technical Specifications (Reference 1). In response to Generic Letter 89-01 (Reference 2) from the Nuclear Regulatory Commission, these Radiological Effluent Technical Specifications (RETS) were removed from the main body of the Technical Specifications and j relocated to the ODCM. ' The effluent controls previously existed as parts of Section 3/4.8 and Section 7/8 of the PNPS Technical Specifications. In conjunction with the transfer of the effluent controls from the RETS to the ODCM, the numbering scheme for the individual effluent controls were changed to agree with the numbering scheme present in NUREG-1302, "Offsite Dose Calculation Manual Guidance: Standard Radiological Effluent Controls for Boiling Water Reactors". The original Technical Specification 3/4.8.F, " Gaseous Effluent Treatment", addressed both offgas treatment and explosive gas monitoring, in accordance with the guidance in Generic Letter 89-01, monitoring of explosive gas concentrations was to be retained in the main body of the Technical Specifications. Subsequent to GL89-01, the improved standard technical specifications removed the requirement for explosive gas monitoring, in accordance with NEDO-31466. Therefore, the original Technical Specification 3/4.8.F was partitioned and the portion addressing offgas treatment was relocated to the ODCM Effluent Controls (Control 3/4.3.4). The portion of the original Specification 3/4.8.F addressing explosive gas monitoring was relocated to the FSAR (Reference 3). A cross-reference of the original Technical Specification Section to the revised ODCM Effluent Control Section is included in Table 1.1. j I in conjunction with the GL89-01 change, the ODCM was restructured from that which previously ) existed. None of the requirements or methodologies were changed. Rather, the various sections  ; were reorganized to facilitate support of the effluent controls relocated from the Technical  ; Specifications. Descriptions of effluent monitoring systems and setpoint calculations were rnoved j to the sections immediately following the controls, followed by dose calculation methodologies, I and finally by the environmental monitoring program section. Supporting information is listed in l the appendices at the rear of the manual. ] l

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l 1 3 1 i i i l 1-1

PNPS-ODCM Rev. 8 TABLE 1.1 EFFLUENT CONTROLS CROSS REFERENCE Original Technical Revised ODCM Effluent Control Topic Specification Section Control Section Liquid Effluents Concentration 3.8.A.1 3.2.1 4.8.A.1 4.2.1.a 4.8.A.2 4.2.1.b Table 4.8-1 Table 4.2-1 Radioactive Liquid Effluent Instrumentation 3.8.B.1 3.1.1 4.8.B.1 4.1.1.a 4.8.B.2 4.1.1.b l Table 3.8-1 Table 3.1-1 j Table 4.8-2 Table 4.1-1 i Liquid Radwaste Treatment 3.8.C.1 3.2.3 4.8.C.1 4.2.3.a 4.8.C.2 4.2.3.b Figure 4.81 Fi.gpre 4.2-1 Gaseous Effluents Dose Rate 3.8.D.1 3.3.1 4.8.D.1 4.3.1.a 4.8.D.2 4.3.1.b Table 4.8-3 Table 4.3-? Radioactive Gaseous Effluent 3.8.E.1 3.1.2 Instrumentation 4.8.E.1 4.1.2.a , 4.8.E.2 4.1.2.b ) Table 3.8-2 (partial) Table 3.1-2 l Table 4.8-4 (partial), Table 4.1-2 i Gaseous Effluent Treatment 3.8.F.a 3.3.4 3.8.F.1 Relocated to FSAR l 4.8.F.1 4.3.4 4.8.F.2 Relocated to FSAR Figure 4.8-2 Figpre 4.3-1 Environmental Monitoring 7.1. A 3.5.1 8.1.A 4.5.1 Table 7.1-1 Table 3.5-4 Table 8.1-1 Table 3.5-1 Table 8.1-2 Table 3.5-3 Table 8.1-3 Table 3.5-2 Table 8.1-4 Table 4.5-1 Land Use Census 7.1.B 3.5.2 8.1.B 4.5.2 1-2

PNPS-ODCM Rev. 8 TABLE 1.1 (continued) l EFFLUENT CONTROLS CROSS-REFERENCE Original Technical Revised ODCM i l Effluent Control Topic Specification Section Control Section Dose - Liquids 7.2.A 3.2.2 8.2.A 4.2.2 ! Dose - Noble Gases 7.3.A 3.3.2 8.3.A 4.3.2 1 Dose - lodine-131, lodine-133, Radioactive 7.4.A 3.3.3 l Material in Particulate Form, and Tritium 8.4.A 4.3.3 l j Total Dose 7.5.A 3.4.1  ! 8.5.A 4.4.1 l l l l l 1 l l I l l 1-3 i

                                                                                              )

PNPS-ODCM Rev. 8 2.0 DEFINITIONS This section lists definitions which are unique to the ODCM. Other definitions pertaining to

actions and surveillance requirements for the various controls can be found in the Technical Specifications (Reference 1). ,

l 2.1 Member (s) of the Public - Member (s) of the public shall include all persons who are not occupationally associated with the plant. This category does not include employees of the utility, its contractors, or vendors. Also excluded from this category are persons who enter l the site to service equipment or to rnake deliveries. This category does include persons i who use portions of the site for recreational, occupational or other purposes not associated l with the site. 2.2 Offsite Dose Calculation Manual (ODCM) - The Offsite Dose Calculation Manual (ODCM) shall contain the methodology and parameters used in the calculation of offsite doses l resulting from radioactive gaseous and liquid effluents, in the calculation of gaseous and l liquid effluent monitoring Alarm / Trip Setpoints, and in the conduct of the Radiological l Environmental Monitoring Program. The ODCM shall also contain: (1) the Radioactive Effluent Controls and Radiological Environmental Monitoring Programs required by Technical Specifications Administrative Controls 5.5.1 and 5.5.4; and, (2) descriptions of the information that should be included in the Annual Radiological Environmental Operating and Annual Radioactive Effluent Release Reports required by Technical Specifications Administrative Controls 5.6.2 and 5.6.3. 2.3 Radwaste Treatment System

a. Gaseous Radwaste Treatment System - The gaseous radwaste treatment system is that system identified in Figure 4.3-1.

b. Liould Radwaste Treatment System - The liquid radwaste treatment system is that system identified in Figure 4.2-1. l 2.4 Site Boundarv - The site boundary is shown in Figure 1.6-1 in the FSAR (Reference 3).

i l l l l 2-1 l \ l l j

PNPS-ODCM Rev. 8 3/4.0 EFFLUENT AND ENVIRONMENTAL CONTROLS This section includes the effluent and environmental controls that were originally part of the PNPS Technical Specifications. With the exception of the environmental monitoring program previously listed in the Technical Specifications (Reference 1), these controls were relocated into the ODCM without any substantial changes, in accordance with Generic Letter 89-01 (Reference 2). Text and tables were reformatted to the style of the ODCM. The various controls were renurnbered from the original numbering scheme of the Technical Specifications. A cross-reference of the old Technical Specifications section to the new ODCM section is presented in Table 1.1. l Prior to the Generic Letter 89-01 change to the ODCM (Revision 8), the ODCM contained an enhanced radiological environmental monitoring program (REMP), above that required by the Technical Specifications. To prevent confusion and capture the more inclusive monitoring program that existed in the ODCM, the original Technical Specification REMP was replaced with the REMP described in the ODCM. Therefore, the monitoring program listed in section 3/4.5 contains more samples and monitoring locations than existed in the Technical Specifications REMP prior to the Generic Letter 89-01 change. In addition to the changes in the REMP program described above, all of the tables were revised with the latest distance and direction information available. The global positioning system (GPS) was used to verify the locations of the various sampling and monitoring stations, and the tables were updated accordingly, in keeping with governmental efforts to adopt the metric system of measurement, all distances have been listed in metric units (meters and/or kilometers) in the various tables and figures. Any changes in distances and directions to the various monitoring locations from those originally listed in the Technical Specifications REMP are corrections based on new iriformation. None of the locations of the sampling stations were actually changed. Some of the verbal descriptions, especially those for near-plant TLDs, have been updated to reflect current names of buildings and other areas near Pilgrim Station. Again, none of the physical locations were altered, and the change merely reflects up-to-date place names adopted by station management. 3/4-1 { J

PNPS-ODCM Rev.3 3/4.1 INSTRUMENTATlON i 3/4.1.1 Radioactive Liould Effluent Instrumentation CONTROLS l 3.1.1 The radioactive liquid effluent monitoring instrumentation channels shown in Table 3.1-1 shall be operable with their alarm / trip setpoints set to ensure that the limits of Controls 3.2.1 are not exceeded during periods when liquid wastes are being discharged via the radwaste discharge header. For releases other than the radwaste discharge header, the above specification does not apply, these releases shall be made in accordance with Action 1 of Table j 3.1-1. l APPLICABILITY: As shown in Table 3.1-1. ACTION:

a. With a radioactive liquid effluent monitoring instrumentation channel alarm / trip setpoint less conservative than a value which will ensure that the limits of Control 3.2.1 are met, without delay suspend the release of radioactive liquid effluents monitored by the affected channel or change the setpoint so that it is acceptably conservative or declare the channel inoperable.

b. With one or more radioactive liquid effluent monitoring instrumentation channels inoperable, take the action shown in Table 3.1-1.

l SURVEILLANCE REQUIREMENTS 4.1.1.a The setpoints for monitoring instrumentation shall be determined in accordance with the ODCM. 4.1.1.b Each radioactive liquid effluent monitoring instrumentation channel shall be demonstrated operable at the frequencies shown in Table 4.1-1. I 3/4-2 b

PNPS-ODCM Rev. 8 TABLE 3.1-1 RADIOACTIVE LlOUlD EFFLUENT MONITORING INSTRUMENTATION Minimum Channels Instrurnent Operable Applicability Action m

1. GROSS RADIOACTIVITY MONITORS PROVIDING AUTOMATIC TERMINATION OF RELEASE:

a. Liquid Radwaste 1 During actual discharge of 1 Effluent Line liquid wastes

2. FLOW RATE MEASUREMENT DEVICES:

a. Liquid Radwaste 1 During actual discharge of 2 l Effluent Line liquid wastes

b. Discharge Canal

• N/A During actual discharge of 3

liquid wastes W Actions Required --

1 ACTION 1: With the number of operable channels less than required by the minimum channels operable requirement, effluent releases may be resumed provided that prior to initiating a release: l a. At least two independent samples are analyzed in accordance with Control 4.2.1.a; and, ! b. An independent verification of the release rate calculations is performed; and,

c. An independent verification of the discharge valving is performed.

ACTION 2: With the number of operable channels less than required by the minimum channels operable requirement, effluent releases via this pathway may continue provided that the flow rate is verified at least once per 4 hours during actual releases. ACTION 3: Suspend all radioactive liquid effluent discharges if no dilutior water is available.

• Flow will be estimated based on design flow rate of the operating circulateq water pumps and/or operating salt service water pumps.

l l l l 3/4 3 i

PNPS-ODCM Rev. 8 TABLE 4.1-1 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS l Instrument Source Channel Channel Instrument Check Check Calibration Functional Test

1. GROSS BETA OR GAMMA RADIOACTIVITY MONITORS PROVIDING ALARM AND AUTOMATIC ISOLATION

a. Liquid Radwaste N/A Once per Quarterly Effluents Line 18 months *

2. FLOW RATE MEASUREMENT DEVICES

a. Liquid Radwaste N/A Once per Quarterly Effluents Line 18 months U)

During or prior to release via this pathway. (2) Previously established calibration procedures will be used for these requirements. 3/4-4

F 1 PNPS-ODCM Rev. 8 3/4.1 INSTRUMENTATION , { 3/4.1.2 Radioactive Gaseous Effluent Instrumentation CONTROLS 3.1.2 The radioactive gaseous effluent monitoring instrumentation channels shown in Table 3.1-2 shall be operable with their alarm / trip setpoints set to ensure that the limits of Control 3.3.1 are not exceeded. APPLICABILITY: As shown in Table 3.1-2 ACTION: , l

a. With a radioactive gaseous effluent monitoring instrumentation channel alarm / trip setpoint less conservative than a value which will ensure that the limits of Control l 3.3.1 are met, change the setpoint so that it is acceptably conservative or declare the channelinoperable. i i

b. With one or more radioactive gaseous effluent monitoring instrumentation channels )

inoperable, take the action shown in Table 3.1-2. l l SURVEILLANCE REQUIREMENTS 1 4.1.2.a The setpoints shall be determined in accordance with ODCM. l 4.1.2.b Each radioactive gaseous effluent monitoring instrumentation channel shall be I demonstrated operable at the frequencies shown in Table 4.1-2. l l 3/4-5 i

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y_ PNPS-ODCM Rev. 8 TABLE 3.1-2 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION Minimum Channels Instrument Operable Applicability Parameter Action ("

1. MAIN STACK EFFLUENT MONITORING SYSTEM

a. Noble Gas Activity 1 Radioactivity Rate 1 Monitor Providing Alarm Measurement

b. lodine Sampler 1 Collect Halogen 2 Cartridge Sample

c. Particulate Sampler 1 Collect Particulate 2 Filter Sample

(*'

d. Effluent System Flow 1 System Flow Rate 3 Rate Measuring Device Measurement

e. Sarnpler Flow Rate 1 Sampler Flow Rate 3 Measuring Device Measurement

2. REACTOR BUILDING VENTILATION EFFLUENT MONITORING SYSTEM

a. Noble Gas Activity 1

                                                 ")       Radioactivity Rate         1 Monitor Providing Alarm                           Measurement

b. lodine Sampler 1 Collect Halogen 2 Cartridge Sample

c. Particulate Sampler 1 Collect Particulate 2 Filter Sample

d. Effluent System Flow 1 System Flow Rate 3 Rate Measuring Device Measurement

e. Sampler Flow Rate 1

                                                 ")       Sampler Flow Rate          3 Measuring Device                                  Measurement l                                          3/4-6

r PNPS-ODCM Rev.8 TABLE 3.1-2 (continu-d) RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION Minimum Channels Instrument Operable Applicability Parameter Action")

3. STEAM JET AIR EJECTOR RADIOACTIVITY MONITOR

a. Noble Gas Activity Monitor * . Noble Gas Radioactivity 4 1

                                                                                                                 )

(Providing Alarm and Rate Measurement 1 Auto-isolation of Stack) )

  "I Actions Required --

ACTION 1*: With the number of operable channels less than required by the minimum channels operable requirement, effluent releases via this pathway may continue provided grab samples are taken at least once per 12 hours and these samples are analyzed for activity within 24 hours. ACTION 2*: With the number of operab!e channels less than required by the minimum channels operable requirement, effluent releases via this pathway may continue provided samples are continuously collected with auxiliary sampling equipment as required in Table 4.3-1. ACTION 3*: With the number of operable channels less than required by the minimum channels operable requirement, effluent releases via this pathway may continue provided the flow rate is estimated at least once per 4 hours. l ACTION 4: With the number of operable channels less than required by the minimum channels operable requirement, gases from the steam jet air ejector may be released to the offgas system for up to 72 hours provided:

a. The augmented offgas treatment system is not bypassed; and,

b. The offgas holdup system noble gas activity effluent monitor (downstream) is operable.

• Note: (For Actions 1,2, and 3) If the instruments are not returned to operable status within 30 days, l explain in the next Annual Radioactive Effluent Release Report why the inoperability was not corrected in a timely manner, m During releases via this pathway.
• Ouring operation of steam jet air ejector.

I l I I 3/4-7 i

PNPS-ODCM l Rev.8 TABLE 4.1-2 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS Instrument Source instrument Instrument instrument Check Check Calibration Functional Test 1, MAIN STACK EFFLUENT MONITORING SYSTEM

a. Noble Gas Activity Daily"' Monthly Once per Quarterly Monitor (2 channels) 18 months (2'

b. lodine Sampler N/A N/A N/A N/A Cartridge l

c. Particulate Sampler N/A N/A N/A N/A Filter

d. Effluent System Flow Daily") N/A Once per Quarterly Rate Measuring Device 18 months

e. Sampler Flow Rate Daily") N/A Once per Quarterly j Measuring Device 18 rnonths i

2. REACTOR BUILDING VENTILATION EFFLUENT MONITORING SYSTEM

a. Noble Gas Activity Daily"' Monthly Once per Quarterly Monitor (2 channels) 18 months (23

b. lodine Sampler N/A N/A N/A N/A Cartridge

c. Particulate Sampler N/A N/A N/A N/A Filter

d. Effluent System Flow Daily"' N/A Once per Quarterly Rate Measuring Device 18 months

e. Sampler Flow Rate Daily"' N/A Once per Quarterly Measuring Device 18 months i

3/4-8

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PNPS-ODCM Rev. 8 TABLE 4.1-2 (continued) 1 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS Instrument Source Instrument Instrument Instrument Check Check Calibration Functional Test

3. STEAM JET AIR EJECTOR RADIOACTIVITY MONITOR

a. Noble Gas Activity Daily

• N/A Once per Quarterly Monitor 24 months *

(4 During releases via this pathway. (2) Previously established calibration procedures will be used for these requirements. () During operation of the steam jet air ejector. l l I i I l l 3/4-9

I PNPS-ODCM J Rev. 8 3/4.2 RADIOACTIVE LIQUID EFFLUENTS 1 1 3/4.2.1 Liquid Effluents Concentration l l CONTROLS I 3.2.1 The concentration of radioactive material released at any time from the site to areas I at and beyond the site boundary shall be limited to the concentrations specified in 10CFR20, Appendix B, Table 2, Column 2 for radionuclides other than dissolved or  ! entrained noble gases. For dissolved or entrained noble gases, the concentration ) of individual isotopes shall be limited to 2E-04 pCi/mL. l l APPLICABILITY: At all times. ACTION: 1 With the concentration of radioactive material released from the site to areas at and beyond the site boundary exceeding the above limits, without delay restore concentration within the above limits. SURVEILLANCE REQUIREMENTS 4.2.1.a The radioactivity content of each batch of radioactive liquid waste to be discharged shall be determined prior to release by sampling and analysis in accordance with i Table 4.2-1. I 4.2.1.b The results of pre-release analyses shall be used with calculational methods in the j Offsite Dose Calculation Manual (ODCM) to assure that the concentration at the point of release is limited to the values in Control 3.2.1. 3/4-10

PNPS-ODCM Rev.8 TABLE 4.2-1 RADIOACTIVE LlOUID WASTE SAMPLING AND ANALYSIS PROGRAM Minimum Lower Limit of Sampling Analysis Type of Activity Detection") Liquid Release Type Frequency Frequency Analysis pCi/mL

1. Batch Waste Release Tanks

• Principal Each Prior to Gamma SE-07

a. Non-treatable Releases Batch Each Emitters" (e.g., Neutralizer Sumps), Batch l-131 1 E-06 AND Release Dissolved and

b. Treatable Releases Entrained 1 E-05 (e.g., Radwaste Tanks) Gases Composite Monthly H-3 1 E-05 from Each Composite (d) Gross Alpha 1 E-07 Batch Sr-89, Sr-90 SE-08 Quarterly (d)

Composite Fe-55 1 E-06

2. Continuous Releases Weekly Principal Grab Weekly Gamma SE-07

a. Salt Service Water Sample Emitters *

"I Refer to Appendix B of the ODCM for definition of lower limit of detection (LLD). i l (*) A batch release is the discharge of liquid wastes of a discrete volume. () The principal gamma emitters for which the LLD control applies exclusively are the following radionuclides: Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99, Cs-134, Cs-137, Ce-141, and Ce-144. This list does not , mean that only these nuclides are to be considered. Other gamma peaks that are identifiable, together I I with those of the above nuclides, shall be analyzed and reported in the Annual Radioactive Effluent Release Report. < (d) A composite sample is one in which the quantity of liquid sampled is proportional to the quantity of liquid waste discharged and in which the method of sampling employed results in a specimen which is representative of the liquids released. I i l l

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3/4-11

PNPS-ODCM Rev. 8 3/4.2 RADIOACTIVE LIQUID EFFLUENTS 3/4.2.2 Dose - Liouids . CONTROLS 3.2.2 The dose or dose commitment to a member of the public from radioactive materials in liquid effluents released at and beyond the site boundary shall be limited:

a. During any calendar quarter to 515 mrem to the total body and to s 5 mrem to any organ; and,

b. During any calendar year to s 3 mrem to the total body and to s.10 mrem to any organ.

APPLICABILITY: At all times ACTION: With the calculated dose from the release of radioactive materials in liquid effluents exceeding any of the above limits, prepare and submit to the Commission within 30 days, a special report that identifies the cause(s), corrective actions taken, and corrective actions to be taken. SURVEILLANCE REQUIREMENTS 4.2.2 Dose Calculations - Cumulative dose contributions from liquid effluents shall be determined in accordance with the ODCM for each calendar month during which releases occurred. I 1 l l 3/4-12

PNPS-ODCM Rev. 8 3/4.2 RADIOACTIVE LIOUlD EFFLUENTS 3/4.2.3 Liauid Radwaste Treatment CONTROLS 3.2.3 The liquid radwaste treatment system shall be maintained and used to reduce the radioactive materials in liquid wastes prior to their discharge when the dose due to liquid effluent releases to areas at and beyond the site boundary averaged over a 31-day period would exceed 0.06 mrem to the total body or 0.20 mrem to any organ. APPLICABILITY: At all times. ACTION: I With radioactive liquid waste being discharged without treatment and in excess of the above limits, prepare and submit to the Commission within 30 days a special report which includes the following information:

1. Explanation of why liquid radwaste was being discharged without treatment, identification of any inoperable equipment or subsystems, and the reason for the inoperability; and,

2. Action (s) taken to restore the inoperable equipment to operable status; and,

3. Summary description of action (s) taken to prevent a recurrence.

SURVEILLANCE REQUIREMENTS 4.2.3.a Doses due to liquid releases at and beyond the site boundary shall be calculated at least once per 31-day period in accordance with the ODCM, only if releases in that period have occurred. 4.2.3.b The liquid radwaste treatment system schematic is shown in Figure 4.2-1. 3/4-13

PNPS-ODCM Rev. 8 HIGH PURITY WASTE SYSTEM i Clean Waste . Mixed Bed . Treated Water . Discharge or Tanks lon Exchange Tanks Recycle LOW PURlTY WASTE SYSTEM

 -Chemical Waste Tanks                                                          :

Discharge DETERGENT WASTE SYSTEM (Decon Areas) Miscellaneous Waste Tanks or Non-treatable Releases  : Discharge (e.g., Neutralizer Sumps) i i Figure 4.2-1 . Liquid Radwaste Treatment System Schematic l l l l 3/4-14

PNPS-ODCM Rev. 8 3/4.3 RADIOACTIVE GASEOUS EFFLUENTS k 1 3/4.3.1 Gaseous Effluents Dose Rate CONTROLS 3.3.1 The instantanecus dose rate due to radioactive materials released in gaseous I effluents from the site to areas at and beyond the site boundary (see FSAR Figure j 1.6-1) shall be limited to the following: i

a. For noble gases: Less than or equal to 500 mrem /yr to the total body and less than or equal to 3000 mrem /yr to the skin; and,

b. For iodine-131, iodine-133, tritium, and all radionuclides in particulate form with half-lives greater than 8 days: Less than or equal to 1500 mrem /yr to any organ.

l APPLICABILITY: At all times. ACTION: With the instantaneous dose rate (s) exceeding the above limits, without delay restore the release rate to within the above limit (s). SURVEILLANCE REQUIREMENTS 4.3.1.a The instantaneous dose rate due to noble gases in gaseous effluents shall be determined to be within the limits of Control 3.3.1.a on a continuous basis using the noble gas activity monitors with appropriate setpoints and in accordance with the ODCM. 4.3.1.b The instantaneous dose rate due to iodine-131, iodine-133, tritium, and all radionuclides in particulate form with half-lives greater than 8 days in gaseous effluents shall be determined to be within the limits of Control 3.3.1.b in accordance with the ODCM by obtaining representative samples and performing analyses in accordance with the sampling and analysis prograrn specified in Table 4.3-1. 3/4-15

1 PNPS-ODCIVI Rev. 8 TABLE 4.3-1 RADIOACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS PROGRAM Minimum Type of Activity Lower Limit of Sampling Analysis Analysis Detection (" Gaseous Release Type Frequency Frequency pCi/mL Principal Main Stack Monthly Monthly Gamma 1 E-04 l and Grab Emitters *' I Reactor Building Vent Sample H-3 1 E-06 ) Weekly"' l Continuous"' Charcoal 1-131 1 E-12 Sample Weekly W Principal Continuous"' Particulate Gamma 1 E-11 1 Sample Emitters *' l Monthly Continuous"' Composite Gross Alpha 1 E-11 Particulate Sample , Quarterly Continuous") Composite Sr-89, Sr-90 1 E-11 Particulate Sample j Continuous Noble Gas Continuous"' Noble Gas Gross 1 E-06 Monitor Gamma (" Refer to Appendix B of the ODCM for definition of lower limit of detection (LLD). (#) The principal gamma emitters for which the LLD control applies exclusively are the following radionuclides: Kr-87, Kr-88, Xe-133, Xe-133m, Xe-135, and Xe-138 in noble gas releases; and Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99,1-131, Cs-134, Cs-137, Ce-141, and Ce-144 in iodine and particulate releases. This list does not mean that only these nuclides are to be considered. Other gamma peaks that are identifiable, together with those of the above nuclides, shall be analyzed and reported in the Annual Radioactive Effluent Release Report. () The ratio of the sample flow rate to the sampled stream flow rate shall be known for the time period covered by each dose or dose rate calculation made in accordance with Controls 3.3.1,3.3.2, and 3.3.3. W When the average daily gross radioactivity release rate increases by 50 percent over the previous day (after factoring out power level changes and/or changes in hydrogen injection rate), the iodine and particulate filters sha!! be analyzed to determine the release rate for iodines and particulates. 3/4-16

1 PNPS-ODCM l R:v. 8 3/4.3 RADIOACTIVE GASEOUS EFFLUENTS 3/4.3.2 Dose - Noble Gases CONTROLS 3.3.2 The air dose in areas at and beyond the site boundary due to noble gases released in gaseous effluents shall be limited to the following:

a. During any calendar quarter, to s 5 mrad for gamma radiation and 5 10 mrad for beta radiation; and,

b. During any calendar year, to s 10 mrad for gamma radiation and 5 20 mrad for beta radiation.

APPLICABILITY: At all times ACTION: With the calculated air dose from radioactive noble gases in gaseous effluents exceeding any of the above limits, prepare and submit to the Commission within 30 days, a special report which identifies the cause(s), the corrective actions taken, and corrective actions to be taken. SURVEILLANCE REQUIREMENTS 4.3.2 Dose Calculations - Cumulative dose contributions for the total time period shall be determined in accordance with the ODCM for each calendar month during which releases occurred. l l l l i l l l 3/4-17

l PNPS-ODCM l Rev. 8 3/4.3 RADIOACTIVE GASEOUS EFFLUENTS Dose - lodine-131 lodine-133. Radioactive Material in Particulate Form, and 3/4.3.3 Tritium CONTROLS 3.3.3 The dose to a member of the public from iodine 131, iodine-133, radioactive materials in particulate form with half-lives greater than 8 days, and tritium in gaseous effluents released to areas at and beyond the site boundary shall be limited to the following: i

a. During any calendar quarter to 575 mrem to any organ; and,

b. During any calendar year to s 15 mrem to any organ.

APPLICABILITY: At all times ACTION: With the calculated dose from the release of iodine-131, iodine-133, radioactive materials in particulate form, and tritium in gaseous effluents exceeding any of the above limits; prepare and submit to the Commissien within 30 days, a special report which identifies the cause(s), corrective actions taken, and the corrective actions to be taken. SURVEILLANCE REQUIREMENTS 4.3.3 Dose Calculations - Cumulative dose contributions for the total time period shall be determined for iodine-131, iodine-133, radioactive material in particulate form with half-lives greater than 8 days, and tritium in accordance with the ODCM for each calendar month during which releases occurred. l l l 3/4-18

PNPS-ODCM Rev. 8 3/4.3 RADIOACTIVE GASEOUS EFFLUENTS 3/4.3.4 Gaseous Effluent Treatment CONTROLS 3.3.4 The augmented offgas system shall be put into service prior to reaching 50 percent reactor power during startup. APPLICABILITY: Whenever the plant is operating at or above 50 percent reactor power. ACTION: With gaseous effluents being discharged for more than 14 days without treatment, prepare and submit to the Commission within 30 days, a special report which includes the following information:

1. Identification of any inoperable equipment or subsystems, and the reason for the inoperability; and,

2. Action (s) taken tc restore the inoperable equipment to operable status; and,

3. Summary description of action (s) taken to prevent a recurrence.

SURVEILLANCE REQUIREMENTS 4.3.4.a Augmented offgas annunciator operability shall be verified once per 12 hours when the augmented offgas system is in use. 4.3.4.b The gaseous effluent treatment system schematic is shown in Figure 4.3-1. 3/4-19

I PNPS-ODCM Rev. 8 SJAE from Discharge Main - -+ Recombiner--+ Condenser -* Drier --* Charcoal -* to Main Condenser Stack GLAND SEALS . 1.7 Minute . Discharge to from Turbine Gland Seals Holdup ' Main Stack MECHANICAL VACUUM PUMP . Discharge to from Main Condenser ' Main Stack l DRYWELL . Discharge to from Drywell ' Main Stack l REACTOR BUILDING . Discharge to from Reactor Building Reactor Building Vent ) l RADWASTE BUILDING . Discharge to from Radwaste Building Reactor Building Vent TURBINE BUILDING . Discharge to Reactor Building from Turbine Building Vent

 ") No significant effect in reducing offsite doses when compared to transit time required for releases to reach site boundary.

Figure 4.3-1 Gaseous Effluent Treatment System Schematic 3/4-20

PNPS-ODCM Rev. 8 3/4.4 TOTAL DOSE 3/4.4.1 Total Dose ! CONTROLS 3.4.1 The dose or dose commitment to any member of the public from Pilgrim Station sources is limited to s 25 mrem to the total body or any organ (except the thyroid, which is limited to $_75 mrem) over a period of any calendar year. , APPLICABILITY: At all times l ACTION: With the calculated dose from the release of radioactive materials in liquid or gaseous effluents exceeding twice the limits of Controls 3.2.2, 3.3.2 or 3.3.3; prepare and submit a special report to the Commission and limit the subsequent releases such that the dose or dose commitment to any member of the public from all uranium fuel cycle sources is limited to s 25 mrem to the total body or any organ (except thyroid, which is limited to s 75 mrem) over any calendar year. This special report shall include an analysis which demonstrates that radiation exposures to all members of the public from all uranium fuel cycle sources (including all effluent , pathways and direct radiation) are less than the 40CFR190 standard. Otherwise, I obtain a variance from the Commission to permit releases which exceed the 40CFR190 standard. SURVEILLANCE REQUIREMENTS 4.4.1 Dose Calculations - Cumulative dose contributions from liquid and gaseous effluents shall be determined in accordance with Controls 3.2.2, 3.3.2, and 3.3.3; and in accordance with the ODCM. 3/4-21

PNPS-ODCM Rsv. 8 3/4.5 RADIOLOGICAL ENVIRONMENTAL MONITORING 3/4.5.1 Environmental Monitorina Proaram CONTROLS 3.5.1 An environmental monitoring program shall be conducted to evaluate the effects of station operation on the environs and to verify the effectiveness of the source l controls on radioactive materials i The radiological environmental monitoring program shall be conducted as specified in Tables 3.5-1 through 3.5-3. APPLICABILITY: At all times. ACTION: i i a. With the radiological environmental monitoring program not being conducted as I specified in Tables 3.5-1 through 3.5-3, prepare and submit to the Commission, in ! the Annual Radiological Environmental Monitoring Report required by Technical l Specifications Administrative Control 5.6.2, a description of the reasons for not l conducting the program as required and the plans for preventing a recurrence. l

b. With the level of radioactivity as the result of plant effluents in an environmental sampling medium at a specified location exceeding the reporting levels of Table 3.5-4 when averaged over any calendar quarter, prepare and submit to the Commission within 30 days, a special report that. identifies the cause(s) for exceeding the limit (s) and defines the corrective actions to be taken to reduce  ;

radioactive effluents so that the potential annual dose to a member of the public is l less than the calendar year limits of . Controls 3.2.2, 3.3.2, or 3.3.3. When more l l than one of the radionuclides in Table 3.5-4 are detected in the sampling medium, I this report shall be submitted if: , l l Concentration (1) + Concentration (2) + . ... 21.0 l Reporting Level (1) Reporting Level (2) When radionuclides other than those in Table 3.5-4 are detected and are the result l of plant effluents, this report shall be submitted if the potential annual dose to a member of the public is equal to or greater than the calendar year limits of Controls 3.2.2, 3.3.2, or 3.3.3. This report is not re' quired if the measured level of radioactivity was not the result of plant effluents; however, in such an event, the i l '~ condition shall be reported and described in the Annual Radiological Environmental Monitoring Report. i 3/4-22

c PNPS-ODCM Rev. 8 3/4.5 RADIOLOGICAL ENVIRONMENTAL MONITORING 3/4.5.1 Environmental Monitorina Proaram (Continued) CONTROLS . ACTION: (continued)

c. With milk or fresh leafy vegetable samples unavailable from one or more of the sample locations required by Table 3.5-1, identify locations for obtaining replacement samples and add them to the Radiological Environmental Monitoring Program within 30 days. The specific locations from which samples were j unavailable may then be deleted from the monitoring program. Pursuant to Technical Specifications Administrative Control 5.6.2, identify the cause of the unavailability of samples and identify the new location (s) obtaining replacement samples in the next Annual Radiological Environmentai Monitoring Report and also ,

include in the report the table for the ODCM reflecting the new location (s). ) SURVEILLANCE REQUIREMENTS 4.5.1 The radiological environmental monitoring samples shall be collected pursuant to Tables 3.5-1 through 3.5-3 in the Offsite Dose Calculation Manual (ODCM) and shall be analyzed pursuant to the requirements of Table 3.5-1 and the detection capabilities required by Table 4.5-1.

1. Cumulative dose contributions from the current calendar year from radionuclides detected in environmental samples shall be determined in accordance with the methodology and parameters in the ODCM. These results will be reported in the Annual Radiological Environmental Monitoring Report.

l l l l 1 3/4-23 l

l PNPS-ODCM Rev. 8 TABLE 3.5-1 OPERATIONAL RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM Exposure Pathway, Sampling, Sampling, Sample, or Measurement, Measurement, Type and Frequency q Measurement and/or Collection and/or Collection of Analysis or l Type Locations Frequency Measurement l DIRECT RADI ATION l Environmental TLD 110 Locations, Quarterly Collection Gamma exposureO'; See Table 3.5-2 Quarterly Exposure Rate Survey Priscilla Beach, Annual Measurement Gamma exposure rate White Horse Beach, survey0 '; Plymouth Beach, Annually Duxbury Beach

• Soil 11 Locations, Once per 3-year Gamma isotopic and See Table 3.5-3 Measurement exposure rate survey0 ';

3-year inte:va' AIRBORNE Particulates 11 Locations, Continuous sampling with Gross beta radioactivity See Table 3.5-3 particulate filter; analysis 24 hours or Weekly Collection more after weekly filter change"; Weekly AND Gamma isotopic"' of composite by location; Quarterly Radioiodines 11 Locations, Continuous sampling with l-131 analysis; Weekly See Table 3.5-3 charcoal cartridge; Weekly Collection 1 3/4-24

i PNPS-ODCM Rev. 8 TABLE 3.5-1 (continued) OPERATIONAL RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM Exposure Pathway, Sampling, Sampling, Sample, or Measurement, Measurement, Type and Frequency Measurement and/or Collection and/or Collection of Analysis or Type Locations Frequency Measurement MARINE / AQUATIC Surface Wate- Discharge Canal, Continucus Composite Gamma isotopict *' Sample analysis of monthly composite samples; Bartlett Pond, Weekly grab sample AND Powder Point Contr#' H-3 analysis of quarterly composite samples Sediment Discharge Canal Outfall, Semiannual Collection *) Gamma isotopic Manomet Point, analysis *' *' Plymouth Beach, Plymouth Harbor, Duxbury Bay Control *, Green Harbor Control

• Irish Moss (Algae) Discharge Canal Outfall, Quarterly Collection Gamma isotcpic Manomet Point, (at approximately analysisU '

Ellisville, 3-month intervals) Brant Rock Control

• Shellfish (clams, mussels Discharge Canal Outfall, Quarterly Collection Gamma isotopic or quahogs as available) Manomet Point, (at approximately analysis '
• j Plymouth Harbor, 3-month intervals) of allsamples i Duxbury Bay Control *, I Green Harbor Control
• Lobster Discharge Canal Outfall Four times per season Gamma isotopic )

analysis"' on edtie Offshore Contr l* Once per season portions Fishes Discharge Canal Outfall Quarterly (when particular Gamma isotopic species are available) for analysis on edible  ; I Groups I and ll *'; in porticns *' season for Groups 111 and l IV *'; i Offshore Control

• Annual for each group 3/4-25

PNPS-ODCM Rav. 8 TABLE 3.5-1 (continued) OPERATIONAL RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM Exposure Pathway, Sampling, Sampling, Sample, or Measurement, Measurement, Type and Frequency Measurement and/or Collection and/or Collection of Analysis or Type Locations Frequency Measurement TERRESTRIAL Milk Plymouth County Farm l"' Bimonthly during periods Gamma isotopic (when available), . when animals are on analysis , Whitman Farm Control *' pasture, otherwise AND monthly radioiodine analysis on all samples l Forage Plymouth County Farm"', Annually Gamma isotopic Whitman Farm Control *' analysis l Tuberous and Green Plymouth County Farm"', At time of harvest Gamma isotopic Leafy Vegetables Bridgewater Farm analysis on edible Control *) portions Cranberries Manomet Point Bog, At time of harvest Gamma isotopic Bartlett Rd. Bog, analysis on edible Pine St. Bog Control *) portions NOTES (1) Minimum sensitivities for gamma exposure / exposure rate measurements are as follows: Gamma exposure (TLD): 1 R/hr average quarterly exposure rate. Gamma exposure rate survey: 1 pR/hr exposure rate. (2) Indicates controllocation. (3) If gross beta radioactivity is greater than 10 times the control value, gamma isotopic analysis will be performed on the sample. (4) Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility. (5) If integrated gamma activity (less K-40) is greater than 10 times the control value (less K-40), strontium-90 analysis will be performed on the sample. 3/4-26

PNPS-ODCM Rev. 8 TABLE 3.5-1 (Continut:d) NOTES (6) Sediment samples from four locations (Discharge Canal Outfall, Manomet Point, Plymouth Harbor, and head of Duxbury Bay) will be analyzed once per year (preferably early summer) as follows: Cores will be taken to depths of 30-cm minimum depth, wherever sediment conditions permit, by a hand-coring sampling device, if sediment conditions do not permit 30-cm deep cores, the deepest cores achievable with a hand-coring device will be taken. In any case, core depths will not be less than 14-cm. Core samples will be sectioned into 2-cm increments, and surface and alternate increments analyzed, other reserved. Sediment sample volumes (determined by core diameter and/or number of individual cores taken from any single location) and counting technique will be sufficient to achieve sensitivities of 50 pCi/kg dry sediment for Co-60, Zn-65, Zr-95, Cs-134, and Cs-137; and 150 pCi/kg for Ce-144. In any case, individual core diameters will not be less than 2 inches. The top 2-cm section from each core will be analyzed for Pu isotopes (Pu-238, Pu 239/240) using radiochemical separations, electrodeposition, and alpha spectroscopy with target sensitivity of 25 pCi/kg dry pediment. Two additional core slices per year (mid-depth slice from two core samples) will be similarly analyzed. (7) Mussel samples from four locations (Discharge Canal Outfall, Manomet Point, Plymouth Harbor, and Green Harbor in Marshfield) will be analyzed quarterly as follows: One kilogram wet weight of mussel bodies, including fluid within shells will be collected. Bodies will be reduced in volume by drying at about 100 C. Sample will be compacted and analyzed by Ge(Li) gamma spectrometry or alternate technique, if necessary, to achieve a sensitivity of 5 pCi/kg for Co-60, Zn-65, Zr-95, Cs-134, and Cs-137; and 15 pCi/kg for Ce-144. Sensitivity values are to be determined in accordance with a 95% confidence level on ka , and a 50% confidence level on bk (See HASL-300 for definitions). The mussel shell sample from one location will be analyzed each quarter. One additional mussel shell sample will be analyzed semiannually. Unscrubbed shells to be analyzed will be dried, processed, and analyzed similarly to the mussel bodies. Because of the small volume reduction in pre-processing of shells, sensitivities attained will be less than that for mussel bodies. The equipment and counting times to be employed for analyses of shells will be the same or comparable to that employed for mussel bodies so that the reduction in sensitivities (relative to those for mussel bodies) will be strictly limited to the effects of poorer geometry related to lower sample volume reduction. Shell samples not scheduled for analysis will be reserved (unscrubbed) for possible later analysis. If radiocesium (Cs-134 and Cs-137) activity exceeds 200 pCi/kg (wet) in mussel bodies, these samples will be analyzed by radiochemical separation, electrodeposition, and alpha spectroscopy for radioisotopes of plutonium, with a sensitivity of 0.4 pCi/kg. 3/4-27

I-I PNPS-ODCM Rsv.8 TABLE 3.5-1 (Continu:d) NOTES l (8) Fish analyses will be performed on a minimum of 2 sub-samples, consisting of approximately 400 grams i l each from each of the following groups: I 1  ?

1. Bottom Oriented 11. Near Bottom til. Anadromous IV. Coastal Miaratorv Distribution Winter Flounder Tautog Alewife Bluefish Yellowtail Flounder Cunner Rainbow Smelt Atlantic Herring Atlantic Cod Striped Bass Atlantic Menhaden Pollock Atlantic Mackerel Hakes (9) These locations may be altered in accordance with results of land use census surveys discussed in Effluent Control 4.5.2.

l i l 1 3/4-28

PNPS-ODCM Rev.8 TABLE 3.5-2 l l ENVIRONMENTAL TLD LOCATIONS i TLD Station ~ Location"' TLD Station Location"' l " Description Code Distance /6irection besenption I Code Dstance/ Direction l TLDs Within Protected Area Zone 1 TLDs: 03km l O&M/RXB. BREEZEWAY P21 50 m SE EMERSON ROAD EM 1.53 km SSE EXEC. BUILDING P24 57 m W EMERSON /PRISCILLA EP 1.55 km SE FENCE-R SCREENHOUSE PO4 66 m N EDISON ACCESS ROAD AR 1.59 km SSE O&M 2ND W WALL P20 67 m SE BAYSHORE BS 1.76 km W EXEC. BUILDING LAWN P25 76 m WNW STATION E E 1.86 km S FENCE-WATER TANK P05 81 m NNE JOHN GAULEY JG 1.99 km W FENCE-OIL STORAGE P06 85 m NE STATION J J 2.04 km SSE I O&M - 2ND SW CORNER P19 86 m S WHITEHORSE ROAD WH 2.09 km SSE 1 O&M 1ST SW CORNER P18 90 m S PLYMOUTH YMCA RC 2.09 km WSW COMPRESSED GAS STOR P08 92 m E STATION K K 2.17 km S FENCE-L SCREENHOUSE P03 100 m NW TAYLOR / THOMAS TT 2.26 km SE FENCE-EXEC. BUILDING P17 107 m W YANKEE VILLAGE YV 2.28 km WSW O&M - 2ND S WALL P23 121 m ENE GOODWIN PROPERTY GN 2.38 km SW FENCE INTAKE BAY P07 121 m SSE RIGHT OF WAY RW 2.83 km S FENCE WAREHOUSE P26 134 m ESE TAYLOR / PEARL TP 2.98 km SE FENCE SHOREFRONT P02 135 m NW FENCE W BOAT RAMP P09 136 m E Zone 2 TLDs: 3-8 km l l O&M - 2ND N WALL P22 137 m SE VALLEY ROAD VR 3.26 km SSW i FENCE W SWITCHYARD P16 172 m SW MANOMET ELEM ME 3.29 km SE FENCE-TCF GATE P11 183 m ESE WARREN /CLIFFORD WC 3.31 km W i FENCE TCF/ BOAT RAMP P27 185 m ESE RT.3A/ BARTLETT RD BB 3 33 km SSE i FENCE-ACCESS GATE P12 202 m SE MANOMET POINT MP 3.57 km SE l FENCE-E SWITCHYARD P15 220 m S MANOMET SUBSTATION MS 3.60 km SSE FENCE TCF/ INTAKE BAY P10 223 m E BEACHWOOD ROAD BW 3.93 km SE FENCE MEDICAL BLDG. P13 224 m SSE PINES ESTATE PT 4.44 km SSW FENCE-BUTLER BLDG P14 228 m S EARL ROAD EA 4.60 km SSE FENCE TCF/PRKNG LOT P28 259 m ESE S PLYMOUTH SUBST SP 4.62 km W ROUTE 3 OVERPASS RP 4.81 km SW Zone 1 TLDs: 0-3 km RUSSELL MILLS RD RM 4.85 km WSW BOAT LAUNCH WEST BLW 0.11 km E HILLDALE ROAD HD 5.18 km W OVERLOOK AREA OA 0.15 km W MANOMET BEACH MB 5.43 km SSE HEALTH CLUB TC 0.15 km WSW BEAVERDAM ROAD BR 5.52 km S BOAT LAUNCH EAST BLE 0.16 km ESE PLYMOUTH CENTER PC 6 69 km W PEDESTalG BRIDGE PB 0.21 km N LONG POND / DREW RD LD 6.97 km WSW SHOREFHONT SECURITY P01 0.22 km NNW HYANNIS ROAD HR 7.33 km SSE MEDICAL BUILDING WS 0.23 km SSE MEMORIAL HALL MH 7.58 km WNW PARKING LOT CT 0.31 km SE SAOUISH NECK SN 7.58 km NNW SHOREFRONT PARKING PA 0.35 km NNW COLLEGE POND CP 7.59 km SW STATION A A 0.37 km WSW STATION F F 0.43 km NW Zone 3 TLDs: 8-15 km STATION B B 0.44 km S DEEP WATER POND DW 8.59 km W EAST BREAKWATER EB 0.44 km ESE LONG POND ROAD LP 8.88 km SSW PNPS MET TOWER PMT 0.44 km WNW NORTH PLYMOUTH NP 9.38 km WNW STATION H H 0.47 km SW STANDISH SHORES SS 10.39 km NW STATION 1 1 0.48 km WNW ELLISVILLE ROAD EL 11.52 km SSE STATION L L 0.50 km ESE UP COLLEGE POND RD UC 11.78 km SW STATION G G 0.53 km W SACRED HEART SH 12.92 km W STATION D D 0.54 km NW KING CAESAR ROAD KC 13.11 km NNW PROPERTY LINE PL 0.54 km NNW BOURNE ROAD BE 13.37 km S STATION C C 0.57 km ESE SHERMAN AIRPORT SA 13.43 km WSW HALL'S BOG HB 0.63 km SE GREENWOOD HOUSE GH 0.65 km ESE Zone 4 TLDs: >15 kmW W ROCKY HILL ROAD WR 0.83 km WNW CEDARVILLE SUBST CS 15.93 km S E ROCKY HILL ROAD ER 0.89 km SE KINGSTON SUBST KS 16.15 km WNW MICROWAVE TOWER MT 1.03 km SSW LANDING ROAD LR 16.46 km NNW CLEFT ROCK CR 1.27 km SSW CHURCH / WEST CW 16.56 km NW BAYSHORE/ GATE RD BD 1.34 km WNW MAIN / MEADOW MM 17.02 km WSW MANOMET ROAD MR 1.38 km S DIV MARINE FISH DMF 20.97 km SSE DIRT ROAD DR 1.48 km SW EAST WEYMOUTH SUBST EW 39 69 km NW N Distance and direction are measured from the centerline of the Reactor Building to the manitoring location.

• Indicates controllocations.

3/4-29

PNPS-ODCM Rev. 8 TABLE 3.5-3 ROUTINE RADIOLOGICAL ENVIRONMENTAL SAMPLING LOCATIONS Description No. Code Distance Direction Exposure Rate Survey Priscilla Beach -- -- 1.9 km SE Whitehorse Beach -- -- 2.6 km SE Plymouth Beach - Parking Lot -- -- 3.6 km W Plymouth Beach -Inner -- -- 6.0 km WNW Plymouth Beach - Outer -- -- 7.2 km WNW Duxbury Beach - Control -- -- 11.0 km NNW Air Particulate Filters. Charcoal Cartridaes. Soil Overlook Area 08 OA 0.1 km W Pedestrian Bridge 07 PB 0.2 km N Medical Building 00 WS 0.2 km SSE East Breakwater 09 EB 0.5 km ESE Property Line 06 PL 0.5 km NNW West Rocky Hill Road 03 WR 0.8 km WNW East Rocky Hill Road 01 ER 0.9 km SE Cleft Rock 10 CR 1.3 km SSW Manomet Substation 17 MS 3.6 km SSE Plymouth Center 15 PC 6.7 km W East Weymouth Control 21 EW 40 km NW Milk Plymouth County Farm 11 CF 5.6 km W Whitman Farm Control 21 WF 34 km WNW Forace Whipple Farm 43 WH 2.9 km SW Plymouth County Farm 11 C5- 5.6 k.1 W Whitman Farm Control 12 WF 34 km WNW Veaetation W Plymouth County Farm 11 CF 5.6 km W Bridgewater Farm Control 27 BF 31 km W Cranberries Manomet Point Bog 13 MR 3.9 km SE l Bart! cit Road Bog 14 BT 4.3 km SSE Pine Street Bog Control 23 PS 26 km WNW i 3/4-30

PNPS-ODCM Rsv. 8 TABLE 3.5-3 (CONTINUED) ROUTINE RADIOLOGICAL ENVIRONMENTAL SAMPLING LOCATIONS Description No. Code Distance Direction Surface Water Discharge Canal 11 DIS 0.2 km N Bartlett Pond 17 BP 2.7 km SE Powder Point Control 23 PP 13 km NNW Sediment Discharge Canal Outfall 11 DIS 0.8 km NE Manomet Point 15 MP 3.3 km ESE Plymouth Beach 14 PLB 4.0 km WNW Plymouth Harbor 12 Ply-H 4.1 km W Duxbury Bay Control 13 Dux-Bay 14 km NNW Green Harbor Control 24 GH 16 km NNW irish Moss l Discharge Canal Outfall 11 DIS 0.7 km NNE Manomet Point 15 MP 4.0 km ESE Ellisville 22 EL 12 km SSE Brant Rock Control 34 BR 18 km NNW Shellfish Discharge Canal Outfall 11 DlS 0.7 km NNE Manomet Point 15 MP 4.0 km ESE  : Plymouth Harbor 12 Ply-H 4.1 km W  ! Duxbury Bay Control 13 Dux-Bay 13 km NNW Green Harbor Control 24 GH 16 km NNW Lobster l Discharge Canal Outfall 11 DlS 0.5 km N  ; Duxbury Bay Control 13 Dux-Bay 11 km NNW , Fishes Discharge Canal Outfall 11 DIS 0.5 km N Jones River Control 30 JR 13 km WNW Cape Cod Bay Control 98 CC-Bay 24 km ESE Buzzard's Bay Control 90 BB 40 km SSW Priest Cove Control 29 PC 48 km SW 4 Vineyard Sound Control 92 MV 64 km SSW W Additional samples of vegetables / vegetation will be collected each year at or near selected gardens identified during the most recent land use census. The locations of these selected gardens are listed in the station procedure describing crop sampling. 3/4-31

PNPS-ODCM Rev, 8 Figure 3.5-1 Environmental TLD Locations Within the PNPS Protected Area TLD Station Location

• l ' Description ICode ' Distance / Direction TLDs Within Protected Area l O&M/RXB. BREEZEWAY P21 50 m SE i EXEC. BUILDING P24 57 m W FENCE-R SCREENHOUSE PO4 66 m N O&M 2ND W WALL P20 67 m SE EXEC. BUILDING LAWN P25 76 m WNW l FENCE WATER TANK POS 81 m NNE FENCE OIL STORAGE P06 85 m NE O&M 2ND SW CORNER P19 86 m S O&M 1ST SW CORNER P18 90 m S COMPRESSED GAS STOR P08 92 m E FENCE-L SCREENHOUSE P03 100 m NW FENCE-EXEC. BUILDING P17 107 m W i O&M - 2ND S WALL P23 121 m ENE i FENCE INTAKE BAY P07 121 m SSE FENCE-WAREHOUSE P26 134 m ESE FENCE-SHOREFRONT P02 135 m NW FENCE W BOAT RAMP P09 136 m E O&M 2ND N WALL P22 137 m SE FENCE-W SWITCHYARD P16 172 m SW FENCE TCF GATE P11 183 m ESE FENCE TCF/ BOAT RAMP P27 185 m ESE FENCE-ACCESS GATE P12 202 m SE FENCE-E SWITCHYARD P15 220 m S FENCE-TCF/ INTAKE BAY P10 223 m E FENCE-MEDICAL BLDG. P13 224 m SSE  :

FENCE-BUTLER BLDG P14 228 m S l FENCE TCF/PRKNG LOT P28 259 m ESE  ; Distance and direction are measured from the centerline of the Reactor Building to the monitoring location. l l l 1 l l l 3/4-32

PNPS-ODCM Rev. 8 Figure 3.5-1 (continued) Environmental TLD Locations Within the PNPS Protected Area w

                                    .; j i . i.: :
       ,             loo rneters          ,           7 $.h # Il Cape Cod Bay l.]

SCALE  ;

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                                                                                                      '      -l (4) lt 8                               i                                            l I
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                                                                                                    '                     \ Protected q ,- _-              -

Fence Rocky Hill Roa 3/4-33

PNPS-ODCM Rev. 8 Figure 3.5-2 TLD and Air / Soil Sampling Locations: Within 1 Kilometer. TLD Station,,,, . Locaton* Air / Soil Sampt,ing, Station , Locat on* Description Code Distance / Direction Description Code Distance / Direction Zone 1 TLDs: 0-3 km BOAT LAUNCH WEST CLW 0.11 km E OVERLOOK AREA OA 0.15 km W OVERLOOK AREA OA 0.15 km W PEDESTRIAN BRIDGE PB 0.21 km N HEALTH CLUB TC 0.15 km WSW MEDICAL BUILDING WS 0.23 km SSE BOAT LAUNCH EAST BLE 0.16 km ESE EAST BREAKWATER EB 0.44 km ESE PEDESTRIAN BRIDGE PB 0.21 km N PROPERTY LINE PL 0.54 km NNW SHOREFRONT SECURITY P01 0.22 km NNW W ROCKY HILL ROAD WR 0.83 km WNW MEDICAL BUILDING WS 0.23 km SSE E ROCKY HILL ROAD ER 0.89 km SE PARKING LOT CT 0.31 km SE SHOREFRONT PARKING PA 0.35 km NNW STATION A A 0.37 km WSW STATION F F 0.43 km NW STATION B B 0.44 km S EAST BREAKWATER EB 0.44 km ESE PNPS MET TOWER PMT 0.44 km WNW STATION H H 0.47 km SW STATION I I 0.48 km WNW STATION L L 0.50 km ESE STATION G G 0.53 km W STATION D D 0.54 km NW PROPERTY LINE PL 0.54 km NNW STATION C C 0.57 km ESE HALL'S BOG HB 0.63 km SE GREENWOOD HOUSE GH 0.65 km ESE W ROCKY HILL ROAD WR 0.83 km WNW , E ROCKY HILL ROAD ER 0.89 km SE  ! Distance and direction are measured from the centerline of the Reactor Building to the monitoring location. 3/4-34

PNPS-ODCM Rev. 8 Figure 3.5-2 (continued) TLD and Air Sampling Locations: Within 1 Kilometer i  !!!$5 kNhhh}ENNNMSMkEja% dMhM@MdNN5! E wu fa$hfw[Eid[$ikE^ s pa til h ge j g 3 m~

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3/4 35

PNPS-ODCM Rev.8 Figure 3.5-3 TLD and Air / Soil Sampling Locations: 1 tO 5 Kilometers TLD Station, ___ Location

• Air /Soll Samplina Station ,, Location
• Description Code Distance / Direction ., Description Code Distance / Direction Zone 1 TLDs: 0-3 km MICROWAVE TOWER MT 1.03 km SSW CLEFT ROCK CR 1.27 km SSW CLEFT ROCK CR 1.27 km SSW MANOMET SUBSTATION MS 3.60 km SSE BAYSHORE/ GATE RD BD 1.34 km WNW MANOMET ROAD MR 1.38 km S DIRT ROAD DR 1.48 km SW EMERSON ROAD EM 1.53 km SSE EMERSON /PRISCILLA EP 1.55 km SE EDISON ACCESS ROAD AR 1.59 km SSE BAYSHORE BS 1.76 km W STATION E E 1.86 km S JOHN GAULEY JG 1.99 km W STATION J J 2.04 km SSE t WHITEHORSE ROAD WH 2.09 km SSE PLYMOUTH YMCA RC 2.09 km WSW .

STATION K K 2.17 km S TAYLOR / THOMAS TT 2.26 km SE j YANKEE VILLAGE YV 2.28 km WSW GOODWIN PROPERTY GN 2.38 km SW RIGHT OF WAY RW 2.83 km S TAYLOR / PEARL TP 2.98 km SE Zone 2 TLDs: 3-8 km j VALLEY ROAD VR 3.26 km SSW i MANOMET ELEM ME 3.29 km SE WARREN /CLIFFORD WC 3.31 km W RT.3A/ BARTLETT RD BB 3.33 km SSE MANOMET POINT MP 3.57 km SE MANOMET SUBSTATION MS 3.60 km SSE BEACHWOOD ROAD BW 3.93 km SE PINES ESTATE PT 4.44 km SSW , EARL ROAD EA 4.60 km SSE i S PLYMOUTH SUBST SP 4.62 km W ROUTE 3 OVERPASS RP 4.81 km SW RUSSELL MILLS RD RM 4.85 km WSW

• Distance and direction are measured from the centerline of the Reactor Building to the monitoring location.

k 1 i l l l 3/4-36

1 PNPS-ODCM Rev. 8 Figure 3.5-3 (continued) TLD and Air / Soil Sampling Locations: 1 to 5 Kilometers iN@i D*% s

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l PNPS-ODCM Rev. 8 l' Figure 3.5-4 TLD and Air / Soil Sampling Locations: Greater Than 5 Kilometers TLD Station Location

• _,__ Air / Soil Sampling, Station ___ , Location
• Description I Code Distance /66'rection Description Code ,,,. Distance / Direction Zone 2 TLDs: 3-8 km i HILLDALE ROAD HD 5.18 km W PLYMOUTH CENTER PC 6.69 km W l MANOMET BEAC'i MB 5.43 km SSE EAST WEYMOUTH SUBST EW 39_69 km NW i BEAVERDAM ROAD BR 5.52 km S )

PLYMOUTH CENTER PC 6.69 km W I LONG POND / DREW RD LD 6.97 km WSW HYANNIS ROAD HR 7.33 km SSE MEMORIAL HALL MH 7.58 km WNW SAQUISH NECK SN 7.58 km NNW COLLEGE POND CP 7.59 km SW Zone 3 TLDs: 8-15 km DEEP WATER POND DW 8.59 km W LONG POND ROAD LP 8.88 km SSW NORTH PLYMOUTH NP 9.38 km WNW STANDISH SHORES SS 10.39 km NW ELLISVILLE ROAD EL 11.52 km SSE UP COLLEGE POND RD UC 11.78 km SW SACRED HEART SH 12.92 km W KING CAESAR ROAD KC 13.11 km NNW BOURNE ROAD BE 13.37 km S SHERMAN AIRPORT SA 13.43 km WSW Zone 4 TLDs: >15km CEDARVILLE SUBST CS 15.93 km S , KINGSTON SUBST KS 16.15 km WNW I LANDING ROAD LR 16.46 km NNW CHURCH / WEST CW 16.56 km NW MAIN / MEADOW MM 17.02 km WSW DIV MARINE FISH DMF 20.97 km SSE EAST WEYMOUTH SUBST EW 39.69 km NW Distance and direction are measured from the centerline of the Reactor Building to the monitoring location. l 3/4-38

PNPS-ODCM Rev. 8 Figure 3.5-4 (continued) TLD and Air / Soil Sampling Locations: Greater Than 5 Kilometers P i

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T ~ PNPS-ODCM Rsv.8 Figurs 3.5-5 Terrestrial and Marine / Aquatic Sampling Locations Description Code Distance / Direction

• Description Code Distance / Direction' l MM SURFACE WATER Plymouth County Farm CF 5.6 km W Discharge Canal DlS 0.2 km N Whitman Farm Control WF 34 km WNW Bartlett Pond BP 2.7 km SE Powder Point Control PP 13 km NNW FORAGE Whipple Farm WH 2.9 km SW SEDIMENT Plymouth County Farm CF 5.6 km W Discharge Canal Outfall DIS 0.8 km NE Whitman Farm Control WF 34 km WNW Manomet Point MP 3.3 km ESE Plymouth Beach PLB 4.0 km WNW VEGETABLES / VEGETATION Plymouth Harbor PLY H 4.1 km W Plymouth County Farm CF 5.6 km W Duxbury Bay Control DUX-BAY 14 km NNW Bridgewater Farm Control DF 31 km W Green Harbor Control GH 16 km NNW l l l CRANBERRIES IRISH MOSS Manomet Point Bog MR 3.9 km SE Discharge Canal Outfall DIS 0.7 km NNE ,

Bartlett Road Bog BT 4.3 km SSE Manomet Point MP 4.0 km ESE Pine Street Bog Control PS 26 km WNW Ellisville EL 12 km SSE l Brant Rock Control BK 18 km NNW 1 l l SHELLFISH Discharge Canal Outfall DIS 0.7 km NNE Manomet Point MP 4.0 km ESE Plymouth Harbor PLY-H 4.1 km W Duxbury Bay Control DUX-BAY 13 km NNW i Green Harbor Control GH 16 km NNW l LOBSTER Discharge Canal Outfall DlS 0.5 km N Duxbury Bay Co itrol DUX-BAY 11 km NNW FISHES Discharge Canal Outfall DIS 0.5 km N Plymouth Beach PLB 4.0 km W Jones River Control JR 13 km WNW  ! Cape Cod Bay Control CC-BAY 24 km ESE l N River Hanover Control NR 24 km NNW l l Cataumet Control CA 32 km SSW Provincetown Control PT 32 km NE l Buzzards Bay Control BB 40 km SSW Priest Cove Control PC 48 km SW Nantucket Sound Control NS 48 km SSE Atlantic Ocean Control AO 48 km E Vineyard Sound Control MV 64 km SSW

• Distance and direction are measured from the centerline of the Reactor Building to the sampling / monitoring location.

3/4-40 l

I PNPS-ODCM Rev. 8 Figure 3.5-5 (continued) Terrestrial and Marine / Aquatic Sampling Locations 005'r"Hm

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3/4-41

PNPS-ODCM Rev. 8 Figure 3.5-6 Environmental Sampling And Measurement Control Locations Description Code Distance / Direction

• Description Code Distance / Direction
• l ILQ SURFACE WATER Cedarville Substation CS 16 km S Powder Po.nt Control PP 13 km NNW Kingston Substation KS 16 km WNW Landing Road LR 16 km NNW SEDIMEPH Church & West Street CW 17 km NW Duxbury Bay Control DUX-BAY 14 km NNW Main & Meadow Street MM 17 km WSW Green Harbor Control GH 16 km NNW Div. Marine Fisheries DMF 21 km SSE East Weymouth EW 40 km NW IRISH MOSS Substation Brant Rock Control BK 18 km NNW AIR / SOIL SAMPLING East Weymouth EW 40 km NW SliELLFISH Substation Duxbury Bay Control DUX-BAY 13 km NNW M3f Gr^on Harbor Control GH 16 km NNW Whitman Farm Control WF 34 km WNW LOBSTER FORAGE Duxbury Bay Control DUX-BAY 11 km NNW Whitman Farm Control WF 34 km WNW FISHES VEGETABLES / VEGETATION Jones River Control JR 13 km WNW Bridgewater Farm Control BF 31 km W Cape Cod Bay Control CC-BAY 24 km ESE N River-Hanover Control NR 24 km NNW CRANBERRIES Cataumet Control CA 32 km SSW Pine Street Bog Control PS 26 km WNW Provincetown Control PT 32 km NE Buzzards Bay Control BB 40 km SSW Priest Cove Control PC 48 km SW Nantucket Sound Control NS 48 km SSE l Atlantic Ocean Control AO 48 km E Vineyard Sound Control MV 64 km SSW l Distance and direction are measured from the centerline of the Reactor Building to the sampling / monitoring location.

l l 3/4-42

PNPS ODCM Rev. 8 Figure 3.C-6 (continued) Environmental Sampling And Measurement Control Locations SYMBOL KEY O SHELLFISH (M BLUEMUSSEL) (S SOFT-SHELL CLAMj (H HARD-SHELL CLAM) O nuSHuoSS

                       ,(                                                    G LOBSTER g                     MAEACHU3ETTS BAY                            FISHES z                                                                        FUBJACE WATER SE-
 'l                                                                           Q CFAliEEFJtY O VEGETADOWFOBAGE O M:LK o              B                                   [                 o no           o a SuettR O        MILES      10 p                                                                             n          m SCALE
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PNPS-ODCM Rev. 8 TABLE 3.5-4 REPORTING LEVELS FOR RADIOACTIVITY CONCENTRATIONS IN ENVIRONMENTAL SAMPLES Airborne Particulate l Water or Gases Fish Milk Vegetables Analysis pCi/L pCi/m pCi/kg, wet pCi/L pCi/kg, wet H-3 2E+04 -- -- -- -- i Mn-54 1E+03 -- 3E+04 -- -- Fe-59 4E+02 - 1E+04 -- -- Co-58 1E+03 -- 3E+04 -- -- Co-60 3E+02 - 1E+04 -- -- l Zn-65 3E+02 -- 2E+04 -- -- Zr 95 4E+02 -- -- -- -- l-131 2E+00 9E-01 -- 3E+00 1E+02 Cs-134 3E+01 1E+01 1E+03 6E+01 1E+03 ) l l Cs 137 SE+01 2E+01 2E+03 7E+01 2E+03 i Ba-140 2E+02 -- -- 3E+02 -- i l 3/4-44 L

PNPS-ODCM Rsv. 8 TABLE 4.5-1 DETECTION CAPABILITIES FOR ENVIRONMENTAL SAMPLE ANALYSIS LOWER LIMIT OF DETECTION (LLD)(" Airborne Particulate or Food Water Gases Wet Solids Milk Products Dry Solids Analysis pCi/L pCi/m pCi/kg. wet pCi/L pCi/kg, wet pCi/kg. dry Gross Beta 4.0E+00* 1.0E-02 -- -- -- -- H-3 2.0E+03* -- -- -- -- -- Mn-54 1.5E+01 -- 1.3E+02 -- -- -- Fe-59 3.0E+01 -- 2.6E+02 -- -- -- Co-58 1.5E+01 -- 1.3E+02 -- -- 5.0E+01 Co-60 1.5E+01 -- 1.3E+02 -- -- 5.0E+01 Zn-65 3.0E+01 -- 2.6E+02 -- -- 5.0E+01 Zr-95 1.5E+01 -- -- -- -- 5.0E+01 1131 1.0E+00 7.0E-02 -- 1.0E+00 6.0E+01(*) -- Cs-134 1.5E+01 1.0E-02 1.3E+02 1.5E+01 6.0E+01 5.0E+01 Cs-137 1.8E+01 1.0E-02 1.3E+02 1.5E+01 6.0E+01 5.0E+01 Ba-140 1.5E+01 -- -- 1.5E+01 -- -- Ce-144 -- -- -- -- -- 1.5E+02 (" Refer to Appendix B of the ODCM for definition of lower limit of detection (LLD). (2) LLD for surface water. (a) If no drinking water pathway exists, a value of 3000 pCi/L may be used. (') LLD for leafy vegetables. 3/4-45

PNPS-ODCM Rsv. 8 , 3/4.5 RADIOLOGICAL ENVIRONMENTAL MONITORING 3/4.5.2 Land Use Census CONTROLS i 3.5.2 A land use census shall be conducted and shall identify, within a distance of 8 km (5 miles), the location in each of the 16 meteorological sectors of the nearest milk animal, the nearest residence and the nearest garden of greater than 50 m 2 (500 ft )2 producing broad leaf vegetation. For elevated releases as defined in Regulatory Guide 1.111, Revision 1, July 1977, the lar.d use census shall also identify, within a distance of 5 km (3 miles), the locations in each of the 16 meteorological sectors of all milk animals and all gardens of greater than 50 m* producing broad leaf vegetation. APPLICABILITY: At all times. ACTION:

a. With a land use census identifying a location (s) that yields a calculated dose or dose commitment greater than the values currently being calculated in Control 4.3.3, identify the new location (s) in the next Annual Radiological Environmental Monitoring Report. 1

b. With a land use census identifying a location (s) that yields a calculated dose or dose commitment (via the same exposure pathway) 20 percent greater than at a location from which samples are currently being obtained in accordance with Control 3.5.1, add the new location (s) to the Radiological Environmental Monitoring Program within 30 days. The sampling location (s), excluding the control station location, having the lowest calculated dose or dose commitment (s), via the same exposure pathway, may be deleted from this monitoring program after October 31 of the year in which this land use census was conducted. Identify the new location (s) in the next Annual Radiological Environmental Monitoring Report and also include in the report a revised figure (s) and tabl9 for the ODCM reflecting the new location (s).

SURVEILLANCE REQUIREMENTS 4.5.2 The land use census shall be conducted during the growing season, at least once per 12 months using that information that will provide the best results, such as by a door to-door survey, aerial survey, or by consulting local agriculture authorities. The results of the land use census shall be included in the Annual Radiological Environmental Monitoring Report. Broad leaf vegetation sampling of at least three different kinds of vegetation may be performed at the site boundary in each of the two different direction sectors with the highest predicted D/Os, in lieu of the garden census. Specifications for broad leaf vegetation sampling in Table 3.5-1 shall be followed, including analysis of control samples. 3/4-46

PNPS-ODCM Rev. 8 3/4.6 EFFLUENT CONTROLS BASES 3/4.1.1 Radioactive Liould Effluent Instrumentation l The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluents during actual or potential releases of liquid effluents. The alarm / trip setpoints for these instruments shall be calculated in accordance with , NRC approved methods in the Offsite Dose Calculation Manual (ODCM) to ensure that the j alarm / trip will occur prior to exceeding the limits of 10CFR20. The operability ar.d use of this J instrumentation is consistent with the requirements of General Design Criteria 60,63, and 64 of j l Appendix A to 10CFR50. 3/4.1.2 Radioactive Gaseous Effluent Instrumentation The radioactive gaseous effluent instrumentation is provided to monitor and control, as applicable, j the releases of radioactive materials in gaseous effluents during actual or potential releases of gaseous effluents. The alarm / trip setpoints for these instruments shall be calculated in accordance with NRC approved methods in the ODCM to ensure that the alarm / trip will occur prior to exceeding the limits of 10CFR20. The operability and use (>f this instrumeritation is consistent I with the requirements of General design Criteria 60,63, and 64 of Appendi.( A '.o 10CFR50, l 3/4.2.1 Liould Effluents Concentration This control is provided to ensure that the concentration of radioactive materials released in liquid waste effluents at and beyond the site boundary will be less than the concentration levels specified in 10CFR20, Appendix B, Table 2. This limitation provides additional assurance that the levels of radioactive materials in bodies of water at and beyond the site boundary will not result in exposures within (1) the Section ll.A design objectives of Appendix 1,10CFR50, to a member of the public and (2) restrictions authorized by 10 CFR 20.1301(e). 3/4.2.2 Dose - Liauids This section is provided to implement the requirements of Sections ll.A, Ill.A, and IV.A of 10CFR50, Appendix 1, to assure that the releases of radioactive material in liquid effluents will be i kept "as low as is reasonably achievable." Because Pilgrim is not a site where plant operations can conceivably affect drinking water, none of these requirements are intended to assure compliance with 40CFR141. The dose calculations in the ODCM implement the requirements of 10CFR50, Appendix 1, Section Ill.A to ensure that the actual exposure of a member of the public through appropriate pathways is unlikely to be substantially underestimated. The equations specified in the ODCM for calculating the doses due to the actual release rates of radioactive materials in liquid effluents will be consistent with the methodology provided in Regulatory Guide 1.109, " Calculation of Annual Doses to Man from Routine Releases of Reactor Effluents for the Purpose of Evaluating Compliance with 10CFR50, Appendix I," Revision 1, October 1977 and Regulatory Guide 1.113, " Estimating Aquatic Dispersion of Effluents from Accidental and Routine Reactor Releases for the Purpose of implementing Appendix 1," April 1977. NUREG-0133 provides methods for dose calculations consistent with Regulatory Guides 1.109 and 1.113. 3/4-47

PNPS-ODCM Rev. 8 3/4.6 EFFLUENT CONTROLS BASES 3/4.2.3 Liould Radwaste Treatment The requirement that the appropriate portions of this system be used when specified provides assurance that the releases of radioactive materials in liquid effluents will be kept "as low as is reasonably achievable." This control implements the requirements of 10CFR50.36a, General Design Criteria 60 of Appendix A to 10CFR50 and design objective Section ll.D of Appendix I to 10CFR50. The specified limits governing the use of appropriate portions of the liquid radwaste treatment system were specified as a suitable fraction of the guide set forth in Section ll.A of Appendix 1,10CFR50, for liquid effluents. 3/4.3.1 Gaseous Effluents Dose Rate This control is provided to ensure that the dose rate at anytime at and beyond the site boundary from gaseous effluents from all units on the site will be within the annual dose limits of  ; 10CFR20. The annual dose limits are the doses associated with the concentration of 10CFR20,  ! Appendix B, Table 2. These limits provide reasonable assurance that radioactive material discharged in gaseous effluents will not result in the exposure of a member of the public either , within or outside the site boundary to annual average concentrations exceeding the limits specified in Appendix B, Table 2 of 10CFR20.1001-20.2401. For members of the public who may at times  ; be within the site boundary, the occupancy of the individual will usually be sufficiently low to i compensate for any increase in the atmospheric diffusion factor above that for the site boundary. The specified release rate limits restrict, at all times, the corresponding gamma and beta dose rates above background to a member of the public at or beyond the site boundary to s 500 mrem / year to the total body or to s 3000 mrem / year to the skin. These release rate limits also restrict, at all times, the corresponding thyroid dose rate above background to an infant via the cow-milk-infant pathway to s 1500 mrem / year for the nearest cow to the plant. 3/4.3.2 Dose - Noble Gases This section is provided to implement the requirements of 10CFR50, Appendix 1, Sections li.B. Ill.A, and IV.A to ensure that the releases of radioactive material in gaseous effluents will be kept "as low as is reasonably achievable." The surveillance requirements implement the requirements of 10CFR50, Appendix 1, Section Ill.A to ensure that the actual exposure of a member of the public through the appropriate pathways is unlikely to be substantially underestimated. The dose calculations established in the ODCM for calculating the doses due to the actual release rates of radioactive noble gases in gaseous effluents are consistent with the methodology provided in Regulatory Guide 1.109 and Regulatory Guide 1.111, " Methods for Estimating Atmospheric Transport and Dispersion of Gaseous Effluents in Routine Releases from Light-Water-Cooled Reactors," Revision 1, July 1977. The ODCM equations provided for determining the air doses at and beyond the site boundary will be based upon the historical average atmospheric conditions. NUREG-0133 provides methods for dose calculations consistent with Regulatory Guides 1.109 and 1.111. 3/4-48

PNPS-ODCM Rev. 8 3/4.6 EFFLUENT CONTROLS BASES 3/4.3.3 Dose - lodine-131. lodine-133. Radioactive Material in Particulate Form. And Tritium This section is provided to implement the requirements of Sections ll.C, Ill.A and IV.A of I 10CFR50, Appendix 1, to assure that the releases of radioactive materials in gaseous effluents will be kept "as low as is reasonably achievable." The ODCM calculational methods specified in the

                                                                                                          )

i surveillance requirements implement the requirements of 10CFR50, Appendix 1, Section Ill.A to ensure that the actual exposure of a member of the public through appropriate pathways is ] j unlikely to be substantially underestimated. The ODCM calculational methods approved by the NRC for calculating the doses due to the actual release rates of the subject materials are required to be consistent with the methodology provided in Regulatory Guides 1.109 and 1.111. These , equations also provide for determining the actual doses based upon the historical average l atmospheric conditions. The release rate specifications for iodine-131, radioactive material in ) particulate form with half-lives greater than 8 days, and radionuclides other than noble gases are l dependent on the existing radionuclide pathways to man, in areas at and beyond the site  ! boundary. The pathways which are examined in the development of these calculations are: 1

1) individual inhalation of airborne radionuclides,2) deposition of radionuclides onto green leafy vegetation with subsequent consumption by man, 3) deposition onto grassy areas where milk i animals and meat producing animals graze with consumption of the milk and meat by man, and }

4) deposition on the ground with subsequent exposure of man.

3/4.3.4 Gaseous Effluent Treatment The requirement that the appropriate portions of these systems be used when specified provides  ; reasonable assurance that the releases of radioactive materials in gaseous effluents will be kept "as low as is reasonably achievable." This control implements the requirements of 10CFR50.36a, General Design Criterion 60 of Appendix A to 10CFR50, and design objective Section ll.D of  ; Appendiv i to 10CFR50. The specified limits governing the use of appropriate portions of the I systems were specified as a suitable fraction of the guide set forth in Sections ll.B and ll.C of l Appendix 1,10CFR50, for gaseous effluents. 3/4.4.1 Total Dose , This section is provided to meet the dose limitations of 40CFR190 that have now been incorporated into 10CFR20 by 46FR18525. The control requires the preparation and submittal of a special report whenever the calculated doses from plant radioactive effluents exceed twice the design objective doses of 10CFR50, Appendix 1. For sites containing up to 4 reactors, it is highly unlikely that the resultant dose to a member of the public will exceed the dose limits of 40CFR190 if the individual reactors remain within the reporting requirement level. The special report will describe a course of action that should result in the limitation of the annual dose to a member of the public to within the 40CFR190 limits. For the purposes of the special report, it may be assumed that the dose commitment to the member of the public from other uranium fuel cycle sources is negligible, except dose contributions from other nuclear fuel cycle facilities at the same site or within a radius of 8 km must be considered. If the dose to any member of the public is estimated to exceed the limits of 40CFR190, a request for a variance in a special report in accordance with 40CFR190.11 and 10CFR20.2203(a)(4) is considered to be a timely request and fulfills the requirements of 40CFR190 until NRC staff action is completed. This is provided that the release conditions resulting in violation of 40CFR190 have not already been corrected. The variance only relates to the limits of 40CFR190, and does not apply in any way to the other 3/4-49

PNPS-ODCM Rev. 8 3/4.6 EFFLUENT CONTROLS BASES 3/4.4.1 Total Dose (continued) requirements for dose limitation of 10CFR20. An individual is not considered a member of the public during any period in which he/she is engaged in any operation that is part of the nuclear fuel j cycle. 3/4.5.1 Environmental Monitorina Procram . An environmental radiological monitoring program is conducted to verify the adequacy of in-plant , controls on the release of radioactive materials. The program is designed to detect radioactivity { concentrations to ensure that radiation doses to individuals do not exceed the levels set forth in 10CFR50, Appendix 1. A supplemental monitoring program for sediments and mussels has been incorporated into the basic program (see Notes 6 and 7 to Table 3.5-1) as a result of an agreement with the ' Massachusetts Wildlife Federation. This supplemental program is designed to provide information on radioactivity levels at substantially higher sensitivity levels in selected samples to verify the adequacy (or, alternatively, to provide a basis for later modifications) of the long-term marine sampling schedules. As part of the supplemental program, analysis of mussals for isotopes of plutonium will be performed if radiocesium activity should exceed 200 pCi/kg in the edible portions. The 200 pCi/kg radiocesium " action level" is based on calculations which show that if radiocesium l from plant releases reached this level, plutonium could possibly appear at levels of potential  ! interest. ") The calculations also show that the dose delivered from these levels of plutonium I would not be a significant portion of the total dose attributable to liquid effluents. The program was also designed to be consistent, wherever applicable, with NUREG 0473. Groundwater flow at the plant site is into Cape Cod Bay; therefore, terrestrial monitoring of groundwater is not included in this program. Detection capabilities for environmental sample analyses are tabulated in terms of the lower limits of detection (LLD). The LLD in Table 4.5-1 is considered optimum for routine environmental measurements in industrial laboratories. It should be recognized that the LLD is defined as an a priori (before the fact) limit representing the capability of a measurement system and not as an a posteriori(after the fact) limit for a particular measurement. Detailed discussion of the LLD, and other detection limits can be found in HASL Procedures Manual, HASL-300 (revised annually); Cutrlc, L.A., " Limits for Qualitative Detection and Quantitative Determination - Application to Radiochemistry", Anal. Chem. 40, 586-93 (1968); and Hartwell, J.K., " Detection Limits for Radioanalytical Counting Techniques," Atlantic Richfield Hanford Company Report ARH-SA-215 (June 1975). U) In measurable quantities having a potential dose (human food chain) significance comparable to other nuclides if present at their detection limits. 3/4-50 l

PNPS-ODCM Rev. 8 3/4.6 EFFLUENT CONTROLS BASES 3/4.5.2 Land Use Census This section is provided to ensure that changes in the use of areas at and beyond the site boundary are identified and that modifications to the radiological environmental monitoring program are made if required by the results of this census. The best information from the door-to-door survey, from aerial survey, or from consulting with local agricultural authorities shall be used. This census satisfies the requirements of 10CFR50, Appendix 1, Section IV.B.3. Restricting the census to gardens of greater than 50 m* provides assurance that significant exposure pathways via leafy vegetables will be identified and monitored, since a garden of this size is the minimum required to produce the quantity (26 kg/ year) of leafy vegetables assumed in Regulatory Guide 1.109 for consumption by a child. To determine this minimum garden size, the following assumptions were made: 1) 20% of the garden was used for growing broad leaf vegetation (i.e., similar to lettuce and cabbage), and 2) a vegetation yield of 2 kg/m . i l l 1 1 1 1 l 3/4-51

PNPS-ODCM Rev. 8 5.0 RADIOLOGICAL EFFLUENT CONTROLS CROSS REFERENCE Table 5-1 presents a summary of the limits contained in the PNPS Effluent Controls, Sections 3/4.2.1, 3/4.2.2, 3/4.2.3, 3/4.3.1, 3/4.3.2, 3/4.3.3, and 3/4.4.1. This table also presents cross-references to applicable portions of Methodology Section 9.0. This table is intended to serve as a summary of the PNPS Effluent Controls and does not, in itself, establish limits. The specific effluent controls presented in Section 3/4 should be consulted for exact wording and specifics. 5-1

PNPS-ODCM Rev. 8 TABLE 5-1 PNPS EFFLUENT CONTROLS AND METHODOLOGY CROSS-REFERENCE 4 i Effluent Control Methodology Applicable Limit Exposure j Section Section or Objective Period Required Action 1 3/4.2.1 10CFR20, App. B, Table 2 Liquid Effluent 9.1 Column 2, and Instantaneous Restore concentration to Concentration 2x10" Ci/mL for dissolved within limits noble gases 3/4.2.2 1.5 mrem T.B. Calendar  ! Dose- Liquids 9.2 5 mrom Organ Quarter 30-day report if exceeded 3 mrem T.B. Calendar Year 10 mrem Organ 3/4.2.3 0.06 mrem T.B. Projected for Operate Liquid Waste Liquid Radwaste 9.2 0.2 mrem Organ 31 days Treatment System Treatment 3/4.3.1 9.3.1.3 500 mrem /yr T.B. from Gaseous Noble Gases Instantaneous Rettore release rates to Effluents -

                                                ..               .                               viithin specifications Dose Rate           9.3.1.4      3000 mrem /yr Skin from Noble Gases 9.3.2      1500 mrem /yr Organ from particulates with T% > 8d.,

1-131,1-133 and tritium 3/4.3.2 5 mrad gamma air Calendar Dose- 9.3.1.1 and 10 mrad beta air Quarter 30-day report if exceeded Noble Gases 9.3.1.2 . ... 10 mrad gamma air Calendar Year 20 mrad beta air 3/4.3.3 7.5 mrem Organ Calendar Dose- l-131, 9.3.2 Quarter 30-day report if exceeded 1-133 . . . . . . . . . . . . . . . . . Particulates, H-3 15 mrem Organ Calendar Year 3/4.4.1 9.2, 9.3.1, 25 mrem T.B. Calendar Year 30-day repoit if controls Total Dose 9.3.2, and 9.4 25 mrem Organ 3/4.2.2,3/4.3.2, or 3/4.3.3 75 mrem Thyroid are exceeded by a factor of

2. Restore dose to public to within the applicable EPA limit (s) or obtain a

                                                                      !                                 variance.

NOTE: T.B. means total body. 5-2

F' PNPS-ODCM Rev.8

6.0 DESCRIPTION

OF RADWASTE SYSTEMS 6.1 Liquid Radwaste System l Liquid wastes from Pilgrim Station originates from a variety of sources which have a considerable i disparity in chemical and radio-chemical composition and concentration (see section 9.2 of i Reference 3). Normally these wastes are collected and treated separately. The liquid wastes fall into the following categories:

1) High Purity

2) Low Purity

3) Detergent High purity clean wastes are typically characterized by having variable solids content, low conductivity, and variable radioactivity. They come from equipment drain sumps, ultrasonic resin cleaner (URC) operation, and the backwash and resin transfer water used to change out the condensate demineralizers. Reuse of processed high-purity waste is highly desirable. l Low purity chemical wastes have moderate conductivity and solids content. They come from building floor sumps and are generally high-purity wastes which have been contaminated by dirt, oil, etc. When processed, this stream may or may not be reused depending on the water balance in the plant and the quality of the product.

Detergent wastes are low radioactivity concentration wastes that have the potential to contain detergents. This waste is generated from washing and decontamination of equipment, the plant, and personnel. This detergent waste is collected in the miscellaneous waste tank and is not treatable. The waste is passed through strainers, prior to discharge through the radwaste i discharge header and into the circulating water discharge canal. A schematic of the system as determined in Reference 4 is shown in Figure 4.2-1, in Section 3/4.2. In the system, the high purity waste is collected in one of two 15,000-gal clean waste tanks. Low purity waste is collected in one of two 15,000 gallon chemical waste tanks. This low purity waste is batched to the clean waste tanks where both types of waste are processed through a mixed bed ion exchange demineralizer. The processed liquid is collected in one of four 18,000 gal treated water holdup tanks. It is reused to the greatest extent possible. 6.2 Treated Gaseous Radwaste System The air ejector and augmented offgas system (see Section 9.4 of Reference 3) includes the subsystems that process and/or dispose of the gases from the main condenser air ejectors, the startup mechanical vacuum pump, and the gland seal condensers. All such gases from the unit are routed to the main stack for dilution and elevated release to the atmosphere. Discharges from the air ejector, the charcoal vault, and the stack are continuously monitored by radiation monitors. Gases routed to the main stack include air ejector and gland seal offgases, and gases from the standby gas treatment system (SGTS). Dilution air input to the stack is supplied by one of two fans located in the filter building at the base of the main stack. The stack is designed such that I prompt mixing of all gas inlet streams occurs in the base to allow location of sample points as near f the base as possible. 6-1

PNPS-ODCM Rev.8 The augmsnted offgas system uses a high temperature catalytic recombiner to recombine radiolytically dissociated hydrogen and oxygen from the air ejector system. Noncondensable radioactive offgas is continuously removed from the main condenser by the air ejector during plant operation. The air ejector offgas normally contains activation gases, principally N-16,0-19, and N-13. The N-16 and 0-19 have short half-lives and quickly decay. The 10 min half-life N-13 is present in small amounts which is further reduced by decay. The air ejector offgas also contains Sr-90, Ba-140, and Cs-137. After hydrogen / oxygen recombination and chilling to strip the condensable to reduce the volume, the remaining noncondensables, principally the kryptons, xenons, and air, are delayed in a 30 minute holdup system before reaching the adsorption bed. Radioactive particulate daughters of the noble gases are retained on the HEPA filters and on the charcoal. The charcoal adsorption bed, operating in a constant temperature vault, selectively adsorbs and delays the xenons and kryptons from the bulk carrier gas, principally air. This delay on the charcoal permits the xenons and kryptons to decay in place. The offgas is discharged to the environs via the main stack. The activity of the gas leaving the offgas treatment system is continuously monitored as described in Section 7.2.2. This system results in a reduction of the offgas activity (Curies) released by factor of approximately 185 relative to a 30 minute holdup I system. The system as determined in Reference 4 for handling gaseous waste is shown in Figure 4.3-1, in Section 3/4.3. I i 6-2 l 1

f PNPS-ODCM Rev. 8 7.0 RELEASE POINT AND MONITOR DESCRIPTION 7.1 Radioactive Effluent Release Point Description (Reference 3) 7.1.1 Llauid Radioactive Waste Effluent Release The liquid radwaste discharge header receives discharge from the chemical radwaste monitor tank pumps, the clean radwaste treated water transfer pumps, and the miscellaneous waste drain tank pump (see Figure 4.2-1). The header provides controlled discharge through either a low flow discharge path or a high flow discharge path. The high flow path is normally used with a variable liquid radwaste effluent flow from 1-200 gpm. The common discharge header extends from both the low and high flow paths and is monitored for radiation prior to discharge (see Section 7.2.1). The monitor trips the discharge pumps, closes the flow control valves, and provides an alarm on high radiation. The liquid radwaste effluent is finally discharged through an outlet diffuser to the circulating water discharge canal. Liquid effluent releases enter the Cape Cod Bay at the outfall of the discharge canal which is located about 1100 feet north from the center of the reactor building. In addition, batch releases from sources other than the radwaste tanks are permitted provided at  ! least two independent samples are analyzed in accordance with PNPS Effluent Control Section 4.1.1.a, an independent verification of the release rate calculations is performed, and an l i independent verificat;on of the discharge valving is performed. Concentrations released to unrestricted areas must be limited to the values specified in 10CFR20. All batch releases which are not processed through the liquid radwacte treatment system are also discharged through an outlet to the circulating water discharge canal. These etmated liquid effluent releases also enter the Cape Cod Bay at the outfall of the discharge canal. 7.1.2 Main Stack Gas Release The processed gases from the unit are routed to the main stack for dilution and elevated release to the atmosphere (see Figure 4.3-1). The main stack is continuously monitored by a radiation monitor (see Section 7.2.2). Dilution air input to the stack is provided to reduce the hydrogen in the air ejector offgases to a concentrathn of less than 4 percent by volume. Dilution air is supplied by one of two fans located in the filter butiding at the base of the main stack. The stack is designed such that prompt mixing of all gas inlet streams occurs in the base to provide prompt dilution of hydrogen and to allow location of sample points as near to the base as possible. The main stack is a pipe with a top elevation of about 400 feet mean sea level (MSL). The main stack is supported by the filter building. The fi!!er building is a reinforced concrete structure which  ! houses tne dilution fans (16,860 cfm each fan), offgas filters, and heaters. The main stack is  ; located about 700 feet west northwest of the reactor bu3 ding. 1 l I 7-1

PNPS-ODCM Rev. 8 7.1.3 Reactor Buildina Exhaust Vent Release Air from areas containing potential sources of radioactive contamination such as the reactor building, radwaste building basement, and turbine building basement are discharged through the reactor building exhaust vent (see Figure 4.3-1). Normal airflow is routed from lesser to progressively greater areas of radioactive contamination potential prior to final exhaust. The reactor building exhaust vent is continuously monitored by a radiation monitor (see Section 7.2.3). l i The operating floor ventilation is normally supplied with 40,000 cfm of filtered and tempered l outside air which enters the reactor building through louvers in the east wall. Air is exhausted from the operating floor through ducts located in the roof truss area and the south wall; adjacent to the floor (54,000 cfm per fan). Additional exhaust ducts are located above the water level in the fuel l pool, steam dryer / separator storage pod, and the reactor cavity. Two contaminated area exhaust fans (25,000 cfm per fan), each rated at design capacity, are I located in the reactor building. The fans discharge to the main exhaust plenum at the base of the reactor building. An additional smaller exhaust fan (5,000 cfm), located in the reactor building, exhausts only from the control rod drive maintenance shop and discharges to the main exhaust plenum. Constant volume control is maintained by inlet vanes which are automatically positioned. The reactor building exhaust vent is a square plenum extending from the top of the west corner of l the reactor building. The exhaust plenum releases to the atmosphere at an elevation of 182 feet MSL. l I 7-2

PNPS-ODCM Rev.8 7.2 Radioactive Effluent Monitorina System Description (References 3,5, and 6) 7.2.1 Liauid Radioactive Waste Effluent Monitorina System f The liquid radiation waste effluent monitoring system consists of a single channel (see Section 7.12 of Reference 3). This channel includes a scintillation detector, a seven decade logarithmic radiation monitor, and a strip chart recorder. The detector is located in a shielded sampler that is located in a section of the radwaste liquid discharge header to minimize background radiation. The meter and recorder are located in the main control room. This channel is connected to the 24 volt DC power bus. The channel has an upscale trip to indicate high radiation level and a downscale trip to indicate instrument trouble. The upscale trip alarms in the main control room (see Section 8.1 for liquid effluent monitor setpoints), trips the monitor tank pumps, and terminates the discharge. The downscale trip alarms in the main control room. The waste discharge valve is the isolation control device for the liquid radwaste effluent stream and it is automatically closed when the alarm is tripped. There are two waste discharge valves, one is situated on a two inch line and the other is situated on a one inch line. Both valves are located prior to the radiation waste effluent monitor and prior to the discharge canal. The valves are air operated valves. The waste discharge valves are: AO7216A and SV7216A, which are on the 2 inch line; and AO72168 and SV7216B, on the 1 inch line. The power source is the 24 volt DC power bus. Alarm trip circuits can be tested using test signals. The channel is calibrated by laboratory analysis of a grab sample from the liquid radwaste system. 7.2.2 Main Stack Gas Monitorina System j The main stack gas monitoring system consists of two individual channels (see Section 7.12 of Reference 3) to monitor the release of noble gases. Each channel consists of a gamma-sensitive scintillation detector and a seven decade logarithmic count rate monitor that includes a power supply and a meter. Both channels are recorded on a two-pen recorder located in the main control room. Both channels are connected to the 24 volt DC power bus and to the AC radiation protection system via a transfer switch to the emergency diesel generators. Each monitor has two upscale alarms and one downscale alarm. Exceeding a setpoint initiates an alarm in the main control room, but no control action is provided. The upscale alarms indicate high radiation (see Section 8-2 for gaseous effluent monitor setpoint), and the downscale alarm indicates instrument trouble. To monitor noble gases in the gaseous effluent from the main stack, a sample is drawn through an , isokinetic probe which is located in the stream to assure representative sampling. The sample l passes through a particulate filter and charcoal cartridge. The filtered gas then flows to two shielded chambers where the radiation level of the noble gases is measured by two scintillation detectors, one located in each shielded chamber. The system also provides for sampling of particulates and iodines by the use of a filter and charcoal cartridge located upstream of the gas being monitored in the shielded chambers. The filter and cartridge are routinely analyzed in a chemistry laboratory in accordance with PNPS Effluent Controls. Each individual channel includes a built-in check source and a purge line to purge the stack gas from the sampling chamber. Both the purge valve and the check source are operated from the  ! main control room. Each channel is calibrated by laboratory analysis of a grab sample in the offgas line. Alarm trip circuits can be tested using a test source. 7-3

PNPS-ODCM Rev. 8 7.2.3 R* actor Buildina Exhaust Vent Monitorina System The reactor building exhaust vent monitoring system consists of two channels (see Section 7.12 of Reference 3). Each channel consists of a gamma-sensitive detector and a ceven decade logarithmic count rate monitor that includes a power supply and a meter. Both channels are recorded on a two-pen recorder located in the main control room. Both channels are connected to the 24 volt DC power bus and the AC radiation protection system via a transfer switch to the emergency diesel generators. Each monitor has two upscale alarms and one downscale alarm. Exceeding a setpoint initiates an alarm in the main control room, but no control action is provided. The upscale alarms indicate high radiation and the downscale alarm indicates instrument trouble. To monitor noble gases from the gaseous effluent in the reactor building exhaust vent, a sample is drawn through an isokinetic probe which is located to assure representative sampling. The sample passes through a particulate filter and iodine cartridge. The filtered gas then flows to two shielded chambers where the radiation level of the gas is measured by two scintillation detectors, one located in each shielded chamber. The system also provides for sampling of particulates and iodines by the use of a filter and , charcoal cartridge located upstream of the gas being monitored in the shielded chamber. The i filter and cartridge are routinely analyzed in a chemistry laboratory in accordance with PNPS Effluent Controls. ] Each individual channel includes a built-in check source and a purge line to purge the gas from the sampling chamber. Both the purge valve and the check source are operable from the main control room. Each channel is calibrated by laboratory analysis of a grab sample from the reactor building ventilation system. Alarm trip circuits are tested using test signals. i 1 l l 7-4

PNPS-ODCM Rev.8 TABLE 7-1 RADIOACTIVE EFFLUENT MONITOR DATA Stack Gas Reactor Building Vent item Channel 1 Channel 2 Channel A ChannelB Liquid Effluent Manufacturer GE GE GE GE GE Model Number 194X900G9 194X900G11 194X900G11 194X900G11 194X900G9 Serial Number 6,343,901 PPA 6,550,PA6,343 6,550,733 6,550,789 6,342,995 PPA 6,342,790 PRM 907 6,342,788 PRM Scale cps cps cps cps cps Range 1E-1 to 1E+6 1E-1 to 1E+6 1E 1 to 1E+6 1E-1 to 1E+6 1E-1 to 1E+6 Power 24 VDC 24 VDC 24 VDC 24 VDC 24 VDC Location PanelC910 Panel C910 Panel C910 Panel C910 Panel C910 Installation Date 8/20/71 8/20/71 8/20/71 8/20/71 9/13/71 Surveillance Test i

a. Daily Channel Check Channel Check Channel Check

b. Monthly Source Check Source Check ---

c. Quarterly Channel Functional Test Channel Functional Test Channel Functional Test Calibration

a. Quarterly Check Source Check Source Check Source

b. 18-month Known radiation source Known radiation source Known radiation source Alarm Set Points

. . . . . . . . . . . . . . . See Section 8.2 See Section 8.2 See Section 8.1

a. Hi Alarm

b. Hi-Hi Alarm Isolation Control None None Waste Device Discharge Valve i

1 l 7-5

PNPS-ODCM Rev. 8 7.3 Measurement Method Durino Release (References 3 and 7) 7.3.1 Liauld Effluent Prior to the release of any liquid waste, a sample of the release is collected and the specific activity is determined by isotopic analysis. The waste discharge tank is recirculated at least 60 minutes prior to the collection of a sample. The release of any liquid waste is controlled on a mixed effluent concentration limit (ECL) basis, where the sum of the ratios between the isotopic concentration and the ECL is less than one. The specified waste discharge flow rate must be at least 10% less than the maximum waste discharge flow rate which shall not exceed 200 gpm. The discharge of the liquid effluent is made from the liquid radwaste discharge header. 7.3.2 Gaseous Effluent The gaseous effluent radiation level is continuously monitored as it is being vented to the atmosphere. Periodic samples are collected from the reactor building vent and the main stack. The particulate filters, charcoal cartridges, gas samples, and condensed water samples are analyzed for isotopic identification and quantification, in accordance with the PNPS Effluent Controls. 7.3.3 Limitations

a. Gaseous Effluent

1) PNPS Effluent Controls for gaseous release values.

b. Liquid Effluent

1) PNPS Effluent Controls for liquid release values.

2) If one pump is used to discharge the liquid waste and fails, the release is immediately discontinued.

3) If the discharge flow rate recorder fails, the release is immediately discontinued.

i 7-6 l l

                                                                                                       )

r PNPS-ODCM Rev. 8 8.0 MONITOR SET POINTS 8.1 Liauid Effluent Monitor The setpoint for the liquid effluent monitor (see Section 7.2.1) is established as follows: 1

1) Prior to a liquid batch release, the waste discharge tank is recirculated for at least 60 minutes I and a sample is taken.

i

2) The liquid effluent sample is analyzed (see Section 7.3) to determine the concentrations of ,

each detectable isotope in pCi/mL. (See Appendix B for the definitions of lower limit of l detection.)

3) The efficiency (in counts /sec per Ci/mL) of the liquid discharge monitor is calculated based on l prior release experience.

4) The setpoint for the liquid effluent monitor is calculated as follows:

a) Monitor setpoint based on activity concentration CF l c-l l where: c = the setpoint of the radioactivity monitor measuring the radioactivity concentration in the  ! effluent line prior to dilution and subsequent release; the setpoint, which is proportional ' to the volumetric flow of the effluent line and inversely proportional to the volumetric flow , l of the dilution stream plus the effluent stream, represents a value, which if exceeded, l l would result in concentrations exceeding the limits of 10CFR20 in the unrestricted area, (pCi/mL); C = the effluent concentration limit implementing 10CFR20 for the site ( Ci/mL); where: EC;w C= i Cai I ECL i i Cw/ = concentration of nuclide iin the liquid waste discharge volume prior to any dilution as determined by current isotopic analysis for gamma emitting nuclides and most recent results from pure beta emitters as specified in Table 4.2-1 of PNPS Effluent Controls, (pCi/mL); i ECL/ = Effluent Concentration Limit of each nuclide i from 10CFR20 Appendix B, Table 2, Column 2,( Ci/mL);

 /       = the flow setpoint as measured at the radiation monitor location, (gpm);

F = the dilution water flow setpoint as measured prior to the release point, (gpm); 8-1 \

PNPS-ODCM Rsv.8 b) Monitor sntooint bas *d on monitor count rata Cs = (C

• X) + Z where:

l cs = the setpoint of the radioactivity monitor measuring the radionuclide concentration in the effluent line prior to dilution, (counts /sec); c = the liquid effluent monitor setpoint based on activity concentration as calculated in step 4.a above, (pCi/mL); x = the liquid effluent monitor efficiency / conversion factor for activity concentration to count rate, (counts-milpCi-sec); z = the liquid effluent monitor background count rate, (counts /sec). The setpoint will ensure that the concentration of liquid effluents discharged does not increase above the value for which the maximum permissible discharge flow rate was established (see Section 9.1 of this manual). 8.2 Gaseous Effluent Monitors l The only camponents of the station's gaseous effluent and discharge which are continuously  ! monitored are the noble gases. The method of determining the main stack gas monitor (see Section 7.2.2) and reactor building exhaust vent monitor (see Section 7.2.3) Hi and Hi-Hi alarms is , as follows: 1

1) At the time a gas grab sample is taken at the discharge poin., the gross monitor reading is recorded (in counts /sec).

2) The results of the isotopic analyses on this sample in terms of pCi/cc of each isotope detected are used along with estimates of gaseous discharge flow rate (SCFM) to determine the I current release rate of each detected isotope in Ci/sec.  !

O t

3) These calculated release rates (pCi/sec) are used along with the equations given in Sections l 9.3.1.3 and 9.3.1.4 of this manual to calculate the maximum offsite dose rate due to noble l gases.

4) The ratio of this calculated dose rate to the PNPS Effluent Controlinstantaneous dose rate limit 1 (500 mrem /yr for the total body and 3000 mrem /yr for the skin, or some fraction thereof) is used to scale the observed monitor reading at the time at which the grab sample was obtained i as follows:

l l 8-2 i I

I PNPS-ODCM l Rev. 8 y

 ~ Sc = hs            -

DRcate B ) DRumit

                                  +B #

where: So = gaseous monitor setpoint corresponding to 500 mrem /yr to the total body or 3000 mrem /yr to the skin, whichever is more limiting (in counts /sec) Cs = observed monitor reading at the time of the grab sample (in counts /sec) Bg = measured background count rate at the sampler with no sample present (in counts /sec) ORL!mit = the applicable dose rate limit, 500 mrem /yr for the total body or 3000 mrem /yr for the skin or some fraction thereof DRCalc.= the calculated dose rate for the maximum individual from the methods of Section 9.3.1.3 and 9.3.1.4 of this manual using the release rates determined from the grab sample, mrem /yr The resulting setpoint will be valid until the next grab sample is taken from the release point. This method will be used to establish the Hi-Hi alarm at 500 mrem /yr to the total body or 3000 mrem /yr to the skin, whichever is more restrictive. Since two release points exist for noble gas effluents, the setpoints may be varied to allow greater release rates from one point than the other, provided the total limit is below 500 mrem /yr for the total body or 3000 mrem /yr for the skin, whichever is more restrictive. The Hi-Hi alarm setpoint for the gaseous monitors will be based on the equation in this section.  ; The Hi alarm setpoint may be set at or below, but in no case above, the Hi-Hi alarm setpoint. l 8.3 Steam Jet Air Elector Monitor The steam jet air ejector (SJAE) monitor is used to measure the release rate of noble gases in main condenser offgas prior to its further treatment and release from the main stack. This monitor's primary function is to provide alarm and isolation of this process flow stream in the event of excessively high release rates of noble gases from the condenser and recombiner. The i maximum allowable release rate of noble gases in the SJAE offgas is 500,000 pCi/sec, as l established in Technical Specification 3.8.1. For conservatism, the Hi-Hi alarm is set at 75% of j this limit, or 375,000 pCi/sec. In association with changing to a 24-month refueling cycle, the frequency of equipment calibrations has also been extended from the typical 18-month cycle. In order to accommodate for any drift which may occur in SJAE monitor response during the , additional 6-months in the calibration interval, the Hi-Hi alarm has been further derated to a I release rate of 300,000 Ci/sec. i i I 8-3

PNPS-ODCM Rsv. 8 Since this gas;ous stream undsrgoes furthur processing downstream of the SJAE monitor and is ultimately released via the main stack and monitored by the main stack gaseous effluent monitor, the SJAE monitor does not strictly qualify as a primary effluent monitor. Therefore, it is not normally recognized as such. However, the methodology for establishment of alarm setpoints is included in this section for completeness. These setpoints are established as follows:

1) A grab sample of the SJAE offgas is collected. The SJAE monitor reading (mR/hr)is recorded in conjunction with this sample.

2) Isotopic analyses are performed on the offgas sample and the total noble gas concentration

( Cl/cc) is coupled with the flow rate (CFM) to calculate the SJAE release rate (pCl/sec).

3) The release rate ( Ci/sec) is divided by the monitor reading (mR/hr) to determine the SJAE monitor conversion factor ( Ci/sec/mR/hr).

4) The Hi-Hi alarm setpoint (mR/hr) is determined by dividing the maximum tolerable release rate  ;

of 300,000 Ci/sec by the SJAE monitor conversion factor ( Ci/sec/mR/hr). 1

5) The Hi alarm setpoint is set at 50% of the corresponding Hi-Hi alarm setpoint.

Grab samples of the SJAE offgas are collected: 1) at least once every 31 days; or,2) if the gross radioactivity release rate increases by 50% or more over the previous day (after factoring out changes in reactor thermal power level and/or hydrogen injection rate). Upon collection of these grab samples, new values are established for the total noble gas concentration, SJAE monitor conversion factor, and alarm setpoints. Typically, existing setpoints will be used unless the newly calculated setpoints yield lower values. In this case, the setpoints will be lowered to the newer, more conservative values. l i i 1 l 8-4

PNPS-ODCM Rev. 8 9.0 CALCULATIONAL METHODS This section presents the calculational specifics required to demonstrate compliance with each of the Effluent Controls identified in Section 3/4 of this document. The equations in this section are based on the equations and calculational methods described in Reference 8, unless otherwise specified. These equations have, in some cases, been presented in a slightly different form in an effort to simplify their use. The subscripts used are "a" for age group, "j" for organ, "i" for radionuclide, "p" for pathway and "l" for location. Capital letters have been used on the dose / dose rate, use factor, concentration, and dose conversion factor abbreviations to designate pathways "A" is for aquatic foods, "S" for shoreline deposits, "W" for swimming, "Y" for yachting / boating, "N" for noble gas, "G" for ground plane deposition, "B" for breathing / inhalation, "L" for leafy vegetation, "R" for root crops /non-leafy vegetation, "M" for milk, and "C" for meat. The descriptions of constants, variables, and parameters in this section are also based on those described in Reference 8, unless otherwise specified. The descriptions have, in some cases, been modified to describe the constant, variable, and parameter specific application in the corresponding equation. In addition, some of the constant and variable values have been revised to include more site specific values, to include more technically correct information, or to provide uniformity (e.g., A lvalues always presented in br-1). Values for parameters which only have a f single value will appear along with the definition. For those parameters which can take on different values for different conditions, the appropriate value will appear in the referenced tables. All numerical constants have been derived from the indicated base conversion factors and are l represented in scientific notation to the third significant digit. 9.1 Concer,trations of Liauid Effluents The following equation shall be used to determine the discharge flow rate such that concentrations of radioactive effluents released to unrestricted areas do not exceed the concentration limits specified in 10CFR20 Appendix B, Table 2, Column 2: CW DFR = Cai 1 ECL; where: DFR = Maximum discharge release rate of liquid effluent, (gal / min). CW = Flow rate of dilution water, (sum of circulating water pumps and/or salt service water pumps), (gal / min). Cw/ = Concentration of nuclide iin the liquid waste discharge volume prior to any dilution as determined by current isotopic analysis for gamma emitting nuclides and most recent results from pure beta and alpha emitters, (pCi/mL). ECL/ = Effluent Concentration Limit of each nuclide ifrom 10CFR20 Appendix B, Table 2, Column 2, (pCl/mL). 9-1

PNPS-ODCM Rev. 8 9.2 Liould Effluents Dose Assessment Mnthodoloav The following equations shall be used to estimate the annual dose rates due to a release of radioactive liquid effluents. Allinput parameters (i.e., activity and volume) must be normalized to a 1 year release period. Modification of the final results is necessary for comparison to dose rate limits for periods different than one year. For comparison to monthly limits and quarterly limits, results would be scaled by 1/12 and 1/4, respectively. To determine the dose or dose commitment for a desired period, multiply the annual dose rate by the fraction of the year for the dose period desired. For purposes of projecting resulting dose estimates for the subsequent month, the release rates and concentrations are ascumed to be equal to the previous month's release. Pathways assuming internal deposition of radionuclides (i.e., ingestion) involve the use of a 50-year committed dose conversion factor. This entire prospective dose will be assigned to the individual for the year of intake (Reference 8). In the original version of the ODCM, values from Regulatory Guide 1.109 (Reference 8) were used for calculating doses. Upon incorporation of the Generic Letter _89-01 change (Revision 8), and conversion to an electronic document, dose conversion factors were obtained from updated tables used by the NRC in the computer program GASPAR-ll (Reference 9). For pathways involving external radiation to the total body (i.e., shoreline activity, swimming, boating), the dose to all other organs is assumed equal to that for the l total body (Reference 8, Appendix E). l Summation of the dose rates from the equations below should be performed for all significant pathways. 9.2.1 Liauid Pathways Annual Dose Rates 9.2.1.1 Aauatic Food Inaestion (Fish. Shellfish) D A ,,p = Wap & CAip DFI,,7 I where: CAip = CWii Bip e *h

                        ~

1 CWii = 1.00E12 i Qi M e~^i4 V Above equations derived from Reference 8, equations 2 and A-3. 9-2

r 1 I PNPS-ODCM R:v.8 9.2.1.2 Shorsline Deposits (Disch roe Canal and Recreational Arra) DS,9 = USai Wi X,.CSy DFGy. where: CSy = 2.89 CWu (1- e-M) Al CWy = r,ame as indicated in Equation 9.2.1.1 Above equation derived from Reference 8, equations A-4 through A-7. 9.2.1.3 Swimmina (White Horse Beach) DW,9=UW,1X CWy DFWy ' I , where: l l l CWy = same as indicated in Equation 9.2.1.1 l Above equations derived from Reference 10, equation 41 on page 151. 9.2.1.4 Yachtina/Boatina (Cape Cod Bay) DY ap = 0.5 UY,1 X, .CWa DFWy. where. CWji = same as indicated in Equation 9.2.1.1 I Above equations derived from Reference 10, equation 41 on page 151. 9-3

PNPS-ODCM Rev. 8

9.2.2 Dnfinitions

Bfp = . equilibrium bioaccumulation factor for radionuclide i, in aquatic foods pathway p, expressed as the concentration in biota (pCi/kg), divided by the concentration in water (pCi/ liter) from Table A-1, (liters /kg); Cafp = concentration of radionuclide iin pathway p of aquatic foods, (pCi/kg); CSff = effective surface concentration of radionuclide i in sediments at location I, (pCi/m'); CW;/ = concentration of radionuclide iin seawater at location I,(pCi/ liter); DA,jp = total annual dose rate from ingestion of aquatic foods to organ j, of individuals of age group a, from pathway p, (mrem /yr); DFG/j = open field ground plane dose conversion factor for organ J, from radionuclide i, from Table A 10, (mrem-m*/pCi-hr); DFlafj = ingestion 50-year committed dose conversion factor for organ J, of individuals iri age group a, from radionuclide i, from Table A-15 through A-18 (mrem /pCiingested); DFWj/ = submersion dose conversion factor in water, for organ J, of individuals in age group a, from radionuclide i, from Table A-2,(mrem-liter /pCl-hr); DS,jf = total annual dose rate from exposure received during shoreline activities, to organ J, of individuals of age group a, at location I, (mrem /yr); DW,jf = total annual dose rate from exposure received during swimming, to organ j, of individuals of age group a, at location I,(mrem /yr); DYaff = total annual dose rate from exposure received during yachting / boating, to organ j, of individuals in age group a, at location I, (mrem /yr); Mf = mixing ratio (reciprocal of dilution factor) at location I of exposure or harvest of aquatic food, from Table A-3, (dimensionless); { Of = annual release rate of radionuclide i in liquid effluents, (Ci/yr); tb = period of time for which sediment is exposed to radionuclides in seawater, including buildup, (hr, assumed to be 1.31ES hr = 15y); l l th = time between exposure of aquatic foods to radionuclides in sea water and their  ; consumption by an individual, from Table A-3, (hr); I ff = transit time required for radionuclides to reach location I, (hr, assumed to be 0.0 hr from the liquid waste tank to the discharge canal); UAap = use factor of aquatic foods from pathway p, by individuals in age group a, from Table A-9 for maximum individual, Table A-8 for average individual, (kg/yr); 9-4

N 1 L' PNPS-ODCM L Rev.8 . USal = us3 factor (amount of time) an individualin age group a, engages in shoreline activities  ! at location I, from Table A-9 for maximum individual, Table A-8 for average individual, (hr/yr); UWaf = use factor (amount of time) an individualin age group a, engages in swimming at j location I, from Table A-9 for maximum individual, Table A-8 for average individual, l (hr/yr); i UY,f = use factor (amount of time) an individual in age group a, engages in yachting / boating at j location I, from Table A-9 for maximum individual, Table A-8 for average individual, j (hr/yr);- l ! l V = total annual discharge rate of liquids, represented by the sum of liquid effluents, l circulating water pumps, and/or salt service water pumps, (liters /yr); ') Wf = shoreline width factor for location I, from Table A-3, (dimensionless);

                                                                ^

Af = radioactive decay constant of radionuclide i,(hr ); 4 0.50 = scaling factor for yachting / boating assuming that doses received while on the surface of the water are 1/2 of doses received while immersed in water from Reference 10, 1 (dimensionless); i 2.89 = factor to convert for transfer of nuclides from water to sediment, equal to a 100 liters /m -day from Reference 11 multiplied by 1 day /24 hr and by natural log of 2 (to convert reciprocal Aj to half-life), as calculated in Reference 8, equation A-5, (liter /m*-br); f.00Ef2 = factor to convert from Cl to pCl, (pCi/Cl); l 1 9-5

PNPS-ODCM Rev.8 9.3 Gaseous Effluents Dose Assessment Methodoloav The following equations shall be used to estimate the annual dose rates due to release of radioactive gaseous effluents. All input parameters (i.e., activity and volume) must be normalized to a 1 year release period. Modification of final results is necessary for comparison to dose rate limits for periods different than one year. For comparison to monthly limits and quarterly limits, results would be scaled by 1/12 and 1/4, respectively. To determine the dose or dose commitment for a desired period multiply the annual dose rate by the fraction of the year for the dose period desired. For conservatism, the shielding factor (S) used for calculating total body dose and skin dose from noble gases is normally assumed to be unity (1.0), as specified in NUREG-0133 (Reference 12). Also, although iodine deposition on vegetation is assumed to be 50% (Reference 8),100% of airborne iodine is assumed to be deposited on the ground surface when calculating direct radiation (ground plane) exposure. Pathways assuming internal deposition of radionuclides (i.e., inhalation, ingestion) involve the use j of a 50-year committed dose conversion factor. This entire prospective dose will be assigned to the individual for the year of intake (Reference 8). In the original version of the ODCM, values from Regulatory Guide 1.109 (Reference 8) were used for calculating doses. Upon incorporation of the Generic Letter 89-01 change (Revision 8), and conversion to an electronic document, dose conversion factors were obtained from updated tables used by the NRC in the computer program GASPAR-II (Reference 9). For pathways involving external radiation to the total body (i.e., noble gas total body dose, ground plane deposition), the dose to all other organs is assumed equal to that for the total body (Reference 8, Appendix E). Summation of the doses rates from the equations below should be performed for all significant pathways and all release points from which significant radioactive effluent releases have occurred (i.e., Main Stack and Reactor Building Exhaust Vent). 9.3.1 Gaseous Pathways Annual Dose Rates from Noble Gases 9.3.1.1 Gamma Air Dose DN 7 = c;7 DFNiy , where: C;7 = 3.17E4 & Qi Above equations derived from Reference 8, equations 6, 7, B-1, B-2, B-4, and B-5, as well as References 13 and 14. 9-6

PNPS-ODCM Rcv. 8

                                                                                              \

9.3.1.2 Beta Air Dose . DNp =E cjp DFNip ^ i where: Cjp = 3.17E4 ( Of Above equations derived from Reference 8, equations 7, B-4, and B-5. 9.3.1.3 Total Body Dose DN7 e = S E c;7 DFNre i I where: Cj7 = Same as indicated in Equation 9.3.1.1. Above equations derived from Reference 8, equations 8,10, B-1, B-2, B-4, B-5, B-6, and B-8, as well as References 13 and 14. 9.3.1.4 Skin Dose DNg = (1.11 S DNr ) + E cfp DFNjs i where: DNy,Cjp = same as indicated in Equations 9.3.1.1 and 9.3.1.2, respectively. 1 Above equations derived from Reference 8, equations 6,7,9,11, B-1, B-2, B-4, B-7, and B-9, as well as References 13 and 14. 1 1 9-7

PNPS-ODCM Rev. 8 9.3.2 Gassous Pathways Annual Dosn Rates from lodine 131 and 133 Particulates with a Half-life Greater than 8 Days. and Tritium. PNPS Effluent Controls do not consider doses from C-14 and 1-135 for compliance. However, equations for these radionuclides are included in this section for completeness. 9.3.2.1 Ground Plane Deposition DGj = S E CG DFG y~ 1 i where: i Of (1- e-Ad6) CGf = 1.00E12 D/o Ai Above equations derived from Reference 8 equations 12, C-1, and C-2. 9.3.2.2 Breathina/ inhalation DBa , = UB, L, .CB, DFB,y. l where: CBf = 3.17E4  % Of for H-3, C-14 l l CB; = 3.17E4  %,O f for particulates with Tn >8d,1-131,1-133, and 1-135 I Above equations derived from Reference 8, equations 13, C-3, and C-4. l 9-8 l

p-  : PNPS-ODCM R v, 8 9.3.2.3 Leafv Veaetation inoestion

                                                                                                        ]

l 1 a DL , = UL, E, fi .CLi DFI,,,. where: C4 = leafy vegetation concentration as calculated below. Above equation derived from Reference 8, equations 14 and C-13. where: l CH,CL,CP,CR 1.19E7 Qi %' 1 i i i= for H-3 H j CHi ,CL1 ,CP1 ,CR1 = 2.18E7 p Qi  % for C-1 A l

                                              ~r i (1 - e~ AEie)+Q,y(1_g~Asty)~

• e ^!'"

                                                                                             ~

CH;,CL;,CF},CRi = 5.71E7 Qi + Yv As PA i for I-131,1-133, and 1-135 l

                                     ..          r
                                              ~ p (1 - e~AEie)+Q,y(1_g~At lb CHi ,CLi ,CF},CRi = 1.14E8 Qi      -  %

• Yv Ag PA i

                                                                                           +e ~ A ' 'h for particulates with Tw >8 days, Above equations derived from Reference 8, equations C-5 through C-9.

I

                                                                                                        )

9-9 j

7-PNPS-ODCM R5v.8 9.3.2.4 Root Crop Non-Leafy Veamtation Ina*stion

                         ~

DRaj = UR, f, E CRi DFI,y_ i where: CRf = root crop concentration as calculated in Equation 9.3.2.3. I Above equations derived from Reference 8, equations 14 and C-13. 9.3.2.5 Milk Inaestion DMaj = UM, X CMI DFlag_ i where: l CM; = 5,n C 5 Of e~*'4 l C5 = fp f, CP + (CHf (1 - fp )) + CHfpf (1 - f,) CPj,CHf = concentration in pasture grass and harvested / stored feed as calculated in Equation l 9.3.2.3. Above equations derived from Reference 8, equations 14, C-10, C 11, and C-13 9.3.2.6 Meat inaestion DC,, = UC, X CC DFI,y_ 1 i where: CC; = F CR Of e**d' 1 CFf = concentration in forage as calculated in Equation 9.3.2.5 Above equations derived from Reference 8, equations 14, C-12, and C-13 9-10

PNPS-ODCM Rev. 8 9.3.3 Definitions By f = concentration factor for uptake of radionuclide i, from soil in the edible portions of crops, in pCl/kg (wet weight) per pCl/kg dry soil, from Table A 5, (kg/kg); Cp f = effective semi-infinite cloud concentration of noble gas i, for the purpose of calculating beta air dose, (pCi/m ); Cy f = effective finite cloud concentration of noble gas i for the purpose of calculating gamma air dose, (pCi/m ); CBf = ground-level airborne concentration of radionuclide i, (pCi/m ); CCf = concentration of radionuclide iin meat, (pCi/kg); CFf = concentration of radionuclide i on forage, (pCi/kg); 8 CGf = ground plane concentration of radionuclide i, (pCi-hr/m -yr); i CHf = concentration of radionuclide i on harvested / stored feed, (pCi/kg); CM/ = concentration of radionuclide i in milk, (pCi/ liter); Cl-l = concentration of radionuclide i in leafy vegetables, (pCi/kg); CP/ = concentration of radionuclide i on pasture grass,(pCi/kg); CRf = concentration of radionuclide i in root crops /non-leafy vegetables, (pCi/kg); i DBaj = total annual dose rate from breathing / inhalation to organ j, of an individual in age group a, (mrem /yr); DCaj = total annual dose rate from ingestion of meat to organ j; of an individual in age group a, (mrem /yr); DFBaff = inhalation 50-year committed dose conversion factor for organ j, of individuals in age group a, from radionuclide i, from Tables A-11 through A-14, (mrem /pCi); f open field ground plane dose conversion factor for organ j, from radionuclide i, from DFGj = Table A-10,(mrem -m*/pCi-hr); DFI,fj = ingestion 50-year committed dose conversion factor for organ j, for individuals in age group a, from radionuclide I, from Tables A-15 through A-18, (mrem /pCi); DFNjs = beta skin dose conversion factor for a semi-infinite cloud of noble gas i, which includes the attenuation by the outer " dead" layer of skin, from Table A-4, (mrem-m /pCi-yr); DFNITS = total body dose conversion factor for a semi-infinite cloud of noble gas I, which includes the attenuation of 5 g/cm2 of tissue, from Table A-4,(mrem-m /pCi-yr); DFNg f = beta air dose conversion factor from a semi-infinite cloud of noble gas I, from Table A-4, (mrad-m /pCi-yr); 9-11

PNPS-ODCM Rev. 8 DFN/=7 gamma air dc>se conversion factor from a semi-infinite cloud of noble gas i, from Table A-4, (mrad-m /pCi yr); DGj = total annual dose rate to organ j from direct exposure to the contaminated ground plane from all radionuclides, (mrem /yr);

                                                                                                    ]

DL,j = total annual dose rate from ingestion of leafy vegetables to organ j, of an individual in 4 age group a, (mrem /yr);

                                                                                                    )

i DMaj = total annual dose rate from ingestion of milk to organ j, of an individual in age group a, (mrem /yr); DNs = total annual skin dose rate due to immersion in a finite cloud of noble gases, (mrem /yr); DN73 = annual total body dose rate due to immersion in a finite cloud of noble gases, (mrem /yr): DNg = annual beta air dose rate to a semi-infinite cloud of noble gases, (mrad /yr); DNy = annual gamma air dose rate due to a finite cloud of noble gases, (mrad /yr); DRaj = total annual dose rate from ingestion of root crop or non-leafy vegetables to organ j, of an individual in age group a, (mrem /yr)- l [D/OJ = deposition rate considering depletion at the receptor location in question, from Table 10-1, (m.2); ff = fraction of the ingestion rate of a leafy vegetable that is produced in the garden of l interest, (dimensionless; assumed to be 1.0); fp = fraction of the year the animals graze on pasture, (dimensionless; assumed to be 1.0); j fr = fraction of root crops /non-leafy vegetable that are produced in the garden of interest, (dimensionless; assumed to be 0.76); f, = fraction of daily feed that is pasture grass when the animal grazes on pasture, (dimensionless; assumed to be 1.0); Fff = average fraction of the animal's daily intake of radionuclide I which appears in each kilogram of meat, from Table A-5, (days /kg); Fmi = average fraction of the animal's daily intake of radionuclide I which appears in each liter of milk, from Table A-5 for cows, Table A-6 for goats, (days / liter); H = absolute humidity of the atmosphere from Reference 15, (g/m ; assumed to be 5.6 g/m'); p = fractional equilibrium ratio, (dimensionless; assumed to be 1.0 for continuous release); P = effective surface density for dry soil, (kg/m'; assumed to be 240 kg/m2 ); Of = amount of feed consumed by the animal per day from Table A-7, (kg/ day); Of = annual release rate of radionuclide i in gaseous effluents (Ci/yr); 9-12

PNPS-ODCM Rev. 8 rf = fraction of deposited radioiodine retained on crops, (dimensionless; assumed to be 1.0 from References 16-19); rp = fraction of deposited particulates retained on crops, (dimensionless; assumed to be 0.2 from References 20 and 21); S = attenuation factor that accounts for the dose reduction due to shielding provided by residential structures from Table A-19, (dimensionless); tb = time period over which the radionuclide buildup is evaluated, (hr; assumed to be 1.31E5 hr = 15 yr); t, = time period that crops are exposed to radionuclide deposition during the growing season, from Table A-19, (hr); ff = average transport time of the activity from the feed into the milk and to the receptor from Table A-19,(hr); th = holdup time that represents the time interval between harvest and consumption of the food, from Table A-19, (hr); f, = average time for radionuclides to pass from feed through meat to the consuming individual, (br; assumed to be 480 hr = 20 days); US, e group a, from Table A-9 for maximum

      = annual individual,breathing Table A-8 forrate,   for individual, average    individuals(m in the ag/yr);

UC, = annual intake of meat, for individuals in age group a, from Table A-9 for maximum individual, Table A-8 for average individual, (kg/yr); UL, = annual intake of leafy vegetables, for individuals in the age group a, from Table A-9 for maximum individual, Table A-8 for average individual, (kg/yr); UM, = annual intake of milk, for individuals in the age group a, from Table A-9 for maximum individual, Table A-8 for average individual, (liter /yr); UR, = annual intake of root crops /non-leafy vegetables, for individuals in the age group a, from Table A 9 for maximum individual, Table A-8 for average individual, (kg/yr); Yy - = agricultural productivity / yield, from Table A-19, (kg/m*, wet weight); [E/OJe = appropriate value of undepleted atmospheric dispersion factor used to estimate ground level airborne concentration of gaseous, (i.e., non-particulate) radionuclides, from Table 10-1, (sec/m ); [X/Q]d = appropriate value of the average gaseous dispersion factor' corrected for depletion of particulates and radioiodines, from Table 10-1, (sec/m ); [X/Q]y = appropriate value of gamma atmospheric dispersion factor used to estimate ground level gamma dose rate from an elevated or ground level plume as calculated in References 13 and 14, from Table 10-1, (sec/m'); 9-13

PNPS-ODCM Rev. 8 A = radioactive decay constant of radionuclide i, (hr -1); f A El = effective removal rate constant for radionuclide i from crops, in hri, where A + i si the radioactive decay constant, and Aw is the removal rate Ei

• i w-constant for physicalloss by weathering. Aw = 0.0021 hrl, (hr-1);

l 1.11 = average ratio of the tissue to air energy absorption coefficients, (mrem / mrad); l 3. f 7E4 = 1.00E12 pCi/Cl divided by 3.15E7 sec/yr, (pCi-yr/Cl-Sec) 7.f9E7= 1.00E12 pCl/Ci divided by 3.15E7 sec/yr and multiplied by 1.00E3 g/kg and by 0.5 g H-3 in plant water per g H-3 in atmospheric water from Reference 22 (dimensionless) and by 0.75 g water per g plant (dimensionless), as calculated in Reference 8 equation C-9, (pCi-yr-g/Ci-sec-kg); 2.78E7 = 1.00E12 pCi/Ci divided by 3.15E7 sec/yr and multiplied by 1.00E3 g/kg and by l 0.11 g Carbon /g plant mass from References 23 and 24 divided by 0.16 g Carbon /m3 of air, as calculated in Reference 8 equation C 8, (pCi-yr-m /Ci-sec-kg): 1 5.7fE7 = conversion factor to correct for activity, time units, and elemental forms of radiciodines, i equal to the particulate radionuclide conversion factor 1.14E8 multiplied by an elemental l iodine fraction of 0.5 from Reference 25, (pCi-yr/Ci-hr);

f. f 4E8 = conversion factor to correct activity units and time units for particulate radionuclides, equal to 1.00E12 pCi/Ci multiplied by 1 yr/8760 hr, (pCi-yr/Ci-hr);

f.00E12 = conversion factor to correct for activity units, (pCi/Ci); 4 9-14 l j

PNPS-ODCM l Rev. 8 9.4 Total Dose to a Member of ths Public i The purpose of this section is to describe the method used to calculate the cumulative dose contributions from liquid and gaseous effluents in accordance with PNPS Effluent Controls for total dose. This method can also be used to demonstrate compliance with the Environmental l Protection Agency (EPA) 40CFR190, " Environmental Standards for the Uranium Fuel Cycle". l Compliance with the PNPS Effluent Controls dose objectives for the maximum individual demonstrates compliance with the EPA limits to any member of the public, since the design dose objectives from 10CFR50 Appendix l are much lower than the 40CFR190 dose limits to the general public. With the operational objectives in PNPS Effluent Controls Sections 3.2.2, 3.3.2, j and/or 3.3.3 being exceeded by a factor of two, a special analysis must be performed. The i purpose of this special analysis is to demonstrate if the total dose to any member of the public (real individual) from all uranium fuel cycle sources (including all real pathways and direct radiation) is limited to less than or equal to 25 mrem per year to the total body or any organ except for the thyroid which is limited to 75 mrem per year. If required, the total dose to a member of the public will be calculated for all significant effluent release points for all real pathways including direct radiation. Only effluent releases from PNPS (Pilgrim Station) need to be considered since no other nuclear fuel cycle facilities exist within a 50 mile radius. The calculations will be based on the equations contained in this section, with the exception that the usage factors and other site specific parameters will be modified using more l realistic assumptions, where appropriate. l The direct radiation component from the facility can be determined by using environmental TLD results. These results will be corrected for natural background and for actual occupancy time of the recreational areas accessible to the general public at the location of maximum direct radiation. l It is recognized that by including the results from the environmental TLDs into the sum of total dose component, the direct radiation dose may be overestimated. The TLD measurements may include the exposure from noble gases, ground plane deposition, and shoreline deposition, which have already been included in the summation of the significant dose pathways to the general public. However, this conservative method can be used, if required, as well as any other method for estimating the direct radiation dose from contained radioactive sources within the facility. The methodology used to incorporate the direct radiation component into total dose estimates will be outlined whenever total doses are reported. Therefore, the total dose will be determined based on the most realistic site specific data and parameters to assess the real dose to any member of the general public. l 9-15 l l

PNPS-ODCM Rev. 8 10.0 RECEPTOR LOCATIONS HYDROLOGY, AND METEOROLOGY The purpose of this section is to identify those receptor locations which represent critical pathway locations and the methods used to estimate dilution and dispersion factors for these locations. For the dose calculations from liquid effluents, the maximum individual is assumed to: 1) ingest fish and shellfish from the discharge canal,2) receive direct radiation from shoreline deposits at both the discharge canal and PNPS shoreline recreational area, and 3) receive external radiation while swimming at White Horse Beach as well as while boating on the Cape Cod Bay. The doses are calculated for the various age groups (i.e., infant, child, teenager and adult), as well as for the various organs, (i.e., bone, liver, thyroid, kidney, lung, gastrointestinal tract / lower large intestine, skin, and total body). The maximum total body and organ doses are selected from the totals of the various age groups and organ doses calculated as described above. For liquid effluent pathways, Table A-3 lists the conservative values for the mixing ratio and shore width factor for the various aquatic receptor locations.  ! For the dose calculations for gaseous effluents, the maximum individual is assumed to reside at the receptor location that provides the highest dose from the dose contributions from all gaseous i release points where significant releases have occurred. The locations selected in Table 10-1 are the site boundary, a garden at the site boundary, and the nearest milk animal at the Plimoth Plantation. The dose calculations are performed for each release point and totaled for the following dose pathways; 1) noble gas immersion,2) ground plane deposition,3) inhalation, and

4) ingestion of leafy vegetable, root crops /non-leafy vegetables, milk, and meat. The doses are also calculated for the various age groups and for the various organs as described for liquid effluents. The maximum total body, skin, and organ doses are selected from the totals of the various age groups and organ doses calculated as described above.

In order to estimate atmospheric dispersion and deposition factors for each of these locations, a computer code supplied by the Yankee Atomic Electric Company was used. The code, AEOLUS (Reference 13), was used to calculate quarterly average values of dispersion and deposition factors. Meteorological data for a three year period, January 1,1977 to December 31,1979, were used for these analyses. The most conservative quarterly average values of ground level average atmospheric dispersion factor before depletion F/Olc, ground level average atmospheric and average dispersion deposition rate factor [D/Q] after for thedepletion P/O]d,were three year period average chosengamma for each ofdilution the cr factor F/Q]7, itical locations. The technique used to ctimate ground level gamma doses from an elevated or ground level plume is based on the wetor average finite dead model of Regulatory Guide 1.109 (Reference 8). The equation ' as been rearranged into a form similar to the standard semi-infinite cloud equation thereby allowing the u= of a " gamma Chi /Q" which includes the effects of plume dimensions, gamma energy mix, atmospheric and geometric attenuation, etc. (See References 13 and 14 for a detailed discussion.) For gaseous effluent pathways, Table 10-1 lists the critical locations for receptors and conservative atmospheric dispersion factors for each atmospheric receptor location. 10-1

I PNPS-ODCM Rev. 8 TABLE 10-1 CRITICAL RECEPTOR LOCATIONS AND ATMOSPHERIC DISPERSION FACTORS i [X/O]c [X/O]a [X/O], [D/O l Effluent Control Section (sec/m ) (sec/m ) (sec/m ) (1/m}) l GROUND-LEVEL RELEASES: Reactor Building Vent, Turbine Building, etc. 3/4.3.1: Gaseous Effluent Dose Rate Site Bounaary "' 7.40E-06 7.04E-06 4.69E-06 5.22E-08 Nearest Garden ( ' 7.40E-06 7.04E-06 4.69E-06 5.22E-08 Nearest Milk Animal ( ' 4.29E-07 4.21 E-07 1.70E-07 7.93E-10 3/4.3.2: Dose Noble Gases Site BoundaryO ' 7.40E-06 N/A 4.69E-06 N/A 3/4.3.3: Dose - todine-131, lodine-133, Radioactive Materials in Particulate Form, and Tritium Site Boundary "' 7.40E-06 7.04E-06 N/A 5.22E-08 Nearest Garden (2> 7.40E-06 7.04E-06 N/A 5.22E-08 Nearest Milk Animal ( 4.29E-07 4.21 E-07 N/A 7.93E-10 3/4.4.1: Total Dose Site Boundary "' 7.40E-06 7.04E-06 4.69E-06 5.22E-08 Nearest Garden (*) 7.40E-06 7.04E-06 4.69E-06 5.22E-08 Nearest Milk Animal ( ' 4.29E-07 4.21 E-07 1.70E-07 7.93E-10 ELEVATED RELEASES: Main Stack 3/4.3.1: Gaseous Effluent Dose Rate Site Boundary "' 4.69E-07 4.69E-07 1.68E-06 2.92E-09 Nearest Garden (*' 4.69E-07 4.69E-07 1.68E-06 2.92E-09 Nearest Milk Animal ( ' 3.73E-08 3.70E-08 3.22E-08 2.46E-10 3/4.3.2: Dose - Noble Gases Site Boundary "' 4.69E-07 N/A 1.68E-06 N/A 3/4.3.3: Dose - lodine-131, lodine-133, Radioactive Materials in Particulate Form, and Tritium Site BoundaryO ' 4.69E-07 4.69E-07 N/A 2.92E-09 Nearest Garden (*) 4.69E-07 4.69E-07 N/A 2.92E-09 Nearest Milk Animal ( ' 3.73E-08 3.70E-08 N/A 2.46E-10 3/4.4.1: Total Dose Site Boundary "' 4.69E-07 4.69E-07 1.68E-06 2.92E-09 Nearest Garden

• 4.69E-07 4.69E-07 1.68E-06 2.92E-09 Nearest Milk Animal ( ' 3.73E-08 3.70E-08 3.22E-08 2.46E-10

 "' " Site Boundary" means the location at or beyond the boundary of the restricted area with the highest calculated dispersion and/or deposition factor.

c23 " Nearest Garden" is considered to be the same as the site boundary due to the abundance of small l gardens near Pilgrim Station. (')

      " Nearest Milk Animal" is presently considered to be at the Plimoth Plantation,3.7 km (2.3 mi) west of       j Pilgrim Station.

10-2

1 PNPS-ODCM Rev. 8 11.0 RADIOLOGICAL ENVIRONMENTAL SAMPLING AND MEASUREMENT LOCATIONS Sampling and measurement locations have been established for Pilgrim Station considering meteorology, population distribution, hydrology, and land use characteristics of the Plymouth area. The sampling locations are divided into two classes: indicator and control. Indicator locations are j those which are expected to show effects from PNPS operations, if any exist. These locations l were selected primarily on the basis of where the highest predicted environmental concentrations  ! were calculated to occur. While the indicator locations are typically within a few kilometers of the l plant, the control stations are generally located so as to be outside the influence of Pilgrim Station. They provide a basis on which to evaluate fluctuations at indicator locations relative te natural . background radiation, natural radioactivity, and fallout from prior nuclear weapcns tests. l The environmental sampling media collected in the vicinity of Pilgrim Station include air particulate filters, charcoal cartridges, seawater, shellfish, Irish moss, American lobster, fishes, sediment, milk, cranberries, vegetation, and beef forage. The media, Fample designation location, description, distance, and direction for indicator and control samples are listed in Tables 3.5-1 and 3.5-3 under Control 3/4.5.1. These sampling locations are also displayed on the maps shown in Figures 3.5-1 through 3.5-5. The frequency of collection and types of radioactivity analysis are described in the PNPS Effluent Control 3/4.5.1, Table 3.5-1. The maximum lower limits of detection (LLD) for the analytical measurements are specified in the PNPS Effluent Controls Table 4.5-1 (see Appendix B for the definitions of the lower limit of detection). The environmental TLD location designations, distance, and direction from the reactor are listed in Table 3.5-2. The radiation measurement locations for the environmental TLDs are shown in Figures 3.5-1 through 3.5-5. The frequency and type of radiation measurement is described in the i PNPS Effluent Control 3/4.5.1, Table 3.5-1. The pressurized ion chamber measurement locations, distance, and direction from the reactor are listed in Table 3.5-3. These radiation measurement locations for the surveys performed on local beaches. The frequency and type of radiation measurement is described in PNPS Effluent Control 3/4.5.1, Table 3.5-1. The atmospheric and land-based samples are collected by Boston Edison personnel from the Engineering Services Group Environmental Laboratory. The aquatic samples are collected by the Division of Marine Fisheries - Pilgrim Station Project personnel. The direct radiation measurements and soil radioactivity measurements are conducted by Duke Engineering and Services Environmental Laboratory personnel. The radioactivity analysis of samples and the processing of the environmental TLDs is performed by Duke Engineering and Services Environmental Laboratory personnel. The PNPS staff reviews the radioactivity analysis results from the contractor laboratory. Reporting levels for radioactivity concentrations in environmental samples are listed in PNPS Effluent Controls Table 3.5-4. If the radioactivity concentrations are above the reporting levels, the NRC is notified in writing within 30 days. A determination of the cumulative dose contribution for the current year will be performed for radioactivity which is detected that is attributable to PNPS operation. Depending upon the circumstances, a special study may also be conducted. 11-1

F PNPS-ODCM Rav. 8 L If radioactivity levels in the environment become elevated as a result of the station's operation, an investigation is performed, and corrective actions are recommended to reduce the amount of radioactivity to as far below the legal lirnits as is reasonably achievable. i l The radiological environmental sampling and measurement locations are reviewed annually, and modified if necessary. A garden and milk animal census is performed every year to identify changes in the use of the environment in the vicinity of the station to permit modification of the sampling and measurement locations. l l I 11-2

F PNPS-ODCM Rev. 8 12.0 ANNUAL REPORT PREPARATION 12.1 Annual Effluent and Waste Disposal Report The Annual Radioactive Effluent and Waste Disposal Report covering the operation of Pilgrim Nuclear Power Station during the previous calendar year shall be subrnitted by May 15 of each year. The report shall include a summary of the quantities of radioactive liquid and gaseous l effluents and solid wastes releasod froir, the Mci!ity. This report shall be submitted in accordance with 10CFR50.36a. General guidance for the preparation of this report can be found in Regulatory Guide 1.21 (Reference 26). In addition to effluent and disposal data, this report should also include summaries of meteorological data in the form of joint frequency distribution tables. This report j should present an evaluation of the doses received by members of the public resulting from I operation of Pilgrim Station. Liquid and airborne effluent pathways, as discussed in ODCM Section 9, should be used to assess the doses, as well as ambient (direct) radiation exposure resulting from plant operation. In addition to summarizing effluents and their resulting doses, the Annual Effluent and Waste Disposal Report serves as the vehicle to notify the NRC of any changes in the ODCM. Changes to the ODCM during the previous calendar year shall be submitted in the Annual Effluent and Waste Disposal Report. l 12.2 Annual Radiological Environmental Operating Report The Annual Radiological Environmental Operating Report covering the operation of Pilgrim Nuclear Power Station during the previous calendar year shall be submitted by May 15 of each year. The report shallinclude summaries, interpretations, and analyses of trends of the results of the Radiological Environmental Monitoring Program for the reporting period. The material provided shall be consistent with the objectives outlined in other sections of the ODCM, as well as 10CFR50 Appendix 1, Sections IV.B.2, IV.B.3, and IV.C. The Annual Radiological Environmental Operating Report shall include tables summarizing the results of analyses of radiological environmental samples and environmental radiation i measurements taken during the period, pursuant to the locations specified in Section 3/4.5 of the ODCM. Summarized and tabulated results of these analyses and measurements shall be similar in format to guidance provided in the Radiological Assessment ' Branch Technical Position, Revision 1, November 1979. In the event that some individual results are not available for inclusion in the report, the report shall be submitted noting and explaining the reasons for the missing results. The missing data shall be submitted in a supplementary report as soon as possible. l l l l l 12-1

PNPS-ODCM Rev.8

13.0 REFERENCES

1) Boston Edison Company, PNPS Technical Specifications.

2) U. S. Nuclear Regulatory Commission, Generic Letter 89-01," Implementation of Programmatic Controls for Radioactive Effluent Technical Specifications in the Administrative Controls Section of the Technical Specifications and the Relocation of Procedural Details of RETS to the Offsite Dose Calculation Manual or to the Process Control Program", January 1989.

3) Boston Edison Company, Updated Final Safety Analysis Report for Pilgrim Nuclear Power Station, Volumes 1 through 7.

4) Boston Edison Company, Pilgrim Station Unit 1 Appendix l Evaluation, April,1977.

5) General Electric Company, GEK-32445A, Pilgrim Process Radiation Monitoring System Manual.

6) Boston Edison Company, PNPS Maintenance DepartGnt Recalibration and Malfuncticn Records.

7) Boston Edison Company, PNPS Operations Manual, Volume 7, Book 2: Chemical and Radiochemical Procedures. i

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

9) D.L. Strenge, T.J. Bander, and J.K. Soldat, NUREG/CR-4653, "GASPAR 11 Technical Reference and User Guide", March 1987. j

10) " HERMES", A Digital Computer Code for Estimating Regional Radiological Effects from the {

Nuclear Power Industry, HEDL-TME-N1-168, December 1971. l

11) G. L. Toombs and P. B. Culter, " Comprehensive Final Report for the Lower Columbia River l Environmental Survey in Oregon June 5,1961 - July 31,1967," Oregon State Board of l Health, Division of Sanitation and Engineering,1968.

12) U. S. Nuclear Regulatory Commission, NUREG-0133, " Preparation of Radiological Effluent Technical Specifications for Nuclear Power Plants", Revision 2, May,1982. .

                                                                                                  )

13) J.N. Hamawl, "AEOLUS", Yankee Atomic Electric Company YAEC-1120,1977. j

14) J. N. Hamawi, "SKIRON", Yankee Atomic Electric Company YAEC-1138,1977.

15) U. S. Nuclear Regulatory Commission, NUREG/CR-3332, " Radiological Assessment",

December 1983.  !

16) D. F. Bunck (ed.), USAEC Report IDO-12063, " Controlled Environmental Radiciodine Test, I Progress Report Number Two", January 1968. {

t

17) J. D. Zimbrick and P. G. Voilleque, USAEC Report IDO-12065, " Controlled Environmental i Radiciodine Tests at the National Reactor Testing Station, Progress Report Number Four," ,

December 1968.  ! 13-1

I I PNPS-ODCM Rev.8

13.0 REFERENCES

(continu:d)

18) F. O. Hoffman, IRS-W-6, " Environmental Variables involved with the Estimation of the Amount of 131 1 in Milk and the Subsequent Dose to the Thyroid," Institute fur Reaktorsicherheit, June 1973.

1

19) F. O. Hoffman, IRS-W-13, "A Reassessment of the Parameters Used To Predict the Environmental Transport of 131 1 from Air to Milk," institute fur Reaktorsicherheit, April 1975. ,

l

20) C. A. Pelletier and P. G. Voilleque, Health Physics, Vol. 21, p. 777, "The Behavior of 137Cs  !

and Other Fallout Radionuclides on a Michigan Dairy Farm," 1971. l

21) P. G. Voilleque and C. A. Pelletier, Health Physics, Vol. 27, p.189, " Comparison of External Irradiation and Consumption of Cow's Milk as Critical Pathways for 137C s,54Mn, and 144Ce 144Pr Released to the Atmosphere",1974.

22) L. R. Anspaugh et al., USAEC Report UCRL-73195, Rev.1, "The Dose to Man via the Food-Chain Transfer Resulting from Exposure to Tritiated Water Vapor",1972.

J

23) Y. C. Ng et al., USAEC Report UCRL-50163, Part IV, " Prediction of the Maximum Dosage to Man from the Fallout of Nuclear Devices, IV Handbook for Estimating the Maximum Internal 1 Dose from Radionuclides Released to the Biosphere," 1968.

24) R. C. Weast (ed.), " Handbook of Chemistry and Physics," CRC Press,1970.  :

1

25) U.S. Nuclear Regulatory Commission, NUREG-75/021, " Detailed Measurement of I-131 in Air, Vegetation and Milk Around Three Operating Reactor Sites," March 1975. l

26) U.S. Nuclear Regulatory Commission, Regulatory Guide 1.21, " Measuring, Evaluating, and Reporting Radioactivity in Solid Wastes and Releases of Radioactive Materials in Liquid and Gaseous Effluents from Light-Water Cooled Nuclear Power Plants", Revision 1, June 1974.

i 13-2 1

PNPS-ODCM Rev. 8 APPENDIX A DATA REQUIRED FOR EFFLUENT CALCULATIONS

                                                 ' TABLE A-1 BIOACCUMULATION FACTORS TO BE USED IN THE ABSENCE OF SITE-SPECIFIC DATA pCi/kg per pCi/ liter")

FRESHWATER SALTWATER ELEMENT FISH INVERTEBRATE FISH INVERTEBRATE H 9.0E-01 9.0E-01 9.0E-01 9.3E-01 C 4.6E+03 9.1 E+03 1.8E+03 1.4 E+03 Na 1.0E+02 2.0E+02 6.7E-02 1.9E-01 P 1.0E+05 2.0E+04 2.9E+04 3.0E+04 Cr 2.0E+02 2.0E+03 4.0E+02 2.0E+03 Mn 4.0E+02 9.0E+04 5.5E+02 4.0E+02 Fe 1.0E+02 3.2E+03 3.0E+03 2.0E+04 Co 5.0E+01 2.0E+02 1.0E+02 1.0E+03 Ni 1.0E+02 1.0E+02 1.0E+02 2.5E+02 Cu 5.0E+01 4.0E+02 6.7E+02 1.7E+03 Zn 2.0E+03 1.0E+04 2.0E+03 5.0E+04 Br 4.2E+02 3.3E+02 1.5E-02 3.1 E+00 Rb 2.0E+03 1.0E+03 8.3E+00 1.7E+01 Sr 3.0E+01 1.0E+02 2.0E+00 2.0E+01 l Y 2.5E+01 1.0E+03 2.5E+01 1.0E+03 Zr 3.3E+00 6.7E+00 2.0E+02 8.0E+01 i Nb 3.0E+04 1.0E+02 3.0E+04 1.0E+02 Mo 1.0E+01 1.0E+01 1.0E+01 1.0E+01 Tc 1.5E+01 5.0E+00 1.0E+01 5.0E+01 Ru 1.0E+01 3.0E+02 3.0E+00 1.0E+03 Rh 1.0E+01 3.0E+02 1.0E+01 2.0E+03 Te 4.0E+02 6.1 E+03 1.0E+01 1.0E+02 1 1.5E+01 5.0E+00 1.0E+01 5.0E+01 Cs 2.0E+03 1.0E+03 4.0E+01 2.5E+01 Ba 4.0E+00 2.0E+02 1.0E+01 1.0E+02 La 2.5E+01 1.0E+03 2.5E+01 1.0E+03 Ce 1.0E+00 1.0E+03 1.0E+01 6.0E+02 Pr 2.5E+01 1.0E+03 2.5E+01 1.0E+03 Nd 2.5E+01 1.0E+03 2.5E+01 1.0E+03 W 1.2E+03 1.0E+01 3.0E+01 3.0E+01 Np 1.0E+01 4.0E+02 1.0E+01 1.0E+01

  ") Data presented in this table are from Reference 8.

A1

PNPS-ODCM Rev. 8 TABLE A-2 DOSE FACTORS FOR IMMERSION IN WATER (" mrem /hr per pCi/ Liter (2) NUCLIDE SKIN l TOTAL BODY W H-3"' O.0E+00 0.0E+00 N 13 2.6E-06 1.9E-06 C-14* 3.8E-06 i 0.0E+00 Na-22 4.8E-06 i 4.0E-06 Na-24 9.3E-06 i 7.8E-06 Cr-51 6.4 E-08 5.2E-08 Mn-54 1.8E-06 1.5E-06 l Fe-55* 3.6E-10 6.4E-11 Fe-59 2.6E-06 2.2E-06

                                                                                                       )

Co-58 2.3E-06 1.8E-06 Co-60 5.4 E-06 4.6E-06 i Ni-63 0.0E+00 0.0E+00 Cu-64 5.2E-07 3.7E-07 Zn--65 1.2E-06 1.1 E-06 Sr-89" 5.4 E-07 4.6E-09 Sr-90* 1.5E-07 5.4E-10 Y-90* 9.6E-07 1.3E-08 Sr+Y-90** 1.1 E-06 1.3E-08 Zr-95 1.8E-06 1.5E-06 Nb-95 1.6E-06 1.4E-06 Mo-99 9.1 E-07 4.7E-07 Ru-103 1.1 E-06 8.9E-07 Ru-106 1.9E-06 3.8E-07 Te-132 4.8E-07 4.0E-07 l-129 6.1 E-09 2.1 E-09 l131 9.5E-07 6.8E-07 l-132 5.5E-06 4.4E-06 , 1-133 1.5E-06 9.6E-07 l l-135 4.0E-06 3.3E-06 Cs 134 3.5E-06 2.9E-06 Cs-137 1.4 E-06 1.0E-06 Ba-140 7.6E-07 4.6E-07 La-140 5.3E-06 4.1 E-06 Ce-141 2.4E-07 1.3E-07 Ce-144 6.2E-08 3.0E-08 Pr-144 1.3E-06 5.6E-08 Ce+Pr-144"' 1.4E-06 8.6E-08 1 W Data presented in this table are from Reference 10. l A The same factors apply to adult, teenager, and child. M Total body factors also apply to other internal organs. W Not including penetration of oxide into skin. W Includes bremsstrahlung.

• Use these factors for Sr-90 unless Y-90 concentration is given separately.

M Use these factors for Ce-144 unless Pr-144 concentration is given separately. A-2

PNPS-ODCM Rev. 8 TABLE A-3 RECOMMENDED VALUES FOR LIOUID EFFLUENTS") Parameter Symbol Parameter Description Values Mi Mixing ratio at location I of exposure 0.2 (Aquatic foods taken from Discharge or harvest of aquatic foods" Canal Outfall) cri 0.05 (Shoreline, Pilgrim Station Recreational Area) 1.0 (Shoreline, Discharge Canal) 0.03 (Swimming, White Horse Beach) 0.03 (Boating, Cape Cod Bay) th Period of time between exposure of 24 hr for maximum individual aquatic foods to radionuclides in water and their consumption 168 hr for average individual, sport fish doses 240 hr for average individual, commercial fish doses Wl Shoreline width factor for location 1 0.5 (Recreational Area)(') 0.1 (Discharge Canal)(d)

0) Data presented in this table are from Reference 8 unless otherwise noted.

(2) Collection of aquatic foods from within the Discharge Canalis prohibited. () Swimming is prohibited at Pilgrim Station Recreational Area. (*) From Reference 4. A-3

PNPS-ODCM Rev. 8 TABLE A-4 DOSE FACTORS FOR EXPOSURE TO A SEMI-INFINITE CLOUD OF NOBLE GASES") p-air (DFN ip) p-skin (DFN i g) rair (DFN;y) ybody (DFNiTB) Nuclide mrad-m3/pCi-yr mrem-m3/pCi-yr mrad-m3/pCi-yr mrem-m3/pCi-yr Kr 83m 2.88E-04 --- 1.93E-05 7.56E-08 Kr-85m 1.97E-03 1.46E-03 1.23E-03 1.17E-03 Kr-85 1.95E-03 1.34E-03 1.72E-05 1.61 E-05 Kr 87 1.03E-02 9.73E-03 6.17E-03 5.92E-03 Kr-88 2.93E-03 2.37E-03 1.52E-02 1.47E-02 Kr-89 1.06E-02 1.01 E-02 1.73E-02 1.66E 02 ( Kr-90 7.83E-03 7.29E-03 1.63E-02 1.56E-02 Xe-131 m 1.11 E-03 4.76E-04 1.56E-04 9.15E-05 Xe-133m 1.48E-03 9.94E-04 3.27E-04 2.51 E-04 Xe-133 1.05E-03 3.06E-04 3.53E-04 2.94E-04 Xe-135m 7.39E-04 7.11 E-04 3.36E-03 3.12E-03 I Xe-135 2.46E-03 1.86E-03 1.92-03 1.81 E-03 Xe-137 1.27E-02 1.22E-02 1.51 E-03 1.42E-03 Xe-138 4.75E-03 4.13E-03 9.21 E-03 8.83E-03 Ar-41 3.28E-03 2.69E-03 9.30E-03 8.84E-03 N Data presented in this table are from Reference 8. l l A-4  ;

PNPS-ODCM Rev. 8 TABLE A-5 STABLE ELEMENT TRANSFER DATAm Bjy Fm(Cow) Ff Element Veg/ Soil Milk (day / liter) Meat (day /kg) H 4.8E+00 1.0E-02 1.2E-02 C 5.5E+00 1.2E-02 3.1 E-02 Na 5.2E-02 4.0E-02 3.0E-02 P 1.1 E+00 2.5E-02 4.6E-02 Cr 2.5E-04 2.2E-03 2.4 E-03 Mn 2.9E-02 2.5E-04 8.0E-04 Fe 6.6E-04 1.2E-03 4.0E-02 Co 9.4E-03 1.0E-03 1.3E-02 Ni 1.9E-02 6.7E-03 5.3E-02 q Cu 1.2E-01 1.4 E-02 8.0E-03 1 Zn 4.0E-01 3.9E-02 3.0E-02 Rb 1.3E-01 3.0E-02 3.1 E-02 Sr 1.7E-02 8.0E-04 6.0E-04 ) Y 2.6E-03 1.0E-05 4.6E-03 l Zr 1.7E-04 5.0E-06 3.4E-02 l Nb 9.4E-03 2.5E-03 2.8E-01 Mo 1.2E-01 7.5E-03 8.0E-03 Tc 2.5E-01 2.5E-02 4.0E-01 Ru 5.0E-02 1.0E-06 4.0E-01 Rh 1.3E+01 1.0E-02 1.5E-03 Ag 1.5E-01 5.0E-02 1.7E-02 Te 1.3E+00 1.0E-03 7.7E-02 1 2.0E-02 6.0E-03 2.9E-03 Cs 1.0E-02 1.2E-02 4.0E 03 Ba 5.0E-03 4.0E-04 3.2E-03 La 2.5E-03 5.0E-06 2.0E-04 Ce 2.5E-03 1.0E-04 1.2E-03 Pr 2.5E-03 5.0E-06 4.7E-03 Nd 2.4 E-03 5.0E-06 3.3E-03 W 1.8E-02 5.0E-04 1.3E-03 Np 2.5E-03 5.0E-06 2.0E-04 W Data presented in this table are from Reference 8. l A-5

PNPS-ODCM Rev. 8 TABLE A-6 NUCLIDE TRANSFER PARAMETERS FOR GOAT'S MILK") , 1 Element Fm (day / liter) H 1.70E-01 l 1 C 1.00E-01 P 2.50E-01 i Fe 1.30E-04 Cu 1.30E-02 Sr 1.40E-02 1 6.00E-02 Cs 3.00E-01 TABLE A-7 ANIMAL CONSUMPTION RATES") Op OAW Feed or Forage Water Animal (ka/ day Iwet weiahti) (liter / day) Milk Cow 50 60 i Beef Cattle 50 50 4 Goats 6 8 "I Data presented in these tables are from Reference 8. A-6

PNPS-ODCM Rev. 8 TABLE A-8 RECOMMENDED USE FACTORS TO BE APPLIED FOR THE AVERAGE INDIVIDUAL'"* Pathway Adult Teen Child Infant Fruits, vegetables, & grain (kg/yr) 190 240 200 - Milk (liter /yr) _ 110 200 170 330 Meat & poultry (kg/yr) 95 59 37 - Fish (kg/yr) 6.9 5.2 2.2 - Seafood (kg/yr) 1.0 0.75 0.33 - Drinking Water (liter /yr) 370 260 260 330 i Shoreline recreation (hr/yr)( ) l Discharge Canal 8.3 47 9.5 - Pilgrim Station Recreational Area 8.3 47 9.5 - Swimming (br/yr)() 52 52 29 - White Horse Beach Boating - Cape Cod Bay (hr/yr)( ) 52 52 29 - Inhalation (m /yr) 8000 8000 3700 1400 UI Data pre.sented in this table are from Reference 8, unlets otherwise indicated. (2) Usage facnrs for the average individual are used to determine the annual dose to the total body and thyroid of an average individual and the annualintegrated dose to the population within a 50 mile radius. (') From Refererv:e 4. 1 1 A-7

PNPS-ODCM Rev. 8 ) TABLE A-9 f i RECOMMENDED USE FACTORS TO BE APPLIED I FOR THE MAXIMUM EXPOSED INDIVIDUAL"' i Pathway Adult Teen Child infant l l Fruits, vegetables, & grain (kg/yr) 520 630 520 - Leafy Vegetables (kg/yr)) 64 42 26 - Milk (liter /yr) 310 400 330 330 Meat & poultry (kg/yr) 110 65 41 - Fish (fresh or salt) (kg/yr) 21 16 6.9 - Shellfish (kg/yr)( 9 6 3 - Drinking Water (liter /yr) 730 510 510 330 Shoreline recreation (hr/yr)(*) Discharge Canal 12 67 14 - Pilgrim Station Recreational Area 12 67 14 - i Swimming (hr/yr)(2) 52 52 29 - White Horse Beach Boating-Cape Ood Bay (hr/yr)(2) 52 52 29 - Inhalation (m*/yr) 8000 8000 3700 1400

0) Data presented in this table are from Reference 8, unless otherwise indicated.

I (') From Reference 4. A-8

PNPS-ODCM Rev. 8 TABLE A 10 EXTERNAL DOSE FACTORS FOR STANDING ON CONTAMINATED GROUND0) mrem /hr per pCi/m2 Nuclide Total Body l Skin Nuclide Total Body Skin H 3., 0.00E+00 0.00E+00 Zr-93  !. 0.00E+00 0.00E+00 Be_ _10 _ 0.00E+00 0.00E+00_ Zr _95 1 5.00E-09 5.80E-09 C-14 0.00E+00 0.00E+00_ Zr-97 5.50E-09 6.40E-09 N-13 7.60E-09 l 8.80E-09 Nb-93m i 8.20E-13 1.00E-10 F-18 6.8'65-09 i' 8.005-09 Nb-95 I' 5.10E-09 6.00E-09 Na 22 ' 1.605-08 1.805'6E~ Nb-Ef" ~~I 4.60E-09 5.40E-09 Na 24 " 2.505'-08 2.90E-08[,. Mo-93 i. 2.29E-11 9.325'10 P-32 0.00E+00 ' 0.00E+00 Mo-99  ! 1.90E-09 2.20E-09 Ca-41 3.41 E-09 4.015-09 Tc-99m }' 9.60E-10 1.10565" S56 1.30E-08 1.505265~ Tc-99 i 0.00E+00 0.005+00 C r-51' 2.20E-10 2.605 I6-~ Tc-101 I 2.70E-09 3.00E-09 Mn-54 5.80E"65" ]_ 6.80E-09_ ~~IE-103 { 3f>05-09 4.205 6E" M.q:56__ 1.10E-08  ! 1.30E-08. ,. Ru-105 1 4.50E-09 5.10E-09 Fe-55 0.00E+00 1 0.00E+00 Ru-106 1.50E-09 1.80E-09 Fe-59 8.005,09,_ 9.40E-09 _ R h_-105 _ 6.605 10 7.70E-10 Co-57_ 9.10E-10 1.00E-09 Pd-107 0.00E+00 0.00E+00 Co-58 7.00566" ~i 8.20E-09 Pd-109

• 3.50E-11 4.00E-11 Co-60 1.70E-08 I 2.00E-08 .. Ag ,,1.10m 1.80E'08 2.10E-08 Ni-59 0.00E+00 0.00E+00 _,, Ag 111 ,

1.80E-10 2.10E _10 Ni-63 0.00E+00_

• 0.00E+00 Cd 113m ( 2.30E-12 2.60E-12 Ni-65 3.70E-09 4.30E-09 Cd-115m _{_ 0.00E+00_ 0.00E+00 Cu-64 1.50E-09 1.70E-09 Sn-123 1 0.00E+00 6.46E 08 fn-65 4.00.E-09 4.60E65~

Sn-125 IL 5.70E _10 6.60E-10 Zn-69m 2.90E-09 {i _ 3.40E-09 Sn-126 i 9.00E-09 1.00E-08~ n-69 0.00.5{66[ ((i 0.005i66~ Sb-124 j., 1.30E-08 1.50E-08 Se-79 0.00E+00 0.00E+00 Sb-125 l 3.10E-09 3.50E-09 Br-82 1.00'5-08 2.20E-08 Sb-155 l' 8.90E-09 1.00E-08 BriB3 6.40$ 11 i' 9.30E-11 Sb-127 5.70E-09 6.60E-09 Br-84 120E-08 { 1.40E-08 Te-125m 3.50E.-11 4.80E-11 Br-85 0.00E+00  ! 0.00E+00 Te-127m 1.10E-12 1.30E-12 Rb-86 6.305-10 [~ 7.205-10 Te-127 1.00E-11 1.10E-11 Rb-87 0.00E+00 l 0.005766~ Te-129m I' 7.70E-10 9.00E-10 Rb-88 3.50E-09 i' 4.00E-09 Te-129 i' 7.10E-10 8.40E-10 Rb-89 _ _ 1.505[-[6[ ((I 1.805265" Te-131m j. 8.40E .09 _ 9.90E-09 Sr-89 6.50E 13,.. Te-131  !. 2.20E-09. , 2.60 E-06_ _ 5.60E-13_ _}I _ Sr-90 0.00E+00 0.00E+00 Te 132 1.70E-09 2.00E-09 Sr-91 7.165:66~ ][ 8.30526E~ Te-133m i.'565kO8 1.70E-08 Sr-92 9.00E-09 ' l 1.00E-08 Te-134 !_ 1.00E-09 1.20E-09 Y-90 2.20E-12 2.605M,[ ~ !__. Y-91 m 3.80E-09 , 4.4 0 E-09_,,,,,,. }. Y-91 2.40E .11  ! 2.70E-1,1._ Y-92 1.60E-09 1.90E 0, 9,, Y-93 5.70E-10 7.80E-10 i "I Data presented in this table are from Reference 9. A-9

PNPS-ODCM Rev. 8 TABLE A-10 (continusd) EXTERNAL DOSE FACTORS FOR STANDING ON CONTAMINATED GROUND W mrem /hr per pCi/m2 Nuclide Total Body l Skin Nuclide Total Body l Skin 1129 4.50E-10 1 7.50E-10 Pb-210 1.30E-11 1.70E-11 1-156 1.40E-08" ~ 1.705,[65[ Bi _210 0.00E+00 0.00E+00 1-131_ 2.80E-09 3.40E-09 Po-210 5.40E-14 6.20E-14 l132 l-133 1.70E-08 3.70E-09_

                                          ] i 2?665[65" 4.50E-09 Ra-223,__

Ra-224 1.505[D9 8.90E-09 1.80E-09 1.00E-08 l-134 1.60E-08 I 1.9052U5" Ra-225 8.405251 1.20E-10 I l-135 1.205-08 " 'i365!65" Ra-226 I" 6.40E-09 7.40E-09 l Cs-134m 6.205-10 7.30E-10 Ra-228 I 1.20E-08 1.40E' 08 Cs' 134 1.20E-08 l~ "IJU52U5" Ac-225 i'" 7.60E-09 1.80 5'69 Cs-135 0.065+00 000EiU6[ Ac-2Ef 2,.00 5-09_ 2.40E-09 Cs-136_ _ 1.50E ,08 1.70E-08 Th-227 ,,,, 5.10E .10 .. 6.30E-10 Cs 137 4.20E-09 _ 4.90E-09 Th-228_  ! 8.90E-09 1.00E-08 Cs _1.38 5.'I6E'65' ' 2.40E-08 ~ ~TEZEE5 2.20E-09 2_.7_0E 09_, Cs-139 6.30E,-09 g 7.20E-09 Th-230 ,

                                                                                        ., 6.50 E-09_
                                                                                                         ,,7.50E ,09 Ba .139            2.40E-09                  2.70E-09,,             Th-232     i,     3.00E-09        4.00E-09 Ba-140             2.10E-09                  2.40E-09               Th-234      l      1.10E-10        1.30E-10
  ~5a-141              4.305'6E' "i'        '

4.90E-09 Pa-231 i 2.205 U9 2.70E-09"

                                                                                                                  ~'

Bi-142 7.905-09 9.00526E" Pa-233 1.305-09 1.50E-66~ La 140 ~ 1.50E-08 1.70E-08 U-232 2.59E-12 2.69E-11 La-141 2.505'I6~ 2.805 id" U-233 I' .2.30E-09 5.'565'66"'

  .,,,La-142            1.50E-08 _ '"j           1.80E-08. .             U-534     ![     6.5E5 53         1.59E-10 Ce-141              5.50E-10                 6.20E-10                U 235      1     3.20E-09_       4.00E-09 Ce-143             2.205-09                  2.505-09                U-236     i      2.10E-14         1.80E-11 Ce 144 '

3.205-10 ' 3.70E-10 U 237 I 1.00E-09 1.30E-09 Pr-143 0.00E+00 O.005+00 U-238 i' 1.10E-10 1.50E-10 Pr-144 2.005-10 , 2.30E-10 Np-237 1.40E-09 1.60E-09 Nd-147 1.00E-09 l 1.20E-09 ,_ Np-238 , 2.80E-09 3.20E-09 Pm-147 0.00E+00,,, ,j_ 0.00 E +00,,,,,, . Np-239 j, 9.50E-10 1.10E-09 Pm-148m 1.41 E ,08__ 8.16E-08 Pu-238  ! 1.30E 12 1.80E-11 Pm_-148 4.60E-09 , 5.30E-09_. Pu-239  ! 7.90E-13 7.70E-12 Pm-149 2.50.E-11_ 2.90E-11 Pu-240 1.30E-12 1.80E-11 Pm-151 2.20E-09 2.30E-09 Pu-241 4.60E-12 6.80E-12 [ Sm-151 4.80E-11 2.10E-10 Pu-242  ! 1.10E-12 1.60E-11 Sm-153 2.70E-10 3.00E 10. Pu-244 8.95E-10 9.62E ,10,,, Eu-152 7.37E-09 8.53E-09 Am-241__ 1.80E-10 2.60E 10 Eu-154 7.80E-09 [, 9.00E-09 ' Am-242m [. 2.60E-11 1.80.5![I6[ Eu-155 3.81 E-1,0,,,,,,,,,,{ 4.33E-10 Am-243 j, 1.30E-09__ 1.50E-09 Eu-156 7.60E-09,, .,,j , 8.70E-09 Cm-242  !,, 5.50E-12 2.30E-11 Tb-160 8.60E-09 1 1.00E-08 Cm-243 2.30E-09 2.90E-09 Ho-166m 8.90E-09 i 1.00E-08 Cm-244 2.90E-12 1.80E-11 W-181 2.105'ii' 'I" ~E.555 iE" Cm-245 i 9.505-10 1.20E-09 W-185 Cm-246 i[ 1.00E212 1.50E-11 0.00EI66" ]~ ~6.00E+00 W-187 3.10E-09  ! 3.60E-09 Cm-247 I 2.20E-09 , 2,.60,E,,09,,,  ; I Cm-248 i 6.81 E-09 5.23E-09 i Cf-252 I 6.60E-08 7.20E-08 W Data presented in this table are from Reference 9. 1 1 A-10

                                                                                                                            )

PNPS-ODCM Rev. 8 TABLE A-11 INHALATION DOSE FACTORS FOR ADULTm mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI H3 i No Data 8.98E-08 i 8.98E-08 i 8.98E-08 i 8.98E-08 8.98E-08 l 8.98E-08 Be-10 l 1.98E-04 3.06E-06"~i 4.965 55~ "i No Data "S5' data 2.22E"Ui~~I"I:515 55~ "U-14  ! 2.27E-06 4.265-07 f~d:555-61~~l 4.26E-07 4.265-07 4.26E-07 I 4.2SE-07 "A 13 l"5.575269 6.27E-09 i 6.27E-09 } 6.275-09 l 6.27$-09 ["5 5i5-09 i 6.27E-09 F-18 4.715-57 No Data f"5'555555~~[,N5 Data,,[,,,) No Data { _No Data , 9.24 E-09_,,, ,,N,a ,22 _ 1.30E-05 1.30E-05_ 1.30E-05 1.30E-05 l 1.30E-05,,,j,_1.30E-05 1 ]1 30E-05 Na-24 1.28E-06 1.28E-06 1.28E-06 1.28E-06 j 1.28E-06 l 1.28E 06 i 1.28E-06 P-32' 1'555-04

                .           9.6A5"66       6.555-55~~I No Data       i No Data     [ No Data     I 1.08E-05
~65-33        3.835-05      No Data     i[d[555"55[~[U5'd5fa~~),No Data            [3.83E-06 5:555"Uf,1.
, Sc-46       5.51E _05_    1.07E-04                      No Data       9.99E7 05     No Data    4 3.23E-05_

3.11 E. _05 Cr-51 No Data No Data 1.25E-08 7.44E-09 2.85E-09 1.80E-06 1 4.15E-07 "Mn-54 No dat_a _4.95E"66"]7.87E-07 No Data j[1_.23E-06 i 1.75E-04,,,,_}.,0.67E-06 M_n-56 No Data 1.55E-10 i 2.29E-11 No Data 1.63E-10 [1.18E-06 [2.53E 706 Fe-55 3.07E-06 2.12E-06 l_4.93E-07__ No Data No Data l 9.01E-06 i 7.54E-07 "5e-59 1.47E-06 "3.47E-06 1.32E-06 No Data '"So Data i 1.275-04 i 2.35E-05 Co-57 No Data 8.655-08 8.39E-08 I No Data No Data 'f~d555165~~I"5"555 55~

"do-58        No Data       1.98E-07 , 2'555 Ui~"{ No Data } No Data ((I:555-04 i_1,.33E-05_

Co-60 No Data 1.44E-06 1.85E-06 . No Data __7.46E,-04 [ 3.56E-05 [No Data Ni-59 4.06E-06 1.46E-06 6.77E-07 No Data i No Data 8.20E-06 i 6.11E-07 Ni-63 5.40E-05 3.935"65~ ] 1.81 E-06_ '"A5'd5Ea~ "[ No Daii" "[,2.23E-05 }_1,.97E-06,,, Ni-65 1.92E-10 2.62E-11 1 1.14E-11 No Data i No Data 7.00E-07 } 1.54E-06 Cu-64 No Data 1.83E-10 !"5.555-11 No Data l 5.78E-10 8.48E-07 I 6.12E-06 [En ,6,5 4.05E-06 1.29E-05 _ '"5'52E;06 i No Data }"5.62E-06 {[Ij55"di~~[,6.685"65~ Zn-69m 1.02E-09 2.45E-09 2.24E 10 I No Data i 1.48E-09 1 2.38E-06 ! 1.71E-05 "In-69 4.23E-12 8.14E-12 '"5.555"i5"~} No Data E5.27E 12 [ 1.15E-07 l 2.045-U5~

,,Se-79       No Data       3.83E-07       6.09E-08,_,j[No Data      (5.559E-07 ["4.47E-05 } 3.33E-06 Br-82       No Data       No Data        1.69E-06 i No Data         i No Data    l No Data      ! 1.30E-06 "5r-83        No Data       No Data     i 3.01E-08 } No Data         i No Data     [ No Data     l"55d555~
"Bi54         No Data       No,, Data

[ 3.915"d5~~}~S[ Data"No Data [f,4o Data ~5.d55-13 Br-85 No Data No Data i 1.60E-09 i No Data No Data i No Data No Data "Elb-86 No Data 1.69E-05 ! 7.37E-06 No Data i No Data i No Data '"2.08E 06 Rb-87 No Data 9.86E-06 I3.21 E-05 No Data INo Data ['No Data 2.88E-07 Rb-88 No data 4.84E-08 i 2.415-U5~~I No Data [ No Data i No Data l~i.18E-19 Rb-89 l"N5'65fa 3.205"66" ~I"5.iE5-65~~' No Data '"No Data No Data i 1.16E-21 [Sr,-89 3.805-05_ No d5fa ~"] 1.09E-06 No Data ,, No Data ,,,1.75E-04 [ 4.37E-05 Sr-90 3.59E-03 No Data l 7.21E-05 No Data No Data 1.20E-03 i 9.02E-05

, Sr-91_      7.74E-09      No Data        3.13E-10 [ No Data           No Data    , 4.56E-06 ,][5.39E;05,,

St-92 8.43E-10 No Data {3.64E-11 i 1 No Data No Data  ! 2.06E-06 l 5.38E-06 Y-90 2.61 E-07 No Data  !"1.UI5-09 ' No Data ' No Data i 2.12E-05 I"5:555165"~ Y 91m 3.26E-11 No Data l_1.27E-12__, No Data ,,,No_ Data f 2.40E-07 }"I'555-56~

.,Y-91        5.78E-05      No Data     i _1.55E-06 _ j No Data.. _j, No Data      [2.13E-04     j,,4.81 E-05,,_

Y-92 1.29E-09 No Data i 3.77E_-11 No Data j No Data 1.96E-06 9.19E-06 Y-93 1.18E-08 No Data i 3.26E-10 No Data l No Data 6.06E-06 5.27E-05 N Data presented in this Table are from Reference 9. A-11 I

PNPS-ODCM Rev.8 TABLE A-11 (continued) INHALATION DOSE FACTORS FOR ADULTW mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Zr-93 5.22E-05 2.92E-06 1.37E-06 i No Data i 1.11E-05 1 2.13E-05 1.51 E-06 "IN55~ 1.345265 4.305265~ "2.915 55"" I"N5'D5t5~ I5.Yf5"6E""75 k1E-04 "1.88E-05 ~Ii-5I" 1.21520E" "5.A552U5" ~i"Iii55-d5'"IN5'65t3~ ~I3.7152EE" ~i"5 555-06 6.545"d5~

"..N5.-5E.r.'n. 3.10.E...Of.....101.52 5..~. ..I".52. 5.5..55."~.I"..N5'..d5E.a~ "i."I'.I55.2U5..". ~i"5 iiE"d5"~I"5.555

~N5-97 2.7852i5~ "7.5552iE""l~2.56E-12 No D5Ea~ "i5.~I55'IE""l 3.00E-07 . 3.02E-08

5. 5..93. ..-. ....,...No. data . ..1.17..E-06 3.175.".d.5~ "N5'65.t3~ ' 3.55.E.07 '"5 II5-65""""5779E .06..

"I5'55m 1.295 35" "5.5I5255~ '"i:555255~ i"N5'd5ta~ l"5"555255~ '"5:555 55"""i"5.5d526f"                                              l "T5"55               3.1352EE"       ~i.555 08 i' 1.25 E-05~ ""N5'd5t5-"i"5.85E-07 i~1.01 E"di" ~i"i.54E-06                                        l Jc-191....            5"EEE"il        SilEEiiidf;55i{ill..."N5"D5fi[ "][{}@([j{]M55{d5",],1.36E-21_.                                 _
. R u:1.93,.         1.91 E-07_      . No Data.,, ,,i 8.23E-08,,, ,,[No Data _ _j_7.29E-07_ _[ 6.31 E-05.....,j 1.38E-05_
..R.u;,1,05 _        9.88E ,11___      No Data ,,j 3.89E-11,,_j_No Data _ _j.1.27E-10__                        1.37E,-06              6.02E-06 Ru-106             8.64E-06          No Data      i 1.09E-06 i No Data ! 1.67E-05                            1.17E-03               1.14E-04 5525d5               9.245255          6.f552id"' '"I'.255256"IN5'U5fa" ~"2.86E-09                           i"5.555-65"""l"I'555-55~  .
"5difdi"             No'd5fa'          8.215-08        5.855-55""TN5'd5ta                      6.57E-Of" ~,I"5"di5-d5"""I 7.06E"d7" "55-Id5              No d5fa"          4.635255" ~i~I~.I55256" l"No Data                    i 2.355 5E" ~i"I.'555"d6"~i 1.52E-05 Ag 110m               1.35E;06,
, Ag7111             4.25E-08          1.255"65".[f 8.87E-09I"f;i55"65"[                                      '"N5'D5ia" ,"} 2.465 5E""
                                                                         ,,N.o Data _ ,J _5.74E_-08 _ ,,,2.33E-05,__,,,2.79E-05.,,

1.78E-08 _.4.97E-06_ Cd-113m No Data 1.54E-04 No Data i 1.71E-04 ! 2.08E-04 ! 1.59E-05 Cd-115m No d5Ea 2.465-05 7.95I-d "" "N5'U5EE" T1.98E-05 I"I.155"6d"~I"5:555 55" M{ 53,. 3.025"U5,_

                                     ,,6.675"Ui"][5;555-di"""][ 5.67E-_07 (55]5fi(([5.88E-04 _ {3
 ..S.n .125.-
  .                ..1. 16 E.. 06... ..3 12.E. 08
                                         .             7.03E..08......l..2. 59.E..08_...l No D.at.a... .. [ 7. . 37E-05.......,! _ 6.81 E-05 --
"5b-124              3.555-06          7.36E-08 I"i555-d5~"'"53555E""]"N5' Data                              ["5.565-04            "5.d55-05

(,'5k125 S.67E-06 [ 2.18E-04,__}~i;555"65~ Sb-126 4.50E-07 7.4d5"6E((1.62E-07{;555'56" 9.13E-09 1 "E.iSE;09,,,,_}!.,No, 2.75E-09 No Data Data _ l 6.01E-05 l 9.57E-05 [5h[127 3.305"U5[ [I[.555[iU[]'I'.515'di""[5.5f5{55[ [N5"b5fa ((2.055"d5]3.775{U5~

..Tg,.1,25m_        _4.27E-07          1.98E-07 [ 5.84E-08               _1.31 E-07         j.,1. 55E-06       3.92E-05 j 8.83E-06.,_

Te-127m 1.58E-06 7.21 E-07 l 1.96E-07 4.11 E-07 I 5.72E-06 1.20E-04 l 1.87E-05 Te-127 1.75E-10 8.03E-11 i' 3.87E-11 "I'.555256"IE.5f52id" [~8.14E-Oi~~~7.ii5"d5" Te-129m 1.225-06 5.84526f" ~I"I"555-07 4.30E-07 I"3'.57E-06 l 1.45E-04 4.79E"d5~

"Te-129              6.225255~         2.99E,-12._ '"I'555{ii,[]"i;5f5!i5[,]"E;535"i5[,15.42E,-07,_,.[.",I;555kdi,[
..Tp;.131 m          8.74E-09_

_ _5.45E-09_ 3.63E-09,,, ,,6.88E-09,,_,j 3.86E-08_ ! 1.82E_-05._ 6.95E-05 Te-131 1.39E-12 7.44E-13 4.49E-13 1.17E-12 5.46E-12 l 1.74E-07 2.30E-09 "Ie-132 3.25E-08 2.69E-06" i"EU55"d5" I' 2.37E-08 1.825-5f" ~i 3.60E-05 i"5 515"d5" "Te-133m f.525-12 5.40E-12 [ 4.17E-12 "E.575-I5[, Te-134 3.84E,-12 3.22E-12_ [.1.57E-12 , , 3.44E-_12__} , 2.18 E-11_ _ , 4.34 3.74E;iI""]5;5I5"df[""f E-07 .,,2.97E ,11_ l-129 2.48E-06 5.54E-03 4.53E-06 No Data _, ..j. 2.22E-07 . 2.11 E;06,,, _[i. 6.91 E.-06 _2.61E-06 _ , No Data 1130 5.,72E,-07 1.68E-06,_ _ .6. 60E-07,_,_1.42E-04 j,9.61 E;07 , 1-131 3.15E-06 4.47E-06 ! 2.56E-06 l 1.49E-03 7.66E-06 i No Data l 7.85E 07 l132 1.45E-07 4.075-Uf" '"i 355 Uf" ""I'.355265~~"5355-5f" ""So Data I"5.08E-08 l-133 1.08E-06 1.8552d6 5.655 6 " "5.695-04 3.235"U5 No Data I 1.11 E-06

.I,-134              8.05E _08         2.16526f" [E59E-08,. J[5.755 5E],3.,44E-07. , ,,.@E"65t51 15'555 56"                            .

l-135 3.35E-07 8.73E-07 i 3.21E-07 i 5.60E-05 ! 1.39E-06 i No Data ! 6.56E-07 m Data presented in this Table are from Reference 9. A-12

1 PNPS-ODCM Rev. 8 TABLE A-11 (continued) INHALATION DOSE FACTORS FOR ADULTW mrem /pCi inhaled Total Nuclide Bone Liver Body Thyrcid Kidney Lung GI-LLI Cs-134m 1.59E-08 3.20E-08 1.72E-08 ! No Data i 1.83E-08 l 2.93E-09 i 7.92E-09 "d5"I51 4.665-65" "i?655265 9.10E-05 '"N5'5Af5~ "~5?5552U5"~~~I:555'U5~"II'.5d5:55~

 'Us-135        1.465-05      15952 5       5.555-65         No Data        5.115266"        "1.575-06 I5'ii5-67" Cs 1.%        4.88E-06      1.835265 I 1.385"65~"I No Data            l~i.07E-05 I"I.50E-06 I"1.46E-06
 . $k.l..k... 5.985-05 Cs-138        4.14E-08     7.76E-08,,,_f.,4.05E-08,,,                 j , _No             Data 7.76E{65]I~5;555"6

_ _j.,6.07E-09__j.,2.33E-13_ Cs-139 2.56E-08 3.63E-08 1 1.39E-08 No Data 3.05E-08 2.84E-09 i 5.49E-31 ja-139 1.175 10 8.325"Id[j[5'355"55"((j[N5"bAi5[~

                                              .           j,                         [7.755-1,4_ _,,,4.70E-07 ],1.12E
. Ba;140 _      4.88E;06     6.13E-09       3.21 E-07 ! N,0 Data       ,,j,2.09E-09_ ,j 1.59E-04 i 2.73E-05 ,_

Ba-141 1.25E-11 9.41 E-15 _ 4.20E-13 i No Data i 8.75E-15 i 2.42E-07 1.45E-17 "552I42 3.2552i2 3.38E-15 I"5 Di 5255"""I"N 5' ata I"5.555255" ~i"I 555-di 1.96'5'-26 , La-140' 4.30 5265 2.17E-08 I"5.755"65 TN5~Bifa~ TSB~bsia-~i 1.70E-05 i"KV55-65~ 1A"id1 5.34 5'I6" "I.56521 6"' '"5.755~j"i[,[j"No Data ][55'd5Ea[ ((1.35E-06__l[7.555"65[ La 142 8.54E-11 3.88E-11 9.65E-12 I No Data i No Data i 7.91E-07 I 2.64E-07 j "Ue-141 2.495-06 1.695266" '"I.555 57~~"N5' Afa~ ~7.83E-07 ["I:555 d5"""l"I.565-05 )

"de-143         2.335-08      1.725:08      1.915-09         No' data       7.60E-09 i 9.97'5 U5" 12.83E'U5~               ]

)kS144 4.255'6d" "I.7552UI" ~I 2.305{U5~ i" 5 UAia[,[]~5., 5 65{dd~((5;f55 Ud]~f;U55{6d] ] Pr-143 1.17E-06 4.69E-07 { 5.80E-08 _,I No Data 2.70E-07 i 3.51E-05 i 2.50E-05 l "5[idi~ 3.76E;12[ 1.565',12_ j[ij5il5-i5~~[ N.o.. Data _ ,,_8.815"55~ li.'575257][2.69E-18,,, l

.,Nd-147        6.59E-07     7.62E.-07    j 4.56E-08         No Data    j 4.45E;07., ! 2.76E-05,...,} 2.16E-05_

Pm-147 8.37E-05 7.87E;06_.,j 3.19E-06_ No Data _ 1.49E-05_ j_6. 60E-05 5.54 E-06, , Pm-148m 9.82E-06 2.54E-06 1.94E-06 No Data 3.85E-06 1 2.14E-04 4.18E-05 [5m-1,48 3.845267" "55i5268 3.20E-08__j[N5[55fa~ ..i[i?E65:Uf""i5I5"65~"~5.565"65[ Pm-149 3.44E-08 4.87E-09 1.99E-09 i No Data I 9.19E-09

                                                    ~

7.21 E-06 2.50E-05 "Em-151 8.50 5269 1.42E-09 7.21E id""TN5~6sia~ "T 2.555263- ^i'3.94E-06 i 2.00E-05 "5m-151 6.555265 1.485265"~I"5555265- "No Data "I.555265"*"I.355 U5~""*"5.'25E-06 Sm-153 1.705-65 1.4252U5~~l"I.di5-09 No Data 4.555-09 4.14E-d6 1.58E-05 "5i.5152 2.385"65[ _5.415"65][4.76E-05[.i"N5'UAfa~ j[5[.55526s~ ~[5.43E 04 } 1.59E-05 Eu-154 _ 7.40E-04 j_,4.36E-04_ ,j,5.84,E-04,,,,,,J,3.40E-05,_

.,Eu1155        1.01 E-0_4 9.10E-05_j 1.43E-05,,       6.48E-059.21E-06_
                                                          !.No Data

_ j No Data

j. 6.59E-05,_ ,J. 9.46E-05_,,,.! 5.95E-06 l Eu-156 1.93E-06 1.48E-06 2.40E-07 No Data I 9.95E-07 8.56E-05 l 4.50E-05 "152I56"~

2.21 E-05 No Data ~ ~i"5.75E-06 No Data l"5.I65-06 1.92E-04 T5"655"U5~ Ho-166m 3.375-04 1.65526s~TE665:55 i'N5~6sia~ T1.57E-04 ~ i 3.94E-04 i~s.555"Us~ _W-181_ 5.555-09_ 2.035"us ""Fif525d[IN5'D5Ea~ No Data, _ '"I YI5"d5][5.53E-07.,,

..W ,,1,85,,

1.95E;07 _6._47E-08_ 6.81E7 09 jjjo,, Data _ _,.No Data ,_5.57E-05_ j 1.07E-05 W 18_7 1.06E-09 8.85E-10 . 3.10E.-10 _No Data j_No Dat,a. _ ,, 3.63E-06 ,_},.1. 94E-05_

...Pb 210       2.64E-02
..Bi-210        2.31 E.-07   6.73E-03,.           J.,8.37E-04_

1.59E-06 [ 1.32E-07__ No Data _[_.No J 1. 92E-05 Data __ __ j 2.12E;02_, j_2.62

.,P_o-210       3.9_7E-_04   8.60E-04       9.58E-05         No Data. ..j 2.95E-03_ j,3.14E-02               4.19E-05_

Ra-223 1.80E-04 2.77E-07 3.60E-05 No Data  ; 7.85E-06 ! 2.55E 02 2.84E-04 Ra-224 j_1.98.5"65_ 4.78E-08 I"5;555"d6., _}[N5'd5Ea" }1.35E-06,[ [Efi5 55~"[5.01E-04 _Ra-225 3.00E-04_ _ 3.56E-_07 5.99E-05 No Data _1__._0j E-05 2.92E-02 _ 2.71 E-04 Ra-226 1.25E-01 2.39E-06 9.14E-02 No Data 6.77E-05 1.17E-01 2.94E-04 Ra-228 4.41 E-02 1.23E 65"'TI.555"d5~I No Data 2 l"5.48E-05 I"I:5I5"dI" "* 5.00E"d5~ m Data presented in this Table are from Reference 9. A-13

PNPS-ODCM Rev. 8 TABLE A-11 (continued) INHALATION DOSE FACTORS FOR ADULTm mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GILLI

  . Ac-225        4.23E-04    5.82E-04 j 2.84E 05 j. No Data             j _6.6_3E-05      !.2.21 E-02 } 2.52E-04,_,.

Ac-227 2.30E+00 3.05E-01 _ 1.36E-01 No Dah i 9.82E-02 12.41 E-01 5.08E-05 Th-227 2.175-04 3.925265""~j"5 l 555-06No Data l"5.22E-05 i 3.77E-02 3.34E-04 [T5558 2.005-01 3.395265~"]"6.77E-03 } No Data l 1.89E-02 i 1.01 E+00

                                                                                                   ~
                                                                                                       }"5755E-04
  .,Th,-229       1.51 E+01   4.34E-01        2.51 E-01     "U5' data j,,2.1_35566}3.62E d6] 4.83E-05 Th-230        2.29E+00    1.31 E-01       6.36E-02         No Data    ! 6.40E-01       1 6.21 E-01   ! 3.73E-05 "T5'-232        2.56E+00    1.125 65"' 'i"5:555 di"~j' No Data         i 5.47E-01        i 5.96E-01 '"575}5:55~

Th-234 1.635206 9.56E-08 I"T.iUE 65'"! No Data I5.41E-07 i 1.895-04 7.03E-05 "Ea-231 5.08E+00 1.915-01 i* 1.98E-01 ~i"N5'65ti ~i 1.07E+00 I"5:355 65~~i"4.44E"d5~ Pa 233 1.215-06 2.42E-07 2.09E-07 i"U5" Data I 9.15E_-07 ["5.52E-05 i 1.02E-05 U-232 5.14E-02 No Data 3.66E-03 I"U5'bata I5.56E-03 ! 2.22E-01 I 4.21E-05

 , U,-233      .,,1.09 IU5    No D5fi ,] 6.605 UI~j'"N5'U5ta j.' 2.54E-03_ _("5.32E-02 13.89E-05
  . U-234         1.04E-02    No Data         6.46E_-04__ _ j No Data       2.49E-03       1                3.81 E-05
  .,U-235         1.00E-02    No Data      ,. 6.07E.-04.,,,,,i. No Data  , 2.34E.7 03,,,

i,5.22E-02 4.90E-02 ,, 4.84 E-05 U 236 1.00E-02 No Data j 6.20E-04 ! No Data 2.39E-03 5.00E-02 ! 3.57E-05 U-237 3.675265 No Data l 9.77E-09 I"So Data 1.51 E-07 1.02E-05 I 1.20E-05

  ..U. 238        9.58E-03    No Data _,,,,,I 5.67E-04,,,,i"No Data      )M55:03_ i 4.58E-02_,,_i[,3.41 E-05
  ..N.p, 237      1.56E.+.00  1.00E+00 _ { 6.87E-02            No,, Data                   [ 5.22E-02       4.92E-05 Np 238        2.96E-07    7.20E-08 1 4.61 E-09          [,No i

Data [i 5.10E-01 2.72E-08 l 1.02E-05 2.13E-05 [Sp[:239 2.87E-08 2.54E-08 [I555-d5~~{ No Data }"5?i55265~ "].,4.70E-06_,,,l,1.49E-05,,,

  , P,u ,238      1.43E+00    9.7_1 E-01   },6.90E-02          No Data   j _2.96E-01          1.82E-01 } 4.52E-05
  , Pu-239        1.66E+00    1.07E+00        7.75E-02 _ , No Data       j 3.30E-01        ,1.72E-01 j 4.13E-05 Pu-240        1.65E+00    1.07E+00        7.73E-02         No Data    I 3.29E-01          1.72E-01      4.21 E-05 Pu-241        3.42E-02    8.69E-03        1.29E-03         No Data   E5.53E-03            1.52E-04      8.65E-07 Pu-242        1.53E+00    _1.035sd6"~i 7.46E-02 , No Data            j' 3.17E-01       i 1.65E-01 i"4.05E-05 Pu-244        1.79E+00    1.18E+00 i __8.54 E-02 _         No Data    i 3.64E-01          1.89E-01      6.03E-05 Am-241        1.68E+00    1.13E+00 l 6.71E-02              No Data   l 5.04E-01           6.06E-02      4.60E-05 Am-242m       1.705+00    1.06E+00        6.73E-02 j"N5' data        }"5.555-01 T5745 02 15.79E-05 A.m-_243     _1.6,8E+00   1.10E+00        6.57E-02 j.,No Data        I 4.95E-01        I _5.75E-02 [5:40E-05 Cm-242        2.22E-02    1.77E-02        9.84E-04 l No Data l 4.48E-03 I 3.92E-02 l 4.91E-05 "Dm-243         1.10E+00    7.61 E-01    I 4.61E-02          No Data                                      4.845 55~
                                                                         } 2.155-01 [ 6.31 E-02 "Dm-244         8.375-01    5.88E-01     l"5:51E-02          No Data    i 1.64E-01        i 6.06E-02      4.68E-05 "Um-245         1.74E+00   ...l .14 E+00_ ( 7.14E-02      !' No Data ]"5?555-01          i 5.85E-02 i 4.36E-05 Cm-246        1.73E+00    1.14E+00 [ 7.13E-02              No Data j 3.33E-01.,      _[ 5.96E-02 [4.29E-05 Cm-247        1.68E+00__  1.12E.+00,, . ._7.03E-02 _ , No Data _ j. 3.28E-01            ! 5.85E-02 } 5.63E-05
  .,C.m ,248 _    1.40E+01    9.26E+00 , 5.79E.-01 j.,No Data j_2.70E+00                    [,.4. 82E-01 } 9.09E-04 j Cf-252        5.43E-01    No Data      i 2.33E-02 i No Data l No Data                   i 1.99E-01    ! 1.78E-04 j W Data presented in this Table are from Reference 9.

l A 14 t

PNPS-ODCM Rev. 8 TABLE A-12 INHALATION DOSE FACTORS FOR TEEN (" mrem /pCl inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI

. H _3 _     j No Data        9.06E-08 { 9.06E-08         1,9.06.E-08     9.06E-08 [ 9.06E-08 ! 9.06E-08 Be-10         2.78E-04     4.33E-05 _       7.09E-06      No Data       No Data    i 3.84E-04          1.77E-05 C-14          3.25E-06                     " 6.095 57"~}l 6.09E-07      6.09E-07 I6.09E-07            6.09E-07 N-13 F-18 8.6'5E-09_

6.52E-07 6.09E-07' 8.65E-09 No Data

                                                     ~~5.5552 7.10E-08      No Data 5"-* 8.65E-09 i No Data 8.65E-09

[No Data i [5.555-09 8.65E-09 I 3.89E-08 Na-22 1.76E-05 1.76E-05 1.765~55"~i"I.355265 l 1.7652U5~['1.76E-05 i 1.76E"55" ~ Na-24 1.725-06 1.72$-06 1.72E"U5~"I 1.72E-06 }"1.725206 1.72E-06 1.72E 65"~

.P-32        , 2.36E-04       1.37E-05     ,_8.955" 5]} No b5ia'~j"No Data           (( No Data1.16E-05 Ca-41         4.05E-05      No Data         4.38E-06      No Data     l No Data       1.01 E-01      13.03E-07 Sc-46         7.24E-05      1.41 E-04       4.18E-05      No data    } 1.35E-04       No Data       ' 2.98E-05,,,

Cr-51 No Data No Data i 1.69E-08 9.37E-09 I 3.84E-09

• 2.62E-06 3.75E-07 i Mn-54 No Data 6.39E-06 l' 1.05E-06 No Data 2.48E-04 8.35E-06 l

[I.555-06 Mn-56 No Data 2.125255"~}"3.15E 11 No Data i 2.245-10 1.90E-06 I"7.18E-06

}5h55        l~d.'555-06      2.98E-06 [,,5.5'3E-07,,,,,) No Data      ).,No Data     [1.55E-05['l995 }        d7" Fe-59         1.99E-06      4.62E-06 l                    No Data       No Data       1.91 E-04        2.23E-05 Co-57         No Data       1.18E-07 }_1.79E-06 1.15E-07      No Data       No Data       7.33E-05         3.93E-06 "bo-58          No Data       2.59E-07 { 3.47E-07 i No Data            j No Data ] 1.68 5-04 } 1.19E-05
. C_o-60_       No Data _     1.89E-06,,, , .! 2.48E-06     No Data     i 1.09E-03 _ ] 3.24E-05 Ni    Ni-63 5.44E-06 7.25E-05 2.02E-06 j 9.24E-07 5.43E-06
                                                          ,_No Data    ] No_No Data Data  1.41 E-05_ j_6.48E-07 2.47E-06 } No Data l No Data _,j 3.84E-05                  1.77E-06 Ni-65         2.'73E-10     3.66E-11        1.59E-11      No Data _l No Data        i 1.17E-06         4.59E-06 Cu-64         No Data       2.54E 10        1.065-10 , No Data Zn-65         4.82E-06      1.67E-05        7.80E-06 i No Data j"8.01 E-10
                                                                       }' I.08E-0_5         i 1.39E-06 i 1.55E-04    i 5.83E-06i 7.68E-06 "In-69m         1.44E-09      3.39E-09        3.115255~"} No Data       i 2.06E-09 [ 3.92 "d6 [ 2.14E-05
                                                                                                  ~

Zn-69 6.04$ 12 1.15E-11 i,8.0,75-13 }"No Data }._7.53E-12 [ 1.98E-07 j _3.56E-08 Se-79 ~No Data 5.43E-07 8.71 E-08 I No Data I 8.13E-07 i 3.53E-06 Br-82 No Data No Data

• 2.28I-06 }~ No Data l"No Data } No 7.71E-05 Data No Data "5r-83 No Data No Data 4.305-08 }"N5"bata l"NdData i No Data '"Nid5fa ~~

"5"r-84         No Data       No Data         5.41 E-08 l"NEData       I No Data      I No Data          No Data
~5r-85          No Data       No Data       i 2.29E-09 } *No Data      l No Data      ["Nidata        i'No Data

[hb 86 No Data 2.38E-05 [ 1.05E-05 No Data IN5 Data [No Data ' 2.21 E-06,,, Rb-87 No Data 1.40E-05 _ l 4.58E-06 No Data i No Data  ! No Data 3.05E-07 "Rb-88 No Data 6.82E-08 i 3.40E-d5"'"I No Data l"NED5Ea~ ~i No Data i 3.65E-15 Rb-89 No Data _ l No_ Data i No Data }'4.22E-17 Sr-89 5.43E-05 4.405265 No Data j 2.915"U5~~' i 1.56E-06 No DataNo Data _ .l lNo Data i 4.64E-05 3.02E-04

                                                          *            ~              *
"Sr 90          4.14 E-03     No Data       i 8.33E-05      No data       No Data       2.06E-03 i 9.56E-05

[Sr-91 1.10E-08 No Data { 4.39E-10 ,. No, Data. ._, No Data ,,7.59E-06 j _3.245"U5~

 . Sr,.92    4 1.19E-09      No Data _ [5.08E 11           No Data    j No Data      [ 3 43E-06_,,.} 1.49E-05 Y-90          3.73E-07      No Data       [ 1.00E-08      No Data       No Data     [ 3.66E-05 } 6.99E-05 Y 91m         4.63E-11      No Data       i 1.77E-12      No Data       No Data     i 4.00E-07 1 3.77E-09
..,Y7 91     j 8.26E-05       No Data       { 2.21E-06 [No Data         j...No b5fi~~[5575-04 l' 5.11 E-05 J-92_          1.84E-09      No Data       i

[ 3.35E-06 }__2._06E-05 [No Data Y 93 1.69E-08 No Data }_5.36E-11 4.65E-10 ! No Data! No Data

                                                                        ! No Data     i 1.04E-05 i 7.24E-05 (U

Data presented in this Table are from Reference 9. A-15

PNPS-ODCM Rev. 8 TABLE A-12 (continued) INHALATION DOSE FACTORS FOR TEENW mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GILLI .,Z.r-93 6.83E-05 3.38E-06 1.84E-06,_,i No Data j 1.16E-05,,, ,,,L3.67E-05,,_,j 1.60E-06 Zr 95 1.82E-05 5.73E-06 _3.94E-06 No Data I 8.42E-06 ! 3.36E-04 i 1.86E-05 Zr-97 1.72E-08 3.405'5p~T"1.575266"~}i No d5f5" ~ I"i.555 5.15E-0955~"I 7.88E-05 Nb-93m 4.14 E-05 _ _1.36E-05_ 3.,41 E-06_,'j No Data ],,1.59.5[65~ (( 5.36E-05_ L}[2.52E-06,,. ,,Nb-95__ 2.32E.-06 1.29E-06_ 7.08E-07,_,1,No Data J ,,1,.25E-06 9.39E-05,_] 1.21E705 ..Nb;97 .,3.92E 1_1 9.72E-12__ ,_3.55E-12_ ,,j N,o Data 1.14E-11 [L 4,.91 E,-07__j. 2.71 E-07.,,1 Mo 93 No Data 1.66E-06 1 4.52E-08 ! No Data 5.06E-07 8.81 E-05 3.99E-06 "U5-99 No D5ta 2.11 E-08 ' 4.03E-09 !"N5'DL . 5.145-08 1.92E205 3.365 55~ [T5-99m 1.735-13 4.83E-13 6.24E-12,[i[N5'diiE~ ~}[,1!555:55~ },1.44E-07__ }"i555 di~ Tc-99 4.48E-08 6.58E-08_,_,{ 1.79E-08 j. No Data I i Tc-101 7.40E-15 1.05E-14 l 1.03E-13__ l No Data l,8.35E 1.90E-1307! [8.34E-08 1.74 E-04_,,I_7.99 1.09E-16 E,,06_ "5u-103 2.635-07 No data i 1.12Ei07 '"N5'd5fa~ ~l 9.29E-07~~i' 9.79E-05 i 1.36E-05 ..R,u .105 5265-10 No data {_5425-11 No Data 1.76E-10__ ((5.575'd5~" 1.135~d5~ Ru-106 1.23E-05 No Data  ! 1.55E-06 No Data 2.38E-05 l 2.01E-03 1.20E-04 "hh-105 1.32E-09 9.485255" "6.24E-10 No Data ' 4.04E-09 ["d d55"65~~~ 1.23E-05 "5d-107 No Data 1.175-07 8.39E-09 j'N5' ata 9.39E-07 I"I.'555-05 ilis"di~ Pd-109 _ No dji5[ 6.56E-10 1.665 id~[j[N5'65f5~ ~}[ 3.365"65~ ~[ 3.19E7 06 }~1.96E-05_ Ag-110m 1.73E-06 1.64E-06 9.99E-07 l No Data  ! 3.13E-06 8.44E-04 ! 3.41E-05 [ g[i11 6.07E-08 2.52E-08 , _4.00E-05 l[5;6 5"d5,[ . _Cd-113m No Data 2.17E-04 i[7.10E-061.26E-08,,_,I[N5'U5f5~

                                                        ! No Data        j. 2.43E-04
                                                                                                  ~} _8.17E-08
                                                                                          .,3.59E-04 } ,1. 68E-05_        l C.d _115m       No Data      3.48E-05__ ! 1.14E-06 No Data _,,_j ,2.82E-05        3.03E-04       5.10E.-05_

Sn-123 4.31 E-05 9.44E-07 _ l 1.40E-06 7.55E-07 l No Data 4.96E-04 4.16E-05 Sn-125 1.66E 06 4.42E"6E" "I 9.99E-08 3.45E-08 [ No Data i 1.26E-04 l"i555d5~ Sn-126 2.18 5264 5.39E-06 I"5 535 d5~~I 1.42E-06 I"N5"d5ta II.755-03 i 1.68E-05 [5b-124 5.38E 06_ 9.92E-08 _{[I.id555~j',[i.55526E"}"N5'd5ta ["i 5I5 di"~}"I'.555"d5~

. Sb-125         9.23E-06     1.01E-07                    !                 No Data      [ 3.42E-04       1.24 E-05_,

Sb-126 6.19E-07 1.27E-08 I 2.23E-07! 2.15E-06,,,_I,8.80E,-09 3.50E-09 No Data i 1.55E-04 6.01 E-05 Sb-127 4.64E-08 9.92E-10 [ 1.755:55"((i~5[.5i5"id((j' No Da a ((5 555 d5~"~"5'.535 d5~ Te-125m 6.10E-07 2.80E707 8.34 E-08 i 6.70E-05 1.75E-07,,,_] No_ Data 9.38E-06. . Te-127m 2.25E-06 1.02E-06 2.73E-07 5.48E-07 i 8.17E-06 [ 2.07E-04 1.99E-05 Te-127 2.51 E-10 1.14E-10 f5.555-11 ' 1.77E-10 }"5?id5 56" ~'"I.355 d5"~"*~1.01 E-05 Te-129m 1.74E-d5 8.23E-07 I"5:5i5-07 5.72E-07 I"5.49E-06 2.47E-04 5.06E-05

..Te ,.129       8.87E. _12  7.555[55(([I.50E ,12, ,,,i"5.48E-12[. .)[3.32E-11_ ((d"f55 di~~}~5;d55[d[

Te-131m 1.23E-08 7.51 E-09 ! 5.03E-09 i 9.06E-09 l 5.49E-08 [' 2.97E-05 7.76E-05 Te-131 1.97E! iE" 1.04E-12 I 6.30E-13 f1.55E-12 l"f.72E-12 l 2.92E-07 "I'.55526E" Te-132 4.50E-08 3.63E-08 '! 2.745 55~ "I 3.07E-08 ~"52i5261~"I'55I555~""I"5'.15555~ Te-133m "i'. dis-11 7.33E. _12 '"5.71 E,-12 j 8.18E_-15~ j[55fE!i1 _ [8.71E-07 ],,1.23E-07 Te-134 ~ 5.31 E-12 4.35E-12 3.64E-12 l 4.46E-12 I 2.91E-11 l 6.75E-07__ ___j 1.37E-09 l-129 3.53E-06 2.9452U5'~! 4.90E-06 ' 3.665"65"^ 5.26E-06 _ No Data 2.29E-07 "i-550 7.80E-07 2.24515E"~~! 8.96E-07 1.865-04 3.44E-06 No 6ata 1.14E-06 l-131 "4.435-06 6.14E-06 i 3.30E-06 _ _ i((1 83E-03__jl1.05,E-05_,,,((N,o, Data _ _i_8.11 E-Of~ _l-132 1.99E-07 5.47E-07 1.97E-07 l 1.89E-05_ __ j,8.65E-07 No Data _ i 1.59E-07_

,,17 133         1.52E-06     2.56E-06 _ , 7.78E-07 } 3.65E-04 _ j. ,4.,49E-06,, ,,N.o Data _ _,j 1.29E-06__

l-134 ,, 1.11 E-07 2.90E-0,7__,,j 1.05E-07 ! 4.94E _06 _ j 4.58E-07 No Data j 2.55E-09 l-135 i 4.62E-07 1.18E-06 1 4.36E-07 ! 7.76E-05 i 1.86E-06 No Data  ! 8.69E-07 m Data presented in this Table are from Reference 9. A-16

PNPS-ODCM Rev. 8 TABLE A-12 (continued) INHALATION DOSE FACTORS FOR TEENW mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Cs-134m 2.20E-08 4.35E-08 i* 2.35E-08 i No Data ^ i 2.54E-08 ! 4.56E-09 i 2.02E 08 Cs-134 5.555-05 1.41 E-04 6.86E-05 " No Data 4.69E-05 i' 1.83E-05 I 1.22E-06 Cs-135 2.08E-05 1.825-05 4.475-06 No bata 7.30E-06 f 2.705-06 i 2.23E-07 [Us-135; 6.44E-06 f"5.'i55 65" ~[1.71 E-05 [N5'65t'a ][1.38E-05_,[2.22E-06,,_} 1.36E-06 Cs-137 8.38E-05 1.06E-04 i 3.89E-05 No Data 1.51 E-05 l 1.06E-06 Cs-138 5.82E-08 1.07E-07 T5'555-08 No D5t5'j 3.80E-05f5.555255"

                                                                                                     ~[ 9.84E-09 ~ "5'.555
                                                                     ~

Cs-139 3.65E-08 5.12$-08 No Data 4.34E-08 i 4.865-09 I 1.665255~

  "53I139       1.67E-10      1.185-13       1.97E"d5"]fN5"bata 4.87E-12                    1.11E 13 I 8.08E-07 I 8.06E-07 "5a-140       6.84E-06     8.38E-09 i'4.40E-07"""I No Data             2.85E-09 i 2.54E-04 i"5.55555~~

[Ba 141 1.7852i1 1.32E-14 4.11 E-07 I"5:555-14 [ 1.23E-14 Ba-142 4.62E-12 4.63E-15 }[5.93E-13,_,I 2.84E-13 No DataI i No Data 3.92E-15 2.39E-07 I 5.99E-20 La-140 5.99E-08 2.95E-08 [.5.e8E-05.._!~5:d55 .,La-141 7.63E-10 2.35E-10_ 1 _ }' 7.82E"d5"~l"N5'd5ti~~TN5

                                          , 3.87E _1_1     No Data

[ No Data 2.31 E-06 } 1.54E-05 cata i La-142 1.20E-10 5.31 E-11 l 1.32E-11 No Data i No Data 1.27E-06 1 1.50E-06 1 Ce-141 3.555-06 2.37E-06 2.715 d7~" No Data ' 1.11 E-06 i 7.67E-05 i 1.585"d5~ Ce-143 3.32E-08 2.42E-08 2.70E-09 No Data 1.08E-08 1 1.63E-05 1 3.19E-05 I Ce-144 6'.Ii5-04 2.53E-04 I"5"555 d5~"} No Data i 1.515-04 I"I:5f5'65"~l 1.08E-04 l Pr-143 1.67E-06 6.645-07 '"5"555 55"~~}' No Data 3.86E-07 " 6.04E-05 l 2.675 d5~ l Pr-144 5.37 -12 2.20E-12 2.725255"""}~N5 Data 1.26E-12 2.195"di~"I 2.94E-14 Nd 147 9.835kd7 1.07E-06 , 6.41 E-08 " No Data _ }' 6.28E-071_ [5 555"d5 i,2.28E-05 P_m-147 1.15E-04 1.10E-05 4.50E-06 No_ Data j 2.10E-05 1.14E-04 5.87E-06 Pm-148m 1.32E-05 3.35E-06 2.62E-06 No Data 5.07E-06 3.20E-04 4.10E-05 [ "5m-148 5.44E-07 8.88E-08 ~5:35555" " No Data 1.60E-07 6.52E-05 " 6.14E-05 l "5m-149 4.915-08 6.89E-09 2.84E-09 No Data 1.31 E-08 I"I535-05 2.79E-05 l Pm-151 1.20E-05 1.995109

• 1.01 E-09 } No Data ' 3.57E-09 i 6.56E-06 l 2.27E-05 Sm-151

       ~

1.07 -04 2.10E-05 4.86E-06 i No Data 2.275265" ~i 7.68E-05 i"5'.555 d5" J Sm-153 2.43E-08 2.015"68 1.47E-09 I No Data 6.56E-09 ["f.ii5"d5"~I 1.77E-05 ! "5u-152 2.96E-04 7.195-05 6.30E-05 7"No Data i 3.345"EI"~i 5.01E-04 i 1.355 55~ l Eu-154 9.43E-04 1.23E-04 8.60E-05 No Data 5.44 E-04 i 9.12E-04 ' 3.34E-05 Eu-155 2.00E-04 1.96E-05 , _1.21 E-05,_,, No Data , 7.65E-05 [1_.51 E-03 3 5.97E-05 Eu-156 2.70E-06 2.03E-06 3.30E-07 i No Data

                                                   ~

i 1.36E-06 l 1.37E-04 4.56E-05 Tb-160 3.04E-05 No Data 3.79E 65"~I' No Data l 1.20E-05 I 2.97E-04 2.605"d5~~ ) Ho-166m 4.40E-04 1.36E-04 I"5.87E-05 No bata i 2.00E-04 ["5:555-04 }"I:68E-05 i W-181 8.90E-09 2.88E-09 i' 3.01 E-10 No Data '"No Data i 2.95E-0S I' 2.69E-07 l W-185 2.78 -07 9.1' 5-08 I9.73E-09 No Data No Data '"5.60E-05 1.14E-05 W-187 1.505-09 1.22E-09 }'4.295-10 } No Data l"No Data 5.92E-06 }"5.5I5 I 55~ Pb-210 3.09E-02 8.28E-03 " 1.07E-03 '"N5' Data ' 2.95E-02 i 4.52E-02 I"I:55555~ Bi-210 3.30E-07 2.265-06 1.89E-07 No Data 2.74E-05 ["I 51E-03 13.195-05 _Po-210 5.685-04 1.22,E-03 f_1.375-04 No Data "4.21 E-03 '"5.41 E-02 ~ },4.45E;05,,, Ra-223 2.57E-04 , 3.93E-07 I 5.14E-05 _ , No Data ,1.12E-05 _ , 4.39E-02 _ i 3.04E-04 Ra-224 4 2.,83E-05 6.77E-08 !,,5.65E-06 No Data _ j,1.93E-06 ! 1.51E-02__ j,3.29E-04_ Ra-225 4.28E-04 5.04E-07 8.56E-05 No Data j 1.44E-05_ 5.04 E-02,,,,,,,[2.89E-04 Ra-226 1.33E-01 3.38E-06 9.87E-02 , No Data _ j 9.67E-05 ,,,2.02E-01 j 3.11E-04 Ra-228 5.34 E-02 1.74E-06 5.88E-02 l No Data ! 4.97E-05 1 2.78E-01  ! 5.30E-05 W Data presented in this Table are from Reference 9. A-17

PNPS-ODCM Rev. 8 TABLE A-12 (continued) INHALATION DOSE FACTORS FOR TEEN W mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Ac-225 6.04E-04 8.25E-04 l 4.06E-05_ j,,No Data _ j 9.47E-05., J,3.81E-02_,_j,2.70E-04 Ac-227 2.49E+00 3.69E-01 1.48E-01 i No Data i 1.07E-01 4.16E-01 5.38E-05 "i5-227 3.095204 5.555"-55~}"5'.555-55-~[ No Data 6.50E-02 i 3.18E-05 3.57'5 di"~' Th-228 ~5565201 4.37E-05 8.78E"d5~ "i No Data i 2.45E-02 I"I 555i66""I 3.70E-04 Mb5I9 1.535101 4.44E,-01T 2.56E-01"""j[N5[65fA" "}"5.18E+05"~[5.245id6""j"5.12E{d5[ T&230 2.34E+00 1.34E-01 ,,6.49E,-02,,, j. No Data j.,6.55E;01,_j ,8.98E-01 j 3.95E-05 Th 232 2.61 E+00 1.14E-01 i 9.21E-04 No Data 5.60E-01 8.60E-01 1 3.36E-05 "T52554 [5"32EJ06 1.35526-7"'~I"5'.fi5-08 No Data 7.735-57 3.265-04 I 7.495 d5~ [55"531 5.355I60 2.005[65((i[5ldi5~65,[][N5[d5i5~ ]"1.12E+00 [,l5l555"d5[]"I'VI5 d5~ . Pa-233 1.68E-06 3.24E-07 1 2.89E-07 No Data  ! 1.22E-06 5.39E-05 1.00E-05 Mhhhh 7.31. ( 02_ No d5EA~ ]"5'.555 55~[No ., Data _ ,,][i[.535h55"(([5l5dd,,01_,,,,, [ 4.46E

...U;233       1.55E-02       No Data     ! 9.42E_-04 _ j,No Data            J 3.63E-03         9.18E 02__ j 4.12E-05 U_-234       1.48E-02       No Data         9.23E-04        No Data           3 55E-03_ 8.99E-02_ j. 4.04E-05                   '

U-235 1.42E-02 No Data l! 8.67E-04No Data 3.34E-03 i 8.44E-02 i 5.13E-05

~U2555         1.425265~      No Data     }"8.86E-04 I"N5' Data                 3.41I"U5" ~i"5762E-02 I 3.79E-05 "U2555         5.255-08       No D5Ea' ~I"I'id5265~" ~No Data
                                                .                            I 2.16E-07 ' 1.76E-05 l 1.29E-05 "U"pjy-       "i"55502        No Data     i 8.10E-04          No Data        I3.12E-03" ' 7.89E-02 i 3.625-d5~
.,Np;237~ "~~ ~5.5d5+00                                                         5.35E-01     [' 8.99E-02 ] 5.22E-05 1.655i66~"'"i5I5"d5][N5'D5fi" "

Np-238 4.23E-07 1.02E-07 ,.,6.59E-09,,, ,j No Data ,. 3.88E-08 1 1.75E-05,_j 2,.38E-05,,, Np-239 4.23E-08 3.60E-08 ! 2.21E-09 l No Data l 1.25E-08 ! 8.11E-06 ! 1.65E-05 "5u 555' 1.5057UE~ "I.555I66"'I 7.22E-02 I"No Data l' 3.10E-01 '"5:I55 di~~I 4.79E-05 "5u-239 1.735+00 1.125I66"  ! 8.05E"d5~"I"N5'U5fi" ~I 3.44E UT 2.935 dI"~II5552d5~ 5uSEA0 1.725A00 1.155I66" " 8.04E-02 I"No Data l"3.43E-01 I 2.93E-01 ~ 4.46E-05 "Eu-241 3.745-02 9.56E-03 "I.id5-d5~TNo Data

                                                        ~

i 6.47E43 2.60E"di" ~5"i55-0/"

"5u-242        1.60E+00       1.08E+05~~i 7.75E-02 "i"No Data                i 3.31E-01        "5.'555"di" ~i"I'.555-d5~
~5u 54i        I.5I556U       1.24E+00___j"5;555-d5~ "' No Data              ][5.79E;01._ ,,[5'555 di"~~ 6.395{d5["               l Am-241        1.77E+00       __1.20E+00 l 7.10E-02           No Data         i 5.32E-01     1 1.05E-01        4.88E-05           l Am-242.m      1.795 1 0,0._    1.135+00 $i55"65~[', No
                                                            !  Data     _ ,,j"5'.5  5~65(([121E-02L        [6.14E;05,,,

Am-243_ 1.77E+00 l  ! 9.91E-02_ _ _ j. 5.72E-05 Cm-242 3.17E-02 1.17E+00,,,,,,i_6.95E-02,,, 2.51 E-02 1.41 E-03 No Dataj,,No iData _ _j 5.21 6.40E-03 l E-01 1 5.21 E-05 6.76E-02

                                                                             *               ~

Cm-243 1.195+00 8.305201 I 5.005-02 No Data 2.34EJ01 1.09E-01 5.13E-05 [ din-244 9._19 5261 6.535265~ "[5l555-02 No Data __ , _1.81E-O'1 _ ,_1.05'5-01 ., 4.96E"d5~

..Crn-245      1.83E t00,,, ,,,1,.22E 00_j 7.53E-02,,,,,j No Data __ _ j 3.52E-01            [ 1.01 E-01    j.,4.63E-05_
. Cm ,246      1.81 E+00      1.22E+00._j,7.52E-02            No Data _ ..i 3.51E-01            1.03E,-01,, _j 4.54E-05 Cm-247       1.77E+00       1.19E+00 i 7.41E-02             No Data         i 3.46E-01        1.01 E-01    I 5.97E-05           ,
"UE548         1._475+01      9.83E+00 [6.115"dj))[N5'U5EA$ [5[.5551 00_[8 325"dj[][5.63E-04                       .

I Cf 252 '7.16E-01 No Data i 3.07E-02 i No Data i No Data i 3.43E-01 i 1.89E-04 W Data presented in this Table are from Reference 9. l

                                                                                                                                  \

A-18

PNPS-ODCM Rev.8 TABLE A-13 INHALATION DOSE FACTORS FOR CHILDN mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI j

 ...H -3         l                                               1.7.3E..07 . ...l.1.73E-07.. ...j 1.73E .07.~.,i.1.73E-07
                                                                               -              ..                                     -                  1.73 E.07...
 ...           -...N..o.
                   . . . .                . Data ..... 7..1 73E-07 N-13             2.335 55~"5'.55'5-08                        2.3552UE~i"5 555-d5" ~'"5'555-08                            .
                                                                                                                                       ~

2.33E-08 2.33526E~ F 18 1.885265 N5' data 1.85526f"IN5'bata No Data No Data 3.37E-Of~

 "A5252          ["d 5I5"U5   ~

4255U5~ ~53552U5" ~f"d 555-U5""l"5"51 E-05 4.415-05 4.41 E-05 "Na"55 4.35E 65"""'"5'.555265~" "I'.555 55~"i"4.35E"U5"""i"i 555 55 4.35E-06 4.35526E" T55 7.035-04 3.09555 2.675 65" ~["N5'6AtA~~"I' No Data No Data 1.1452U5" Ca-41_ Ild55{d5"".][N5,'bAE,, _7.705[65~]"No Data,,_j"N5[6ata 7.215-62 2.94526f"' Sc-46 1.97E-04 ; 2.70E-04 1.04E-04 No Data i 2.39E-04 No Data 2.45E-05 "d'rT55 No Data i No Data 4.17E-08 255i5'd5~~!"E.5fE-D9 4.59E!d6 2.93E-6f"

 ]In-54              No 6 ate [ []~1.16E;05,_ ^5'.5f5265[~['.So Data _ j 2.715-06                                                         4.265-04     6._1952U5[

Mn-56 No Data 4.48E-10 8.43E-11 No Data i 4.52E-10 3.55E-06 3.33E-05 L M5b . ...1:28({U5[,j"E.5U5-06 } 2.105206_ _ No Data _ { N.o, Data _3.005-05 7.755[61(( Fe-59 l 5.59E-06 9.04E-06 4.51 E-06 _ No Data 3.43E-04

                                                                                                                                                                       ]

l No Data 1.91 E-05 j "do-57 I"N5'6ata 2.44 5-67 2.88526f~[ No Data I"N5'bata 1.37E-04 3.58E-06 Co-58 I"N5'6Ai5" 'I.Y55-07 8.555-07 [ No Data i No Data l"5'.555 Di~ ~E.5552U5" 3h60_ ,,,N,g,dEia,,,,,,,,j 3.55E 206_ ~5.'55526E"1S[6Ata {N5[UAi5~~~"I'.555'03,,1 2.605[U5[ Ni-59 1.66E-05 l 4.67E-06 2.83E-06 i No Data i No Data 2.73E-05 6.29E-07

   .Si$55      --[ IE5.555.).1.:25E.-05 7.56E-06][N,o, Data                                                              [No D,ata     "7.43E-05        1.71 E-06[
 ...Nj,-65 _         8.08E-10_,j,7.99E-11                        4.44E ,11              i No, Data,_ ,,J,No Data _ _                      2.21 E.-06_   2.27 E-05,, ,

Cu-64 No Data 15.39E-10 2.90E-10 [ No Data  ! 1.63E-09 2.59E-06 9.92E-06

 ]555__             "I.iSE 05,,,_l[3.06E-05 _                    1".'565265" ~' No Data                                  [ 1.93E-05 l"5555-04_        .,4.41526E"
  ..Z.n-69m      .. 4. . 26.E. .-09....
                                           ' 7.28E-09            8.59E .10... ... .No.D. .a.ta. ....!. 4.22E-09 . i. 7.36.E..06...        . . .     . ..2.71 E..05-
                                                                                                                                                          .g
  ~5e 79              No bata                  1.23E-06          2.60E-07                                                                  1.49 5265    3.43E-06 "5r-82              No Data                  No Data           6.55526E"~{l"No                                                 Data"N5'6At5 i No Data        No Data       No"Data
                                                                                                                                                             ~i 1.715-06 k5h.. ... ..((N5 bata                    .,N.o, Data           1.28E .07((,]_No Data                                   i[No Data        No Data       No d5fi[ ,
  . Br-84        [.No Data _ _j_No.Dat.a                         1.48E-07 [, No Data _                                   }. No_ Data      No Data       No Data,.
  ..Br-85____    LNo Data                  j,No Data             6.84E-09 j No Data [ No Data                                             No Data       No Data .,. l l     Rb-86        ! No Data                j 5.36E-05            3.09E-05__ l No Data                                       No Data       No Data       2.16E-06        i l  "N553        I' No Data                 i 3.16E-05           1.375 55" ~I"N5'6ata                                       No Data       No Data       2.9552U7" "55'88 -

[N5'UAt5~ '"l][.555 U7" 9.90E-08,,, j,.No D,ata_ _['N5'Uata No _ data 4.665265~ l Rb-89 No Data 9.33E-08__ 7.83E_-08 [ No Data l No Data No Data 5.11 E-10 l

  ~5.r. -89
  ...               .1. 62.E.".64......
                         ..     ..           ...N.o. Data -      4.66E. .06... . [".N.5'bAis" ~I.".N. 5'.6ata 5.835265~    _4.52E-05_.      ,

k91 f.3,:28(di ,,N.q , Data 1.24E;09.,, _((S.o, Data _ . [~A5'UAta 1.44 E-05_ 4.7052U5" Sr 92 [ 3.54E-09 No Data 1.42E-10_ ,,[No Data _ _[No Data _ 6.49E-06 6.55E-05_ _ , Y-90 No Data 2.99E-08 i No Data No Data 7.07E-05 7.24E-05 ' l 1.11E-06 Y-91 m "i 37E-10 I"Ao Data 4.98E-12 I"N5'bAti" i No Data 7.60E-07 "354E-07 Y-91 2.47E-04 l"N5 bata 6.59E-06 ["N5' bats"~i"N5'bata 7.105-04 4.97E-05

   " 92                                                                                                                  rpg'ggjg- ~~ 6.46E-06          6.36E-05

{~"5.50E-09 "No Data 1.575255~ 'i' No Data Y-93  ! 5.04E-08 No Data 1.385255~ ~I' No Data No Data 2.05'5-05 1.05E-04 m Data presented in this Table are from Reference 9. A-19

PNPS-ODCM Rev. 8 TABLE A-13 (continued) INHALATION DOSE FACTORS FOR CHILD") mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Zr-93 {"2.07E-04 *i 7.80E-06 5.55E-06 i No Data 1 3.00E-05 1 7.10E-05 1.47E-06 "Ir95 1 5 I55-05 1.165-05 1.00E-05 I No Data I 1.61E-05 ' 6.035265~ 1.65E-05

" 557         f 5.07E-08        7.34E-09      4.32E-09         55'65ii" 1 1.05E-08           3.065-05     9.49E-05
  ,Nb-93m       1.27E-04,,,,,,j 3.175 55"~ 1.04E-05 _i No Data             [ 3.44E-05 1.045-04 2.45E-06 Nb-95         6.35E-06 l 2.48E-06            1.77E-06        No Data _ [2.33E-06 3 1.66E-04             1.00E-05
...Nb-97      ,1,.16E-10_ _ ,.I 2.08E,-11     9.74E ,12.,, , No Data       ! 2.31 E-11.,_,,j. 9.23E-07    7.52E-06 Mo-93         No Data       l 3.76E-06       1.35E-07        No Data        1.06E-06 l 1.70E-04         3.78E-06 5555            No Data      j 4.66E-08        1.15E-08        No Data        1.06E-07 l 3.665 55~       "5255"65~
"T'c-99m      I 4.81E-13 i 9.41E-13            1.56E-11        No Data     i 1.37E-11 i 2.57E-07          1.30E-06

((c-99 1.34E-07 I 1.49E-07 5.35E-08.,,,,,,,, No Data {' 1.75E-06 l[5:575265~ 7.75E-06 Tc-101 ,,2.19E-14 ]_2.30E-14 2.91 E.-13 [N,o, Data  ! 3.92E-13 I 1.58E-07 4.41 E-09 Ru _103 7.55E-07,,,,_j ,No, Data 2.90E-07 [No Data 1.90E-06 1.79E-04 1.21 E-05 Ru-105 4.13E 10 No Data 1.50E-10 i 3.63E-10 4.30E-06 2.69E-05

~5U-106       f"5555-05      j"55' Data       4.57E-06      [ NoNoData Data 4.975-05           3.87E-03     1.16E-04 "NE-105       i[5555-09 j' 210E-09.
                                            '"1.795"6E" ~[ No Data [8.39E-09                 7.82E-06     1.335-_05 Pd-107      i No Data         2.65E-07      2.51 E-08 ! No Data          i 1.97E-06         3.16E-05    7.26E-07 "i'd-109      i'No Data         1.48E-09      4.95525d~~"I No Data         i 7.06E-09        6.16E-06     2.59E-05
.,Ag-110m     [ 4.565,-06,,_,},3.08E-06. ,_   2.47E-06 I,__No Data         '"5'.135-06 ' 1.48E-03         2.71 E-05 Ag-111      1 1.81 E-07 I 5.68E-08          3.75E-08 i No Data              1.71 E-07       7.73E-05    2.98E-05 "Dd-113m      i No Data      }"d555-04        2.125265"~i No Data          I 5.13E-04 l 6.94E-04          1.655"65"
.,Cd-115m       No Data _ J,7.88E-05          3.39E-06 _ [ _N_o Data _,,,,,,L5.93E-05_        5.86E-04    4.97E-05 Sn-123        1.29E-04        2.14E-06      4.19E-06 ! 2.27E-06 i No Data*

9.59E-04 4.05E-05 Sn-125 4.955-06 9.94E-08 2.95E-07 i 1.03E-07 No Data 2.43E-04 7.17E-05

~5ni126         6.23E-04        1.045-05      2.365265"~I' 2.84E-06           No Data         3.02E-03    1.63E-05

[55-124 ["I555"55~~[5 UU5 0,7 7 5.41 E-06 ["5.41 E-08.,_,{' No Data

                                                                                           }' 8.76E-04    4.43E-05_L, Sb-125      1                 2.05E-07      5.59E-06__ [2.46E-08            No Data        6.27E-04     1.09E _05 Sb-126      f,2.66E-05 1.72E-06        2.62E-08      6.16E-07 l 1.00E-08             No Data         2.86E-04    5.67E-05 Sb-127      i 1.36E-07        2.065-09      4.70E-08 i 1.51E-09 "55'Uata                    6.17E-05    3.82E-05

((e-125m 1.82E-06 [6.29E-07 2.475"6f" ~[_5.20E-07 No bata 1.295 04 9.13E-06 Te-127m 6.72E-06 j 2.31E-06 8.16E-07 ! 1.64E-06 1.72E-05 4.00E-04 1.93E-05

. Te-127      I"7.355-10      i                1.655255~ ~i"5.30E-10 ,1.91E-09 ~l 2.71E-06                1.52E-05 Te-129m      f 5.19E-061.85E-06    l_2.57E-108.22E-07 [ 1.71 E-06 ! 1.36E-05 1 4.76E-04                  4.91 E-05    -

[k129_ { 2.645"fi"'] 9.45E-12 6.44E-12 [,1. 93E.-11 'i. 6.94E-11 },".555-07 6.89E-06 Te-131m i 3.63E-08 l 1.60E-08 1.37E-08 2.64E-08 1.08E-07 5.56E-05 8.32E-05 "Te-131 5 575((][2.28E-12 .,1.78E ,12,_ _,,_4,y9E-12 1.59E-11 5.ss5-07 3.60E-07 l Te-132 1.30E-07 l 7.36E-08 7.12E-08 i 8.58E-08 4.79E-07 1.02E-04 3.72E-05 [16:555m I[5'555-11

                             }.

1,"I'51 E-11 1.50E-11 [,2 32E 11 1.015,10 1.60E,-06_ 4.77E-06 Te-134 l 1.53E-11 8.81 E-12 9.40E-12 l 1.24E-11 5.71 E-11 j 1.23E-06 4.87E-07 ) 1-129 1.05E-05 6.40E-06 5.71 E-06 I 4.28E-03 j"I'U55-05 . No Data _ 2.155i6f" l l130 [ 2.21E-06 1 4.43E-06 2.28E-06 I 4.99E-04 l 6.61E-06 No Data 1.38E-06 l-131 _ [1.30E-05 } 1.30E-05 7.37E-06 I"4.39E-03 I,2.13E-05 _ } No Data 7.68E-07,_ , 1-132 5.72E-07 1.10E-06 1 No Data 8.65E-07  ; l-133 4.48E-06 5.49E-06 5.07E-07 [ 5.23E-05__ 2.08E-06 [ 1.04E-03 _ {,1.69E-06 9.13E-06 ,, No Data 1.48E-06 ) l-134 { 3.17E-07 7 5.84E-07 2.69E-07 [1.37E-05 } 8.92E-07 j. No Data 2.58E-07 l l-135 l 1.33E-06 } 2.36E-06 1.12E-06 1 2.14E-04 { 3.62E-06 i No Data 1.20E-06 l "I l Data presented in this Table are from Reference 9. A-20 l,

PNPS-ODCM Rev.8 TABLE A-13 (continued) INHALATION DOSE FACTORS FOR CHILDm mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Cs 134m  ! 6.33E-08 8.92E-08 6.12E-08 i 4.94E-08 8.35E-09 7.92E-08 [.h!i35~~~]"I.76E-041,,j2.7,4 E164 6.07E-05 ] No Data No Data 8.93E-05_ _ ,_3.27E-05 1.04E-06 _,Cs 135 {,6.23E-05 j.,4.13E-05 4.45E-06_ _! No Data ,.,1 53E-05..,_j 5.22E-06 2.17E-07 ..Cs .1__36 {,,1. 76E-05 4.62E 05 3.14E;05, _,[No Data  ! 3.93E-06 1.13E-06.. Cs-137 l 2.45E-04 2.23E-04 3.47E-05 i No Data !. 2.58E. 05__l 2.81

                                                                            ! 7.63E-05                             E-05 9.78E-07 Cs-138      I"IiI5fdf~i 2.27E-07                1.50E! Uf' i"NiUAt5" ~i"I'.555"67~" 1.84E-08                  7.29E-08

~"Us-139 I"I 555 67"'"I'555"67 . 5.80E-08 INo Data i 9.085-08 9.36E-09 7.235-12 "5a-139 i 4.985 10 2.66E-13 1.455-11 ["No Data I"5:555"55~ ~ 1.565-06 1.56E-05 "55:140 I"E;b65:55" j"I',y5p"b5 1.175-06 '"No Data ""5'.VI5-09 4.71 E-04 2.75555"~ "5aI141 f 5.29E-11 I"5.555-id 1.72E-12 No D'Aia 2.56E-14 7.89E-07 7.44 E-05" ' ikh.I.42_ 1.35Eh,11.

                              ,_}   9.73E-15    "7.555255~ [ No.6ata
                                                                            '"f.87E-15          4.44E-07       7.41 E-_1_01 La-140         1.74E-07           6.08E-08_     2.04E-08 i No Data            No Data          4.94E-05       6.10E-05 "I'5 Ii1"" ~I 2.28E-09_ 5.31 E-10                 1.15E!id~ ~!"Sidata           No Data          4.48$-06       4.375255 "

"i'a-142 i' 3.50E-10 l"I'.II5-I6" 3.495255"~"i"No Data INo Data 2.355-06 2.055!65 " ~d5I141 f 1.06E-05 T5'.555 55 7.83E-07 I"No Data I' 2.31 E-06 ^ 1.475 04 1.555!55~ Ce 143_

             ' 9.895" 5~""'"5'.5fE-08            7.775f65[]"No"65is' ] 2.26E _08                3.12E-05_      3.44E-05 Ce-144         1.83E-03           5.72E-04      9.77E-05          No Data   l 3.17E-04         3.23E-03        1.05E-04 "5r-143          4.995-d5           1.505-06      2.475-6f' ~[i No Data         57555-07          1.175 54      2.63E-05 b 144         ["I5I511              4.99555"     "5.id5-35~"i" Nib 5i5""l[""5.64E-12             4.235-07       5'.555-08 "Nd-147       I"2.92E-06 ~ 2.36E-06               1.84E-07 '"NiUAti "I1.30E-06 ' 8.87E-05                       2.255 65" Pm-147      I'5.52E-04            2.525 U5      1.36E-05          No Data  i*~4.45E-05         2.20E-04       5.70E-06 fm-148m ((5l55.5"U5"~l"5.555-06                   6.55E}06 ' No Data            9.74E"d5          5.755 64      3.5852U5" Pm-148      !_1.61 E-06.,,_]_1.94 E-07_         1.25E-07 ,,No Data         ,. 3.30E-07 ,,.1.24E-04            6.01 E-05_

Pm-149 _ _{ 1.47E-07 j_1.56E-08 8.45E-09 [No Data [ 2.75E-08 __ 2.40E-05 _ ,,2.92 E-05 ,,, Pm-151 ["3.57E-08 4.33E-09 2.82E-09 l No Data ! 7.35E-09 1.24E-05 2.50E-05 ~5m-151 5:14E-04 4.755"05 1.49E-05 I"Ni6ata I"T.555 55 1.48E-04 3.435 55"~ l l 5m-153_ , 7.24 E-08_,.}. 4.51 E-08 4.35E-09_ [ No 6Ai5$ ~[1.375[08_,,1.37E-05 1.87E-05" ..E.9 .152 1 1.61 E-04 .No Data 5.73E-04 9.00E-04 1.14E-05 ...E.y;154 f_2,7.42E-04__] 74E-03 __j 2.49E-04 1.37E-042.27E-04__,.No Data _ 1.09E-03 2.98E-05 _1_.66 E-03 _ ..Eu-155 [ 5.60E-04 _ j.,4.05E-05 _ 3.18E-05 J.No D_ata 1.51 E-04 2.79E-04 _5.39E-05 Eu-156  ! 7.89E-06 4.23E-06 8.75E-07 i No Data 2.72E-06 2.54E-04 4.24E-05 ~TE160 i 7.79E-05 No Data 9.675 65~ ~i"No Data 2.32E-05 5.34E-04 2.28E-05 "ilo-166m 1.345-03 2.815-04 2.375 65~ 'i"No Data "d:655 d3 1.135-03 1.63E-05 W-181 - 2.66..E .08...... . 6.525"09

                                       .         8.99E-10 [ N.o.. Data '"Nibata
                                                                 ...                             5.71 E. 2.61 E-07

[I57 [._4.41 E-09_ 12.615-09 1.17E-09_,,,i__No Data (No Data 3.18E-03 1.11E-d5 2.46E-05._ _P.b 21_0 [8.03E-02 1.85E-02 [ No Data 6.31 E;02,,,,,_,, 8.74 E-02 1.55E-06 . Bi-210_ _ 9.85E-07 5.11 E-06 5.65E-07 No Data 5.76E-05 3._70E-03_ 3.21 E-05 Po-210 1.70E-03 2.76E-03 4.09E-04 No Data 8.85E-03 1.05E-01 4.32E-05 [Ra-223 I"7:555-di~~i 8.89E-07 1.54E-04 [SAUAtE~ i,,2 36E-05 l 8.48E-02 3.005^65~ ..Ra;,224 8.44E-05_ 1.53E-07 1.69E _05__ [.No Data 4.06E-06 2.92E-02 _ 3.34 E-04_ . Ra 225 1.28E-03 1.14E-06 2.56E 04 i No Data 3.02E-05 9.74E-02 2.84E-04 "Ra-226 I"5555-dI"~i"7.55$-06 1.92E-01 ["Nibiti~ '"5:U55 64 3.90E-01 3.02E-04 Ra-228 i 1.49E-01 I"5.535-06 1.685 55" '"No Data 1.04E"64 5.37E-01 5.14E-05 W Data presented in this Table are from Reference 9. A-21

PNPS-ODCM Rev. 8 TABLE A-13 (continued) INHALATION DOSE FACTORS FOR CHILDN mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung Gl-LLI Ac-225 1.81 E-03 _ _ 1.87E-03 1.21 E-04 ,} No Data . j 1.99E-04 7.37E-02 2.67E-04 Ac-227 4.96E+00 8.05E-01 3.07E-01 l No Data 1.77E-01 8.04E-01 5.22E-05 Th-227 , 9.24E-04 1.26E-05 2.67E-05 I No Data _ , 6.67E-05 } 1.26E-01 3.49E-04 Th-228 [ 8.06E-01 1.04E-02 2.72E-02 { No Data },5.41E 02 3.34E+00 3.59E-04 Th 229 2.18E+01 5.74E-01 3.63E-01 i No Data 2.83E+00 1.08E+01 4.99E-05 Th-230 3.30E+00 l~1.735-01 9.20E-02 [ No Data 8.52E-01 1.85E+00 3.84E-05 Th-232 3.68E+00 1.47E-01 1.28E-03 No Data 7.28E-01 i'1.77E+00 3.27E-05 Th-234 6.94E-06 3.07E-07 2.00E-07 No Data { 1.62E-06 I 6.31 E-04 7.32E-05 Pa-231 [ 8.62E+00 2.86E-01 3.43E-01 i No Data 1.56E+65~i 1.92E-01 4.57E-05 "iE233 4.14E-06 6.48E-07 7.25E-07 j..No Data , 2.38E-06 ' 9.77E-05 8.95E-06 U-232 2.19E-01 No Data 1.56E-02 j No Data 1.67E-02 7.42E-01 4.33E-05 U-233 i 4.64E-02 } No Data 2.82E-03 No Data 7.62E-03 ~ 1.77E-01 4.00E-05 U-234 ' 4.46E-02 ' No Data 2.76E-03 No Data 7.47E-03 1.74E-01 3.92E-05 U-235 4.27E-02 No Data 2.59E-03 No Data

• 7.01 E-03 1.63E-01 ~

4.98E-05 U-236 4.27E-02 "SiiData 2.65E-03 i No Data 7.16E-03 l 1.67E-01 3.67E-05 U-237 1.575-07 . No Data 4.17E-08 i No Data 4.53E-07 3.40E-05 1.29E-05 U-238 I 4.09E-02 i No Data 2.42E-03 i No Data i 6.55E-03 1.53E-01 3.51 E-05 Np-237 "2.72E+00 i 1.62E+00 1.19E-01 i No Data i 7.41E-01 l 1.74E-01 5.06E-05 jp-238 ,1.26E-06 } 2.30E-07 ,,_1.97 '-08 [ No Data [ 8.16E-08]3.39E-05 2.50E-05 Np-239 { 1.26E-07 i 8.14E-08 6.35E-09 ! No Data } 2.63E.-08 .[.1.57E-05 1.73E-05 Pu-238 { 2.55E+00_____l 1.60E+001.21 E-01 No Data { _4.47E-01 6.08E-01 4.65E-05 Pu-239 { 2.79E+00 1.68E+00 1.28E-01 No Data i 4.78E-01 5.72E-01 4.24E-05 Pu-240 l 2.79E+00 1.68E+00 _ l 1.27E-01 No Data 4.77E-01 5.71 E-01 4.33E-05 Pu-241 [ 7.94E-02 1.75E-02 } 2.93E-03 , No Data ,1.10E-02 ., 5.06E-04 8.90E-07 Pu-242 .2.59E+00 ~ 1.62E+00 1 1.23E-01 i No Data i 4.60E-01 1 5.50E-01

                                                                                 ~

4.16E-05 Pu-244 3.02E+00 1.85E+00 I31E-01 i'No Data [5.27E-01 6.30E-01 6.20E-05_ _ Am-241 2.97E+00 1.84E+00 i 1.24E-01 i No Data 7.63E-01

• 2.02E-01 4.73E-05 Am-242m 3.07E+00 1.76E+00 " 1.27E-01 No Data 7.71 E-01 8.14E-02 5.96E-05 Am-243 l 1.78E+00 1.20E-01 No Data i 7.42E-01 1.92E-01 5.55E-05 Cm-242 { 9.48E-02 2.94E+00 15.68E-02 4.20E-03 No Data 1.34E-02 1.31 E-01 5.06E-05 Cm-243 [ 2.32E+00 } 1.42E+00 9.95E-02 i No Data 3.74E-01 } 2.10E-01 4.98E-05 Cm-244 i 1.94E+00 I 1.18E+00 8.31 E-02 I No Data 3.06E-01 1 2.02E-01 4.82E-05 Cm-245 ' 3.05E+00_ } 1.84E+00 1.28E-01 [ No Data { 5.03E-01 l 1.95E-01 4.49E-05 Cm-246 3.02E+00 1.84E+00 1.28E-01 i

                                                                   } 5.03E-01 l 1.99E-01        4.41 E-05 Cm-247     I 2.94E+00          1.82E+00     1.26E-01   [ No NoData Datai 4.95E-01 I 1.95E-01 5.80E-05 Cm-248      i 2.455+01 '{ 1.50E+01 1.04E+00              No Data   { _4.08Ei00 i 1.6_1 E+009.35E-04 Cf-252      i 2.18E+00 i No Data           9.33E-02      No  Data   i No Data     i 6.62E-01    1.84E-04 m Data presented in this Table are from Reference 9.

A-22

PNPS-ODCM Rev. 8 TABLE A-14 INHALATION DOSE FACTORS FOR INFANTU) mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI H3 j No Data 2.63E-07 j,j2.63E-07 2.63E-07 ! _2.63E-07 2.63E-07 2.63E-07 Be-10 [ 9.49E-04 1.25E-04 2.65E-05 No Data 1.49E-03 1.73E-05 { No Data C-14 l 1.89E-05 3.79E-06 3.79E 06 i [ 3.79E-06 _ [ 3.79E-06 3.79E-06 3.79E-06. . ., N-13 }_4.39E-08 l 4.39E-08 4.39E-08 l 4.39E-08 l 4.39E-08 4.39E-08 4.39E-08 F 18 [ 3.925.-06 ' No Data __ 3.33E-07 j No Data JNo Data _ _ [No Data 6.10E-07 Na-22 [ 7.37E-05_ , 7.37E-05 7.37E-05 [7.37E-05_ j 7.37E-05 j 7.37E-05 7.37E-05 Na-24 7.54E-06 _ j 7.54E-06 7.54E-06,,,j 7.54E-06 j 7.54E-06 7.54E-06 7.54E-06 P-32 1.45E-03 j 8.03E-05 5.53E-05 No Data No Data 1.15E-05

                                                                       !.No Data Ca-41        , 7.48E-05 j No Data           8.16E-06 , No Data                         6.94E-02    2.96E-07
                                                                       ! _No Data Sc-46       '1 3.75E-04 l 5.41E-04          1.69E-04      No Data       3.56E-04       No Data     2.19E-05 Cr-51          No Data     I No Data        6.39E-08      4.11 E-08     9.45E-09       9.17E-06    2.55E-07

_Mn-54 No Data ' 1.81E-05 3.56E-06 ] No Data ,. 3.56E-06 j 7.14E-04 _ 5.04E-06 Mn-56 No Data 1.10E-09 l 7.86E-10 8.95E-06 5.12E-05 1.58E-10 [ No Data Fe-55 1.41 E-05 _ , 8.39E-06 7.82E-07 2.38E-06 [ No Data [ No bata ., 6.21 E-05 Fe-59 9.69E-06 ,l 1.68E-05 6.77E-06 I No Data l No Data 7.25E-04 1.77E-05 Co-57 I'No Data l 4.65E-07 4.585-07 i No Data i No Data 2.7M-04 3.47E-06 Co-58 [ No Data i 8.71E 07 1.30E-06 No Data i No Data #5'.'5t . I 7.95E-06 -

~do-60         '"NEData      l~5555-06        8.41E-06" ~["No Data i              I No Data        3.22 Es .,  2.285-05 Ni-59          1.81 E-05 ^l 5.44E-06 l 3.10E-06 {"NibAtA~ ~I No Data                   5.48E-05    5'.5i526f~     l Ni-63          2.42E-04       1.46E-05      8.29E-06 ~ I No Data      [ No Data    } 1.49E-04      1.73526E" Ni-65        I 1.71 E-09      2.03E-10      8.79E-11      No Data     '"No Data    ' 5.80E-06      3.585265~ ~
"U554         I No Data 1.345-09      5.53E-10      No Data       2.84E-09       6.64E-06    1.07E-05 ~     ,

Zn-65 1.38E-05 4.47E-05 2.22E-05 [ No Data }"5'.555-05 4.62E-04 3.67E-05 Zn-69m 8.98E-09 I 1.84E-08 1.67E-09 i No bata l'7.45E-09 1.915-05 2.92E-05

" n-69         [ 3.85E-11 } 6.915-11 5.135!i5 i No Data        !"2.87E-11 i 1.05E-06 9.44E-06 Se-79          No Data        2.25E-06      4.20E-Of' ~[ No Data        2.47E-06 l"5'.5E5-04       3.4656E"
~5r-82           No Data        No Data    l~E.49E-06 I"Nibsta            No Data        No Data     No Data Br-83        [ No Data _ },,N,o Data     l 2.72E-07 _ i No Data       i _No Data   .,, No Data     No Data Br-84        I No Data      i No Data       2.86E-07 i No Data          No Data        No Data     No Data i

Br-85 {"No Data No Data 1.465-08 [ *No Data No Data No Data No Data [,hb-86 No Data 1.36E-04 6.30E-05 No Data _ ,,j No Data 7,"No Data 2.17E-06 Rb-87 No Data 7.11 E-05 2.64E-05 No Data 1 No Data l^ No Data 2.99E-07 "iE58 [No Data 3.98E-07 2.05E-07 i No Data No Data 2.42E-07 _ No [_No Data Data

. .Rb-89       {_ No Data       2.29E-07      1.47E-07                    No Data        No Data     4.87E-08 Sr-89        1 2.84E-04       No Data       8.15E-06 i No Data                      ,1.45E-03      4_._57E-05
. .Sr-90       [ 1.11 E-02      No bata       2.23E-04 "No Data        j _No No DataData 8.03E-03       9.36E-05 Sr-91        1 6.83E-08       No Data       2.47E-09      No Data     i No Data        3.76E-05    5.24E-05 Sr-92        [ 7, joe-09 ] No Data       ., 2.79E-10 _ , No Data      { No Data        1.70E-05    1.00E-04 Y-90         l 2.35E-06       No Data       6.30E-08      No Data       No Data        1.92E-04    7.43E-05 Y-91 m       i 2.91E 10

• No Data 9.905255~~[ No Data No Data 1.99E-06 1.68E-06 Y 91 [120E-04 No Data l 1.12E-05 ,,No Data ,,[No Data [ 1.75E-03 5.02E-05 Y-92 i 1.17E-08 No Data 3.29E-10 i No Data j No Data l 1.75E-05 9.04E-05 I Y-93 IIlU7E-07 No Data 2.91526E~I No Data i No Data I 5.46E-05 1.19E-04 03 Data presented in this Table are from Reference 9.

A-23

PNPS-ODCM Rev. 8 TABLE A-14 (continued) INHALATION DOSE FACTORS FOR INFANTN mrom/pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI

  ...ZE93, ,            2.24E-04 j ,9.51 E-06       6.18E-06       ,,No Data      ! 3.19E-05___ __j 1.37E-04   1.48E.-06 Zr-95               8.24 E-05 l 1.99E-05        1.45E-05           No Data      2.22E-05        1.25E-03   1.55E-05 "Ei-b                 1.07E-07 I 1.83E-08         8.36E-09

• No Data 1.85E-08 7.88E-05 1.U0E-04 Nb-93m I"I"38E-04 i 3.555265"~"I.I5E-05 No Data 3.68E-05 2.09E-04 2.47E-06 Nb-95 [ 1.12E-05 ' 4.59E-06 2.70E-06 No Data { 3.37E-06_ ' 3.42E-04 9.05E-06,,_,

Nb-97  !.2.44E 10 ,,,5.21 E 11 1.88E-11 ,,,N,o, Data { 4.07E-11 .,,2.37E-06 1.92 E.-05 ,__

  .,Mo-93           [_No Data       I 6.46E-06      2.22E-07 !_ No Data           { 1.54E-06        3.40E-04   3.76E.-06 Mo-99            I No Data     I 1.18E-07       2.31 E-08 ! No Data           l 1.89E-07        9.63E-05   3.48E-05 Tc-99m          [9J8E.-13          2.06E-12     2.66E-11"""}"No Data i 2.22E _11                5.79E-07   1.45E-06 Tc-99           { 2.09E-07         2.68E-07     8.85E-08           No Data    i 2.49E-06        6.77E-04   7.82E-06 Tc-101

• i 4.65E-14 T 5.88i-14 5.80E-13 No Data I 6.99E-13 4.17E-07 6.03E-07 Ru-103 1.44E-06 i No Data 4.85E-07 i No Data [ 3.03E-06 l 3.94E-04 1.15E-05

[Ru-105 8.74E-10 ' No Data 2.93E-10 [ No Data j 6.42E-10 ' 1.12E-05 3.465"65~ Ru-106 [. 6.20E-05 No Data 7.77E-06 [No Data i _7.61 E-05 8.26E-03 1.17E-04 Rh-105 8.26E-09 , 5.41 E-09 3.63E-09 No Data 1.50E-08 2.08E 05 1.37E-05

  }d-107                No Data      I 4.92E-07    ~4.11 E-08

• No Data 2.755-06 6.34E-05 7.3352Uf~

Pd-109 ~ No Data i 3.92E-09 1.05E-09 No Data i 1.28E-08 ~ 1.68E-05 2.85E-05 A -110m 7.13E-06 l"5.16E-06 l 3.575-06 No Data i 7.80E-06 2.62E-03 2.36E-05

  ~ g-111 g                 3.75E-07 I 1.45E-07         7.75E-08           No Data    I"5:U55-07

• 2.06E-04 3.02E-05

  ~5d113m j No Data [ 6.67E-04 2.64E-05 i,No Data [5.80E-04 1.40E-03   1.65E-05 Cd-115m          i No Data       i 1.73E-04     6.19E-06           No Data    i 9.41E-05        1.47E-03   5.02E-05 "Sn-123           i 2.09E-04 l~ 4.21E 06          7.28526E"-[l 4.27E-06 i No Data                 2.225-03   4.085265" Sn-125           i 1.01 E-05       2.51 E-07    6 00E-07 *"5.375-67"~i No Data l"E.255-04                  7.265265~
  "5n-126            I 8.30E-04         1.44E-05    3.52E-05           3.84E-06 I No Data         l 4.93E-03   1.555265~

Sb-124 i 2.71E-05 } 3.97E-07 8.56E-06 I 7.18E-08 i No

• Data i 1.89E-03 4.22E-05 Sb-125 f5.69E-05 3.41 E-07 I 7.78E-06 i' 4.45ELO8 { No Data 1.17E-03 1.05E-05 Sb-126 I 3.08E-06 6.01 E-08 1.11 E-06 No Data 6.88E-04 5.33E-05

   ..S.b _127 Te-125m i 2.825-07_,, 5.04E-09 j 3.40E 06 ] 1.42E-06 8.76E-08       {(2.35E-08 4.70E-07 l 1.16E-06 5.60E.-09    No Data No Data l_1.54E-04 j' 3.19E-04 3.78E-05 9.22E-06 Te-127m          I 1.19E-05 j,,4j3E-06          1.48E-06 f5:355"UE"[2.68E-05 9.37E-04                      1.955265~

Te-127 1 6.81 E-10 3.49E-10 1.32E-09 ! 3.47E-09 7.39E-06 1.74E-05 Te-129m [ 1.01

1. 59E-09 E-05 4.355-06 1".555265 3.915"di~I"E.535 55~ "l 1.20E-03 4.93E-05 Te-129 I 5.63E-11 2.48E-11 l~ 1.34E-11 i 4.82E-11 I"1.25E-10 l 2.14E-06 1.88E-05 Te-131m l 3.93E-08 2.59E-65""~~ 6.38E-08 I 1.89E-07 I 1.42E-04 8.51 E-05 Te-131 Te-132

[f 7.62E-08 1.24E-11 } 5.87E-12 2.66E-07 l 1.69E-07 3.57E-12__ ,1.13E-11 l 2.85E-11 1.26E-07 l *1.99E-07 j~7.39E-07 1.47E-06 2.43E-04 5.875'~6E" 3.15E-05

  ~ Te-133m             6.13E"If~"I 3.59E-11        2.74E-11           5.52E-11
                                                                           ~

1.725-10 } 3.92E-06 1.59E-05 Te-134 ,,3.,18E-11__h04E.-11 1.68E-11,.,, ,,,. 2.915-11 9.59E-11 ] 2.93E-06 2.53E-06 l129 l 2.16E-05 } 1.59E-05 1.16E-05 i 1.04E-02 1.88E-05 ! No Data 2.12E-07 l-130 ,_,,,,,{ 4.54E-06_ j 9.91 E-06 3.98E-06~[I.I55"d{I"I.d55-05 j No Data 1.42E-06 l l-131 l 2.71E-05 j ,3.17E-05. 1.40E-05 _ _ !.,1.06E,-02, j. 3.70E-05 j No Data 7.56E-07 ! l-132 i 1.21E-06 ! 2.53E-06 8.99E-07 1.21 E-04 i 2.82E-06 No Data 1.36E-06 l 1-133 i' 9.46E"66~I 1.37E-05 4.005-06 2.545-03 I"1.60E-05 No Data " 1.54E-06 l-134 j"E.555-d ~[1.34E-06 j 4.75E-07 [ 3.18E-05 i 1.49E-06 _ _ , No Data 9.215"6f" l-135 1 2.76E-06 i 5.43E-06 1 1.98E-06 i 4.97E-04 i 6.05E-06 ! No Data 1.31 E-06

• Data presented in this Table are from Reference 9.

I l I A-24

i PNPS-ODCM Rev. 8 TABLE A-14 (continued) INHALATION DOSE FACTORS FOR INFANTW mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI

 ...Cs;,134 n  [1.32E-07_ j 2.10E-07         1.11 E-07 [No Data           j ,8.50E-08   j,2.00E-08      1.16 F -07,._,

Cs-134 1 l 5.02E-04 5.3?E-05 [ No Data 1.36E-04 5.69E-05 9.53E-07 _Cs-135 [2.83E-04 1.00E-04 } 8.665-05 4.73E-06 !"N5'bata ,, 2.58 E-05 1.01 E-05 2.1,_8E-07

  .Cs 136      ! 3.45E-05 ' 9.61 E-05        3.78E-05 !,No Data           [4.035-05         8.40E-06    1.02E-06 Cs-137      { ,3.92E-04        4.37E-04   3.25E-05 [No, Data           1 1.23E-04 ,      5.09E-05    9.53E-07,_
 .,C.s-138       __3.61 E-07 _ ,5.58E-07     2.84E-07 [No Data            j 2.93E-07. ,4.67E-08         6.26E-07 Cs-139         2.32E-07     .[ 3.03E-07   1.22E-07 l No Data              1.65E-07       2.53E-08    1.33E-08
 . Ba-139         1.065-09 } 7.03E-13        3.0f5-11 .I No Data         _, 4.23E'I'3       4.25E-06    3.64E-05 Ba-140

• 4.00E-05 1 4.00E-08 2.07E-06 I No Data j 9.59E-09 1.14E-03 2.74E-05

 ~5a-141          1.12E-1d"""i 7.705-14      3.55E-12 ['No Data              4.64E-14 l 2.12E-06        3.39E-06
 ~5a!IiE'        2.84E-11 ["5.36E-14         1.40E. ,12,.[,,["AjData     ,1.36E-14 [1.115-06'           4.95E-_07        i La-140        3.61 E-07 l 1.43E-07        3.68E-08 i No Data           i              i 1.20E-04     6.06E-05         I La-141 La-142 i 4.85E-09 ' 1.40E-09
              }~ 7.36E-10         2.69E-10 2.455-55" [55'UE5~ "(Nc Data    No Data __ "I'.52E-05      5.965265" 6.46E-11      i No Data      ! No Data         5.87E-06    4.25E-05 Ce-141         1.98E-05 "l .19E-05        1.42E-06 i No Data           i 3.75E-06 l 3.69E-04         1.54E-05 Ce-143      , 2.09E-07 ., 1.38 E-07       1.585~U5" "[No. Data         ! 4.03E-08_ ' 8.30E-05_       3.5552U5""

Ce-144  ! 2.28E-03 8.65E-04 1.26E-04 i No Data i 3.84E 04 7.03E-03 1.06E-04 Pr-143 i 1.00E-05 3.74E-06 4.99E-07 [ No Data i 1.41 E-06 ' 3.095-04 2.665-05

 ~Pr-144       I"5"d55-11         1'555-11
                                    .        1.72E-12      [' No Data     I' 4.80E-12       1.15E-06    3.06E-06 Nd 147      I"5515-06 i 5.81E-06          3.57E-07 I"N5'bata           I' 2.25E-06       2.30E-04   "E.555265~
 ~5m-147       i 3.91E-04 l"5.5f5 05         1.56E-05""}"No Data          I"d'.555265~~~ 4.55E-04       5.75E-06 Pm-148m I5.dd5 d5"""I 1.24E-05            9.94E-06       'No Data      l 1.45E-05 1.225-03    3.37E-05 Pm-148      [ 3.34E-06 I"I'.555-07        2.44E-Of" ~No Data              5.76E-07       3.20E-04    6.04E! 65" Pm-149      I"i.10E-07 I"4.085-08         1.78E-08         No Data        4.965-08       6.50E-05    3.01 E-05
 ~5m-151       i, 7.52E-08_ _ } 1.10E-08_,   5.55E709,. ,,.I No Data      ,1.30E-08 ., 3'.555-05        2.58E-05 Sm-151      i 3.38E-04         6.45E-05   1.63E-05 _ [_ No Data        i                 2.98E-04    3.46E-06
 ...Sm-153     [ 1.53E..07,, .,,,,.1.18E-07  9.06E-0,9_,,j No Data        f,5.24E-05 2.47E-03 ., 3.70E-05       1.93E-05 Eu-152         7.83E-04        1.77E-04    1.72E-04 ! No Data          l 5.94E-04        1.48E-03    9.88E-06

[5'u-154 2.96.E-03 3.46E-04 3.05E-03 2.84E-05 2.455 54 {"No Data f.1.1.14E-03

 .,Eu-155      , 5.97E-04 . 5.72E-05         3.46E-05 L.No Data                 58E-04_.., 5.20E-04     5.19E-05 Eu-156      i 1.56E-05 l 9.59E-06         1.54E-06 i No Data              4.48E-06       6.12E-04    4.14E-05       .,

Tb-160 I"1.12E-04 I No Data 1.40E-05 [' No Data I"5 Ed5-05 1.11 E-03 2.14E-05 Ho-166m ] 1.45E-03 l 3.07E-04 2.51 E-04 I[N5 Data { 4.22E-04 _ l 2.05E-03 1.65E-05

 ..W-181       [4. 86E-08         1.46E-08    1.67E-09.. .,j No Data      j,No Data         1.33E7 05   2.63E-07. .,_

W-185  ! 1.57E-06 ,4.83E-07 5.58E.-03_,. ,No Data [No Data ., 4.48E-04 1.12E-05 W-187 [9.26E-09,, ] _6.44E-09 2.23E-09_ .,, No Data _,,1_ No Data j 2.83E 705 2.54E-05 Pb-210 [8. 62,E.-02 2.02E-02_ 3.43E-04.. ._LNo Data 6.85E-02 _ 1.76E-01 1.57E-06 Bi-210 I 2.06E-06 1.33E-05 1.18E-06 ! No Data 1.03E-04 9.96E-03 3.27E-05 Po-210 i"E.555"d5"""[ 5.63E-03 ~7.355-55]I N.o. Data., ,,[1.30E-02 "E.AU5[01 4.365 U5"~ Ra-223 [ 1.56E-03 1 2.26E-06 3.12E-04 1 No Data  ! 4.16E-05 2.25E-01 3.04E-04 la-224 [ 1.77'5"dd~]"5"Ud5-07 3.54E-05 [ No Data i[7.5d5-06 7.91 E.-02 3.42E-04

 ~Ra-225          2.57E-03        2.88E-06   5.13E-04 j No Data              5.31 E.-05     2.57E-01    2.87E-04 Ra-226         2.485-01     ,,1.46E-05    2.05E-01      ! No Data. .,. 2.94 E.-04 .,183E-01          3.05E-04 Ra-228         1.60E-01      ! 7.61E-06    1.80E-01     i No Data         1.53E-04 ! 1.09E+00        5.19E-05 N Data presented in this Table are from Reference 9.

I A-25

I PNPS-ODCM l Rev. 8 TABLE A-14 (continued) INHALATION DOSE FACTORS FOR INFANTW mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Ac-225  ! 3.69E-03 j _4.72E-03 2s48E. _04  !.No Data j 3.49E-04 1.96E-01 2.71 E-04 Ac-227 5.29E+00 i 8.76E-01 3.28E-01 No Data  ! 1.86E-01 1.62E+00 5.27E-05

 'Ys557            1.82E-03 I 3.03E-05          5.24E-05          No 65tA~ "I1.135"U4          3.27E-01     3.53E-04 Th-228     I"5.255265" ~l 1.10E-02 l 2.86E-02 I"No Data I"5.555 55"~i'4.65E+00            ~

3.62E-04 Yh-229 ((5.28E+01_ '"5.5I5265~~~ 3.81E ,01,il[._No Data I"9.32E-01 1.27E+01 5.025"U[5'[ Th-230 l 3.46E+00 1.79E-01 9.65E-02 1 No Data f 8.82E-01 2.18E+00 3.87E-05 Th-232

 'YE~234 I'I 1.33E-05 3.86E+00        f 1.53E-012.29E-03 i 7.17E-07 i No Data l 7.54E-01 l"2.09E+00 3.84E-07 I No Data i 2.705-06 ~l 1.625203 3.2952U5"'

7.405265"

 }a-231       '"5.iU5kU6[l[3.00E-05~ "I 3.62E-01 i No Data {[1.62E+00 ^"3.85E-01_                           4.61 E-05 Pa-233         6.84E-06        1.32E-06     1.19E-06 i No Data ! 3.68E-06                  2.19E-04     9.04E-06       .
 .U-232       ,,,2..,57E,:01. [..., No Data  ., 2.135265~ ~[,,No Data         ((,2.40E-02_     1.49E+00     4.36E-05 U-233     !.5.44E-02,,,,,j No Data          3.83E-03 i. No. Data ,..{.1.09E-02             3.56E.-01    4.03E-05 U-234          5.22E-02        No Data      3.75E-03 l No Data !' 1.07E-02                 3.49E-01     3.95E-05 U-235          5.015-02        No D"ata     3.52E-03 I No Data l 1.01 5-02
                                                                             ~

3.28E-01 5.02E-05 I U-256 i"5.655 d5~~i"N5' Data 3.60E-03 *"No Data 1.03E-02 ' 3.35E-01 3fiE265~

 "O-237       I 3.25E-07 I No Data              8.65E-08          No Data        8.0852d5      9.13E-05     1.3152U5"~

U-238 I' 4.79E-02 i No Data 3.29E-03 i No Data i 9.40E-03 3.06E-01 3.54E-05  ! Np-237 " 2.88E+05""I"I'Yi5s50 . 1.26E-01 INo Data 7.695265"~'"5.i55-01 5.1052U5~ I [Np-238 ,. 2.615:55"~].,6.05E-07 _ 4.16E-08 [Nibata 2.585265~

 ...Np-239    !. 2.65E-07_,. j,2.13E.-07 1.34E-08_ __ ,..No Data       , 4.73E-08_

1.47E-07.,, ,,}, 9.191.78E-05 _ _ 4.25E.-05 E-05

 ...Pu,:238                                     1.27E-01       !. No Data _ ,.,_4.64E-01       9.03E-01     4.69E-05 2.69E+00_.} 1.68E+00 Pu-239         2.93E+00 ! 1.76E+00          1.34E-01       ! No Data      i 4.95E-01       8.47E-01     4.28E-05 Pu-240    i 2.93E+00 i 1.755500             1.345201       i No Data      I 4.945"01 '"5.375-01         4.36E-05 Pu-241    I"8.43E-02 I 1.855-02          ^

3.115265~~i No Data I 1.15E-02 ^ 7.62E-04 8.97E-07

 ~Pu-242      I 2.72E+00 } 1.69E+00             1.29E-01       i No Data      I 4.77E-01       8.15E-01     4.20E-05 Pu-244    i 3.17E+00 ' 1.94E+00             1.4852Ul~~

• No Data i"5.255-01 9.33E-01 6.26E-05 Am-241 "5.I55+00 1.95E+00 1.31 E-01 No Data I' 7.94E-01 4.06E-01 4.78E-05 Am-242m , 3.25E+00 ,1.8655DUL 1.35E-01 ,[N5 6atA~ ~i 8.03E-01 } 1.64E-01 _ 6.01 E.-05_ j Am-243 i 1.88E+00 1.27E-01 i 7.72E-01 3.85E-01 5.60E-05

[ No Data Cm-242 ~[1.28E-01 3.10E+00 8.65E-02 5.70E-03 i No Data f 1.695-02 ~ 2.9752UI' "5.3552U5" Cm-243 I 2.47E+00 1.52E+00 1.06E-01 i No Data i 3.91E-01 4.24E-01 5.02E-05 "Dm-244 I 2.07E+00 !" . }'I'Ei5+00 8.89E-02 I No Data I 3.215-01 ~ 4.08E-01 4.86E-05

 ...Cm-245    I' 3.22E+00,i.}.,,1.96E+00 1.36E-01 "["N5 bata I.,5.235-01                3.92E-01_    4.555"65[,
  .,,Cm-246   !_3.20E+00           1.96E+00     1.36E ,01. ,,,,,,,i No Data                    3.99E-_01    4.45E-05

[ 5.23E-01 Cm-247 1 3.11 E+00 1.93E+00 1.33E-01 I No Data 5.15E-01 3.92E-01 5.85E-05 Cm-248 {' 2.58E+01,_,}.,1.595+01 1.10E+00 ["Nibata ,. 4. 24E+00 3.23E.+00 9.43E-04_ Cf-252  ! 2.37E+00 l No Data 1.01 E-01 i No Data  ! No Data 1.37E+00 1.85E-04 W Data presented in this Table are from Reference 9. l l l l r I A-26

PNPS-ODCM Rev. 8 TABLE A-15 INGESTION DOSE FACTORS FOR ADULTN mrem /pCi Ingested Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI H-3 No Data  ! 5.99E-08 ,,5.99E-08___ j 5.99E-08 j __5.99E-08 !,5.99E-08 j,,5.99E,08 Be-10 No Data 3.71 E-07 ! No Data 2.68E-05 3.18E-06 14.91E 07 { 7.94E-08 C-14 2.84E-0615.68E-07 i 5.68E-07 5.68E-07 5.68E-07 i 5.68E-07 5.68E-07 [,N-13 8.36E-09__ [8.365-09 i[5[._36E-09 l 8.36E-09 ]8.36E-09 [ 8.36E-09 {"5.36E-09 F-18 6.24E-07 No Data 1 j No Data j No Data  ! No Data {_1.85E-08 Na-22 1.74E-05 ,1.74 E-05 {,6.92E-08 1.74E-05  ! 1.74E-05 j 1.74E.-05 _ ! 1.74E-05 ! 1.74E-Na-24 1.70E-06 1.70E-06 i 1.70E-06 1.70E-06 l 1.70E-06 1.70E-06 ! 1.70E-06 P-32 1.93E-04 1.20E-05 I"Y.46E-06 No Difa~~l~S5"b'ata No Data I' 2.17E-05 [Da-41 1.85E;04_, .{.,No Data __ !,2.00E-05 , No data } No Data lI No Data I"I:535 di"~ Sc-46 5.51 E-09 ! 1.07E-08 3.11 E-09 ! No Data 9.99E-09 l No Data 5.21 E-05 Cr-51 No Data [ No Data

• 2.66E-09 }' 1.59E-09 5.86E-10 I"5:555-09 6.69E-07

[Un-54 No Data __ _ I.4.57E-06 _ !' 8.72E-07 i No data ).1.36E-06 {jN.o, Data., ,.I 1.40E-05 Mn-56 No Data  ! 1.15E-07 2.04E-08 No Data i 1.46E-07 ! No Data  ! Fe-55 2.755265] 1.90E-06 , 4.43E-07 ,_ No d'ata [No Data 1.06E.,06_[3.67E-06 1.09E-06 Fe-59 4.34E-06 l 1.02E-05 1 3.91 E-06 No Data  ! No Data 2.85E-06 3.40E-05 Co-57 No Data i 1.75E-07 l 2.91E-07 No Data l No Data No Data 4.44E-06 Co-58 No Data ["f.45E-07 i 1.67E-06 INo Data INo Data i' No Data I"I'.5I5:55~ *

"Do-60        No Data     i 2.145-06  4.72E-06 INo Data               I~S5"difi" "I No Data             4.02E-05 Ni-59       9.76E-06 I"535E-06
                               .             1.63E-06 I No Data            No Data    i No Data           6.90E-07 "Ni-63        1.305"6i~~i"5 dI5 65~ },4J6E-06] [,No., Data _ ..] No Data" "i"N5'bata                  {~i'.555:d5~

Ni 65 5.28E-07 6.86E-08._,.! 3.13E-08 l No Data j No Data [,,No, Data. 1.74E-06 Cu-64 No Data

• 8.33E-08 I 3.91E-08 i *No Data i 2.10E-07 l No Data 7.10E-06 "I5-65 4.84E-06 1.54E-05 6.96E-06 No Data j_1.03E-05 i' No Data 9.70E-06 Zn-69m 1.70E-07 _ ,_4.08E-07 , 3.73E-08, . ,. No. Data _,,_j _2.47E-07,,, J. No Data ..,2.49E-05_

Zn-69 1.03E-08 l 1.97E-08 l 1.37E-09 i *No Data

                                                                         ! 1.28E-08 i No Data         i 2.96E-09

[5e-73 No Data ' 2.63E-06 4.39E-07 No Data I [5.38E-07 Br-82 No Data No Data 2.26E-06 No Data '"I.555765~I..No No Data . No Data ' Data 2.59E-06

'Br-83        No Data _ {"No Data [ 4.02E-08 i No Data                  }, No, Data _,[No Data        [5'.755:d5~
..Br-84       No Data        No Data     {_5.21 E-08          No Data   j_No_ Data    i..No Data      !. 4.09E-13 Br-85       No Data _ _ ,._No Data     !.,2.14E-09 , No Data           j No Data _ ! No Data        !..No Data Rb-86       No Data      j 2.11E-05        9.83E-06         No Data    i No Data                        4.16E-06
                                                                                      } No Data Rb-87       No Data     I"i.23E-05         4.285-65"""}[No Data j              I. No Data    i No Data           5.76E-07 Rb-88       No Data      ! 6.05E-08        3.21 E-08 ! No Data         i No Data    i No Data           8.36E-19 "55255        No Data     ! 4.01E-08 '"E.555-55~~'"No Data 'No Data                   i No Data       i 2.33E-21 Sr-89       3.08526i~I No Data             8.84E-06         No Data      No Data    I"So Data       I~d.94E-05

[5r-90 8.71 E-03 [ No_ Data [1.75E-04,,, j,.No b5fa' j[N5'D5EA" ~["N5'65ta ' ~[2.19E-04 Sr91 5.67E-06 No Data i l No Data No Data No Data 2.70E-05 Sr-92 2.15526E"[i No Data { 9.30E-08

                                         *~

2.29E-07 I No DataNo 65EA' No Data "T.555 55~ Y-90 9.62526E"i No Data 2.58E-10 No Data '"N5'DhiA" No Data i 1.02Ildi" Y-91 m 9.095-11 I No Data 3.52E-12 ,__No Data , No D5ia _ , No Data., fl53536[ Y-91 1.41E-07_ _ ! No Data , 3.77E-09 j,.No. Data j No Data  !.No Data i 7.76E-05 Y-92 8.45Ei-10 [ No Data 2.47E-11 i No Data No Data _ _!.1.48E-05 I.,No Data Y-93 2.68E-09 i No Data 7.40E-11 No Data No Data No Data l 8.50E-05 m Data presented in this Table are from Reference 9. A-27

PNPS-ODCM Rev. 8 l TABLE A-15 (continued) ' INGESTION DOSE FACTORS FOR ADULTW mrem /pCi Ingested Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Zr-93 4.18E-08 [ 2.34E-09 ,,1.09E-09 __ ! No Data j 8.87E-09 [No Data 2.43E-06,,, Zr-95 3.04E-08 9.75E-09 6.60E-09 No Data i 1.53E-08 No Data 3.09E-05 "Er-97 1.685-09 '5 39E-10 1.555-10 No Data I5.12E-10 No Data I"I:55E265~

"N5-93m       2.55526E'i 8.32E-09 I"5.055-09 i' No Data                     I"5?515-09 i No Data       ["5555-06
..Nb-95       6.22E-09_],"5"d55]d5[.(("i. 86E;09[,.,j"N5' data          _

3.42E-09 [No Data _ _I"5?id5"d5~ _Nb-97 5.22E-11_ _ ;,_1_.32E-11 [.4.82E-12 [No Data , ,1.54 E-11 _ ; No Data [ 4.87E-08

. Mo-93       No Data       } 7.51E-06 !,2.03E-07               No Data        2.13E-06_ _ l No_ Data     1.22E-06. .

Mo-99 No Data  ! 4.31E-06 i 8.20E-07 No Data 9.76E-06 i_No Data 9.99E-06 Tc-99m 2.47E-10 i'6.98E-id~ "I 8.89E-09 TNo Data I1.06E 08 I"5:42E-10 i 4.13E-07

..Tc-99       1.25E-07 _ ["1.86E-07 Tc-101       2.54E-10 l 3.66E-10 1            { 3.59E-095.02E'd5~ '"N5'U5t3~ } 2.34E-06 I" No Data     i 6.59E-09 i 1.87E-10 l 1.10E-21

[Eiu-103 1.85E-07 ((No Data ["f 5fEld5~~j"N5'U5t3~ ~I' 7.06E-07 ["No Data [. 2.16E-05 Ru _105 1.54E-08 [,,No Data No Data _ _ [1.99E-07 i No Data { 9.42E-06_ [6.08E-09 l _Ru-106 _ 2.75E-06 [,No Data _ ! 3.48E-07 _ , No Data j 5.31E-06 [N_o Data [ 1.78E-04_  ; Rh-105 1.21 E-07 8.85E-08_ 5.83E-08 No Data 3.76E-07 No Data 1.41 E-05 Pd-107 No Data 1.47E-07 9.40E-09 No Data 1.32E-06 No Data 9.11 E-07 l

. Pd-109      No Data _ ['1.77E-07 i,3.99E-08,.,,j[S.o Data                 I~5?655266" I~No Data      [i.555-05
..Ag:110m     1.60E-07 _ ! 1.48E-07__                           No D.a.ta      2.91 E-07 ! No Data       6.04E-05
. Ag.;111     5.81 E-08 _ _ I_2.43E-08_j
                                               ! 1.21 E-08 8.79E-08
                                                             , .No Data _ ,, 7.84 E-08 [No Data . ,4.46E-05,,,
.,Cd-113m     No Data _ _ [ 3.18E-06 ! 1.02E-07_ [No Data                   i 3.50E-06_ [No Data       i 2.56E-05_
.,C.d-115m    No Data _ _ !,1.84E-06              5.87E-08      No Data        1.46E-06 i No Data         7.74E-05_

Sn-123 3.11 E-05 l 5.15E-07 7.59E-07 4.38E-07 No Data

• i No Data 6.33E-05 Sn-125 8.33E-06 1.68E-07 i' 3.78E"U ~ '"1.395 57" ~~No Data No Data " 1.04 E-04

~~5n-126      8.45E-05           1.6fE-d5"~I"5"ddE206

• 4'.555-07 No Data No Data 2.43E-05 Sb-124 2.8052U5~ [' 5.29E-08 I 1.11 E-06 6.79E-09 ENo Data i 2.18E-06 I"i.95E-05

. Sb-125     $1.79E-06__ '"5 dd5 d5]i.,4.26E-07                 1.82E-09       No Data     [ 1.38E-06     1.97E-05 Sb-126      1.15E-06           2.34E-08 i 4.15E-07            7.04E-09       No Data      i 7.05E-07    9.40E-05 Sb-127      2.58E-07 _ _ [5.65E-05~ I 9.90E-083.105 d5"""j No Data '[.1,.53E-07 I"5;56.5{d5[

Te-125m 2.68E.-06 [ 9.71 E-07 13.59E-07 8.06E-07 j 1.09E-05 No Data [ 1.07E-05 l Te-127m 6.77E-06 i 2.42E-06 I 8.25E-07

• 1.73E-06 l 2.75E-05
• No Data l 2.27E-05 "Yi'I57 1.10E-07 [ 3.95E-08 2.38E"U5~ ~ 8.15E-08 I"ii8E-07 No Data ["5'555-55~

Te-129m 1.15E-05 I"d.555-06 1.825"06 3.95E-06 I2?565-05 No Data I 5.79E-05 [.[e"I55" 3.14E"6E"},L18E-05((i[7.65E-09_j' 2.41 E-08___ }' 1.32E-07 I"No Data I"5'575"d5~. Te-131m 1.73E-06 i 8.46E-07 i 7.05E-07 1.34E-06 i 8.57E-06 No Data 8.40E-05 "Te-131 1.975-08 I"5 555-65~~I"5'555-09 . 1.62E-08 i 8.63E-08 No Data 2.795-d5~

"Ye-132       2.52E-06 i 1.63E-06 i 1.53E-06 i' 1.80 E-06" "l~i?515265" ~i"N5" Data                       7.71 E-05 T.e-133m    4.62E-08 I"2.705[d5~[ 2.60E-08 [3.91E-08 _ [ 2.67E;07 ..] No Data                        I[,9.26E-09 Te-134      3.24E-08 ! 2.12E-08 1 1.30E-08 12.83E-08_ i 2.05E-07 ' No Data                              3.59E-11 1-129       3.27E-06 i 2.81E-06 " 9.21 E-06 i[7.23E-03 "~6.045-06 ""N5'65fa                          { 4.44E-07 l-130       7.56E-07 I 2.23E-06                 8.80E-07 I 1.89E-04          3.48E-06       No Data  i 1.92E-06 1-131       4.165265""[ 5.95E-06 i',Mi[5 55 i~5[.95.E-03. ) 1.02E-05 ["N5'65ta                       !"i .57E-06
...I:.1.32 _                                   [1.90E_-07       1.90,E-05_,_j 8.65E-07 ! No D,ata         1.02 E.-07 l133        2.03E-07_

1.42E-06 __

                                    ,},l. 5.437.53E-07

2. 47E-06,_,, E-07 ,_3.63E-04 i 4.31E-06 _ [ No Data ,. 2.22 E-06 l-134 1.06E-07,,,j 2.88E-07 ,,1.03E-07 4.99E-06_ j. 4,.58E-07 i No D,ata

                                                                                            ,          !. 2.51 E 10_

l-135 4.43E-07 ! 1.16E-06 i 4.28E-07 7.65E-05 i 1.86E-06 i No Data i 1.31E-06 N Data presented in this Table are from Reference 9. A-28

PNPS-ODCM Rev. 8 TABLE A-15 (continued) INGESTION DOSE FACTORS FOR ADULT (" mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Cs-134m 2.13E-08 ! 4.48E-08 } 2.29E-08 j No Data j,.2.43E-08 ! 3.83E-09 { 1.58E-08 Cs-134 6.22E-05 l 1.48E-04 {,1.21 E-04 i No Data i 4.79E-05  ! 2.59E-06 Cs-135 1.95E-05 _ I 1.80E-05 *l 7.99E-06 I No Data l 6.81E-06 l[ 2.04E-06 1.59E-05_____ i_4.21E Cs-136 6.51E-06 j 2.57E-05 !_1.85E-05 i, No Data j _1.43E-05 ,i 1.96E-06 [ 2.92E-06 Cs-137 7.97E-05 1.09E-04 } 7.14E-05,,_,i No Data j_ 3.70E-05 !,1.23E-05 1,2.11 E-06 Cs-138 5.52E-08 1.09E-07 ! 5.40E-08 [No_ Data j 8.01E-08 [7.91 E-09 j_4.65E-13 Cs-139 3.41 E-08 _ I 5.08E-08 1 1.85E-08 ! No Data j 4.07E-08 3.70E-09 1.10e-30 Ba-139 9.70E-08 I 6.91 E-11 l 2.84E-09 l No Data ~ I 6.46E-11 3.92E-11 1.72E-07 Ba-140 2.03E-05 i 2.55E-08 ,i 1.33E-06 [ No Data j 8.675-09 [,1.46E-08 i 4.18E-05 Ba-141 4.71 E-08 l j 3.31E-11 42.02E-11 1 2.22E-17 Ba-142 2.13E-08

• 3.56E-11 2.19E-11 } 1.59E-09 1 1.34E-09
• No DataI _No Data 1 1.24E-11 I 3.00e-26 l 1.85E-11 La-140 2.50E-09 { 1.26E-09 I 3.33E-10 ! No Data j No Data i"No Data j 9.25E-05 La-141 3.19E-10 9.90E-11 { 1.62E 11 j_ No Data j, No Data I La-142 1.28E-10 5.82E-11 1 1.45E-11 l No Data ! No Data f.No
• Datai 4.25E-07 No Data _ [ 1.18E-05

 ~5e-141       9.36E-09      6.33E-09  7.18E-10 i No Data i 2.94E-09                No Data   i 2.42E-05 Ce-143       1.65E-09      1.22E-06       1.35E-10 i No Data I 5.37E-10             No Data   f 4.56E-05
 ,,Ce-144      4.88E-07((i 2.04E-07 [ 2.62E-08 ._ j,,No , Data      [ _1.21E-07 j No Data       i 1.65E-04 Pr-143       9.20E-09 l                l             i No Data         2.13E-09 ! No Data     !

Pr-144 3.01 E-11 _ 1.25E-11 [ 3.69E-09 i 4.56E-10 i 1.53E-12 No7.05E-12 Data _ I No Data I,,4.03E-05 4.33E-18

                                                       ~

Nd-147 6.29E-09 i 7.27E-09 i 4.35E-10 No Data i 4.25E-09 i No Data { 3.49E-05 Pm-147 7.54E-08 [7.09E-09 ! *' 2.87E-09 No Data }[,1.345-08 i No Data [ 8.93E-06 Pm-148m 3.07E-08 [ 7.95E-09 ! 6.08E-09 , No Data j _1.20E-08 _ { No Data {,6.74E-05 Pm-148 7.17E-09 15.99E 10 No Data No Data 19.35E-05 1.19E-09 _ I,8.78E-11No Data (2.25E-09 Pm-149 1.52E-09 2.15E-10  ! 4.06E-10 No Data I 4.03E-05 Pm-151 6.97E-10 i 1.17E-10 i 5.91E-11 i No Data _] 2.09E-10 ((No Data [3.225-05 Sm-151 6.90E-08 I 1.19E-08 i 2.85E-09 i No Data i 1.33E-08 No Data j 5.25E-06 Sm-153 8.57E-10 [ 7.155 I6~f 5.22E-11 } No Data["2.31 E-10,,,No Data  ! 2.55E-05

 ,,Eu-152      1.95E-07 ! 4.44E-08 } 3.90E-08 j No Data j,2.75E-07 _ {,,No Data
                                                                                                ! 2.56E-05 Eu-154      6.15E-07                                             j 3.62E-07__ [ No Data         5.48E-05 7.56E-08 [ 5.38E-08 __ l No Data Eu-155      8.60E-08_ ,1.22E-08 { 7.87E-09 j No Data                  5.63E-08 ! No Data     , 9.60E-06 Eu-156      1.37E-08      1.06E-08       1.71 E-09 ! No Data          7.08E-09     No Data   l 7.26E-05 Tb-160       4.70E-08      No Data        5.86E-09 j No Data           1.94E-08     No Data   I"4.33E-05 Ho-166m     2.70E-07 ["8.43E-08 i 6.40E-08~ l No Data             [ 1.26E-07       No Data   i 2.56E-05 W 181        9.91 E-09  3.23 E-09 {' 3.46E-10 } No Data } No Data
                                                                                    ' No Data  - [3.68E-07 W-185        4.05E-07      1.35E-07 l 1.42E-08 i No Data i No Data                  No Data   i 1.56E-05 W-187        1.03E_-07 i,15I5-08 l 3.01E-08 i No Data j No Data i No Data                     j 2.82E-05 Pb-210      1.53E-02      4.37E-03       5.44E-04 j _No Data          1.23E-02 [ No Data     [2.24E-06 Bi-210      4.61 E-07     3.18E-06       2.64E-07 i No Data           3.83E-05 I No Data     i 4.75E-05             ;

Po-210 3.56E-04 "E56E-04 i 8.59E-05 } No Data ["2.52E-03 [ No Data i 6.36E-05 Ra-223 4.97E-03 7.65E-06 i 9.94E-04 i No Data l 2.17E-04 i No Data i 3.21E-04 Ra-224 1.61 E-03 i 3.90 -06 j,,3 23E.-04 } No Data },,1.,1,0E-04 i No Data i 3.40E-04 Ra-225 i l No Data  ! 3.06E-04 6.56E-03 { 7.78E-06 l 1.31E-03 ! No Data Ra-226 3.02E-01 i,5.74E-06 I 2.20E-01 ' No Data [ 1.63E-04 2.21 E-04 [No Data _ I,3.32E-04 Ra-228 1.12E-01 1 3.12E-06 1 1.21 E-01 No Data i 8.83E-05 i No Data i 5.64E-05 (" Data presented in this Table are from Reference 9. A 29

PNPS-ODCM Rev. 3 TABLE A-15 (continued) INGESTION DOSE FACTORS FOR ADULTm mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GILLI Ac-225 _ 4.40E-06_ ! _6.06E-06 j 2.96E-07__ j_No. Data.,, . j,6.90E-07 j No Data j,4.07E-04 Ac-227 1.87E-03 _ { 2.48E.-04 1.11 E-04 No Data 8.00E-05 ..No Data 8.19E-05 Th-227 1.37E-05 1 2.48E-07 3.95E-07 No Data 1.41 E-06 No Data 5.40E-04 "Yh-228 4.965-04,, .[.8. 40E-06.],[ 1.68E-05_ [ No Data ,, ,,j[ 4.67E-05 [No Data i[5'.63E-04

. Th-229        1.36E-02      3.89E-04 { 2.25E-04             No Data                      i No Data   j 7.81E-05__

Th-230 2.06E-03 _ ,1.17E-04 _ !__5.70E-05 ,. No Data. _ ,,j.j_1.88E-03 5.65E-04 _ i No Data

j. 6.02 E-05,,,

..Th-232        2.30E;03_,,j 1.00E-04         1.50E-06        No Data      j,4.82E-04 [ No Data           5.12 E-05,,,

Th-234 8.01 E-08 1 4.71 E-09 2.31 E-09 No Data  ! 2.67E-08 i No Data 1.13E-04 [Pa-231 4.10E-05"} 1.54E-04 [ 1.59E-04 I"N5' ata } 8.64E-04 [No Data i.7.175-05 Pa-233 9.12E-10 } No Data j 3.99E-09 i No Data 1.64E-05 U-232 5.26E-09_ ,,I, No Data! 4.13E-03 1._06E-09 2.95E-04 i No Data l 4.47E-04 [ No Data [6.78E-05 U-233 8.7I52Ui~~[ No Data _ i"5:555 55"~i"N5"dd_[] 2.03E-04 _ ["No Data I"6.27E ld5~

..U-234         8.36E-04_, .f_ No Data ! 5.17E-05             No Data      ]_,1.99E 04,,,,,{ N.o Data  { 6.14E-05_,

U-235 8.01 E-04 L No Data { 4.86E-05 .. . No Data j.1.87E-04_ _ ! No Data l 7.81E-05 U-236 8.01 E-04 i No Data 4.96E-05 No Data 1.91 E-04 l No Data l 5.76E-05

..U-237         5.52E-08 ,i No Dai5 ,1.47E-08 !"N5'bata_    !              . 2.27E-07 [No Data         ((I;5I5{65[

U-238 7.67E-04 l No Data i 4.54E-05 i No Data ! 1.75E-04 l No Data !* 5.50E-05

..Np-237     .,,,1.26.5-03.,_, [ 8.96E-05 " 5.54E-05          No Data      "4.12E-04 I, No Data           7.94 E-05
. Np-238        1.37E-08 [ 3.69E-10          2.13E-10 ,.,N.o Data .. ..,1.25E-09 ! No Data _ 3.43E-05
.Np,239_        1.19E-09 _ ! 1.17E-10__ ,,6.45E-11 ! No Data               j _3.65E-10 ! No Data       ! 2.40E-05_

Pu-238 6.30E-04 I 1.7,1 E-05 No Data j 7.32E-05 _ _ !_ No Data 7.30 E-05__ _

.,P.u-239 _     7.25E-04   _ 8.71

[,.7.98E-05 E-05 ,1.91 E-05,, ,,, No Data j 8.11E-05 _ !,,N.o. D.ata , 6.66E-05 Pu-240 7.24E-04 i 8.70E-05 1.91 E-05 i No Data i 8.10E-05 i No Data 6.78E-05 i Pu-241 1.57E-05 I"f555-dI 3.32E-07 i No Data I 1.53E-06 INo Data 1.40E-06 I "Pu-242 6.72E-04__ i 8.39E-05_j 1.845-05 }[N5'bata _ j,7.81 E-05 [No Data [6.53E-05.,  !

.,Pu-244        7.84E-04      9.61 E-05      2.11 E-05 j,,No Data          j 8.95E-05__ { No Data         9.73E-05 Am-241        7.55E-04      7.05E-04        5.41 E-05 i No Data          ! 4.07E-04 ' No Data           7.42E-05

[Am-242m 7.615-04 I,6.63E-04_ ,j 5.435 55"]} No Data j 4.05E-04 [No Data I 9.34E-05_ Am-243 7.54E-04 { 6.90E-04 5.30E-05 j No Data j,,3.99E ,04.. .{ _No Data !. 8.70E-05

...C.m,-24 2    2.06E-05 !.,2.19E,-05 ,1.37E-06_ j_ No Data ...j 6.22E-06 !_ No Data                   ! _7.92E-05,,

Cm-243 5.99E-04 ! 5.49E-04 3.75E-05 _ No Data i 1.75E-04 No Data 7.81 E-05 Cm-244 4.56E-04 I 4.275-04 2.87E-05 No Data I 1.34E-04 No Data 7.55E-05 Cm-245 9.38E-04 i 8.17E-04 i 5.76E-05 i No Data i' 2.69E-6I~i' No Data i 7.04E-05 Cm-246 9.30E-04 ~l16E-04 "5.555 d5~ i No 65t3~ ' 2.6852UI""'"N5'65t5~ ~[ 6.91E-05 "Um-247 9.07E-04 8.04E-04 5.67E!d5"~l No Data 2.64E-04 No Data I 9.09E-05 Cm-248 7.545-03_ __ _ [,6. 63E-03 [,4. 67E-04,,,,,j_No.. Data _, ,j"5~."18E-03 i No Data '! 1.47E-03 Cf-252 2.61 E-04 i No Data i 6.29E-06 ! No Data i No Data  ! No Data  ! 2.88E-04 N Data presented in this Table are from Reference 9. A-30

PNPS-ODCM Rev. 8 TABLE A-16 INGESTION DOSE FACTORS FOR TEENm mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI H3_ 7 No Data _ {__6.04E-08  !. 6,04E-08 6.04E-08_ _ j.,6.,04E-08 !,6.04E 08 !,6.04E-08_ Be-10 4.48E-06 16.94E-07 1.13E-07 No Data i 5.30E-07 No Data j 2.84E-05 C-14 4.06E-06 l 8.12E-07 8.12E-07 I 8.12E-07 IE.'55526f~ 8.125-df"""I"5.iE5-57" [N_-13 1.15E-08 [~f 5552d5~~[~f 555-55"~i,115E,j08,_) 1,.15E-08_,,_[~1.15E-08 i~f?i55-08 F-18 8.64E-07 [ No Data [ 9.47E-08 No Data.,_,.1 No Data No Data _ ! 7.78E-08 Na-22 2.34E-05 l 2.34E-05 1 2.34E-05 2.34E-05 l 2.34E-05 _ 2.34E-05 l 2.34E-05 Na-24 2.30E-06 [""2.30E-06 ! 2.30E"U5~ '"5.555265" '"E.555265~~'"5:555-d5~

• 2.305 55" 5 32 2.76E-04 i 1.71E-05 I 1.07E-05 No Data No 65Ei~ No Data 2.32E-05 Ca-41 1.97515I"~[ _No Data [ 2.13E-05,_ , No DataT ). No Data ___ ((N5[65fa ,[i"I'555 57" .

Sc-46 7.24E-09 l 1.41E-08 I 4.18E-09 i No Data 1.35E-08 No Data  ! 4.80E-05 "d-51 r No Data"1"No Data I 3.60E-09 I"5.00E-09 7.89E-10 5.14E-09 f 6.05E-07 Mn-54 No Data ~ I"5:5d5-d5"~i 1.17E-06 '"So Data [ 1.76'5-06 INo Data I 1.21 E-05

 .Mn-56       No 65[a~ ((i 2.68E-06 1.58E-07! 6.25E-07

[55I5-08_ No Data,_ ,_[ 2.00E-07 No Data _. ,_j 1.04E.-05_,_ j Fe-55 3.78E-06,, No Data l No Data 1.70E-06 ! 1.16E-06 '

"5e-59        5.87E-06      1.37E-05 i 5.29E-06 '"No Data              '"No Data       4.325-d5~ I 3.245-05           '

Co-57 No data 2.38E-07 I"5:555-07 No d'ata No Data No Data I 4.44E-06 [do-58 No Data [.9.72E-07__.i 2.24E-06 [, No Data )' No Data [ No Dati' "i[I?535-d5" Co-60 No Data i 2.81E-06 i 6.33E-06 No Data i No Data  ! No Data i 3.66E-05 "Nf-59 1.32E-05 Id.'555"d5"" 2.24E-06

• No Data I"N5"b5fi" ~["N5'DaiE~ ~I" .5I5IU7" Ni-63 1.77E-04 _ [ 1.25E-05 ! 6.00E-06 No Data,__)~N5"b5Eal '((N5.~65ta i[I;555{U5" Ni-65 7.49E-07 [,9.57E-08 4.36E-08 No Data j_No Data, __No Data { 5.19E-06 Cu-64 No Data i 1.15E-07 i 5.41E-08 No Data i 2.91E-07

                                                                       ~

No Data i 8.92E-06 Zn-65 5.76E-06 [ 2.00E-05 ' 9.33E-06 No Data 1.28E-05 "No Data ""5.if5 55" Zn-69m 2.40E-07_,,,j"5.66E-07__ , 5.19E-08 [No Data . 3.44E-07 _ , No Data . 3.,1,1 E.-05_ Zn-69 1.47E-08_ ! 2.80E-08 ! 1.96E-09 j. No Data j,1.83E.-08__j No Data i,5.16E-08,,, Se-79 No Data 3.73E-06 6.27E-07 No Data 6.50E-06 .No Data  ! 5.70E-07 "5r-82 "N5'D5ta No Data 3.045 56 No Data No data No Data I"No Data

'. 5r 83      No Data     [ _No Data ' 5.74E-08 ..No Data _ ,[No Data,_ _[ No Data ((So Data              _

Br-84 No Data,_,,,,!,No Data ,, 7.22 E-08 No Data j No Data No Data j_No Data

.,B r_-85     No Data     [ No Data     ;  3.05E-09   ,   No  Data     j..No  Data  ,  No Data  ___!_N,o    Data,_

Rb-86 No Data 2.98E-05 1.40E-05 l No Data No Data  ! No Data 4.41 E-06 "55-87 No Data _ ,1.75E-05} , 6.11 E"U5"""! No_ Data _ ,_,N,o Data . _I No Data ,. 6.1,1 E.-07_ Rb-88 No Data  ! 8,.52E;08,,_{,4.54E-08 ..No Data j No Data [.N.o Data

                                                                                                    , 7.30E-15 Rb-89       No Data     l 5.50E-08 [,3.89E-08             No Data       No  Data     No Data _       8.43 E-17. ,

Sr-89 4.40E-04 _I No Data  ! 1.26E-05 No Data No Data No Data 5.24 E-05 "5r-90 1.025"65 " [ No Data I"5555255~ I"NED5fa" ~i No Data '"N5'65t5" !"5555-53' Sr-91 8.0752EE"""No Data _ ' 3.21 E-07 ' No d5E,a~ ((.No Data _ [No Data [5355{U5[ Sr-92 3.05E-06 No Data

• 1.30E-07 No Data i No Data i No Data l 7.77E-05 Y-90 1.37E-08 i~No Data 3.69E-10 ' '"I?13E-04 "Nid5Ei" } No Daii" " No Data Y-91 m 1.29E- 10 ~I No Data 4.93E-12 No Data  ! No Data No Data" 6.09E-05~

Y-91 2.015-07 !"No Data i 5.39E-09 i No Data i'Nidata i No Data F5.24E-05 Y-92 1.21 -09 '"No Data i 3.50E-11 "No Data ["Sidifa~"*"Nibiti~ [ 3.32E-05 Y-93 3.835 5E" No Data I 1.05E-10 No Data I No Data No Data l 1.175253~ m Data presented in this Table are from Reference 9. A-31

I PNPS-ODCM Rev. 8 TABLE A-16 (continued) ! INGESTION DOSE FACTORS FOR TEENN mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung Gl-LLI Zr-93 5.53E-08_ ! 2.73E-09 j _1.49E-09_ j No Data j. 9.65E-09_,!, No Data  ! 2.58E-06 Zr-95 4.12E-08 1.30E-08 8.94E-09 No Data i 1.91 E-08 i No Data 3.00E-05 Zr-97 2.37E-09 4.69E-10 2.165-10 No Data I"I.'iT5-I6"i"N5'Uata 1.27E-04 Nb-93m 3.44E-08 I 1.13E-08 I 2.83E-09 [ '~No Data ["i?555265"i"N5'6ata II.dif 55~

  ...Nb-95       8.22E-09,, ,,I' 4.56 2dd-{"E.51 E-09             No Data _'j,,,4.42.E ,05(({ N,o. Data            1.95E-05_;

Nb-97 7.37E-11 !,,1.83E-11 j_6.68E-12_ , No_ Data ___ __j _2.14E-11 [ No Data ,. 4.37 E-07,,, Mo-93 No Data 1.06E-05 2.90E-07 l No Data 3.04E-06 l No Data i 1.29E-06 Mo-99 No D5Ea~ ~ ~5.03E-06 1.15E-06 I No Data 1.38E-05 INo DaiE~ ~I"I:555-65~

  "Yc-99m        3.32E-10 I 9.26E-10 I"1.20E-08 }"No Data [ 1.38E-08 I 5.14E-10 I 6.08E-07
  ~Ic-99         1.795267"" 2.63E-07 i 7.17E-08 I"N5"bata ['5.55555"*5.72E-08 I 6.44E-06 Tc-101        3.60E-10         5.125256""l"5.03E-09 ['No Data i 9.26E-09                       3.125"i6"~ll.755257" "N"u-103       2.55526f~~i"Ao Data            i 1.095-07 } No Data [ 8.99E-07 [ No Data I"5'555"65~               .

Ru-105 2.185[65~ [N,o Data.. _[ 8.46E-09_,j[N5'65fal _,[2.755[6f[]"A[65t5" [i.j.76E.-05... Ru-106 3.92E-06 l No Data I 4.94E-07 l No Data ~: 7.56E-06 No Data i 1.88E-04

  ),h .105       1.73E-07 '"1.25E-07_ I,8.20E-08 ', No, Data                        5.31 E-07     No Data      ~ 1.595 55~

Pd-107 No Data ,,2.08E-07 !_1.34E-08 , No D,ata ,,1.88E-06 ,,,No Data 9.66E 07,,, Pd-109 No Data l 2.51E-07 5.70E-08 i No Data i 1.45E-06 i No Data 2.53E-05 "Ag.-110m 2.05E-07 I"I Ed5"df~ 1.185-07 "N5"b5t5~ '"5.7655f~No 65tA~ '"57555-55~ [ g-1__11 8.29E-08 ] _3.44E-08 I[Q55-08 No Data _1.,12E;07,,_ ,"No Data ,,,4.80 E-05_, Cd-113m No Data i 4.51E-06 l 1.45E-07 No Data i 4.99E-06 i No Data i 2.71E-05 [Dd-11_5m S.n-123 _No d5[,,[,I2.60E-06,[II.555{d5"[J,,I"N5'U5fa" 4.44E-05 [7.29E-07_ ! 1.08E-06 ,5 84E.-07 _No Data _ ! N.o. Data 7

                                                                                                        "_2.08E-06.]No

_ ,_j. 6.71 E-05_ Data Sn-125 1.19E-05 ! 1.86E-07,,_i  ! No Data 1.12E-04 _Sn-126 1.16E-04 lI.2,.37E-07_j 5.37E-072.16E-06_ 5.69E-07_ . No),No _! 3.30E-06 Data Data _ _ !,No Data 2.58E 05.,, Sb-124 3.87E-06_ ..!. 7.13E-08 j_1.51 E-06 _ _ 8.78E-09 j No Data j 3.38E-06,, ,,,7.80E-05 S.b-12 2 l l 2.48Et06.,. _f 2.71 E-08 { 5.80E-07 Sb-1 A 1.59 @ 6 3. 25E-08  ; 5.71E-07 2.37E-09,_,i.

                                                               ,,_8.99E-09              No Data No Data         _ [ 2.18E-06 [,1.93E-05
                                                                                                !,1.14 E:06,_, !,9.,41 E-05_

Sb-127 3.63E-07 ! 7.76E-09 ___ }. j. 37E-07_,,j 4.08E-09_ .j.,No Data 2.47E-07 6.16E-05_,

  ..Te-125m                _ ! 1.38E 06 1                                                                          1.13E-05,_             i Te-127m       3.83E-06, 9.67E-06         ,.I 3.43E-061.15E-06

i. 5.12E-07 __ _ j,,1.07E-06 i 2.30E-06 i 3.92E-05 ,! _j NoNo DataData _2.41

_ ,..N,o E-05 Data "YeI27 1.58E-07 ["5.555-55"~i 3.40E-08 '"T.d55267" '"53655f]~ "N5'65t5"

• 1.22E-05 i "Ye 'I29m 1.635-05 ["5d55-65"~I"5'555-06 . 5.265-06 6.8252U5" ! No Data 6.12E-05 Te-129 4.48E-08 i 1.67E-08 I 1.09E-08 II.Ed5 55~ ["5'.5555f""I"No Data

                                                                                                                " 2.45E-07 "Te-131 m      2.44E-06~I 1.17E-06 " 9.76E-07                   1.76E-06 i 1.22555~" No Data                     9.395 55~              i Te-131        2.79E-08 ['1.15EiO8              8.725'-09       2.1552U5"1 1.22557              No D5ta       I2.295"65"                !
  "YeI55       3.49E. 06,] 2.21E-06 I 2.08E-06 [2.33E-06[,j]5'.I5555[]No Data                                 i[i;dd5{d5[,_             l
  .,Te-133m      6.44E-08 _ ! 3.66E-08                         j_5.11 E-08,,_j,,3.62E-07.,_,j No Data           {_,1.48E-07_              ;

Te-134 4.47E-08 _ !,,2,.87,E-08,,,_,l 3.56E-08

                                                 . 3.00E-08_.j_3.67E-08_      j,2.,74E;07_ _l No Data           ! 1.66E-09                l l-129        4.66E-06 l 3.92E-06              6.54E-06 j. 4.77E-03                          !              j 4_.57E-07                l l-130        1.03E-06 1 2.98E-06

• 1.19E-06 ! 2.43E-04 7.01E-06No_Data 4.59E-06 I No iData 2.29E-06 l l-131 5.5552U5"[ 8.19E-06 4.40E-06 i 2.39E-03 ["i355265"
• No Data i 1.62E-06

  ,,l_132 2.79E-07 I"7555-07 ,, 2.62 E-07, ,_{5?d552U5" j.1.15 E-06 t,.No Data [5"I55{di[                                          J l-133        2.01 E-06,,,.,.[,,3.41 E-06_,! 1.04E-06___ J,,4.76E-04_ _j..,5.98E-06__ _ !, No Data           j 2.58E-06_               ;

l-134 1.46E-07 1 3.87E-07 l 1.39E-07 l 6.45E-06 ! 6.10E-07 i No Data i 5.10E-09 l-135 6.10E-07 I 1.57E-06 II.5555f""[ 1.01E-04 ['5.48E-06 '"No Data I 1.74E-06 i W Data presented in this Table are from Reference 9. f ' l A-32

n PNPS-ODCM Rev. 8 TABLE A-16 (continued) INGESTION DOSE FACTORS FOR TEENW mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Cs 134m 2.94E-08,,_{ 6.09E-08 3.13E-08,,_,j No Data j 3.39E-08 ,_5.95E-09 1,,4.05E-08,_ Cs-134 i 1.97E-04 9.14E-05 i No Data j _6.26E-05 [_2.39E-05 l_2.45E-06 Cs-135 8.37E_-05 _ f 2.55E-05 2.78E-05 5.96E-06 } No Data i 9.73E-06 1 3.52E-06 4.46E-07 Cs-136 8.59E-05"'[ 3.38E-05 i 2.27E,-05,,,,,,},.No Data }T.53526i~{ 2.90E-06 ,. 2.72E-06 Cs-137 1.12E-04 L1_.49E-04 { 5.19E-05 } No Data __ 5.07E-05 1.97E-05 2.12E _06 Cs-138 7.76E-08 1 1.49E-07 i 7.45E-08 I No Data 1.10E-07_ 1.28E-08 6.76E-11 Cs 139 4.87E-Of~' 7.17E-08 2.655 Di}No Data [5.79E-08 i,6.34E-09 ' 3.33E-23 Ba-139 1.39E-07 9.78E-11 4.05E-09 i No Data 9.22E-11 [ 6.74E-11 1.24E-06 Ba-140, 2.84E-05 _ , 3.48E-08 l 1.83E-06 j No Data , _1.18E-08 [ 2.34E-08_ I 4.38E-05 Ba-141 1 2.24E-09 l No Data j 4.65E-11 { 3.43E-11 i 1.43E-13 Ba-142 6.71 E-08,,,_,J[_5.01 E-11 }, No Data 2.99E-11 l 1.84E-09 j 2.53E-11 [ 1.99E-11 I 9.18E-20 2.99E.-08

  . La-140      3.48E-09 l 1.71E_-09 j,_4.55E-10 ! No Data          j No Data     ! No Data      j. 9.82E-05,,,

La-141 _4.55E-10_ 1.40E-10 [ 2.31E-11 ! No Data j,,No Data _ _ [.No Data 1. 2.48E-05 La-142 1.79E-10 { i 7.95E-11 l 1.98E-11 i No Data No Data ~*i No Data i 2.42E-06 Ce-141 1.33E-08 I__8.88E-09 I,1.02E-09 No Data 4.18E-09 No Data 2.54E-05 Ce-143 2.35E-09 I 1.71E-06 } 1.91E-10 No Data 7.67E-10 No Data 5.14E-05 Ce-144 6.96E-07 [ 2.88E-07 I 3.74E-08 i No Data i 1.72E-07 i No Data  !* 1.75E-04 Pr-143 1.31 E-08 ["E55E-09 I'5.Ud52U5~i No Data 4.31 E-05 Pr-144 Nd-147 { 6.52E3E~lI No 4.30E-11 [~1.76E-11 ! 2.18E-12 9.38E-09 l 1.02E-08 i

• 6.11E-10 i No Data No Data Data

                                                                    } 1.01E-11    _ I No i 5.99E-09 ! No Data Data ,,,4.74 E-14 j 3.68E-05 Pm-147      1.05E-07 I 9.96E-09           4.06E-09 } No Data    j 1.90E-08     [_N,o, Data    I 9.47E-06 Pm-148m     4.14E-08       1.05E-08       8.21 E-09 i No Data    I 1.59E-08 i No Data         i 6.61E-05 Pm-148      1.02526i~{l 1.66E-09 i 8.36E-10i 3.00E-09               i No Datai No Data           9.90E-05 Pm-149      2.17E-09 [ 3.05E-10 [ 1.25E-10 } No Data            }. 5.81 E-10___ _ I No,,,4.49E-05,,,

Data Pm-151 9.87E ,10_,.! 1.63E-10,,,_!,,8.25E,-11 j No Data j,,2.93E-10 [ No Data  ! 3.66E-05 Sm-151 8.73E-08 l 1.68E-08 l 3.94E-09 No Data 1.84E-08 l No Data 5.70E-06 Sm-153 1.22E-09 I 1.01 E-09 [ 7.43E-11 , No Data , 3.305!i6 i No Data

                                                                                  ,              , _2.85E-05_

Eu-152 2.45E-07 _ i 5.90E-08 { 5.20E-08 j No Data j 2.74E-07 [ No Data j. 2.17E-05 Eu-154 7.91 E-07 1.02.E;07 ,,,{ 7.19E-08 j No Data j 4.56E-07__ _ [ No Data {__5.39E _05 Eu-155 1.74E-07 _ ,1.68E-08 i 1.04E-08 j No Data j 6.57E-08_ ! No Data  !. 9.63E-05 Eu-156 1.92E-08 1 1.44E-08 i 2.35E-09 i No Data I 9.69E-09 i No Data  ! 7.36E-05 Tb-160 6.47526i~I No Data l' 8.07E-09 l No Data l 2.56E-08~ f No Data i 4.19E-05 [,Ho-166m 3.57526f~I 1.10E-07 f.l7.96E-08 i.No Data j'1.61E-07 lNo Data I[2.71 E-05 W-181 1.42E-08 4.58E 09 { 4.79E-10 j No Data i No Data ! No Data i 3.90E-07 . W-185 5.79E-07 _ ,1.91 E-07 ! 2.02E-08_ j No Data }, No Data _[ No Data i 1.65E-05 , W-187 1.46E-07 [ 1.19E-07 { 4.17E-08 ! No Data._ ,,j No Data ! No Data [ 3.22E-05

  , Pb_-210     1.81 E-02 i 5.44E-03 _ ,1 7.01 E-04 j No Data j 1.72E-02 [No Data                    2.37E-06 _

Bi-210 6.59E-07 _ [ 4.51E-06 ! 3.77E-07 j _No Data j 5.48E-05 ! No Data , 5.15E-05 Po-210 5.09E-04 { 1.07E-03 } 1.23E-04 No Data ; 3.60E-03 [ No Data 6.75E-05,_ l Ra-223 7.11 E-03 l 1.08E-05 i 1.42E-03 No Data i 3.10E-04 i No Data 3.43E-04 Ra-224 2.31E-03 "I 5.52E-06 I' 4.61 E-04 i No Data i 1.58E-04 i No Data

                             *             *                                                      {"5.71 E-04 Ra-225    [9.37E-03        1.10E 05       1.87E-03 ' No Data } 3.15E-04 [

l Ra-226 3.22E-01 8.13E-06 2.39E-01 No Data  ! 2.32E-04 I No .N,o, Data _ ,,,f 3.51 E-041 3.2 Data Ra-228 1.37E'01 i 4.41 E-di~i' 1.51 E-01 i No Data i 1.26E-04 i No Data i 5.985-05 m Data presented in this Table are from Reference 9. i A-33 t

PNPS-ODCM Rev. 8 TABLE A-16 (continu*d) INGESTION DOSE FACTORS FOR TEEN m mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Ac-225 6.29E-06,,,,j,8.59E 06 j ,4.22E-07 ,,N.o Data _ ,j,9.85E-07,,,,,j. No Data j.,4.36E-04,,, Ac-227 No Data 2.05E-03 i 3.03E-04 !' 1.22E-04  ! 8.81E-05 } No Data i 8.68E-05

                     , Th-227        1.955265          3.52E-07,,_j 5.65E-07_ , No Data { 2.01E"65[![N[6ata                                                   [ 5.75E-0,3~
                     ..Th.,228_ _ _  6.80E-04 __ [1.14E-05,_,j 2.30E-05,,,j_No Data j 6.41E-05,,, j N.o Data. ,j. 5.97E-04
                     , Th-229        1.43E-02 i 4.11E-04                            2.37E-04 !, No Data _,,,,j_1.99E-03_,,! No Data ! 8.28E-05 Th-230       2.16E-03 l 1.23E-04                            6.00E-05 i No Data         i 5.99E-04 ! No Data                              6.38E-05 Th-232        2.42E-03 [1.05E-04 { 1.63E-06 i"Nidata _ ,,[5."l1 E-04 _ I"S'iUAiA~ [5.43E,-05 Th-234        1.14E-07 i 6.68E-09 i 3.31E-09 ! No Data i 3.81E-08 l No Data ~i 1.21E-04 Pa-231        4.315-03 _ ["1.62E-04 i 1.68E"di~]_No Data}"9.10E-04 ["No Data                                                             7.60E-05 Pa-233        7.33E-09 l 1.41E-09                            1.26E-09       No Data   j 5.32E-09                            No   Data    1.61E-05 U-232        5.895265~I No Data                             4.21 E-04       No Data    i 6.38E-04 i No Data                              7.19E-05 "U2555          1.24E-03 I"No Data                I"7.535 d5~INEData i' 2.905263~ ~ i No Dat5" ~I"5.555-d5~

U-234 1.19E]5~]"No Data ,I.,7.39E-05 I I 2'.555"di[,i No_ Data i"5.5I5 d5~

                                                                                                             ],],2.67,E-04,_ i No                                 Data

_U-235 U-236 1.14E-03 _ !,No Data., _j 6.94E-05 1.14E-03 No Data [_No Data No Data { 8.28E-05 l 7.09E-05 No Data j 2.73E-04 i No Data i 6.11E-05 U-237 7.89E-08 No Data I"E.10E-08 No Data f 3.24E-07 I"N5"6At5" T2.09E-05 [U-238_ 1.09E-03.L ,,i' No Data _ _ ,[ 6.49E-05 l' No Data

                                                                                                             }[2.50$-04 ((N5"bata I,5.83E-05
                    ..Np-237         1.33E-03,_,j 9.55E-05,,.. { 5.85E-05                          No Data       4.33E-04 [, No_ _ Data                         8.41 E-05_
                    ..NP .238... 1.95E-08__ !,,5.22E-10_ ! 3.04E-10,,, , No Data _ .1.79E-09 [No Data                                                    , 3.83E-05,,,
                   ..N.p-239         1.76E-09 [166E-10 ,,9.22 E-1 1,,, .,No Data i. 5.21 E ,10_,,j. No Data j 2.67E-05_.
                   ..Pu_-238__      6.70E-04 !,,8. 58E-05,,_,.1.82E-05_.,,, .No Data                         j.,7.80E-05 _ [.No Data                            7.73E-05_

Pu-239 7.65E-04 ! 9.29E-05 ! 2.01E-05 i No Data ~! 8.57E-05 i No Data 7.06E-05 "552550 7.64E-04 [ 9.27E-05 2.01 E-05 '"Nidit5 8.56E-05 ~"N5"bata" ~" .19E-05 Pu-241 1.75E-05 I'8.40s-07 3.69E-07 No d5ta 1.71 E-06 No Data 1.48E-06 Pu-242 7.09E-04 [ 8.94E-05 I"I"535 55~ ~ No Data

                                                   ~

i 8.25E-05 i"Nibiii~ I"5:555d5~

                   "Nu-244          8.28E 04           1.02E2 di~~i 2.22E"d5""" No Data                      I5.255265~~I"No Data                            '"I.d55-di~

Am-241 7.98E-04 7.53E-04 I

• 5.755-05 No Data I"4.31 E-04 IN5"bata 7.87E"d5~

Am-242m 8.07526i~i' 7.11 E-04 5.80E-05 INo Data I4.30E-04 I"NidAtA~" i 9.90E-05 Am-243 7.96E-04 *"7.35E"di" [5.62E-05,_,,,i No Dat5~ ].4.22E-04 I"No Data . {"5.555.{d5[ Cm-242 2.94E-05 3.10E-05 1.95E-06 I No Data i 8.89E-06 ! No Data i 8.40E-05 Cm 243 6.50526T" 5555-04 4.09E-05 '"No Data ' 1.91E-04 No Data ["5.28E-05 "6 52544 5.04 E-04 I 4.77E-04 I"3.19E-05 No Data 1.49E-04 No Data I 8.00E-05 "bm-245 9.90E-04 ["5"fi5 di~~i"5.10E-05 i[No Data }"E.555[6i,]i No Data I ,7.46E-05 Cm-246 9.82E-04,, ..{ 8.70E-04,,,, 6.09.E-05_,,j. No Data 2.84E-04 _ [ No Data 7.33E-05 Cm-247 9.57E-04 ! 8.57E-04 6.00E-05 i No Data 2.80E-04 i No Data 9.635-05 Cm-248 -f.555265"~i 7.06E-03 I4.95E-04 i No Data If.555265" No Data  !"I'.555 d5~ Cf-252 3.47E-04 ["Ni65fa~ ~I' 8.37E-06 i' No Data I"No Data ["N5 Data I"5.05E-04 W Data presented in this Table are from Reference 9. I A-34

PNPS-ODCM Rev. 8 TABLE A-17 INGESTION DOSE FACTORS FOR CHILDU) mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI H-3 No Data ,1.16E_-07 j 1.16E-07 j _1.16E-07 j 1.16E-07__ _ !.1.16E-07 ! 1.16E-07 1.35E-05

  ,,Be-10 1.57E-06 { 3.39E-07 1 No Data j 1.11E-06 1 ,No              Data   i 2.75E-05 C 14         1.21 E-05

• 2.42E-06 l 2.42E-06 I,2.42E-06 1 2.42E-06 ! 2.42E-06 I _2.42E-06 N-13 3.10E-08 3.10E-08 i 3.10E-08 _ i 3.10E-08 j 3.10E-08 i 3.10E-08 { 3.10E-08 F-18 2.49E-06 No Data }' 2.47E-07 j No Data No Data _ { No Data } 6.74E-07 Na-22 5.88E-05 5.88E-05 1 5.88E-05 j 5.88E-05 5.88E-05 ! 5.88E-05 ! 5.88E-05 Na-24 5.80E-06 i 5.80E-06 ["' 5.80E-06 1 5.80E-06 5.80E-06 i 5.80E-06 5.80E-06 P-32 8.25E-04 i 3.86E-05 I 5'.'i55-05 f No Data S5'd5i5~TN5'U5t5-~{l 2.28E-

  "Ca-41         3.47E-04 i"No Data.[,,I"5'.Y5E-05 } No Data }"55'D5i5~~] No Data [,_1.90E-07 Sc 46        1.97E-08      2.70E-08      1.04E.-08 l No Data _ j 2.39E-08 [ No Data               3.95E-05

• 8.90E-09 I 4.94E-09 l 1.35E-09 l 9.02E-09 Cr-51 No Data No Data
• 4.72E-07 Mn-54 No Data i 1.07E-05 2.85E-06 l No Data i 3.00E-06 No Data 8.98E-06 ldd^55"~ No Data 3.34E-07 7.54E-08 j No Data } 4.04E-07 No Data _

4.84E-05 , Fe-55 1.15E-05 6.10E-06

• 1.89E-06 i No Data 3.45E-06 l No Data
• 1.13E-06 Fe-59 1.65$-05 2.67E-05 1.33E-05 '"No Data i No Data 7.74E-06 ! 2.78E-05 Co-57 No Data f 4.93E-07 9.98E-07 No Data l No Data No Data f 4.04E-06 Co-58 No Data i 1.80E-06 i 5.51E-06 i No Data [ No Data i No Data I'* 1.05E-05 Co-60 No Data i 5.29E-06 [ 1.56E-05 j No Data No Data I'55'Uata 2.93E-05 Ni-59 4.02E-05 1.07E-05 i 6.82E-06 ! No Data No Data [ No Data 7.10E-07 Ni-63 5.38E-04 _ ,_2.88E-05 I 1.83E-05I-} No Data j, No Data _ i No Data i 1.94E-06 Ni-65 2.22E-06 1 2.09E-07 1 1.22E-07 i i No Data { No Data i 2.56E-05 Cu-64 No Data I 2.45E-07 [,,1.48E-07,,,,,,[ No DataNo['5.92E-07,,,_[

Data No Data I1.15E-05

  . Zn-65        1.37E-05 I 3.65E-05 !                                 j 2.30E-05_.,, No Data      i 6.41E-06 Zn-69m       7.10E-07 _ ! 1.21 E-06 [_2.27E-05             J, Data 1.43E-07,,, ..! No No Data

_ j 7.03E-07,,a No Data i 3.94E-05 Zn-69 4.38E-08 _ ! 6.33E-08 ! 5.85E-09 l _No Data j 3.84E-08 ! No Data } 3.99E-06 Se-79 No Data { 8.43E-06 1 1.87E-06 j No Data l 1.37E-05 i No Data i 5.53E-07 Br-82 No Data l 7.55E-06 i No Data } No Data i No Data I No Data Br-83 No Data No __,(( DataNo{ Data 1.71E-07_ j_ ' No Data j' No Data [,N,o, Data ,,.i No Data Br-84 No Data i_ 1.98E-07 i No Data No Data  ! No Data i No Data "5i~55 No Data [ No NoData Data9.12 255"~I"N5'Uata No Data f No Data i No Data No Data _Rb-86 '"5770E-05 [ 4.12E-05 "No Data i No Data __ ( No Datai__4.31 E-06,,, Rb-87 No Data 3.95E-05 _ l 1.83E-05 No Data l No Data i No Data f 5.92E-07 Rb-88 No Data i,1.905-07 [ 1.32E-07 'lNo j Data '[j No Data I'55'U5fa  ! 9.32E-09 Rb-89 _ No Data [ _1.17E-07 1 1.04E-07 i No Data i No Data { No Data 1.02E-09

  , Sr-89        1.32E-03 J.No Data        [ 3.77E-05 i No Data        } No, Data _ _[ No Data        5.11 E-05 Sr-90        2.56E-02 i No Data         i 5.15E-04 i No Data          l No Data    [No Data     { 2.29E-04 Sr-91        2.40s"U5~I.No Data         i 9.06E-07 j No Data        [s5' Data [ No Data        { 5.30E-05 Sr-92        9.03E-06 [ No Data }. 3.62E-07 ! No Data               j No Data      i No Data    ! 1.71 E-04 Y-90         4.11 E-08      No Data     l 1.10E-09 i No Data        i No Data                      1.17E-04 Y-91 m       3.82E-10 ,.No Data

{ 1.39E-11 ! No Data l No Data No J[ Data No Data 7.48E-07 Y-91 6.02E-07 l No Data i 1.61E-08 i No Data }"So Data i No Data I 8.02E-05 Y-92 3.60E-09 i No Data i 1.03E-10 i No Data "No Data i No Data I ~1.04E-04 Y-93 1.14E-08 [ No Data I 3.13E-10 I No Data No Data I'N5'6ata I 1.70E-04 U) Data presented in this Table are from Reference 9. l I A-35 l I

PNPS-ODCM Rev. 8 TABLE A-17 (continued) INGESTION DOSE FACTORS FOR CHILD (" mrem /pCi Inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI

 ..Zr-93        1.67E-07 ! 6.25E-09 ! 4.45E-09 j._No Data            j.,.2.42E-08 i No Data       i 2.37E-06 Zr-95        1.16E-07 _ [ 2.55E-08        2.27E-08     No Data    j 3.65E-08__ _ ["No Data     [2.66E-05 Zr-97        6.99E-09 1 1.01 E-09         5.96E-10     No Data     i 1.45E-09 I No Data l 1.53E-04 Nb-93m       1.05E,-07 ].,2.625-08 i 8_61E-09 [ No Data           } 2.83E-08 l[No Data [ 3.95E-06_.

Nb-95 2.25E-08 8.76E-09 i No Data j 8.23E-09 [ No Data ! 1.62E-05,,,,,. Nb-97 2.17E 10 3.92E-11 { 1.83E-11 _6.26E-09 No Data i 4.35E-11 l No Data f 1.21E-05 Mo-93 No Data 2.41 E-05 i 8.65E-07 I"So Data i 6.35E-06 I"No Data [1.22E-06 Mo-99 No Data ,1.33E-05 I 3.29E-06 } No Data i 2.84E-05 I' No Data  ! 1.10E-05 Tc-99m 9.23E-10 ! 1.81E,09,_j 3.00E-08 _ __j _No Data } 2.635-08 _ [9.19E 16"11.03E-06

 .,Tc-99        5.35E-07                                  No Data    j 7.02E-06 I 5 27E-08 j 5.96E-07 } 2.14E-07                                                                        i Tc-101        1.07E-09      1.12E-09 l 1.42E-08         No Data     i 1.91E-08 l 5.92E-10                _ l. 6.25 E-06 3.56E-09            I Ru-103       7.31 E-07 i ~No Data     i* 2.81E-07 i No Data       i 1.84E-06 i No Data         I"i.89E-05 Ru-105       6.45E-08 _ [ No Data 2.34E-08           [.No Data " 5.675I67~[ No, Data           [,_4.21 E-05 Ru-106       1.17E-05 i No Data           1.46E-06 i No Data         1.58E-05 i No Data        i 1.82E-04 Rh-105       5.14E-07 i 2.76E-07 ["E.5552df~I No Data             i 1.105266"["No Data            1.71 E-05 Pd-107       No Data     f 4.72E-07 i 4.01526E"~fNidata           l"5'.555I66"~["No Data          9.37E-07 Pd 109       No Data     [ 5.67E-07 ! 1.70E2    0 f] No Data      }. 3.04E-06 [ No Data [ 3.35E-05
 .,Ag7110m      5.39E-07 j 3.64E-07 ! 2.91E-07            No Data    j 6.78E-07 { No Data            4.33E-05,,
 .,Ag.-111      2.48E-07    L7.76E-08 I 5.12E-08 , No Data _ .j. 2.34E-07 _ ! No Data                4.75E-05 Cd 113m      No Data     ! 1.02E-05 [.4. 34E,-07, .j No Data      [ 1.05E-05 ! No Data            2.63E-05 Cd-115m      No Data _ _ ! 5.89E-06    },2.5_1 E-07 } No Data     [,4.38E-06    [_ No Data        8.01 E 05...

Sn-123 1.33E-04 ! 1.65E-06 ! 3.24E-06 j 1.75E-06 j No Data  ! No Data ,, 6.52 E-05 Sn-125 3.55E-05 },5.35E-07 { 1.59E-06 5.55E-07 No Data i No Data 1.10E-04 , Sn 126 3.33E-04 4.15E-06 i 9.46E-06 1.14E-06 No Data l No Data }i 2.50E-05 l I Sb-124 1.11 E-05 1.44E-07 i 3.89E-06 2.455266"l' No Data i 6.16E-06 I"6.94E-05 Sb-125 7.165'~66"15.52E-08 i 1.50E-06 i 6.63E-09 i No Data 3.99E-06 i 1.71 E-05 Sb-126 4.405"66"I 6.73E-08 l 1.58E-06 I 2.58E-08 i No Data ~ 2.10E-06 I 8.87E-05 Sb-127 1.06E-06 ' 1.64E-08 I 3.68E-07 i 1.18E-08 No Data [' 4.60E-07 i 5.97E-05 Te-125m 1.14E-05 3.09E-06 I 1.52E-06 3.20E-06 No Data 1No Data [ 1.10E-05 _Te-127m ,,_2_._89 E-05 [7.78E-06 [ 3.43E-06 .. 6.91E-06_J 8.24E-05 { No Data !,,2.34 E-05 _T.e-127 4.71 E-07 1.27E-07 l 1.01E-07 3.26E-07 i l 1.84E-05 Te-129m 4.87E-05 1.36E-05 I 7.56E-06 1.57E-05 1.34E-06 1.43E-04 _No I,NoDataData { 5.94E-05 Te-129 1.34E-07 i 3.74E-08 i 3.18E-08 } 9.56E-08 i 3.92E-07 i No Data  ! 8.34E-06 Te-131m 7.20E-06 ["Ei5E-06 ' 2.65E-06 i 5.12E-d5-' 2.41E 05 i No Data 1.01 E-04 Te-131 8.30E-08 _ ["E53E-08 2.47E-08 [,6.35'5-08 , 2.51 E-07 [~No Data { {[4.36E-07 Te 132 1.01 E-05___ i 4.47E-06 5.40E-06 6.51 E-06 I 4.15E-05 I No Data i 4.50E-05 Te-133m 1.87E-07 I' 7.56E-08 ' 9.37E-08 I_5.77E-06

 ..Te-134 1.29E-07 [_5.80E-08       [
                                                      } 7.74E-08 1  1.02E-07 j    ,1.45E-07 5.37E-07  _ [No      } 7.18E-07 Data    f 5.89E-07   [No Data l129         1.39E-05_     8.53E-06 ! 7.62E-06         5.58E-03 j 1.44E-05 i No Data } _4.29E_-07 l-130        2.92E-06      5.90E-06 i 3.04E-06         6.50E-04 i 8.82E-06 _ [.No Data ! 2.76E-06 l-131        1.72E-05 _ i'1.73E-05 I* 9.83E-06         5.72E-03 } 2.84E-05 i No Data              1.54E-06 I

I132 8.00E-07 " 1.47E-06 6.76E-07 , 6.82E-05 '"2.25E-06 _ I'No Data 1.735266" l-133 5.92E-06 7.32E-06 2.77E-06 l 1.36E-03 1.22E-05 i No Data 2.95E-06 l-134 4.19E-07 [ 7.78E-07 ' 3.58E-07 1 1.79E-05 },1.19E-06 [No Data ["5 55EIdf I-135 1.75E-06 ! 3.15E-06 1.49E-06 ! 2.79E-04 l 4.83E-06 ! No Data i 2.40E-06 (" Data presented in this Table are from Reference 9. A-36

                                                                                                                                )

PNPS-ODCM Rev. 8 TABLE A-17 (continued) < INGESTION DOSE FACTORS FOR CHILDW mrem /pCi Inhaled l I Total i Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI J Cs-134m _ 8.44E-08 {_1. 25E-07 { 8.16E-08,, ,j,ho Data,_ ,,j. 6.59E-08 _ !,1. 09E-08, , ,.,1. 58E-07,, Cs-134 2.34E-04 1 3.84E-04 { 8.10E-05 No Data 1.19E-04 4.27E-05 2.07E-06

  ~dii5'S       8.305"6,5~][5.78E-05          5.93E,-06,, ,.,No Data        , 2.04 E;05_, ,,,. 6.81 E-06 _._,,,4.33 E-07,,,

Cs-136 2.35E-05 , [ 6.46E-05 4.18E-05 i No Data i 3.44E-05 l* 5.13E-06 l 2.27E-06 [Usi5f' ' 3.27E-04 _ [,,3.135-04 4.62E-05,,,,,,[ No Data }"..i.D2E-04_ ,,((5'515-05 [i 555:55-

  ...C.s-138,   2.28E-0,7_j 3.17E-07 ,. 2.01 E-07 ,. No Data                L2.23E-07_ ,,L2.40E-08 L1.46E-07
  . Cs _139     1.45E-07     1,1.61 E-07_ _ ___ _1 7.74 E-08 1 No Data __j 1.21E-07. _j 1.22E-08 _ { 1.45E-11
  . Ba,-139     4.14E-07 L2.21 E-10 {___1.20E-08 j_ No Data _11.93E-10 1130E-10 ! ,2.39 E-05,,,
  ..Ba-140      8.3_1 E-05_,j,,7.28E-08 { ,4.85E-06_,..! No Data            j. 2.37E-08 _ !_434E-08             4.21 E-05 Ba-141 2.00E-07 J 1.12E-10           6.51 E-09        No Data      j 9.69E-11 l 6.58E-10                1.14E-07 "5a 142       8.74E-08 i 6.29E-11           4.885-09         No 55ta      i 5.09E-11 ["5:165-ii""l"I.Id555'                   i Ja-140        1.01E-08 13,.53E-09_ [,1.19E-09 I"No Data                   }[N,o Data       [N5'd5t5 ~~[9.84E.-05 La 141      1.36E-09 _ [ 3.17E-10         6.88E _11_ _ j No Data

_j_.No Data.. ,j No Data 1,7.05E-05_ La-142 5.24E-10 l 1.67E-10 5.23E-11 No Data l No Data l No Data l 3.31E-05 "de-141 3.97E-08 [ 1.98E-08 2.94 E-09 No Data 8.68E-09 '"N5'd5t5" ~~ 2.475265~

  ..Ce-1_43     6.995265~][5;i55{U6, ,,, 5.49E-10 }..No bitA~                                         ~}~5'.555-09
                                                                                             ,, No bata        . 5.555"d5,[

Ce-144_ 2.08E-06 i 6 52E-07_j 1.11E-07_ !.,No Data

                             ,                                              ..,3.61 E-07_,,. No Data         ...1.70 E 04,,,,,,

Pr-143 3.93E-08 l 1.18E-08 l 1.95E-09 l No Data 6.39E-09 No Data i 4.24E-05 fr-144 1.295][U][5'555"II[,]((5'39E;,12,,,j[.No Data __,.2.1152ii" [N5'6At5~ ~f[8.595,{d5[

  ..Nd-147      2.79E-08_   _j . 2.26E-08_ l 1.75E-09 _ j No Data           j,,,124E 08 ! No Data { 3.58E-05.,.
  ..Pm-147_     3.18E-07_,J 2.27E-08 [ 1.22E-08 },.No Data i 4.01E-08,,, _No Data ! 9.19E-06
  . P,m-148m    1.03E-07 i 2.05E-08_,,j.2.05E 08,,,,j No Data [ 3.04E-08. ..,, No. Data _ ,,j__5.78E-05 Pm-148      3.02E-08        3.63E-09 ["2.35E-09 ! No Data                  6.17E-09 i No Data               9.70E-05 Pm-149      6.49E-09         6.90E-10 15'Y55"i6~~I No Data
                                                 .                             1.225!U5"~["No Data              4.71 E"d5~

Pmd 51 2.92E-09 [ 3.555-10 2.31 E-10 I"N5'dii3~ ~i 6.02E"i6"i No Data

• 4.03E-05

[S.m-151 2.56526f"~' 3.815-08 1.20E-05"~"No Da.ta_ ,,j[ 3.94E-08 '"No Data 5.53E-06 Sm-153 3.65E-09 2.27E-09 2.19E-10 No Data I 6.91E-10 No Data 3.02E-05 [5u-152 6.155"UY((I"i.12E-07 [i.'555{dV[,,j[N5} bite [ ~' 4.73E-07,,][No Data {_1.845"d5'"

  .,Eu-154                                                     No Data , 9.09E-07              No Data       ! 4.81E-05 Eu-155      2.30E-06l _

4.82E-07  !. 2.07E-07 , 2.72E-081.89E-07. 3.47E-08 No Data  ! 1.30E-07 No Data i 8.69E-05 [5u 156 5.62526E" ~3.01 E-08 ~5 23E-09 j[N5'65i5"~~j,1. 9,4E-08(( No Data *[5.83E-05_ [ Tb-160 1.66E-07 No Data 2.06E-08 i No Data i 4.94E-08 [_ No Data i 3.68E-05 [No-166m 1.08E-06_ j[2.26E-dI" '"I.91E-07,,, i"No Data }"5[.5E5"Ui[]. No. Data .. .,,i 2.63E-05,,,

  ..W-181       4.23E;08..,,j 1.04E-08         1.43E-09        No Data    .,,[ No Data       [ No Data,, ,,,},,3.79E-07,,,      ;

W-185 1.73E-06 i 4.32E-07 6.05E-08 No Data i No Data i No Data i 1.61E-05 I

  ..W-187       4.295"Ui[]"5 5d5-57" [ 1.14E-07 j[N5,[55i5" "i"N5'U5iA[_[i No Data                           I"5:575255~        I
  ...Pb-210     4.75E-02__ _ L1,.22E-02,,,,,J. 2.09E-03        No Data _ _13.67E-02 ! No Data _ .} 2.30E-06_,                   j Bi-210      1.97E-06 ,,j 1.02E-05 !,,1.13E.-06,,, , No Data j,1.15E-04 _ ! No Data _ , .L5.,17E.-05,..          !

Po-210 1.52E-03 _ },.2. 43E-03 1 3.67E-04 i 7.56E-03 No Data { 6.55E-05_, J Ra-223 2.12E-02 1 2.45E-05 ! 4.24E-03 No _ i,,No Data Data 6.50E-04 No Data  ! 3.38E-04  ! Ra-224 6.555"U5][,,1.25E-05... .((i.555-03.,,.i. No Data } _3.31 E-04 _ _ [ No Data [ _ "5'.755{65~ l Ra-225 5.59E-03 No Data _ ,, J.,6.62E7 04 No Data { 3 21 E,-04,_ l 2.8,0E-02 _1.84E-05 [i 2.50E-05 ! Ra-226 5.75E-01 4.72E-01 No Data i 4.88E-04 No Data  ! 3.41E-04 i Ra-228 3.85E-01 l 9.99E-06 ! 4.32E-01 i No Data i 2.65E-04 i No Data i 5.81E-05 l N Data presented in this Table are from Reference 9. l i l A-37

PNPS-ODCM Rev. 8 l TABLE A-17 (continued) INGESTION DOSE FACTORS FOR CHILD m , mrem /pCi Inhaled Total Nuclide Bono Liver Body Thyroid Kidney Lung GI-LLI Ac-225 1.88E-05 ,,,,3,1.94 E-05 !,1.26E-06 No Data j 2.07E-06 i !_4.31 E-04 Ac-227 4.12E-03 1 6.63E-04 ! 2.55E-04 No Data i 1.4GE-04 ,,[_ No No DataData 8.43E-05 Th-227 5.85E-05 _ [J.96E-07_ _ ! 1.69E-06 ___ ,,_No Data j ,4.22E-06 ,1 No Data , 5.63E-04 Th-228 2.07E-03,,,,,! 2.GE-05 { 7.00E-05 j No Data j _1.38E-04.,,_{ No Data i 5.79E-04 Th _229 2.35E-02 _ [,,5.91,,E,o4_ ,,j 3.92E-04 j Ne Data j,2.89E-03 No Data { 8.04E-05 1 Th-230 3.55E-03 ! 1.78E-0( ,,! 9.91E-05 j, No Data j 8.67E-04 ,,No Data ! 6.19E-05 l Th-232 3.96E-03 i l 7.41E-04 No Data  ! 5.27E-05 Th-234 3.42E-07 { 1.51 1.52E-04  ; 3.01E-06 i E-08 [ ,M8.,E-09 [ No Data No Data i 8.01E-08 No Data l' 1.18E-04 Pa-231 7.07E-03 2.34E-04 1 2.8 m-04 i No Data i 1.28E-03 i No Data *i 7.37E-05 Pa-233 1.81E-08 _ ; 2.82E-09 I, 3.16E-09_,I No Data j[1.04E-08 i, No Data 1.44E-05 U-232 1.76E-02 No Data 1 1.26E-03 ! No Data

• i 1.34E-03 I No Data 6.98E-05 U-233 3.72E-03 No Data 2.25E-04 Mo Data j' 6.10E-04 _{ ' No Data I,6.45E-05 U-234 3.57E-03 _ No Data 2.21 E-04 Nc, Data j 5.98E-04 [ No Data 1 U-235 3.42E-03 ,,,No Data 2.07E-04 . No Dcq,,,.,,j 5.61 E-04 !,No Data f,6.32E-05 8.03E-05 U-236 3.42E-03 [ No Data l 2.12E-04 l No Data l 5.73E-04 l No Data l 5.92E-05 U-237 2.36E-07 i *No Data I 6.27E-08 ~}' No Data l S.81E-07 I No Data i 2.08E-05 U-238 3.275-03 No Data i 1.94E-04 i"SiData l~5.24E-04 i No Data I"5.66E-05

                                                                                                     *~
  ,,Np-237      2.23E-03      1.47$~-Ud~~I 9.79E-05  No Data          j"E.565-04,,,,[ No Data         8.16E-05        l
  ,,Np-238      5.83E-08 _ 1.18E-09 f 9.08E-10 ,, No Data               j 3.76E-00_ .,I__No Data     ,,4.04E-05
  , Np-239      5.25E-09 _ _ [ 3.77E-10 ! 2.65E-10 } No Data            j 1.09E-09_ l No Data        i 2.79E-05 Pu-238      1.19E-03_ ,j 1.38E-04 !                       No Data _ j_1.15E-04 l Np Data         i 7.50E-05 Pu-239 Pu-240 1.29E-03 _ ! 1.38E-04     [ 3.16E-05 3.31 E-05 , No Data j 1.22E-04 [No,,0ata !__6.85E-05 3.31 E-05       No Data                                   6.98E-05 1.28E-03 J 1.43E-04                                      i 1.,22E,-0,4,,,,,j No Dats Pu-241      3.87E-05 ! 1.58E-06           8.04E-07        No Data   I,,,2.96E-06 i No Data          1.44E-06 Pu;242       1.19E-03 [ 1,.38E-04,,,,,i 3.19E-05 "No Data } 1.17E-04 [No Data I, CJ15-05__

Pu-24,4 1.39E-03 [ 1.58E-03 t No Data _j 1.35E-04 No Data 1.00E-04,,,.,,  ; Am-241 1.36E-03 J 1.17E-03__ 1,1.02E-04 ,, 3.65E-05

                                                          , No Data _ j 6.23E-04            No Data  ,,,7,.64 E-05 ,,

Am-242m 1.40E-03 _ [_1.12E-03, . i 1.04E-04 l No Data j 6.30E-04 Ne Data  !,,9.6,1 E-05,,, Am-243 1.34E-03___ __[ 1.13E-03 { 9.83E-05 i No Data l 8.95 E-05, ,, , Cm-242 8.78E-05 i 7.01E-05 l *5.84E-06 I No Data l__6.06E-04 1.87E-05 i No Data [ No Data 8.16E-05 l Cm-243 1.28E-03 _ I 1.04E-03 8.24E-05 No Data } 3.08E-04 No Data @d55-05 Cm-244 1.08E-03 I 8.74E-04 6.93E-05 No Data i 2.54E-04 No Data i 7.77E-05 Cm-245 1.6f5-03 _ I,1.34E-03 [1J5E-04 i_No Data j 4.11E-04 i No Data $535-55~ Cm-246 1.65E-03 ! 1.34E-03 1 1.05E-04 No Data i 4.10E-04 [_ No Data 7.11 E-05

  ~Dm-247       1.61 E-03 II32E-03 I 1.03E-04                 No Data   l 4.04E-04 I~No Data            9.35E-05 Cm-248      1.34E-02 [ 1.095dE"~[ 8.52E-04 i No Data              i 3.33E-03 ~i No Data        I' 1.51 E-03 Cf-252      1.05E-03 i No Data-~l 2.54E-05 I No Data                i No Data         i No Data  I~E.56E-04 W Data presented in this Table are from Reference 9.

A-38

c PNPS-ODCM Rev. 8 TABLE A-18 INGESTION DOSE FACTORS FOR INFANTW mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI H-3 No Data { 1.76E-07 j 1.76E-07 i 1.76E-07 i 1.76E-07 i 1.76E-07 1 1.76E-07

• Be-10 1.71E 05 2.49E-06 5.16E-07 }jNo Data } 1.64526E"] No Data 2.78E-05 C-14 2.37E-05 5.06E-06 5.06E-06 5.06E-06 ! 5.06E-06 i 5.06E-06 5.06E-06 N-13 5.85E-08 i 5.85E-08 i 5.85E-08 5.85E-08 i 5.85E-08~ ~ i' 5.85E-08 i 5.85E-08 F-18 5.19E-06 ' No Data [ 4.43E-07 } No_ Data i No Data I" 1.22E-06 Na 22 9.83E-05_ , 9.83E_-05__ ! 9.83E-05 9.83E-05 j 9.83E-05 [ N5'6ata,_,,,_[

9.83E 05_,,1 9.83E-05 l

  ,,,Na-24      1.01 E-05   I                                 1.01 E-05   !                  1.01 E-05 .j 1.01E-05         )

P-32 1.70E-03 . I___1.01 E-05 { 1.01E-05 1.00E-04 i 6.59E-05 No Data l.1.01 No DataE-05 No Data i 2.30E-05 ' Ca-41 3.74E-04 I"No Data i 4.08E-05 i No Data i No Data i No Data i~13i5di~ Sc-46 3.75E-08 [ 5.41E-08 i 1.69E-08 [No Data ' 3.56E-08 ll[ No Data i,,3.535,;05_. Cr-51 No Data _ [ No Data !_1.41 E-08 j 9.20E-09 2.01 E-09 _ I 1.79E-08 I ,4.,11 E-07 Mn-54 No Data [ 1.99E-05 } 4.51E-06 j,,No Data } 4.41E-06 i No Data __ j 7.31E-06_ j Mn-56 No Data j 8.18E-07__ 1.41 E-07 ,,No Data i Fe-55 1.39E-05 8.98E-06 2.40E-06 No Data j! 7.03E-07 No Data _4.39E-06 [_ No Data _1 7.43E-05_ i 1.14E-06 Fe-59 3.08E-05 5.38E-05 i 2.12E-05 i No Data i No Data 1.59E-05 i 2.57E-05 Co-57 No Data 1.15E-06 I 1.87E-06 l No Data l No Data 1 {"N5" Data I 3.92E-06 Co-58 No Data I 3.60E-06 8.98E-06 j[No Data } No Data [,N,o, Data '![5.575-06 Co-60 No Data 1.08E 05 2.55E-05 No Data i No Data 1No Data 2.57E-05 Ni-59 4.73E-05 1.45E-05 8.17E-06 No Data __ l No Data l No Data 7.16E-07 "NL63 6.34E-04 I"5.92E-05 !"E.555 55"~i"No Data i No Data ["No Data 1.95E-06 Ni-63 4.705"6E"][5.5E5"67~ I,2.42,E-07 "No Data }lNo Data ((N.o Data _ ,,,{~d:U55 U5~ Cu-64 No Data i 6.09E-07 i 2.82E-07 No Data  ! 1.03E-06 ! No Data  ! 1.25E-05 Zn-65 1.845!65"~i 6.31E-05~~i 2.91E-05 I"N5' Data i 3.06E-05 ~ ~['No Data I"5.555-05 "I5-69m 1.50E-06 I 3.06E-06 I 2.79E-07 I No Data [ 1.24E-06 I No Data I 4.24E-05" _Z.n;69.,_ 9.33E-08 ;i 168E-07 [1.25E-08,,[No Data }[5.'ssE:6s TNo Data I1.37E-05

  . S,e,:79     No Data                                       No Data    j,,2.43E;05,_,41 No Data          5.58E-07

{ 2.10E-05 [3.90E-06 Br-82 No Data  ! No Data i 1.27E-05

                                                     ~

No Data l No Data l No Data No Data "5El55" No d5fi" ~i No Data i* 3.63E 67~1"N5' data i No Data i* No Data i No Data [5ir,.84,._ No Data [No Data 3.82E-07 ] No Data }. No Data No Data ["No Data Br-85 No Data _ [No Data _ ,__ 1 .94E-08 j, No Data j No Data , No Data  ! No Data Rb-86 No Data  ! 1.70E-04 i 8.40E-05 No Data i No Data i No Data i 4.35E-06 Rb-87 No Data I 8.88E-05 I 3.52E-05 No Data l No Data i No Data f 5.98E-07 Rb-88 No Data I' 4.98E-07 [2.73E-07 ] No Data ).,,N,o Data [ No Data i 4.85E-07 Rb-89 No Data [ 2.86E-07 _ ,_{,,1 9,7E-07_ _ No Data j No Data _ ,.[No Data L,9.74 E-08_ Sr-89 2.51E-03_,,! No Data [ 7.20E.-05 , _No Data l No Data

                                                                                          !, No Data     ! 5.16E-05        l Sr-90       2.83E-02 i No Data             5.74E-04 i No Data         i No Data       i No Data      l 2.31E-04 Sr-91       5.00E-05 ~i No Data . 1.81 E-06 "No Data                 } No d5ia" INo Data             [5.92E-05j, Sr92        1.92E-05 [ No Data           l 7.13E-07       No Data    ~

l No Data No Data l 2.07E-04 i Y-90 8.69E-08 I"N5'65ta No Data No Data No Data i 1.20E-04 I Y-91 m i"E355166~[fN5'UAta 8.105-10 ["N5' data I"E'16E-11 . No Data f"No Data "E.70E-06 l Y-91 1.13E-06 I"N"5liat3~ ~i'3.01E-08

                                                           '"No Data     I"No Data        I"No Data

• 8.105-d5" Y-92 7.65526E"~[ No Data 2.15E-10 No Data l No Data [ No Data 1.46E-04 1-93 2.455!EE~~I'No Data 6.62E-10 No Data i No Data I"No Data 1.925265~ l W Data presented in this Table are from Reference 9.

1 l A-39

F' PNPS-ODCM Rev. 8 TABLE A-18 (continued) INGESTION DOSE FACTORS FOR INFANTN mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Zr 93 1.93E-07 9.19E-09 5.54E-09 i No Data 2.71 E-08 i No Data i 2.39E-06 {I 5.02E-08 Zr-95 2.06E-07 3.56E-08 "No Data l 5.41E-08 No Data i 2.50E-05 Zr-97 1.48E-08 I 2.54E-09 1.16E-09 No Data l 2.56E-09 No Data I"1.62E-04 Nb-93m 1.23E-07 [5:555-55~~[1.04E-08 l _No Data j 3.25E-08 i No Data { 3.98E-06 Nb-95 4.20E-08 1.73E-08 j 1.00E-08 l No Data 1.24E-08 ,i No Data  ! 1.46E-05 Nb-97 4.59E-10 9.79E-11 13.53E-11 }__No Data 7.65E-11 i No Data I_3.09E-05 Mo-93 No Data"~ I"5:555 d5"~' 1.82E-06 } No Data ' 1.13E-05 i No Data 1.21 E-06 . Mo-99 No Data i 3.40E-05 6.63E-06 No Data 5.08E-05~I No Data ' 1.12E-05 i Tc-99m 1.92E-09 I 3.96E-09 i 5.10E-08 No Data i 4.26E-08 i 2.07E-09 i 1.15E-06 Tc-99 1.08E-06 }"1.23E-05 "1.42E-07 I' 6.31 E-06 ) 1.46E-06 { 4.55E-07 i No Data ' Tc-101 2.27E-09 2.86E-09 1 2.83E-08 } No Data l 3.40E-08 1.56E-09 { 4.86E-07 Ru-103 1.48E-06 i No Data i* 4.95E-07 i No Data j 3.08E-06 i No Data ~l' *1.80E-05 Ru-105 1.36E-07 I No Data 4.58E-08 i No Data  ! 1.00E-06 i No Data 5.41 E-05 Ru-106 2.41E-05 !"N5"6ata 3.01 E-06 }"No Data I2.85E-05 { No Data 1.83E-04 Rh-105 1.09E-06 ["7.13E-07 i 4.79E-07 i No Data 1.98E-06 No Data i 1.77E-05 Pd-107 No Data I 1.19E-06 i 8.45E-08 } No Data 6.79E-06 No Data f 9.46E-07 Pd-109 No Data i 1.50E-06 I 3.62E-07 j No Data j _5.51E-06 [No Data [ 3.68E-05 Ag,-110m 9.96E-07 [ 7.27E-Of~I 4.81E-07 No Data 1.04E-06 i No Data i 3.77E-05 39.111 5.20E-07 [,2.02E-07 ],1.07E-07 , No Data ,,,,4.22 E-07 [,No Data ! 4.82E-05 Cd 113m No Data i 1.77E-05 1* 6.52E-07 l No Data l 1.34E-05 i No Data i 2.66E-05 Cd-115m No Data 1.42E-05 4.93E-07 } No Data I 7.41E-06 ["No Data I 8.09E-05 Sn-123 2.49E-04 3.89E-06 6.50E-06 I 3.91E."d5~"1 No Data l No Data i 6.58E-05 Sn-125 7.41 E-05 i' 1.38E-06 No Data i 1.11 E-04 Sn-12e 5.53E-04 I 7.26E-06 ' 1.80E-05 3.29E-06,_}i 1.36E-06 1.91 E-06 No Data } No Data No Data i 2.52E-05

      ,,Sb-124      2.14E-05 [ 3.15E-07 i 6.635"d5""j 5.68E-08               No Data     i 1.34E-05 i 6.60E-05"'
      .,Sb-125      1.23E-05 l 1.19E-07         2.53E-06      1.54E-08_,,,] No Data         7.12E-06d,1.64E-05
     , Gb-126       8.06E-06 _ {,1.58E-07 , 2.91 E-06         6.19E-08 j, No Data        ,_ 5.07E-06 ! 8.35E-05
     ., S,b-j,27    2.23E-06 ! 3.98E-08 } 6.90E-07 l 2.84E-08 i No Data                  i 1.15E-06 ! 5.91E-05 Te-125m                                                                           i              i 1.11E-05 Te-127m      5.85E-05 . 7.79E-06 2.33E,-05,,,,)I          1! 3.15E-06 1.94E-05   7.08E-06 i l1.69E-05 7.84E-06,,,_,j j 1.44E-04No Data   No_Data

{_ No{ Data _2.36E-05 Te-127 1.00E-06 I 3.35E-07 { 2.15E-07 i 8.14E-07 j 2.44E-06 *"No Data i 2.10E-05 Te-129m 1.05526I"I 3.43E-05 l 1.54E-05 } 3.84E-05 1 2.50E-04 No Data I' 5.97E-05 "te-129 2.84E-UI'i 9.79E-08 i 6.63E-08 i 2.38E-07 i 7.07E-07 i No Data [ 2.27E-05 Ye-131m 1.52E-05~I 6.12E-06 5.05E-06 '"No Data I"i.03E-04 Ye-131 1.76E-07 l '6.50E-08 ['4.94E-08 j i 1.24E-05 I"I'.57E-07 l 4.50E-07 I 4.21E-05 No Data l' 7.11 E-06

     ~fi-332        2.08E-05 _ I"Id55 dh 9.61E-06 .i 1.52E-05 ' 6.44E-05 _ i_N,o, Data                  [,3.81 E-05 Te-133rn                                           _ i 3.45E-07       1.22E-06 j No Data            1.93E-05 Te-134       3.91E-07,,,,,,[_1.79E-07        q 1.71 E-07__ _I _2.39E-07
                                                                             , 9.03E-07 [No Data        [3.06E-06 2.67E-07 [ 1.34E-07 # _.38E-07 1

l-129 l 2.86E-05 l 2.12E-05 1.55E-05  ! 2.51E-05 No Data i 4.24E-07 l-130 6.G9E-06 I 1.32E-051 l 5.305:55~~j 1.36E-02 l 1.48E-03 l 1.45E-05 No Data IE.83E-06 l-13i 3.595 05 I 4.23E-05 '} 1.86E-05 i 1.39E-02 l 4.94E-05 i No Data

• i 1.51 E-06 1332 1.66E-DE~I 3.37E-06 { 1.20E-06 i No Data _,,,,,[2.73E-06 l-133 1.25E-05 I 1.82E-05 l 5.33E-06 I,1.58E-04 [ 3.76E-06 3.31 E-03 1 2.14E-05 No Data  ! 3.08E-06

                 ^

l-134 8.69E-07 i_j;78E-06 { 6.33E-07 j 4.155f55]_1.99E-06 I _No Data i 1.84E-06 l135 3.64E-06 i 7.24E-06 i 2.64E-06 ! 6.49E-04 l 8.07E-06 i No Data  ! 2.62E-06 W Daia presented in this Table are from Reference 9. A-40

PNPS-ODCM Rev 8 TABLE A-18 (continued) INGESTION DOSE FACTORS FOR INFANTO ) mrem /pCi inhaled Total Nuclide Bone Liver Body Thyroid Kidney Lung GI-LLI Cs-134m 1.76E-07 { 2.93E-07 ,1.48E-07 j No Data j,1.13E-07 2.60E-08 j ,2.32E_-07 Cs-134 3.77E-04 7.03E-04 7.10E-05 i No Data i 1.81E-04 7.42E-05 [ 1.91 E-06 Cs-135 1.33E-04 1.21 E-04 6.30E-06 l' No Data l 3.44E-05 1.31 E-05 14.37E-07 "Di"555' 4.59E-05_ i 1.35E-04 { 5.04E-05 i No Data j 5.38E-05 [ 1.10E-05 2.05E-06 i

   ..C,s-137                                                                                            1.91 E-06 Cs-138        5.22E-04,__[I 4.81 E-07             6.11E-04 7.82E-07   l 3.79E-07  _ _i No
                                                              ! 4.33E-051.64E-04 Data

_ _ [6.64E-05 i No Data f' 3.90E-07 l 6.09E-08 1.25E-06 "Ds-139 1 3.10E-07 I 4.24E-07 ' 1.62E-07 } No Data Ba 139 l 2.19E-07 i 3.30E-08 [2.66E-08 8.81 E-07 I 5.84E-10 2.55E-08 }"No Data l 3.51E 10 ' 3.54E-10 1 5.58E-05 "Ba-140 1.71 E-04 [ 1.71E-07 , _8.81 E-06 i~No Data }A06E-08 ,1.05E-07 { 4.20E-05 Ba-141 4.25E 2.91 E-10 1.34E-08 No Data j 1.75E-_10 1.77E-10 5.19E-06 Ba-142 1.84E-07 1.53E-10 } 9.06E-09No Data

                                             !                          I 8.81E-11        9.26E-11      7.59E 07 La 140        2.11E-08 ;i 8.32E-09_ {,2.14E-Oi"~i, No Data                                                       l
                                                                        } No Data i No Data i 9.77E-05 La-141       2.89E-09 [ 8.38E-10 } 1.46E-10 } No Data              j No Data         No Data    [ 9.61 E-05 La-142       1.10E-09 l 4.04E-10 j_9.67E-11 l No Data              j No Data      ,, No Data 6.86E-05 Ce-141       7.87E-08 _ i 4.80E-08         5.65E-09      No Data      1.48E-08 i No Data           2.48E-05 Ce-143       1.48E-08 i 9.52E-06           1.12E-09       No Data  j~5"56E
                                                                         !      2 09 i No Data i 5.73E-05 Ce-144        2.98E-06 i 1.22E-06 i 1.67E 07 i No Data              i 4.93E-07 i No Data i~1.71 E-04 Pr-143 8.13E-08 _ { 3.04E-08 [32)3E-09 ' No Dataj 1.13E-08 I"N5"bata I 4.29E-05 Pr-144       2.74E-10 ! 1.06E-10 1 1.38E-11               No Data   i 3.84E-11 I No Data f 4.93E-06 Nd-147       5.53E-08 i 5.68E-08 i _3.48E-09 { No Data } 2.19E-08 i No Data i 3.60E-05 Pm-147       3.88E-07 [ 3.27E-08 i 1.59E-08               No_ Data  1 4.88E-08 [ No Data [ 9.27E-06 Pm-148m      1.65E-07 [ 4.18E-08 [ 3.28E-08 , No Data } 4.80E-08 ! No Data [ 5.44E-05 Pm-148       6.32E-08 l 9.13E-09 i 4.60E-09               No Data     1.09E-08 i No Data I 9.74E-05 Pm-149       1.38E-08 I'1.81 E-09 I7.90E-10               No Data     2.20E-09 INo Data I 4.86E-05 Pm-151       6.18E-09 ["5.01 E-10 i 4.56E-10 i No Data } 1.07E-09 { No Data i 4.17E-05 Sm-151_      2.90E-07 } _6.67E-08 j 1.44E-08              No Data     4.53E-08       No Data       5.58E-06 Sm-153       7.72E-09 i 5.97E-09 [ 4.58E-10               No Data  ,_1.25E-09     ,__No   Data Eu-152       6.74E-07 i 1.79E-07           1.51 E-07      No Data   i 5.02E-07 i No Data i_3.12E   1.59E-05 05 Eu-154       2.64E-06 ' 3.67E-07           2.20E-07 I No Data I 9.95E-07 I No Data '"4.58E-05 "Eu-155        5.42E-07 , 6.25E-08 , 3.23E-08 { No Data }' 1.40E-07 [ No Data 8.37E-05"           ,_

Eu-156 1.12E-08 ! No Data i 3.26E-08 ! No Data 6.67E-05 1.14E-07 } 7.06E-08 Tb-160 2.59E-07 i No Data

                        ~

3.24E-08 I No Data l 7.37E-0G I No Data !'5.45E-05 l Ho-166m 1.25E 6E"} 2.69E-07 if 2.13E-07 [No Data }_3.57E-07 I[Ao Data i 2.66E-05 W-181 8.85E-08 l 2.72E-08 3.04E-09 No Data No Data l No Data 3.82E-07 W-185 3.62E-06 1 1.13E-06 1.29E-07 No Data No Data I No Data 1.62E-05 W 187 9.03E-07 i 6.28E-07 i 2.17E-07 i No Data i No Data i No Data 3.69E-05 Pb-210 5.28E-02 [ 1.42E-02 i,' 2.38E-03 j~No Data ' 4.33E-02 [ No Data _ [ 2.32E-06 Bi-210 4.16E-06 i 2.68E-05 1* 2.39E-06 i No Data 2.08E-04 ! No Data 1 5.27E-05 Po-210 3.10E-03 5.93E-03 7.41 E-04 i No Data j 1.26E-6E~i"No Data [ 6.615-05 "Ra-223 4.41 E-02 _ ,_6.42E-05_ _ 8.82E-03 [ No Data j,1.17E-03 _ [ No Data  !. 3.43E-04 Ra-224 1.46E-02 l ~3.29E-05 2.91 E-03 i No Data i C.00E-04 i No Data i 3.86E-04 Ra-225 5.78E-02 6.52E-05 1.15E-02 I"No Data l~i30E-03 ["No Data i 3.24E-04 "N52E56 6.20E- 1 4.76E-05 5.14E-01 i No Data l 8.71E-04 i No Data I 3.44E-04 Ra 228 4.32E-01 i 2.58E-05 i 4.86E-01 i No D5Ei~""l~i.Y55 di~i No Data i"5.555I65~ 03 Data presented in this Table are from Reference 9. A-41

T 1 PNPS-ODCM Rev.8 TABLE A-18 (continu*d) l INGESTION DOSE FACTORS FOR INFANTm mrem /pCi Inhaled l Total i Nuclide Bone Liver Body l Thyroid Kidney Lung Gl-LLI Ac-225 3.92E-05 _ { 5.03E-05 !. 2.63E-06 j .N,o D.ata__ j_3.69E-06_ _ { No Data { 4.36E-04 Ac,.227_ 4.49E-03 7.67E-04 __ j_2.79E-04 l No Data,_,,,j 1.56E-04 [ No Data 8.50E-05 Th-227 1.20E-04 2.01 E-06 ! 3.45E-06 i No Data ! 7.41E-06 i No Data 5.70E-04 j Th-228 2.47E-03 i 3.38E-05 " 8.36E-05 i' No Data I 1.58E-04 i'No Data i 5.84E-04 l Th-229 4.20E' 04__} No Data ]"5'555[6(("No Data i 8.105'd5~ 2.52E-0,2,,,, {i 6.33E-04 Th-230 3.80E-03 1.90E-04 ,1.06E-04 j _No_ Data j 9.12E-04 [No Data [_6.24E-05 , Th-232 4.24E-03 _ 1.63E-04 1.65E-06 No Data l 7.79E-04 i No Data i 5.31E-05 l Th-234 6.92E-07

• 3.77E-08 2.00E-08 No Data l 1.39E-07 IN5'U5Ia~ ~} 1.19E-04 l Pa-231 7.57E-03 2.50E-04 i 3.02E-04 i No Data i 1.34E-03 I"Ac Data i 7.14E-05 Pa-233 3.11 E-08_ 6.09E-09 5.43E-09 i No Data }"1.67E-08 "N5'bata . ,_i 1.46E-05 U-232 U-233 2.42E-02 _ , No Data { 2.16E-03_{ No Data

                                           !..                        j 2.37E-03 , No Data f 7.04E-05 5.08E-03 I No Data ! 3.87E-04 l No Data i 1.08E-03 i No Data                        ! 6.51E-05 U-234       4.88E-03.,,,["No Data      {. 3.80E-04 _ j No Data     j 1.06E-03 [ No Data "I[5[.52E-05
  ~U-235        4.67E-03       No Data     I 3.56E-04 j No Data I 9.93E-04 i No Data i 3.10E-05 U-236_      4.67E-03 [No Data          i  3.64E-04 l No Data i 1.01E-03 i No Data                  5.08E-05 U-237       4.95E-07 i No Data i 1.32E-07 } No Data i 1.23E-06 i No Data {""5.'I15              I               U5~

[UI238 4.47E-03 I"No Data i 3.33E-04 i No Data j 9.28E-04 [_No Data !,"57I5-d5~

  .,Np-237      2.40E-03       1.59E-04 [ _ _1.05E-04        No Data   j 6.34E-04 [ No Data         { 8.23E-05

_Np-238 1.24E-07 , 3.12E-09 _ !.,1_.92E-09 j 6.81E-09 IN.o Data _ ,} _4.17E-05

  ,,Np-239      1.11 E-08 { 9.93E-10 !.,5;61 E-10 } No        NoData Data

_j 1.98E-09 _ { No Data  ! 2.87E-05 Pu-238 1.28E-03 {3 40E-05 } No Data j 1.21E-04 [,,No__ Data l 7.57E-05 Pu-239 1.38E-03_. .} 1.50E-04

                             ! 1.55E-04 [.3.54,8E-05         No Data   l 1.28E-04 [.No Data i 6.91E-05 Pu-240      1.38E-03.,,,,} 1.55E-04        3.54E 95      No Data      1.28E-04 i No Data {_7.04E-05 Pu-241      4.25E-05       1.76E-06 },8.82E-01,.,,,
                                           !,,                    No Data
                                                                       , 3.17E-06__ _ _ I..No Data  } 1.45E-06_

Pu-242 1.28E-03 1.49E-04 1 3.41 E-05 ' No Data ~i 1.23E-04 [ No Data i 6.77E-05

  ..Pg-244 Am-241 1.49E-03 [ 1.71 E-04 I 3.91 E-05,,_ [ No Data 1.46E-03 l 1.27E-03 1 1.09E-04 i No Data

[ 1.41 E-04 I N5'U5ta 6.55E-04 i No Data 1.01 E-04

                                                                                                   ] 7.70E-05 I

Am 242m 1.51 E-03 ["I.555 55~~~~f'.'i35-04 i' No Data l 6.64E-04 i No Data i 9.69E-05 Am-243_ 1.44E-03 ["1.23E-03 1.06E-04 ' No Data j 6.36E-04 i No Data I 9.03E-05 Cm-242 1.37E-04 _ [ 1.27E-04 9.10E-06_ , No Data j 2.62E-05 ! No Data  ! 8.23E-05 Cm-243 1.40E.-03 1.15E-03 h,8.98E-05 No Data j 3.27E-04 [ No Data j 8.10E-05 Cm-244 1.18E-03 9.70E-04 ! 7.59E-05 No Data i 2.71E-04 ! No Data i 7.84E-05 Cm-245 1.79E-03 i 1.45E-03 i 1.13E-04 i No Data

• i 4.32E-04 i No Data i 7.30E-05 Cm-246 1.77E-03 i 1.455"d5~' 1.13E-04 No Data i 4.31E-04 i No Data '~f.It555~

  "diri-57      1.73E-03 [ 1.43E-03            1.11 E-04     No Data   i 4.24E-04 [ No Data            9.43E-05 Cm-248       1.435"65~i 1.18E-02 [ 9.16E-04 i No Data               i 3.50E-03 i No Data         I' 1.52E-03 Cf-252      1.22E-03 i No Data         i 2.95E-05 } No Data        i No Data      i No Data     i 2.99E-04 W Data presented in this Table are from Reference 9.

A-42

f PNPS-ODCM Rev. 8 TABLE A-19 RECOMMENDED VALUES FOR GASEOUS EFFLUENTS UI Parameter Symbol Parameter Description Values S Attenuation factor that accounts for 0.7 (maximum individual) the shielding provided by residential 0.5 (average individual.) structures 1.0 (noble gas-gamma instantaneous dose) (*) te Time period that crops are exposed to contamination during growing season i) for forage ingested by animals 720 hrs (30 days, for pasture grass) 1440 hr (60 days for stored feed)( ) ii) for crops ingested by man 1440 hrs (60 days) tr Average transport time of activity 48 hr (2 days, maximum individual) from the feed into the milk and to the 96 hr ( 4 days, average individual) receptor th Time delay between harvest of vegetation or crops and ingestion i) for forage ingested by animals Zero (for pasture grass) 2160 hr (90 days for stored feed) ii) for crops ingested by man 24 hr (1 day, for leafy vegetables & max. individual) 1440 hr (60 days, for produce & max. individual) 336 hr (14 days, for average individual) Yv Agricultural productivity by unit area (measured in wet weight) i) for forage ingested by animals 0.42 kg/m* (for pasture grass) ( ) 2.5 kg/m' (for stored feed) (') ii) for crops ingested by man 2.0 kg/m'

 ") All data presented in this table are from Reference 8, unless otherwise indicated.

(2) From Reference 12. (') From Reference 4. I A-43 I j

I PNPS-ODCM Rev. 8 APPENDIX B DEFINITION OF THE LOWER LIMIT OF DETECTION For purposes of analyzing effluents and environmental samples for radioactivity, the lower limit of detection (LLD) is defined as the smallest concentration of radioactive material in a sample that will yield a net count, above system background, that will be detected with 95% probability, with only 5% probability of falsely concluding that a blank observation represents a "real" signal. It should be recognized that the listed LLD is defined as an a priori (before the fact) limit representing the capability of the measurement system or analytical process ar d not as an l a posteriori(after the fact) limit for a particular measurement. Analyses should be performed in such a manner that the stated LLDs will be achieved under routine conditions. Usually, samples are counted for a period of time sufficient to ensure that the listed LLDs, based on normal analytical and counting parameters, are achieved. l Printouts of analytical results typically list the a posterioriminimum detectable concentration (MDC) l l which was actually achieved on a particular measurement. In those cases where a given sample - MDC is less than or equal to the listed a priori LLD, the required LLD has been achieved. Occasionally background fluctuations, unavoidable small sample sizes, the presence of interfering radionuclides, or other uncontrollable circumstances may result in the MDC for a particular measurement not meeting the listed LLD. In such cases, the contributing factors shall be identified and described in the Semiannual Radioactive Effluent and Waste Disposal Report (for 1 effluents) or the Annual Radiological Environmental Monitoring Report (for environmental samples). The value of the counting standard deviation (sb) used in the calculation of the LLD for a particular measurement system should be based on the actual observed standard deviation of the background counting rate or of the counting rate of an appropriate blank sample, rather than on an unverified, theoretically-predicted variance. One acceptable method for deriving sb i s as follows: Sy = h where: l s3 = standard deviation of the background counting rate or of the counting rate of an l l appropriate blank sample (counts / minute); B = background counting rate or counting rate of an appropriate blank sample l 1 (counts / minute); T = counting time interval for sample arcivsis (minutes). l l l B-1 t-.-- >

E-PNPS-ODCM Rev. 8 Lower Limit of Det*ction For Effluent Sampl s For a particular measurement system or analytical process which may include radiochemical separation used to analyze effluent samples, the lower limit of detection is calculated as follows: 1 4.66 s3 LLD; = E V 222E6 Y e~^!' , where: LLDj = a priorilower limit of detection for radionuclide i, (pCi/mL or Ci/g); 4.66 = combined numerical constant corresponding to 95% probability of detection, with 5% probability of falsely identifying background as a "real" signal; sb = standard deviation of the background counting rate or of the counting rate of an appropriate blank sample, (counts / minute); l E = counting efficiency,(counts / disintegration); V = sample size, (milliliters or grams); 2.22E6 = conversion factor for disintegrations / minute per Ci; Y = fractional radiochemical yield, when applicable; I Af = radioactive decay constant for radionuclide i, (hr-1); t = elapsed time between the midpoint of sample collection and time of counting, (br). Typical values of E, V, Y, and t used for normal effluent sample analyses should be used in this calculation. i l l B-2

T PNPS-ODCM Rev. 8 Lower Limit of Det*ction For Environmnntal Sampfes For a particular measurement system or analytical process which may include radiochemical l separation used to analyze effluent samples, the lower limit of detection is calculated as follows: l LLD; = 4.66 s3 l E V 222 Y e~M l l where:

                                                                                                              ]

l LLDj

                   = a priorilower limit of detection for radionuclide i, (pCi/ liter, pCi/m , or pCi/kg);

4.66 = combined numerical constant corresponding to 95% probability of detection, with 5% probability of falsely identifying background as a "real" signal; l sb = standard deviation of the background counting rate or of the counting rate of l an appropriate blank sample, (counts / minute); \ E = counting efficiency,(counts / disintegration); l V = sample size, (liters, cubic meters, or kilograms); l i 2.22 = conversion factor for disintegrations / minute per pCi; l Y = fractional radiochemical yield, when applicable; i , 4 = radioactive decay constant for radionuclide i, (hr-1); ) ! t = elapsed time between environmental sample collection or end of the sample collection period, and time of counting,(hr). Typical values of E, V, Y, and t used for normal effluent sample analyses should be used in this calculation. l 1 i B-3

PNPS-ODCM Rev. 8 APPENDIX C NRC SAFETY EVALUATION FOR ONSITE DISPOSAL OF SLIGHTLY CONTAMINATED CONSTRUCTION SOIL in May 1993, the NRC approved a permit under 10CFR20.302 to allow Boston Edison Company to dispose of construction soil containing small amounts of cobalt-60 and cesium-137. This soil was disposed of via onsite burial at a location on Boston Edison property adjacent to the Pilgrim Station meteorological tower. Dose calculations performed as part of the permit application and within the NRC Safety Evaluation concluded that the maximum dose from the disposal area would be less than 0.1 mrem / year during the year of disposal. Doses during subsequent years through the time of site decommissioning would be less than 0.01 mrem / year. Such exposure levels are considered insignificant relative to radiation dose arising from naturally-occurring sources of radiation and radioactivity, and other exposure pathways arising from operation of Pilgrim Nuclear Power Station. Complete details regarding the NRC permit for disposal, and the accompanying NRC Safety Evaluation, can be found in NRC Docket No. 50-293, " APPROVAL UNDER 10CFR20.302(a) RELOCATION AND PLACEMENT OF CONSTRUCTION SOIL WITH TRACES OF RESIDUAL RADIOACTIVITY ON SITE AT PILGRIM NUCLEAR POWER STATION (TAC NO. M85501)", dated May 4,1993.

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l C-1

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