ML17309A824

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Annual Radiological Effluent Release Rept. W/960228 Ltr
ML17309A824
Person / Time
Site: Saint Lucie  NextEra Energy icon.png
Issue date: 12/31/1995
From: Bohlke W
FLORIDA POWER & LIGHT CO.
To:
NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
L-96-42, NUDOCS 9603040201
Download: ML17309A824 (447)


Text

CATEGORY 1 REGULAT INFORMATION DISTRIBUTION YSTEM (RIDS)

ACCESSION NBR:9603040201 DOC.DATE: 95/12/31 NOTARIZED: NO DOCKET

-FACIL:50-335 St. Lucie Plant, Unit 1, Florida Power & Light Co. 05000335 50-389 St. Lucie Plant, Unit 2, Florida Power & Light Co. 05000389 AUTH. NAME AUTHOR AFFILIATION BOHLKE,W.H. Florida Power 6 Light Co. @groan RECIP.NAME RECIPIENT AFFILIATION

SUBJECT:

"St Lucie Units 1 a 2 1995 Annual Rall~ological Effluent Release Rept." W/960228 ltr. .A DISTRIBUTION CODE: IE48D COPIES RECEIVED:LTR ENCL SIZE:

TITLE: 50.36a(a)(2) Semiannual Effluent Release Reports NOTES: E RECIPIENT COPIES RECIPIENT COPIES ID CODE/NAME LTTR ENCL ID CODE/NAME LTTR ENCL PD2-1 LA 2 2 PD2-1 PD 1 1 NORRIS,J 1 1 R

INTERNAL: ACRS 1 1 FILE CENTE 0 1 1 NRR/DRPM/PERB/B 1 1 R DRSS/RPB 2 2 RGN2 FILE '1 1 EXTERNAL: LITCO AKERSFD 1 1 NRC PDR 1 1

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N NOTE TO ALL "RIDS" RECIPIENTS:

PLEASE HELP US TO REDUCE WASTE) CONTACT THE DOCUMENT CONTROL DESK, ROOM OWFN 5D-5(EXT. 415"2083) TO ELIMINATE YOUR NAME FROM DISTRIBUTION LISTS FOR DOCUMENTS YOU DON'T NEED!

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Florida Power 5 Light Company, P.O. Box 128, Fort Pierce, FL 34954-0128 L-96-42 FEB 2S 1996 10 CFR 50.36 10 CFR 50.36a U. S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555 Re: St. Lucie Units 1 and 2 Docket Nos. 50-335 and 50-389 1995 Annual Radioactive Effluent Release e ort Enclosed is the 1995 Annual Radioactive Effluent Release Report for St. Lucie Uni.ts 1 and 2. This report is being sent pursuant to 10 CFR 50.36(a)(2) and sections 6.9.1.7 and 6.14.3 of the St. Lucie Units 1 and 2 Technical Specifications. The report is for the twelve month period begining January 1, 1995, and ending December 31( 1995 there

'hould be any questions on this information, please contact us ~

Very truly yours, W. H. Bohlke Vice President St. Lucie Plant Enclosure WHB/SL cc: Stewart D. Ebneter, Regional Administrator, Region II, USNRC, Atlanta GA.

Senior Resident Inspector, USNRC, St. Lucie Plant 960304020i 95i23i I PDR ADQCK 05000335 g 8 '4CiiC$

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an FPL Group company

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Florida Power 8 Light Company, P.O. Box 128. Fort Pierce. FL 34954.0128

@PL L-96-42 FEB 28 1996 10 CFR 50.36 10 CFR 50.36a U. S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555 Re: St. Lucie Units 1 and 2 Docket Nos. 50-335 and 50-389 1995 Annual Radioactive ue t e e se e ort Enclosed is the 1995 Annual Radioactive Effluent Release Report for St. Lucie Units 1 and 2. This report is being sent pursuant to 10 CFR 50.36(a)(2) and sections 6.9.1.7 and 6.14.3 of the St. Lucie Units 1 and 2 Technical Specifications. The report is for the twelve month period begining January 1, 1995, and ending December 31, 1995.

Should there be any questions on this information, please contact Us ~

Very truly yours, W. H. Bohlke Vice President St. Lucie Plant Enclosure WHB/SL cc: Stewart D. Ebneter, Regional Administrator, Region Atlanta GA.

II, USNRCr Senior Resident Inspector, USNRC, St. Lucie Plant an FPL Group company

FLORIDA POWER k LIGHT COMPANY ST. LUCIE PLANT UNITS NO. 1 Ec 2 LICENSE NUMBERS DPR-67 Ec NPF-16 COMBINED ANNUALRADIOACTIVEEFFLUENT RELEASE REPORT FOR THE PERIOD JANUARY 1, 1995 THROUGH DECEMBER 31, 1995

0 TABLE OF CONTENTS DESCRIPTION PAGE EFFLUENT AND WASTE DISPOSAL SUPPLEMENTAL INFORMATION OFFSITE DOSE CALCULATIONMANUALREVISIONS SOLID WASTE AND IRRADIATEDFUEL SHIPMENTS PROCESS CONIROL PROGRAM REVISIONS LIQUID EFFLUENTS:

Summation of all Releases Unit¹ 1 8 Summation of all Releases Unit ¹ 2 10 Nuclide Summation by Quarter Unit ¹ 1 12 Nuclide Summation by Quarter Unit ¹ 2 16 Liquid Effluent Dose Unit¹ 1 20 Liquid Effluent Dose Unit ¹ 2 21 GASEOUS EFFLUENT:

Summation of all Releases Unit ¹ 1 23 Summation of all Releases Unit ¹ 2 24 Nuclide Summation by Quarter Unit ¹ 1 26 Nuclide Summation by Quarter Unit ¹ 2 30 Gas Effluent Dose Unit¹ 1 34 Gas Effluen Dose Unit ¹ 2 35 SOLID WASTE DISPOSAL - TABLE 3.9 Shipment Summations 36 SOLID WASTE DISPOSAL - TABLE 3.10 Sewage Sludge Shipments 40 Attachment - A UNPLANI'KDLiquid Release of August 19, 1995 41 Attachment - B C-200 ODCM Revision 16 and Revision 17 43

EFFLUENT AND WASTE DISPOSAL SUPPLEMENTAL INFORMATION

1. Regulatory Limits 1.1 For Liquid Waste Effluents A. The concentration of radioactive material released &om the site shall be limited to ten times the concentrations specified in 10 CFR Part 20 Appendix B', Table 2. Column 2 for radionuclides other than dissolved or entrained noble gases. For dissolved or entrained noble gases, the concentration shall be limited to 2E-4 micro-Curies/ml total activity.

B. 'Ihe dose or dose commitment to a MEMBER OF THE PUBLIC &om radioactive material in liquid effluents released, &om each reactor unit, to UNRESTRICTED AREAS shall be limited to:

During any calendar quarter to <= 1.5 mrems to the Total Body and to<= 5 mrems to any organ, and During any calendar year to <= 3 mrems to the Total Body and to <= 10 mrems to any organ.

1.2 For Gaseous Waste Effluents:

A. The dose rate in UNRESTRICTED AREAS due to radioactive materials released in gaseous effluents &om the site shall be limited to:

For Noble Gases: <= 500 mrems/yr to the total body and

<= 3000 mrems/yr to the skin, and For Iodine-131, Iodine-133, Tritium, and all radionuclides in particulate form with half-lives greater than 8 days:

<= 1500 mrems/yr to any organ.

  • B. The air dose due to noble gases released in gaseous effluents &om each unit, to areas at and beyond the SITE BOUNDARY shall be limited to the following:

During any calendar quarter, to<= 5 mrads for gamma radiation, and

<= 10 mrads for beta radiation and, During any calendar year, to <= 10 mrads for gamma radiation and

<= 20 mrads for beta radiation.

  • C. The dose to a MEMBER OF THE PUBLIC Rom Iodine-131, Iodine-133, Tritium, and all radionuclides in particulate form, with half-lives > 8 Days in gaseous effluents released, Rom each unit to areas at and beyond the site boundary, shall be limited to the following:

During any calendar quarter to <= 7.5 mrem to any organ, and During any calendar year to <= 15 mrem to any organ.

The calculated doses contained in a semi-annual report shall not apply to any ODCM Control. The reported values are based on actual release conditions instead of historical conditions that the ODCM Control dose calculations are based on. The ODCM Control dose limits are therefore included in Item 1 of the report, for information only

0 EFFLUENT AND WASTE DISPOSAL SUPPLEMENTAL INFORMATION (Continued)

2. EfHuent Concentration Limits(ECL)

Water: Ten times the 10 CFR Part 20, Appendix B, Table 2, Column 2, except for entrained or dissolved noble gases as described in 1.1.A of this report.

Air: Release concentrations are limited to dose rate limits described in 1.2.A. of this report.

3. Average Energy of fission and activation gases in gaseous effluents is not applicable.
4. Measurements and approximations of total radioactivity Where alpha, tritium, and listed nuclides are shown as zero Curies released, this should be interpreted as "no activity was detected on the samples using the ODCM Control analyses techniques to achieve required Lower Limit of Detection (LLD)sensitivity for radioactive eQluents".

A summary of liquid eQluent accounting methods is described in Table 3.1.

A summary of gaseous effluent accounting methods is described in Table 3.2.

4.1 Estimate of Errors LIQUID GASEOUS Error Topic Avg.% Max.% Avg.% Max.%

Release Point Mixing 2 5 NA NA Sampling 1 5 2 5 Sample Preparation 1 5 1 5 Sample Analysis 3 10 3 10 Release Volume 2 5 4 5 Total % 9 30 10 35 The predictability of error for radioactive releases can only be applied to nuclides that are predominant in sample spectrums. Nuclides that are near background relative to the predominant nuclides in a given sample could easily have errors greater than the above listed maximums.

EFFLUENT AND WASTE DISPOSAL SUPPLEMEKI'AL INFORMATION (Continued)

4. Measurements and Approximations of Total Radioactivity (Cont.)

4.1B (Continued)

RADIOACTlVELIQUID EFFLUENT SAMPLING AND ANALYSIS Liquid Sampling Type of Method of Source Frequency Analysis Analysis Each Batch Principal GaininaEmitters p.h.a.

Monitor Monthly Tritium L.S.

Tank Composite Gross Alpha G.F.P.

1 Releases Quarterly Sr-89, Sr-90, Composite & Fe-55 Continuous Daily Principal Gamma Emitters Releases Grab & 1-131 for p.h.a.

Samples 4/M Composite Analysis Dissolved & Entrained Gases One Batch/ Month p.h.a.

Tritium Composite Monthly L.S.

Alpha Composite Monthly G.F.P.

Sr-89, Sr-90, & Fe-55 Composite Quarterly C.S.

1- Boric Acid Evaporator Condensate is normally recovered to the Primary Water Storage Tank for recycling into the reactor coolant system and does not contribute to Liquid Waste EQluent Totals. p.h.a.- Gamma Spectrum Pulse Height Analysis using Germanium Detectors. All peaks are identified and quantified.

L.S.- Liquid Scintillation Counting C.S.- Chemical Separation G.F.P.- Gas Flow Proportional Counting 4/M - Four per Month

EFFLUENT AND WASTE DISPOSAL SUPPLEMENTAL INFORMATION (Continued)

4. Measurements and Approximations of Total Radioactivity (Continued) 4.1 (Continued)

B. (Continued)

IBBLE 32 RADIOACTIVEGASEOUS WASTE SAMPLING AND ANALYSIS Gaseous Sampling Type of Method of Source Frequency Analysis Analysis Waste Gas Decay Tank Each Batch Principal Gamma Emitters p.h.a.

Releases Containment Principal Gamma Emitters p.h.a.

Purge Each Purge Tritium L.S.

Releases 4/M Principal Gamma Emitters p.h.a.

Tritium L.S.

Monthly Particulate Composite Gross Alpha G.F.P.

Quarterly Particulate Composite Sr-89 Ec Sr-90 C.S.

p.h.a.- Gamma Spectrum Pulse Height Analysis using Germanium Detectors. All peaks are identified and quantified.

L.S.- Liquid Scintillation Counting C.S.- Chemical Separation G.F.P.- Gas Flow Proportional Counting 4/M - Four per Month

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT 4 1 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 EFFLUENT Ec WASTE DISPOSAL - SUPPLEMENTAL INFORMA1ION (CONTINUED)

5. Batch Releases Unit 1 Unit 2 A. Liquid
1. Number of batch releases: 48 47
2. Total time period for batch releases: 23343 22850 minutes
3. Maximum time period for a batch release: 744 744 minutes
4. Average time period for a batch release: 486 486 minutes
5. Minimum time period for a batch release: 35 35 minutes
6. Average dilution stream flow during the period: 802636 802636 gpm All liquid releases are summarized in tables.

B. Gaseous

1. Number of batch releases 29 69
2. Total time period for batch releases: 11922 6038 minutes
3. Maximum time period for a batch release: 600 600 minutes
4. Average time period for a batch release: 411 88 minutes
5. Minimum time period for a batch release: 160 27 minutes All gaseous waste releases are summarized in tables.
6. Unplanned Releases A. Liquid
1. Number of releases: 1 0
2. Total activity of releases: 9.88E-06 0 Curies B. Gaseous
1. Number of releases: 0 0
2. Total activity of releases: 0.00E 00 0 Curies C. See attachments (ifapplicable) for.
1. A description of the event and equipment involved.
2. Cause(s) for the unplanned release.
3. Actions taken to prevent a recurrence.
4. Consequences of the unplanned release

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EFFLUENT AND WASTE DISPOSAL SUPPLEMI~AL INFORMATION (Continued)

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Assessment of radiation dose 60m radioactive eQluents to MEMBERS OF THE PUBLIC

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7. ~

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due to their activities inside the SITE BOUNDARYassumes the visitor onsite for 6 hours6.944444e-5 days <br />0.00167 hours <br />9.920635e-6 weeks <br />2.283e-6 months <br /> per day for 312 days per year at a distance of 1.6 kilometers in the South East Sector.

The VISITOR received exposure Born each of the two reactors on the Site.

VISITOR DOSE RESULTS FOR CALENDAR YEAR 1995 were:

Gamma Air Dose 9.55E-03 Beta Air Dose 7.31E-03 GASEOUS PARTICULATE Bone 2.54E-06 Liver 2.96E-04 Thyroid 7.78E-04 Kidney 1.28E-04 Lung 2.96E-04 GI-LLI 2.92E-04 Total Body 3.92E-04

8. Offsite Dose Calculation Manual Revisions (ODCM):

The ODCM was revised two times during the reporting interval. A complete copy of each revision is provided per Attachment - B.

Revision 16 was implemented on Januaiy 26, 1995.

The purpose of the revision was to provide for more &equent monitoring by personnel when a Radioactive Effluent Instrument CHANNIH.has an INOPERABLE "control room alarm annunciation" condition as defined by the CHANNEL FUNCTIONAL TEST criteria. The revision qualifies two conditions: 1) 1NOPERABLE due to loss of radioactivity detection capability and 2) all CHANNEL functions OPERABLE except for"control room alarm annunciation" is INOPERABLE.

For condition

1) above, no changes to the existing requirements of the ODCM Control ACTION 47. Grab samples shall be taken per new ACIION 47a etc.
2) above, Revision 16 of the ODCM ACIION 47b now requires CHANNEL CHECKS be performed once per hour instead of performing a grab sample every 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> if the required "control room alarm annunciation" is the only cause of the INOPERABLE condition.

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The justification for this revision is to provide a higher level of protection by requiring hourly CHANNEL CHECKS instead of only providing for one grab sample per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> when only the "alarm annunciation" is INOPERABLE. This increased surveillance method should insure that

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the CHANNEL is indicating

t EFFLUENT AND WASTE DISPOSAL SUPPLEMENTAL INFORMA'HON (Continued)

8. Offsite Dose Calculation Manual Revisions (ODCM) (continued) normal concentrations and that it is not exceeding its alarm set points.

Revision 17 was implemented on May 30, 1995.

The purpose of the revision was to allow the Gaseous Pathway required two year evaluation to be based on a one year, or longer interval(to include a refueling outage),

instead of the previous six month interval.

The justification(s) for the longer interval are:

The controlling age group determined fiom a six month non-refueling outage interval is not as conservative as a 6 month interval with a refueling outage. This is due to the presence of more iodine emissions during a refueling interval and the higher dose impact on younger age groups. An evaluation of all age groups could yield a controlling age group that would only exposed individual was protected at all times from receiving greater than a ODCM Control Limit, a more representative(longer) evaluation interval was required. The new interval should provide equal protection for all age groups over all plant conditions that may exist 0 2) in an annual dose interval.

The revision should provide consistent dose evaluations based on all plant conditions and not have revisions to the ODCM based on whether there was a refueling outage in the last six months. It should also minimize the ODCM having different controlling age groups for each reactor on site and will help reduce confusion and procedural changes.

9. Solid Waste and Irradiated Fuel Shipments:

No irradiated fuel shipments were made for the site.

Common Solid waste Rom St. Lucie Units 1 and 2 were shipped jointly. A tabulated summation of these shipments is provided in this report as Table 3.9 Solid Waste Shipments as Sewage Sludge were made off-site. These Shipments are summarized in Table 3.10.

10. Process Control Program (PCP) Revisions:

During the reporting period there were no significant changes to the Process Control Program. However, revisions to the vendor procedures for the drying of bead resins were reviewed by the Facility Review Group and approved for use by the Plant General Manager.

FLORIDA POWER 2 LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.3-1 LIQUID EFFLUENTS - SUMMA'IIONOF ALL RELEASES UNIT QTH¹1 QTR¹2 A. Fission and Activation Products

1. Total Release - (Not including Tritium, Gases, and Alpha) Ci 5.33E-02 6.47E-02
2. Average Diluted Concentmtion During Period uci/ml 1.08E-10 1.27E-10 B. Tritium
1. Total Release Ci 6;53E 01 4.91E 01
2. Average Diluted Concentration During Period uci/ml 1.32E-07 9.67E-08 C. Dissolved and Entrained Gases
1. Total Release Ci 3.12E-01 2.38E-04
2. Average Diluted Concentration During Period uci/ml 6.31E-10 4.68E-13 D. Gross Alpha Radioactivity
1. Total Release Ci 5.60E-05 0.00E 00 E. Volume of Waste Released (Prior to Dilution) Liters 1A4E 07 2.04E 07 F. Volume of Dilution Water Used During Period Liters 4.94E 11 5.08E 11

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT..

JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.3-2 LIQUID EFFLUENTS - SU1vMATION OF ALLRELEASES UNIT QTR¹3 QT1@4 A. Fission and Activation Products

1. Total Release - (Not including Tritium, Gases, and Alpha) Ci 9.95E-02 3.12I.";01
2. Average Diluted Concentration During Period uci/ml 2.06E-10 9.70E-10 B. Tritium
1. Total Release Ci 1.81E 02 7.82E 01
2. Average Diluted Concentration During Period uci/ml 3.74E-07 2.43E-07 C. Dissolved and Entrained Gases
1. Total Release Ci 1.26E-01 6.40E-02
2. Average Diluted Concentration 2.61E-10 1.99E-10 During Period uci/ml D. Gross Alpha Radioactivity
1. Total Release Ci 0.00E 00 0.00E 00 E. Volume of Waste Released (Prior to Dilution) Liters 1.77E 06 1,66E 06 F. Volume of Dilution Water Used During Period Liters 4.83E 11

FLORIDA POWER Ec, LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.3-2 LIQUID EFFLUENTS - SUIUMATIONOF ALL RELEASES UNIT QTR¹1 QT1@2 A. Fission and Activation Products

1. Total Release - (Not including Tritium, Gases, and Alpha) Ci 5.31E-02 6.39E-02
2. Average Diluted Concentration During Period uci/ml 1.07E-10 1.26E-10 B. Tritium
1. Total Release Ci 6.53E 01 4.91E 01
2. Average Diluted Concentration During Period uci/ml 1.32E-07 9.67E-08 C. Dissolved and Entrained Gases
1. Total Release Ci 3.12E-01 2.38E-04
2. Average Diluted Concentration 6.31E-10 4.68E-13 During Period uci/ml D. Gross Alpha Radioactivity
1. Total Release Ci 5.60E-05 0.00E 00 E. Volume of Waste Released (Prior to Dilution) Liters 1.22E 06 9.61E 05 F. Volume of Dilution Water Used During Period Liters 4.94E 11 5.08E 11 10

FLORIDA POWER 0 LIGHT COMPANY ST. LUCIE UNIT 4 2 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31. 1995 TABLE 3.3-2 LIQUID EFFLUENTS - SUMMATIONOF ALL RELEASES UNIT QTR"3 QTR/4 A. Fission and Activation Products Total Release - (Not including 1.

Tritium, Gases, and Alpha) Ci: 9.95E-02 3.12E-01

2. Average Diluted Concentration During Period uci/ml 2.06E-10 9.70E-10 B. Tritium
1. Total Release Ci 1.81E 02 7.82E 01
2. Average Diluted Concentration During Period uci/ml 3.74E-07 2.43E-07 C. Dissolved and Entrained Gases
1. Total Release Ci 1.26E-01 6.40E-02
2. AverageDiluted Concentration 2.61E-10 1.99E-10 During Period uci/ml D. Gross Alpha Radioactivity
1. Total Release Ci 0.00E 00 0.00E 00 E. Volume of Waste Released (Prior to Dilution) Liters 1.77E 06 1.66E 06 F. Volume of Dilution Water Used During Period Liters 4.83E 11 3.22E 11 11

FLORIDA POWER A LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3 4-1 LIQUID EFFLUENTS Continuous Mode Batch Mode NUCLIDES QTR¹1 QTR¹2 QTR¹1 QTR¹2 RELEASED UNIT NA-24 Ci 0.00E 00 0.00E 00 6.88E-06 2.09E-05 CR-51 Ci 0.00E 00 0.00E 00 1.07E-03 1.41E-04 MN-54 Ci 0.00E 00 0.00E 00 1.26E-03 5.10E-04 FE-55 Ci 0.00E 00 5.82E-04 5.02E-03 2.83E-02 MN-56 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CO-57 Ci 0.00E 00 0.00E 00 1.47E-05 0.00E 00 CO-58 Ci 0.00E 00 0.00E 00 1.24E-02 3.91E-03 FE-59 Ci 0.00E 00 0.00E 00 2.62E-05 0.00E 00 CO-60 Ci 0.00E 00 0.00E 00 1.58E-02 9A4E-03 ZN-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NI-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 BR-82 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RB-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-89 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-90 Ci 3.95E-05 1.09E-04 9.17E-06 8.94E-06 Y-90'R-91 Ci 3.95E-05 1.09E-04 9.17E-06 8.94E-06 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-92 Ci 0.00E 00 0.00E 00 0.00E 00 0,00E 00 Y-92 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 ZR-95 Ci 0.00E 00 0.00E 00 3.31E-04 1.40E-04 NB-95 Ci 0.00E 00 0.00E 00 1.10E-03 1.18E-03 ZR-97 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NB-97 Ci 0.00E 00 0.00E 00 2.19E-04 4.73E-05 TC-99M Ci 0.00E 00 0.00E 00 6.93E-06 0.00E 00 MO-99 Ci- 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RU-103 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 AG-110 Ci 0.00E 00 0.00E 00 1.01E 03 3.98E-03 SN-113 Ci 0.00E 00 0.00E 00 6.82E-05 0.00E 00 SB-122 Ci 0.00E 00 0.00E 00 3.85E-05 1.81E-06 SB-124 Ci 0.00E 00 0.00E 00 2.98E-03 7.82E-03 SB-125 Ci 0.00E 00 0.00E 00 6.64E-03 7.86E-03 .

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FLORIDA POWER & LIGHT COMPANY f

ST. LUCIE UNIT 1 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.4-1 LIQUID EFFLUEN'IS (CONTINUED)

Continuous Mode Batch Mode NUCLIDES RELEASED UNIT QTIVl QT1V'1 QTRQ TE-129 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 TE-129M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 I-131 Ci 0.00E 00 0.00E 00 2.86E44 0.00E 00 TE-132 Ci 0.00E 00 '0.00E 00 0.00E 00 0.00E 00 I-132 Ci 0.00E 00 0.00E 00 0.00E 00 5.92E-05 I-133 Ci 0.00E 00 0.00E 00 5.97E-05 0.00E 00 I-134 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-134 Ci 0.00E 00 0.00E 00 1.21E-03 1.38E-04 I-135 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-136 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-137 Ci 6.62E-05 0.00E 00 3.23E-03 3.53E-04 CS-138 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 BA-140 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 LA-140 Ci 0.00E 00 0.00E 00 4.23E-04 0.00E 00 CE-141 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CE-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 PR-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NP-239 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 TOTAL FOR PERIOD Ci 1.45E-04 8.00E -04 5.31E-02 6.39E-02 AR-41 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-85M Ci 0.00E 00 0.00E 00 7.98E-05 0.00E 00 KR-85 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 0.00E 00 0.00E 00 9.55E-04 0.00E 00 XE-133M Ci 0.00E 00 0.00E 00 5.97E-03 0.00E 00 XE-133 Ci 0.00E 00 0.00E 00 3.01E-01 2.26E-04 XE-135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 0.00E 00 0.00E 00 3.87E-03 1.14E-05 13

FLORIDA POWER 4 LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3A-I LIQUID EFFLUENTS Continuous Mode Batch Mode NUCLIDES QTR¹3 QTR¹4 QTR¹3 QTR¹4 REI.EASED UNIT NA-24 Ci 0.00E 00 0.00E 00 1.51E-04 2 46E-04 CR-51 Ci 0.00E 00 0.00E 00 6.80E-03 1.63E-02 MN-54 Ci 0.00E 00 0.00E 00 8.78E-04 1.46E-03 FE-55 Ci 0.00E 00 0.00E 00 1.49E-02 2.41E-02 MN-56 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CO-57 Ci 0.00E 00 0.00E 00 0.00E 00 2.95E-04 CO-58 Ci 0.00E 00 0.00E 00 9.16E-03 1.82E-01 FE-59 Ci 0.00E 0.00E 00 2.90E-04 2.35E-03 CO-60 Ci 00'.00E 00 0.00E 00 1.05E-02 4.99E-03 ZN-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NI-65 Ci 0.00E 00 0,00E 00 0.00E 00 0.00E 00 BR-82 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RB-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-89 Ci 0.00E 00 1.89E-06 4.47E-05 3.99E-05 SR-90 Ci 0.00E 00 8.67E-05 6.37&06 1.66E-05 Y-90 Ci 0.00E 00 8.67E-05 6.37E-06 1.66E-05 SR-91 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-92 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 ZR-95 Ci 0.00E 00 0.00E 00 1.50E-03 2.47E-03 NB-95 Ci 0.00E 00 0.00E 00 2.37E-03 3.88E-03 ZR-97 Ci 0.00E 00 0.00E 00 '.00E 00 0.00E 00 NB-97 Ci 0.00E 00 0.00E 00 3.07E-05 8.61E-05 TC-99M Ci 0.00E 00 0.00E 00 1.03E-05 0.00E 00 MO-99 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RU-103 Ci 0.00E 00 0.00E 00 0.00E 00 3.08E-05 AG-110 Ci 0.00E 00 0.00E 00 2.57E-03 9.09E-04 SN-113 Ci 0.00E 00 0.00E 00 1.32E-04 1.22'&03 SB-122 Ci 0.00E 00 0.00E 00 8.75E-04 4.20E-04 SB-124 Ci 0.00E 00 0.00E 00 1.74E-02 1.59E-02 SB-125 Ci 0.00E 00 0.00E 00 2.35E-02 3.74E 02 14

FLORIDA POWER 8'c LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3A-1 LIQUID EFFLUENTS (continued)

Continuous Mode Batch Mode NUCLIDES RELEASED UNIT QTR¹3 QTR¹4 QTR¹3 QTR¹4 TE-129 Ci 0.00E 00 0.00E 00 1.73E-03 4.65E-03 TE-129M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 I-131 Ci 0.00E 00 0.00E 00 9.55E-05 7.40E-05 TE-132 Ci 0.00E 00 0.00E 00 0.00E 00 1.62E-05 I-132 Ci 0.00E 00 0.00E 00 6.71E-05 9.58E-05 I-133 Ci 0.00E 00 0.00E 00 2.03E-04 0.00E 00 I-134 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-134 Ci 0.00E 00 5.47E-05 2.59E-03 6.54E-03 I-135 Ci 0.00E 00 0.00E 00 9.85E-05 0.00E 00 CS-136 Ci 0.00E 00 0.00E 00 0.00E 00 1.13E-05 CS-137 Ci 0.00E 00 5.12E-05 2.71E-03 6.40E-03 CS-138 Ci 0.00E 00 0.00E 00 9.63E-05 1.34E-04 BA-140 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 LA-140 Ci 0.00E 00 0.00E 00 8.70F 04 2.67E-04 CE-141 Ci 0.00E 00 0.00E 00 0.00E 00 6.55E-05 CE-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 PR-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NP-239 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 TOTALFOR PERIOD Ci 0.00E 00 2.81E-04 9.95E-02 3.12E-01 AR-41 Ci 0.00E 00 0.00E 00 2.46E-05 0.00E 00 KR-85M Ci 0.00E 00 0.00E 00 1.58E-05 0.00E 00 KR-85 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 0.00E 00 0.00E 00 9.96E-04 2.28E-04 XE-133M Ci 0.00E 00 0.00E 00 2.13E-03 4.53E-04 XE-133 Ci 0.00E 00 0.00E 00 1.19E-01 6.32E-02 XE-135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 0.00E 00 0.00E 00 3.77E-03 1.17E-04 15

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3 4-2 LIQUID EFFLUENTS Continuous Mode Batch Mode NUCLIDES RELEASED UNIT QTR¹1 QTR¹2 QTR¹1 QTR¹2 NA-24 Ci 0.00E 00 0.00E 00 6.88E-06 2.09E-OS CR-51 Ci 0.00E 00 0.00E 00 1.07E-03 1.41E-04 MN-54 Ci 0.00E 00 0.00E 00 1.26E-03 5.10E-04 FE-55 Ci 0.00E 00 0.00E 00 5.02E-03 2.83E-02 MN-56 Ci '0.00E 00 O.OOE 00 O.OOE 00 O.OOE 00 CO-57 Ci O.OOE 00 O.OOE 00 1.47E-OS 0.00E 00 CO-58 Ci 0.00E 00 0.00E 00 1.24E-02 3.91E-03 FE-59 Ci 0.00E 00 0.00E 00 2.62E-OS 0.00E 00 CO-60 Ci 0.00E 00 0.00E 00 1.58E-02 9A4E-03 ZN-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 Ni-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 BR-82 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RB-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-89 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-90 Ci O.OOE 00 O.OOE 00 9.17E-06 8.94E-06 Y-90 Ci 0.00E 00 0.00E 00 9.17E-06 8.94E-06 SR-91 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-92 Ci O.OOE 00 0.00E 00 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 ZR-95 Ci 0.00E 00 0.00E 00 3.31E-04 1.40E-04 NB-95 Ci O.OOE 00 O.OOE 00 1.10E-03 1.18E-03 2R-97 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NB-97 Ci 0.00E 00 0.00E'00 2.19E-04 4.73E-OS TC-99M Ci 0.00E 00 0.00E 00 6.93E-06 0.00E 00 MO-99 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RU-103 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 AG-110 Ci O.OOE 00 0.00E 00 1.01E-03 3.98E-03 SN-113 Ci 0.00E 00 O.OOE 00 '.82E-OS 0.00E 00

.'B-122 Ci O.OOE 00 0.00E 00 3.85E-OS 1.81E-06 SB-124 Ci O.OOE 00 0.00E 00 2.98E-03 7.82E-03 SB-125 Ci 0.00E 00 O.OOE 00 6.64E-03 7.86E-03 16

FLORIDA POWER 2 LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3A-2 LIQUID EFFLUENTS (continued)

Continuous Mode Batch Mode NUCLIDES RELEASED UNIT QTR¹1 QTR¹2 QTR¹1 QTR¹2 TE-129 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 TE-129M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 I-131 Ci 0.00E 00 0.00E 00 2.86E-04 0.00E 00 TE-132 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 I-132 Ci 0.00E 00 0.00E 00 0.00E 00 5.92E-05 I-133 Ci 0.00E 00 0.00E 00 5.97E-05 0.00E 00 I-134 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-134 Ci 0.00E 00 0.00E 00 1.21E-03 1.38E-04 I-135 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-136 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-137 Ci 0.00E 00 0.00E 00 3.23E-03 3.53E-04 CS-138 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 BA-140 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 LA-140 Ci 0.00E 00 0.00E 00 4.23E-04 0.00E 00 CE-141 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CE-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 PR-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NP-239 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 TOTALFOR PERIOD Ci 0.00E 00 0.00E 00 5,31E-02 6.39E-02 AR-41 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-85M Ci 0.00E 00 0.00E 00 7.98F 05 0.00E 00 KR-85 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 0.00E 00 0.00E 00 9.55E-04 0.00E 00 XE-133M Ci 0.00E 00 0.00E 00 5.97E-03 0.00E 00 XE-133 Ci 0.00E 00 0.00E 00 3.01E-01 2.26E-04 XE-135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 0.00E 00 0.00E 00 3.87E-03 1.14E-05 17

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3A-2 LIQUID EFFLUENTS Continuous Mode Batch Mode NUCLIDES RELEASED UNIT QTR¹3 QTR¹4 QTR¹3 QTR¹4 NA-24 Ci 0.00E 00 0.00E 00 1.51E-04 2.46E-04 CR-51 Ci 0.00E 00 0.00E 00 6.80E-03 1.63E-02 MN-54 Ci 0.00E 00 0.00E 00 8.78E-04 1A6E-03 FE-55 Ci 0.00E 00 0.00E 00 1.49E-02 2.41E-02 MN-56 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CO-57 Ci 0.00E 00 0.00E 00 0.00E 00 2.95E-04 CO-58 Ci 0.00E 00 0.00E 00 9.16E-03 1.82E-01 FE-59 Ci 0.00E 00 0.00E 00 2.90E-04 2.35E-03 CO-60 Ci 0.00E 00 0.00E 00 1.05E-02 4.99E-03 ZN-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NI-65 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 BR-82 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RB-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-89 Ci 0.00E 00 0.00E 00 4.42E-05 3.99E-05 SR-90 Ci 0.00E 00 0.00E 00 ~

6.37E-06 1.66E-05 Y-90 Ci 0.00E 00 0.00E 00 6.37E-06 1.66E-05 SR-91 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 SR-92 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00

. ZR-95 Ci 0.00E 0.00E 00 1.50E-03 2.47E-03 NB-95 Ci 2.37E-03 3.88E-03 00'.00E 00 0.00E 00 ZR-97 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NB-97 Ci 0.00E 00 0.00E 00 3.07E-05 8.61E-05 TC-99M Ci 0.00E 00 0.00E 00 1.03E-05 0.00E 00 MO-99 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 RU-103 Ci 0.00E 00 0.00E 00 0.00E 00 3.08E-05 AG-110 Ci 0.00E 00 0.00E 00 2.57E-03 9.09E-04 SN-113 Ci 0.00E 00 0,00E 00 1.32E-04 1.22E-03 SB-122 Ci 0.00E 00 0.00E 00 8.75E-04 4.20E-04 SB-124 Ci 0.00E 00 0.00E 00 1.74E-02 1.59E-02 SB-125 Ci 0.00E 00 0.00E 00 2.35E-02 3.74E-02 18

FLORIDA POWER A LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3A-2 LIQUID EFFLUENTS (continued)

Continuous Mode Batch Mode NUCLIDES RELEASED UNIT QTR¹3 QTR¹4 QTR¹3 QTR¹4 TE-129 Ci 0.00E 00 0.00E 00 1.73E-03 4.65E-03 TE-129M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 I-i31 Ci 0.00E 00 0.00E 00 9.55E-05 740E-05 TE-132 Ci 0.00E 00 0.00E 00 0.00E 00 1.62E-05 I-132 Ci 0.00E 00 0.00E 00 6.71E-05 9.58E-05 I-133 Ci 0.00E 00 0.00E 00 2.03E-04 0.00E 00 I-134 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 CS-134 Ci 0.00E 00 0.00E 00 2.59E-03 6.54E-03 I-135 Ci 0.00E 00 0.00E 00 9.85E-05 0.00E 00 CS-136 Ci 0.00E 00 0.00E 00 0.00E 00 1.13E-05 CS-137 Ci 0.00E 00 0.00E 00 2.71E-03 6.40E-03 CS-138 Ci 0.00E 00 0.00E 00 9.63E-05 1.34E-04 BA-140 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 LA-140 Ci 0.00E 00 0.00E 00 8.70E-04 2.67E-04 CE-141 Ci 0.00E 0.00E 00 0.00E 00 6.55E-05 CE-144 Ci 00 0.00E 0.00E 00 0.00E 00 00'.00E 00 PR-144 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 NP-239 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 TOTAL FOR PERIOD Ci 0.00E 00 0.00E 00 9.95&02 3.12E-01 AR-41 Ci 0.00E 00 0.00E 00 2.46E-05 0.00E 00 KR-85M Ci 0.00E 00 0.00E 00 1.58E-05 0.00E 00 KR-85 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 0.00E 00 0.00E 00 9.54E-04 '.28E-04 XE-133M Ci 0.00E 00 0.00E 00 2.13E-03 4.53E-04 XE-133 Ci 0.00E 00 0.00E 00 1.19E-01 6.32E-02 XE-135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 0.00E 00 0.00E 00 3.77E-03 1.17E-04 19

UNTIE FLORIDA POWER & LIGHT COMPANY ST. LUCIE 1 ANNUALREPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.5-1 LIQUID EFFLUENTS - DOSE SUMMATION AGE GROUP: ADULT LOCATION: ANY ADULT EXPOSURE INTERVAL: JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 FISH AND SHELLFISH ORGAN Bone 4.30E-02 Liver 1.89E-01 Thyroid 9.17E-04 Kidney 1.35E-03 Lung 2.22E-01 GI-LLI 1.90E-01 Total Body 5.31E-02 20

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT 0 2 P3C4JAL REPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.5-1 (continued)

LIQUID EFFLUENTS - DOSE SUMMATION AGE GROUP: ADULT LOCATION: ANY ADULT EXPOSURE INTERVAL: JANUARY 1, 1995 'HROUGH DECEMBER 31, 1995 FISH AND SHELLFISH DOSE ORGAN mrem Bone 4.25E-02 Liver 1.88E-01 Tllyrold 9.17E-04 Kidney 1.34E-03 Lung 2.21E-01 GI-LLI 1.89E-01 Total Body 5.26E-02 21

0 0

I FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.6-1 GASEOUS EFFLUENTS - SUMMATIONOF ALLRELEASES UNIT QTR¹1 QTR¹2 A. Fission and Activation Gases

1. Total Release Ci 9.97E 01 2.88E 01
2. Average Release Rate For Period uci/sec 1.28E 01 3.66E 00 B. Iodines
1. Total Iodine-131 Ci 2.61E-04 1.20E-04
2. Average Release Rate For Period uCi/sec - 3.36E-05 1.52E-05 C. Particulates
1. Particulates (Half Life > 8 days) Ci 2.76E-05 1.09E-05
2. Average Release Rate For Period uCi/sec 3.55E-06 1.39E-06
3. Gross Alpha Radioactivity Ci 1.15E-07 6.81E-08 D. Tritium
1. Total Release Ci 2.06E 00 5.35E 00
2. Average Release Rate For Period uCi/sec 2.65E-01 6.80E-01 22

FLORIDA POWER 0 LIGEI'OMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.6-1 GASEOUS EFFLUENTS - SUhPRAIION OF ALL RELEASES UNIT QTR¹3 QTR¹4 A. Fission and Activation Gases

1. Total Release Ci 5.71E 00 1.06E 01
2. Average Release Rate For Period uCi/sec 7.19E-01 1.34E 00 B. Iodines
1. Total Iodine-131 Ci 9.60E-05 3.74E-06
2. Average Release Rate For Period uCi/sec 1.21E-05 4.71E-07 C. Particulates
1. Particulates (Half Life > 8 days) Ci 5.51E-05 5.81E-05
2. Average Release Rate For Period uCi/sec 6.94E-06 7.31E-06
3. Gross Alpha Radioactivity Ci 6.74E-08 5.21E-08 D. Tritium
1. Total Release Ci 3.63E 01 2.94E 00
2. Average Release Rate For Period uCi/sec 4.57E 00 3.69E-01 23

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.6-2 GASEOUS EFFLUENTS '- SUMMATIONOF ALL RELEASES UNIT QTR¹l QTR¹2 A. Fission and Activation Gases

1. Total Release Ci 2.37E 01 2.42E 01
2. Average Release Rate For Period uCi/sec 3.05E 00 3.08E 00 B. Iodines
1. Total Iodine-131 Ci 2.35E-03 8.56E-06
2. Average Release Rate For Period uCi/sec 3.02E-04 1.09E-06 C. Particulates
1. Particulates (Half Life > 8 days) Ci 6.68E-06 1.21E-06
2. Average Release Rate For Period uCi/sec 8.59E-07 1.53E-07
3. Gross Alpha Radioactivity Ci 9.48E-08 1.06E-07 D. Tritium
1. Total Release Ci 3.85E 00 3.08E 00
2. Average Release Rate For Period uCi/sec 4.95E-01 3.91E-01 24

FLORIDA POWER A LIGHT COMPANY ST. LUCIE UNIT 0 2 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.6-2 GASEOUS EFFLUENTS - SUMMATIONOF ALL RELEASES UNIT QTl@3 QTRP4 A. Fission and Activation Gases

1. Total Release Ci 1.85E 02 8.35E 00
2. Average Release Rate For Period uCi/sec 2.33E 01 1.05E 00 B. Iodines 1 ~ Total Iodine-131 Ci 1.28E-05 1.14E-04
2. Average Release Rate For Period uCi/sec 1.61E-06 1.43E-05 C. Particulates
1. Particulates (Half Life ) 8 days) Ci 1.54E-05 3.82E-05
2. Average Release Rate For Period uCi/sec 1.93E-06 4.81E-06
3. Gross Alpha Radioactivity Ci 1.39E-08 1.50E-07 D. Tritium
1. Total Release Ci 1.39E 01 6.94E 00
2. Average Release Rate For Period uCi/sec 1.75E 00 8.73E-01 25

FLORIDA POWER & LIGHT COMPANY 0 ST. LUCIE UNIT ¹ 1 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.7-1 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES Nuclides Continuous Mode Batch Mode Released Unit QTR¹1 QTR¹2 QTR¹1 QTR¹2

1. Fission Gas AR-41 Ci 0.00E 00 0.00E 00 1.27E-01 0.00E 00 KR-85M Ci 0.00E 00 0.00E 00 2.02E-02 0.00E 00 KR-85 Ci 1.64E-01 0.00E 00 5.08E-01 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 ~

0.00E 00 KR-88 Ci 0.00E 00 0.00E 00 1.32E-03 0.00E 00 KR-89 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-90 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-127 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci ~

0.00E 00 0.00E 00 3.31E-01 6A6E-03 XE-133M Ci 0.00E 00 1.83E 00 1.09E 00 3.45E-03 XE-133 Ci 2.83E 01 2.43E 01 6.51E 01 5.02E-01 XE 135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 2.68E 00 2.18E 00 1.33E 00 0.00E 00 XE-137 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-138 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 Total for Period Ci 3.11E 01 2.83E 01 6.85E 01 5.12E-01

2. Iodines I-131 Ci 2.61E-04 1.20E 04 I-132 Ci 0.00E 00 0.00E 00 I-133 Ci 5.86E-04 . 8.67E-04 I-134 Ci 0.00E 00 0.00E 00 I-135 Ci 0.00E 00 0.00E 00 Total for Period Ci 8.47E-04 9.87E-04
3. Particulates (> 8 Days)

Cr-51 Ci 0.00E 00 0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 Fe-55 Ci 0.00E 00 0.00E 00 Co-57 Ci 0.00E 00 0.00E 00 Co-58 Ci 0.00E 00 0.00E 00 Fe-59 Ci 0.00E 00 0.00E 00 Co-60 Ci 5.20E-06 9.98E-06 Zn-65 Ci 0.00E 00 0.00E 00 Zr-95 Ci 0.00E 00 0.00E 00 Nb-95 Ci 0.00E 00 0.00E 00 26

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.7-1 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES (continued)

Nuclides Continuous Mode Released Unit QTRP1 QTR¹2

3. Particulates ( > 8 Days) (continued)

Sr-89 Ci 0.00E 00 0.00E 00 Sr-90 Ci 0.00E 00 4.70E-07 Y-90 Ci 0.00E 00 4.70E-07 Ru-103 Ci 0.00E 00 0.00E 00 Ag-110 Ci 0.00E 00 0.00E 00 Sn-113 Ci 0.00E 00 0.00E 00 Sb-124 Ci 0.00E 00 0.00E 00 Sb-125 Ci 0.00E 00 0.00E 00 Te-129m Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E 00 0.00E 00 Cs-136 Ci 0.00E 00 0.00E 00 Cs-137 Ci 2.24E-05 0.00E 00 Ba-140 Ci 0.00E 00 0.00E 00 Ce-141 Ci 0.00E 00 0.00E 00 Ce-144 Ci 0.00E 00 0.00E 00 Total for Period Ci 2.76F 05 1.09E-05

4. Particulates ( < 8 Days)

Mn-56 Ci 0.00E 00 0.00E 00 Ni-65 Ci 0.00E 00 0.00E 00 Br-82 Ci 0.00E 00 0.00E 00 Rb-88 Ci 0.00E 00 0.00E 00 Rb-89 Ci 0.00E 00 0.00E 00 Sr-91 Ci 0.00E 00 0.00E 00 Sr-92 Ci 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 Zr-97 Ci 0.00E 00 0.00E 00 Nb-97 Ci 0.00E 00 0.00E 00 Tc-99m Ci 0.00E 00 0.00E 00 Mo-99 Ci 0.00E 00 0.00E 00 Sb-122 Ci 0.00E 00 0.00E 00 Te-129 Ci 0.00E 00 0.00E 00 Te-132 Ci 0.00E 00 0.00E 00 Cs-138 Ci 0.00E 00 0.00E 00 La-140 Ci 0.00E 00 0.00E 00 Pr-144 Ci 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 Np-239 Ci 0.00E 00 0.00E 00 Total for Period Ci 0.00E 00 0.00E 00 27

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.7-1 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES Nuclides Continuous Mode Batch Mode Released Unit QTR¹3 QTR¹4 QTR¹3 QTR¹4

1. Fission Gases AR-41 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-85M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-85 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-88 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-89 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-90 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-127 'Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 0.00E 00 0.00E 00 6.01E-02 0.00E 00 XE-133M Ci 0.00E 00 0.00E 00 4.57E-02 6.49E-04 XE-133 Ci 2.12E 00 6.11E 00 2.66E 00 2.25E-02 XE-135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 7.80E-01 4.49E 00 4.81E-02 1.98E-03 XE-137 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-138 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 Total for Period Ci 2.90E 00 1.06E 01 2.81E 00 2.52E-02
2. Iodines I-131 Ci 9.60E-05 3.74E-06 I-132 Ci 0.00E 00 0.00E 00 I-133 Ci 0.00E 00 0.00E 00 I-134 Ci 0.00E 00 0.00E 00 I-135 Ci 0.00E 00 0.00E 00 Total for Period Ci 9.60E-05 3.74E-06
3. Particulates (> 8 Days)

Cr-51 Ci 0.00E 00 0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 FE-55 Ci 0.00E 00 0.00E 00 Co-57 Ci 0.00E 00 0.00E 00 Co-58 Ci 0.00E 00 0.00E 00 FE-59 Ci 0.00E 00 4.10E-05 Co-60 Ci 1.21E-05 5.98F 06 Zn-65 Ci 0.00E 00 0.00E 00

'r-95 Ci 0.00E 00 0.00E 00 Nb-95 Ci 0.00E 00 0.00E 00 28

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.7-1 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES (continued)

Nuclides Continuous Mode Released Unit QTR¹3 QTR¹4

3. Particulates ( > 8 Days) (continued)

Sr-89 Ci 0.00E 00 0.00E 00 Sr-90 Ci 0.00E 00 1.89E-06 Y-90 Ci 0.00E 00 1.89E-06 Ru-103 Ci 0.00E 00 0.00E 00 Ag-110 Ci 0.00E 00 0.00E 00 Sn-113 Ci 0.00E 00 0.00E 00 Sb-124 Ci 0.00E 00 0.00E 00 Sb-125 Ci 0.00E 00 0.00E 00 TE-129m Ci 2.71E-05 0.00E 00 Cs-134 Ci 0.00E 00 0.00E 00 Cs-136 Ci 0.00E 00 8.74E-07 Cs-137 Ci 1.60E-05 6.48E-06 Ba-140 Ci 0.00E 00 0.00E 00 CE-141 Ci 0.00E 00 0.00E 00 CE-144 Ci 0.00E 00 0.00E 00 Total for Period Ci 5.51E-05 5.81E-05

4. Particulates (< 8 Days)

Mn-56 Ci 0.00E 00 0.00E 00 Ni-65 Ci 0.00E 00 0.00E 00 Br-82 Ci 0.00E 00 0.00E 00 Rb-88 Ci 0.00E 00 0.00E 00 Rb-89 Ci 0.00E 00 0.00E 00 Sr-91 Ci 0.00E 00 0.00E 00 Sr-92 Ci 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 Zr-97 Ci 0.00E 00 0.00E 00 Nb-97 Ci 0.00E 00 0.00E 00 Tc-99m Ci 0.00E 00 0.00E 00 Mo-99 Ci 0.00E 00 0.00E 00 Sb-122 Ci 0.00E 00 0.00E 00 TE-129 Ci 0.00E 00 0.00E 00 TE-132 Ci 0.00E 00 0.00E 00 Cs-138 Ci 0.00E 00 0.00E 00 La-140 Ci 0.00E 00 0.00E 00 Pr-144 Ci 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 Np-239 Ci 0.00E 00 0.00E 00 Total for Period Ci 0.00E 00 0.00E 00 29

0 0

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.7-2 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES Nuclides Continuous Mode Batch Mode Released Unit QTR¹1. QTR¹2 QTR¹1 QTR¹2

1. Fission Gases AR-41 Ci 0.00E 00 2.37E 00 2.26E-01 1.98E-01 KR-85M Ci 0.00E 00 0.00E 00 5.75E-04 2.45E-03 KR-85 Ci 0.00E 00 0.00E 00 6.74E-02 0.00E 00 KR-87 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-88 Ci 2.11E-01 0.00E 00 0.00E 00 1.52E-03 KR-89 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-90 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-127 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-133M Ci 0.00E 00 0.00E 00 0.00E 00 6.40E-03 XE-133 Ci 1.69E 01 1A4E 01 3.40E-01 6.44E-01 XE-135M Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 5.89E 00 6.59E 00 2.73E-02 5.05E-02 XE-137 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-138 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 Total for Period Ci 2,30E 01 2.33E 01 6.61E-01 9.04E-01
2. Iodines I-131 Ci 2.35E-03 8.56E-06 I-132 Ci 0.00E 00 0.00E 00 I-133 Ci 1.84F 04 4.91E-05 I-134 Ci 0.00E 00 0.00E 00 I-135 Ci 0.00E 00 0.00E 00 Total for Period Ci 2.53E-03 5.76E-05
3. Particulates (> 8 Days)

Cr-51 Ci 0.00E 00 0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 Fe-55 Ci 0.00E 00 0.00E 00 Co-57 Ci 0.00E 00 0.00E 00 Co-58 Ci 0.00E 00 0.00E 00 Fe-59 Ci 0.00E 00 0.00E 00 Co-60 Ci 4.16E-06 0.00E 00 Zn-65 Ci 0.00E 00 0.00E 00 Zr-95 Ci 0.00E 00 0.00E 00 Nb-95 Ci 0.00E 00 0.00E 00 30

FLORIDA POWER A LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH JUNE 30, 1995 TABLE 3.7-2 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES (continued)

Nuclides Continuous Mode Released Unit QTR¹1 QTR¹2

. 3. Particulates (> 8 Days) (continued)

Sr-89 Ci 0.00E 00 0.00E 00 Sr-90 Ci 1.26E-06 6.03E-07 Y-90 Ci 1.26E-06 6.03E-07 Ru-103 Ci 0.00E 00 0.00E 00 Ag-110 Ci 0.00E 00 0.00E 00 Sn-113 Ci 0.00E 00 0.00E 00 Sb-124 Ci 0.00E 00 0.00E 00 Sb-125 Ci 0.00E 00 0.00E 00 Te-129m Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E 00 0.00E 00 Cs-136 Ci 0.00E 00 0.00E 00 Cs-137 Ci 0.00E 00 0.00E 00 Ba-140 Ci 0.00E 00 0.00E 00 Ce-141 Ci 0.00E 00 0.00E 00 Ce-144 Ci 0.00E 00 0.00E 00 Total for Period Ci 6.68E-06 1.21E-06

4. Particulates (< 8 Days)

Mn-56 Ci 0;00E 00 0.00E 00 Ni-65 Ci 0.00E 00 0.00E 00 Br-82 Ci 0.00E 00 0.00E 00 Rb-88 Ci 0.00E 00 0.00E 00 Rb-89 Ci 0.00E 00 0.00E 00 Sr-'91 Ci 'i 0.00E 00 0.00E 00 Sr-92 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 Zr-97 Ci 0.00E 00 0.00E 00 Nb-97 Ci 0.00E 00 0.00E 00 Tc-99m Ci 0.00E 00 0.00E 00 Mo-99 Ci 0.00E 00 0.00E 00 Sb-122 Ci 0.00E 00 0.00E 00 Te-129 Ci 0.00E 00 0.00E 00 Te-132 Ci 0.00E 00 0.00E 00 Cs-138 Ci 0.00E 00 0.00E 00 La-140 Ci 0.00E 00 0.00E 00 Pr-144 Ci 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 Np-239 Ci 0.00E 00 0.00E 00 Total for Period Ci 0.00E 00 0.00E 00 31

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.7-2 GASEOUS EFFLUENIS - GROUND LEVEL RELEASES Nuclides Continuous Mode Batch Mode

. Released Unit QTR¹3 QTR¹4 QTFA3 QTR¹4

1. Fission Gases AR-41 Ci 4.72E 01 0.00E 00 2.15E-01 3.33E-02 KR-85M Ci 3.73E 00 0.00E 00 3.66E-03 4.61E-04 KR-85 Ci 0.00E 00 0.00E 00 1.72E-02 0.00E 00 KR-87 Ci 3.60E 00 0.00E 00 2.51E-04 0.00E 00 KR-88 Ci 6.63E 00 0.00E 00 4.45E-03 0.00E 00 KR-89 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 KR-90 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-127 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-131M Ci 1.70E 01 0.00E 00 0.00E 00 0.00E 00 XE-133M Ci 0.00E 00 0.00E 00 8.03E-03 2.21E-02 XE-133 Ci 3.09E 01 5.61E 00 5.53E-01 1.22E 00 XE-135M Ci 1.26E 01 0.00E 00 0.00E 00 0.00E 00 XE-135 Ci 5.89E 01 1.42E 00 7.14E-02 4.30E-02 XE-137 Ci 0.00E 00 0.00E 00 0.00E 00 0.00E 00 XE-138 Ci 3.85E 00 0.00E 00 0.00E 00 0.00E 00 Total for Period Ci 1.84E 02 7.03E 00 8.73E-01 1.32E 00
2. Iodines I-131 Ci 1.28E-05 1.14E-04 I-132 Ci 0.00E 00 0.00E 00 I-133 Ci 7.36E-05 6.86E-04 I-134 Ci 0.00E 00 0.00E 00 I-135 Ci 0.00E 00 0.00E 00 Total for Period Ci 8.64E-05 8.00E-04
3. Particu lates ( > 8 Days)

. Cr-51 Ci 0.00E 00 0.00E 00 Mn-54 Ci 0.00E 00 0.00E 00 FE-55 Ci 0.00E 00 0.00E 00 Co-57 Ci 0.00E 00 0.00E 00 Co-58 Ci 0.00E 00 4.88E-06 FE-59 Ci 0.00E 00 0.00E 00 Co-60 Ci 0.00E 00 8.56E-06 Zn-65 Ci 0.00E 00 0.00E 00 Zr-95 Ci 0.00E 00 0.00E 00 Nb-95 Ci 0.00E 00 0.00E 00 32

FLORIDA POWER A LIGHI'OMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JULY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.7-2 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES (continued)

Nuclides Continuo us Mode Released Unit QTR¹3 QTR¹4

3. Particulates (> 8 Days) (continued)

Sr-89 Ci 0.00E 00 4.08E-07 Sr-90 Ci 0.00E 00 2.14E-06 Y-90 Ci 0.00E 00 2.14E-06 Ru-103 Ci 0.00E 00 0.00E 00 Ag-110 Ci 0.00E 00 0.00E 00 Sn-113 Ci 0.00E 00 0.00E 00 Sb-124 Ci 0.00E 00 0.00E 00 Sb-125 Ci 0.00E 00 0.00E 00 TE-129m Ci 0.00E 00 0.00E 00 Cs-134 Ci 0.00E 00 0.00E 00 Cs-136 Ci 0.00E 00 0.00E 00 Cs-137 Ci 1.54E-05 1.76E-05 Ba-140 Ci 0.00E 00 0.00E 00 CE-141 Ci 0.00E 00 2.51E-06 CE-144 Ci 0.00E 00 0.00E 00 Total for Period Ci 1.54E-05 3.82E-'05

4. Particulates (<8D ys)

Mn-56 Ci 0.00E 00 0.00E 00 Ni-65 Ci 0.00E 00 0.00E 00 Br-82 Ci 0.00E 00 0.00E 00 Rb-88 Ci 0.00E 00 0.00E 00 Rb-89 Ci 0.00E 00 0.00E 00 Sr-91 Ci 0.00E 00 0.00E 00 Sr-92 Ci 0.00E 00 0.00E 00 Y-92 Ci 0.00E 00 0.00E 00 Zr-97 Ci 0.00E 00 0.00E 00 Nb-97 Ci 0.00E 00 0.00E 00 Tc-99m Ci 0.00E 00 0.00E 00 Mo-99 Ci 0.00E 00 0.00E 00 Sb-122 Ci 0.00E 00 0.00E 00 TE-129 Ci 0.00E 00 0.00E 00 TE-132 Ci 0.00E 00 0.00E 00 Cs-138 Ci 0.00E 00 0.00E 00 La-140 Ci 0.00E 00 0.00E 00 Pr-144 Ci 0.00E 00 0.00E 00 W-187 Ci 0.00E 00 0.00E 00 Np-239 Ci 0.00E 00 0.00E 00 Total for Period Ci 0.00E 00 0.00E 00 33

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ 1 ANNUALREPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.8-1 GASEOUS EFFLUENTS - DOSE SUIvPWTION AGE GROUP: INFANT EXPOSURE INTERVAL:JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 Note: The below dose results were calculated using actual meteorological data during the specified time interval with Met data reduced as Per Reg. Guide 1.111, March 1976 Bone Liver Thyroid Kidney Pathway mrem mrem mrem mrem GROUND PLANE(a)

COW - MLK (b) '7.54E-05 4.75E-04 8.54E-03 1.83E-04 INHALATlON (a) 1.99E-06 4.08E-04 6.74E-04 1.76E-04 TOTAL 7.74F 05 8.83E-04 9.21E-03 3.59E-04 LUNG GI-LLI T.BODY Pathway'ROUND mrem mrem mrem PLANE(a) 1.33E-04 COW - MLK (b) 4.03E-04 3.98E-04 4.16E-04 INHALATlON (a) 4.08E-04 4.03E-04 4.03E-04 TOTAL 8.11E-04 8.01E-04 9.52E-04 (a) Sector: SE Range: 1.5 miles (b) Sector: SE Range: 4.25 miles(default)

NOBLE GASES mrad GAMMAAIR DOSE 1.66E-03 BETA AIR DOSE 4.05E-03 Sector: SE Range: 1.5 miles 34

FLORIDA POWER & LIGEI'OMPANY ST. LUCIE UNIT ¹ 2 ANNUALREPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.8-1 (continued)

GASEOUS EFFLUENTS - DOSE SUMMATION AGE GROUP: INFANT EXPOSURE INTERVAL: JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 Note: The below dose results were calculated using actual meteorological data during the specified time interval with Met data reduced as Per Reg. Guide 1.111, March 1976 Bone Liver 111yrold Kidney Pathway mrem mrem mrem mrem GROUND PLANE (a)

COW - MILK (b) 1.52E-04 4.01E-04 4.10E-02 1.37E-04 INHALATION (a) 3.59F 06 2.42F 04 1.04F 03 1.05E-04 TOTAL 1.55E-04 6 44E-04 4.20E-02 2.42E-04 LUNG GI-LLI T.BODY mrem mrem mrem GROUND PLANE(a) 7.32E-05 COW - MILK (b) 2.40E-04 2.41E-04 3.15E-04 INHALATION (a) 2.42E-04 2.40E-04 2.41E-04 TOTAL 4.83E-04 4.80E-04 6.29E-04 (a) Sector: SE Range: 1.5 miles (b) Sector: SE Range: 4.25 miles(default) 35NOBLE GASES mrad GAMMAAIR DOSE 2.00E-02 BETA AIR DOSE 1.26E-02 Sector: SE Range: 1.5 miles 35

FLORIDA POWER AND LIGHT COMPANY ST. LUCIE PLANT ANNUALREPORT JANUARY, 1995 THROUGH DECEMBER 31, 1995 UNITS 1 AND 2, TABLE 3.9 A. Solid Waste Shipped OQ-'Site for Burial or Disposal

1. Type of Waste Unit 12 Mo. Period Error %
a. Spent Resin, M3 2.92 E+ 1 Process Filters Ci 1.43 E+ 2 2.0 E+ 1
b. Dry Compressible M3 5A6 E+ 1 Waste (Note 5) Ci 9.11 E+ 0 2.0 E+1
c. Irradiated M3 0.00 E+ 0 Components Ci 0.00 E+ 0
d. Other M3 0.00 E+ 0 Ci 0.00 E+ 0 N/A
  • Category Nuclides
a. Ni 63 330 E+ 1 Cs 137 1.85 E+ 1 Fe 55 1.82 E+ 1 Co 60 9.88 E+0 Cs 134 5,77 E+ 0 Sb 125 5.40 E+ 0 Co 58 4.68 E+ 0 Mn 54 3.13 E+0
b. Fe 55 3.97 E+ 1 Cs 137 1.98 E+ 1 Co 60 1.86 E+ 1 Ni 63 7.73 E+ 0 Co 58 3.80 E+ 0 Cs 134 2.61 E+ 0 Mn.54 2.08 E+ 0 Sb 125 1.61 E+0 Nb 95 1.28 E+ 0 C14 7.26 E-1 36

FLORIDA POWER AND LIGHT COMPANY ST. LUCIE PLANT ANNUALREPORT JANUARY, 1995 THROUGH DECEMBER 31, 1995 UNITS 1 AND 2, TABLE 3.9 A. Solid Waste Shipped Off-Site for Burial or Disposal (continued)

2. Estimate of Major Nuclide Composition (continued)

Category Nuclide C. N/A + N/A

  • d.
3. Solid Waste Disposition Number of Mode of Transportation Destination Shipments Sole Use Truck Barnwell, S.C.

Sole Use Truck S.E.G., Oak Ridge, TN B. Irradiated Fuel Shipments Number of Mode of Transportation Destination Shipments N/A *

  • N/A= Not Applicable 37

ANNU PORT JANUARY 1 i 'I 995 THROUGH DECEMBER 31 '995 UNITS 1 AND 2, TABLE 3.9 (CONTINUED)

Waste Total Total Curies Principal Type of Waste Category Type of Container Solidification Class Volume (Note 1) Radionuclides (Note 3) Reg-Guide (Note 4) Agent Cubic Ft. (Notes 1 8 2) 1.21 Class A 1524.6 3.287 PWR Compactible. 1.b Non-Specification None Trash (Note 5) Strong Tight Package Class A 32.6 3.05E-04 NIA PWR lon Exchange 1.a Non-Specification None Resin Strong Tight Package 63 CS137 Class A 404.2 5.825 N PWR Compactible NRC Certified LSA None Trash 1.b Type A Class A 411.6 4.014 NP, Cs'" PWR lon Exchange 1.a NRC Certified LSA None Resin ) Type A Class B 385.1 135.806 Ni, Sr, PWR lon Exchange 1.a NRC Certified LSA None

) Type A Cs'",

Sum Nuciides Resin T2 < 5 Years Class C 202.1 2.934 Ni, Tru, Si PWR Process 1.a NRC Certified LSA None s137 PU241 CO60 Filters > Type A Sum Nuclides T'~

(5 Years 38

FLORIDA POWER AND LIGHT COMPANY ST. LUCIE PLANI'NNUAL REPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 UNITS 1 AND 2, TABLE 3.9 (CONTINUED)

SOLID WASTE SUPPLEMENT NOTE 1: The total curie quantity and radionuclide composition of solid waste shipped &om the St. Lucie Plant, Units 1 and 2 are determined using a combination of qualitative and quantitative techniques. In general, the St. Lucie Plant follows the guidelines outlined in the Low Level Waste Licensing Branch Technical Position (BTP) on Radioactive Waste Classification (5/11/83) for these determinations.

The most &equently used techniques for determining the total curie quantity in a package are the dose to curie methods and the (concentration) x (volume or mass) calculations. Where appropriate, engineering type activation analyses may be applied. Since each of the above methodologies involves to some extent qualitative parameters, the total curie quantity is considered to be an estimate.

The composition of radionuclides in the waste is determined by both on-site analyses for principal gamma emitters and periodic off-site analyses for other radionuclides. The on-site analyses are performed either on a batch basis or on a routine basis using reasonably representative sample as appropriate for the waste type. Off-site analyses are used to establish scaling factors or other estimates for radionuclides such as H', C'", Fe", Ni~, Si, Tc~, I'~,

Pu238 Pu23>~0 Pu24i Am24i Cm24~ and Cm24~44.

NOTE 2: "Principal Radionuclides" refer to those radionuclides contained in the waste in concentrations greater than 0.01 times the concentration of the nuclides listed in Table 1 or 0.01-times the smallest concentration of the nuclides listed in Table 2 of 10 CFR 61.

NOTE 3: "Type of Waste" is generally specified as described in NUREG 0782, Draft Environmental Impact Statement on 10 CFR 61, "Licensing Requirements for Land Disposal of Radioactive Waste".

NOTE 4: "Type of Container" refers to the transport package.

NOTE 5: The volume and activity listed for Dry Compressible Waste represent the quantity of material that during the reporting period was sent to the Bamwell, South Carolina burial facility.

This material was shipped to a contracted vendor for volume reduction prior to final disposal at the Barnwell, South Carolina burial facility. During the reporting period, six shipments of Dry Compressible Waste ( 11,600 cubic feet, 1.283 curies) were made &om the St. Lucie Plant to the volume reduction facility. Mis material was shipped via "Sole Use Truck" in non-specification strong tight packages.

39

FLORIDA POWER Ec LIGHT COMPANY ST. LUCIE UNIT 4 1 ANNUALREPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 TABLE 3.10 SEWAGE SLUDGE SHIPMB~

Number of Shipments: 6 Sample and analyses by Florida Department of Health and Rehabilitative Services(HRS):

Shipment No: 1 2 3 4 5 6 Sample Date Jan 13 Feb 28 Feb 28 May 02 Aug 17 Aug 17 Isotope conc.: pCi/gm pCi/gm pCi/gm pCi/gm pCi/gm pCi/gm K-40 8.00E-2 7.00E-2 7.00E-2 7.00E-2 7.00E-2 7.00E-2 Mn-54 1.17E-2 6.00E-3 6.00E-3 8.00E-3 <3.00E-3 <3.00E-3 Co-58 1.20E-2 1.20E-2 1.20E-2 5.00E-3 5.00E-3 Co-60 2.09E-'1 3.09E-1 3.09E-1 2.17E-1 1.14E-1 1.14E-1 I-131 <2.40E-3 1.30E-2 1.30E-2 Cs-134 3.60E-3 <2.60E-3 3.50E-3 3.50E-3 Cs-137 2.24E-2 3.60E-2 3.60E-2 3.80E-2 2.30E-2 2.30E-2 Tl-201 1.50E-2 1.50E-2 <6.70E-3 <6.00E-3 <6.00E-3 Tl-202 1.70E-3 1.70E-3 <2.70E-3 <2,00E-3 <2.00E-3 Ra-226 1.30E-2 <5.00E-2 <5.00E-2 Average of Multiple Sample Concentrations used when provided.

FPL Calculated Curies by Shipment and Total(s):

Shipment No: 1 2 3 4 5 6 Date shipped Feb 01 Mar 14 Apr 14 May 22 Sep 20 Oct 13 Isotope Volume gals.: 2500 2500 800 5000 5000 4000 Total Curies: Ci Ci Ci Ci Ci Ci Ci K-40 7.67E-7 6.69E-7 2.14E-7 1.34E-6 1.34E-6 1.07E-6 5.40&6 Mn-54 1.12E-7 5.73E-8 1.84E-8 1.53E-7 0.00E 0 0.00E 0 3.41E-7 Co-58 0.00E 0 1.15E-7 3.67E-8 2.29E-7 9.56E 8 7.65E-8 5.53E-7 Co-60 2.00E-6 2.95E-6 9.45F 7 4.15E-6 2.18E-6 1.74E-6 1.40E-5 I-131 0.00E 0 0.00E 0 0.00E 0 0.00E 0 2.49E-7 1.99E-7 4.48E-7 Cs-134 3 44E-8 0.00E 0 0.00E 0 0.00E 0 6.69E-8 5.35E-8 1.55E-7 Cs-137 2.14E-7 3 44E-7 1.10E-7 7.26E-7 4.40E-7 3.52E-7 2.19E-6 Tl-201 0.00E 0 1.43E-7 4.59E-8 0.00E 0 0.00E 0 0.00E 0 1.89E-7 Tl-202 0.00E 0 1.62E-8 5.20E-9 0.00E 0 0.00E 0 0.00E 0 2.14E-8 Ra-226 0.00E 0 0.00E 0 0.00E 0 2.49E-7 0.00E 0 0.00E 0 2.49E-7 Total of all isotopes for all Shipments: 2.35E-5 Ci 40

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT 0 1 ANlCJAL REPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 Attachment - A, UNPLANNED Liquid Release of August 19, 1995 Overfilling of the Primary Water Tank 0 1 Due to Personnel Error Description of the Event:

In-house Event 95-50 documents this event. The following is a brief summary.

The Primary Water Tank(PWT) is an outdoor tank with an overflow line to the ground inside the Radiation Controlled Area The tank normally consists of Tritium and trace isotopes Born recycling of Boric Acid Distillate 6am the Boric Acid Recovery System.

Clean make up water was being added to the Primary Water Tank using manual valves.

Annunciator F-23 Primary Water Tank Level High/Low" alarmed in the control room.

The reactor operator instructed the Senior Nuclear Plant Operator(SNPO) to contact the Auxiliary Nuclear Plant Operator(ANPO) to secure the fillvalve to the PWT. About 45 t minutes later, personnel near the PWT reported to the control room that the PWT was overflowing. The SNPO was immediately dispatched to close V15106, the manual isolation to LCV 15 6 level control valve to the PWT, which stopped the overflow.

Cause(s) for the unplanned release:

The root cause of the event was the operators did not respond in a timely manner to the high level alarm in the PWI'.

The LCV 15-6 valve had historically been unreliable, hence operators were 2) normally dispatched to manually open or close either V15106 or V15105, to provide makeup via the manual bypass line around LCV 15-6.

Actions taken to prevent a recurrence:

The operating crew and the gyrations Supervisor convened at the end of the shift for a post event debrief. Immediate counseling was provided to members of the crew involved in this event.

2) Members of the operating crew involved in this event received disciplinary actions.
3) A Nuclear Plant Work Order and St. Lucie Action Report (STAR) ere written to investigate the operability problems with LCV 15-6. The level control valve (LCV) was adjusted to ensure complete closure of the valve at 100% of the level control signal and the identical Unit 2 LCV was examined.
4) Plant Management emphasized the need to identify all plant deficiencies and has prioritized the resolution of deficiencies involving Operator Work Arounds 41

FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT 4 1 ANNUALREPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 Attachment - A (continued)

Consequences of the unplanned release:

Based on a Tank Grab Sample and calculated release volume, the release to ground was:

Nuclide Assay Release Symbol uCi/ml Curies Xe-131m 9.825E-7 4.184E-05 Xe-133 1.025E-5 4.365E-04 Co-58 7.294E-8 3.106E-06 Co-60 9.572E-8 4.076E-06 H-3 9.240E-2 3.935E 00 Alpha <1.6E-08 0.00 E 00 Fe-55 5.2 F 08 2.2 E-06 Sr-89 1,2 E-0 5.0 E-07 Sr-90 < 1.27 E-08 0.000E 00 Release Volume = 11,250 gallons There was no release off-site and no site release limits were exceeded. There are no drinking wells located on the barrier island on which the plant is sited. Therefore, there was no pathway to the general public due to salt-water intrusion of the Atlantic Ocean.

The release of radioactive material to the ground fiom this event was identified in the Site Decommissioning Plan.

42

FLORIDA POWER Ec LIGHT COMPANY ST LUCIE UNIT u 1 ANNUALREPORT JANUARY 1, 1995 THROUGH DECEMBER 31, 1995 Attachment - B Copies of C-200 O.D.C.M Revision 16 and Revision 17 43

Page 1 of 182 FLORIDA POWER 8t, LIGHT COMPANY ST. LUCIE PLANT CHEMISTRY PROCEDURE NO. C-200 REVISION 16 1.0 PgODUCTloN TITLE'FFSITE DOSE CALCULATION MANUAL(ODCM) )wg~~c+>w o lf 2.0 REVIEW AND APPROVAL:

Reviewed by Facility Review Group 4/22 19 82 Approved by C. M. Weth Plant General Manager 4/27 19 82 Revision 16 Reviewed by F R G 1/26 1995 Approved by C. L. Burton Plant General Manager 1/26 1995 S OPS DATE DOCT PROCEDURE DOCN C-200 SYS COMP COMPLETED ITM 16

Page 2 of 182, ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX PAGE INTRODUCTION ...................,.............................. 7 CONTROLS SECTION DEF INITIONS FOR CONTROLS SECTION ~ ~ 0 9

~ 0 ~ ~ ~ ~ ~ ~ ~ ~ ~ 9 1.3 CHANNEL FUNCTIONAL TEST....,........ 9

~ ~ ~

1.5 CHANNEL CALIBRATION 9 1.6 CHANNEL CHECK .. ~ ~,...... ~... ~..... ~ ~ ~ ~ 9 1.10 DOSE EQUIVALENT I-131 10 1.13 FREQUENCY NOTATION . ~ ~ .,....... ~.... 10 1 16

~ MEMBER(S) OF THE PUBLIC.............. ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 10 1 17 OFFSITE DOSE CALCULATION MANUAL..... 10

~ ~ ~

1.18 OPERABLE - OPERABILITY ~ ~ 11 1 19

~ OPERATIONAL MODE - MODE .. ~.... ~... . ~ ~ ~ 11 1.23 PURGE PURGING ~ ~ 11 1.25 RATED THERMAL POWER ~ ~........ ~..... ~ ~ 11 1.27 REPORTABI E EVENT, .. . ~.... .. .. .. 11

~....,..............

~ ~ ~ ~ ~ ~

1.30 SITE BOUNDARY . 12

~..............'. ~.....

~ ~

1.33 SOURCE CHECK . ~ ~ 12 1.35 THERMAL POWER.................. ~... 12 1.38 UNRESTRICTED AREA ~ ~ 12 1.39 VENTILATIONEXHAUST TREATMENT SYSTEM ~ ~ 12 1.40 VENTING ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ \ ~ ~ 13 1.41 WASTE GAS HOLDUP SYSTEM... .. ~ ~ . ~... ~ ~ 13 3/4 CONTROLS AND SURVEILLANCE REQUIREMENTS 15 3/4.0 APPLICABILITY 15 INSTRUMENTATION RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION .... 16 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION .. 21 3/4.11 RADIOACTIVE EFFLUENTS LIQUID EFFLUENTS '/4.11.1 CONCENTRATION 28 32 LIQUID RADWASTE TREATMENT.... ~.... .. ~ 33

Page 3 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX CONTROLS SECTION'ONTROL PAGE AND SURVEILLANCE STATEMENTS FOR CONTROL SECTION 3/4.11 RADIOACTIVE EFFLUENTS (Continued) 3/4.11.2 GASEOUS EFFLUENTS 34

~...............

~ ~

DOSE - NOBLE GAS........ ~ ~ . ~ .. 38 DOSE - IODINE-131, IODINE-133, TRITIUMS AND RADIONUCLIDES IN PARTICULATE FORM .. 39 3/4.11.3 GASEOUS RADWASTE TREATMENT ............... .. 40 (NOT USED) 3/4.11.4 TOTAL DOSE ~.....,.................... ~..... ...... 42 3/4.11.5 MAJOR CHANGES TO RADIOACTIVE LIQUID, GASEOUS AND SOLID WASTE TREATMENT SYSTEMS (ADMINISTRATIVECONTROL) ~ ~ ~ ~ ~ ~ 44 3/4.11.6 ANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT TO THE COMMISSION (ADMINISTRATIVE'CONTROL) ....,. 45 3/4.12 RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM . ~..... ~....,....... .. .., ... 48

~..................

~ ~ ~

3/4.12.2 LAND USE CENSUS . ~.... ~..... .. ~ 57 3/4.12.3 INTERLABORATORY.COMPARISON PROGRAM . .. . ~.... ~ ~ .. 59 3/4.12.4 ANNUAL RADIOLOGICALENVIRONMENTALOPERATING REPORT (ADMINISTRATIVECONTROL) ................. .. 60 BASES for CONTROLS SECTION 3/4.11 RADIOACTIVE EFFLUENTS 3/4.3.3.9 INSTRUMENTATION ......, ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 62 3/4.11.1 LIQUID EFFLUENTS,....... ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 63 3/4.11,2 GASEOUS EFFLUENTS ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 65 3/4.11.3 (NOT USED) 3/4.11.4 TOTAL DOSE ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 68 3/4.12 RADIOACTIVE ENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM ......... ~.................... 70 3/4,12.2 LAND USE CENSUS ..... ~.... ~.... ~...... .. ~........

~ 70 3/4.12.3 INTERLABORATORYCOMPARISON PROGRAM ... ~....... ~ . 71

Page 4 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX CONTROLS SECTION-.

PAGE LIST OF FIGURES for CONTROLS SECTION FIGURE 1-1 SITE AREA MAP & ENVIRONMENTALSAMPLE LOCATIONS .... 177 1-2 ENVIRONMENTALSAMPLE LOCATIONS (10 MILES) .......... 178 LIST OF TABLES for CONTROLS SECTION TABLE 1-1 FREQUENCY NOTATION ................................ 14 3.3 12 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION ....................................

RADIOACTIVE GASEOUS EFFLUENT MONITORING 17 3.3 13 INSTRUMENTATION ...... ~.....,

~ ~ .. ~................ ~ . 22 3.12 1 RADIOLOGICALENVIRONMENTALMONITORING PROGRAM..... 50 3.12-2 REPORTING LEVELS FOR RADIOACTIVITYCONCENTRATIONS 4.3-8 IN ENVIRONMENTALSAMPLES ...,............. ~.... ~.... 53 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS . ~.... .

~ ~ 19 4.3-9 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS ......... 25 4.11-1 RADIOACTIVE LIQUID WASTE SAMPLING AND ANALYSIS PROGRAM....... ~........ ~,....... ~..... 29 4.11-2 RADIOACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS PROGRAM............ ~........... ~..... ~ 35 4.12-1 DETECTION CAPABILITIES FOR ENVIRONMENTALSAMPLE ANALYSIS LOWER LIMITOF DETECTION (LLD) ............. ... 54

Page 5 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX METHODOLOGY SECTION PAGE Glossary for Methodology Section .......... ~....... .. ~........ ~ ~ ~ ~ 73 1.0 LIQUID RELEASES METHODOLOGY .............;.......... ~ 76 1.1 Radioactive Liquid Effluent Model Assumptions,..... ~ ~ ~ ~ ~ ~ ~ 77 1.2 Determining the Fraction (F) of 10 CFR Part 20 Effluent Concentration Limits (ECL) for a Liquid Release Source ~ . 78 1.3 Determining Setpoints for Radioactive Liquid Effluent Monitors ...,......'. ~... . . . ~....

~ ~ ~ ~ ~ . ~ 81 1.4 Determining the Dose for Radioactive Liquid Releases ~ ~ . 83 1,5 Projecting Dose for Radioactive Liquid Effluents ~... ~, .. 87 2.0 Radioactive Releases of Gaseous Effluents .. 88 2.1 Gaseous Effluent Model Assumptions ........ ~ .. ~ ~ .. 89 2.2 Determining the Total Body and Skin Dose Rates for Noble Gas Releases and Establishing Setpoints for Effluent Monitors.........,.............. ~ . ~ ~ ~ ~ ~

"~

~ ~ 90 2.3 Determining the Radioiodine and Particulate Dose Rate to Any Organ From Gaseous Releases ............ ~ ~ ~ ~ ~ ~ ~ ~ 97 2.3.1 Inhalation ...... ~...... ~... .. ~, .. .. 99

.............. .. ~...

~

2.3.2 Ground Plane ~ . 101 102 2 ,3.4 Tntium ........,...............,. 104 2.3.5 Total Dose Rate by Release Source .. . ~ ~ , 106 24 Determining the Gamma Air Dose for Radioactive Noble Gas Releases ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 06 2,5 Determining the Beta Air Dose for Radioactive Noble Gas Releases ~ ~ ........ 110 2.6 Determining the Radioiodine and Particulate Dose to Any Organ From Cumulative Releases .. ~ ~ .. ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 1 2 DISCUSSION 2.6.1 Inhalation ......... ~...........

.. 115

~

2,6.2 Ground Plane Il A'll

~ . ~ . ~ .. ~ 116 2 6e3 Milk

~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 117 2.6.4 Tritium (All pathways) 118

~.........

~

2.6.5 Total Organ Dose,..... ~ . 119 2.7 Projecting Dose for Radioactive Gaseous Effluents .. 120

Page 6 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX METHODOLOGY SECTION PAGE 3.0 40 CFR 190 Dose Evaluation............. ~ . ~............... 121 4.0 Annual Report Format .........;.........,....,........... 122 Appendix A - ECL, Dose Factor and Historical Meteorological Tables .......... ~... ~....., .. ..

~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 38 Appendix B - Limited Analysis Dose Assessment for Liquid Radioactive Effluents ...................... 165 Appendix C - Technical Bases for Effective Dose Factors ..... 167 Appendix D - Technical Bases for Eliminating Curie Inventory Limit for Gaseous Waste Storage Tanks........., .. .. 171

~ ~

Appendix E Current R.E.M. Sample Point Locations ~ .. 173 Appendix F - Description of Meteorological Dispersion Formulas Utilized for Historical Data and Methodology for Determining Actual MET Data 179

Page 7 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INTRODUCTION The ODCM consists of the Controls Section followed by the Methodology Section.

The Controls Section provides the Control Statements, Limits, ACTION Statements, Surveillance Requirements and BASES for ensuring that Radioactive Liquid and Gaseous Effluents released to UNRESTRICTED AREAS and/or the SITE BOUNDARY will be.

maintained within the requirements of 10 CFR Part 20, 40 CFR Part 190, 10 CFR 50.36.a and 10 CFR.Part 50 Appendix-I radioactive release criteria. All Control Statements and most Administrative Control Statements in the ODCM are directly tied to and reference the Plant Technical Specification (TS) Administrative Section. The Administrative Control for Major Changes to Radioactive Liquid, Gaseous and Solid Treatment Systems is as per the guidance of NUREG-1301, April 1991, Supplement No. 1 to NRC Generic Letter 89-01. The numbering sequences of Control Statements also follow the guidance of NUREG-1301 as applicable, to minimize differences.

The Methodology Section uses the models suggested by NUREG-0133, November, 1978 and Regulatory Guide 1.109 to provide calculation methods and parameters for determining results in compliance with the Controls Section of the ODCM. Simplifying assumptions have been applied where applicable to provide a more workable document for implementing the Control requirements. Alternate calculation methods may be used from those presented as long as the overall methodology does not change or as long as most up-to-date revisions of the Regulatory Guide 1.109 dose conversion factors and environmental transfer factors are substituted for those currently included and used in this document.

RECORDS AND NOTIFICATIONS All records of reviews performed for changes to the ODCM shall be maintained in accordance with Ql 17-PR/PSL-1. All FRG approved changes to the ODCM, with required documentation of the changes per TS 6.14, shall be submitted to the NRC in the Annual Effluent Release Report. Procedures that directly implement, administer or supplement the requirements of the ODCM Controls and Surveillances are:

C-01 Schedule for Periodic Test C-02 Schedule for Test Calibrations.

C-70 Processing Aerated Liquid Waste C-72 Processing Gaseous Wastes The Radiological Environmental Monitoring Program is performed by the State of Florida as per FPL Juno Nuclear Operations Corporate Environmental Procedures.

Page 8 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM CONTROLS AND SURVEILLANCE REQUIREMENTS St. Lucie Plant ODCM Controls

Page 9 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM The defined terms of this section appear in capitalized type and are applicable throughout these Controls.

ACTION 1.1 ACTION shall be that part of a Control that prescribes remedial measures required under designated conditions.

CHANNEL CALIBRATION 1.4 A CHANNEL CALIBRATIONshall be the adjustment, as necessary, of the channel output such that it responds with the necessary range and accuracy to known values of the parameter which the channel monitors. The CHANNEL CALIBRATIONshall encompass the entire channel including the sensor and alarm and/or trip functions and shall include the CHANNEL FUNCTIONALTEST. The CHANNEL CALIBRATIONmay be performed by any series of sequential, overlapping or total channel steps such that the entire channel is calibrated.

CHANNEL CHECK 1.5 A CHANNEL CHECK shall be the qualitative assessment of channel behavior during operation by observation. This determination shall include, where possible, comparison of the channel indication and/or status with other indications and/or status derived from independent instrument channels measuring the same parameter.

CHANNEL FUNCTIONAL TEST 1.6 A CHANNEL FUNCTIONALTEST shall be the injection of a simulated signal into the channel as close to the sensor as practicable to verify OPERABILITY of alarm, interlock and/or trip functions. The CHANNEL FUNCTIONAL TEST shall include adjustments, as necessary, of the alarm, interlock and/or Trip Setpoints such that the setpoints are within the required range and accuracy.

St. Lucie Plant ODCM Controls

Page 10 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM

~.o DEFINITIONS for CONTROLS SECTION OF ODCM DOSE EQUIVALENT I-131 1.10 DOSE EQUIVALENT I-131 shall be that concentration of 1-131 (microCurie/gram) which alone would produce the same thyroid dose as the quantity and isotopic mixture of l-131, l-132, 1-133, 1-134 and l-135 actually present. The thyroid dose conversion factors used for this calculation shall be those listed in [Table III of TID-14844, Calculation of Distance Factors for Power and Test Reactor Sites or Table E-7 of NRC Regulatory Guide 1.109, Revision 1, October 1977].

FREQUENCY NOTATION 1.13 The FREQUENCY NOTATION specified for the performance of Surveillance Requirements shall correspond to the intervals defined in Table 1 1.

~

MEMBER S OF THE PUBLIC 1.17 MEMBER OF THE PUBLIC means an individual in a controlled or unrestricted area.

~

~ ~

However, an individual is not a member of the public during any period in which the individual receives an occupational dose.

OFFSITE DOSE CALCULATION MANUAL 1.18 The OFFSITE DOSE CALCULATION MANUAL (ODCM) shall contain the methodology and parameters used in the calculation of offsite doses resulting from radioactive gaseous and liquid effluents, in the calculation of gaseous and liquid effluent monitoring Alarm/Trip Setpoints and in the conduct of the Environmental Radiological Monitoring Program. The ODCM shall also contain (1) the Radioactive Effluent Controls and Radiological Environmental Monitoring Programs required by TS section 6.8.4 and (2) descriptions of the information that should be included in the Annual Radiological Environmental Operating and Annual Radioactive Effluent Release Reports required by TS 6.9.1.7 and 6.9.1.8.

St. Lucie Plant ODCM Controls

Page 11 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM OPERABLE - OPERABILITY 1.19 A system, subsystem, train, component or device shall be OPERABLE or have OPERABILITY when it is capable of performing its specified function(s) and when all necessary attendant instrumentation, controls, electrical power, cooling or seal water, lubrication or other auxiliary equipment that are required for the system, subsystem, train, component or'device to perform its function(s) are also capable of performing their related support function(s) ~

OPERATIONAL MODE - MODE 1.20 An OPERATIONAL MODE (i.e., MODE) shall correspond to any one inclusive combination of core reactivity condition, power level and average reactor coolant temperature specified in Table 1.2 of the St, Lucie Plant TS.

PURGE - PURGING 1.24 PURGE or PURGING shall be any controlled process of discharging air or gas from a confinement to maintain temperature, pressure, humidity, concentration or other operating condition, in such a manner that replacement air or gas is required to purify the confinement.

RATED THERMAL POWER 1.25 RATED THERMAL POWER shall be a total reactor core heat transfer rate to the reactor coolant of 2700 MWt.

REPORTABLE EVENT 1.27 A REPORTABLE EVENT shall be any of those conditions specified in Section 50.73 of 10 CFR Part 50.

St. Lucie Plant ODCM Controls

Page 12 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM SITE BOUNDARY 1,30 SITE BOUNDARY means that line beyond which the land or property is not owned, leased or otherwise controlled by the licensee.

SOURCE CHECK 1.31 A SOURCE CHECK shall be the qualitative assessment of channel response when the channel sensor is exposed to a radioactive source, THERMAL POWER 1.33 THERMAL POWER shall be the total reactor core heat transfer rate to the reactor coolant.

UNRESTRICTED AREA 1.35 UNRESTRICTED AREA means an area, access to which is neither limited nor controlled by the licensee.

VENTILATIONEXHAUST TREATMENT SYSTEM 1.39 A VENTILATION EXHAUST TREATMENT SYSTEM shall be any system designed and installed to reduce gaseous radioiodine or radioactive material in particulate form in effluents by passing ventilation or vent exhaust gases through charcoal adsorbers and/or HEPA filters for the purpose of removing iodines or particulates from the gaseous exhaust stream prior to the release to the environment. Such a system is not considered to have any effect on noble gas effluents. Engineered Safety Features Atmospheric Cleanup Systems are not considered to be VENTILATION EXHAUST TREATMENT SYSTEM components.

St. Lucie Plant ODCM Controls

Page 13 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM VENTING h

1.40 VENTING shall be the controlled process of discharging air or gas from a confinement to maintain temperature, pressure, humidity, concentration or other operating condition, in such a manner that replacement air or gas is not provided or required during VENTING.

Vent, used in system names, does not imply a VENTING process.

WASTE GAS HOLDUP SYSTEM 1.41 A WASTE GAS HOLDUP SYSTEM shall be any system designed and installed to reduce radioactive gaseous effluents by collecting Reactor Coolant System offgases from the Reactor Coolant System and providing for delay or holdup for the purpose of reducing the total radioactivity prior to release to the environment.

St. Lucie Plant ODCM Controls

Page 14 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 1.1 FREQUENCY NOTATION NOTATION FREQUENCY S At least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />.

D At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

W At least once per 7 days'.

4/M* At least 4 per month at intervals of no greater than 9 days and minimum of 48 per year.

At least once per 31 days.

Q At lease once per 92 days.

SA At least once per 184 days.

R At least once per 18 months.

S/U Prior to each reactor startup.

N.A. Not Applicable, pi* Completed prior to each release For Radioactive Effluent Sampling

  • For Radioactive Batch Releases Only St. Lucie Plant ODCM Controls

Page 15 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4 CONTROLS AND SURVEILLANCE REQUIREMENTS 3/4.0 APPLICABILITY CONTROLS 3.0.1 Compliance with the Controls contained in the succeeding controls is required during the conditions specified therein; except that upon failure to meet the Control, the associated ACTION requirements shall be met.

3.0.2 Noncompliance with a Control shall exist when the requirements of the Control and associated ACTION requirements are not met within the specified time intervals. If the Control is restored prior to expiration of the specified time intervals, completion of the ACTION requirements is not required.

SURVEILLANCE REQUIREMENTS 4.0.1 Surveillance Requirements shall be met during the conditions specified for individual Controls unless otherwise stated in an individual Surveillance Requirement.

4.0.2 Each Surveillance Requirement shall be performed within the specified time interval with:

a. A maximum allowable extension not to exceed 25% of the surveillance interval.

St. Lucie Plant ODCM Controls

Page 16 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OF FSITE DOSE CALCULATION MANUAL ODCM INSTRUMENTATION RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION CONTROLS 3.3.3.9 In accordance with St. Lucie Plant TS 6.8.4.f.1), the radioactive liquid effluent monitoring instrumentation channels shown in Table 3.3-12 shall be OPERABLE with their Alarm/Trip Setpoints set to ensure that the limits of Control 3.11 1.1 are not exceeded. The

~

Alarm/Trip Setpoints of these channels shall be determined and adjusted in accordance with the methodology and parameters in the OFFSITE DOSE CALCULATIONMANUAL(ODCM).

APPLICABILITY: At all times.

ACTION:

a. With a radioactive liquid effluent monitoring instrumentation channel Alarm/Trip Setpoint less conservative than required by the above control, immediately suspend the release of radioactive liquid effluents monitored by the affected channel or declare the channel inoperable or change the setpoint so it is acceptably conservative.
b. With less than the minimum number of radioactive liquid effluent monitoring instrumentation channels OPERABLE, take the ACTION shown in Table 3.3-1 2.

Restore the inoperable instrumentation to OPERABLE status within 30 days and, if unsuccessful, explain in the next Annual Radioactive Effluent Release Report why this inoperability was not corrected in a timely manner.

c. Report all deviations in the Annual Radioactive Effluent Release Report.

SURVEILLANCE REQUIREMENTS 4.3.3.9 Each radioactive liquid effluent monitoring instrumentation channel shall be demonstrated OPERABLE by performance of the CHANNEL CHECK, SOURCE CHECK, CHANNEL CALIBRATION and CHANNEL FUNCTIONAL TEST at the frequencies shown in Table 4.3-8.

St. Lucie Plant ODCM Controls

Page 17 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-12 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION MINIMUM

.CHANNELS INSTRUMENT OPERABLE ACTION

1. Radioactivity Monitors Providing Alarm and Automatic Termination of Release a) Liquid Radwaste Effluent Line 35 b) Steam Generator Blowdown 1/SG 36 Effluent Line
2. Flow Rate Measurement Devices a) Liquid Radwaste Effluent Line N.A. 38 b) Discharge Canal N,A. 38 c) Steam Generator Blowdown N.A. 38 Effluent Lines SG - Denotes Steam Generator St. Lucie Plant ODCM Controls

Page 18 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-12 Continued ACTION STATEMENTS ACTION 35 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases may continue for up to 14 days provided that prior to initiating a release:

a. At least two independent samples are analyzed in accordance with the Surveillance Requirement for concentration limit of Control 4.11.1.1.1. and
b. At least two technically qualified members of the Facility Staff independently verify the release rate calculations and discharge line valving.

Otherwise, suspend release of radioactive effluents via this pathway.

ACTION 36 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases via this pathway may continue for up to 30 days provided grab samples are analyzed for gross radioactivity (beta or gamma) at a limit of detection of at least 2.E-07 micro-Curie/ml:

a. At least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> when the specific activity of the secondary coolant is greater than 0.01 micro-Curies/gram DOSE EQUIVALENT 1-131 or
b. At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> when the specific activity of the secondary coolant is less than or equal to 0.01 micro-Curies/gram DOSE EQUIVALENT l-131.

ACTION 38 - Minimum system design flow of required running pumps shall be utilized for ECL calculations for discharge canal flow and maximum system design flow be utilized for ECL calculations for effluent line flow.

St. Lucie Plant ODCM Controls

Page 19 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-8

'ADIOACTIVELIQUID EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS CHANNEL CHANNEL SOURCE CHANNEL FUNCTIONAL INSTRUMENT CHECK CHECK CALIBRATION TEST

'1. Radioactivity Monitors Providing Alarm and Automatic Termination of Release

') Liquid Radwaste Effluent R (2) Q (1)

Line b) Steam Generator D R (2) Q (1)

Blowdown Effluent. Line

2. Flow Rate Measurement Devices a) Liquid Radwaste Effluent D (3) N.A. Q Line b) Discharge Canal N.A. R Q c) Steam Generator D (3) N.A. Q Blowdown Effluent Line St. Lucie Plant ODCM Controls

Page 20 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-8 Continued TABLE NOTATIONS (1) The CHANNEL FUNCTIONALTEST shall also demonstrate automatic isolation of this pathway and control room alarm annunciation occur if any of the following conditions exist:

1. Instrument indicates measured levels above the alarm/trip setpoint or
2. Circuit failure or
3. Instrument indicates a downscale failure or
4. Instrument controls not set in operate mode.

(2) The initial CHANNEL CALIBRATION shall be performed using one or more of the reference standards traceable to the National Institute of Standards 8 Technology (NIST) or using standards that have been calibrated against standards certified by the NIST. These standards should permit calibrating the system over its intended range of energy and rate capabilities that are typical of normal plant operation, For subsequent CHANNEL CALIBRATION, button sources that have been related to the initial calibration may be used.

(3) CHANNEL CHECK shall consist of verifying indication of flow during periods of release.

CHANNEL CHECK shall be made at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> on days on which continuous, periodic or batch releases are made.

St. Lucie Plant ODCM Controls

Page 21 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INSTRUMENTATION RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION CONTROLS 3.3.3.10 In accordance with St. Lucie Plant TS 6.8.4.f.1), the radioactive gaseous effluent monitoring instrumentation channels shownin Table 3.3-13 shall be OPERABLE with their Alarm/Trip Setpoints set to ensure that the limits of Control 3.11.2.1.are not exceeded.

The Alarm/Trip Setpoints of these channels shall be determined and adjusted in accordance with the methodology and parameters in the ODCM.

APPLICABILITY: As shown in Table 3.3-13 ACTION:

a. With a radioactive gaseous effluent monitoring instrumentation channel Alarm/Trip Setpoint less conservative than required by the above control, immediately suspend the release of radioactive gaseous effluents monitored by the affected channel or declare the channel inoperable or change the setpoint so it is acceptably conservative.
b. With less than the minimum number of radioactive gaseous effluent monitoring instrumentation channels OPERABLE, take the ACTION shown in Table 3.3-13.

Restore the inoperable instrumentation to OPERABLE status within 30 days and, if un'successful, explain in the next Annual Radioactive Effluent Release Report why this inoperability was not corrected in a timely manner.

c. Report all deviations in the Annual Radioactive Effluent Release Report.

SURVEILLANCE REQUIREMENTS 4.3.3.10 Each radioactive gaseous effluent monitoring instrumentation channel shall be demonstrated OPERABLE by performance of the CHANNEL CHECK, SOURCE CHECK, CHANNEL CALIBRATIONand CHANNEL FUNCTIONAL TEST at the frequencies shown in Table 4.3-9.

St. Lucie Plant ODCM Controls

Page 22 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION MINIMUM CHANNELS INSTRUMENT OPERABLE APPLICABILITY ACTION

1. Waste Gas Holdup System a) Noble Gas Activity Monitor-Providing Alarm and 1/Rx 45 Automatic Termination of Release
2. Condenser Evacuation System a) Noble Gas Activity Monitor 1/Rx 47
3. Plant Vent System a) Noble Gas Activity Monitor 1/Rx 47 (Low Range) b) Iodine Sampler 51 c) Particulate Sampler 1/Rx 51 d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 1/Rx
4. Fuel Storage Area Ventilation System a) Noble Gas Activity Monitor 1/Rx 47 (Low Range) b) Iodine Sampler 1/Rx 51 c) Particulate Sampler d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 1/Rx 46 St. Lucie Plant ODCM Controls

Page 23 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 Continued RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION MINIMUM CHANNELS INSTRUMENT OPERABLE APPLICABILITY ACTION

5. Laundry Area Ventilation System a) Noble Gas Activity Monitor 1/Rx 47 (Low Range) b) Iodine Sampler 1/Rx 51 c) 'Particulate Sampler 1/Rx 51 d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 1/Rx 46
6. Steam Generator Blowdown Building Vent a) Noble Gas Activity Monitor 47 (Low Range) b) Iodine Sampler 51 c) Particulate Sampler 51 d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 46 St. Lucie Plant ODCIVl Controls

Page 24 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 Continued TABLE NOTATIONS

- At all times while making releases via this pathway

- At all times when air ejector exhaust is not directed to plant vent.

Rx - Denotes reactor ACTION STATEMENTS ACTION 45 - With the number of channels OPERABLE less than required by the Minimum

, Channels OPERABLE requirement, the contents of the tank(s) may be released to the environment for up to 14 days provided that prior to initiating a release:

a. At least two independent samples of the tank's contents are analyzed and
b. At least two technically qualified members of the facility staff independently verify the release rate calculations and discharge valve lineup.

Otherwise, suspend release of radioactive effluents via this pathway, t ACTION 46 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases via this pathway may continue for up to 30 days provided the flow rate is estimated at least once per 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.

ACTION 47 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE, effluent releases via this pathway may continue for up to 30 days provided:

a. If channel inoperability is due to loss of activity indication, Then grab samples are taken at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> and these samples are analyzed for isotopic activity within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

OR

b. 'If channel inoperability is due to loss of Control Room alarm annunciation discovered during a channel functional test because of any one or more of the following reasons listed, Then channel checks are performed once per hour to verify normal indication and current assigned setpoints are NOT exceeded.
1. Failure to annunciate when testing alarm/trip setpoints.
2. Circuit failure.
3. Downscale failure.
4. Controls NOT set in OPERATE mode.

/R16 St. Lucie Plant ODCM Controls

Page 25 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 Continued TABLE NOTATIONS ACTION STATEMENTS (coritinued)

ACTION 51 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases via the affected pathway may continue for up to 30 days provided samples are continuously collected with auxiliary sampling equipment as required in Table 4.11-2.

ACTION 53 - Maximum system flows shall be utilized in the determination of the instantaneous release monitor alarm setpoint.,

St. Lucie Plant ODCM Controls

Page 26 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-9 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS Modes in CHANNEL which CHANNEL SOURCE CHANNEL FUNCTIONAL surveillance INSTRUMENT CHECK CHECK CALIBRATION TEST required

1. Waste Gas Holdup System a) Noble Gas Activity Monitor - Providing Alarm and Automatic R (3) Q (1)

Termination of Release

2. Condenser Evacuation System a) Noble Gas Activity R (3) Q (2)

Monitor

3. Plant Vent System a) Noble Gas Activity R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A. N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor

4. Fuel Storage Area Ventilation System a) Noble Gas Activity M R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A. N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor St. Lucie Plant ODCM Controls

Page 27 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-9 Continued RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS Modes in CHANNEL which CHANNEL SOURCE CHANNEL FUNCTIONAL surveillance INSTRUMENT CHECK CHECK CALIBRATION TEST required

5. Laundry Area Ventilation System a) Noble Gas Activity R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A. N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor

6. Steam Generator Blowdown Building Vent a) Noble Gas Activity D R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A. N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor D N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor St. Lucie Plant ODCM Controls

Page 28 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-9 Continued TABLE NOTATIONS At all times when making releases via this pathway.

    • At all times when air ejector exhaust is not directed to plant vent.

(1) The CHANNEL FUNCTIONALTEST shall also demonstrate automatic isolation of this pathway and control room alarm annunciation occurs if any of the following conditions exist:

1. Instrument indicates measured levels above the alarm/trip setpoint or
2. Circuit failure or
3. Instrument indicates a downscale failure or
4. Instrument controls not set in operate mode.

(2) The CHANNEL FUNCTIONAL TEST shall also demonstrate that control room alarm annunciation occurs if any of the following conditions exist:

1 ~ Instrument indicates measured levels above the alarm/trip setpoint or

2. Circuit failure or
3. Instrument indicates a downscale failure or
4. Instrument controls not set in operate mode.

(3) The initial CHANNEL CALIBRATION shall be performed using one or more of the reference standards traceable to the National Institute of Standards 8 Technology (NIST) or using standards that have been calibrated against standards certified by the NIST. These standards should permit calibrating the system over its intended range of energy and rate capabilities that are typical of normal plant operation. For subsequent CHANNEL CALIBRATION, button sources that have been related to the initial calibration may be used.

St. Lucie Plant ODCM Controls

Page 29 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.11 RADIOACTIVE EFFLUENTS 3/4.11.1 LIQUID EFFLUENTS CONCENTRATION CONTROLS 3.11.1.1 In accordance with the St. Lucie Plant TS 6.8.4.f.2) and 3), the concentration of radioactive material released in liquid effluents to UNRESTRICTED AREAS (see TS.

Figure 5.1-1) shall be limited to ten times the concentrations specified in 10 CFR Part 20.1001-20.2401, Appendix B, Table 2, Column 2 for radionuclides other than dissolved or entrained noble gases. For dissolved or entrained noble gases, the concentration shall be limited to 2.E-04 micro-Curie/ml total activity.

APPLICABILITY: At all times.

ACTION:

a. With the concentration of radioactive material released in liquid effluents to UNRESTRICTED AREAS exceeding the above limits, immediately restore the concentration to within the above limits.

SURVEILLANCE REQUIREMENTS 4.11.1 1.1

~ Radioactive liquid wastes shall be sampled and analyzed according to the sampling and analysis program of Table 4.11-1.

4.11.1.1.2 The results of the radioactivity analyses shall be used in accordance with the methodology and parameters in the ODCM to assure that the concentrations at the point of release are maintained within the limits of Control 3.11.1.1.

4.11.1.1.3 Post-release analyses of samples composited from batch releases shall be performed in accordance with Table 4.11-1 and results of the previous post-release analyses shall be used with the calculational methods in the ODCM to assure that the concentrations at the point of release were maintained within the limits of Control 3.11.1.1.

St. Lucie Plant ODCM Controls

Page 30 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO..C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL'DCM TABLE 4.11-1 RADIOACTIVE LIQUID WASTE SAMPLING AND ANALYSIS PROGRAM Minimum Lower Limit of Liquid Release Sampling Analysis Type of Activity Detection Type Frequency Analysis Frequency LLD (1) (B,ci/01I)

A. Batch Waste P P.G.E. (3) 5.E-07 Release Each Batch Each Batch I-131 1.E-06 Tanks (2)

Dissolved and P Entrained 1.E-05 One Batch/M Gases (Gamma Emitters)

P M H-3 1.E-05 Each Batch Composite (4) Gross Alpha 1.E-07 P Q Sr-89, Sr-90 5.E-08 Each Batch Composite (4) Fe-55 1.E-06 B. Continuous 4/M P.G.E.(3) 5.E-07 Releases (5, Daily Composite I-131 1.E-06

6) Dissolved and Daily 4/M Entrained 1.E-05 Grab Sample Composite Gases (Gamma Emitters)

M H-3 1.E-05 Daily Composite Gross Alpha 1.E-07 Q Sr-89, Sr-90 5.E-08 Daily Composite Fe-55 1.E-06 C. Settling Basin W P.G.E. (3) 5.E-07 W

(7) Grab Sample l-131 1.E-06 P.G.E. - Denotes Principal Gamma Emitter St. Lucie Plant ODCM Controls

Page 31 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 Continued TABLE NOTATION (1) The LLD is defined for purposes of these controls, 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.

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

-4.66 S~

E ~ V~ 2.22E+06 ~ Y ~ exp (- X ~ 57)

Where:

LLD the a priori lower limit of detection (micro-Curie per unit mass or volume),

Sb the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

the counting efficiency (counts per disintegration),

V the sample size (units of mass or volume),

2.22E+06 the number of disintegrations per minute per micro-Curie.,

'I the fractional radiochemical yield, when applicable, the radioactive decay constant for the particular radionuclide (sec')

and the elapsed time between the midpoint of sample collection and the time of counting (sec).

Typical values of E, V, Y and dT should be used in the calculation.

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 gosteriori (after the fact) limit for a particular measurement.

't. Lucie Plant ODCM Controls

Page 32 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 Continued TABLE NOTATIONS Continued (2) A batch. release is the discharge of liquid wastes of a discrete volume. Prior to sampling for analyses, each batch shall be isolated and then thoroughly mixed by a method described in the ODCM to assure representative sampling.

(3) The principal gamma emitters for which the LLD control applies include the following radionuclides: Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99, Cs-134, Cs-137 and 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 with those of the above nuclides, shall also be analyzed and reported in the Annual Radioactive Effluent Release Report pursuant to Control 3.11.2.6 in the format outlined in Regulatory Guide 1.21, Appendix B, Revision 1, June 1974.

(4) 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 that is representative of the liquids released.

(5) A continuous release is the discharge of liquid wastes of a nondiscrete volume, e.g.,

from a volume of a system that has an input flow during the continuous release.

(6) If Component Cooling Water activity is > 1.E-5 pCI/ml, perform a weekly gross activity on the Intake Cooling Water System outlet to ensure the activity level is less than or equal to 2.E-07 pCI/ml LLD limit. If ICW is >2.E-07 pCI/ml, perform analysis in accordance with a Plant Continuous Release on this Table.

(7) Grab samples to be taken when there is confirmed primary to secondary system leakage indicated by the air ejector monitor indicating greater than or equal to 2x background.

St. Lucie Plant ODCM Controls

Page 33 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS DOSE CONTROLS 3.11.1.2 In accordance with St. Lucio Plant TS 6.8.4.f.4) and 6.8.4.f.5), the dose or dose commitment to a MEMBER OF THE PUBLIC from radioactive materials in liquid effluents released, from each unit, to UNRESTRICTED AREAS (see TS Figure 5,1-1) shall be limited:

a. During any calendar quarter to less than or equal to 1.5 mrems to the whole body and to less than or equal to 5 mrems to any organ and
b. During any calendar year to less than or equal to 3 mrems to the whole body and to less than or equal to 10 mrems to any organ.

APPLICABILITY: At all times.

ACTION:

a, 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, pursuant to Plant TS 6.9.2, a Special Report that identifies the cause(s) for exceeding the limit(s) and defines the corrective actions that have been taken to reduce the releases and the proposed corrective actions to be taken to assure that subsequent releases will be in compliance with the above limits.

SURVEILLANCE REQUIREMENTS 4.11.1.2 Cumulative dose contributions from liquid effluents for the current calendar quarter and the current calendar year shall be determined in accordance with the methodology and parameters in the ODCM at least once per 31 days.

St. Lucie Plant ODCM Controls

Page 34 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS LIQUID RADWASTE TREATMENT SYSTEM CONTROLS 3.11.1.3 In accordance with St. Lucie Plant TS 6.8.4.f.6), the Liquid Radwaste Treatment System shall be OPERABLE and appropriate portions of the system shall be used to reduce releases of radioactivity when the projected doses due to the liquid effluent, from each unit, to UNRESTRICTED AREAS (see TS Figure 5.1-1) would exceed 0.06 mrem to the whole body or 0.2 mrem to any organ in a 31-day period.

APPLICABILITY: At all times.

ACTION:

a. With radioactive liquid waste being discharged without treatment and in excess of the above limits and any portion of the Liquid Radwaste Treatment System not in operation, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that 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,
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 4.11 1.3.1

~ Doses due to liquid releases from each unit to UNRESTRICTED AREAS shall be projected at least once per 31 days in accordance with the methodology and parameters in the ODCM when Liquid Radwaste Treatment Systems are not being fully utilized.

4.11.1.3.2 The installed Liquid Radwaste Treatment System shall be demonstrated OPERABLE by operating the liquid radwaste treatment system equipment for at least 30 minutes at least once per 92 days unless the liquid radwaste system has been utilized to process radioactive liquid effluents during the previous 92 days.

St. Lucie Plant ODCM Controls

Page 35 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11;2 GASEOUS EFFLUENTS DOSE RATE CONTROLS 3.11.2.1 In accordance with St. Lucie Plant TS 6.8.4.f.3) and 7), the dose rate resulting from radioactive materials released in gaseous effluents to areas at or beyond the SITE BOUNDARY (see TS Figure 5.1-1) shall be limited to the following:

a. For noble gases: Less than or equal to 500 mrems/yr to the total body and less than or equal to 3000 mrems/yr to the skin and
b. For Iodine-131, for Iodine-133, for tritium and for all radionuclides in particulate form with half-lives greater than 8 days: Less than or equal to 1500 mrems/yr to any organ APPLICABILITY: At all times.
a. With the dose rate(s) exceeding the above limits, immediately restore the release rate to within the above limit(s).

SURVEILLANCE REQUIREMENTS 4.11.2.1.1 The dose rate due to noble gases in gaseous effluents shall be determined to be within the above limits in accordance with the methodology and parameters in the ODCM.

4.11.2.1.2 The 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 above limits in accordance with the methodology and parameters in the ODCM by obtaining representative samples and performing analyses in accordance with the sampling and analysis program specified in Table 4.11-2.

St. Lucie Plant ODCM Controls

Page 36 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-2 RADIOACTIVE GASEOUS WASTE SAMPLING 8c ANALYSIS PROGRAM Gaseous Release Sampling -Minimum Type of Activity Lower Limit of Type Frequency Analysis Analysis Detection Frequency (LLD) (1)

(gCI/cc)

1. Waste Gas P P Noble Gas 1.E-04 Storage Tank Each Tank Each Tank P.G.E. (2)

Grab Sample

2. Containment P P Noble Gas 1.E-04 Purge Each Purge (6) Each Purge (6) P.G.E. (2)

Grab Sample (7) H-3 1.E-06

3. Vents: 4/M 4/M (7) Noble Gas 1.E-04
a. Plant Grab Sample P.G.E. (2)
b. Fuel Bldg (5)
c. Laundry H-3 1.E-06
d. S/G Blowdown Bldg.
4. All Release Continuous (3) 4/M I-131 1.E-12 Types as Charcoal listed in 3. Sample (4) above 4/M P.G.E. 1.E-11 Particulate Sample (4)

M Gross Alpha 1.E-11 Composite Particulate Sample Q Sr-89, Sr-90 1.E-11 Composite Particulate Sample Noble Gas Noble Gases 1.E-06 Monitor Gross Beta or Gamma P.G.E. - Denotes Principal Gamma Emitters St. Lucie Plant ODCM Controls

Page 37 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO, C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-2 Continued TABLE NOTATIONS (1) The LLD is defined for purposes of these controls, 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.

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

4.66 S~

E ~ V~ 2.22E+06 ~ Y ~ exp (- X h7)

~

Where:

LLD the a priori lower limit of detection (micro-Curie per unit mass or volume),

Sb the standard devia'tion of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

the counting efficiency (counts per disintegration),

V the sample size (units of mass or volume),

2.22E+06 = the number of disintegrations per minute per micro-Curie.,

Y the fractional radiochemical yield, when applicable, the radioactive decay constant for the particular radionuclide (sec')

and 0 the elapsed time between the midpoint of sample collection and the time of counting (sec).

Typical values of E, V, Y and bT should be used in the calculation.

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.

St. Lucie Plant ODCM Controls

Page 38 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 Continued TABLE NOTATIONS Continued (2) The principal gamma emitters for which the LLD control applies include 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, l-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 also be analyzed and reported in the Annual Radioactive Effluent Release Report pursuant to Control 3.11.2.6 in the format outlined in Regulatory Guide 1.21, Appendix B, Revision 1, June 1974.

(3) 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 3.11.2.1, 3,11,2.2 and 3.11.2.3.

(4) Samples shall be changed at least four times per month and analyses shall be completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> after changing or after removal from sampler. Sampling shall also be performed at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for at least 7 days following each shutdown, startup or THERMALPOWER change exceeding 15% of RATED THERMAL POWER within a 1-hour period and analyses shall be completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> of changing. When samples collected for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> are analyzed, the corresponding LLDs may be increased by a factor of 10. This requirement does not apply if: (1) analysis shows that the DOSE EQUIVALENTl-131 concentration in the reactor coolant has not increased more than a factor of 3; and (2) the noble gas monitor shows that effluent activity has not increased by more than a factor of 3.

(5) Tritium grab samples shall be taken at least 4/M from the ventilation exhaust from the spent fuel pool area, whenever spent fuel is in the spent fuel pool.

(6) Sampling and analysis shall also be performed following shutdown, startup or a THERMAL POWER change exceeding 15% of RATED THERMAL POWER within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> unless (1) analysis shows that the DOSE EQUIVALENT I-131 concentration in the primary coolant has not increased more than a factor of 3; and (2) the noble gas activity monitor shows that effluent activity has not increased by more than a factor of 3.

(7) Tritium analysis may be delayed for up to 14 days if the LLD is still attainable at the new counting time.

St. Lucie Plant ODCM Controls

Page 39 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS DOSE - NOBLE GASES CONTROLS 3.11.2.2 In accordance with St. Lucie Plant TS 6.8,4.f.5) and 8), the air dose due to noble gases released in gaseous effluents, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5.1-1) shall be limited to the following: .

a. During any calendar quarter. Less than or equal to 5 mrads for gamma radiation and less than or equal to 10 mrads for beta radiation and
b. During any calendar year: Less than or equal to 10 mrads for gamma radiation and less than or equal to 20 mrads for beta radiation.

APPLICABILITY: At all times.

ACTION:

a. 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, pursuant to Plant TS 6.9.2, a Special Report that identifies the cause(s) for exceeding the limit(s) and defines the corrective actions that have been taken to assure that subsequent releases will be in compliance with the above limits.

SURVEILLANCE REQUIREMENTS 4.11.2.2 Cumulative dose contributions for the current calendar quarter and current calendar year for noble gases shall be determined in accordance with the methodology and parameters in the ODCM at least once per 31 days.

St. Lucie Plant ODCM Controls

Page 40 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS DOSE - IODINE-131 IODINE-133 TRITIUM AND RADIOACTIVE MATERIAL IN PARTICULATE FORM CONTROLS.

3.11.2.3 In accordance with St. Lucie Plant TS 6,8,4.f.5) and 9), the dose to a MEMBER OF THE PUBLIC from Iodine-1 31, Iodine-1 33, tritium and all radionuclides in particulate form with half-lives greater than 8 days in gaseous effluents released, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5.1-1) shall be limited to the following:

a. During any calendar quarter: Less than or equal to 7.5 mrems to any organ and,
b. During any calendar year: Less than or equal to 15 mrems to any organ.

APPLICABILITY: At all times.

ACTION:

a, With the calculated dose from the release of Iodine-131, Iodine-133, tritium and radionuclides in particulate form with half-lives greater than 8 days, in gaseous effluents exceeding any of the above limits, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that identifies the cause(s) for exceeding the limit(s) and defines the corrective actions that have been taken to assure that subsequent releases will be in compliance with the above limits.

SURVEILLANCE REQUIREMENTS 4.11.2.3 Cumulative dose contributions for the current calendar quarter and current calendar year for Iodine-131, Iodine-133, tritium and radionuclides in particulate form with half-lives greater than 8 days shall be determined in accordance with the methodology and parameters in the ODCM at least once per 31 days.

St. Lucie Plant ODCM Controls

Page 41 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS GASEOUS RADWASTE TREATMENT SYSTEM CONTROLS 3.11.2.4 In accordance with St. Lucie Plant TS 6.8.4.f.6), the VENTILATIONEXHAUST Treatment System and the WASTE GAS HOLDUP SYSTEM shall be OPERABLE and appropriate portions of the system shall be used to reduce releases of.radioactivity when the projected doses in 31 days due to gaseous effluent releases, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5.1-1) would exceed:

a. 0.2 mrad to air from gamma radiation or
b. 0.4 mrad to air from beta radiation or
c. 0.3 mrem to any organ, APPLICABILITY: At all times.

ACTION:

a. With radioactive gaseous waste being discharged without treatment and in excess of the above limits, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that includes the following information:
1. Identification of any inoperable equipment or subsystems and the reason for the inoperability,
2. Action(s) taken to restore the inoperable equipment to OPERABLE status and
3. Summary description of action(s) taken to prevent a recurrence.

St. Lucie Plant ODCM Controls

Page 42 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS GASEOUS RADWASTE TREATMENT SYSTEM Continued SURVEILLANCE REQUIREMENTS 4.11.2.4.1 Doses due to gaseous releases from each unit to areas at and beyond the SITE BOUNDARY shall be projected at least once per 31 days in accordance with the methodology and parameters in the ODCM when Gaseous Radwaste Treatment Systems are not being fully utilized.

4.11.2.4.2 The installed VENTILATION EXHAUST TREATMENT SYSTEM and WASTE GAS HOLDUP SYSTEM shall be demonstrated OPERABLE by operating the WASTE GAS HOLDUP SYSTEM equipment and VENTILATION EXHAUST TREATMENT SYSTEM equipment for at least 30 minutes, at least once per 92 days unless the appropriate system has been utilized to process radioactive gaseous effluents during the previous 92 days.

St. Lucie Plant ODCM Controls

Page 43 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11;4 TOTAL DOSE CONTROLS 3.11.4 In accordance with St. Lucie Plant TS 6.8.4.f.10), the annual (calendar year) dose or dose commitment to any MEMBER OF THE PUBLIC due to releases of radioactivity and to radiation from uranium fuel cycle sources shall be limited to less than or equal to 25 mrems to the whole body or any organ, except the thyroid, which shall be limited to less than or equal to 75 mrems.

APPLICABILITY: At all times.

ACTION:

a. With the calculated doses from the release of radioactive materials in liquid or gaseous effluents exceeding twice the limits of Control 3.11.1.2.a, 3.11.1.2.b, 3.11,2,2.a, 3.11,2.2.b, 3.11.2.3.a or 3.11.2.3.b, calculations shall be made including direct radiation contributions from the units (including outside storage tanks etc.) to determine whether the above limits of Control 3.11.4 have been exceeded. If such is the case, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that defines the corrective action to be taken to reduce subsequent releases to prevent recurrence of exceeding the above limits and includes the schedule for achieving conformance with the above limits. This Special Report, as defined in Subpart M of 10 CFR Part 20, shall include an analysis that estimates the radiation exposure (dose) to a MEMBER OF THE PUBLIC from uranium fuel cycle sources, including all effluent pathways and direct radiation, for the calendar year that includes the release(s) covered by this report. It shall also describe levels of radiation and concentrations of radioactive material involved and the cause of the exposure levels or concentrations. If the estimated dose(s) exceeds the above limits and if the release condition resulting in violation of 40 Part 190 has not already been corrected, the Special Report shall include a request for a variance in accordance with the provisions of 40 CFR Part 190. Submittal of the report is considered a timely request and a variance is granted until staff action on the request is complete.

St. Lucie Plant ODCM Controls

Page 44 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.4 TOTAL DOSE Continued SURVEILLANCE REQUIREMENTS 4.11.4.1 Cumulative dose contributions from liquid and gaseous effluents shall be determined in accordance with Controls 4.11.1.2, 4.11.2.2 and 4.11.2.3 and in accordance with the methodology and parameters in the ODCM.

4.11.4.2 Cumulative dose contributions from direct radiation from the units (including outside storage tanks etc.) shall be determined in accordance with the methodology and parameters in the ODCM. This requirement is applicable only under conditions set forth in ACTION a. of Control 3.11.4.

St. Lucie Plant ODCM Controls

Page 45 of 182 ST. LUCIE PLANT CHEMISTRY OPE RATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVEEFFLUENTS 3/4.11.5 MAJOR CHANGES TO RADIOACTIVELIQUID GASEOUS AND SOLID WASTE TREATMENT SYSTEMS'DMINISTRATIVE CONTROLS 3.11.2.5 Licensee initiated major changes to the radioactive waste systems (liquid, gaseous and solid):

1) Shall be reported to the Commission in the Annual Radioactive Effluent Release Report for the period in which the evaluation was reviewed by the Facility Review Group (FRG). The discussion of each shall contain:

a) A summary of the evaluation that led to the determination that the change could be made in accordance with 10 CFR 50.59.

b) Sufficient detailed information to totally support the reason for the change without benefit of additional or supplemental information; c) A detailed description of the equipment, components and processes involved and the interfaces with other plant systems; d) An evaluation of the change which shows the predicted releases of radioactive materials in liquid and gaseous effluents and/or quantity of solid waste that differ from those previously predicted in the license application and amendments thereto; e) An evaluation of the change which shows the expected maximum exposure to individuals in the UNRESTRICTED AREA and to the general population that differ from those previously estimated in the license application and amendments thereto; f) A comparison of the predicted releases of radioactive materials, in liquid and gaseous effluents and in solid waste, to the actual releases for the period when the changes are to be made; g) An estimate of the exposure to plant operating personnel as a result of the change; and h) Documentation of the fact that the change was reviewed and found acceptable by the FRG.

2) Shall become effective upon review and acceptance by the FRG.

Licensees may choose to submit the information called for in this Administrative Control as part of the annual FUSAR update.'

Page 89 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

1. (continued)

F. Repeat steps 1.4.1.C.through 1.4.1.E for each nuclide reported and each organ required. If the limited analysis method is used, limit the radionuclides to Fe-59, Co-58, Co-60, Zn-65, Nb-95, Cs-134 and Cs-137 and determine the adult whole body dose and the adult Gl-LLI dose.

G. Sum the Dose (i) values to obtain the total dose to organ T from the fish-shellfish pathway. If the limited analysis method is being used, divide the cumulative dose by a conservatism factor of 0.6 to account for any unexpected variability in radionuclide distribution 1.5 Pro'ectin Dose for Radioactive Li uid Effluents Discussion - Control 3.11.1.3 requires that appropriate subsystems of the liquid radwaste treatment system be used to reduce radioactive material in liquid effluents when the projected doses due to the liquid effluent, from each unit, to UNRESTRICTED AREAS (see TS Figure 5.1-1) would exceed 0.06 mrem to the whole body or 0.2 mrem to any organ in a 31 day period. The following calculation method is provided for performing this dose projection. The method is based on dose as calculated in section 1.4 with the adult as the bases for projecting,

1. Obtain the latest result of the monthly calculation of the adult whole body dose and the adult's highest organ dose. These doses can be obtained from the.

in-plant records.

2. Divide each dose by the number of days the reactor plant was operational during the month.
3. Multiply the quotient of each dose by the number of days the reactor plant is projected to be operational during the next month. The products are the projected dose for the next month, These values should be adjusted as needed to account for any changes in failed fuel or other identifiable operating conditions that could significantly alter the actual releases.
4. If the projected dose is greater than 0.06 mrem to the whole body or greater than 0.2 mrem to the adults highest exposed organ, the liquid radwaste system shall be used.

Page 90 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.0 GASEOUS RELEASES METHODOLGGY

Page 91 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION Gaseous Effluent Model Assum tions Descri tion of Site - (The FUSAR contains the official description of the site characteristics. The description that follows is a brief summary for dose calculation purposes only). The St. Lucie Plant is located on an island surrounded on two sides by the Atlantic Ocean and the Indian River, an estuary of the Atlantic Ocean.

Private property adjoins the plant site in the north and south directions. A meteorological tower is located north of the plant near the site property line. There are 16 sectors, for dose calculation purposes, divided into 22.5'ach. The MET tower is calibrated such that a zero degree bearing coincides with TRUE NORTH.

A bearing of zero degrees dissects the north sector such that bearings of 348.75'nd 11.25'efine the boundaries of the north sector. The nearest distance to private property occurs in the north sector at approximately 0.97 miles. For ease of calculation, this 0.97 mile radius is assumed in all directions, although the real Unrestricted Area Boundary is defined in Figure 5.1-1 of the TS. Doses calculated over water areas do not apply to Controls or the annual report and may be listed as O.W. (over water) in lieu of performing calculations. The 0.97 mile range in the NW sector is O.W., but it was chosen as the worst sector for conservative dose calculations using the historical MET data.

Historical MET Data - MET data, between September 1, 1976 and August 31, 1978, from the St. Lucie MET Tower was analyzed by Dames 8 Moore of Washington, D.C. The methodology used by Dames 8 Moore was consistent with methods suggested by Regulatory Guide 1.111, Revision 1. Recirculation correction factors were also calculated for the St. Lucie Site and are incorporated into the historical MET tables (Tables M5, M6 and M7) in Appendix A of this manual. It was determined that these two years are representative data for this locale.

Dose Calculations - Dose calculations for Control dose limits are normally calculated using historical MET data and receptor location(s) which yield calculated doses no lower than the real location(s) experiencing the most exposure. Actual MET data factors are calculated and used in dose calculations for the annual reports.

Live MET data and hour-by-hour dose calculations are beyond the scope of this manual. Historical information and conservative receptor locations, etc., are only used for ease of Control dose limit calculations. Dose calculations for Control dose limits may be performed using actual MET data and real receptor locations. Any dose calculations performed with actual data should note the source of the data in the annual report. Actual MET data reduction should be performed in accordance with Regulatory Guide 1.111, Revision 1 and should incorporate Recirculation Correction Factors from Table M-4 of this manual.

Page 92 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.1 (continued)

Dose Calculations -. (continued)

The St. Lucie site uses the long term ground release model for all gaseous effluents. Only those radionuclides that appear in the gaseous effluent dose factor tables will be considered in any dose calculations. Radioiodines are defined as Iodine-131 and I-133 for application to Controls. Other nuclides of Iodine may be included in dose calculations for ease of performing calculations, but their dose contribution does not have to be included in the Control requirements. Land Census information will apply to the calendar year following the year that the census was taken in to avoid splitting quarters, etc.

2.2 Determinin the Total Bod and Skin Dose Rates for Noble Gas Releases And Establishin Set pints for Effluent Monitors Discussion - Control 3.11.2.1 limits the dose rate from noble gases in airborne releases to <500 mrem/yr - total body and <3000 mrem/yr - skin. Control 3.3.3.11 requires that the gaseous radioactive effluent monitoring instrumentation be operable with alarm/trip setpoints set to ensure that these dose rate limits are not exceeded. The results of the sampling and analysis program of Control Table 4.11-2 are used to demonstrate compliance with these limits.

The following calculation method is provided for determining the dose rates to the total body and skin from noble gases in airborne releases. The alarm/trip setpoints are based on the dose rate calculations. The Controls apply to all airborne releases on the site but all releases may be treated as if discharged from a single release point. Only those noble gases appearing in Table G-2 will be considered.

The calculation methods are based on Sections 5.1 and 5.2 of NUREG-0133, November 1978. The equations are:

For TO'fAL BODY Dose Rate:

n DRre = Z K> (X/Q) (Q DOT),.

I For TOTAL SKIN Dose Rate:

n DR~= Z [L, + 1.1 MJ (X/Q) (Q DO7),

I

Page 93 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C.-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

Where:

DR~ . = total body dose rate from noble gases in airborne releases (mrem/yr)

DR.= skin dose rate from noble gases in airborne releases (mrem/yr) a mathematical symbol to signify the operations to the right of the symbol are to be performed for each noble gas nuclide (i) through (n) and the individual nuclide doses are summed to arrive at the total rate for the release source. 'ose the total body dose factor due to gamma emissions for each noble gas nuclide reported in the release source. (mrem-m'/pCI-yr) the skin dose factor due to beta emissions for each noble gas nuclide (i) reported in the assay of the release source. (mrem-m'/pCi-yr)

MI the air dose factor due to gamma emissions for each noble gas nuclide (i) reported in the assay of the release source. The constant 1.1 converts mrad to mrem since the units of M,. are in (mrad-m'/pCI-yr)

(X/Q) = for ground level, the highest calculated annual long term historic relative concentration for any of the 16 sectors, at or beyond the exclusion area boundary (sec/m')

(Q DOT),. = The release rate of noble gas nuclide (i) in pCi/sec from the release source of interest C

1. Simplified Total Body Dose Rate Calculation From an evaluation of past releases, an effective total body dose factor (K,)

can be derived. This dose factor is in effect a weighted average total body dose factor, i.e., weighted by the radionuclide distribution typical of past operation. (Refer to Appendix C for a detailed explanation and evaluation of K,). The value of K,has been derived from the radioactive noble gas effluents for the years 1978, 1979 and 1980. The value is:

mrem-m y 68 g 10 pCi-yr

Page 94 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

1. (continued)

This value may be used in conjunction with the total noble gas release. rate (Q DOT), to verify that the dose rate is within the allowable limits. To allow for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.8 is introduced into the calculation, The simplified equation is:

DR = '" . (Q DOT) i 08 To further simplify the determination, the historical annual average meteorological X/Q of 1.6 X 10'ec/m'From Table M-1) may be substituted into the equation. Also, the dose limit of 500 mrem/yr may be substituted for DR~. Making these substitutions yields a single cumulative (or gross) noble gas release rate limit. This value is:

Noble gas release rate limit = 3.5 X 10'CI/sec As long as the noble gas release rates do not exceed this value (3.5 X no additional dose rate calculations are needed to verify compliance 10'Ci/sec),

with Control 3.11.2.1.

Page 95 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

2. Setpoint Determination To comply with Control 3.3.3.11, the alarm/trip setpoints are established to.

ensure that the noble gas releases do not exceed the value of 3.5 X which corresponds to a total body dose rate of 500 mrem/yr. The 10'CI/sec, method that follows is a step-by-step procedure for establishing the setpoints.

To allow for multiple sources of releases from different or common release points, the allowable operating setpoints will be controlled administratively by allocating a percentage of the total allowable release to each of the release sources.

A. Determine (V) the maximum volume release rate potential from the in-plant procedures for the release source under consideration. The units of (V) are ft'/min.

B. Solve for A, the activity concentration in pCI/cc that would produce the Y control dose rate Limit.

3.5 X 10'Ci X min X <3 X 50 sec sec (V) ft'.8317 X 104cc min A = p,CI/cc C. Refer to the pCI/cc vs. cpm curve for the Release Source's Gaseous Effluent Monitor cpm value (C), corresponding to the value of A above.

D. C is the 100% setpoint, assuming that there are no other release sources on the site.

I E. Obtain the current % allocated to this release source from the gaseous waste management logs.

Page 46 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.6 ANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT TO THE COMMISSION" ADMINISTRATIVECONTROLS 3.11.2.6 As per Technical Specification 6.9.1.7, a Annual Radioactive Effluent Release, Report covering the operation of each unit during the previous 12 months of operation shall be submitted within 60 days after January 1 of each year. The report shall include a summary of the quantities of radioactive liquid and gaseous effluents and solid waste released from each unit. The material provided shall be (1) consistent with the objectives outlined in by items a) through f) below, using the example report format in the ODCM and (2) be in conformance with 10 CFR 50.36a and Section IV.B.1 of Appendix I to 10 CFR Part 50.

a. The Radioactive Effluent Release Reports shall include a summary of the quantities of radioactive liquid and gaseous effluents and solid waste released from the unit as outlined in 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, with data summarized on a quarterly basis following the format of Appendix B thereof.
b. The Radioactive Effluent Release Report to be submitted within 60 days after January 1 of each year shall include an annual summary of hourly meteorological data collected over the previous year, This annual summary may be either in the form of an hour-by-hour listing on magnetic tape of wind speed, wind direction, atmospheric stability and precipitation (if measured) or in the form of joint frequency distributions of wind speed, wind direction and atmospheric stability.- This same report shall include an assessment of the radiation doses due to the radioactive liquid and gaseous effluents released from the unit or station during the A single submittal may be made for a multiple unit station. The submittal should combine those sections that are common to all units at the station; however, for units with separate radwaste systems, the submittal shall specify the releases of radioactive material from each unit.

In lieu of submission with the Radioactive Effluent Release Report, the licensee has the option of retaining this summary of required meteorological data on site in a file that shall be provided to the NRC upon request.

St. Lucie Plant ODCM Controls

Page 47 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.6 ANNUAL RADIOACTIVE EFFL'UENT RELEASE REPORT TO THE COMMISSION Continued ADMINISTRATIVECONTROLS 3.11.2.6 (Continued)

b. (Continued) previous calendar year. This same report shall also include an assessment of the radiation doses from radioactive liquid and gaseous effluents to MEMBERS OF THE PUBLIC due to their activities inside the SITE BOUNDARY (see TS Figure 5.1-1) during the report period. All assumptions used'in making these assessments, i.e., specific activity, exposure time and location, shall be included in these reports. The meteorological conditions concurrent with the time of release of radioactive materials in gaseous effluents, as determined by sampling frequency and measurement, shall be used for determining the gaseous pathway doses. The assessment of radiation doses shall be performed in accordance with the methodology and parameters in the ODCM.
c. Every 2 years using the previous 6 months release history for isotopes and historical meteorological data determine the controlling age group for both liquid and gaseous pathways. If changed from current submit change to ODCM to reflect new tables for these groups and use the new groups in subsequent dose calculations.
d. The Radioactive Effluent Release Report to be submitted 60 days after January 1 of each year shall also include an assessment of radiation doses to the likely most exposed MEMBER OF THE PUBLIC from reactor releases for the previous calendar year. Acceptable methods for calculating the dose contribution from liquid and gaseous effluents are given in Regulatory Guide 1.109 March 1976.

St. Lucie Plant ODCM Controls

Page 48 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.6 ANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT TO THE COMMISSION Continued ADMINISTRATIVECONTROLS 3.11.2.6 (Continued)

e. The Radioactive Effluent Release Reports shall include the following information for each class of solid waste (as defined by 10 CFR Part 61) shipped offsite during the report period:
1. Volume
2. Total Curie quantity (specify whether determined by measurement or estimate)
3. Principal radionuclides (specify whether determined by measurement or estimate)
4. Type of waste (e.g., dewatered spent resin, compacted dry waste, evaporator bottoms)
5. Type of container (e.g., LSA, Type A, Type B, Large Quantity) and
6. Solidification agent or absorbent (e.g., cement, urea formaldehyde).
f. The Radioactive Effluent Release Reports shall include a list and description of unplanned releases from the site to UNRESTRICTED AREAS of radioactive materials in gaseous and liquid effluents made during the reporting period.
g. The Radioactive Effluent Release Reports shall include any changes made during the reporting period to the PROCESS CONTROL PROGRAM (PCP) and to the OFFSITE DOSE CALCULATION MANUAL (ODCM), as well as a listing of new locations for dose calculations and/or environmental monitoring identified by the Land Use Census of ODCM Control 3.12.2.
h. The format for an Annual Radioactive Effluent Release Report is provided in ODCM Section 4.0. The information contained in an annual report shall not apply to any ODCM Control Dose Limit(s) since the methodology for the annual report is based on actual meteorological data, instead of historical conditions that the ODCM Controls and Control required calculations are based on.

St. Lucie Plant ODCM Controls

Page 49 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM CONTROLS 3.12.1 In accordance with St. Lucie Plant TS 6.8.4.g.1), the Radiological Environmental Monitoring Program shall be conducted as specified in Table 3.12-1.

APPLICABILITY: At all times.

ACTION:

a. With the Radiological Environmental Monitoring Program not being conducted as specified in Table 3.12-1, prepare and submit to the Commission, in the Annual Radiological -Environmental Operating Report required by Control 3.12.4, a description of the reasons for not conducting the program as required and the plans for preventing a recurrence.
b. With the confirmed* level of radioactivity as the result of plant effluents in an environmental sampling medium at a specified location exceeding the reporting levels of Table 3.12-2 when averaged over any calendar quarter, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, 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 less than the calendar year limit of Controls 3,11 1.2, 3.11.2.2 or 3.11.2.3.

~ When more than one of the radionuclides in Table 3.12-2 are detected in the sampling medium, this report shall be submitted if:

concentration (1) concentration (2) reportI'ng level (1) reporting level (2)

When radionuclides other than those in Table 3.12-2 are A confirmatory reanalysis of the original, a duplicate or a new sample may be desirable, as appropriate. The results of the confirmatory analysis shall be completed at the earliest time consistent with the analysis but in any case within 30 days.

    • The methodology and parameters used to estimate the potential annual dose to a MEMBER OF THE PUBLIC shall be indicated in this report.

St. Lucie Plant ODCM Controls

Page 50 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM Controls (Continued)

Action b. (Continued) detected and are the result of plant effluents, this report shall be submitted if the potential annual dose, to a MEMBER OF THE PUBLIC from all radionuclides is equal to or greater than the calendar year limits of Control 3.11.1.2, 3.11.2.2 or 3.11.2.3. This report is not required if the measured level of radioactivity was not the result of plant effluents; however, in such an event, the condition shall be reported and described in the Annual Radiological Environmental Operating Report required by Control 3.12.4.

c. With milk or broad leaf vegetation samples unavailable from one or more of the sample locations required by Table 3.12-1, identify specific locations for obtaining replacement samples and add them within 30 days to the Radiological Environmental Monitoring Program given in the ODCM. The specific locations from which samples were unavailable may then be deleted from the monitoring program, Pursuant to Control 3.11.2.6, submit in the next Annual Radioactive Effluent Release Report documentation for a change in the ODCM including a revised figure(s) and table for the ODCM reflecting the new location(s) with supporting information identifying the cause of the unavailability of samples and justifying the selection of the new location(s) for obtaining samples.

SURVEILLANCE REQUIREMENTS 4.12.1 The radiological environmental monitoring samples shall be collected pursuant to Table 3.12-1'from the specific locations given in the table and figure(s) in the ODCM and shall be analyzed pursuant to the requirements of Table 3.12-1 and the detection capabilities required by Table 4.12-1.

St. Lucie Plant ODCM Controls

Page 51 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-1 RADIOLOGICAL ENVIRONMENTALMONITORING PROGRAM'i NUMBER OF EXPOSURE REPRESENTATIVE PATHWAY SAMPLES AND AND TYPE AND

)

and/or SAMPLE COLLECTION FREQUENCY OF SAMPLE LOCATIONS '~ ~

FREQUENCY ANALYSIS

1. Direct Radiation'.

27 Monitoring Continuous Gamma exposure rate-Locations monitoring with quarterly sample collection quarterly "

Airborne Continuous sampler Radioiodine filter:

Radioiodine and 5 Locations operation with l-131 analysis weekly Particulates sample collection Particulate Filter:

weekly or more Gross beta radioactivity frequently if analysis >&4 hours required by dust following a filter loading change" Gamma of composite "

isotopic"'nalysis (by location) quarterly

3. Waterborne a) Surface"')

1 Location Weekly Gamma isotopic" &

tritium analyses weekly Locations'AMPLING 1 Location"' Monthly Gamma isotopic" &,

tritium analyses monthly Sediment from Locations Semiannually Gamma isotopic"

'horeline analyses semiannually

4. Ingestion a) Fish and Invertebrates
1) Crustacea 2 Locations Semiannually Gamma isotopic"'nalyses semiannually
2) Fish 2 Locations Semiannually Gamma isotopic semiannually "'nalyses b) Food Products
1) Broad leaf 3 Monthly when Gamma isotopic"'nd vegetation available I-131 analyses monthly St. Lucie Plant ODCM Controls

Page 52 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-1 Continued TABLE NOTATIONS

a. Deviations are permitted from the required sampling schedule if specimens are unobtainable due to hazardous conditions, seasonal unavailability, malfunction of automatic sampling equipment or other legitimate reasons. If specimens are unobtainable due to sampling equipment malfunction, corrective action shall be taken prior to the end of the next sampling period. All deviations from the sampling schedule shall be documented in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.
b. Specific parameters of distance and direction sector from the centerline of one reactor and additional description where pertinent, shall be provided for each sample location required by Table 3,12-1, in Appendix-E and applicable figures.
c. At times, it may not be possible or practicable to continue to obtain samples of the media of choice at the most desired location or time. In these instances suitable alternative media and locations may be chosen for the particular pathway in question and appropriate substitutions made within 30 days in the radiological environmental monitoring program.
d. The following definition of frequencies shall apply to Table 3.12-1 only:

Weekly- Not less than once per calendar week. A maximum interval of 11 days is allowed between the collection of any two consecutive samples.

Semi-Monthly - Not less than 2 times per calendar month with an interval of not less than 7 days between sample collections. A maximum interval of 24 days is allowed between collection of any two consecutive samples.

Monthly'- Not less than once per calendar month with an interval of not less than 10 days between sample collections.

Quarterly- Not less than once per calendar quarter.

Semiannually - One sample each between calendar dates (January 1 - June 30) and (July 1 - December 31) An interval of not less than 30 days will be

~

provided between sample collections.

The frequency of analyses is to be consistent with the sample collection frequency.

St. Lucie Plant ODCM Controls

Page 53 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-1 Continued TABLE NOTATIONS Continued

e. One or more instruments, such as a pressurized ion chamber, for measuring and recording dose rate continuously may be used in place of or in addition to, integrating dosimeters. For purposes of this table, a thermoluminescent dosimeter (TLD) is considered to be one phosphor; two or more phosphors in a packet are considered as two or more dosimeters.
f. Refers to normal collection frequency. More frequent sample collection is permitted when conditions warrant.
g. Airborne particulate sample filters are analyzed for gross beta radioactivity 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or more after sampling to allow for radon and thoron daughter decay. In addition to the requirement for a gamma isotopic on a composite sample a gamma isotopic is also required for each sample having a gross beta radioactivity which is >1.0 pCi per cubic meters and which is also >10 times that of the most recent control sample.
h. Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility.
k. Discharges from the St. Lucie Plant do not influence drinking water or ground water pathways.
m. Atlantic Ocean, in the vicinity of the public beaches along the eastern shore of Hutchinson Island near the St. Lucie Plant (grab sample)
n. Atlantic Ocean, at a location beyond influence from plant effluents (grab sample).
p. Samples of broad leaf vegetation grown nearest each of two different offsite locations of highest predicted annual average ground level D/Q and one sample of similar broad leaf vegetation at an available location 15-30 kilometers distant in the least prevalent wind direction based upon historical data in the ODCM.

[I, j, I (lower case) and o are not used on notation for clarity reasons]

Page 54 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-2 REPORTING LEVELS FOR RADIOACTIVITYCONCENTRATIONS IN ENVIRONMENTALSAMPLES REPORTING LEVELS AIRBORNE FOOD ANALYSIS

'ATER PARTICULATE FISH MILK PRODUCTS pCi/I OR GASES pCI/kg, wet pCI/I pCI/kg, wet pCI/m~

H-3 30,000*

Mn-54 1,000 30,000 Fe-59 400 10,000 Co-58 1,000 30,000 Co-60 300 10,000 Zn-65 300 20,000 Zr-Nb-95*- 400 I-131 2** 0.9 100 Cs-134 30 10 1,000 60 1,000 Cs-137 50 20 2,000 70 2,000 Ba-La-140*** 200 300 I - as in pCi/I denotes liter

  • - Since no drinking water pathway exists, a value of 30,000 pCi/I is used. For drinking water samples, a value of 20,000 pCi/I is used; this is 40 CFR Part 141 value.
    • - Applies to drinking water pathway exists, 2 pCi/I is the limit for drinking water.
      • - An equilibrium mixture of the parent daughter isotopes which corresponds to the reporting value of the parent isotope.

St. Lucie Plant ODCM Controls

Page 55 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.12-1 DETECTION CAPABILITIES FOR ENVIRONMENTALSAMPLE ANALYSIS

"'OWER LIMITOF DETECTION LLD AIRBORNE FOOD

- WATER PARTICULATE FISH MILK SEDIMENT ANALYSIS PRODUCTS pCin OR GASES pCi/kg, wet pCI/I CR~,

pCAg'ry pCI/m'.01 Gross Beta H-3 3000*

Mn-54 15 130 Fe-59 30 260 Co-58, 15 130 Co-60 Zn-65 30 260 Zr-95, 15 Nb-95"'-131 0.07 60 Cs-134 15 0.05 130 15 60 150 Cs-137 18 0.06 150 18 80 180 Ba-140, 15 15 La-140~ ~

  • No drinking water pathway exists, a value of 2000 pCi/I is for drinking water,
    • LLD for drinking water samples. If no drinking water pathway exists, the LLD of gamma isotopic analysis may be used.

St. Lucie Plant ODCM Controls

Page 56 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.12-1 Continued TABLE NOTATIONS (1) This list does not mean that only these nuclides are to be considered. Other peaks that are. identifiable, together with those of the above nuclides, shall also be analyzed and reported in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.

(2) Required detection capabilities for thermoluminescent dosimeters used for environmental measurements are given in Regulatory Guide 4.13.

(3) The LLD is defined for purposes of these controls, 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.

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

4.66 S E ~ V~ 2.22 ~ Y ~ exp (- X, ~ b,7)

Where:

LLD = the a priori lower limit of detection (pico-Curie per unit mass or volume),

Sb = the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

E = the counting efficiency (counts per disintegration),

V =, the sample size (units of mass or volume),

2.22 = the number of disintegrations per minute per pico-Curie, Y = the fractional radiochemical yield, when applicable, the radioactive decay constant for the particular radionuclide (sec') and bT = the elapsed time between the midpoint of sample collection and the time of counting (sec).

Typical values of E, V, Y and dT should be used in the calculation.

St. Lucie Plant ODCM Controls

Page 57 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.12-1 Continued TABLE NOTATIONS Continued 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 gosteriori (after the fact) limit for a particular measurement. Analyses shall be performed in such a manner. that the stated LLDs will be achieved under routine conditions. Occasionally background fluctuations, unavoidable small sample sizes, the presence of interfering nuclides or other uncontrollable circumstances may render these LLDs unachievable.

In such cases, the contributing factors shall be identified and described in the Annual Radiological Environmental Operating Report pursuant to Control 3.12,4.

(4) An equilibrium mixture of the parent and daughter isotopes which corresponds to 15 pCi/Liter of the parent isotope.

St. Lucie Plant ODCM Controls

Page 58 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALGULATIONMANUAL ODCM RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.2 LAND USE CENSUS CONTROLS 3.12.2 In accordance with St. Lucie Plant= TS 6.8.4.g.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 square meters (500 square feet) 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 4.11.2.3, pursuant to Control 3.11.2.6, identify the new location(s) in the next Annual Radioactive Effluent Release Report.

b. With a Land Use Census identifying a location(s) that yields a calculated dose or dose commitment (via the same exposure pathway) 20% greater than at a location from which samples are currently being obtained in accordance with Control 3.12.1, add the new location(s) within 30 days to the Radiological Environmental Monitoring Program given in the ODCM. 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. Pursuant to TS 6.14, submit in the next Annual Radioactive Effluent Release Report documentation for a change in the ODCM including a revised figure(s) and table(s) for the ODCM reflecting the new location(s) with information supporting the change in sampling locations.

Broad leaf vegetation sampling may be performed at the SITE BOUNDARY in each of two different direction sectors with the highest predicted D/Qs in lieu of the garden census. Controls for broad leaf vegetation sampling in Table 3.12-1, Part 4.b., shall be followed, including analysis of control samples.

St. Lucie Plant ODCM Controls

Page 59 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.2 LAND USE CENSUS Continued SURVEILLANCE REQUIREMENTS 4.12.2 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 Operating Report pursuant to Control 3.12.4.

St. Lucie Plant ODCM Controls

Page 60 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.3 INTERLABORATORYCOMPARISON PROGRAM CONTROLS 3.12.3 In accordance with St. Lucie Plant TS 6.8.4.g.3), analyses shall be performed on all radioactive materials, supplied as part of an Interlaboratory Comparison Program that has been approved by the Commission, that correspond to samples required by Table 3.12-1.

APPLICABILITY: At all times.

ACTION:

a. With analyses not being performed as required above, report the corrective action taken to prevent a recurrence to the Commission in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.

SURVEILLANCE REQUIREMENTS 4.12.3 A summary of the results obtained as part of the above required Interlaboratory Comparison Program shall be included in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4. If the Interlaboratory Comparison Program is other than the program conducted by the EPA, then the Interlaboratory Comparison Program shall be described in the ODCM.

  • This condition is satisfied by participation in the Environmental Radioactivity Laboratory Intercomparison Studies Program conducted by the Environmental Protection Agency (EPA).

St. Lucie Plant ODCM Controls

Page 61 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.4 ANNUALRADIOLOGICALENVIRONMENTALOPERATING REPORT AREOR

  • ADMINISTRATIVECONTROLS 3.12.4 In accordance with St. Lucie Plant TS 6.9.1.8, an Annual Radiological Environmental Operating Report covering the operation of the unit during the previous calendar year shall be submitted before May 1 of each year. The report shall include summaries, interpretations and information based on trend analysis of the results of the Radiological Environmental Monitoring Program for the reporting period. The material provided in the AREOR shall be consistent with the objectives outlined below and with Sections IV.B.2, IV.B.3 and IV.C of Appendix I to 10 CFR Part 50.

The Annual Radiological Environmental Operating Reports shall include summaries, interpretations and information based on trend analysis of the results of the radiological environmental surveillance activities for the report period, including a comparison, as appropriate, with preoperational studies, with operational controls ~nd with previous environmental surveillance reports and an assessment of the observed impacts of the plant operation on the environment. The reports shall also include the results of land use census required by Control 3.12.2.

The Annual Radiological Environmental Operating Reports shall include the results of analysis of all radiological environmental samples and of all environmental radiation measurements taken during the period pursuant to the locations specified in the Table and Figures in the ODCM, as well as summarized and tabulated results of these analyses and measurements in the format of the table in the Radiological Assessment Branch Technical Position, Revision 1, November 1979. In the event that some individual results are not available for inclusion with the report, the report shall be submitted noting and explaining the reasons for the missing results. The missing data shall be submitted as soon as possible in a supplementary report.

The reports shall also include the following; a summary description of the radiological environmental monitoring program; at least two legible maps** covering all sampling locations keyed to a table giving distances and directions from the centerline of one reactor; the results of the lnterlaboratory Comparison Program, required by Control 3.12.3; discussion of all deviations from the sampling schedule of Table 3.12-1; and discussion of all analyses in which the LLD required by Table 4.12-1 was not achievable.

  • - A single submittal may be made for multiple unit station.
    • - One map shall cover stations near the SITE BOUNDARY; a second shall include the more distant stations.

St. Lucie Plant ODCM Controls

Page 62 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM BASES for the CONTROLS AND SURVEILLANCE REQUIREMENTS NOTE The BASES contained in succeeding pages summarize the reasons for the Controls in Section 3.0 and 4.0, but are not part of these Controls.

St. Lucie Plant ODCM Controls - Bases

Page 63 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM INSTRUMENTATION BASES 3/4.3.3.10 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluent during actual or potential releases of liquid effluents. The Alarm/Trip Setpoints for these. instruments shall be calculated and adjusted in accordance with the methodology and parameters in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20. The OPERABILITYand use of this instrumentation is consistent with the requirements of General Design Criteria 60, 63 and 64 of Appendix A to 10 CFR Part 50.

3/4.3.3.11 RADIOACTIVEGASEOUS EFFLUENT MONITORING INSTRUMENTATION The radioactive gaseous effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in gaseous effluent during actual or potential releases of gaseous effluents. The Alarm/Trip Setpoints for these instruments shall be calculated and adjusted in accordance with the methodology and parameters in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20. The OPERABILITYand use of this instrumentation is consistent with the requirements of General Design Criteria 60, 63 and 64 of Appendix A to 10 CFR Part 50.

St. Lucie Plant ODCM Controls - Bases Y

Page 64 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.11 RADIOACTIVE EFFLUENTS BASES'/4.11.1 LIQUID EFFLUENTS 3/4.11.1.1 CONCENTRATION This control is provided to ensure that the concentration of. radioactive materials released in liquid waste effluents to UNRESTRICTED AREAS will be less than the concentration levels specified in 10 CFR Part 20, Appendix B, Table 2, Column 2. This limitation provides additional assurance that the levels of radioactive materials in bodies of water in UNRESTRICTED AREAS will result in exposures within: (1) the Section II.A design objectives of Appendix I, 10 CFR Part 50, to a MEMBER OF THE PUBLIC and (2) the limits of 10 CFR Part 20. The concentration limit for dissolved or entrained noble gases is based upon the assumption that Xe-135 is the controlling radioisotope and its ECL in air (submersion) was converted to an equivalent concentration in water using the methods described in International Commission on Radiological Protection (ICRP) Publication 2.

This control applies to the release of radioactive materials in liquid effluents from all units at the site.

The required detection capabilities for radioactive materials in liquid waste samples are tabulated in terms of the lower limits of detection (LLDs). Detailed discussion of the LLD and other detection limits can be found in Currie, L.A., Lower Limit of Detection: Definition and Elaboration of a Proposed Position for Radiological Effluent and Environmental Measurements, NUREG/CR<007 (September 1984) and in the HASL Procedures Manual, HAS L-300.

3/4.11.1.2 DOSE This control is provided to implement the requirements of Sections II.A, III.A and IV.A of Appendix I, 10 CFR Part 50. The Control implements the guides set forth in Section I!.A of Appendix I. The ACTION statements provide the required operating flexibilityand at the same time implement the guides set forth in Section IV.A of Appendix I to assure that the releases of radioactive material in liquid effluents to UNRESTRICTED AREAS will be kept as low as is reasonably achievable. Also, for fresh water sites with drinking water supplies that can be potentially affected by plant operations, there is reasonable assurance that the operation of the facility will not result in radionuclide concentrations in the finished drinking water that are in excess of the requirements of 40 CFR Part 141 The dose calculation

~

St. Lucie Plant ODCM Controls - Bases

Page 65 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO, C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.11 RADIOACTIVE EFFLUENTS Continued BASES 3/4.11.1 LIQUID EFFLUENTS Continued 3/4.11.1.2 DOSE Continued methodology'and parameters in the ODCM implement the requirements in Section III.A of Appendix I that conformance with the guides of Appendix I be shown by calculational procedures based on models and data, such 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 are 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 10 CFR Part 50, 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 t

Implementing Appendix I, April 1977.

This control applies to the release of radioactive materials in liquid effluents from each unit at the site. For units with shared Radwaste Systems, the liquid effluents from the shared system are to be proportioned among the units sharing that system.

3/4.11.1.3 LIQUID RADWASTE TREATMENT SYSTEM The OPERABILITYof the Liquid Radwaste Treatment System ensures that this system will be available for use whenever liquid effluents require treatment prior to release to the environment. 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 10 CFR 50.36a, General Design Criterion 60 of Appendix A to 10 CFR Part 50 and the design objective given in Section II.D of Appendix I to 10 CFR Part 50. The specified limits governing the use of appropriate portions of the Liquid Radwaste Treatment System were specified as a suitable fraction of the dose design objectives set forth in Section II.A of Appendix I, 10 CFR Part 50 for liquid effluents.

This control applies to the release of radioactive materials in liquid effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the liquid effluents from the shared system are to be proportioned among the units sharing that system.

St. Lucie Plant ODCM Controls - Bases

Page 66 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2 GASEOUS EFFLUENTS 3/4.11.2.1 DOSE RATE This control is provided to ensure that the dose at any time at and beyond the SITE BOUNDARY from gaseous effluents from all units on the site will be within the annual dose limits of 10 CFR Part 20 to UNRESTRICTED AREAS. The annual dose limits are the doses associated with the concentration of 10 CFR Part 20, Appendix B, Table 2, Column I. These limits provide reasonable assurance that radioactive material discharged in gaseous effluents will not result in the exposure of a MEMBER OF THE PUBLIC in an UNRESTRICTED AREA, either within or outside the SITE BOUNDARY, to an annual average concentration exceeding the limits specified in Appendix B, Table 2 of 10 CFR Part 20 (Subpart D of 10 CFR Part 20) For MEMBERS OF THE PUBLIC who may at times be within the SITE

~

BOUNDARY, the occupancy of that MEMBER OF THE PUBLIC will usually be sufficiently low to 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 less than or equal to 500 mrems/year to the total body or to less than or equal to 3000 mrem/year to the skin. These release rate limits also restrict, at all times, the corresponding thyroid dose rate above background to a child via the inhalation pathway to less than or equal to 1500 mrems/year.

This control applies to the release of radioactive materials in gaseous effluents from all units at the site, The required detection capabilities for radioactive materials in gaseous waste samples are tabulated in terms of the lower limits of detection (LLDs). Detailed discussion of the LLD and other detection limits can be found in Currie, L. A., Lower Limit of Detection: Definition and Elaboration of a Proposed Position for Radiological Effluent and Environmental Measurements, NUREG/CR-4007 (September 1984) and in the HASL Procedures Manual, HAS L-300.

St. Lucie Plant ODCM Controls - Bases

Page 67 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2.1 DOSE - NOBLE GASES C

This control is provided to implement the requirements of Sections II.B, III.A and IV.A of Appendix I, 10 CFR Part 50, The control implements the guides set forth in Section I.B of Appendix I; The ACTION statements provide the required operating flexibilityand at the same time implement the guides set forth in Section IV.A of Appendix I to assure that the releases of radioactive material in gaseous effluents to UNRESTRICTED AREAS will be kept as low as is reasonably achievable. The Surveillance Requirements implement the requirements in Section III.A of Appendix I that conformance with the guides of Appendix I be shown by calculational procedures based on models and data such that the actual exposure of a MEMBER OF THE PUBLIC through appropriate pathways is unlikely to be substantially underestimated. The dose calculation methodology and parameters 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, Calculation of Annual Doses to Man from Routine Releases of Reactor Effluents for the Purpose of Evaluating Compliance with 10 CFR Part 50, Appendix I, Revision 1, October 1977 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 are based upon the historical average atmospheric conditions.

This control applies to the release of radioactive materials in gaseous effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the gaseous effluents from the shared system are to be proportioned among the units sharing that system.

3/4.11.2.3, DOSE - IODINE-131 IODINE-133 TRITIUMAND RADIOACTIVEMATERIAL IN PARTICULATE FORM This control is provided to implement the requirements of Sections II.C, III.A and IV.A of Appendix I, 10 CFR Part 50. The Controls are the guides set forth in Section II.C of Appendix I. The ACTION statements provide the required operating flexibility and at the same time implement the guides set forth in Section IV.A of Appendix I to assure that the releases of radioactive material in gaseous effluents to UNRESTRICTED AREAS will be kept as low as is reasonably achievable. The ODCM calculational methods specified in the St. Lucie Plant ODCM Controls - Bases

Page 68 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2.1 DOSE - NOBLE GASES Continued 3/4.11.2.3 DOSE - IODINE-131 IODINE-133 TRITIUMAND RADIOACTIVEMATERIAL IN PARTICULATE FORM Continued Surveillance Requirements implement the requirements in Section III.A of Appendix I that conformance with the guides of Appendix I be shown by calculational procedures based on models and data such that the actual exposure of a MEMBER OF THE PUBLIC through appropriate pathways is unlikely to be substantially underestimated. The ODCM calculational methodology and parameters for calculating the doses due to the actual release rates of the subject material are 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 10 CFR Part 50, Appendix I, Revision 1, October 1977 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. These equations also provide for determining the actual doses based upon the historical average atmospheric conditions. The release rate controls for Iodine-131, Iodine-1 33, tritium and radionuclides in particulate form with half-lives greater than 8 days are dependent upon the existing radionuclide pathways to man in the areas at and beyond the SITE BOUNDARY. The pathways that were examined in the development of the calculations were: (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 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.

This control applies to the release of radioactive materials in gaseous effluents from each unit at the site, For units with shared Radwaste Treatment Systems, the gaseous effluents from the shared system are proportioned among the units sharing that system.

St. Lucie Plant ODCM Controls - Bases

Page 69 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2.4 GASEOUS RADWASTE TREATMENT SYSTEM The OPERABILITY of the WASTE GAS HOLDUP SYSTEM and the VENTILATION EXHAUST TREATMENT SYSTEM ensure that the systems will be available for use whenever gaseous effluents require treatment prior to release to the environment. 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 10 CFR 50,36a, General Design Criterion 60 of Appendix A to 10 CFR Part 50 and the design objective given in Section II.D of Appendix I to 10 CFR Part

50. The specified limits governing the use of appropriate portions of the systems were specified as a suitable fraction of the dose design objectives set forth in Section II.B and II.C of Appendix I, 10 CFR Part 50 for gaseous effluents, l This control applies to the release of radioactive materials in gaseous effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the gaseous effluents from the shared system are proportioned among the units sharing that system.

3/4.11.2.5 3/4.11.2.6 NOT USED NOT USED 3/4.11.3 NOT USED 3/4.11.4 TOTAL DOSE This control is provided to meet the dose limitations of 10 CFR Part 190 that have been incorporated into 10 CFR Part 20 by 46 FR 18525. The control requires the preparation and submittal of a Special Report whenever the calculated doses due to releases of radioactivity and to radiation from uranium fuel cycle sources exceed 25 mrems to the whole body or any organ, except the thyroid, which shall be limited to less than or equal to 75 mrems. For sites containing up to four reactors, it is highly unlikely that the resultant dose to a MEMBER OF THE PUBLIC will exceed the dose limits of 40 CFR Part 190 if the individual reactors remain within twice the dose design objectives of Appendix l,and if direct radiation doses from the units (including outside storage tanks, etc.) are kept small. The Special Report will describe a course of action that should result in the limitation

Page 70 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.4 TOTAL DOSE Continued of the annual dose to a MEMBER OF THE PUBLIC to within the 40 CFR Part 190 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, with the exception that dose contributions from other nuclear fuel cycle facilities at the same site or within a radius of 8 kilometers must be considered. If the dose to any MEMBER OF THE PUBLIC is estimated to exceed the requirements of 40 CFR Part 190, the Special Report with a request for a variance (provided the release conditions resulting in violation of 40 CFR Part 190 have not already been corrected), in accordance with the provisions of 40 CFR 190.11 and Subpart M of 10 CFR Part 20, is considered to be a timely request and fulfills the requirements of 40 CFR Part 190 until NRC staff action is completed. The variance only relates to the limits of 40 CFR Part 190 and does not apply in any way to the other requirements for dose limitation of 10 CFR Part 20, as addressed in Controls 3.11.1 1 ~

and 3.11.2.1. An individual is not considered a MEMBER OF THE PUBLIC during any period in which he/she is engaged in carrying out any operation that is part of the nuclear fuel cycle, St, Lucie Plant ODCM Controls - Bases

Page 71 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.12 RADIOLOGICALENVIRONMENTALMONITORING

'ASES 3/4.12.1 MONITORING PROGRAM The Radiological Environmental Monitoring Program required by this control provides representative measurements of radiation and of radioactive materials in those exposure pathways and for those radionuclides that lead to the highest potential radiation exposure of MEMBERS OF THE PUBLIC resulting from the plant operation. This monitoring program implementsSection IV.B.2 of Appendix I to 10 CFR Part 50 and thereby supplements the Radiological Effluent Monitoring Program by verifying that the measurable concentrations of radioactive materials and levels of radiation are not higher than expected on the basis of the effluent measurements and the modeling of the environmental exposure pathways.

Guidance for this monitoring program is provided by the Radiological Assessment Branch Technical Position on Environmental Monitoring, Revision 1, November 1979. The initially specified monitoring program will be effective for at least the first three years of commercial operation, Following this period, program changes may be initiated based on operational experience.

The required detection capabilities for environmental sample analyses are tabulated in terms of the lower limits of detection (LLDs). The LLDs required by Table 4.12-1 are 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 gosteriori (after the fact) limit for a particular measurement.

Detailed discussion of the LLD and other detection limits can be found in Currie, L. A.,

Lower Limit of Detection: Definition and Elaboration of a Proposed Position for Radiological Effluent and Environmental Measurements, NUREG/CR-4007 (September 1984) and in the HASL Procedures Manual, HASL-300.

I 3/4.12.2 LAND USE CENSUS This control 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 given in the ODCM 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.

St. Lucie Plant ODCM Controls - Bases

Page 72 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO..C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL'DCM RADIOLOGICAL ENVIRONMENTALMONITORING BASES 3/4.12.2 LAND USE CENSUS Continued This census satisfies the requirements of Section IV.B.3 of Appendix I to 10 CFR Part 50.

Restricting the census to gardens of greater than 50 square meters 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 kilograms/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 kilograms per square meter.

3/4.12.3 INTERLABORATORYCOMPARISON PROGRAM This requirement for participation in an approved Interlaboratory Comparison Program is provided to ensure that independent checks on the precision and accuracy of the measurements of radioactive materials in environmental sample matrices are performed as part of the quality assurance program for environmental monitoring in order to demonstrate that the results are valid for the purposes of Section IV.B.2 of Appendix I to 10 CFR Part 50.

St. Lucie Plant ODCM Controls - Bases

Page 73 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION METHODOLOGY for the CONTROLS AND SURVEILLANCE REQUIREMENTS

Page 74 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION GLOSSARY OF COMMONLY USED TERMS IN METHODOLOGY SECTION Ds - - Dose from Beta Radiation CC orcc Cubic centimeter .

Ci Curies - a unit of radioactivity see pCi C; Activity or concentration of a nuclide in the release source. Units of pCi, pCi/cc or pCI/ml CFR Code of Federal Regulations Control(s) Regulations for operating, controlling, monitoring and reporting radioactive effluent related activity as indicated by the Controls Section of the ODCM.

Dose The exposure, in mrem or mrad, the organ or the individual receives from radioactive effluents Normally, a factor that converts the effect of ingesting radioactive material into the body, to dose to a specific organ. Body elimination, radioactive decay and organ uptake are some of the factors that determine a dose factor for a given nuclide Dose Pathway - A specific path that radioactive material physically travels through prior to exposing an individual to radiation. The Grass-Cow-Milk-Infant is a dose pathway Dose Rate The dose received per unit time (D/Q) A long term D over Q - a factor with units of 1/m'hich describes the deposition of particulate matter from a plume at a point downrange from the source. It can be thought of as what part of the cloud is going to fallout and deposit over one square meter of ground. (See Appendix F).

ECL Effluent Concentration Limit FUSAR Final Updated Safety Analysis Report.

Page 75 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION GLOSSARY OF COMMONLY USED TERMS IN METHODOLOGY SECTION (continued)

A gamma photon - The dose from Gammas in air, etc.

Ground Plane Radioactive material deposited uniformly over the ground emits radiation that produces an exposure pathway when an individual is standing, sitting, etc., in the area. It is assumed that an adult receives the same exposure as an infant, regardless of the physical height differences. Only the whole body is considered for the ODCM.

H-3 Hydrogen-3 or Tritium, a weak Beta emitter I&8DP Radioiodines and particulates with half-lives greater than 8 days Cubic Meters Square Meters m'uclide For the purposes of this manual, a radioactive isotope. Nuclide (i) signifies a specific nuclide, the 1st, 2nd, 3rd one under consideration. If nuclide (i) is l-131, then the Mi (dose factor) under consideration should be M,.)3$ for example.

Organ For the ODCM either the bone, liver, thyroid, kidney, lung, Gl-LLI or the Whole Body. Whole Body is considered an organ for ease of writing the methodology in the ODCM.

'Ci 1 pico-Curie = 1.E-12 Curies.

(Q Dot), (Q Dot),. - Denotes a release rate in pCi/sec for nuclide (i).

Q, Denotes pCi of nuclide (i) released over a specified time interval.

Radioiodines Iodine-131 and Iodine I-133 for gaseous release pathways.

Page 76 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION GLOSSARY OF COMMONLY USED TERMS IN METHODOLOGY SECTION (continued)

Receptor The individual receiving the exposure in a given location or who ingests food products from an animal for example. A receptor can receive dose from one or more pathways.

Release Source(s) - A subsystem, tank or vent where radioactive'material can be released independently of other radioactive release points.

TS The St. Lucie Plant Standard Technical Specifications Total Body Same as Whole Body in Control Statements p.Ci micro Curies. 1 pCi = 10'uries. The pCi is the standard unit of radioactivity for all dose calculations in the ODCM.

(X/Q) A long term Chi over Q. It describes the physical dispersion characteristics of a semi-infinite cloud of noble gases as the cloud traverses downrange from the release point. Since Noble Gases are inert, they do not tend to settle out on the ground. (See Appendix F) ~

(X/Q)~ A long term Depleted Chi over Q. It describes the physical dispersion characteristics of a semi-infinite cloud of radioactive iodines and particulates as the cloud travels downrange, Since lodines and particulates tend to settle out (fallout of the cloud) on the ground, the (X/Q)0 represents what physically remains of the cloud and its dispersion qualities at a given location downrange from the release point. (See Appendix F).

dt, dt or delta t - A specific delta time interval that corresponds with the release interval data etc.

Page 77 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.0 LIQUID RELEASES METHODOLOGY

Page 78 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.1 Radioactive Li uid Effluent Model Assum tions The FUSAR contains the official description of the site characteristics. The description that follows is a brief summary for dose calculation purposes:

The St. Lucie Plant is located on an island surrounded on two sides by the Atlantic Ocean and the Indian River, an estuary of the Atlantic Ocean.

Normally, all radioactive liquid releases enter the Atlantic Ocean where the Circulating Water Discharge Pipe terminates on the oceari floor at a point approximately 1200 feet offshore. No credit is taken for subsequent mixing of the discharge flume with the ocean. The diffusion of radioactive material into the ocean is dependent on the conditions of tide, wind and some eddy currents caused by the Gulf Stream. The conditions are sufficiently random enough to distribute the discharges over a wide area and no concentrating effects are assumed.

There are no direct discharge paths for liquid effluents to either of the north or south private property boundary lines. The Big Mud Creek (part of the Indian River) does connect to a normally locked shut dam, that is intended to provide an emergency supply of circulating water to the Intake Cooling Water Canal in the event a Hurricane causes blockage of the Intake Canal. No radioactive water could be discharged directly into the Intake Cooling Water Canal because all plant piping is routed to the discharge canal and no back flow can occur. Consult the FUSAR for a detailed description of characteristics of the water bodies surrounding the plant site.

Only those nuclides that appear in the Liquid Dose Factor Tables will be considered for dose calculation.

Page 79 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.2 Determinin the Fraction F of 10 CFR Part 20 ECLs Limits for A Li uid Release Source Discussion - Control 3.11.1.1 requires that the sampling and analysis results of liquid waste (prior to discharge) be used with calculation methods in the in-plant procedures to assure that the concentration of liquid radioactive material in the unrestricted areas will not exceed ten times the concentrations specified in 10 CFR Part 20, Appendix B, Table 2. Chemistry Procedure C-70 "Processing Aerated Liquid Waste" provides instruction for ensuring batch release tanks will be sampled after adequate mixing. This section presents the calculation method to be used for this determination. This method only addresses the calculation for a specific release source. The in-plant procedures will provide instructions for determining that the summation of each release source's F values do not exceed the site's 10 CFR Part 20 ECL. The values for release rate, dilution rate, etc., will also have to be obtained from in-plant procedures. The basic equation is:

n R C, F~= Z D i 1 (ECL),

Where:

F the fraction of 10 CFR Part 20 ECL that would result if the release source was discharged under the conditions specified.

R The undiluted release rate in gpm of the release source.

Liquid Rad Waste = 170 gpm Steam Generator = 125 gpm/Steam Generator D The dilution flow in gpm of Intake Cooling Water or Circulating Water Pumps Intake Cooling flow is 14,500 gpm/pump Circulating Water flow is 121,000 gpm/pump C; The undiluted concentration of nuclide (i) in pCi/ml from sample assay (ECL), = The Effluent Concentration Limit of nuclide (i) in pCI/ml from Table L-1. For dissolved or entrained noble gases the ECL value is 2 X 10 pCi/ml for the sum of all gases.

Page 80 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.2 (continued)

The fraction of the 10 CFR Part 20 ECL limit may be determined by a nuclide-by-nuclide evaluation or for purposes of simplifying-the calculation by a cumulative activity evaluation. If the simplified method is-used, the value of 3 X 10'Ci/ml (unidentified ECL value) should be substituted for (ECL), and the cumulative concentration (sum of all identified radionuclide concentrations) or the gross concentration should be substituted for C,, As long as the diluted concentration (C, R/D) is less than 3 X 10~ p,Ci/ml, the nuclide-by-nuclide calculation is not required to demonstrate compliance with the 10 CFR Part 20 ECL.

The following section provides a step-by-step procedure for determining the ECL fraction.

1. Calculation Process for Solids A. Obtain from the in-plant procedures, the release rate value (R) in gpm for the release source.

B. Obtain from the in-plant procedures, the dilution rate (D) in gpm. No credit is taken for any dilution beyond the discharge canal flow.

C. Obtain (C;), the undiluted assay value of nuclide (i), in pCi/ml. If the simplified method is used, the cumulative concentration (Ct t I) is used.

D. From Table L-1, obtain the corresponding (ECL) for nuclide (i) in pCi/ml.

The value of 3 X 10 pCI/ml should be used for the simplified method.

E. Divide C,. by (ECL), and write down the quotient F. If the simplified method is used, proceed to the next step. If determining the ECL fraction by the nuclide-by-nuclide evaluation, repeat steps 1.2.1.C through 1.2.1.E for each nuclide reported in the assay, for H, from previous month composite and for SR89/90 and Fe55 from previous quarter composite.

0

Page 81 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.2 (continued)

1. (continued)

G. Add each C/(ECL) quotient from step 1.2.1.E and solve for F, as follows:

n

-F R C,

= Z D i=1 (ECL) i F, = a unit-less value where:

the value of Fcould be < or >1. The purpose of the calculation is to determine what the initial value of F is for a given set of release conditions.

H. The Fvalue just obtained is for one release pathway. The TS and ODCM control 3.11.1.1 allow for a site limit of F less than or equal to 10.

Chemistry Procedure C-70 administrativly controls each pathway's allocation. Compare your Fresult with the administrative control for the release pathway in C-70.

2. Calculation Process for Gases in Liquid A, Sum the p.CI/ml of each noble gas activity reported in the release.

B. The values of R and D from 1.2.1 above shall be used in the calculations below:

(sum of 1.2.2.A) Ij.Cilml g R 1 D C. F, shall be less than 2 X 10 pCI/ml for the site for all releases in progress.

Each release point will be administratively controlled. Consult C-70 procedure for instructions.

Page 82 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.3 Determinin Set pints for Radioactive Li uid Effluent Monitors Discussion - Control 3.3.3.10 requiies that the liquid effluent monitoring instrumentation alarm/trip setpoints be set to initiate an alarm or trip so that the radioactivity concentration in water in the unrestricted area does not exceed the concentration of 10 CFR Part 20, Appendix B, Table 2 as a result of radioactivity in liquid effluents (Control 3.11.1.1). This section presents the method to be used for determining the instrumentation setpoints.

Gross cpm vs. total liquid activity curves are available for Liquid Effluent Monitors based on a composite of real release data. A direct correlation between gross cpm and the concentrations that would achieve 10 CFR Part 20 ECL levels in the discharge canal can be estimated. The 1978 liquid release data from annual reports was used to determine the average undiluted release concentration. These concentrations were then projected to a diluted concentration in the discharge canal assuming a 1 gpm release rate and a constant dilution flow of 121,000 gpm from 1 circ. water pump. This diluted activity was divided by the nuclide's respective 10 CFR Part 20 ECL value (Table L-1) to obtain the Mi column on the table that follows:

Page 83 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.3 (continued)

TABLE '1.3 NUCLIDE SYMBOL 1978 UNDILUTED pCi/ml M, (no units)

I-131 4A3 E-5 3.66 E-4 l-132 2.23 E-7 1.84 E-8 1-133 3.17 E-6 3.74 E-6 l-135 1.31 E-6 3.61 E-7 Na-24 1.72 E-7 2.84 E-8 Cr-51 2.51 E-5 4.15 E-7 Mn-54 5.64 E-6 1.55 E-6 Mn-56 1.11 E-9 1.31 E-10 Co-57 3.69 E-7 5.08 E-8 Co-58 1.51 E-4 6.24 E-5 Fe-59 2.92 E-6 2.41 E-6 Co-60 3.66 E-5 1.01 E-4 Zn-65 4.55 E-7 7.52 E-7 Ni-65 8.23 E-7 6.8 E-8 Ag-110 1.96 E-6 2.70 E-6 Sn-113 5.75 E-7 1.58 E-7 Sb-122 2.15 E-6 1.78 E-6 Sb-124 8.40 E-6 9.92 E-6 W-187 3.51 E-6 9.67 E-7 Np-239 1.57 E-7 6.49 E-8 Br-82 3.64 E-7 7.52 E-8 Zr-95 2.82 E-5 1.17 E-5 Zr-97 4.05 E-6 3.72 E-6 Mo-99 3.24 E-6 1.34 E-6 Ru-1 03 3.84 E-8 1.06 E-8 Sb-125 2.26 E-6 6.23 E-7 Cs-134 2.14 E-5 1.97 E-4 CS-136 7.82 E-7 1.08 E-6 Cs-137 4.85 E-5 4.01 E-4 Ba-140 6A4 E-7 6.65 E-7 Ce-141 3.04 E-8 8.38 E-9 Ce-144 2.37 E-6 6.53 E-6 4.01 E-4 1.18 E-3 (1) 1978 Undiluted Release Volume = 7 E 9 ml.

(2) M, 1978 Undil. Act Nuclide (>)

X 1 gpm (release rate)

ECL, (from Table L-1) 121000 gpm (dil rate)

Page 84 of 182 ST.'LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.3 (continued)

AT is the total average pCI/ml concentration of the reference mixture and M, is the fraction of the MPC of all nuclides for the release conditions specified. Dividing A, by M, yields A~~, which is the maximum total activity concentration equivalent to the ECL limit for the nuclide distribution typical of radwaste discharges. The Technical Specifications allow 10 times the ECL limit where the Site Limit is 10 times A~ as follows:

AM Askoi 4.01

' E-4 0.34 Ij,Cilml = ECL Limit Mr~ 118 E3 Site Limit = 10 x A~,= 10 x 0.34 = 3.4 NCi/ml To provide conservative administrative control, A~,of 0.34 pCI/ml should be used as follows:

1. If the effluent monitor requires counts per minute units, a (C Q value in cpm should be obtained for the A (0.34 p,CI/ml) from the release sources radioactive liquid effluent monitor curve of cpm vs. NCi/ml.

NOTE This setpoint is for a specified release of 1 gpm into 121000 gpm dilution flow.

2. For establishing the setpoint prior to liquid radwaste discharges, the A (or C g will be adjusted as needed to account for actual release conditions (i.e., actual design maximum discharge flow rate, dilution flow rate and the contribution of dissolved and entrained Nobles Gas Activity to the Monitor Activity Level).

1.4 Determinin the Dose for Radioactive Li uid Releases Discussion - Control 3.11.1.2 requires calculations be performed at least once per 31 days to verify that cumulative radioactive liquid effluents do not cause a dose in excess of 1.5 mrem to the whole body and 5 mrem to any organ during any calendar quarter and not in excess of 3 mrem to the whole body and 10 mrem to any organ during any calendar year. This section presents calculational method to be used for this verification.

Page 85 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

This method is based on the methodology suggested by sections 4.3 and 4.3.1 of NUREG-0133 Revision 1, November, 1978. The dose factors are a composite of both the fish and shellfish pathways so that the fish-shellfish pathway is the only pathway for which dose will be calculated. For St. Lucie Plant, the adult is the most limiting age group, but the dose for child and teenager can also be calculated by this method provided that their appropriate dose factors are available for the organ of interest. Only those nuclides that appear in the Tables of this manual will be considered.

1. This method provides for a dose calculation to the whole body or any organ for a given age group based on real release conditions during a specified time interval for radioactive liquid release sources. The equation is:

A~ dt (og, Where:

D, dose commitment in mrem received by organ T of age group (to T be specified) during the release time interval dt,.

the composite dose factor for the fish-shellfish pathway for nuclide (i) for organ T of age group (to be specified), The A~ values listed in the Tables in this manual are independent of any site specific information and have the units mrem-ml p,Ci-hr dt, ~ = the number of hours that the release occurs.

Q,, = The total quantity of nuclide (i) release during dt, (p,CI)

(DF), = The total volume of dilution that occurred during the release time period dt, (i.e., the circulating water flow times time)

Page 86 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-.200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

1. (continued)

The. doses associated with each release may then be summed to provide the cumulative dose over a desired time period (e.g., sum all doses for release during a 31 day period, calendar quarter or a year).

Where:

D7 = the total dose commitment to organ ~ due to all releases during the desired time interval (mrem)

Based on the radionuclide distribution typical in radioactive effluents, the calculated doses to individuals are dominated by the radionuclides Fe-59, Co-58, Co-60, Zn-65, Nb-95, Cs-134 and Cs-137. These nuclides typically contribute over 95% of the whole body dose and over 90% of the Gl-LLI dose, which is the critical organ. Therefore, the dose commitment due to radioactivity in liquid effluents may be reasonably evaluated by limiting the dose calculation process to these radionuclides for the adult whole body and adult GI-LLI, To allow for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.6 is introduced into the equation. After calculating the dose based on these 7 nuclides, the cumulative dose should be divided by 0.6, the conservatism factor. (i.e., Dr = DJ0.6). Refer to Appendix B for a detailed evaluation and explanation of this limited analysis approach.

The methodology that follows is a step-by-step breakdown to calculate doses based on the above equation. Refer to the in-plant procedures to determine the applicable organs, age groups and pathway factors. If the limited analysis approach is used, the calculation should be limited to the Adult whole body dose and Adult Gl-LLI dose from the fish and shellfish pathways. Only the 7 previously specified radionuclides should be evaluated. For the dose calculations to be included in annual reports, the doses to the adult groups and all organs should be evaluated for all radionuclides identified in the liquid effluents.

Page 87 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

1. (continued)

NOTE Table 1.4 provides a convenient form for compiling the dose accounting.

A. Determine the time interval dt, that the release took place. The in-plant procedures shall describe the procedure for calculating dt, for official release purposes.

B. Obtain (DF), for the time period dt, from Liquid Waste Management Records for the release source(s) of interest.

C. Obtain Q,l for nuclide (i) for the time period dt, from the Liquid Waste Management Records D. Obtain A~ from the appropriate Liquid Dose Factor Table

Page 88 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

1. (continued)

TABLE 1.4 FISH AND SHELLFISH PATHWAY TIME/DATE START: /~ TIME/DATE STOP: HOURS TOTAL DILUTION VOLUME: mls AGE GROUP: ORGAN: DOSE FACTOR TABLE

¹'UCLIDE (i) C,. (p,CI) An DOSF (i) mrem Fe-59 Co-58 Co-60 Zn-65 Nb-95 Cs-134 Cs-137 OTHERS TOTAL DOSE ~ = mrem lf based on limited analysis, divide by 0.6 mrem E. Solve for Dose (i)

Q>> dt~ An Dose (i) =

(DF),

Page 96 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, RE'I/ISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

2. (continued)

F. The Operating setpoint SP

% allotted by in-plant procedures gp (Q) c rn g 100o/

The total body dose is more limiting than the calculated skin dose. (Refer to Appendix C for a detailed evaluation.) Therefore, the skin dose rate calculations are not required if the simplified dose rate calculation is used (i.e., use of K, to determine release rate limits).

The calculation process of the following Section (2.2.3) is to be used if actual releases of noble gases exceed the above limit of 3.5 X 10'CI/sec.

Under these conditions, a nuclide-by-nuclide evaluation is required to evaluate compliance with the dose rate limits of Control 3.11.2.1.

3. Total Body and Skin Nuclide Specific Dose Rate Calculations The following outline provides a step-by-step explanation of how the total body dose rate is calculated on a nuclide-by-nuclide basis to evaluate compliance with Control 3.11.2.1. This method is only used if the actual releases exceed the value of 3.5 X 10'Ci/sec.

A. The (X/Q) value = sec/m'nd is the most limiting sector at the exclusion area. (See Table M-1 for value and sector.)

B. Enter the release rate in ft'/min of the release source and convert it to:

(

min ft'0

)ft X 2.8317 X 10'cc X cc/sec volume release rate min sec

Page 97 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECT(ON 2.2 (continued)

3. (continued)

C. Solve for(Q DOT), for nuclide (i) by obtaining the pCi/cc assay value of the release source and multiplying it by the product of 2.2.3.B above.

(Q DOT), = (nuclide [i])

(assay) p,Ci

< (2.2.3.B va/ue) cc CC sec (Q DOT), = pCi/sec for nuclide (i)

D. To evaluate the total body dose rate obtain the K,.value for nuclide (i) from Table G-2.

E. Solve for DR~,

mrem-m' sec p,C/

OR /g)gQ) (Q OQ7) p.Ci-yr m'ecX DRrs - mrem total body dose from nuclide (t) for yr the specified release source F. To evaluate the skin dose rate, obtain the L,.and M, values from Table G-2 for nuclide (i).

G. Solve for DR,.,

DR kt f

[L' 1 1 Mf] (X/Q)(Q DOT)f DR )d I mrem skin dose from nuclide (i) for the yr specified release source

Page 98 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

3. (continued)

H. Repeat steps 2.2.3.D through 2.2.3.G for each noble gas nuclide (i) reported in the assay of the release source.

I.. The Dose Rate to the Total Body from radioactive noble gas gamma radiation from the specified release source is:

J. The Dose Rate to the skin from noble gas radiation from the specified release source is:

n DR~.= Z DR.,

I The dose rate contribution of this release source shall be added to all other gaseous release sources that are in progress at the time of interest. Refer to in-plant procedures and logs to determine the Total Dose Rate to the Total Body and Skin from noble gas effluents.

Page 99 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 Determinin the Radioiodine 8 Particulate Dose Rate to An Or an From Gaseous Releases Discussion - Control 3.11.2.1 limits the dose rate from l-131, l-133, tritium and all radionuclides in particulate form with half lives >eight days to <1500 mrem/yr to any organ. The following calculation method is provided for determining the dose rate from radioiodines (see 2.1) and particulates and is based on Section 5.2.1 and 5.2.1.1 through 5.2.1.3 in NUREG-0133, November 1978. The Infant is the controlling age group in the inhalation, ground plane and cow/goat milk pathways, which are the only pathways considered for releases. The long term (X/Q)~

(depleted) and (D/Q) values are based on historical MET data prior to implementing Appendix I. Only those nuclides that appear on their respective table will be considered. The equations are:

For Inhalation Pathwa excludin H-3:

n R

DR(88pp Z 'XQ)p (Q DO7)/

'T For Ground Plane:

n DRg 8' / (D/Q)(Q DO7)(

I For Grass-Cow/Goat-Milk:

n DR(~80', R (D/Q) (Q D07)(

I For Tritium Releases Inhalation 8 Grass-Cow/Goat-Milk:

DR3 = RHNXQ)~ (Q DO7)~

Normally should be Pibut Rir values are the same, thus use Ri~ tables in Appendix A.

Page 100 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM e 2.3 (continued)

METHODOLOGY SECTION For Total Dose Rate from I 8 8DP and H-3 To An Infant Or an T:

DRZZ [DRiaeoe, + DR~)

Where: .

The organ of interest for the infant age group The applicable pathways Dose Rate in mrem/yr to the organ T from iodines and 8 day IK8DP~

particulates DR.eT Dose Rate in mrem/yr to organ T from Tritium DR~ Total Dose Rate in mrem/yr to organ T from all pathways under consideration A mathematical symbol to signify the operations to the right of the'symbol are to be performed for each nuclide (i) through (n) and the individual=nuclide dose rates are summed to arrive at the total dose rate from the pathway.

A mathematical symbol to indicate that the total dose rate D~

z to organ T is the sum of each of the pathways dose rates R; The dose factor for nuclide (i) for organ T for the pathway specified (units vary by pathway)

P, The dose factor for instantaneous ground plane pathway in units of mrem-m'ec p.Ci-yr

Page 101 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE.C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

From an evaluation of the radioactive releases and environmental pathways, the grass-cow/goat-milk pathway has been identified as the most limiting pathway with the infant's thyroid being the critical organ. This pathway. typically contributes >90%

of the totaI dose received by the infant's thyroid and the radioiodine contribute essentially all of this dose. Therefore, it is possible to demonstrate compliance with the release rate limit of Control 3.11.2.1 for radioiodines and particulates by only evaluating the infant's thyroid dose for the release of radioiodines via the grass-cow/goat-milk pathway. The calculation method of Section 2.3.3 is used for this determination. If this limited analysis approach is used, the dose calculations for other radioactive particulate matter and other pathways need not be performed.

Only the calculations of Section 2.3.3 for the radioiodines need be performed to demonstrate compliance with the Control dose rate limit.

The calculations of Sections 2.3.1, 2.3.2, 2.3.4 and 2.3.5 may be omitted. The dose rate calculations as specified in these sections are included for completeness and are to be used only for evaluating unusual circumstances where releases of particulate materials other than radioiodines in airborne releases are abnormally high. The calculations of Sections 2.3.1, 2.3.2, 2.3.4 and 2.3,5 will typically be used to demonstrate compliance with the dose rate limit of Control 3.11.2.1 for radioiodines and particulates when the measured releases of particulate material (other than radioiodines and with half lives >8 days) are >10 times the measured releases of radioiodines.

1. The Inhalation Dose Rate Method:

NOTE The H-3 dose is calculated as per 2.3.4.

A. 'The controlling location is assumed to be an Infant located in the sector at the mile range. The (X/Q)0 for this location is sec/m'. This value is common to all nuclides. (See Table M-2 for value, sector and range.)

B. Enter the release rate in ft'/min of the release source and convert to cc/sec.

min

~' 2.8317 ft'0 X 10'cc X min sec.

= cdsec

Page 102 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION, 2.3 (continued)

1. (continued)

C. Solve for (Q DOT),. for nuclide (i) by obtaining the p.Ci/cc assay value of the release source activity and multiplying it by the product of 2.3.1.B above.

(nuclide assay) p,Ci ( Value 2.3. 1 . B) cc (Q pp7) t~1 CC sec (Q DOT), = pCi/sec for nuclide (i)

D. Obtain the R,. value from Table G-5 for the organ T.

E. Solve for DR.,

mrem-m' sec p,Ci pR R (g/Q) (Q pp7) <

pCi-yr m~ sec DR~ = mrem The Dose Rate to organ T from nuclide (i) yr F. Repeat steps 2.3.1.C through 2.3.1.E for each nuclide (i) reported in the assay of the release source.

G. The Dose Rate to the Infants organ T from the Inhalation Pathway is:

+ DR for all nuclides except H-3. This dose rate shall be added to the other pathways as per 2.3.5 - Total Organ Dose.

NOTE Steps 2.3.1.C through 2.3.1.G need to be completed for each organ T'of the Infant.

Page 103 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

2. The Ground Plane Dose Rate Method:

. NOTE Tritium dose via the ground plane is zero.

A. The controlling location is assumed to be an Infant located in the sector at the mile range. The (D/Q) for this location is 1/m'. This value is common to all nuclides. (See Table M-2 for sector, range and value.)

B. Enter the release rate in ft'/min of the release source and convert to cc/sec.

C.

min ft' 2.8317 0'0 X 10'cc X min sec.

Solve for (Q DOT), for nuclide (i) by obtaining the p.Ci/cc assay value from the release source activity and multiplying it by'the product of 2.3.2.B above.

(nuclide [i] assay) p Ci ( Value 2.3.2. B) cc (Q pg7) X CC sec (Q DOT), = pCi/sec for nuclide (i)

D. Obtain the P, value from Table G-3 E, Solve for DR, mrem-m'-sec X 1 X PCI OR,=P(DIQ) (QDO73, p,C(-yr m'ec DR, = mrem The Dose Rate to organ T from nuclide (i) yr

Page 104 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

2. (continued)

F..Repeat steps 2.3.2.C through 2,3,2.E for each nuclide (i) reported in the assay of the release source.

G..The Dose Rate to the Infant's Whole Body from the Ground Plane Pathway Is'.

DRG(pi = DR~ + DR2+ + DR for all nuclides. This dose rate shall be added to the other pathways as per 2.3.5.

3. The Grass-Cow/Goat-Milk Dose Rate Method:

NOTE H-3 dose is calculated as per 2.3.4.

A. The controlling animal was established as a located in the sector at miles. The (D/Q) for this location is 1/m'. This value is common to all nuclides. (See Table M-3 for sector, range and value,)

B. Enter the anticipated release rate in ft'/min of the release source and convert to cc/sec.

~~ min X 2.8317 X 10 cc X ft min 60 sec.

C. Solve for (Q DOT), for nuclide (i) by obtaining the p,CI/cc assay value of the release source activity and multiplying it by the product of 2.3.3.B above.

(Q DOT)

(nuclide [11 assay) p,CI X va/ue 2.3.3.8) cc CC sec (Q DOT), = p,CI/sec for nuclide (i)

Page 105 of 182 ST. LUCIE PL'ANT OPERATING PROCEDURE C-200, REVISION 16

'HEMISTRY OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

3. (continued)

D. Obtain the R, value from Table G-6(7) (whichever is the controlling animal, cow/goat, for infant).

If the limited analysis approach is being used, limit the calculation to the infant thyroid.

E. Solve for DR,T mrem-m' sec pCi 1

QR R (Q/Q) (Q QQ7)

Ij.Ci-yr X

m'ec DR~ = mrem the Dose Rate to organ T from nuclide (i) yr F. Repeat steps 2.3.3.C through 2.3.3.E for each nuclide (i) reported in the assay of the release source.

Only the radioiodines need to be included if the limited analysis approach is being used.

G. The Dose Rate to the Infant's organ T from Grass- -Milk pathway is:

g ASS

-Milkr = DR, + DR~+ + DR for all nuclides. This dose rate shall be added to the other pathways as

,per 2.3.5 - Total Organ Dose.

NOTE Steps 2,3.3.C through 2.3.3.G need to be completed for each organ of the Infant. Limit the calculation to the infant thyroid if the limited analysis approach is being used.

Page 106 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

4. The H-3 Dose Rate Method:

A. -The controlling locations and their (X/Q)D values for each pathway are:

Inhalation - Infant at range in the sector, (X/Q)o = sec/m'See Table M-2 for range, sector and value)

Ground Plane - Does not apply to H-3 Grass-Cow/Goat-Milk- located in the sector at miles with an Infant at the exclusion area in the sector drinking the milk. The (X/Q)~ for the location is (X/Q)D = sec/m . (From Table M-6 at the range and sector corresponding to the location of the Milk Animal above.)

B. Enter the anticipated release rate in ft'/min of the release source and convert it to cc/sec.

I < 2.8317 X 10'c < min mill ft3 60 sec.

cc/sec volume release rate C. Solve for (Q DOT)<< for Tritium, by obtaining the pCi/cc assay value of the release source and multiplying it by the product of 2.3.4.B above.

(H-3) p,C/ < (2.3.4.B va/ue) cc (Q OQ7)

CC sec (Q DOT)., = pCi/sec activity release rate D.. Obtain the Tritium dose factor (R,) for Infant organ T from:

PATH TABLE ¹ Inhalation G-5 Grass-Cow/Goat-Milk G-6(7)

Page 107 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

4. (continued)

E..Solve for D., (Inhalation) using the (X/Q)~ for inhalation from 2.3.4.A and R<<(inhalation) from '2.3.4.D.

=DR<< = R<<(>Q)o (Q DO7)~

DR<< = mremlyr from H-3 Infant Inhalation for organ T F. Solve for D,, (Grass- -Milk) using the (X/Q)~ for Grass- -Milk from 2.3.4.A and R., (Grass- -Milk) from 2.3.4.D DR<<R<<(XIQ)p (Q DO7)<<

DR<< = mremlyr from H-3 Infant G. Repeat steps 2.3.4.D through 2.3.4.F for each Infant organ T of interest.

H. The individual organ dose rates from H-3 shall be added to the other organ pathway dose rates as per 2.3.5.

Page 108 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

5. Determinin the Total Or an Dose Ratefromlodines 8D-Particulates and H-3 from Release Source s A. The following table describes all the pathways that must be summed to arrive at the total dose rate to an organ T:

PATHWAY DOSE RATE STEP 0 REF.

Inhalation (l&8DP) 2.3.1.G Ground Plane (l&8DP) (Whole Body only) 2.3.2.G Gr- Milk (l&8DP) 2.3.3.G Inhalation (H-3) 2.3.4.E Gr- -Milk (H-3) 2.3.4.F DR~ (sum of above)

B. Repeat the above summation for each Infant organ T.

C. The DR~ above shall be added to all other release sources on the site that will be in progress at any instant. Refer to in-plant procedures and logs to determine the Total DR~ to each organ.

2.4 Determinin the Gamma Air Dose for Radioactive Noble Gas Release Source s Discussion - Control 3.11.2.2 limits the air dose due to noble gases in gaseous effluents for gamma radiation to <5 mrads for the quarter and to <10 mrads in any calendar year. The following calculation method is provided for determining the noble gas gamma air dose and is based on section 5.3.1 of NUREG-0133, November 1978. The dose calculation is independent of any age group. The equation may be used for Control dose calculation, the dose calculation for the annual report or for projecting dose, provided that the appropriate value of (X/Q) is used as outlined in the detailed explanation that follows. The equation for gamma air dose is:

n D-air = Z 3.17 X 10~ M, (NQ) Q~

I

Page 109 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.4 (continued)

Where:

D-air gamma air dose in mrad from radioactive noble gases.

A mathematical symbol to signify the operations to the right side of the symbol are to be performed for each nuclide (i) through (n) and summed to arrive at the total dose, from all nuclides reported during the interval No units apply,

~

I 3.17 X 10 the inverse of the number of seconds per year with units of year/sec.

M, the gamma air dose factor for radioactive noble gas nuclide (i) in units of mrad-m',Ci-yr (X/Q) the long term atmospheric dispersion factor for ground level releases in units of sec/m'. The value of (X/Q) is the same for all nuclides (i) in the dose calculation, but the value of (X/Q) does vaty depending on the Limiting Sector the Control is based on, etc.

the number of micro-curies of nuclide (i) released (or projected) during the dose calculation exposure period. (e.g., month, quarter or year)

Page 110 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.4 (continued)

From an evaluation of past releases, a single effective gamma air dose factor (M,)

has been derived, which is representative of the radionuclide abundances and corresponding dose contributions typical of past operation. (Refer to Appendix C for a detailed explanation and evaluation of M,). The value of M,has been derived from the radioactive noble gas effluents for the years 1978, 1979 and 1980.

The value is M,= 7.4 X 10 mead//

p,Cilm'his value may be used in conjunction with the total noble gas releases ( Q,.) to simplify the dose evaluation and to verify that the cumulative gamma air dose is within the limits of Control 3.11.2.2. To allow for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.8 is introduced into the calculation. The simplified equation is g$ 3 17 X 10 ~ef/ X/g j gI 81f 08 For purposes of calculations, the appropriate meteorological dispersion (X/Q) from Table M-1 should be used. Control 3.11.2.2 requires that the doses be evaluated once per 31 days, (i.e., monthly). The quarterly dose limit is 5 mrads, which corresponds to a monthly allotment of 1.7 mrads. If the 1.7 mrads is substituted for Dy t a cumulative noble gas monthly release objective can be calculated. This value is 36,000 Ci/month, noble gases.

As long as this value is not exceeded in any month, no additional calculations are needed to verify compliance with the quarterly noble gas release limits of Control 3.11.2,2. Also, the gamma air dose is more limiting than the beta air dose.

Therefore, the beta air dose does not need to be calculated per Section 2.5 if the M,dose factor is used to determine the gamma air dose, Refer to Appendix C for a detailed evaluation and explanation.

The calculations of Section 2.5 may be omitted when this limited analysis approach is used, but should be performed if the radionuclide specific dose analysis is performed. Also,-the radionuclide specific calculations will be performed for inclusion in annual reports.

Page 111 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.4 (continued)

The following steps provide a detailed explanation of how the radionuclide specific dose is calculated. This method is used to evaluate quarterly doses in accordance with Control 3.11.2.2 if the releases of noble gases during any month of the quarter exceed 36,000 Ci.

1. To determine the applicable (X/Q) refer to Table M-1 to obtain the value for the type of dose calculation being performed. (i.e., Quarterly Control or Dose Projection for examples). This value of (X/Q) applies to each nuclide (i).
2. Determine (M,) the gamma air dose factor for nuclide (i) from Table G-2.
3. Obtain the micro-Curies of nuclide (i) from the in-plant radioactive gaseous waste management logs for the sources under consideration during the time interval ~
4. Solve for D, as follows:

yl X M mr~d-m. (X/~) sec + ~1 V C'I'ec Ij.Ci-yr m' D, = mrad = the dose from nuclide (i)

5. Perform steps 2.4.2 through 2.4.4 for each nuclide (i) reported during the time interval in the source.
6. The total gamma air dose for the pathway is determined by summing the D, dose of each nuclide (i) to obtain D-air dose.

Dy., = D, + D2+ + D= mrad NOTE Compliance with a 1/31 day Control, Quarterly Control, yearly or 12 consecutive months Control can be demonstrated by the limited analysis approach using M,. Using this method only requires that steps 2.4.2 through 2.4.5 be performed one time, remembering that the dose must be divided by 0.8, the conservatism factor.

7. Refer to in-plant procedures for comparing the calculated dose to any applicable limits that might apply.

Page 112 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.5 Determinin the Beta Air Dose for Radioactive Noble Gas Releases Discussion - Control 3.11.2.2 limits the quarterly air dose due to beta radiation from

'oble gases in gaseous effluents to <10 mrads in any calendar quarter and <20 mrads in any calendar year. The following calculation method is provided for determining the beta air dose and is based on Section 5.3.1 of NUREG-0133, November 1978. The dose calculation is independent of any age group. The equation may be used for Control dose calculation, dose calculation for annual reports or for projecting dose, provided that the appropriate value of (X/Q) is used as outlined in the detailed explanation that follows.

The equation for beta air dose is:

n D~., Z = 3.17 X 10 N(X/Q) Q, I

Where:

B-air beta air dose in mrad from radioactive noble gases.

a mathematical symbol to signify the operations to the right side of the symbol are to be performed for each nuclide (i) through (n) and summed to arrive at the total dose, from all nuclides reported during the interval. No units apply.

3.17 X 10 the inverse of the number of seconds per year with units of year/sec.

N, the beta air dose factor for radioactive noble gas nuclide (i) in units of mrad-m',Ci-yr (X/Q) the long term atmospheric dispersion factor for ground level releases in units of sec/m'. The value of (X/Q) is the same for all nuclides (i) in the dose calculation, but the value of (X/Q) does vary depending on the Limiting Sector the Control is based on, etc.

Q, the number of micro-Curies of nuclide (i) released (or projected) during the dose calculation exposure period

Page 113 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.5 (continued)

The beta air dose does not have to be evaluated if the noble gas gamma air dose is evaluated by the use of the effective gamma air dose factor (M,) However, if

~

the nuclide specific dose calculation is used to evaluate compliance with the quarterly gamma air dose limits (Section 2.4), the beta air dose should also be evaluated as outlined below for the purpose of evaluating compliance with the quarterly. beta air dose limits of Control 3.11.2.2. The following steps provide a detailed explanation of how the dose is calculated.

1. To determine the applicable (X/Q) refer to Table M-1 to obtain the value for the type of dose calculation being performed (i.e., quarterly Control or Dose projection for examples). This value of (X/Q) applies to each nuclide (i) ~
2. Determine (N,.) the beta air dose factor for nuclide (i) from Table G-2.
3. Obtain the micro-curies of nuclide (i) from the in-plant radioactive gaseous waste management logs for the source under consideration during the time interval.
4. Solve for D, as follows:

3.17 X 10~ yr N, mrad-m'X/Q) sec Q> pCi sec pCi yr M3 1 D, = mrad = the dose from nuclide (i)

5. Perform steps 2.5.2 through 2.5.4 for each nuclide (i) reported during the time interval in the release source.
6. The total beta air dose for the pathway is determined by summing the D, dose of each nuclide (i) to obtain D~, dose.

D~,=D, +D2 + D= mrad

7. Refer to in-plant procedures for comparing the calculated dose to any a'pplicable limits that might apply.

Page 114 of 182 ST. LUCIE OPERATING PROCEDURE C-200,'REVISION 16 PLANT'HEMISTRY OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 Determinin the Radioiodine and Particulate Dose To An Or an From Cumulative Releases Discussion - Control 3.11.2.3 limits the dose to the whole body or any organ resulting from the release of 1-131, l-133, tritium and particulates with half-lives >8 days to <7.5 mrem during any calendar quarter and <15 mrem during any calendar year. The following calculation method is provided for determining the critical organ dose due to releases of radioiodines and particulates and is based on Section 5,3.1 of NUREG-0133, November 1978. The equation can be used for any age group provided that the appropriate dose factors are used and the total dose reflects only those pathways that are applicable to the age group. The (X/Q)p symbol represents a DEPLETED-(X/Q) which is different from the Noble Gas (X/Q) in that (X/Q)p takes into account the loss of I&8DP and H-3 from the plume as the semi-infinite cloud travels over a given distance. The (D/Q) dispersion factor represents the rate of fallout from the cloud that affects a square meter of ground at various distances from the site. The l&8DP and H-3 notations refer to l-131, I-133 Particulates having half-lives >8 days and Tritium. For ease of calculations, dose from other Iodine nuclides may be included (see 2.1) Tritium calculations are always based on

~

(X/Q),. The first step is to calculate the l&8DP and H-3 dose for each pathway that applies to a given age group. The total dose to an organ can then be determined by summing the pathways that apply to the receptor in the sector.

The equations are:

For Inhalation Pathway (excluding H-3):

n DEBpp Z 317 X10~R~ {X/Q)pQ I

For Ground Plane or Grass-Cow/Goat-Milk n

Dlg8pp Z 3 17 X 10 RI (D/Q) QI I

For each pathway above (excluding Ground Plane) For Tritium:

D 3.17 X10 R~/X/Q)pQ,

Page 115 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

For Total Dose from Particulate Gaseous effluent to organ T of a specified age group:

Z Dr Z [DI&8DP + DH~]

Where:

the organ of interest of a specified age group the applicable pathways for the age group of interest Dl&SDP Dose in mrem to the organ T of a specified age group from radioiodines and 8D Particulates DH-3 Dose in mrem to the organ T of a specified age group from Tritium Total Dose in mrem to the organ T of a specified age group from Gaseous particulate Effluents A mathematical symbol to signify the operations to the right of the symbol are to be performed for each nuclide (i) through (n) and the individual nuclide doses are summed to arrive at the total dose from the pathway of interest to organ T.

A mathematical symbol to indicate that the total dose D, to Z organ T is the sum of each of the pathway doses of IBSDP and H-3 from gaseous particulate effluents.

3.17 X 10 The inverse of the number of seconds per year with units of year/sec.

R; The dose factor for nuclide (i) (or H-3) for pathway Z to organ T of the specified age group. The units are either mrem-m'or pathways mrem-m' sec for pathways yr- pCi using (XIQ)~ <R yr- pCi using (DIQ)

Page 116 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

(X/Q)o The depleted-(X/Q) value for a specific location where the receptor

~

is located (see discussion). The units are sec/m'D/Q) the deposition value for a specific location where the receptor is located (see discussion). The units are 1/m'here m=meters.

Q; The number of micro-Curies of nuclide (i) released (or projected) during the dose calculation exposure 'period.

QH-3 the number of micro-Curies of H-3 released (or projected) during the dose calculation exposure period.

As discussed in Section 2.3, the grass-cow/goat-milk pathway has been identified as the most limiting pathway with the infant's thyroid being the critical organ. This pathway typically contributes >90% of the total dose received by the infant's thyroid and the radioiodine contributes essentially all of this dose. Therefore, it is possible to demonstrate compliance with the dose limit of Control 3.11.2.3 for radioiodines and particulates by only evaluatirig the infant's thyroid dose due to the release of radioiodines via the grass-cow/goat-milk pathway. The calculation method of Section 2.6.3 is used for this determination.

The dose determined by Section 2.6.3 should be divided by a conservatism factor of 0,8. This added conservatism provides assurance that the dose determined by this limited analysis approach will not be < the dose that would be determined by evaluating all radionuclides and all pathways, If this limited analysis approach is used, the dose calculations for other radioactive particulate matter and other pathways need not be performed. Only the calculations of Section 2.6.3 for the radioiodines are required to demonstrate compliance with the Control dose limit.

However, for the dose assessment included in Annual Reports, doses will be evaluated for the infant age groups and all organs via all designated pathways from radioiodines and particulates measured in the gaseous effluents according to the sampling and analyses required in Control Table 4.11-2. The following steps

~

provide a detailed explanation of how the dose is calculated for the given pathways:

Page 117 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

1. The Inhalation Dose Pathwa Method:

NOTE The H-3 dose should be calculated as per 2.6.4.

A. Determine the applicable (X/Q)D from Table M-2 for the location where the receptor is located. This value is common to each nuclide (i)

B. Determine the R, factor of nuclide (i) for the organ T and age group from Table G-5.

C. Obtain the micro-Curies (Q,.) of nuclide (i) from the radioactive gas waste management logs for the release source(s) under consideration during the time interval.

D. Solve for D, Di = 3 17 X 10 R'(X/Q)oQ mrem from nuclide (i)

E. Perform steps 2.6.1.B through 2.6.1.D for each nuclide (i) reported during the time interval for each organ.

F. The Inhalation dose to organ T of the specified age group is determined by summing the D, Dose of each nuclide (i)

~lnhatatr'on

' mrem (Age Group)

Refer to 2.6.5 to determine the total dose to organ T from radioiodines 8 8D Particulates

Page 118 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

2. The Ground Plane Dose Pathwa Method:

NOTE Tritium dose via the ground plane is zero. The Whole Body is the only organ considered for the Ground Plane pathway dose.

A. Determine the applicable (D/Q) from Table M-2 for the location where the receptor is located, This (D/Q) value is common to each nuclide'i)

B. Determine the Ri factor of nuclide (i) for the whole body from Table G-4.

The ground plane pathway dose is the same for all age groups, C. Obtain the micro-Curies (Q,) of nuclide (i) from the radioactive gas waste management logs for the source under consideration.

D. Solve for D, DI = 3.17 X 10~RI (DIQ) QI D,= mrem for nuclide (i)

E. Perform steps 2.6.2.B through 2.6.2.D for each nuclide (i) reported during the time interval.

F. The Ground Plane dose to the whole body is determined by summing the Di Dose of each nuclide (i)

DGr.pl.-wBody = D~ + D2 + + Dn mrem Refer to step 2.6.5 to calculate total dose to the Whole Body.

Page 119 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

3. The Grass-Cow/Goat-Milk Dose Pathwa Method:

NOTE Tritium dose is calculated as per 2.6A.

A. A cow or a goat, will be the controlling animal; (i.e., dose will not be the sum of each animal), as the human receptor is assumed to drink milk from only the most restrictive animal. Refer to Table M-3 to determine which animal is controlling based on its (D/Q).

B. Determine the dose factor R,. for nuclide (i), for organ T, from

1. From Table G-6 for a cow, or;
2. From Table G-7 for a goat, If the limited analysis approach is being used, limit the calculation to the infant thyroid.

C. Obtain the micro-Curies (Q,.) of nuclide (i) from the radioactive gas waste management logs for the release source under consideration during the time interval ~

D, Solve for D, DI = 3.17 X 10 R;(D/Q)Q; D, = mrem from nuclide (i)

E. Perform steps 2.6.3.B through 2.6.3.D for each nuclide (i) reported during the time interval. Only the radioiodines need to be included if the limited analysis approach is used.

Page 120 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

3. (continued)

F..The Grass-Cow-Milk (or Grass-Goat-Milk) pathway dose to organ T is determined by summing the Di dose of each nuclide(i).

DG-c-M (<<DG.G.M) = Di + D2 + + Dn = mrem The dose to each organ should be calculated in the same manner with steps 2.6.3,B through 2.6.3,F. Refer to step 2.6.5 to determine the total dose to organ T from radioiodines 88D Particulates. If the limited analysis approach is being used the infant thyroid dose via the grass-cow(goat)-milk pathway is the only dose that needs to be determined. Section 2.6.5 can be omitted.

4. The Gaseous Tritium Dose Each Pathwa Method:

A. The controlling locations for the pathway(s) has already been determined by: Inhalation - as per 2.6.1.A Ground Plane - not applicable for H-3 Grass-Cow/Goat-Milk - as per 2.6.3.A B. Tritium dose calculations use the depleted (X/Q)D instead of (D/Q). Table M-2 describes where the (X/Q)D value should be obtained from.

C. Determine the Pathway Tritium dose factor (R~) for the organ T of interest from the Table specified below:

MILK AGE INHALATION COW GOAT Infant G-5 G-6 G-7 D. Obtain the micro-Curies (Q) of Tritium from the radioactive gas waste management logs (for projected doses - the micro-Curies of nuclide (i) to be projected) for the release source(s) under consideration during the time interval. The dose can be calculated from a single release source, but the total dose for Control limits or quarterly reports shall be from all gaseous release sources.

Page 121 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

4. (continued)

E..Solve for D.,

DH 3 3 1 7 X 1 O'H~(X/Q)DQ D<< mrem from Tritium in the specified pathway for organ T of the specified age group

5. Determinin the Total Or an Dose From lodines 8D-Particulates and H-3 From Cumulative Gaseous Releases NOTE Control dose limits for l&8DP shall consider dose from all release sources from the reactor unit of interest.

A. The following pathways shall be summed to'arrive at the total dose to organ T from a release source or if applicable to Control, from all release sources:

PATHWAY DOSE (mrem) ¹ STEP REF.

Inhalation (l&8DP) 2.6.1.F Ground Plane (I&8DP) (Whole Body only) 2.6.2.F Grass- Milk (l&8DP) 2.6.3.F Inhalation (H-3) 2.6.4.E Grass- -Milk (H-3) 2.6.4.E DoseT = (sum of above)

B. The dose to each of the INFANT'S ORGANS shall be calculated:

BONE, LIVER, THYROID, KIDNEY, LUNG, WHOLE BODY, & Gl-LLI The INFANT organ receiving the highest exposure relative to its Control Limit is the most critical organ for the radioiodine & 8D Particulates gaseous effluents.

Page 122 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.7 Pro'ectin Dose for Radioactive Gaseous Effluents Discussion - Control 3.11,2.4 requires that the waste gas holdup system be used to releases of radioactivity when the projected doses in 31 days due to 'educe gaseous effluent releases, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5-1-1) would exceed 0.2 mrad for gamma radiation and 0.4 mrad for beta radiation. The following calculation method is provided for determining the projected doses. This method is based on using the results of the calculations performed in Sections 2.4 and 2.5.

1. Obtain the latest results of the monthly calculations of the gamma air dose (Section 2.4) and the beta air dose if performed (Section 2.5). These doses can be obtained from the in-plant records.
2. Divide these doses by the number of days the plant was operational during the month.
3. Multiply the quotient by the number of days the plant is projected to be operational during the next month. The product is the projected dose for the next month. The value should be adjusted as needed to account for any changes in failed-fuel or other identifiable operating conditions that could.

significantly alter the actual releases.

4. If the projected doses are >0.2 mrads gamma air dose or > 0.4 mrads beta air dose, the appropriate subsystems of the waste gas holdup system shall be used.

Page 123 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 3.0 40 CFR 190 Dose Evaluation Discussion - Dose or dose commitment to a real individual from all uranium fuel cycle sources be limited to <25 mrem to the whole body or any organ (except thyroid, which is limited to <75 mrem) over a period of 12 consecutive months.. The following approach should be used to demonstrate compliance with these dose limits. This approach is based on NUREG-0133, Section 3.8.

3.1 Evaluation Bases Dose evaluations to demonstrate compliance with the above dose limits need only be performed if the quarterly doses calculated in Sections 1.4, 2.4 and 2.6 exceed twice the dose limits of Controls 3.11.1.2.a, 3.11.1.2.b, 3.11.2,2a, 3.1.2.2b, 3.11.2.3a and 3.11.2.3b respectively; i.e., quarterly doses exceeding 3 mrem to the whole body (liquid releases), 10 mrem to any organ (liquid releases), 10 mrads gamma air dose, 20 mrads beta air dose or 15 mrem to the thyroid or any organ from radioiodines and particulates (atmospheric releases) Otherwise, no evaluations are required and the remainder of this

~

section can be omitted.

3.2 Doses From Li uid Releases For the evaluation of doses to real individuals from liquid releases, the same calculation method as employed in Section 1.4 will be used. However, more realistic assumptions will be made concerning the dilution and ingestion of fish and shellfish by individuals who live and fish in the area. Also, the results of the Radiological Environmental Monitoring program will be included in determining more realistic dose to these real people by providing data on actual measured levels of plant related radionuclides in the environment.

3.3 Doses From Atmos heric Releases For the evaluation of doses to real individuals from the atmospheric releases, the same calculation methods as employed jn Section 2.4 and 2.6 will be used.

In Section 2A, the total body dose factor (K) should be substituted for the gamma air dose factor (M,) to determine the total body dose. Otherwise the same calculation sequence applies. However, more realistic assumptions will be made concerning the actual location of real individuals, the meteorological conditions and the consumption of food (e.g., milk). Data obtained from the latest land use census (Control 3.12.2) should be used to determine locations for evaluating doses. Also, the results of the Radiological Environmental Monitoring program will be included in determining more realistic doses to these real people by providing data on actual measured levels of radioactivity and radiation at locations of interest.

Page 124 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 Annual Radioactive Effluent Re ort Discussion - The information contained in a annual report shall not apply to any Control. The reported values are based on actual release conditions instead of historical conditions that the Control dose calculations are based on. The Control dose limits are therefore included in item 1 of the report, for information only. The ECLs in item 2 of the report shall be those listed in Tables L-1 and G-1 of this manual. The average energy in item 3 of the report is not applicable to the St. Lucie Plant. The format, order of nuclides and any values shown as an example in Tables 3.3 through 3.8 are samples only. Other formats are acceptable if they contain equivalent information. A table of contents should also accompany the report. The following format should be used:

RADIOACTIVE EFFLUENTS - SUPPLEMENTAL INFORMATION

1. Regulatory Limits:

1 ~ 1 For Radioactive liquid waste effluents:

a. The concentration of radioactive material released from the site (see Figure 5.1-1 in TS-A) shall be limited to ten times the concentrations specified in 10 CFR Part 20.1001-20.2401, Appendix B, Table 2, Column 2 for radionuclides other than dissolved or entrained noble gases. For dissolved or entrained noble gases, the concentration shall be limited to 2 X 10" p.CI/ml total activity.
b. The dose or dose commitment to a MEMBER OF THE PUBLIC from radioactive materials in liquid effluents released from each reactor unit to unrestricted areas (See Fig. 5.1-1 in TS-A) shall be limited during any calendar quarter to <1.5 mrem to the whole body and to <5 mrem to any organ and <3 mrem to the whole body and <10 mrem to any organ during any calendar year.

1.2 For Radioactive Gaseous Waste Effluents:

a. The dose rate resulting from radioactive materials released in gaseous effluents to areas at or beyond the SITE BOUNDARY (See TS Figure 5.1-1) shall be limited to the following values:

The dose rate limit for noble gases shall be <500 mrem/yr to the total body and <3000 mrem/yr to the skin and

Page 125 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

1. (continued) 1.2 (continued)
a. (continued)

The dose rate limit from l-131, l-133, Tritium and particulates with half-lives >8 days shall be <1500 mrem/yr to any organ.

b. The air dose (see Figure 5.1-1 in the TS-A) due to noble gases released in gaseous effluents, from each reactor unit, to areas at and beyond the SITE BOUNDARY shall be limited to the following:

During any calendar quarter, to <5 mrad for gamma radiation and <10 mrad for beta radiation and during any calendar year to <10 mrad for gamma radiation and <20 mrad for beta radiation

c. The dose to a MEMBER OF THE PUBLIC from l-131, l-133, Tritium and all radionuclide in particulate form, with half-lives >8 days in gaseous effluents released from each reactor unit to areas at and beyond the SITE BOUNDARY (see Figure 5.1-1 in the TS-A) shall be limited to the following:

During any calendar quarter to <7.5 mrem to any organ and during any calendar year to <15 mrem to any organ.

2. Effluent Limiting Concentrations:

Air - as per attached Table G-1 Water - as per attached Table L-1

3. Average energy of fission and activation gases in gaseous effluents is not applicable to the St. Lucie Plant.

Page 126 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

4. Measurements and Approximations of Total Radioactivity; A summary of liquid effluent accounting methods is described in Table 3.1.

A summary of gaseous effluent accounting methods is described in Table 3.2.

Estimate of Errors:

LIQUID GASEOUS Error Topic Avg. % Max. % Avg. % Max. %

Release Point Mixing 2 5 NA NA Sampling 1 5 2 5 Sample Preparation 1 5 1 5 Sample Analysis 3 10 3 10 Release Volume 2 5 4 15 Total % 9 30 10 35 (above values are examples only)

The predictability of error for radioactive releases can only be applied to nuclides that are predominant in sample spectrums. Nuclides that are near background relative to the predominant nuclides in a given sample could easily have errors greater than the above listed maximums.

Page 127 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

4. (continued)

TABLE 3.1 RADIOACTIVE LIQUID EFFLUENT SAMPLING AND ANALYSIS LIQUID METHOD OF SAMPLING FREQUENCY TYPE OF ANALYSIS 'NALYSIS SOURCE EACH BATCH PRINCIPAL GAMMA EMITTERS p.h.a.

MONITOR TRITIUM L.S TANK MONTHLY COMPOSITE GROSS ALPHA G.F.P RELEASES'TEAM QUARTERLY COMPOSITE Sr-89, Sr-90, Fe-55 C.S. S. L.S.

FOUR PER MONTH PRINCIPAL GAMMA EMITTERS p.h.a.

AND DISSOLVED GASES GENERATOR TRITIUM L.S 8 LOWDOWN MONTHLY COMPOSITE GROSS ALPHA G.F.P.

RELEASES QUARTERLY COMPOSITE Sr-89, Sr-90, Fe-55 C.S. & L.S.

TABLE NOTATION:

Boric Acid Evaporator condensate is normally recovered to the Primary Water Storage Tank for recycling into the reactor coolant system and normally does not contribute to liquid waste effluent totals.

p.h.a. gamma spectrum pulse height analysis using Lithium Germanium detectors. All peaks are identified and quantified.

L.S. Liquid Scintillation counting C.S. Chemical Separation G.F.P. Gas Flow Proportional Counting

Page 128 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE G-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL'DCM METHODOLOGY SECTION 4.0 (continued)

4. (continued)

TABLE 3.2 RADIOACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS METHOD OF SAMPLING FREQUENCY TYPE OF ANALYSIS SOURCE ANALYSIS Waste Gas Each Tank Principal Gamma Emitters G, p.h.a.

Decay Tank Releases Containment Each Purge Principal Gamma Emitters G, p.h.a.

Purge Releases H-3 L.S.

Four per Month Principal Gamma Emitters (G, C, P) - p.h.a.

H-3 L.S.

Plant Vent Monthly Composite Gross P - G. F. P.

(Particulates) Alpha Quarterly Composite Sr-90 C.S. 8 (Particulates) Sr-89 L.S.

G Gaseous Grab Sample Charcoal Filter Sample Particulate Filter Sample L.S. Liquid Scintillation Counting

, C.S. 'hemical Separation p,h.a. Gamma spectrum pulse height analysis using Lithium Germanium detectors. All peaks are identified and quantified.

G.F.P. Gas Flow Proportional Counting

Page 129 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

5. Batch Releases A. Liquid
1. Number of batch releases; 2, Total time period of batch releases: minutes
3. Maximum time period for a batch release: minutes
4. Average time period for a batch release: minutes
5. Minimum time period for a batch release: minutes
6. Average dilution stream flow during the period (see Note 1 on Table 3.3): GPM All liquid releases are summarized in tables B. Gaseous
1. Number of batch releases:
2. Total time period for batch releases: minutes
3. Maximum time period for a batch release: minutes
4. Average time period for batch releases: minutes

'5. Minimum time period for a batch release: minutes All gaseous waste releases are summarized in tables

Page 130 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

6. Unplanned Releases A. Liquid
1. Number of releases:
2. Total activity releases: Curies B. Gaseous
1. Number of releases:
2. Total activity released: Curies C. See attachments (if applicable) for:
1. A description of the event and equipment involved.
2. Cause(s) for the unplanned release.
3. Actions taken to prevent a recurrence
4. Consequences of the unplanned release
7. Description of dose assessment of radiation dose from radioactive effluents to the general public due to their activities inside the site are reported on the January annual report.
8. Offsite dose calculation manual revisions initiated during. this reporting period.

See Control 3.11.2.6 for required attachments to the Annual Report.

9. Solid waste and irradiated fuel shipments as per requirements of Control 3.11.2.6.

Page 131 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM 0 4.0 (continued)

METHODOLOGY SECTION 10, Process Control Program (PCP) revisions as per requirements of TS 6,13.

11. Major changes to Radioactive Liquid, Gaseous and Solid Waste Treatment Systems as per requirements of Control 3.11.2.5.

Page 132 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ ANNUAL REPORT - ~~ THROUGH /~

TABLE 3.3: LIQUID EFFLUENTS - SUMMATION OF ALL RELEASES UNIT QUARTER ¹ QUARTER ¹ A. Fission and Activation Products

1. Total Release - (Not including Tritium, Gases, Alpha) Ci I
2. Average Diluted Concentration During Period p,CI/ML B. Tritium Total Release Ci E
2. Average Diluted Concentration During .Period p.CI/ML C. Dissolved and Entrained Gases
1. Total Release Ci
2. Average Diluted Concentration During Period p,Ci/ML D. Gross Alpha Radioactivity 1, Total Release Ci

Page 133 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION TABLE 3.3: LIQUID EFFLUENTS - SUMMATION OF ALL RELEASES (continued)

QUARTER 4 QUARTER 0 E. Volume of Waste Released F.

Period'NIT (Prior to.Dilution)

Volume of Dilution Water LITERS Used During LITERS 1 - The volume reported should be for the entire interval of the reporting period, not just during release intervals. This volume should also be used to calculate average dilution stream flow during the period.

Page 134 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8. LIGHT COMPANY ST. LUCIE UNIT ¹ ANNUAL REPORT - ~~ THROUGH /~

TABLE 3.4: LIQUID EFFLUENTS (EXAMPLE FORMAT)

CONTINUOUS MODE BATCH MODE NUCLIDES RELEASED'-131 UNIT QUARTER ¹ QUARTER ¹ QUARTER ¹ QUARTER ¹ CI l-133 CI l-135 CI NA-24 CI CR-51 CI MN-54 CI CO-57 CI CO-58 CI FE-59 CI CO-60 CI ZN-65 CI Nl-65 CI AG-110 CI SN-113 CI SB-122 CI SB-124 CI W-187 CI NP-239 CI ZR-95 CI MO-99 CI RU-103 CI CS~134 CI CS-136 CI CS-137 CI BA-140 CI CE-141 CI BR-82 CI ZR-97 CI SB-125 CI All nuclides that were detected should be added to the partial list of the example format.

Page 135 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL'DCM METHODOLOGY SECTION TABLE 3.4: LIQUID EFFLUENTS (EXAMPLE FORMAT)

(continued)

CONTINUOUS MODE BATCH MODE NUCLIDES RELEASED UNIT QUARTER ¹ QUARTER ¹ QUARTER ¹ QUARTER ¹ CE-144 CI SR-89 CI SR-90 CI UNIDENTIFIED CI TOTAL FOR PERIOD (ABOVE) CI AR-41 CI KR-85 CI XE-131M CI XE-133 CI XE-133M CI XE-135 CI

Page 136 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8 LIGHT COMPANY ST. LUCIE UNIT 0 TABLE 3.5 LIQUID EFFLUENTS - DOSE SUMMATION Age Group: Adult Location: Any Adult Exposure Interval: From Through CALENDAR YEAR DOSE Fish 8 Shellfish Pathway to Organ (mrem)

LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY

Page 137 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION'16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8. LIGHT COMPANY ST. LUCIE UNIT ¹ ANNUAL REPORT - / / THROUGH ~

TABLE 3.6: GASEOUS EFFLUENTS - SUMMATION OF ALL RELEASES

/

UNIT QUARTER ¹ QUARTER ¹ A. Fission and Activation Gases

1. Total Release Ci
2. Average Release Rate For Period pCi/SEC B. Iodines
1. Total Iodine-131 Ci
2. Average Release Rate for Period p,Ci/SEC C. Particulates
1. Particulates T-1/2 > 8 Days Ci
2. Average Release Rate for Period pCi/SEC 3, Gross Alpha Radioactivity Ci D. Tritium
1. Total Release Ci
2. Average Release Rate for Period pCi/SEC

Page 138 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8L LIGHT COMPANY ST. LUCIE UNIT 0 ANNUAL REPORT - /~ THROUGH ~~

TABLE 3.7 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES (EXAMPLE FORMAT)

CONTINUOUS MODE BATCH MODE NUCLIDES RELEASED UNIT QUARTER ¹ QUARTER ¹ QUARTER ¹ QUARTER ¹

1. Fission Gases AR-41 CI KR-85 CI KR-85M CI KR-87 CI KR-88 CI XE-131M CI XE-133 CI XE-133M CI XE-135 CI XE-135M CI XE-138 CI UNIDENTIFIED CI TOTAL FOR PERIOD (ABOVE) CI
2. Iodines l-131 CI l-133 CI I-135 CI TOTAL FOR PERIOD (ABOVE) CI
3. Particulates CO-58 CI SR-89 CI SR-90 CI
  • All nuclides that were detected should be added to the partial list of the example format.

.~MISTRY OPERATING PR ST. L: PLANT

='DURE NO. C-200, REVISI. 16 Page 13 f 182 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT ¹ TABLE 3.8 GASEOUS EFFLUENTS - DOSE SUMMATION - CALENDAR YEAR AGE GROUP: INFANT EXPOSURE INTERVAL: FROM THROUGH BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY PATHWAY (mrem) (mrem) (mrem) (mrem) (mrem (mrem) (mrem)

Ground Plane (A)

Grass- -Milk(B) inhalation (A)

TOTAL (A) SECTOR: RANGE: miles (B) COW / GOAT SECTOR: RANGE: miles NOBLE GASES CALENDAR YEAR (mrad)

Gamma Air Dose Beta Air Dose Sector: Range: 0.97 miles NOTE The dose values above were calculated using actual meteorological data during the specified time interval with MET data reduced as per Reg. Guide 1.111, March 1976.

Page 140 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX A ECL, DOSE FACTOR AND HISTORICAL METEOROLOGICAL TABLES

Page 141 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-1 EFFLUENT CONCENTRATION LIMITS IN WATER IN UNRESTRICTED AREAS NOTE lf a nuclide is not listed below, refer to 10 CFR Part 20, Appendix B, Table 2 Effluent Concentrations Column 2 and use the most conservative ECL listed for the nuclide.

Nuclide ECL (p,CI/ml) Nuclide ECL (p,CI/ml) Nuclide ECL (pCI/ml)

H-3 1 E-3 Y-90 7 E-6 Te-129 4 E-4 Na-24 5 E-5 Y-91m 2 E-3 Te-131m 8 E-6 P-32 9 E-6 Y-91 8 E-6 Te-131 8 E-5 Cr-51 5 E-4 Y-92 4 E-5 Te-132 9 E-6 Mn-54 3 E-5 Y-93 2 E-5 I-130 2 E-5 Mn-56 7 E-5 Zr-95 2 E-5 I-131 1 E-6 Fe-55 Zr-97 9 E-6 I-132 1 EQ Fe-59 1 E-5 Nb-95 3 E-5 I-133 7 E-6 Co-57 6 E-5 Nb-97 3 EA I-134 4 EA Co-58 2 E-5 Mo-99 2 E-5 I-135 3 E-5 Co-60 3 E-6 Tc-99m 1 E-3 Cs-134 9 E-7 Ni-65 1 E-4 Tc-101 2 E-3 Cs-136 6 E-6 Cu-64 2 E-4 Ru-103 3 E-5 Cs-137 1 E-6 Zn-65 5 E-6 RU-105 7 E-5 Cs-138 4 E-4 Zn-69 8 E-4 RU-106 3 E-6 Ba-139 2 EA Br-82 4 E-5 Ag-110 6 E-6 Ba-140 8 E-6 Br-83 9 E-4 Sn-113 3 E-5 Ba-141 3 E-4 Br-84 4 EA In-113m 7 E-4 Ba-142 7 E-4 Rb-86 7 E-6 Sb-122 1 E-5 La-140 9 E-6 Rb-88 4 E-4 Sb-124 7 E-6 La-142 1 E-4 Rb-89 9 E-4 Sb-125 3 E-5 Ce-141 3 E-5 Sr-89 8 E-6 Te-125m 2 E-5 Ce-143 2 E-5 Sr-90 5 E-7 Te-127m 9 E-6 Ce-144 3 E-6 Sr-91 2 E-5 Te-127 1 E-4 Pr-144 6 EA Sr-92 4 E-5 Te-129m 7 E-6 W-187 3 E-5 Np-239 2 E-5

Page 142 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCI/ML)

NUCLIDE BONE LIVER WHOLE THYROID KIDNEY LUNG GI-LLI BODY H-3 0. 3.60E-01 3.60E-01 3.60E-01 3.60E-01 3.60E-01 3.60E-01 NA-24 6.08E-01 6.08E-01 6.08E-01 6.08E-01 6.08E-01 6.08E-01 6.08E-01 P-32 1.67E+07 1.05E+06 0. 0. 0. 1.88E+06 6.47E+05 CR-51 0. 0. 3.34E+00 1.23E+00 7.42E+00 1.41E+03 5.59E+00 MN-54 0. 7.07E+03 0. 2.10E+03 0. 2.17E+04 1.35E+03 MN-56 0. 1.78E+02 0. 2.26E+02 0. 5.68E+03 3.17E+01 FE-55 1.15E+05 5.19E+05 0. 0. 6.01E+05 2.03E+05 1.36E+05 FE-59 8.08E+04 1.92E+05 0. 0. 5.32E+04 6.33E+05 7.29E+04 CO-57 0. 1.42E+02 0. 0. 0. 3.60E+03 2.36E+02 CO-58 0. 6.05E+02 0. 0. '.22E+04 1.35E+03 CO-60 0. 1.74E+03 0. 0. 0. 3.26E+04 3.83E+03 NI-65 2.02E+02 2.63E+01 0. 0. 6.65E+02 1.20E+01 CU-64 0. 2.15E+02 0. 5.41E+02 0. 1.83E+04 I.01E+02 ZN-65 1.62E+05 5.13E+05 0. 3.43E+05 0. 3.23E+05 2.32E+05 ZN-69 3.43E+02 6.60E+02 0. 4.27E+02 0. 9.87E+01 4.57E+01 Based on 1 p.CI/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 143 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCI/ML)

WHOLE NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI BODY BR-82 0. 0. 0. 4.68E+00 4.08E+00 BR-83 0. 0. 0. 0. 0. 1.05E-01 7.26E-02 BR-84 0. 0. 0. 7.38E-07 9.42E-02 BR-85 0. 0. 0. 0. 0. 0. 3.86E-03 RB-86 0. 6.25E+02 0. 0. 0. 1.23E+02 2.91E+02 RB-88 0. 1.79E+00 0. 0. 0. 0. 9.50E-01 RB-89 0. 1.19E+00 0. 0. 0. 0.

8.38E-01'.44E+02 SR-89 5.01E+03 0. 0. 0. 0. 8.01E+02 SR-90 1.23E+05 0. 0. 0. 0. 1.65E+03 3.02E+04 SR-91 9.43E+01 0. 0. 0. 0. 4.75E+02 4.15E+00 SR-92 3.'50E+01 0. 0. 0. 0. 6.91E+02 1.51E+00 Y-90 6.07E+00 0. 0. 0. 0. 6.43E+04 1.63E-01 Y-91M 5.74E-02 0. 0. '.68E-01 2.23E-03 Y-91 8.89E+01 0. 0. 4.89E+04 2.38E+00 Y-92 5.34E-01 0. 0. 0. 0. 9.33E+03 1.56E-02 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 144 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCI/ML)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY Y-93 1.69E+00 0. 0. 0. 0. 5.36E+04 4.67E-02 ZR-95 1.60E+01 5.13E+00 0. 8.09E+00 0. 1.59E+04 3.47E+00 ZR-97 8.82E-01 1.78E-01 0. 2.69E-01 0. 5.51E+04 8.19E-02 NB-95 4.48E+02 2.49E+02 0. 2.47E+02 0. 1.51E+06 9.79E+01 NB-97 3.76E+00 9.50E-01 0. 1.11E+00 0. 3.51E+03, 3.47E-01 MO-99 0. 1.28E+02 0. 2.90E+02 0. 2.97E+02 2.43E+01 TC-99M 1.30E-02 3.67E-02 5.57E-01 1.80E-02 2.17E+01 4.67E-01 TC-101 1.33E-02 1.93E-02 0. 3.47E-01 9.82E-03 0. 1.89E-01 RU-103 1.07E+02 0. 0. 4.09E+02 0. 1.25E+04 ~

4.61E+01 RU-105 8.90E+00 0. 0. 1.15E+02 0. 5.44E+03 3.51E+00 RU-106 1.59E+03 0. 0. 3.08E+03 0. 1.03E+05 2.01E+02 AG-110 1.57E+03 1.45E+03 0. 2.85E+03 0. 5.92E+05 8.62E+02 SB-124 2.78E+02 5.23E+00 6.71E-01 0. 2.15E+02 7.85E+03 1.10E+02 SB-125 2.20E+02 2.37E+00 1.96E-01 0. 2.30E+04 1.95E+03 4.42E+01 TE-125M 2.17E+02 7.89E+01 6.54E+01 8.83E+02 0. 8.67E+02 2.91E+01 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 145 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCI/ML)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY TE-127M 5.50E+02 1.92E+02 1.40E+02 2.23E+03 0. 1.84E+03 6.70E+01 TE-127 8.92E+00 3.20E+00 6.61E+00 3.63E+01 0. 7.04E+02 1.93E+00 TE-129M 9.32E+02 3.49E+02 3.20E+02 3.89E+03 0. 4.69E+03 1.48E+02 TE-129 2.55E+00 9.65E-01 1.95E+00 1.07E+01 0. 1.92E+00 6.21E-01 TE-131M 1.41E+02 6.87E+01 1.09E+02 6.95E+02 6.81E+03 5.72E+01 TE-131 1.60E+00 6.68E-01 1.31E+00 7.00E+00 0. 2.39E-01 5.04E-01 TE-132 2.05E+03 1.33E+02 1.46E+02 1.28E+03 0. 6.25E+03 1.24E+02 l-130 3.98E+01 1.18E+02 1.50E+04 1.83E+02 0. 1.01E+02 4.63E+01 I-131 2.18E+02 3.13E+02 1.02E+05 5.36E+02 0. 8.24E+01, 1.79E+02 I-132 1.07E+01 2.85E+01 3.76E+03 4.55E+01 0. 5.36E+00 1.01E+01 1-133 7.51E+01 1.30E+02 2.51E+04 2.27E+02 0. 1.15E+02 3.98E+01 I-134 5.57E+00 1.51E+01 1.96E+03 2.41E+01 0. 1.32E-02 5.41E+00'-135 2.33E+01 6.14E+01 8.03E+03 9.77E+01 0. 6.88E+01 2.25E+01 CS-134 6.85E+03 1.63E+04 0. 5.29E+03 1.75E+03 2.85E+02 1.33E+04 CS-136 7.17E+02 2.83E+03 0. 1.58E+03 2.16E+02 3.22E+02 2.04E+03 Based on 1 pCI/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 146 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pci/ML)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY CS-137 8.79E+03 1.20E+04 0. 4.09E+03 1.36E+03 2.31E+02 7.88E+03 CS-138 6.08E+00 1.20E+01 0. 8.84E+00 8.73E-01 5.12E-05 5.96E+00 BA-139 7.87E+00 5.61E-03 0. 5.24E-03 3.18E-03 1.39E+01 2.30E-01 BA-140 1.65E+03 2.07E+00 0. 7.04E-01 1.18E+00 3.39E+03 1.09E+02 BA-141 0. 2.89E-03 2.68E-03 1.64E-03 1.80E-09 1.29E-01 BA-142 1.73E+00 1.78E-03 0. 1.50E-03 1.01E-03 0. 1.09E-01 LA-140 1.58E+00 7.95E-01 0. 0. 0. 5.83E+04 2.11E-01 LA-142 8.07E-02 3.67E-02 0. 0. 0. 2.68E+02 9.15E-03 CE-141 3.43E+00 2.32E+00 1.08E+00 0. 8.87E+03 2.63E-01 CE-143 6.05E-01 4.47E+02 0. 1.97E-01 0. 1.67E+04 4.95E-02 CE-144 1.79E+02 7.48E+01 4.43E+01 0. 6.05E+04 9.60E+00 PR-144 1.91E-02 7.88E-03 0. 4.45E-03 0. 2.73E-09 9.65E-04 W-187 9.17E+00 7.68E+00 0. 0. 0. 2.51E+03 2.69E+00 NP-239 3.56E-02 3.50E-03 0. 1.08E-02 0. ~

7.12E+02 1.92E-03 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 147 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-1 EFFLUENT CONCENTRATION LIMITS IN AIR IN UNRESTRICTED AREAS NOTE If a nuclide is not listed below, refer to 10 CFR Part 20, Appendix B, Table 2 Effluent Concentrations Column 1 and use the most conservative ECL listed for the nuclide.

Nuclide ECL pCI/ml Nuclide ECL pCi/ml Nuclide ECL pCi/ml Ar-41 1 E-8 Co-57 9 E-10 Sb-124 3 E-10 Kr-83m 5 E-5 Co-58 1 E-9 Sb-125 7 E-10 Kr-85m 1 E-7 Fe-59 5 E-10 Te-125m 1 E-9 Kr-85 7 E-7 Co-60 5 E-11 Te-127m 4 E-10 Kr-87 2 E-8 Zn-65 4 E-10 Te-129m 3 E-10 Kr-88 9 E-9 Rb-86 1 E-9 I-130 3 E-9 Kr-89 None Rb-88 9 E-8 I-131 2 E-10 Kr-90 None Sr-89 2 E-10 l-132 2 E-8 Xe-131m 2 E-6 Sr-90 6 E-12 l-133 1 E-9 Xe-133m 6 E-7 Y-91 2 E-10 I-134 6 E-8 Xe-133 5 E-7 Zr-95 4 E-10 I-135 6 E-9 Xe-135m 4 E-8 Nb-95 2 E-9 Cs-134 2 E-10 Xe-135 7 E-8 Ru-103 9 E-10 Cs-136 9 E-10 Xe-137 None Ru-106 2 E-11 Cs-137 2 E-10 Xe-138 2 E-8 Ag-110 1 E-10 Ba-140 2 E-9 H-3 1 E-7 Sn-113 8 E-10 La-140 2 E-9 P-32 1 E-9 In-113m 2 E-7 Ce-141 8 E-10 Cr-51 3 E-8 Sn-123 2 E-10 Ce-144 2 E-11 Mn-54 1 E-9 Sn-126 8 E-11

148 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE 6-2 GASES'age DOSE FACTORS FOR NOBLE TOTAL BODY SKIN DOSE FACTOR GAMMAAIR BETA AIR DOSE FACTOR L, DOSE FACTOR DOSE FACTOR RADIONUCLIDE K, M, N, (mrem/yr per p,Ci/m') (mrem/yr per pCi/m') (mrad/yr per pCi/m') (mrad/yr per pCi/m')

Kr-83m 7.56E-02** 1.93E+01 2.88E+02 Kr-85m 1.17E+03 1.46E+03 1.23E+03 1.97E+03 Kr-85 1.61E+01 1.34E+03 1.72E+01 1.95E+03 Kr-87 5.92E+03 9.73E+03 6.17E+03 1.03E+04 Kr-88 1.47E+04 2.37E+03 1.52E+04 2.93E+03 Kr-89 1.66E+04 1.01E+04 1.73E+04 1.06E+04 Kr-90 1.56E+04 7.29E+03 1.63E+04 7.83E+03 Xe-131m 9.15E+01 4.76E+02 1.56E+02 1.11E+03 Xe-133m 2.51E+02 9.94E+02 3.27E+02 1.48E+03 Xe-133 -

2.94E+02 3.06E+02 3.53E+02 1.05E+03 Xe-135m 3.12E+03 7.11E+02 3.36E+03 7.39E+02 Xe-135 1.81E+03 1.86E+03 1.92E+03 2.46E+03 Xe-137 1.42E+03 1.22E+04 1.51E+03 1.27E+04 Xe-138 8.83E+03 4.13E+03 9.21E+03 4.75E+03 Ar-41 8.84E+03 2.69E+03 9.30E+03 3.28E+03

  • The listed dose factors are for radionuclides that may be detected in gaseous effluents.
    • 7.56E-02 = 7.56 X IO

Page 149 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-3 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS P I FOR GASEOUS DIS HARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCi/Sec)

NUCLIDE WHOLE BODY H-3 0.

CR-51 6.68E+06 MN-54 1.10E+09 FE-59 3.92E+08 CO-57 1.64E+08 CO-58 5.27E+08 CO-60 4.40E+09 ZN-65 6.87E+08 RB-86 1.29E+07 SR-89 3.07E+04 SR-90 5.94E+05 Y-91 1.53E+06 ZR-95 6.94E+08 NB-95 1.95E+08 RU-103 1.57E+08 RU-106 2.99E+08 AG-110 3.18E+09 Based on 1 p,Ci/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 150 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-3 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS P I FOR GASEOUS DISCHARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE WHOLE BODY SN-126 4.80E+09 SB-124 8.42E+08 SB-125 7.56E+08 TE-125M 2.19E+06 TE-127M 1.15E+06 TE-129M 5.49E+07 I-130 7.90E+06 I-131 2.46E+07 l-132 1.78E+06 l-133 3.54E+06 I-134 6.43E+05 1-135 3.66E+06 CS-134 2.82E+09 CS-136 2.13E+08 CS-137 1.15E+09 BA-140 2.39E+08 CE-141 1.95E+07 CE-144 9.52E+07 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 151 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-4 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I FOR GASEOUS DISCHARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - CHILD - TEEN-ADULT & INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE WHOLE BODY H-3 0.

CR-51 4.68E+06 MN-54 1.38E+09 FE-59 2.75E+08 CO-57 1.89E+08 CO-58 3.80E+08 CO-60 2.15E+10 ZN-65 7.43E+08 RB-86 9.0IE+06 SR-89 2.17E+04 SR-90 5.35E+06 Y-91 1.08E+06 ZR-95 5.01E+08 NB-95 1.36E+08 RU-103 1.10E+08 RU-106 4. I9E+08 AG-110 3.58E+09 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 152 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE G-4 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I FOR GASEOUS DISCHARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - CHILD - TEEN-ADULT & INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE WHOLE BODY SN-126 5.16E+10 SB-124 5.98E+08 SB-125 2.30E+09 TE-125M 1.55E+06 TE-127M 8.79E+05 TE-129M 3.85E+07 1-130 5.53E+06 I-131 1.72E+07 1-132 1.25E+06 1-133 2.48E+06 I-134 4.50E+05 I-135 2.56E+06 CS-134 6.99E+09 CS-136 1.49E+08 CS-137 1.03E+10 BA-140 1.68E+08 CE-141 1.37E+07 CE-144 1.13E+08 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 153 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE G-5 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - INHALATION AGE GROUP - INFANT ORGAN DOSE FACTOR (MREM/YR PER pCI/Cu Meter)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY H-3 0. 4.30E+02 4.30E+02 1.88E+02 4.30E+02 4.30E+02 4.30E+02 P-32 '2.31E+05 1.35E+04 0. 0. 0. 1.51E+04 8.78E+03 CR-5 I 0. 0. 1.40E+01 3.99E+00 2.52E+03 5.81E+02 1.75E+01 MN-54 0. 6.93E+03 0. 1.72E+03 2.45E+05 1.35E+04 1.10E+03 FE-59 2.06E+03 4.86E+06 0. 0. 1.78E+05 3.29E+04 1.85E+03 CO-57 0. 1.21E+02 0. 0. 6.47E+04 5.50E+03 1.18E+02 CO-58 0. 1.18E+02 0. 0. 8.79E+05 1.21E+04 1.68E+02 CO-60 0. 8.40E+02 0. 0. 5.57E+06 3.28E+04 1.17E+03 ZN-65 5.67E+03 1.81E+04 0. 1.21E+04 1.53E+05 9.35E+03 8.15E+03 RB-86 0. 2.37E+04 0. 0. 0. 2.91E+03 1.03E+04 SR-89 4.31E+04 0. 0. 0. 2.31E+06 6.80E+04 1.24E+03 SR-90 1.32E+07 0. '0. 0. 1.53E+07 1.39E+05 8.06E+05 Y-91 5.98E+04 0. 0. 0. 2.63E+06 7.17E+04 1.60E+03 ZR-95 1.08E+04 2.73E+03 0. 9.48E+03 1.81E+06 1.41E+04 1.95E+03 NB-95 1.28E+03 5.75E+02 0. 1.35E+03 4.77E+05 1.21E+04 3.37E+02 RU-103 1.69E+02 0. 1.02E+03 5.66E+05 1.58E+04 5.85E+01 RU-106 9.31E+03 0. 0. 2.34E+04 1.50E+07 1.76E+05 1.14E+03 AG-110 1.89E+03 1.75E+03 0. 3.44E+03 8.12E+05 5.29E+04 1.04E+03 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 154 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-5 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - INHALATION AGE GROUP - INFANT ORGAN DOSE FACTOR (MREM/YR PER pCi/Cu Meter)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY SN-123 3.11E+04 6.45E+02 6.45E+02 0. 3.61E+06 5.99E+04 1.02E+03 SN-126 2.21E+05 5.85E+03 1.72E+03 0. 1.64E+06 2.23E+04 8.40E+03 SB-124 5.46E+03 1.03E+02 1.32E+01 0. 4.34E+05 7.11E+04 2.17E+03 SB-125 1.16E+04 1.25E+02 1.03E+01 0. 3.85E+05 1.76E+04 2.32E+03 TE-125M 4.54E+02 1.95E+02 1.53E+02 2.17E+03 4.96E+05 1.36E+04 6.16E+01 TE-127M 2.21E+03 9.83E+02 5.75E+02 8.01E+03 1.68E+05 2.62E+04 2.74E+02 TE-129M 1.32E+03 5.80E+02 5.08E+02 6.40E+03 1.83E+06 7.32E+04 2.06E+02 I-130 8.02E+02 2.35E+03 3.05E+05 3.65E+03 0. 1.35E+03 9.25E+02 I-131 3.63E+04 4.27E+04 1.41E+07 1.07E+04 0. 1.07E+03 2.51E+04 I-132 2.03E+02 5.70E+02 7.67E+04 9.09E+02 7.11E+01 2.03E+02 I-133 1.34E+04 1.93E+04 4.66E+06 4.55E+03 0. 2.28E+03 5.87E+03 I-134 1.13E+02 3.02E+02 4.02E+04 4.82E+02 1.76E-01 1.08E+02 1-135 4.70E+02 1.22E+03 1.64E+05 1.95E+03 0. 9.18E+02 4.51E+02 CS-134 4.80E+05 8.25E+05 0. 5.04E+04 1.01E+05 1.37E+03 7.32E+04 CS-136 6.85E+03 2.56E+04 0. 1.50E+04 2.10E+03 2.04E+03 1.95E+04 CS-137 6.86E+05 7.31E+05 0. 3.89E+04 9.45E+04 1.32E+03 4.41E+04 BA-140 5.70E+03 4.27E+00 0. 2.93E+00 1.64E+06 3.88E+03 2.95E+02 CE-141 2.52E+03 1.55E+03 0. 'I.10E+03 5.24E+05 2.06E+04 1.81E+02 CE-144 4.68E+05 1.82E+05 0. 1.48E+05 1.27E+07 1.61E+05 2.49E+04 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 155 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-6 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - COWS MILK(CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCi/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY H-3 0. 2.37E+03 2.37E+03 1.04E+03 2.37E+03 2.37E+03 2.37E+03 P-32 1.82E+10 1.14E+09 0. 0. 0. 2.05E+09 7.05E+08 CR-51 0. 1.82E+04 6.72E+03 4.04E+04 7.66E+06 3.05E+04 MN-54 0. 8.96E+06 0. 2.67E+06 0. 2.74E+07 1.71E+06 FE-59 3.17E+07 7.52E+07 0. 0. 2.09E+07 2.48E+08 2.86E+07 CO-57 0. 1.36E+06 0. 0. 3A6E+07 2.27E+06 CO-58 0. 2.55E+07 0. 0. 0. 6.60E+07 6.24E+07 CO-60 0. 8.73E+07 0. 2.16E+08 2.09E+08 ZN-65 1.46E+09 4.65E+09 0. 3.11E+09 0. 2.93E+09 2.10E+09 RB-86 0. 2.77E+09 0. 0. 0. 5.45E+08 1.29E+09 SR-89 1.47E+10 0. 0. 0. 0. 2.75E+08 4.22E+08 SR-90 1.65E+11 0. 0. 0. 1.61E+09 4.21E+10 Y-91 8.12E+04 0. 0. 0. 0. 5.37E+06 2.16E+03 ZR-95 2.12E+05 9.41E+04 0. 1.86E+04 7.47E+07 5.56E+04 NB-95 5.49E+05 2.47E+05 0. 4.84E+04 0. 1.98E+08 I.45E+05 RU-103 8.30E+03 0. 4.16E+03 0. 1.04E+05 2.86E+03 RU-106 2.01E+05 0. 4.20E+04 0. 1.56E+06 2.46E+04 AG-110 6.21E+07 5.75E+07 0. 1.13E+08 0. 2.35E+10 3.42E+07 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition Note: The units for C-14 and H-3 are (MREM/YR Per pCi/Cu. Meter)

Page 156 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-6 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - COWS MILK(CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY SN-126 1.75E+09 3.48E+07 1.01E+07 0. 4.97E+06 1.16E+09 5.25E+07 SB-124 2.75E+07 5.19E+05 6.64E+04 0. 2.13E+07 7.78E+08 1.09E+07 SB-125 3.59E+07 3.27E+06 2.93E+06 3.96E+06 2.83E+09 2.43E+08 6.62E+06 TE-125M 1.57E+08 5.30E+07 5.18E+07 7.05E+07 7.57E+07 2.10E+07 TE-127M 5.54E+07 1.93E+07 1.79E+07 2.00E+08 0. 3.24E+08 7.38E+06'.95E+07 TE-129M 5.87E+08 2.02E+08 2.21E+08 2.70E+08 3.54E+08 I-130 4.54E+05 1.35E+06 1.71E+08 2.09E+06 0. 1.15E+06 5.29E+05 1-131 2.59E+09 3.09E+09 9.94E+11 7.24E+08 0. 1.16E+08 1.81E+09 I-132 1.78E-01 4.76E-01 6.26E+01 7.58E-01 0. 8.93E-02 1.69E-01 l-133 3.75E+07 5.48E+07 1.30E+10 1.29E+07 0. 9.74E+06 1.66E+07 l-134 0. 0. 1.06E-09 0. 0. 0. 0.

1.49E+04 3.94E+04 5.15E+06 6.26E+04 8.07E-02 4.41E+04 1.44E+04 CS-134 4.43E+10 7.97E+10 0. 4.65E+09 9.12E+09 1.90E+08 6.75E+09 CS-136 2.78E+08 1.10E+09 0. 6.11E+08 8.37E+07 1.25E+08 7.90Ey08 CS-137 6.44E+10 7.21E+10 0. 3.66E+09 8.69E+09 1.86E+08 4.14E+09 BA-140 2.45E+08 2.47E+05 0. 1.22E+04 1.51E+05 8.13E+06 1.27E+07 CE-141 2.65E+05 1.62E+05 0. 9.72E+03 7.87E+07 1.90E+04 CE-144 2.10E+07 8.29E+06 0. 5.67E+05 0. 8.66E+08 1.13E+06 Based on 1 pCi/sec release rate of each isotope in and a value of 1. for X/Q, depleted X/Q and relative deposition.

Note: The units for C-14 and H-3 are (MREM/YR Per pCi/Cu. Meter)

Page 157 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-7 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - GOATS MILK(CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCi/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY H-3 0. 4.84E+03 4.84E+03 2.11E+03 4.84E+03 4.84E+03 4.84E+03 P-32 2.19E+10 1.37E+09 0. 0. 2.46E+09 8.46E+08 CR-51 0. 0. 2.19E+03 8.07E+02 4.85E+03 9.19E+05 3.66E+03 MN-54 0. 1.08E+06 3.20E+05 0. 3.29E+06 2.05E+05 FE-59 4.12E+05 9.78E+05 0. 0. 2.72E+05 3.23E+06 3.72E+05 CO-57 0. 1.64E+05 0. 0. 4.15E+06 2.72E+05 CO-58 3.06E+06 0. 0. 0. 7.92E+06 7.49E+06 CO-60 0. 1.05E+07 0. 0. 2.59E+07 2.51E+07 ZN-65 ,1.76E+08 5.57E+08 0. 3.73E+08 0. 3.51E+08 2.52E+08 RB-86 0. 3.32E+08 0. 0. 6.54E+07 1.55E+08 SR-89 3.09E+10 0. 0. 0. 0. 5.77E+08 8.87E+08 SR-90 3.46E+11 0. 0. 0. 0. 3.35E+09 8.83E+10 Y-91 9.74E+03 0. 0. 0. 0. 6.45E+05 2.60E+02 ZR-95 2.54E+04 1.13E+04 2.23E+03 0. 8.95E+06 6.67E+03 NB-95 6.59E+04 2.97E+04 5.81E+03 0. 2.37E+07 1.75E+04 RU-103 9.96E+02 0. 0. 4.99E+02 0. 1.24E+j)4 3.43 +02 RU-106 2.41E+04 0. 0. 5.04E+03 0. 1.87E+05 2.96E+03 AG-110 7.45E+06 6.90E+06 0. 1.36E+07 0. 2.81E+09 4.10E+06 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition Note: The units for C-14 and H-3 are 1MREM/Yr per pCi/Cu meter.

Page 158 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-7 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - GOATS MILK(CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE- BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY SN-126 2.10E+08 4.17E+06 1.22E+06 0. 5.97E+05 1.40E+08 6.30E+06 SB-124 3.30E+06 6.22E+04 7.97E+03 0. 2.56E+06 9.33E+07 1.30E+06 SB-125 4.31E+06 3.92E+05 3.52E+05 4.76E+05 3.40E+08 2.92E+07 7.94E+05 TE-125M 1.89E+07 6.36E+06 6.21E+06 8.46E+06 0. 9.09E+06 2.52E+06 TE-127M 6.64E+06 2.31E+06 2.15E+06 2.40E+07 0. 3.88E+07 8.85E+05 TE-129M 7.05E+07 2.42E+07 2.66E+07 3.23E+07 0. 4.25E+07 1.07E+07 I-130 5.45E+05 1.61E+06 2.05E+08 2.51E+06 0. 1.38E+06 6.35E+05 I-131 3.11E+09 3.70E+09 1.19E+12 9.28E+08 0. 1.39E+08 2.17E+09 1-132 2.13E-01 5.71 E-01 7.51E+01 9.10E-O'I 0. 1.07E-01 2.03E-01 I-133 4.50E+07 6.57E+07 1.55E+10 1.55E+07 0. I.17E+07 1.99E+07 I-134 0. 0. 1.27E-09 0. 0. 0. 0.

I-135 1.79E+04 4.72E+04 6.18E+06 7.51E+04 2.42E-01 5.29E+04 1.73E+04 CS-134 1.33E+11 2.39E+11 0. 1.39E+10 2.74E+10 5.69E+08 2.02E+10 CS-136 8.34E+08 3.29E+09 0. 1.83E+09 2.51E+08 3.74E+08 2.37E+09 CS-137 1.93E+11 2.16E+11 0. 1.10E+10 2.61E+10 5.59E+08 1.24E+10 BA-140 2.95E+07 2.96E+04 0. 1.47E+03 1.81E+04 9.76E+05 1.52E+06 CE-141 3.17E+04 1.95E+04 0. 1.17E+03 0. 9.44+06 2.28E+03 CE-144 2.52E+06 9.95E+05 0. 6.80E+04 0. 1.04E+08 1.36E+05 Based on 1 pCi/sec release rate of each isotope in and a value of 1. for X/Q, depleted X/Q and relative deposition.

Note: The units for C-14 and H-3 are 1MREM/Yr per pCi/Cu meter.

Page 159 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M>>1 Selecting the Appropriate Long Term (X/Q) for Dose Calculations Involving Noble Gases for:

(1) Total Body dose from instantaneous releases (2) Skin dose from instantaneous releases (3) Gamma air dose (cumulative)

(4) Beta air dose (cumulative)

TYPE OF DOSE LIMITING LIMITING (X/Q) VALUE CALCULATION RANGE (miles) Sector sec/m'.6 Instantaneous 0.97 NW X 10 1/31 days 0.97

1. Normally (X/Q) = 1.6 X 10'ec/m',

Quarterly 0.97 Yearly May use option of actual 12 Consecutive 0.97 meteorological data for time of months concern.

Annual Report 0.97 N/A Note-1 NOTE 1 The (X/Q) has to be calculated based on actual meteorological data that occurred during the period of interest. The sector of interest is N/A because the limiting (X/Q) will be determined from the actual meteorological data and may occur in any sector, 0.97 miles 'orresponds to the minimum site boundary distance in the north direction and 0.97 miles was chosen for all other sectors for ease of calculations when the averaging is done for quarterly reports.

Page 160 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-2 Selecting the Appropriate Long Term (X/Q), or (D/Q) for Dose Calculations Involving Radioiodines & 8 D Particulates for:

(1) Inhalation (2) Tritium (All gas pathways) (3) Ground Plane TYPE OF DOSE LIMITING LIMITINGSECTOR (X/Q)D seo/m' (D/Q)

CALCULATION RANGE (miles) (OL) 1/m'.2 NW Instantaneous 0.97 1.3 X 10 WNW X 10 Quarterly for 0.97 A,B Annual Reports 0.97 A 1/31 days, B 0.97 NW Qtr. yearly, 1.3 X 10 Annual Total Dose 0.97 WNW 82 X 10 (OL) Over land areas only (A) To be determined by reduction of actual met data occurring during each quarter (B) For Tritium in the Milk Animal Pathway, the (X/Q)o value should be that of the respective controlling sector and range where the Milk Animal is located as per Table M-3. Example: If a cow was located at 4,25 miles in NW sector, use the (X/Q)o for 4,25 miles NW.

Page 161 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-3 Selecting the Appropriate Long Term (D/Q) for Dose Calculations Involving Radioiodines and 8D Particulates for Grass-Cow-Milk or Grass-Goat-Milk:

TYPE OF DOSE (D/Q) Value LIMITINGRANGE LIMITINGSECTOR CALCULATION Release Rate 1/I'.

1/31 Days Quarterly - Yearly Annual (Calendar Year)

Annual Report The worst cow or goat as per locations from land census. If no milk animal in any sector, assume a cow at 4.25 miles in the highest (D/Q) sector over land.

B. The historical (D/Q) of all land sectors with the worst cow or goat from each sector as reported in the Land Census. A 4.25 mile cow should be assumed in the worst sector over land when no milk animal is reported.

C. The highest (D/Q) at a milk animal location of all milk animals reported in the Land Census Report. (If no milk animals within 5 miles a 4.25 mile cow should be assumed in the sector having the highest (D/Q) at 4.25 miles over land). Actual Met Data should be used for the selection of the worst case milk animal and for the dose calculations. If both goat and milk animals are reported inside 5 miles, dose calculations should be performed on each animal and the higher dose animal contribution should be used, The historical wind frequency fractions for each sector are listed in Table M-8.

Page 162 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE M-4 TERRAIN CORRECTION FACTORS Florida Power &, Light Company St. Lucie Unit 1 Terrain Correction Factors (PUFF / STRAIGHT LINE)

Hutchinson Island, Florida Period of Record: 8/29/77 to 8/31/78 Dames and Moore Job No: 4598-112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 '.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64 NNE 0. 1.906 1.576 1.465 1.404 1.338 1.318 1.334 1.386 1.346 1.338 NE 1.887 1.581 1.461 1.391 1.310 1.259 1. I 64 1.128 1.101 1.116 ENE 1.452 1.230 1.122 1.081 1.047 1.033 .941 .941 .906 .902 1.662 1.425 1.277 1.193 1.151 1.123 1.097 1.121 1.123 -

1.122 ESE 0. I.690 1.483 1.328 1.260 1.246 1.190 1.134 1.094 1.032 .968 SE 1.818 1.691 1.470 1.427 1.435 1.361 1.366 1.331 1.279 1.239 SSE 0. 1.812 1.586 1.370 1.302 1.270 1.263 1.229 1.193 1.171 1.151 1.398 1.321 1.125 1.083 1.108 1.127 1.073 1.063 1.047 1.024 SSW 0. 1.534 1.411 1.296 1.192 1.205 1.132 1.135 1.'I 16 1.077 1.060 SW 0. 1.685 1.492 1.294 1.233 1.200 1.222 1.160 1.160 1.198 1.196 WSW 0. 1.620 1.333 1.210 1.173 1.082 1.091 1.099 1.056 1.034 1.004 W 0. 1.651 1.415 1.290 1.218 1.154 1.099 1.081 1.067 1.093 1.083 WNW 0. 1.720 1.430 1.267 1.185 1.150 1.133 1.125 1.085 1.033 1.045 NW 1.681 1.407 1.257 1.173 1.119 1.078 1.063 .995 998 978 NNW 0. 1.739 1.488 1.316 1.212 1.172 1.122 1.135 1.080 1.099 1.091

0. 1.816 1.524 1.389 1.285 1.257 1.263 1.285 1.267 1.231 1.213 Note 1: Any interpolations between stated mileages will be done by log-log

Page 163 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE M-5 HISTORICAL LONG TERM - X/Q Fre uenc corrected Terrain / Recirculation Adjusted Program ANNXOQ9 Version - 11/18/76 Florida Power & Light Company St. Lucie Unit 1 Average Annual Relative Concentration (sec/cubic meter)

Hutchinson Island, Florida Period of Record: 9/1/76 to 8/31/78 Dames and Moore Job No: 1.4598-112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75

, SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64 NNE 1.1E-05 1.7E-06 7.8E-07 4.5E-07 3.1E-07 2.2E-07 1.7E-07 1.5E-07 1.2E-07 1.0E-07 NE 0. 1.3E-05 2.1E-06 8.9E-07 5.1E-07 3.4E-07 2.4E-07 1.7E-07 1.4E-07 1.1E-07 9.8E-OB ENE 0. 9.3E-06 1.4E-06 6.2E-07 3.7E-07 2.5E-07 1.9E-07 1.3E-07 1.1E-07 B.BE-OB 7.5E-OB

0. 9.8E-06 1.6E-06 6.5E-07 3.7E-07 2.5E-07 1.8E-07 1.4E-07 1.2E-07 9.9E-OB 8.4E-OB ESE 1.2E-05 1.9E-06 8.1E-07 4.8E-07 3.2E-07 2.4E-07 1.8E-07 1.4E-07 1.1E-07 9.0E-OB SE 0. 1.4E-05 2.4E-06 9.7E-07 5.7E-07 4.0E-07 2.9E-07 2.3E-07 1.9E-07 1.4E-07 1.26-07 SSE 1.1E-05 1.7E-06 7.3E-07 4.3E-07 2.9E-07 2.1E-07 1.6E-07 1.3E-07 1.1E-07 9.1E-OB 6.2E-06 1.0E-06 4.2E-07 2.5E-07 1.8E-07 1.4E-07 1.0E-07 B.OE-OB 6.6E-OB 5.5E-OB SSW 5.7E-06 9.0E-07 4.0E-07 2.3E-07 1.6E-07 1.1E-07 8.9E-OB 7.0E-OB 5.7E-OB 4.8E-OB SW 6.1E-06 9.4E-07 3.9E-07 2.2E-07 1.6E-07 1.1E-07 8.6E-OB 7.0E-OB 6.0E-OB 5.1E-OB WSW 7.3E-06 1.1E-06 4.6E-07 2.7E-07 1.7E-07 1.3E-07 1.0E-07 B.OE-OB 6.5E-OB 5.4E-OB W 7.6E-06 1.2E-06 5.2E-07 2.9E-07 2.0E-07 1.3E-07 1.0E-07 8.4E-OB 7.2E-OB 6.1E-OB WNW 1.4E-05 2.1E-06 9.1E-07 5.2E-07 3.4E-07 2.6E-07 2.0E-07 1.5E-07 1.2E-07 1.0E-07 NW 1.6E-05 2.4E-06 1.0E-06 5.9E-07 3.9E-O? 2.8E-07 2.1E-07 1.7E-07 1.4E-07 1.2E-07 NNW 0. 1.5E-05 2.2E-06 9.6E-07 5.5E-07 3.6E-07 2.6E-07 2.0E-07 1.6E-07 1.3E-07 1.2E-07
0. 9.1E-06 1.4E-06 6.3E-07 3.6E-07 2.4E-07 1.8E-07 1.4E-07 1.2E-07 9.4E-OB 7.9E-OB Number of Valid Observations = 17135 Number of Calms Lower Level = 95 Number of Invalid Observations = 385 Number of Calms Upper Level = 0 Note 1 - Any interpolations between stated mileages will be done by log-log

Page 164 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-6 HISTORICAL LONG TERM DEPLETED - X/Q Fre uenc corrected Terrain / Recirculation Adjusted Program ANNXOQ9 Version - 11/1 8/76 Florida Power 8 Light Company St. Lucie Unit 1 Average Annual Relative Concentration Depleted (sec/cubic meter)

Hutchinson Island, Florida Period of Record: 9/1/76 to 8/31/78 Dames and Moore Job No: 4598 - 112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64 NNE 1.1E-05 1.6E-06 6.6E-07 3.8E-07 2.4E-07 1.7E-07 1.3E-07 1.1E-07 9.2E-OB 7.6E-OB NE 1.2E-05 1.7E-06 7.6E-07 4.3E-07 2.8E-07 1.9E-07 1.4E-07 1.1E-07 8.6E-OB 7.4E-OB ENE 0. 8.9E-06 1.2E-06 5.3E-07 3.0E-07 2.0E-07 1.4E-07 1.0E-07 8.4E-OB 6.6E-OB 5. E-08

0. 9.1E-06 1.3E-06 5.6E-07 3.1E-07 2.1E-07 1.5E-07 1.1E-07 9.1E-OB 7.5E-OB 6.3E-OB ESE 1.2E-OS 1.6E-06 6.9E-07 3.9E-07 2.6E-07 1.9E-07 1.4E-07 1.1E-07 8.5E-OB 6.7E-OB SE 0. 1.3E-05 2.0E-06 8.2E-07 4.7E-07 3.3E-07 2.3E-07 1.8E-07 1.3E-07 1.1E-07 9.0E-OB SSE 0. 1.1E-05 1.6E-06 6.3E-07 3.5E-07 2.4E-07 1.8E-07 1.4E-07 1.0E-07 8.2E-OB 6.8E-OB
0. 5.9E-06 9.1E-07 3.6E-07 2.1E-07 1.4E-07 1.1E-07 7.7E-OB 6.2E-OB 5.0E-OB 4.1E-OB SSW 0. 5.4E-06 B.OE-07 3.4E-07 1.9E-07 1.3E-07 8.9E-OB 6.9E-OB 5.5E-OB 4.3E-OB 3.6E-OB SW 0. 5.7E-06 8.4E-07 3AE-07 1.8E-07 1.2E-07 9.2E-OB 6.7E-OB 5.3E-OB 4.6E-OB 3.8E-OB WSW 7.0E-06 9.6E-07 4.0E-07 2.2E-07 1.4E-07 1.0E-07 B.OE-OB 6.1E-OB 5.0E-OB 4.0E-OB W 0. 7.3E-06 1.1E-06 4.4E-07 2.4E-07 1.6E-07 1.1E-07 8.2E-OB 6.4E-OB 5.5E-OB i 4.4E-OB WNW 1.3E-05 1.9E-06 7.9E-07 4.4E-07 2.9E-07 2.0E-07 1.6E-07 1.2E-07 9.3E-OB 7.8E-OB NW 0. 1.5E-05 2.1E-06 8.9E-07 4.9E-07 3.1E-07 2.3E-07 1.7E-07 1.3E-07 1.0E-07 8.5E-OB NNW 0. 1.4E-05 2.1E-06 8.3E-07 4.5E-07 2.9E-07 2.0E-07 1.6E-07 1.2E-07 1.0E-07 B.BE-OB
0. 8.7E-06 1.3E-06 5.4E-07 3.0E-07 2.0E-07 1.4E-07 1.1E-07 8.9E-OB 7.0E-OB 5.8E-OB Number of Valid Observations = 17135 Number of Calms Lower Level = 95 Number of Invalid Observations = 385 Number of Calms Upper Level = 0 Note 1 - Any interpolations between stated mileages will be done by log-log

Page 165 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-7 HISTORICAL LONG TERM - D/Q Fre uenc corrected TERRAIN / RECIRCULATION ADJUSTED PROGRAM ANNXOQ9 VERSION - 11/18/76 Florida Power & Light Company St. Lucie Unit 1 Average Annual Relative Deposition Rate (square meter - 1)

Hutchinson Island, Florida Period of Record: 9/1/76 to 8/31/78 Dames and Moore Job No: 4598 - 112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 ~ 6.84 7.64 NNE 0. 6.5E-OB 9.3E-09 3.7E-09 2.1E-09 1.3E-09 9.0E-10 6.8E-10 5.5E-10 4.3E-10 3.5E-10 NE 6.0E-OB 8.9E-09 3.5E-09 1.9E-09 1.2E-09 8.1E-10 5.6E-10 4.3E-10 3.3E-10 2.8E-10 ENE 0. 3.2E-OB 4.8E-09 1.9E-09 1.0E-09 6.6E-10 4.6E-10 3.2E-10 2.4E-10 1.9E-10 1.5E-10 3.0E-OS 4.6E-09 1.8E-09 9.5E-10 6.0E-10 4.2E-10 3.1E-10 2.5E-10 2.0E-10 1.6E-10 ESE 3.7E-OB 5.8E-09 2.3E-09 1.2E-09 B.OE-1 0 5.4E-10 3.9E-10 3.0E-10 '.2E-10 1.7E-10 SE 6.4E-OB 1.0E-OB 4.0E-09 2.1E-09 1.4E-09 9.7E-10 7.2E-10 5.6E-10 4.3E-10 3.5E-10 SSE 0. 6.2E-OB 9.5E-09 3.6E-09 2.0E-09 1.2E-09 8.7E-10 6.4E-10 4.9E-10 3.9E-10 3.1E-10 4.2E-OB 7.0E-09 2.6E-09 1.4E-09 9.5E-10 6.9E-10 4.9E-10 3.8E-10 3.0E-10 2.5E-10 SSW 0. 3.4E-OB 5.4E-09 2.2E-09 1.1E-09 7.5E-10 5.0E-1 0 3.7E-10 2.9E-10 2.3E-10 1.8E-10 SW 0. 4.5E-OB 7.0E-09 2.6E-09 1.5E-09 9.0E-10 6.6E-10 4.6E-10 3.6E-10 3.0E-10 2.5E-10 WSW 5.3E-OS 7.7E-09 3.0E-09 1.6E-09 1.0E-09 7.3E-10 5.5E-10 4.1E-10 3.3E-10 2.6E-10 W 5.0E-OS 7.5E-09 3.0E-09 1.6E-09 9.8E-10 6.7E-10 5.0E-10 3.8E-10 3.2E-10 2.6E-10 WNW 0. B.BE-OS 1.3E-OB 4.9E-09 2.6E-09 1.7E-09 1.1E-09 8.7E-10 6.6E-10 5.1E-10 4.2E-10 NW 8.2E-OB 1.2E-OS 4.7E-09 2.5E-09 1.6E-09 1.1E-09 7.9E-10 5.8E-10 4.7E-10 3.8E-10 NNW 0. 8.2E-OB 1.2E-OB 4.6E-09 2.4E-09 1.5E-09 1.1E-09 8.1E-10 5.9E-10 4.8E-10 4.0E-10

0. 5.1E-OB 7.3E-09 2.9E-09 1.5E-09 9.8E-10 7.1E-10 5.4E-10 4.2E-10 3.2E-10 2.7E-10 Number of Valid Observations = 17135 Number of Calms Lower Level = 95 Number of Invalid Observations = 385 Number of Calms Upper Level = 0 Note 1 - Any interpolations between stated mileages will be done by log-log

Page 166 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-8 Joint Wind Frequency Distribution Data Period: September 1, 1976 - August 31, 1978 All Winds St. Lucie Unit 2 Data Source:. On-Site Hutchinson Island, Florida Wind Sensor Height 10.00 Meters Florida Power 8 Light Co.

Table Generated: 12/05/78. 07.42.18. Dames and Moore Job No: 4598 - 112 - 27 Wind Speed Categories (Meters per Second)

WIND 0.0- 1.5- 3.0- 5.0- 7.5-SECTOR 1.5 3.0 5.0 7.5 10.0 >10.0 TOTAL'EAN SPEED NNE 71 206 318 71 3 0 669 1.25 1.92 3.32 02 0.00 4.05 62 292 385 128 0 0 867 NE

.38 1.77 2.33 0.00 0.00 5.25 ENE 60 334 505 158 0 0 1057

.36 2.02 3.06 3.51

.96 0.00 0.00 6AO 69 355 510 76 0 0 1010

.42 2.15 3.09 .46 3.25 0.00 0.00 6.11 "115 684 744 72 1 0 1616 ESE 3.04

.70 4.14 4.50 01 0.00 9.78 183 660 749 28 0 0 1620 SE 2.88 1.11 3.99 4.53 .17 0.00 0.00 9.81 129 579 656 93 1 0 1458 SSE 3.10

.78 3.50 3.97 .56 01 0.00 8.82 72 310 407 99 8 1 897 1.88 2.46 3.36

.60 05 .01 5.43 SSW 372 446 105 33 4 1044

.51 2.25 2.70 .20 .02 6.32 129 440 336 106 14 0 1025 SW 3.10

.78 2.66 2.03 08 0.00 6.20 155 320 186 29 5 0 695 WSW 2.59

.94 1.94 1.13 .18 03 0.00 4.21 174 267 119 37 2 0 599 W

1.05 1.62 .72 01 0.00 3.63 203 304 172 17 0 0 696 WNW 1.23 1.84 1.04 10 0.00 0.00 4.21 NW 143 518 424 50 0 1135

.87 3.14 2.57 .30 2.85 0.00 0.00 6.87 85 379 535 70 1 0 1070 NNW

.51 2.29 3.24 .42 01 0.00 6.46 91 194 531 148 5 0 969

.55 1.17 3.21 .90 .03 3.69 0.00 5.86 95 95 CALM CALM

.57 .57 TOTAL 1920 6214 7023 1287 73 5 16522 11.62 37.61 42.51 7.79 3.10

.03 100.00 NUMBER OF VALIDOBSERVATIONS 16522 94.30 PCT. Key XXX Number of Occurrences NUMBER OF INVALIDOBSERVATIONS 988 5.70 PCT. XXX Percent Occurrences TOTAL NUMBER OF OBSERVATIONS 17520 100.00 PCT

' Totals below are given in hours & percent for wind frequency by sectors

Page 167 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX B LIMITED ANALYSIS DOSE ASSESSMENT FOR LIQUID RADIOACTIVE EFFLUENTS The radioactive liquid effluents for the years 1978, 1979 and 1980 were evaluated to determine the dose contribution of the radionuclide distribution. This analysis was performed to evaluate the use of a limited dose analysis for determining environmental doses, Limiting the dose calculation to a few selected radionuclides that contribute the majority of the dose provides a simplified method of determining compliance with the dose limits of Control 3.11.1.2.

Tables B-1 and B-2 present the results of this evaluation. Table B-1 presents the fraction of the adult whole body dose contributed by the major radionuclides. Table B-2 presents the same data for the adult Gl-LLI dose. The adult whole body and adult Gl-LLI were determined to be the limiting doses based on an evaluation of all age groups (adult, teenager, child and infant) and all organs (bone, liver, kidney, lung and Gl-LLI). As the data in the tables show, the radionuclides Fe-59, Co-58, Co-60, Zn-65, Cs-134 and Cs-137 dominate the whole body dose; the radionuclides, Fe-59, Co-58, Co-60, Zn-65 and Nb-95 dominate the Gl-LLI dose. In all but one case (1979-fish, Gl-LLI dose) these radionuclides contribute 90% or more of the total dose. If for 1979 the fish and shellfish pathways are combined as is done to determine the total dose, the contribution from these nuclides is 84%" of the total Gl-LLI dose.

Therefore, the dose commitment due to radioactive material in liquid effluents can be reasonably estimated by limiting the dose calculation to the radionuclides, Fe-59, Co-58, Co-60, Zn-65, Nb-95, Cs-134 and Cs-137, which cumulatively contribute the majority of the total dose calculated by using all radionuclides detected. This limited analysis dose assessment method is a simplified calculation that provides a reasonable evaluation of doses due to liquid radioactive effluents and allows for an estimate of Fe-55 contribution to dose.

Tritium is not included in the limited analysis dose assessment for liquid releases because the potential dose resulting from normal reactor releases is negligible and is essentially independent of radwaste system operation. The amount of tritium releases annually is about 300 curies. At St. Lucie, 300 Ci/yr released to the Atlantic Ocean produces a calculated whole body dose of 5 X 10'rem/yr via the fish and shellfish pathways. This amounts to less than 0.001% of the design objective dose of 3 mrem/yr.

Furthermore, the release of tritium is a function of operating time and power level and is essentially unrelated to radwaste system operation.

The dose due to Iron -55 made it necessary to change the conservatism factor from 0.8 to 0.6, which was done on Revision 7 to the ODCM, based on early 1986 data.

Page 168 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE B-1 ADULT WHOLE BODY DOSE CONTRIBUTIONS FRACTION OF TOTAL 1978 1979 1980 RADIONUCLIDE FISH SHELLFISH FISH SHELLFISH FISH SHELLFISH Co-58 0.08 0.27 0.06 0.28 0.02 0.05 Co%0 0.05 0.19 0.03 0.15 0.20 044 Fe-59 0.10 0.25 0.04 0.13 0.15 0.22 Zn-65 0.01 0.10 0.02 0.19 0.04 0.20 Cs-134 0.31 0.07 0.46 0.14 0.27 0.04 Cs-137 0.42 0.10 0.38 0.11 0.30 0.04 TOTAL 0.97 0.98 0.99 1.00 0.98 0.99 TABLE B-2 ADULT Gl-LLI DOSE CONTRIBUTION FRACTION OF TOTAL 1978 1979 1980 RADIONUCLIDE FISH SHELLFISH FISH SHELLFISH FISH SHELLFISH Co-58 0.03 0.36 0.25 044 0.01 0.07 Co-60 0.02 0.23 0.12 0.22 0.05 0.57 Fe-59 0.03 0.31 0.16 0.19 0.04 0.29 ZA-65 0.01 0.02 0.01 0.05 0.01 0.04 Nb-95 0.89 0.01 0.21 0.01 0.88 0.01 TOTAL 0.98 0.92 0.75 0.90 0.97 0.97

Page 169 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX C TECHNICAL BASES FOR EFFECTIVE DOSE FACTORS Overview The evaluation of doses due to releases of radioactive material to the atmosphere can be simplified by the use of effective dose transfer factors instead of using dose factors which are radionuclide specific. These effective factors, which are based on the typical radionuclide distribution in the releases, can be applied to the total radioactivity released to approximate the dose in the environment, i.e., instead of having to sum the isotopic distribution multiplied by the isotope specific dose factor only a single multiplication (K,,

M ff or N,) times the total quantity of radioactive material released would be needed.

This approach provides a reasonable estimate of the actual dose while eliminating the need for a detailed calculational technique.

Determination of Effective Dose Factors The effective dose transfer factors are based on past operating data. The radioactive effluent distribution for the past years can be used to derive single effective factors by the following equations:

Z K,=.K, f, (C-1)

Where:

the effective total body dose factor due to gamma emissions from all noble gases released the total body dose factor due to gamma emissions from each noble gas radionuclide i released the fractional abundance of noble gas radionuclide i is of the total noble gas radionuclides

Page 170 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO,C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX C TECHNICAL BASES FOR EFFECTIVE DOSE FACTORS (continued)

(L + 1.1 M),ff = . (L, + 1.1 M) ~

f, (C-2)

Where:

(L+1.1 M),= the effective skin dose factor due to beta and gamma emissions from all noble gases released (I. + 1.1 M.,) = the skin dose factor due to beta and gamma emissions from each noble gas radionuclide i released M IF = Z ~ (C-3)

~

MI f/

Where:

the effective air dose factor due to gamma emissions from all noble gases released M, the air dose factor due to gamma emissions from each noble gas radionuclide i released Z (C-4)

Nff = ~

NI ~

f/

Where:

the effective air dose factor due to'beta emissions from all noble gases released the air dose factor due to beta emissions from each noble gas radionuclide i

Page 171 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX C TECHNICAL BASES FOR EFFECTIVE DOSE FACTORS (continued)'o determine the appropriate effective factors to be used and to evaluate the degree of variability, the atmospheric radioactive effluents for the past 3 years have been evaluated. Tables C-1 and C-2 present the results of this evaluation.

As can be 'seen from Tables C-1 and C-2, the effective dose transfer factors varies little from year to year. The maximum observed variability from the average value is 18%.

This variability is minor considering other areas of uncertainty and conservatism inherent in the environmental dose calculation models.

To provide an additional degree of conservatism, a factor of 0.8 is introduced into the dose calculation process when the effective dose transfer factor is used. This added conservatism provides additional assurance that the evaluation of doses by the use of a single effective factor will not significantly underestimate any actual doses in the environment.'eevaluation

'he doses due to the gaseous effluents are evaluated by the more detailed calculation methods (i.e., use of nuclide specific dose factors) on a yearly basis. At this time a comparison can be made between the simplified method and the detailed method to assure the overall reasonableness of this limited analysis approach. If this comparison indicates that the radionuclide distribution has changed significantly causing the simplified method to underestimate the doses by more than 20%, the value of the effective factors will need to be reexamined to assure the overall acceptability of this approach. However, this reexamination will only be needed if the doses as calculated by the detailed analysis exceed 50% of the design bases doses (i.e., greater than 5 mrads gamma air dose or 10 mrads beta air dose).

t In any case, the appropriateness of the A,value will be periodically evaluated to assume the applicability of a single effective dose factor for evaluating environmental doses.

Page 172 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE C-1 EFFECTIVE DOSE FACTORS NOBLE GASES-TOTAL BODY AND SKIN DOSES TOTAL BODY EFFECTIVE SKIN EFFECTIVE DOSE FACTOR DOSE FACTOR YEAR Ketf (L+1.1M),

mrem-m'i- mrem-m'i-r r

'I 978 73 X 10 1.4 X 10 1979 7.4 X 10 1.4 X 10 1980 56 X 10 1.2 X 10 AVERAGE 68 X 10 1.3 X 10 TABLE C-2 EFFECTIVE DOSE FACTORS NOBLE GASES - AIR DOSES GAMMAAIR EFFECTIVE BETA AIR EFFECTIVE DOSE FACTOR DOSE FACTOR YEAR M, N, mrad-m mrad-m'l-Ci- r r 1978 80 X 10 1.2 X 10 1979 80 X 10 1.2 X 10 1980 6.2 X 10 1.2 X 10 AVERAGE 7.4 X 10 1.2 X 10

Page 173 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16.

OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX D TECHNICAL BASES FOR ELIMINATINGCURIE INVENTORY LIMIT FOR GASEOUS WASTE STORAGE TANKS The NRC Standard Technical Specifications include a limit for the amount of radioactivity that can be stored in a single waste gas storage tank. This curie inventory limit is established to assure that in the event of a tank failure releasing the radioactivity to the environment the resulting total body dose at the site boundary would not exceed 0.5 rem.

For St. Lucie, the inventory limit in the waste gas storage tank has been determined to be approximately 285,000 curies (Xe-133, equivalent). An allowable primary coolant radioactivity concentration is established by the Appendix A Technical Specifications which limits the primary coolant radioactivity concentrations to 100/E with E being the average energy of the radioactivity in Mev. This equation yields an upper primary coolant gross activity limit of about 160 pCI/ml. By applying this activity concentration limit to the total liquid volume of the primary system, a total activity limit can be determined. For St. Lucie the primary system volume is about 70,000 gallons, which yields a limiting total inventory of approximately 43,000 Ci ~

By assuming a typical radionuclide. distribution an equivalent Xe-133 inventory can be determined. Table D-1 provides the typical radionuclide (noble gases) distribution and

~

the Xe-133 equivalent concentration. The equivalent concentration is determined by

~

~ ~

multiplying the radionuclide concentration by the ratio of the nuclide total body dose factor to the Xe-133 total body dose factor. Summing all the individual radionuclide equivalent concentrations provides the overall reactor coolant Xe-133 equivalent concentration. The data show that the equivalent concentration is a factor of 2 larger than the gross concentration (i.e., 24 pCI/gm total versus 47 pCI/gm equivalent). The resulting Xe-133 equivalent curie inventory of the reactor coolant system is approximately 86,000 Ci.

Therefore, even if the total primary system at the maximum Tech. Spec. allowable concentration was degassed to a single waste gas decay tank, the tank curie inventory would be well below the 285,000 Ci limit. Based on this evaluation, the curie inventory limit on a single waste gas storage tank cannot exceed the Technical Specification requirement.

Page 174 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE D-1 REACTOR COOLANT - XE-133 EFFECTIVE CONCENTRATION REG. GUIDE 1.109 ~ Xe-133 REACTOR TOTAL BODY DF RATIO EFFECTIVE COOLANT'ONCENTRATION

~mreml r TB DF CONCENTRATION RADIONUCLIDE (pCI/gm) (pCI/ml) Xe-133 DF (p,Ci/gm)

Kr-85m 0.19 1.2 X 10 4.1 0.78 Kr-85 0.83 1.6 X 10 0.06 0.05 Kr-87 0.16 5.9 X 10 20. 3.2 Kr-88 0.31 1.5 X 10'2

52. 16.

Xe-131m 8.8 X 10 0.32 2.8 Xe-133m 0.20 25 X 10 0.86 0.17 Xe-133 12. 2.9 X 10 1.0 12.

Xe-135m 0.11 3.1 X 10 1.2 Xe-135 1.2 1.8 X 10 6.2 7.4 Xe-137 0.02 1.4 X 10 4.8 0.1 Xe-138 0.12 8.8 X 10 30. 3.6 TOTALS 24. 47.

  • Data adapted from the NRC GALE Code

Page 175 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMATE SAMPLES DIRECT PATHWAY LOCATION DESCRIPTION COLLECTION DISTANCE COLLECTED SECTOR FREQUENCY (miles)

Direct Radiation N-1 North of Blind Creek TLD Quarterly Direct Radiation NNW-5 South of Pete Stone Creek TLD Quarterly NNW Direct Radiation NNW-10 C. G. Station TLD Quarterly NNW Direct Radiation NW-5 Indian River Drive at Rio Vista Drive TLD Quarterly NW Direct Radiation NW-10 Intersection of SR68andSR607 TLD Quarterly 10 NW Direct Radiation WNW-2 Cemetery South of 7107 Indian River Drive TLD Quarterly WNW Direct Radiation WNW-5 US-1 at SR 712 TLD Quarterly WNW Direct Radiation WNW-10 SR 70, Westof Turnpike TLD Quarterly 10 WNW Direct Radiation W-2 7609 Indian River Drive TLD Quarterly W Direct Radiation W-5 Oleander and Sager Streets TLD Quarterly W Direct Radiation W-10 I-95 and SR 709 TLD Quarterly W Direct Radiation WSW-2 8503 Indian River Drive TLD Quarterly WSW Direct Radiation WSW-5 Prima Vista Blvd. at Yacht Club TLD Quarterly WSW Direct Radiation WSW-10 DelRioandDavis Streets TLD Quarterly 10 WSW Direct Radiation SW-2 9207 Indian River Drive TLD Quarterly SW Direct Radiation SW-5 US 1 and Village Green Drive TLD Quarterly SW Direct Radiation SW-10 Port St. Lucie Blvd. and Cairo Road TLD Quarterly 10 SW Direct Radiation SSW-2 10307 Indian River Drive TLD Quarterly SSW

Page 176 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATIONMANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE (continued)

ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMATE SAMPLES DIRECTION PATHWAY LOCATION DESCRIPTION COLLECTION DISTANCE COLLECTED SECTOR FREQUENCY (miles)

Direct Radiation SSW-5 Port St. Lucie Blvd. and US 1 TLD Quarterly SSW Direct Radiation SSW-10 Pine Valley and Westmoreland Roads TLD Quarterly SSW Direct Radiation S-5 13179 Indian River Drive TLD Quarterly Direct Radiation S-10 US 1 and SR 714 TLD Quarterly IO Direct Radiation S/SSE-10 Indian River Drive and Quail Run Lane TLD Quarterly 10 SSE Direct Radiation SSE-5 Entrance of Nettles Island TLD Quarterly SSE Direct Radiation SSE-10 Elliot Museum TLD Quarterly 10 SSE Direct Radiation SE-1 South of Cooling Canal TLD Quarterly SE Direct Radiation 'H-32 U. of Florida - 1FAS Entomology Lab Vero Beach TLD Quarterly 19 NNW Radioiodine &

Airborne H08 FPL Substation - Weatherby Road Weekly WNW Particulates Radioiodine 8 Airborne *H12 FPL Substation - SR 76, Stuart Weekly 12 Particulates Radioiodine 8 Airborne H14 Onsite - near south property line Weekly SE Particulates Radioiodine &

Airborne H30 Power Line - 7609 Indian River Drive Weekly W Particulates

'Denotes Control Sample

Page 177 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE (continued)

ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMATE SAMPLES DIRECTION PATHWAY LOCATION DESCRIPTION COLLECTION DISTANCE COLLECTED SECTOR FREQUENCY (miles)

Radioiodine 8 Airborne H34 Onsite - At Meteorological Tower Weekly 0.5 Particulates Surface Water Weekly Atlantic Ocean vicinity of public beaches east side (ocean)

Waterborne H15 ENE/E/ESE of Route A1A Sediment from Semi-Annually shoreline Surface Water Monthly

  • H59 (ocean) 10-20 Waterborne Near south end of Hutchinson Island ~ S/SSE Sediment from Semi-Annually shoreline Crustacea Semi-Annually Food Products H15 Ocean side vicinity of St. Lucie Plant (NOTE 1) -i <1 ENE/E/ESE Fish Semi-Annually Broad Leaf Monthly Food Products H51 Offsite near north property line vegetation (when N/NNW (mangrove) available)

"Denotes control sample

Page 178 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE (continued)

ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMATE DIRECTION PATHWAY LOCATION DESCRIPTION COLLECTION DISTANCE SECTOR FREQUENCY (mlles)

Broad leaf Monthly Food Products H52 Offsite near south property line vegetation (when S/SSE (mangrove) available)

Crustacea Semi-Annually Fish Semi-Annually Food Products *H59 Near south end of Hutchinson Island Broad leaf Monthly 10-20 S/SSE vegetation (mangrove)

'Denotes control sample It is the policy of Florida Power & Light Company (FPL) that the St. Lucie 1 & 2 Radiological Environmental Monitoring Programs are conducted by the State of Florida Department of Health and Rehabilitative Services (DHRS), pursuant to an Agreement between FPL and DHRS and; that coordination of the Radiological Environmental Monitoring Programs with DHRS and compliance with the Radiological Environmental Monitoring Program Controls are the responsibility of the Nuclear Energy Services Department.

I NOTE 1 These samples may be collected from or supplemented by samples collected from the plant intake canal if the required analyses are unable to be performed due to unavailability or inadequate quantity of sample from the ocean side location.

Page 179 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM FIGURE 1-1 SITE AREA MAP & ENVIRONMENTALSAMPLE LOCATIONS N-1 I

H5 1 Blind Creek CC

)

LU CC

..' H34 WNW-2 Inset Detail p+

e+

Gg CR~

O X" H15 EXCLUSION AREA (0.97 ml)

H30 AND LOW UNIT 1 W POPULATION ZONE (1 mi)

NOTES:

+ UNIT 2 A1

1) L-Uquld Radwaste Release Point
2) Due to the sos'f the r SE Rgure the Exchrtdcn Area Radius (087 mile) and the Low Populadon Zone (1 mlle) area shown as being the same slzs.

A m

FPL's Property Line

~ H14l .

WSW-2 H52[,

(C-200A. WPG)

SCALE IN MllES

Page 180 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM FIGURE 1-2 ENVIRONMENTALSAMPLE LOCATIONS 10 MILES NW-10 H32 Vera Brkech (Coreel) k;"" "I /" "" "', '" 10'rrrmil A NNW-10 NNAi

>8 WNW-10 F k

M y EOF W-1 gkfd WSW4 WSW-10 S-10 .

SW 10

't. St.

SktSSE.10 VC eu SSE-10 A

f

'C

'! .,> yr c1

.~i t%,

(C-200RHk1yG)

SSW-10 H12

Page 181 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX F METEOROLOGICAL DISPERSION FORMuLAS'or X/Q:

2.032 EQ (1) cV (a 2z +

7t

)

2.032 EQ (2) z (u)D Where:

=,5 V = 207.5 ft. (63.2 meters)

(u) = a name for one term X/Q was calculated using each of the above EQs for each hour. The highest X/Q from EQ (1) or EQ (2) was selected. The total integrated relative concentration at each sector and distance was then divided by the total number of hours in the data base.

Terrain correction factors given by Table M-4 were also applied to Dispersion Formulas

Page 182 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 16 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX F METEOROLOGICAL DISPERSION FORMuLAS' (continued)

For De leted X/Q:

(X/Q)p (X/Q) X (Depletion factor of Figure 2 of R.G. 1 .1 1 1 -R1 )

~FD ili 0 i0:

D/Q = RDep/(2 sin [11.25] X) X (Freq. distribution)

Where:

D/Q Ground deposition rate Calculation distance RDep = Relative ground deposition rate from Figure 6 of R,G. 1 ~ 111, R1

Page 1 of 182 FLORIDA POWER 8 LIGHT COMPANY ST. LUCIE PLANT PSL CHEMISTRY PROCEDURE NO. C-200 REVISION 17 R I.O TITLE:

OFFSITE DOSE CALCULATION MANUAL(ODCM) PRODUCllON 2.0 REVIEW AND APPROVAL: gr iA~kO'AOVil)

Reviewed by Facility Review Group 4/22 19 82 Approved by C. M. Weth Plant General Manager 4/27 1982 Revision 17 Reviewed by F R G 5/30 1995 Approved by C. L. Burton Plant General Manager 5/30 1995 S OPS DATE DOCT PROCEDURE DOCN C-200 SYS COMP COMPLETED ITM 17

Page 2 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX PAGE INTRODUCTION ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 7 CONTROLS SECTION DEFINITIONS FOR CONTROLS SECTION ~ ~ 9

~ ~ ~ 9 1.3 CHANNEL FUNCTIONAL TEST........,,... 9 1.5 1.6 CHANNEL CALIBRATION CHANNEL CHECK

~ ~ ~

~ ~ ~ 9 1.10 DOSE EQUIVALENT l-131 . 10

... ~.............

~

1.13 FREQUENCY NOTATION ~ ~ 10 1.16 MEMBER(S) OF THE PUBLIC.............. ~ ~ 10 1 17 OFFSITE DOSE CALCULATION MANUAL..... 10

~ ~ ~ ~ ~

1.18 OPERABLE - OPERABILITY 1.19 OPERATIONAL MODE - MODE.......,..... ~ ~ 11 1.23 PURGE - PURGING ~ ~ 11 1.25 RATED THERMAL POWER.... ~..... ~..... ~ ~ 11 1.27 REPORTABLE EVENT 11

~.....,...

~ ~

1,30 SITE BOUNDARY,.......... . 12

~ ~ ~

1.33 SOURCE CHECK 12

~...,...........

~ ~

1.35 THERMAL POWER . ~...~ ~ ~ 12 1.38 UNRESTRICTED AREA ~ ~ 12 1.39 VENTILATIONEXHAUST TREATMENT SYSTEM 12 1.40 VENTING ........ ~................... ~ ~

13 WASTE GAS HOLDUP SYSTEM ........ ~...

~

1.41 ~ ~ 13 3/4 CONTROLS AND SURVEILLANCE REQUIREMENTS 15 3/4.0 APPLICABILITY 15 INSTRUMENTATION RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION ~ ~ 16 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION ~ ~ 21 3/4.11 RADIOACTIVE EFFLUENTS 3/4.11.1 LIQUID EFFLUENTS CONCENTRATION ~ ~ ~ ~ 28 32

~........

~ ~ ~ ~

LIQUID RADWASTE TREATMENT ~ . ~ ~ .. ~, ~ ~ . ~ ~ ~ 33

Page 3 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX CONTROLS SECTION'ONTROL PAGE AND SURVEILLANCE STATEMENTS FOR CONTROL SECTION 3/4.11 RADIOACTIVE EFFLUENTS (Continued) 3/4.11.2 GASEOUS EFFLUENTS DOSE RATE . ~ ~...... ~........,.............,, .,

DOSE - NOBLE GAS... ~.......... ~............. 34'.

38 DOSE - IODINE-131, IODINE-133, TRITIUMS AND RADIONUCLIDES IN PARTICULATE FORM .. 39 3/4.11.3 GASEOUS RADWASTE TREATMENT (NOT USED)

.............. ~ . ~ 40 3/4.11.4 3/4.11.5 TOTAL DOSE ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~

MAJOR CHANGES TO RADIOACTIVE LIQUID, GASEOUS AND

~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ...... 42 SOLID WASTE TREATMENT SYSTEMS (ADMINISTRATIVECONTROL) ~ ~ ~ ~ ~ ~ 44 3/4.11.6 ANNUALRADIOACTIVE EFFLUENT RELEASE REPORT TO THE COMMISSION (ADMINISTRATIVECONTROL) ~ ~ ~ ~ ~ ~ 45 3/4.12 RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM . .,, ~...............,...

.. . 48

... ~.................,.......... ..

~ ~ ~

3/4.12.2 LAND USE CENSUS 57 3/4.12.3 3/4.12.4 INTERLABORATORY COMPARISON PROGRAM ANNUAL RADIOLOGICAL ENVIRONMENTALOPERATING

........... .. 59 REPORT (ADMINISTRATIVECONTROL) .............. .. .. ~ 60 BASES for CONTROLS SECTION 3/4.11 RADIOACTIVE EFFLUENTS 3/4.3.3.9 INSTRUMENTATION .......... ~....... . .. 62

...... ~...........,

~ ~

3/4.11.1 LIQUID EFFLUENTS . ... 63 3/4.11.2 GASEOUS EFFLUENTS .. ~ 65 3/4.11.3 (NOT USED) 3/4.11.4 TOTAL DOSE ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 68 3/4.12 RADIOACTIVE ENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM

... ~... ~...........:... ~...., 70 3/4.12.2 LAND USE CENSUS ~.... ~............. ~.... . 70

~

3/4.12.3 INTERLABORATORYCOMPARISON PROGRAM ~ 71

Page 4 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX CONTROLS SECTION PAGE LIST OF FIGURES for CONTROLS SECTION FIGURE 1-1 SITE AREA MAP 8c ENVIRONMENTALSAMPLE LOCATIONS .... 177 1-2 ENVIRONMENTALSAMPLE LOCATIONS (10 MILES) .......... 178 LIST OF TABLES for CONTROLS SECTION TABLE 1-1 FREQUENCY NOTATION ... 14 3.3 12 RADIOACTIVE LIQUID EFFLUENT MONITORING 3.3-13 INSTRUMENTATION .................... ~............ ...

RADIOACTIVE GASEOUS EFFLUENT MONITORING 17 INSTRUMENTATION,..... ~...,... ~ ~ . ~ ., .. ~.... ~..... ... 22 3.12-1 RADIOLOGICAI ENVIRONMENTALMONITORING PROGRAM .. ... 50 3.12-2 REPORTING LEVELS FOR RADIOACTIVITYCONCENTRATIONS IN ENVIRONMENTALSAMPLES . 53 4.3-8 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS . ~ . 19 4.3-9 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS .. 25 4.11-1 RADIOACTIVE LIQUID WASTE SAMPLING AND ANALYSIS PROGRAM ~...... ~.... .. ~... ..

~ ~ ~ .,... ... 29 4.11-2 'RADIOACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS PROGRAM............................ ... 35 4.12-1 DETECTION CAPABILITIES FOR ENVIRONMENTALSAMPLE ANALYSIS LOWER LIMITOF DETECTION (LLD) ...,,....... ... 54

Page 5 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX METHODOLOGY SECTION PAGE Glossary for Methodology Section ......................... ~....... 73 1.0 LIQUID RELEASES METHODOLOGY ...... 76 1.1 Radioactive Liquid Effluent Model Assumptions ~..... ~ ~ ~ ~ ~ ~ ~ ~ 77 1.2 Determining the Fraction (F) of 10 CFR Part 20 Effluent Concentration Limits (ECL) for a Liquid Release Source ~ . 78 1.3 Determining Setpoints for Radioactive Liquid Effluent Monitors . ~....... ~......... ~........ .. 81 1.4 Determining the Dose for Radioactive Liquid Releases . . ~ 83 1.5 Projecting Dose for Radioactive Liquid Effluents...... .. 87 2.0 Radioactive Releases of Gaseous Effluents .. 88 2.1 Gaseous Effluent Model Assumptions ~............ .. 89 2.2 Determining the Total Body and Skin Dose Rates for Noble Gas Releases and Establishing Setpoints for Effluent Monitors.....................,... ~ ~ ~ ~ ~ ~ ~ ~ ~ 90 2.3 Determining the Radioiodine and Particulate Dose Rate to Any Organ From Gaseous Releases ............ ~ ~ ~ ~ ~ ~ ~ ~ 97 2.3.1 Inhalation . ~................... . .. 99 Ground Plane ........ ~............

~ ~

2.3.2 . 101 2 .3.3 Milk 102 2.3.4 Tritium 104 2.3.5 Total Dose Rate by Release Source... . ~ . 106 2.'4 Determining the Gamma Air Dose for Radioactive Noble Gas Releases ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 06 2.5 Determining the Beta Air Dose for Radioactive Noble Gas Releases ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 1 0 2.6 Determining the Radioiodine and Particulate Dose to Any Organ From Cumulative Releases ~ ~ ~ ~ 0 ~ ~ ~ ~ ~ I 112 DISCUSSION 2.6.1 Inhalation ...... ~... .. ..,....... 115

.......... ~........

~ ~

2.6.2 Ground Plane ~ . 116 2 .6.3 Milk . 117 2.6.4 Tritium (All pathways) 118 2.6.5 Total Organ Dose ...., ~........

.. ~ . 119 2.7 Projecting Dose for Radioactive Gaseous Effluents 120

Page 6 of 182

, ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INDEX METHODOLOGY SECTION PAGE 3.0 40 CFR 190 Dose Evaluation........ ~........ ~..... ~..... ~ . 121 4.0 Annual Report Format .................................... 122 Appendix A - ECL, Dose Factor and Historical Meteorological Tables .. .. ~ ~ .,,... ~, . .. ~...

~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 38 Appendix B - Limited Analysis Dose Assessment for Liquid Radioactive Effluents ........ ~...... ..,...

~ ... 165

~

Appendix C - Technical Bases for Effective Dose Factors 167 Appendix D - Technical Bases for Eliminating Curie Inventory Limit for Gaseous Waste Storage Tanks ~.... . ~ ~..... .... 171 Appendix E - Current R.E.M. Sample Point Locations ..... ~ . ~ 173 Appendix F - Description of Meteorological Dispersion Formulas Utilized for Historical Data and Methodology for Determining Actual MET Data ~ ~ ~ ~ ~ ~ ~ ~ ~ 1 79

Page 7 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INTRODUCTION The ODCM consists of'the Controls Section followed by the Methodology Section.

The Controls Section provides the Control Statements, Limits, ACTION Statements, Surveillance Requirements and BASES for ensuring that Radioactive Liquid and Gaseous Effluents released to UNRESTRICTED AREAS and/or the SITE BOUNDARY will be maintained within the requirements of 10 CFR Part 20, 40 CFR Part 190, 10 CFR 50.36.a and 10 CFR. Part 50 Appendix-I radioactive release criteria. All Control Statements and most Administrative Control Statements in the ODCM are directly tied to and reference the Plant Technical Specification (TS) Administrative Section. The Administrative Control for Major Changes to Radioactive Liquid, Gaseous and Solid Treatment Systems is as per the guidance of NUREG-1301, April 1991, Supplement No. 1 to NRC Generic Letter 89-01. The numbering sequences of Control Statements also follow the guidance of NUREG-1301 as applicable, to minimize differences.

The Methodology Section uses the models suggested by NUREG-0133, November, 1978 and Regulatory Guide 1.109 to provide calculation methods and parameters for determining results in compliance with the Controls Section of the ODCM. Simplifying assumptions have been applied where applicable to provide a more workable document for implementing the Control requirements. Alternate calculation methods may be used from those presented as long as the overall methodology does not change or as long as most up-to-date revisions of the Regulatory Guide 1.109 dose conversion factors and environmental transfer factors are substituted for those currently included and used in this document.

RECORDS AND NOTIFICATIONS All records of reviews performed for changes to the ODCM shall be maintained in accordance with Ql 17-PR/PSL-1. All FRG approved changes to the ODCM, with required documentation of the changes per TS 6.14, shall be submitted to the NRC in the Annual Effluent Release Report. Procedures that directly implement, administer or supplement the requirements of the ODCM Controls and Surveillances are:

I C-01 Schedule for Periodic Test C-02 Schedule for Test Calibrations C-70 Processing Aerated Liquid Waste C-72 Processing Gaseous Wastes The Radiological Environmental Monitoring Program is performed by the State of Florida as per FPL Juno Nuclear Operations Corporate Environmental Procedures.

Page 8 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM CONTROLS AND SURVEILLANCE REQUIREMENTS St. Lucie Plant ODCM Controls

Page 9 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM DEFINITIONS for CONTROLS SECTION OF ODCM The defined terms of this section appear in capitalized type and are applicable throughout these Controls.

ACTION 1.1 ACTION shall be that part of a Control that prescribes remedial measures required under designated conditions.

CHANNEL CALIBRATION 1.4 A CHANNEL CALIBRATIONshall be the adjustment, as necessary, of the channel output such that it responds with the necessary range and accuracy to known values of the parameter which the channel monitors. The CHANNEL CALIBRATIONshall encompass the entire channel including the sensor and alarm and/or trip functions and shall include the CHANNEL FUNCTIONALTEST. The CHANNEL CALIBRATIONmay be performed by any series of sequential, overlapping or total channel steps such that the entire channel is calibrated.

CHANNEL CHECK 1.5 A CHANNEL CHECK shall be the qualitative assessment of channel behavior during operation by observation. This determination shall include, where possible, comparison of the channel indication and/or status with other indications and/or status derived from independent instrument channels measuring the same parameter.

CHANNEL FUNCTIONAL TEST t

1.6 A CHANNEL FUNCTIONALTEST shall be the injection of a simulated signal into the channel as close to the sensor as practicable to verify OPERABILITY of alarm, interlock and/or trip functions. The CHANNEL FUNCTIONAL TEST. shall include adjustments, as necessary, of the alarm, interlock and/or Trip Setpoints such that the setpoints are within the required range and accuracy.

St. Lucie Plant ODCM Controls

Page 10 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATIONMANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM DOSE EQUIVALENT I-131 1.10 DOSE EQUIVALENT l-131 shall be that concentration of I-131 (microCurie/gram) which alone would produce the same thyroid dose as the quantity and isotopic mixture of l-131, l-132, l-133, l-134 and I-135 actually present. The thyroid dose conversion factors used for this calculation shall be those listed in P able III of TID-14844, Calculation of Distance Factors for Power and Test Reactor Sites or Table E-7 of NRC Regulatory Guide 1.109, Revision 1, October 19??].

FREQUENCY NOTATION 1.13 The FREQUENCY NOTATION specified for the performance of Surveillance Requirements shall correspond to the intervals defined in Table 1.1.

MEMBER S OF THE PUBLIC

~

1.17 MEMBER OF THE PUBLIC means an individual in a controlled or unrestricted area,

~

However, an individual is not a member of the public during any period in which the

~

individual receives an occupational dose. ~

OFFSITE DOSE CALCULATION MANUAL 1.18 The OFFSITE DOSE CALCULATION MANUAL (ODCM) shall contain the.

methodology and parameters used in the calculation of offsite doses resulting from radioactive gaseous and liquid effluents, in the calculation of gaseous and liquid effluent monitoring Alarm/Trip Setpoints and in the conduct of the Environmental Radiological Monitoring Program. The ODCM shall also contain (1) the Radioactive Effluent Controls and Radiological Environmental Monitoring Programs required by TS section 6.8.4 and (2) descriptions of the information that should be included in the Annual Radiological Environmental Operating and Annual Radioactive Effluent Release Reports required by TS 6.9.1.7 and 6.9.1.8.

St. Lucie Plant ODCM Controls

Page 11 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM OPERABLE - OPERABILITY 1.19 A system, subsystem, train, component or device shall be OPERABLE or have OPERABILITY when it is capable of performing its specified function(s) and when all necessary attendant instrumentation, controls, electrical power, cooling or seal water, lubrication or otherwuxiliary equipment that are required for the system, subsystem, train, component or device to perform its function(s) are also capable of performing their related support function(s) ~

OPERATIONAL MODE - MODE 1.20 An OPERATIONAL MODE (i.e., MODE) shall correspond to any one inclusive combination of core reactivity condition, power level and average reactor coolant temperature specified in Table 1.2 of the St. Lucie Plant TS.

PURGE - PURGING 1.24 PURGE or PURGING shall be any controlled process of discharging air or gas from a confinement to maintain temperature, pressure, humidity, concentration or other operating condition, in such a manner that replacement air or gas is required to purify the confinement.

RATED THERMAL POWER 1.25 RATED THERMAL POWER shall be a total reactor core heat transfer rate to the reactor coolant of 2700 MWt.

C REPORTABLE EVENT 1.27 A REPORTABLE EVENT shall be any of those conditions specified in Section 50.73 of 10 CFR Part 50.

St. Lucie Plant ODCM Controls

Page 12 of 182 ST. LUCIE PLANT

'CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM SITE BOUNDARY 1.30 SITE BOUNDARY means that line beyond which the land or property is not owned, leased or otherwise controlled by the licensee.

SOURCE CHECK 1.31 A SOURCE CHECK shall be the qualitative assessment of channel response when the channel sensor is exposed to a radioactive source.

THERMAL POWER 1.33 THERMAL POWER shall be the total reactor core heat transfer rate to the reactor coolant.

UNRESTRICTED AREA 1.35 UNRESTRICTED AREA means an area, access to which is neither limited nor controlled by the licensee.

VENTILATIONEXHAUST TREATMENT SYSTEM 1.39 A VENTILATION EXHAUST TREATMENT SYSTEM shall be any system designed and installed to reduce gaseous radioiodine or radioactive material in particulate form in effluents by passing ventilation or vent exhaust gases through charcoal adsorbers and/or HEPA filters, for the purpose of removing iodines or particulates from the gaseous exhaust stream prior to the release to the environment. Such a system is not considered to have any effect on noble gas effluents. Engineered Safety Features Atmospheric Cleanup Systems are not considered to be VENTILATION EXHAUST TREATMENT SYSTEM components.

St. Lucie Plant ODCM Controls

~

Page 13 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATiON MANUAL ODCM 1.0 DEFINITIONS for CONTROLS SECTION OF ODCM VENTING 1.40 VENTING shall be the controlled process of discharging air or gas from a confinement to maintain temperature, pressure, humidity, concentration or other operating condition, in such a manner that replacement air or gas is not provided or required during VENTING.

Vent, used in system names, does not imply a VENTING process.

WASTE GAS HOLDUP SYSTEM 1.41 A WASTE GAS HOLDUP SYSTEM shall be any system designed and installed to reduce radioactive gaseous effluents by collecting Reactor Coolant System offgases from the Reactor Coolant System and providing for delay or holdup for the purpose of reducing the total radioactivity prior to release to the environment.

St. Lucie Plant ODCM Controls

Page 14 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 1.1 FREQUENCY NOTATION NOTATION FREQUENCY At least once per 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br />, D At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

W At least once per 7 days.

4/M' At least 4 per month at intervals of no greater than 9 days and minimum of 48 per year.

At least once per 31 days.

At lease once per 92 days.

SA At least once per 184 days.

R At least once per 18 months.

S/U Prior to each reactor startup.

N.A. Not Applicable.

p** Completed prior to each release

  • For Radioactive Effluent Sampling
    • For Radioactive Batch Releases Only St. Lucie Plant ODCM Controls

Page 15 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 0

OFFSITE DOSE CALCULATION MANUAL ODCM

.i. CONTROLS AND SURVEILLANCE REQUIREMENTS 3/4.0 APPLICABILITY CONTROLS 3.0.1 Compliance with the Controls contained in the succeeding controls is required during the conditions specified therein; except that upon failure to meet the Control, the associated ACTION requirements shall be met.

3.0.2 Noncompliance with a Control shall exist when the requirements of the Control and associated ACTION requirements are not met within the specified time intervals. If the Control is restored prior to expiration of the specified time intervals, completion of the ACTION requirements is not required.

SURVEILLANCE REQUIREMENTS 4.0.1 Surveillance Requirements shall be met during the conditions specified for individual Controls unless otherwise stated in an individual Surveillance Requirement.

I 4.0.2 Each Surveillance Requirement shall be performed within the specified time interval with:

a. A maximum allowable extension not to exceed 25% of the surveillance interval.

St. Lucie Plant ODCM Controls

Page 16 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INSTRUMENTATION RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION CONTROLS 3.3.3.9 In accordance with St. Lucie Plant TS 6.8.4.f.1), the radioactive liquid effluent monitoring instrumentation channels shown in Table 3.3-12 shall be OPERABLE with their Alarm/Trip Setpoints set to ensure that the limits of Control 3.11 1 1 are not exceeded. The

~ ~

Alarm/Trip Setpoints of these channels shall be determined and adjusted in accordance with the methodology and parameters in the OFFSITE DOSE CALCULATIONMANUAL(ODCM).

APPLICABILITY: At all times.

ACTION:

a. With a radioactive liquid effluent monitoring instrumentation channel Alarm/Trip Setpoint less conservative than required by the above control, immediately suspend the release of radioactive liquid effluents monitored by the affected channel or declare the channel inoperable or change the setpoint so it is acceptably conservative,
b. With less than the minimum number of radioactive liquid effluent monitoring instrumentation channels OPERABLE, take the ACTION shown in Table 3.3-12.

Restore the inoperable instrumentation to OPERABLE status within 30 days and, if unsuccessful, explain in the next Annual Radioactive Effluent Release Report why this inoperability was not corrected in a timely manner.

c. Report all deviations in the Annual Radioactive Effluent Release Report.

SURVEILLANCE REQUIREMENTS 4.3.3.9 Each radioactive liquid effluent monitoring instrumentation channel shall be demonstrated OPERABLE by performance of the CHANNEL CHECK, SOURCE CHECK, CHANNEL CALIBRATIONand CHANNEL FUNCTIONAL TEST at the frequencies shown in Table 4.3-8.

St. Lucie Plant ODCM Controls

Page 17 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-12 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION MINIMUM CHANNELS INSTRUMENT OPERABLE ACTION

1. Radioactivity Monitors Providing Alarm and Automatic Termination of Release a) Liquid Radwaste Effluent Line 35 b) Steam Generator Blowdown 1/SG 36 Effluent Line
2. Flow Rate Measurement Devices a) Liquid Radwaste Effluent Line N.A. 38 b) Discharge Canal N.A. 38 c) Steam Generator Blowdown N.A, 38 Effluent Lines SG - Denotes Steam Generator St. Lucie Plant ODCM Controls

Page 18 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-12 Continued ACTION STATEMENTS ACTION 35 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases may continue for up to 14 days provided that prior to initiating a release:

0

a. At least two independent samples are analyzed in accordance with the Surveillance Requirement for concentration limit of Control 4.11.1.1.1. and
b. At least two technically qualified members of the Facility Staff independently verify the release rate calculations and discharge line valving.

Otherwise, suspend release of radioactive effluents via this pathway.

ACTION 36 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases via this pathway may continue for up to 30 days provided grab samples are analyzed for gross radioactivity (beta or gamma) at a limit of detection of at least 2.E-07 micro-Curie/ml:

a. At least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> when the specific activity of the secondary coolant is greater than 0.01 micro-Curies/gram DOSE EQUIVALENT I-131 or
b. At least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> when the specific activity of the secondary coolant is less than or equal to 0.01 micro-Curies/gram DOSE EQUIVALENT l-131.

ACTION 38 - Minimum system design flow of required running pumps shall be utilized for ECL calculations for discharge canal flow and maximum system design flow be utilized for ECL calculations for effluent line flow.

St. Lucie Plant ODCM Controls

Page 19 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-8 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS CHANNEL CHANNEL SOURCE CHANNEL FUNCTIONAL INSTRUMENT CHECK CHECK CALIBRATION TEST

1. Radioactivity Monitors Providing Alarm and Automatic Termination of Release a) Liquid Radwaste Effluent Line R (2) Q (1) b) Steam Generator Blowdown Effluent Line R (2) Q (1)
2. Flow Rate Measurement Devices a) Liquid Radwaste Effluent Line D (3) N.A. Q b) Discharge Canal o (3) N.A. Q c) Steam Generator Blowdown Effluent Line D (3) N.A. Q St, Lucie Plant ODCM Controls

Page 20 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-8 Continued TABLE NOTATIONS (1) The CHANNEL FUNCTIONALTEST shall also demonstrate automatic isolation of this pathway and control room alarm annunciation occur if any of the following conditions.

exist:

1. Instrument indicates measured levels above the alarm/trip setpoint or
2. Circuit failure or
3. Instrument indicates a downscale failure or
4. Instrument controls not set in operate mode.

(2) The initial CHANNEL CALIBRATION shall be performed using one or more of the reference standards traceable to the National Institute of Standards 8 Technology (NIST) or using standards that have been calibrated against standards certified by the NIST. These standards should permit calibrating the system over its intended range of energy and rate capabilities that are typical of normal plant operation. For subsequent CHANNEL CALIBRATION, button sources that have been related to the initial calibration may be used.

(3) CHANNEL CHECK shall consist of verifying indication of flow during periods of release.

CHANNEL CHECK shall be made at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> on days on which continuous, periodic or batch releases are made.

St. Lucie Plant ODCM Controls

Page 21 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INSTRUMENTATION RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION CONTROLS 3.3.3.10 In accordance with St. Lucie Plant TS 6.8.4.f.1), the radioactive gaseous effluent monitoring instrumentation channels shown in Table 3.3-1 3 shall be OPERABLE with their Alarm/Trip Setpoints set to ensure that the limits of Control 3.11.2.1.are not exceeded.

The Alarm/Trip Setpoints of these channels shall be determined and adjusted in accordance with the methodology and parameters in the ODCM.

APPLICABILITY: As shown in Table 3.3-13 ACTION:

a. With a radioactive gaseous effluent monitoring instrumentation channel Alarm/Trip Setpoint less conservative than required by the above control, immediately suspend the release of radioactive gaseous effluents monitored by the affected channel or declare the channel inoperable or change the setpoint so it is acceptably conservative.
b. With less than the minimum number of radioactive gaseous effluent monitoring instrumentation channels OPERABLE, take the ACTION shown in Table 3.3-13.

Restore the inoperable instrumentation to OPERABLE status within 30 days and, if unsuccessful, explain in the next Annual Radioactive Effluent Release Report why this inoperability was not corrected in a timely manner.

c. Report all deviations in the Annual Radioactive Effluent Release Report.

SURVEILLANCE REQUIREMENTS 4.3.3.10 Each radioactive gaseous effluent monitoring instrumentation channel shall be demonstrated OPERABLE by performance of the CHANNEL'CHECK, SOURCE CHECK, CHANNEL CALIBRATION and CHANNEL FUNCTIONAL TEST at the frequencies shown in Table 4.3-9.

St. Lucie Plant ODCM Controls

Page 22 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION MINIMUM CHANNELS INSTRUMENT OPERABLE APPLICABILITY ACTION

1. Waste Gas Holdup System a) Noble Gas Activity Monitor-Providing Alarm and Automatic Termination of 1/Rx 45 Release
2. Condenser Evacuation System a) Noble Gas Activity Monitor 1/Rx 47
3. Plant Vent System a) Noble Gas Activity Monitor 1/Rx (Low Range) b) Iodine Sampler 1/Rx 51 c) Particulate Sampler 1/Rx 51

')

Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 1/Rx 46

4. Fuel Storage Area Ventilation System a) Noble Gas Activity Monitor 1/Rx (Low Range) b) Iodine Sampler 1/Rx 51 c) Particulate Sampler 1/Rx 51 d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 1/Rx 46 St. Lucie Plant ODCM Controls

Page 23 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 Continued RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATION MINIMUM CHANNELS INSTRUMENT OPERABLE APPLICABILITY ACTION

5. Laundry Area Ventilation System a) Noble Gas Activity Monitor (Low Range) 1/Rx 47 b) Iodine Sampler 1/Rx 51 c) Particulate Sampler 1/Rx 51 d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 1/Rx 46
6. Steam Generator Blowdown Building Vent a) Noble Gas Activity Monitor 47 (Low Range) b) Iodine Sampler 51 c) Particulate Sampler 51 d) Flow Rate Monitor N.A. 53 e) Sampler Flow Rate Monitor 46 St. Lucie Plant ODCM Controls

Page 24 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 Continued TABLE NOTATIONS

- At all times while making releases via this pathway

  • " - At all times when air ejector exhaust is not directed to plant vent.

Rx - Denotes reactor ACTION STATEMENTS ACTION 45 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, the contents of the tank(s) may be released to the environment for up to 14 days provided that prior to initiating a release:

a. At least two independent samples of the tank's contents are analyzed and
b. At least two technically qualified members of the facility staff independently verify the release rate calculations and discharge valve lineup.

Otherwise, suspend release of radioactive effluents via this pathway.

ACTION 46 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases via this pathway may continue for up to 30 days provided the flow rate is estimated at least once per 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.

ACTION 47 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE, effluent releases via this pathway may continue for up to 30 days provided:

a. If channel inoperability is due to loss of activity indication, Then grab samples are taken at least once per 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> and these samples are analyzed for isotopic activity within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />.

OR

b. 'f channel inoperability is due to loss of Control Room alarm annunciation discovered during a channel functional test because of any one or more of the following reasons listed, Then channel checks are performed once per hour to verify normal indication and current assignees setpoints are NOT exceeded.
1. Failure to annunciate when testing alarm/trip'setpoints.
2. Circuit failure.
3. Downscale failure.
4. Controls NOT set in OPERATE mode.

St. Lucie Plant ODCM Controls

Page 25 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.3-13 Continued TABLE NOTATIONS ACTION STATEMENTS (continued)

ACTION 51 - With the number of channels OPERABLE less than required by the Minimum Channels OPERABLE requirement, effluent releases via the affected pathway may continue for up to 30 days'provided samples are continuously collected with auxiliary sampling equipment as required in Table 4;11-2.

ACTION 53 - Maximum system flows shall be utilized in the determination of the instantaneous release monitor alarm setpoint.

St. Lucie Plant ODCM Controls

Page 26 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-9 RADIOACTIVE GASEOUS EFFLUENT MONITORING INSTRUMENTATIONSURVEILLANCE REQUIREMENTS Modes in CHANNEL which CHANNEL SOURCE CHANNEL FUNCTIONAL surveillance INSTRUMENT CHECK CHECK CALIBRATION TEST required

1. Waste Gas Holdup System a) Noble Gas Activity Monitor - Providing Alarm and R (3) Q (1)

Automatic Termination of Release

2. Condenser Evacuation System a) Noble Gas Activity R (3) Q (2)

Monitor

3. Plant Vent System a) Noble Gas Activity Monitor R (3) Q (2) b) Iodine Sampler W N.A. N.A. N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor

4. Fuel, Storage Area Ventilation System a) Noble Gas Activity D R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A. N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate Monitor N.A. N.A.

St. Lucie Plant ODCM Controls

Page 27 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABI E 4.3-9 Continued RADIOACTIVEGASEOUS EFFLUENT MONITORING INSTRUMENTATION SURVEILLANCE REQUIREMENTS Modes in CHANNEL which CHANNEL SOURCE CHANNEL FUN CTIONAI suweillance INSTRUMENT CHECK CHECK CALIBRATION TEST required

5. Laundry Area Ventilation System a) Noble Gas Activity R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A N.A.

c) Particulate Sampler W N.A. N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor

6. Steam Generator Blowdown Building Vent a) Noble Gas Activity R (3) Q (2)

Monitor b) Iodine Sampler W N.A. N.A N.A.

c) Particulate Sampler W N.A. N.A.

d) Flow Rate Monitor N.A. Q e) Sampler Flow Rate N.A. N.A.

Monitor St. Lucie Plant ODCM Controls

Page 28 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.3-9 Continued TABLE NOTATIONS At all times when making releases via this pathway.

At all times when air ejector exhaust is not directed to plant vent.

(1) The CHANNEL FUNCTIONALTEST shall also demonstrate automatic isolation of this pathway and control room alarm annunciation occurs if any of the following conditions exist:

Instrument indicates measured levels above the alarm/trip setpoint or

2. Circuit failure or
3. Instrument indicates a downscale failure or
4. Instrument controls not set in operate mode.

(2) The CHANNEL FUNCTIONAL TEST shall also demonstrate that control room alarm annunciation occurs if any of the following conditions exist:

1. Instrument indicates measured levels above the alarm/trip setpoint or
2. Circuit failure or
3. Instrument indicates a downscale failure or
4. Instrument controls not set in operate mode.

(3) The initial CHANNEL CALIBRATION shall be performed using one or more of the reference standards traceable to the National Institute of Standards 8 Technology (MIST) or using standards that have been calibrated against standards certified by the NIST. These standards should permit calibrating the system over its intended range of energy and rate capabilities that are typical of normal plant operation. For subsequent CHANNEL CALIBRATION, button sources that have been related to the initial calibration may be used.

St. Lucie Plant ODCM Controls

Page 29 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.11 RADIOACTIVE EFFLUENTS 3/4.11.1 LIQUID EFFLUENTS CONCENTRATION CONTROLS 3.11.1.1 In accordance with the St. Lucie Plant TS 6.8.4.f.2) and 3), the concentration of radioactive material released in liquid effluents to UNRESTRICTED AREAS (see TS Figure 5.1-1) shall be limited to ten times the concentrations specified in 10 CFR Part 20.1001-20.2401, Appendix B, Table 2, Column 2 for radionuclides other than dissolved or entrained noble gases. For dissolved or entrained noble gases, the concentration shall be limited to 2.E-04 micro-Curie/ml total activity.

APPLICABILITY: At all times.

ACTION'

a. With the concentration of radioactive material released in liquid effluents to UNRESTRICTED AREAS exceeding the above limits, immediately restore the concentration to within the above limits.

SURVEILLANCE REQUIREMENTS 4.11.1.1.1 Radioactive liquid wastes shall be sampled and analyzed according to the sampling and analysis program of Table 4.11-1.

4.11.1.1.2 'The results of the radioactivity analyses shall be used in accordance with the methodology and parameters in the ODCM to assure that the concentrations at the point of release are maintained within the limits of Control 3,11.1.1.

4.11.1 1.3 Post-release analyses of samples composited from batch releases shall be

~

performed in accordance with Table 4.11-1 and results of the previous post-release analyses shall be used with the calculational methods in the ODCM to assure that the concentrations at the point of release were maintained within the limits of Control 3.11.1.1, St. Lucie Plant ODCM Controls

Page 30 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 RADIOACTIVE LIQUID WASTE SAMPLING AND ANALYSIS PROGRAM Minimum Lower Limit of Liquid Release Sampling Type of Activity Analysis Detection Type Frequency Analysis Frequency LLD (1) (p.CI/ml)

A. Batch Waste p P.G.E. (3) 5.E-07 Release Each Batch Each Batch I-131 1.E-06 Tanks (2)

Dissolved and p Entrained One Batch/M 1.E-05 Gases (Gamma Emitters) p M H-3 1.E-05 Each Batch Composite (4) Gross Alpha 1.E-07 p Q Sr-89, Sr-90 5.E-08 Each Batch Composite (4) Fe-55 1.E-06 B. Continuous 4/M P.G.E.(3) 5.E-07 Releases (5, Daily Composite I-131 1.E-06 6)

Dissolved and Daily 4/M Entrained Grab Sample 1.E-05 Composite Gases (Gamma Emitters)

M H-3 1.E-05 Daily Composite Gross Alpha 1.E-07 Q Sr-89, Sr-90 5.E-08 Daily Composite Fe-55 1.E-06 C. Settling Basin W P.G.E. (3) 5.E-07 (7) W Grab Sample I-131 1.E-06 P.G.E. - Denotes Principal Gamma Emitter t

St. Lucie Plant ODCM Controls

Page 31 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 Continued TABLE NOTATION

'1)

The LLD is defined for purposes of these controls, 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.

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

4.66 S~

E ~ V~ 2.22E+06 ~ Y ~ exp (- X ~ b,7)

Where:

LLD the a priori lower limit of detection (micro-Curie per unit mass or volume),

Sb the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

the counting efficiency (counts per disintegration),

V the sample size (units of mass or volume),

2.22E+06 = the number of disintegrations per minute per micro-Curie.,

the fractional radiochemical yield, when applicable, the radioactive decay constant for the particular radionuclide (sec')

and the elapsed time between the midpoint of sample collection and the time of counting (sec).

Typical values of E, V, Y and dT should be used in the calculation.

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 gosteriori tatter the fact) limit for a particular measurement.

St. Lucie Plant ODCM Controls

Page 32 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 Continued TABLE NOTATIONS Continued (2) A batch release is the discharge of liquid wastes of a discrete volume. Prior to sampling for analyses, each batch shall be isolated and then thoroughly mixed by a method described in the ODCM to assure representative sampling.

(3) The principal gamma emitters for which the LLD control applies include the following radionuclides: Mn-54, Fe-59, Co-58, Co-60, Zn-65, Mo-99, Cs-134, Cs-137 and 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 with those of the above nuclides, shall also be analyzed and reported in the Annual Radioactive Effluent Release Report pursuant to Control 3.11.2.6 in the format outlined in Regulatory Guide 1.21, Appendix B, Revision 1, June 1974.

(4) 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 that is representative of the liquids released.

(5) A continuous release is the discharge of liquid wastes of a nondiscrete volume, e.g.,

from a volume of a system that has an input flow during the continuous release.

(6) If Component Cooling Water activity is > 1.E-5 pCI/ml, perform a weekly gross activity on the Intake Cooling Water System outlet to ensure the activity level is less than or equal to 2.E-07 pCI/ml LLD limit. If ICW is >2.E-07 pCI/ml, perform analysis in accordance with a Plant Continuous Release on this Table.

(7) Grab samples to be taken when there is confirmed primary to secondary system leakage indicated by the air ejector monitor indicating greater than or equal to 2x background.

St. Lucie Plant ODCM Controls

Page 33 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS DOSE CONTROLS 3.11.1.2 In accordance with St. Lucie Plant TS 6.8.4.f.4) and 6.8.4.f.5), the dose or dose commitment to a MEMBER OF THE PUBLIC from radioactive materials in liquid effluents released, from each unit, to UNRESTRICTED AREAS (see TS Figure 5.1-1) shall be limited:

a. During any calendar quarter to less than or equal to 1.5 mrems to the whole body and to less than or equal to 5 mrems to any organ and
b. During any calendar year to less than or equal to 3 mrems to the whole body and to less than or equal to 10 mrems to any organ.

APPLICABILITY: At all times, ACTION:

a. 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, pursuant to Plant TS 6.9.2, a Special Report that identifies the cause(s) for exceeding the limit(s) and defines the corrective actions that have been taken to reduce the releases and the proposed corrective actions to be taken to assure that subsequent releases will be in compliance with the above limits.

SURVEILLANCE REQUIREMENTS 4.11.1.2 Cumulative dose contributions from liquid effluents for'the current calendar quarter and the current calendar year shall be determined in accordance with the methodology and parameters in the ODCM at least once per 31 days.

St. Lucie Plant ODCM Controls

Page 34 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS LIQUID RADWASTE TREATMENT SYSTEM CONTROLS 3.11.1.3 In accordance with St. Lucie Plant TS 6.8.4.f.6), the Liquid Radwaste Treatment System shall be OPERABLE and appropriate portions of the system shall be used to reduce releases of radioactivity when the projected doses due to the liquid effluent, from each unit, to UNRESTRICTED AREAS (see TS Figure 5.1-1) would exceed 0.06 mrem to the whole body or 0.2 mrem to any organ in a 31-day period.

APPLICABILITY: At all times.

ACTION:

a, With radioactive liquid waste being discharged without treatment and in excess of the above limits and any portion of the Liquid Radwaste Treatment System not in operation, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that 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,
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 4.11.1.3.1 Doses due to liquid releases from each unit to UNRESTRICTED AREAS shall be projected at least once per 31 days in accordance with the methodology and parameters in the ODCM when Liquid Radwaste Treatment Systems are 'not being fully utilized.

4.11.1.3.2 The installed Liquid Radwaste Treatment System shall be demonstrated OPERABLE by operating the liquid radwaste treatment system equipment for at least 30 minutes at least once per 92 days unless the liquid radwaste system has been utilized radioactive liquid effluents during the previous 92 days.

to'rocess St. Lucie Plant ODCM Controls

Page 35 of 182 ST. LUCIE PLANT

'HEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.2 GASEOUS EFFLUENTS DOSE RATE CONTROLS 3.11.2.1 In accordance with St. Lucie Plant TS 6.8A.f.3) and 7), the dose rate resulting from radioactive materials released in gaseous effluents to areas at or beyond the SITE BOUNDARY (see TS Figure 5.1-1) shall be limited to the following:

a. For noble gases: Less than or equal to 500 mrems/yr to the total body and less than or equal to 3000 mrems/yr to the skin and
b. For Iodine-131, for Iodine-1 33, for tritium and for all radionuclides in particulate form with half-lives greater than 8 days: Less than or equal to 1500 mrems/yr to any organ APPLICABILITY: At all times.

ACTION:

a. With the dose rate(s) exceeding the above limits, immediately restore the release rate to within the above limit(s).

SURVEILLANCE REQUIREMENTS 4.11.2.1 1 The dose rate due to noble gases in gaseous effluents.shall be determined to

~

be within the above limits in accordance with the methodology and parameters in the ODCM.

4.11.2.1.2 The 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 above limits in accordance with the methodology and parameters in the ODCM by obtaining representative samples and performing analyses in accordance with the sampling and analysis program specified in Table 4.11-2.

St. Lucie Plant ODCM Controls

Page 36 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-2 RADIOACTIVE GASEOUS WASTE SAMPLING & ANALYSIS PROGRAM Gaseous Release Sampling Minimum Type of Activity Lower Limit of Type Frequency Analysis Analysis Detection Frequency (LLD) (1)

(p,Ci/cc)

1. Waste Gas P P Noble Gas 1.E-04 Storage Tank Each Tank Each Tank P.G.E. (2)

Grab Sample

2. Containment P P Noble Gas 1.E-04 Purge Each Purge (6) Each Purge (6) P.G.E. (2)

Grab Sample (7) H-3 1.E-06

3. Vents: 4/M 4/M (7) Noble Gas 1.E-04
a. Plant Grab Sample P.G.E. (2)
b. Fuel Bldg (5)
c. Laundry H-3 1.E-06
d. S/G Blowdown Bldg.
4. All Release Continuous (3) 4/M I-131 1.E-12 Types as Charcoal listed in 3. Sample (4) above 4/M P.G.E. 1.E-11 Particulate Sample (4)

M Gross Alpha 1.E-11 Composite Particulate Sample Q Sr-89, Sr-90 1.E-11 Composite Particulate Sample Noble Gas Noble Gases 1.E-06 Monitor Gross Beta or Gamma P.G.E. - Denotes Principal Gamma Emitters St. Lucie Plant ODCM Controls

0 Page 37 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-2 Continued TABLE NOTATIONS (1) The LLD is defined for purposes of these controls, 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 ~

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

4.66 S~

LLO E ~ V~ 2.22E+06 ~ Y ~ exp (- X ~ b,7)

Where:

LLD the a priori lower limit of detection (micro-Curie per unit mass or volume),

So the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

the counting efficiency (counts per disintegration),

V the sample size (units of mass or volume),

2.22E+06 = the number of disintegrations per minute per micro-Curie.,

the fractional radiochemical yield, when applicable, the radioactive decay constant for the particular radionuclide (sec')

and the elapsed time between the midpoint of sample collection and the time of counting (sec).

Typical values of E, V, Y and hT should be used in the calculation.

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 gosteriori (after the fact) limit for a particular measurement.

St. Lucie Plant ODCM Controls

Page 38 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.11-1 Continued TABLE NOTATIONS Continued (2) The principal gamma emitters for which the LLD control applies include 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, l-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 also be analyzed and reported in the Annual Radioactive Effluent Release Report pursuant to Control 3.11.2.6 in the format outlined in Regulatory Guide 1.21, Appendix B, Revision 1, June 1974.

(3) 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 3.11.2.1, 3.11.2.2 and 3.11.2.3.

(4) Samples shall be changed at least four times per month and analyses shall be completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> after changing or after removal from sampler. Sampling-shall also be performed at least once per 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> for at least 7 days following each shutdown, startup or THERMALPOWER change exceeding 15% of RATED THERMAL POWER within a 1-hour period and analyses shall be completed within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> of changing. When samples collected for 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> are analyzed, the corresponding LLDs may be increased by a factor of 10. This requirement does not apply if; (1) analysis shows that the DOSE EQUIVALENTI-131 concentration in the reactor coolant has not increased more than a factor of 3; and (2) the noble gas monitor shows that effluent activity has not increased by more than a factor of 3.

(5) Tritium grab samples shall be taken at least 4/M from the ventilation exhaust from the spent fuel pool area, whenever spent fuel is in the spent fuel pool.

(6) Sampling and analysis shall also be performed following shutdown, startup or a THERMAL POWER change exceeding 15% of RATED THERMAL POWER within 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> unless (1) analysis shows that the DOSE EQUIVALENT l-131 concentration in the primary coolant has not increased more than a factor of 3; and (2) the noble gas activity monitor shows that effluent activity has not increased by more than a factor of 3.

(7) Tritium analysis may be delayed for up to 14 days if the LLD is still attainable at the new counting time.

St, Lucie Plant ODCM Controls

Page 39 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFF S I TE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS DOSE - NOBLE GASES CONTROLS 3.11.2.2 In accordance with St. Lucie Plant TS 6.8A.f.5) and 8), the air dose due to noble gases released in gaseous effluents, from each unit; to areas at and beyond the SITE BOUNDARY'(see TS Figure 5.1-1) shall be limited to the following:

a. During any calendar quarter: Less than or equal to 5 mrads for gamma radiation.

and less than or equal to 10 mrads for beta radiation and

b. During any calendar year: Less than or equal to 10 mrads for gamma radiation and less than or equal to 20 mrads for beta radiation.

APPLICABILITY: At all times, ACTION:

a. 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, pursuant to Plant TS 6.9.2, a Special Report that identifies the cause(s) for exceeding the limit(s) and defines the corrective actions that have been taken to assure that subsequent releases will be in compliance with the above limits.

SURVEILLANCE REQUIREMENTS 4.11.2.2 Cumulative dose contributions for the current calendar quarter and current calendar year for noble gases shall be determined in accordance with the methodology and parameters in the ODCM at least once per 31 days.

St. Lucie Plant ODCM Controls

Page 40 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFF S ITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS DOSE - IODINE-131 IODINE-133 TRITIUM AND RADIOACTIVE MATERIAL IN PARTICULATE FORM CONTROLS 3.11.2.3 In accordance with St. Lucie Plant TS 6.8.4.f.5) and 9), the dose to a MEMBER OF THE PUBLIC from Iodine-1 31, Iodine-1 33, tritium and all radionuclides in particulate form with half-lives greater than 8 days in gaseous effluents released, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5.1-1) shall be limited to the following:

a. During any calendar quarter: Less than or equal to 7.5 mrems to any organ and,
b. During any calendar year: Less than or equal to 15 mrems to any organ.

APPLICABILITY: At all times.

ACTION'.

With the calculated dose from the release of Iodine-131, Iodine-133, tritium and radionuclides in particulate form with half-lives greater than 8 days, in gaseous effluents exceeding any of the above limits, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9,2, a Special Report that identifies the cause(s) for exceeding the limit(s) and defines the corrective actions that have been taken to assure that subsequent releases will be in compliance with the above limits.

SURVEILLANCE REQUIREMENTS 4.11.2.3 Cumulative dose contributions for the current calendar quarter and current calendar year for Iodine-131, Iodine-133, tritium and radionuclides in particulate form with half-lives. greater than 8 days shall be determined in accordance with the methodology and parameters in the ODCM at least once per 31 days.

St. Lucie Plant ODCM Controls

Page 41 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS GASEOUS RADWASTE TREATMENT SYSTEM CONTROLS 3.11.2.4 In accordance with St. Lucie Plant TS 6.8.4.f.6), the VENTILATIONEXHAUST Treatment System and the WASTE GAS HOLDUP SYSTEM shall be OPERABLE and appropriate portions of the system shall be used to reduce releases of radioactivity when the projected doses in 31 days due to gaseous effluent releases, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5.1-1) would exceed:

a. 0.2 mrad to air from gamma radiation or
b. 0.4 mrad to air from beta radiation or
c. 0,3 mrem to any organ.

APPLICABILITY: At all times.

ACTION:

a. With radioactive gaseous waste being discharged without treatment and in excess of the above limits, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that includes the following information:

Identification of any inoperable equipment or subsystems and the reason for the inoperability,-

2. Action(s) taken to restore the inoperable equipment to OPERABLE status and
3. Summary description of action(s) taken to prevent a recurrence.

St. Lucie Plant ODCM Controls

Page 42 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS GASEOUS RADWASTE TREATMENT SYSTEM Continued SURVEILLANCE REQUIREMENTS 4.11.2.4.1 Doses due to gaseous releases from each unit to areas at and beyond the SITE BOUNDARY shall be projected at least once per 31 days in accordance with the methodology and parameters in the ODCM when Gaseous Radwaste Treatment Systems are not being fully utilized.

4.11.2.4,2 The installed VENTILATION EXHAUST TREATMENT SYSTEM and WASTE GAS HOLDUP SYSTEM shall be demonstrated OPERABLE by operating the WASTE GAS HOLDUP SYSTEM equipment and VENTILATION EXHAUST TREATMENT SYSTEM equipment for at least 30 minutes, at least once per 92 days unless the appropriate system has been utilized to process radioactive gaseous effluents during the previous 92 days.

St. Lucie Plant ODCM Controls

Page 43 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.4 TOTAL DOSE CONTROLS 3.11.4 In accordance with St. Lucie Plant TS 6.8.4.f.10), the annual (calendar year) dose or dose commitment to any MEMBER OF THE PUBLIC due to releases of radioactivity and to radiation from uranium fuel cycle sources shall be limited to less than or equal to 25, mrems to the whole body or any organ, except the thyroid, which shall be limited to less than or equal to 75 mrems.

APPLICABILITY: At all times.

ACTION:

a. With the calculated doses from the release of radioactive materials in liquid or gaseous effluents exceeding twice the limits of Control 3.11.1.2.a, 3.11.1,2.b, 3.11.2.2.a, 3.11.2.2.b, 3.11.2.3.a or 3.11.2.3.b, calculations shall be made including direct radiation contributions from the units (including outside storage tanks etc.) to determine whether the above limits of Control 3.11.4 have been exceeded. If such i is the case, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, a Special Report that defines the corrective action to be taken to reduce subsequent releases to prevent recurrence of exceeding the above limits and includes the schedule for achieving conformance with the above limits. This Special Report, as defined in Subpart M of 10 CFR Part 20, shall include an analysis that estimates the radiation exposure (dose) to a MEMBER OF THE PUBLIC from uranium fuel cycle sources, including all effluent pathways and direct radiation, for the calendar year that includes the release(s) covered by this report. It shall also describe levels of radiation and concentrations of radioactive material involved and the cause of the exposure levels or concentrations. If the estimated dose(s) exceeds the above limits and if the release condition resulting in violation of 40 Part 190 has not already been corrected, the Special Report shall include a request for a variance in accordance with the provisions of 40 CFR Part 190. Submittal of the report is considered a timely request and a variance. is granted until staff action on the request is complete.

St. Lucie Plant ODCM Controls

Page 44 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.4 TOTAL DOSE Continued SURVEILLANCE REQUIREMENTS 4.11.4.1 Cumulative dose contributions from liquid and gaseous effluents shall be determined in accordance with Controls 4.11,1.2, 4.11.2.2 and 4.11.2.3 and in accordance with the methodology and parameters in the ODCM.

4.11.4.2 Cumulative dose contributions from direct radiation from the units (including outside storage tanks etc,) shall be determined in accordance with the methodology and parameters in the ODCM. This requirement is applicable only under conditions set forth in ACTION a. of Control 3.11.4.

St. Lucie Plant ODCM Controls

Page 45 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.5 MAJOR CHANGES TO RADIOACTIVELIQUID GASEOUS AND SOLID WASTE TREATMENT SYSTEMS'DMINISTRATIVE CONTROLS 3.11.2.5 Licensee initiated major changes to the radioactive waste systems (liquid, gaseous and solid):

1) Shall be reported to the Commission in the Annual Radioactive Effluent Release Report for the period in which the evaluation was reviewed by the Facility Review Group (FRG). The discussion of each shall contain:

a) A summary of the evaluation that led to the determination that the change could be made in accordance with 10 CFR 50.59.

b) Sufficient detailed information to totally support the reason for the change without benefit of additional or supplemental information; c) A detailed description of the equipment, components and processes involved and the interfaces with other plant systems; d) An evaluation of the change which shows the predicted releases of radioactive materials in liquid and gaseous effluents and/or quantity of solid waste that differ from those previously predicted in the license application and amendments thereto; e) An evaluation of the change which shows the expected maximum exposure to individuals in the UNRESTRICTED AREA and to the general population that differ from those previously 'estimated in the license application and amendments thereto; f) A comparison of the predicted releases of radioactive materials, in liquid and gaseous effluents and in solid waste, to the actual releases for the period when the changes are to be made; g) An estimate of the exposure to plant operating personnel as a result of the change; and h) Documentation of the fact that the change was reviewed and found acceptable by the FRG.

2) Shall become effective upon review and acceptance by the FRG.

Licensees may choose to submit the information called for in this Administrative Control as part of the annual FUSAR update.

St. Lucie Plant ODCM Controls

Page 46 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.6 ANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT TO THE COMMISSION*

ADMINISTRATIVECONTROLS 3.11.2.6 As peG Technical Specification 6.9.1.7, a Annual Radioactive Effluent Release Report covering the operation of each unit during the previous 12 months of operation shall be submitted within 60 days after January 1 of each year. The report shall include a summary of the quantities of radioactive liquid and gaseous effluents and solid waste released from each unit. The material provided shall be (1) consistent with the objectives outlined in by items a) through f) below, using the example report format in the ODCM and (2) be in conformance with 10 CFR 50.36a and Section IV.B.1 of Appendix I to 10 CFR Part 50.

a. The Radioactive Effluent Release Reports shall include a summary of the quantities of radioactive liquid and gaseous effluents and solid waste released from the unit as outlined in 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, with data summarized on a quarterly basis following the format of Appendix B thereof.
b. The Radioactive Effluent Release Report to be submitted within 60 days after January 1 of each year shall include an annual summary of hourly meteorological data collected over the previous year. This annual summary may be either in the form of an hour-by-hour listing on magnetic tape of wind speed, wind direction, atmospheric stability and precipitation (if measured) or in the form of joint frequency distributions of wind speed, wind direction and atmospheric stability.
  • This same report shall include an assessment of the radiation doses due to the radioactive liquid and gaseous effluents released from the unit or station during the 1
  • - A single submittal may be made for a multiple unit. station. The submittal should combine those sections that are common to all units at the station; however, for units with separate radwaste systems, the submittal shall specify the releases of radioactive material from each unit.
  • ' In lieu of submission with the Radioactive Effluent Release Report, the licensee has the option of retaining this summary of required meteorological data on site in a file that shall be provided to the NRC upon request.

St. Lucie Plant ODCM Controls

Page 47 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS 3/4.11.6 ANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT TO THE COMMISSION Continued ADMINISTRATIVECONTROLS 3.11.2.6 (Continued)

b. (Continued) previous calendar year. This same report shall also include an assessment of the radiation doses from radioactive liquid and gaseous effluents to MEMBERS OF THE PUBLIC due to their activities inside the SITE BOUNDARY (see TS Figure 5.1-1) during the report period. All assumptions used in making these assessments, i.e., specific activity, exposure time and location, shall be included in these reports. The meteorological conditions concurrent with the time of release of radioactive materials in gaseous effluents, as determined by sampling frequency and measurement, shall be used for determining the gaseous pathway doses. The assessment of radiation doses shall be performed in accordance with the methodology and parameters in the ODCM.
c. Every 2 years using the previous 6 months release history for isotopes, determine the controlling age group for liquid pathways. Every 2 years using the previous 1 year or longer interval (to include a refueling outage) and historical meteorological data determine the controlling age group for gaseous pathways. If changed from current submit change to ODCM to reflect new tables for these groups and use the new groups in subsequent dose calculations. /R17
d. The Radioactive Effluent Release Report to be submitted 60 days after January 1 of each year shall also include an assessment of radiation doses to the likely most exposed MEMBER OF THE PUBLIC from reactor releases for the previous calendar year. Acceptable methods for calculating the dose contribution from liquid and gaseous effluents are given in Regulatory Guide 1.109 March 1976.

St. Lucie Plant ODCM Controls

Page 49 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM CONTROLS 3.12.1 In accordance with St. Lucie Plant TS 6.8.4.g.1), the Radiological Environmental Monitoring Program shall be conducted as specified in Table 3.12-1.

APPLICABILITY: At all times.

ACTION:

a. With the Radiological Environmental Monitoring Program not being conducted as specified in Table 3.12-1, prepare and submit to the Commission, in the Annual Radiological Environmental Operating Report required by Control 3.12.4, a description of the reasons for not conducting the program as required and the plans for preventing a recurrence.
b. With the confirmed level of radioactivity as the result of plant effluents in an environmental sampling medium at a specified location exceeding the reporting levels of Table 3.12-2 when averaged over any calendar quarter, prepare and submit to the Commission within 30 days, pursuant to Plant TS 6.9.2, 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 less than the calendar year limit of Controls 3.11.1.2, 3.11.2.2 or 3.11.2.3. When more than one of the radionuclides in Table 3.12-2 are detected in the sampling medium, this report shall be submitted if:

concentration (1) concentration (2)

+ +> or =1.0 reporting level (1) reporting level (2)

When radionuclides other than those in Table 3.12-2 are

  • A confirmatory reanalysis of the original, a duplicate or a new sample may be desirable, as appropriate. The results of the confirmatory analysis shall be completed at the earliest time consistent with the analysis but in any case within 30 days.

The methodology and parameters used to estimate the potential annual dose to a MEMBER OF THE PUBLIC shall be indicated in this report.

St. Lucie Plant ODCM Controls

Page 50 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.1 MONITORING PROGRAM Controls (Continued)

Action b. (Continued) detected and are the result of plant effluents, this report shall be submitted if the potential annual dose, to a MEMBER OF THE PUBLIC from all radionuclides is equal to or greater than the calen'dar year limits of Control 3.11.1.2, 3.11.2.2 or 3.11.2.3. This report is not required if the measured level of radioactivity was not the result of plant effluents; however, in such an event, the condition shall be reported and described in the Annual Radiological Environmental Operating Report required by Control 3.12.4.

c. With milk or broad leaf vegetation samples unavailable from one or more of the sample locations required by Table 3.12-1, identify specific locations for obtaining replacement samples and add them within 30 days to the Radiological Environmental Monitoring Program given in the ODCM. The specific locations from which samples were unavailable may then be deleted from the monitoring program.

Pursuant to Control 3.11.2.6, submit in the next Annual Radioactive Effluent Release Report documentation for a change in the ODCM including a revised figure(s) and table for the ODCM reflecting the new location(s) with supporting information identifying the cause of the unavailability of samples and justifying the selection of the new location(s) for obtaining samples.

SURVEILLANCE REQUIREMENTS 4.12.1 The radiological environmental monitoring samples shall be collected pursuant to Table 3.12-f from the specific locations given in the table and figure(s) in the ODCM and shall be analyzed pursuant to the requirements of Table 3.12-1 and the detection capabilities required by Table 4.12-1.

St. Lucie Plant ODCM Controls

Page 51 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-1 RADIOLOGICALENVIRONMENTALMONITORING PROGRAM'XPOSURE NUMBER OF REPRESENTATIVE PATHWAY SAMPLES AND SAMPLING AND TYPE AND and/or SAMPLE COLLECTION FREQUENCY ~ OF SAMPLE LOCATIONS ' FREQUENCY" ANALYSIS

1. Direct Radiation'.

27 Monitoring Continuous Gamma exposure rate-Locations monitoring with quarterly sample collection quarterly "

Airborne Continuous sampler Radioiodine filter:

Radioiodine and 5 Locations operation with I-131 analysis weekly Particulates sample collection Particulate Filter:

weekly or more Gross beta radioactivity frequently if analysis >&4 hours required by dust following a filter loading change" Gamma isotopic"'nalysis of composite @

(by location) quarterly

3. Waterborne a) Surface"')

1 Location ' Weekly Gamma isotopic" 8 tritium analyses weekly Location"' Monthly Gamma isotope" &

tritium analyses monthly Sediment from Locations Semiannually Gamma isotopic" shoreline analyses semiannually

4. Ingestion a) Fish and Invertebrates
1) Crustacea 2 Locations Semianrlually Gamma isotopic" analyses semiannually
2) Fish 2 Locations Semiannually Gamma isotopic "

analyses semiannually b) Food Products

1) Broad leaf 3 Locations" Monthly when Gamma isotopic" and vegetation available I-131 analyses monthly St. Lucie Plant ODCM Controls

Page 52 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-1 Continued TABLE NOTATIONS Deviations are permitted from the required sampling schedule if specimens are unobtainable due to hazardous conditions, seasonal unavailability, malfunction of automatic sampling equipment or other legitimate reasons. If specimens are unobtainable due to sampling equipment malfunction, corrective action shall be taken prior to the end of the next sampling period. All deviations from the sampling schedule shall be documented in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.

b. Specific parameters of distance and direction sector from the centerline of one reactor and additional description where pertinent, shall be provided for each sample location required by Table 3.12-1, in Appendix-E and applicable figures.
c. At times, it may not be possible or practicable to continue to obtain samples of the, media of choice at the most desired location or time. In these instances suitable alternative media and locations may be chosen for the particular pathway in question and appropriate substitutions made within 30 days in the radiological environmental monitoring program. ~

d.~ The following definition of frequencies shall apply to Table 3.12-1 only:

Weekly- Not less than once per calendar week. A maximum interval of 11 days is allowed between the collection of any two consecutive samples.

Semi-Monthly - Not less than 2 times per calendar'onth with an interval of not less than 7 days between sample collections. A maximum interval of 24 days is allowed between collection of any two consecutive samples.

Monthly- Not less than once per calendar month with an interval of not less than 10 days between sample collections.

Quarterly- Not less than once per calendar quarter.

Semiannually - One sample each between calendar dates (January 1 - June 30) and (July 1 - December 31). An interval of not less than 30 days will be provided between sample collections.

The frequency of. analyses is to be consistent with the sample collection frequency.

St. Lucie Plant ODCM Controls

Page 53 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-1 Continued TABLE NOTATIONS Continued

e. One or more instruments, such as a pressurized ion chamber, for measuring and recording dose rate continuously may be used in place of or in addition to, integrating dosimeters. For purposes of this table, a thermoluminescent dosimeter (TLD) is considered to Se one phosphor; two or more phosphors in a'packet are considered as two or more dosimeters.
f. Refers to normal collection frequency. More frequent sample collection is permitted when conditions warrant.
g. Airborne particulate sample filters are analyzed for gross beta radioactivity 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> or more after sampling to allow for radon and thoron daughter decay. In addition to the requirement for a gamma isotopic on a composite sample a gamma isotopic is also required for each sample having a gross beta radioactivity which is >1.0 pCi per cubic meters and which is also >10 times that of the most recent control sample.
h. Gamma isotopic analysis means the identification and quantification of gamma-emitting radionuclides that may be attributable to the effluents from the facility.
k. Discharges from the St. Lucie Plant do not influence drinking water or ground water pathways.
m. Atlantic Ocean, in the vicinity of the public beaches along the eastern shore of Hutchinson Island near the St. Lucie Plant (grab sample)
n. Atlantic Ocean, at a location beyond influence from plant effluents (grab sample).
p. Samples of broad leaf vegetation grown nearest each of two different offsite locations of high@st predicted annual average ground level D/Q qnd one sample of similar broad leaf vegetation at ari available location 15-30 kilometers distant in the least prevalent wind direction based upon historical data in the ODCM.

[I, j, I (lower case) and o are not used on notation for clarity reasons]

St. Lucie Plant ODCM Controls

Page 54 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 3.12-2 REPORTING LEVELS FOR RADIOACTIVITYCONCENTRATIONS IN ENVIRONMENTALSAMPLES REPORTING LEVELS AIRBORNE WATER PARTICULATE FOOD ANALYSIS FISH MILK OR GASES PRODUCTS pCI/I pCi/kg, wet pCIn pCi/kg, wet H-3 30,000* pCi/m'0,000 Mn-54 1,000 Fe-59 400 10,000 Co-58 1,000 30,000 Co-60 300 10,000 Zn-65 300 20,000 Zr-400 Nb-95"'-131 2%* 0.9 100 Cs-134 30 10 1,000 60 1,000 Cs-137 50 20 2,000 70 2,000 Ba-La-140"* 200 300 I - as in pCi/I denotes liter

  • - Since no drinking water pathway exists, a value of 30,000 pCi/I is used. For drinking water samples, a value of 20,000 pCi/I is used; this is 40 CFR Part 141 value.

, Applies to drinking water pathway exists, 2 pCi/I is the limit for drinking water.

An equilibrium mixture of the parent daughter isotopes which corresponds to the reporting value of the parent isotope.

St. Lucie Plant ODCM Controls

Page 55 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.12-1 DETECTION CAPABILITIES FOR ENVIRONMENTALSAMPLE ANALYSIS" "

LOWER LIMITOF DETECTION LLD AIRBORNE WATER FOOD PARTICULATE FISH MILK SEDIMENT ANALYSIS PRODUCTS pCin OR GASES pCi/kg, wet pCi/I pCi/kg, wet pCI/m'.01 Gross Beta H-3 3000*

Mn-54 15 130 Fe-59 30 260 Co-58, 15 130 Co-60 Zn-65 30 260 Zr-95, Nb-95

'-131 0.07 60 Cs-134 15 0.05 130 15 60 150 Cs-137 18 0.06 150 18 80 180 Ba-140, La-140<4~

15 15

  • No drinking water pathway exists, a value of 2000 pCi/I is for drinking water.

LLD for drinking water samples. If no drinking water pathway exists, the LLD of gamma isotopic analysis may be used.

St. Lucie Plant ODCM Controls

Page 56 of 182, ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.12-1 Continued TABLE NOTATIONS (1) This list does not mean that only these nuclides are to be considered. Other peaks that are identifiable, together with those of the above nuclides, shall also be analyzed and reported in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.

(2) Required detection capabilities for thermoluminescent dosimeters used for environmental measurements are given in Regulatory Guide 4.13.

(3) The LLD is defined for purposes of these controls, 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.

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

4,66 S~

LLD E ~ V~ 2.22 ~ Y ~ exp (- X ~ b,T)

Where:

LLD = the a priori lower limit of detection (pico-Curie per unit mass or volume),

S, = the standard deviation of the background counting rate or of the counting rate of a blank sample as appropriate (counts per minute),

E = the counting efficiency (counts per disintegration),

V =. the sample size (units of mass or volume),

2.22 = the number of disintegrations per minute per pico-Curie, Y = the fractional radiochemical yield, when applicable, the radioactive decay constant for the particular radionuclide (sec') and bT = the elapsed time between the midpoint of sample collection and the time of counting (sec).

Typical values of E, V, Y and bT should be used in the calculation.

St. Lucie Plant ODCM Controls

Page 57 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 4.12-1 Continued TABLE NOTATIONS Continued 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 (affer the fact) limit for a particular measurement. Analyses shall be performed in such a manner that the stated LLDs will be achieved under routine conditions. Occasionally background fluctuations, unavoidable small sample sizes, the presence of interfering nuclides or. other uncontrollable circumstances may render these LLDs unachievable.

In such cases, the contributing factors shall be identified and described in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.

(4) An equilibrium mixture of the parent and daughter isotopes which corresponds to 15 pCi/Liter of the parent isotope.

St. Lucie Plant ODCM Controls

Page 58 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.2 LAND USE CENSUS CONTROLS 3.12.2 In accordance with St. Lucie Plant TS 6.8.4.g.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 square meters (500 square feet) 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 4.11.2.3, pursuant to Control 3.11.2.6, identify the new location(s) in the next Annual Radioactive Effluent Release Report.
b. With a Land Use Census identifying a location(s) that yields a calculated dose or dose commitment (via the same exposure pathway) 20% greater than at a location from which samples are currently being obtained in accordance with Control 3.12.1, add the new location(s) within 30 days to the Radiological Environmental Monitoring Program given in the ODCM. 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. Pursuant to TS 6.14, submit in the next Annual Radioactive Effluent Release Report documentation for a change in the ODCM including a revised figure(s) and table(s) for the ODCM reflecting the new location(s} with information supporting the change in sampling locations.

Broad leaf vegetation sampling may be performed at the SITE BOUNDARY in each of two different direction sectors with the highest predicted D/Qs in lieu of the garden census. Controls for broad leaf vegetation sampling in Table 3.12-1, Part 4.b., shall be followed, including analysis of control samples.

St, Lucie Plant ODCM Controls

Page 59 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.2 LAND USE CENSUS Continued SURVEILLANCE REQUIREMENTS 4.12.2 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 Operating Report pursuant to Control 3.12.4.

St. Lucie Plant ODCM Controls

Page 60 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING 3/4.12.3 INTERLABORATORYCOMPARISON PROGRAM CONTROLS 3.12.3 In accordance with St. Lucie Plant TS 6.8.4,g,3), analyses shall be performed on all radioactive materials, supplied as part of an Interlaboratory Comparison Program that has been approved by the Commission, that correspond to samples required by Table 3.12-1.

APPLICABILITY: At all times.

ACTION'.

With analyses not being performed as required above, report the corrective action taken to prevent a recurrence to the Commission in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4.

SURVEILLANCE REQUIREMENTS 4.12.3 A summary of the results obtained as part of the above required Interlaboratory Comparison Program shall be included in the Annual Radiological Environmental Operating Report pursuant to Control 3.12.4. If the lnterlaboratory Comparison Program is other than the program conducted by the EPA, then the Interlaboratory Comparison Program shall be described in the ODCM.

This condition is satisfied by participation in the Environmental Radioactivity Laboratory Intercomparison Studies Program conducted by the Environmental Protection Agency (EPA).

St. Lucie Plant ODCM Controls

Page 61 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICALENVIRONMENTALMONITORING 3/4.12.4 ANNUALRADIOLOGICALENVIRONMENTALOPERATING REPORT AREOR

  • ADMINISTRATIVECONTROLS 3.12A In accordance with St. Lucie Plant TS 6.9.1.8, an Annual Radiological Environmental Operating Report covering the operation of the unit during the previous calendar year shall be submitted before May 1 of each year. The report shall include summaries, interpretations and information based on trend analysis of the results of the Radiological Environmental Monitoring Program for the reporting period. The material provided in the AREOR shall be consistent with the objectives outlined below and with Sections IV.B.2, IV.B.3 and IV.C of Appendix I to 10 CFR Part 50.

The Annual Radiological Environmental Operating Reports shall include summaries, interpretations and information based on trend analysis of the results of the radiological environmental surveillance activities for the report period, including a comparison, as appropriate, with preoperational studies, with operational controls and with previous environmental surveillance reports and an assessment of the observed impacts of the plant operation on the environment. The reports shall also include the results of land use census required by Control 3.12.2.

The Annual Radiological Environmental Operating Reports shall include the results of analysis of all radiological environmental samples and of all environmental radiation measurements taken during the period pursuant to the locations specified in the Table and Figures in the ODCM, as well as summarized and tabulated results of these analyses and measurements in the format of the table in the Radiological Assessment Branch Technical Position, Revision 1, November 1979. In the event that some individual results are not available for inclusion with the report, the report shall be submitted noting and explaining the reasons for the missing results. The missing data shall be submitted as soon as possible in a supplementary report, The reports shall also include the following: a summary description of the radiological environmental monitoring program; at least two legible maps** covering all sampling locations keyed to a table giving distances and directions from the centerline of one reactor; the results of the Interlaboratory Comparison Program, required by Control 3.12.3; discussion of all deviations from the sampling schedule of Table 3,12-1; and discussion of all analyses in which the LLD required by Table 4.12-1 was not achievable.

  • - A single submittal may be made for multiple unit station.
    • - One map shall cover stations near the SITE BOUNDARY; a second shall include the more distant stations.

St. Lucie Plant ODCM Controls

Page 62 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM BASES for the CONTROLS AND SURVEILLANCE REQUIREMENTS NOTE The BASES contained in succeeding pages summarize the reasons for the Controls in Section 3.0 and 4.0, but are not part of these Controls.

St. Lucie Plant ODCM Controls - Bases

Page 63 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM INSTRUMENTATION BASES 3/4.3.3.10 RADIOACTIVE LIQUID EFFLUENT MONITORING INSTRUMENTATION The radioactive liquid effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in liquid effluent during actual or potential releases of liquid effluents. The Alarm/Trip Setpoints for these instruments shall be calculated and adjusted in accordance with the methodology and parameters in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20. The OPERABILITYand use of this instrumentation is consistent with the requirements of General Design Criteria 60, 63 and 64 of Appendix A to 10 CFR Part 50.

3/4.3.3.11 RADIOACTIVEGASEOUS EFFLUENT MONITORING INSTRUMENTATION The radioactive gaseous effluent instrumentation is provided to monitor and control, as applicable, the releases of radioactive materials in gaseous effluent during actual or potential releases of gaseous effluents. The Alarm/Trip Setpoints for these instruments shall be calculated and adjusted in accordance with the methodology and parameters in the ODCM to ensure that the alarm/trip will occur prior to exceeding the limits of 10 CFR Part 20. The OPERABILITYand use of this instrumentation is consistent with the requirements of General Design Criteria 60, 63 and 64 of Appendix A to 10 CFR Part 50.

St. Lucie Plant ODCM Controls - Bases

Page 64 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.11 RADIOACTIVE EFFLUENTS BASES 3/4.11.1 LIQUID EFFLUENTS 3/4.11.1.1 CONCENTRATION This control is provided to ensure that the concentration of radioactive materials released in liquid waste effluents to UNRESTRICTED AREAS will be less than the concentration levels specified in 10 CFR Part 20, Appendix B, Table 2, Column 2. This limitation provides additional assurance that the levels of radioactive materials in bodies of water in UNRESTRICTED AREAS will result in exposures within: (1) the Section II.A design objectives of Appendix I, 10 CFR Part 50, to a MEMBER OF THE PUBLIC and (2) the limits of 10 CFR Part 20. The concentration limit for dissolved or entrained noble gases is based upon the assumption that Xe-135 is the controlling radioisotope and its ECL in air (submersion) was converted to an equivalent concentration in water using the methods described in International Commission on Radiological Protection (ICRP) Publication 2,

~

This control applies to the release of radioactive materials in liquid effluents from all units at the site.~

~

The required detection capabilities for radioactive materials in liquid waste samples are tabulated in terms of the lower limits of detection (LLDs). Detailed discussion of the LLD and other detection limits can be found in Currie, L,A., Lower Limit of Detection: Definition and Elaboration of a Proposed Position for Radiological Effluent and Environmental Measurements, NUREG/CR-4007 (September 1984) and in the HASL Procedures Manual, HAS L-300.

3/4.11.1.2 DOSE This control is provided to implement the requirements of Sections II,A, III,A and IV.A of Appendix I, 10 CFR Part 50. The Control implements the guides set forth in Section II.A of Appendix I. The ACTION statements provide the required operating flexibilityand at the same time implement the guides set forth in Section IV.A of Appendix I to assure that the releases of radioactive material in liquid effluents to UNRESTRICTED AREAS will be kept as low as is reasonably achievable, Also, for fresh water sites with drinking water supplies that can be potentially affected by plant operations, there is reasonable assurance that the operation of the facility will not result in radionuclide concentrations in the finished drinking water that are in excess of the requirements of 40 CFR Part 141. The dose calculation St. Lucie Plant ODCM Controls - Bases

Page 65 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.11 RADIOACTIVE EFFLUENTS Continued BASES 3/4.11.1 LIQUID EFFLUENTS Continued 3/4.11.1.2 DOSE Continued methodology and parameters in the ODCM implement the requirements in Section III.A of Appendix I that conformance with the guides of Appendix I be shown by calculational procedures based on models and data, such 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 are 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 10 CFR Part 50, 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 I, April 1977.

This control applies to the release of radioactive materials in liquid effluents from each

~

unit at the site. For units with shared Radwaste Systems, the liquid effluents from the

~

shared system are to be proportioned among the units sharing that system.

3/4.11.1.3 LIQUID RADWASTE TREATMENT SYSTEM The OPERABILITYof the Liquid Radwaste Treatment System ensures that this system will be available for use whenever liquid efftuents require treatment prior to release to the environment. 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 10 CFR 50.36a, General Design Criterion 60 of Appendix A to 10 CFR Part 50 and the design objective given in Section II.D of Appendix I to 10 CPR Part 50. The specified limits governing the use of appropriate portions of the Liquid Radwaste Treatment System were specified as a suitable fraction of the dose design objectives set forth in Section II.A of Appendix I, 10 CFR Part 50 for liquid effluents.

This control applies to the release of radioactive materials in liquid effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the liquid effluents from the shared system are to be proportioned among the units sharing that system.

St. Lucie Plant ODCM Controls - Bases

Page 66 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2 GASEOUS EFFLUENTS 3/4.11.2.1 DOSE RATE This control is provided to ensure that the dose at any time at and beyond the SITE BOUNDARY from gaseous effluents from all units on the site will be within the annual dose limits of 10 CFR Part 20 to UNRESTRICTED AREAS, The annual dose limits are the doses associated with the concentration of 10 CFR Part 20, Appendix B, Table 2, Column I. These limits provide reasonable assurance that radioactive material discharged in gaseous effluents will not result in the exposure of a MEMBER OF THE PUBLIC in an UNRESTRICTED AREA, either within or outside the SITE BOUNDARY, to an annual average concentration exceeding the limits specified in Appendix B, Table 2 of 10 CFR Part 20 (Subpart D of 10 CFR Part 20). For MEMBERS OF THE PUBLIC who may at times be within the SITE BOUNDARY, the occupancy of that MEMBER OF THE PUBLIC will usually be sufficiently low to 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 less than or equal to 500 mrems/year to the total body or to less than or equal to 3000 mrem/year to the skin. These release rate limits also restrict, at all times, the corresponding thyroid dose rate above background to a child via the inhalation pathway to less than or equal to 1500 mrems/year.

This control applies to the release of radioactive materials in gaseous effluents from all units at the site.

The required detection capabilities for radioactive materials in gaseous waste samples are tabulated in terms of the lower limits of detection (LLDs). Detailed discussion of the LLD and other detection limits can be found in Currie, L. A., Lower Limit of Detection: Definition and Elaboration of a Proposed Position for Radiologicatl'ffluent and Environmental Measurements, NUREG/CR-4007 (September 1984) and in the HASL Procedures Manual, HAS L-300, St. Lucie Plant ODCM Controls - Bases

Page 67 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2.1 DOSE - NOBLE GASES This control is provided to implement the requirements of Sections II,B, III.A and IV.A of Appendix I, 10 QFR Part 50, The control implements the guides set forth in Section I.B of Appendix I; The ACTION statements provide the required operating flexibilityand at the same time implement the guides set forth in Section IV.A of Appendix I to assure that the releases of radioactive material in gaseous effluents to UNRESTRICTED AREAS will be kept as low as is reasonably achievable, The Surveillance Requirements implement the requirements in Section III.A of Appendix I that conformance with the guides of Appendix I be shown by calculational procedures based on models and data such that the actual exposure of a MEMBER OF THE PUBLIC through appropriate pathways is unlikely to be substantially underestimated. The dose calculation methodology and parameters 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

'n Regulatory Guide 1.109, Calculation of Annual Doses to Man from Routine Releases of Reactor Effluents for the Purpose of Evaluating Compliance with 10 CFR Part 50, Appendix I, Revision 1, October 1977 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 are based upon the historical average atmospheric conditions.

This control applies to the release of radioactive materials in gaseous effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the gaseous effluents from the shared system are to be proportioned among the units sharing that system.

3/4.11.2.3, DOSE - IODINE-131 IODINE-133 TRITIUMAND RADIOACTIVEMATERIAL IN PARTICULATE FORM This control is provided to implement the requirements-of Sections II.C, III.A and IV.A of Appendix I, 10 CFR Part 50. The Controls are the guides set forth in Section II.C of Appendix I, The ACTION statements provide the required operating flexibility and at the same time implement the guides set forth in Section IV.A of Appendix I to assure that the releases of radioactive material in gaseous effluents to UNRESTRICTED AREAS will be kept as low as is reasonably achievable. The ODCM calculational methods specified in the St. Lucie Plant ODCM Controls - Bases

Page 68 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2.1 DOSE - NOBLE GASES Continued 314.11.2.3 DOSE - IODINE-131 IODINE-133 TRITIUMAND RADIOACTIVEMATERIAL IN PARTICULATE FORM Continued Surveillance Requirements implement the requirements in Section III.A of Appendix I that conformance with the guides of Appendix I be shown by calculational procedures based on models and data such that the actual exposure of a MEMBER OF THE PUBLIC through appropriate pathways is unlikely to be substantially underestimated. The ODCM calculational methodology and parameters for calculating the doses due to the actual release rates of the subject material are 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 10 CFR Part 50, Appendix I, Revision 1, October 1977 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. These equations also provide for determining the actual doses based upon the historical average atmospheric conditions. The release rate controls for Iodine-131, Iodine-1 33, tritium and radionuclides in particulate form with half-lives greater than 8 days are dependent upon the existing radionuclide pathways to man in the areas at and beyond the SITE BOUNDARY. The pathways that were examined in the development of the calculations were: (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 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.

This control applies to the release of radioactive materials in gaseous effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the gaseous effluents from the shared system are proportioned among the units sharing that system.

St. Lucie Plant ODCM Controls - Bases

Page 69 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.2.4 GASEOUS RADWASTE TREATMENT SYSTEM The OPERABILITY of the WASTE GAS HOLDUP SYSTEM and the VENTILATION EXHAUST TREATMENT SYSTEM ensure that the systems will be available for use whenever gaseous effluents require treatment prior to release to the environment, 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 10 CFR 50.36a, General Design Criterion 60 of Appendix A to 10 CFR Part 50 and the design objective given in Section II.D of Appendix I to 10 CFR Part

50. The specified limits governing the use of appropriate portions of the systems were specified as a suitable fraction of the dose design objectives set forth in Section II.B and II.C of Appendix I, 10 CFR Part 50 for gaseous effluents.

This control applies to the release of radioactive materials in gaseous effluents from each unit at the site. For units with shared Radwaste Treatment Systems, the gaseous effluents from the shared system are proportioned among the units sharing that system.

3/4.11.2.5 NOT USED 3/4.11.2.6 NOT USED 3/4.11.3 NOT USED 3/4.11.4 TOTAL DOSE This control is provided to meet the dose limitations of 10 CFR Part 190 that have been incorporated into 10 CFR Part 20 by 46 FR 18525. The control requires the preparation and submittal of a Special Report whenever the calculated doses due to releases of radioactivity and to radiation from uranium fuel cycle sources exceed 25 mrems to the whole body or any organ, except the thyroid, which shall be limited to less than or equal to 75 mrems. For sites containing up to four reactors, it is highly unlikely that the resultant dose to a MEMBER OF THE PUBLIC will exceed the dose limits of 40 CFR Part 190 if the individual reactors remain within twice the dose design objectives of Appendix l,and if direct radiation doses from the units (including outside storage tanks, etc.) are kept small. The Special Report will describe a course of action that should result in the limitation St. Lucie Plant ODCM Controls - Bases

Page 70 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOACTIVE EFFLUENTS BASES 3/4.11.4 TOTAL DOSE Continued of the annual dose to a MEMBER OF THE PUBLIC to within the 40 CFR Part 190 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, with the exception that dose contributions from other nuclear fuel cycle facilities at the same site or within a radius of 8 kilometers must be considered. If the dose to any MEMBER OF THE PUBLIC is estimated to exceed the requirements of 40 CFR Part 190, the Special Report with a request for a variance (provided the release conditions resulting in violation of 40 CFR Part 190 have not already been corrected), in accordance with the provisions of 40 CFR 190.11 and Subpart M of 10 CFR Part 20, is considered to be a timely request and fulfills the requirements of 40 CFR Part 190 until NRC staff action is completed. The variance only relates to the limits of 40 CFR Part 190 and does not apply in any way to the other requirements for dose limitation of 10 CFR Part 20, as addressed in Controls 3.11.1 1 ~

and 3.11.2.1. An individual is not considered a MEMBER OF THE PUBLIC during any period in which he/she is engaged in carrying out any operation that is part of the nuclear fuel cycle.

St. Lucie Plant ODCM Controls - Bases

Page 71 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM 3/4.12 RADIOLOGICALENVIRONMENTALMONITORING BASES 3/4.12.1 MONITORING PROGRAM The Radiological Environmental Monitoring Program required by this control provides representative measurements of radiation and of radioactive materials in those exposure pathways and for those radionuclides that lead to the highest potential radiation exposure of MEMBERS OF THE PUBLIC resulting from the plant operation. This monitoring program implementsSection IV.B.2 of Appendix I to 10 CFR Part 50 and thereby supplements the Radiological Effluent Monitoring Program by verifying that the measurable concentrations of radioactive materials and levels of radiation are not higher than expected on the basis of the effluent measurements and the modeling of the environmental exposure pathways.

Guidance for this monitoring program is provided by the Radiological Assessment Branch Technical Position on Environmental Monitoring, Revision 1, November 1979. The initially specified monitoring program will be effective for at least the first three years of commercial operation. Following this period, program changes may be initiated based on operational experience.

The required detection capabilities for environmental sample analyses are tabulated in terms of the lower limits of detection (LLDs). The LLDs required by Table 4.12-1 are 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 gosteriori (atter the fact) limit for a particular measurement.

Detailed discussion of the LLD and other detection limits can be found in Currie, L. A.,

Lower Limit of Detection: Definition and Elaboration of a Proposed Position for Radiological Effluent and Environmental Measurements, NUREG/CR-4007 (September 1984) and in the HASL Procedures Manual, HASL-300.

3/4.12.2 LAND USE CENSUS This control 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 given in the ODCM 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.

St. Lucie Plant ODCM Controls - Bases

Page 72 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM RADIOLOGICAL ENVIRONMENTALMONITORING BASES 3/4.12.2 LAND USE CENSUS Continued This census satisfies the requirements of Section IV.B.3 of Appendix I to 10 CFR Part 50.

Restricting the census to gardens of greater than 50 square meters 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 kilograms/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 kilograms per square meter.

3/4.12.3 INTERLABORATORYCOMPARISON PROGRAM This requirement for participation in an approved Interlaboratory Comparison Program is provided to ensure that independent checks on the precision and accuracy of the measurements of radioactive materials in environmental sample matrices are performed as part of the quality assurance program for environmental monitoring in order to demonstrate that the results are valid for the purposes of Section IV.B.2 of Appendix I to 10 CFR Part 50.

St. Lucie Plant ODCM Controls - Bases

Page 73 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION METHODOLOGY for the CONTROLS AND SURVEILLANCE REQUIREMENTS

Page 74 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION GLOSSARY OF COMMONLY USED TERMS IN METHODOLOGY SECTION DB Dose from Beta Radiation CC orcc Cubic centimeter Ci Curies - a unit of radioactivity see pCi C, Activity or concentration of a nuclide in the release source. Units of p,Ci, pCi/cc or p,Ci/ml CFR Code of Federal Regulations Control(s) Regulations for operating, controlling, monitoring and reporting radioactive effluent related activity as indicated by the Controls Section of the ODCM.

Dose The exposure, in mrem or mrad, the organ or the individual receives from radioactive effluents Dose Factor Normally, a factor that converts the effect of ingesting radioactive material into the body, to dose to a specific organ. Body elimination, radioactive decay and organ uptake are some of the factors that determine a dose factor for a given nuclide Dose Pathway A specific path that radioactive material physically travels through prior to exposing an individual to radiation. The Grass-Cow-Milk-Infant is a dose pathway Dose Rate The dose received per unit time (D/Q) A long term D over Q - a factor with units of 1/m~ which describes the deposition of particulate matter from a plume at a point downrange from the source. It can be thought of as what part of the cloud is going to fallout and deposit over one square meter of ground. (See Appendix F).

ECL Effluent Concentration Limit FUSAR Final Updated Safety Analysis Report,

Page 75 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTlON GLOSSARY OF COMMONLY USED TERMS IN METHODOLOGY SECTION (continued)

A gamma photon - The dose from Gammas in air, etc.

Ground Plane Radioactive material deposited uniformly over the ground emits radiation that produces an exposure pathway when an individual is standing, sitting, etc., in the area. It is assumed that an adult receives the sa'me exposure as an infant, regardless of the physical height differences. Only the whole body is considered for the ODCM.

H-3 Hydrogen-3 or Tritium, a weak Beta emitter I88DP Radioiodines and particulates with half-lives greater than 8 days Cubic Meters Square Meters muclide For the purposes of this manual, a radioactive isotope. Nuclide (i) signifies a specific nuclide, the 1st, 2nd, 3rd one under consideration. If nuclide (i) is l-131, then the Mi (dose factor) under consideration should be M( g3$ for example.

Organ For the ODCM either the bone, liver, thyroid, kidney, lung, Gl-LLI or the Whole Body. Whole Body is considered an organ for ease of writing the methodology in the ODCM.

pCi 1 pico-Curie = 1.E-12 Curies.

(Q Dot),. (Q Dot),. - Denotes a release rate in pCI/sec for nuclide (i).

Q, Denotes pCi of nuclide (i) released over a specified time interval.

Radioiodines Iodine-131 and Iodine I-133 for gaseous release pathways.

Page 76 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION GLOSSARY OF COMMONLY USED TERMS IN METHODOLOGY SECTION (continued)

Receptor The individual receiving the exposure in a given location or who ingests food products from an animal for example. A receptor can receive dose from one or more pathways.

Release Source(s) - A subsystem, tank or vent where radioactive material can be released independently of other radioactive release points, TS The St. Lucie Plant Standard Technical Specifications Total Body Same as Whole Body in Control Statements p,Ci micro Curies. 1 pCi = 10'uries. The pCi is the standard unit of radioactivity for all dose calculations in the ODCM.

(X/Q) A long term Chi over Q. It describes the physical dispersion characteristics of a semi-infinite cloud of noble gases as the cloud traverses downrange from the release point. Since Noble Gases are inert, they do not tend to settle out on the ground. (See Appendix F).

(X/Q)0 A long term Depleted Chi over Q. It describes the physical dispersion characteristics of a semi-infinite cloud of radioactive iodines and particulates as the cloud travels downrange. Since lodines and particulates tend to settle out (fallout of the cloud) on the ground, the (X/Q)0 represents what physically remains of the cloud and its dispersion qualities at a given. location downrange from the release point. (See Appendix F) ~

dt, d t or delta t A specific delta time interval that corresponds with the release interval data etc.

Page 77 of 182.

ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.0 LIQUID RELEASES METHODOLOGY

Page 78 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1 ~ 1 Radioactive Li uid Effluent Model Assum tions The FUSAR contains the official description of the site characteristics. The description that follows is a brief summary for dose calculation purposes:

The St. Lucie Plant is located on an island surrounded on two sides by the Atlantic Ocean and the Indian River, an estuary of the Atlantic Ocean.

Normally, all radioactive liquid releases enter the Atlantic Ocean where the Circulating Water Discharge Pipe terminates on the ocean floor at a point approximately 1200 feet offshore. No credit is taken for subsequent mixing of the discharge flume with the ocean. The diffusion of radioactive material into the ocean is dependent on the conditions of tide, wind and some eddy currents caused by the Gulf Stream. The conditions are sufficiently random enough to distribute the discharges over a wide area and no concentrating effects are assumed.

'here are no direct discharge paths for liquid effluents to either of the north or south private property boundary lines. The Big Mud Creek (part of the Indian River) does connect to a normally locked shut dam, that is intended to provide an emergency supply of circulating water to the Intake Cooling Water Canal in the event a Hurricane causes blockage of the Intake Canal. No radioactive water could be discharged directly into the Intake Cooling Water Canal because all plant piping is routed to the discharge canal and no back flow can occur. Consult the FUSAR for a detailed description of characteristics of the water bodies surrounding the plant site.

Only those nuclides that appear in the Liquid Dose Factor Tables will be considered for dose calculation.

Page 79 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.2 Determinin the Fraction F of 10 CFR Part 20 ECLs Limits for A Li uid Release Source Discussion - Control 3.11.1.1 requires that the sampling and analysis results of liquid waste (prior to discharge) be used with calculation methods in the in-plant procedures to assure that the concentration of liquid radioactive material in the unrestricted areas will not exceed ten times the concentrations specified in 10 CFR Part 20, Appendix B, Table 2. Chemistry Procedure C-70 "Processing Aerated Liquid Waste" provides instruction for ensuring batch release tanks will be sampled after adequate mixing. This section presents the calculation method to be used for this determination. This method only addresses the calculation for a specific release source. The in-plant procedures will provide instructions for determining that the summation of each release source's F values do not exceed the site's 10 CFR Part 20 ECL. The values for release rate, dilution rate, etc., will also have to be obtained from in-plant procedures. The basic equation is:

n F R C,r g

D r ) (ECL),

Where:

F the fraction of 10 CFR Part 20 ECL that would result if the release source was discharged under the conditions specified.

R The undiluted release rate in gpm of the release source.

Liquid Rad Waste = 170 gpm Steam Generator = 125 gpm/Steam Generator D The dilution flow in gpm of Intake Cooling Water or Circulating Water Pumps Intake Cooling flow is 14,500 gpm/pump Circulating Water flow is 121,000 gpm/pump CI The undiluted concentration of nuclide (i) in pCi/ml from sample assay (ECL), = The Effluent Concentration Limit of nuclide (i) in, pCi/ml from Table L-1. For dissolved or entrained noble gases the ECL value is 2 X 10~ pCi/ml for the sum of all gases.

Page 80 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.2 (continued)

The fraction of the 10 CFR Part 20 ECL limit may be determined by a nuclide-by-nuclide evaluation or for purposes of simplifying the calculation by a cumulative activity evaluation. If the simplified method is used, the value of 3 X 10 pCi/ml (unidentified ECL value) should be substituted for (ECL), and the cumulative concentration (sum of all identified radionuclide concentrations) or the gross concentration should be substituted for C,. As long as the diluted concentration (C, R/D) is less than 3 X 10~ pCi/ml, the nuclide-by-nuclide calculation is not required to demonstrate compliance with the 10 CFR Part 20 ECL.

The following section provides a step-by-step procedure for determining the ECL fraction.

1. Calculation Process for Solids A. Obtain from the in-plant procedures, the release rate value (R) in gpm for the release source.

B. Obtain from the in-plant procedures, the dilution rate (D) in gpm. No credit is taken for any dilution beyond the discharge canal flow.

C. Obtain (C,), the undiluted assay value of nuclide (i), in pCi/ml. If the simplified method is used, the cumulative concentration (Ct t I) is used.

total D. From Table L-1, obtain the corresponding (ECL) for nuclide (i) in pCi/ml.

The value of 3 X 10~ pCi/ml should be used for the simplified method.

E. Divide C, by (ECL), and write down the quotient F. If the simplified method is used, proceed to the next step. If determining the ECL fraction by the nuclide-by-nuclide evaluation, repeat steps 1.2.1,C

'hrough 1.2.1.E for each nuclide reported in the assay, for H, from previous month composite and for SR89/90 and Fe55 from previous quarter composite.

Page 81 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.2 (continued)

1. (continued)

G. Add each C/(ECL) quotient from step 1.2.1.E and solve for Fas follows; n

F -aR D I 1 (ECL) i F= a unit-less value where:

the value of Fcould be < or >1. The purpose of the calculation is to determine what the initial value of F is for a given set of release conditions.

H. The F, value just obtained is for one release pathway. The TS and ODCM control 3.11.1.1 allow for a site limit of F less than or equal to 10.

Chemistry Procedure C-70 administrativly controls each pathway's allocation. Compare your Fresult with the administrative control for the release pathway in C-70.

2. Calculation Process for Gases in Liquid A, Sum the p,CI/ml of each noble gas activity reported in the release.

B. The values of R and D from 1.2.1 above shall be used in the calculations below:

(sum of 1.2.2,A) p,Cilml F XR 1 D C. F, shall be less than 2 X 10 pCI/ml for the site for all releases in progress.

Each release point will be administratively controlled. Consult C-70 procedure for instructions.

Page 82 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.3 Determinin Set pints for Radioactive Li uid Effluent Monitors Discussion - Control 3.3.3.10 requires that the liquid effluent monitoring instrumentation alarm/trip setpoints be set to initiate an alarm or trip so that the radioactivity concentration in water in the unrestricted area does not exceed the concentration of 10 CFR Part 20, Appendix B, Table 2 as a result of radioactivity in liquid effluents (Control 3.11.1'.1). This section presents the method to be used for determining the instrumentation setpoints.

Gross cpm vs. total liquid activity curves are available for Liquid Effluent Monitors based on a composite of real release data. A direct correlation between gross cpm and the concentrations that would achieve 10 CFR Part 20 ECL levels in the discharge canal can be estimated. The 1978 liquid release data from annual reports was used to determine the average undiluted release concentration. These concentrations were then projected to a diluted concentration in the discharge canal assuming a 1 gpm release rate and a constant dilution flow of 121,000 gpm from 1 circ, water pump. This diluted activity was divided by the nuclide's respective 10 CFR Part 20 ECL value (Table L-1) to obtain the Mi column on the table that follows:

Page 83 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.3 (continued)

TABLE 1.3 NUCLIDE SYMBOL 1978 UNDILUTED pCI/rnl M, (no units) l-131 4.43 E-5 3.66 E-4 I-132 2.23 E-7 1.84 E-8 I-133 3.17 E-6 3.74 E-6 l-135 1.31 E-6 3.61 E-7 Na-24 1.72 E-7 2.84 E-8 Cr-51 2.51 E-5 4.15 E-7 Mn-54 5.64 E-6 1.55 E-6 Mn-56 1.11 E-9 1.31 E-10 Co-57 3.69 E-7 5.08 E-8 Co-58 1.51 E-4 6.24 E-5 Fe-59 .. 2.92 E-6 2.41 E-6 Co-60 3.66 E-5 1.01 E-4 Zn-65 4.55 E-7 7.52 E-7 Ni-65 8.23 E-7 6.8 E-8 Ag-110 1.96 E-6 2.70 E-6 Sn-113 5.75 E-7 1.58 E-7 Sb-122 2.15 E-6 1.78 E-6 Sb-124 8.40 E-6 9.92 E-6 W-187 3.51 E-6 9.67 E-7 Np-239 1.57 E-7 6.49 E-8 Br-82 3.64 E-7 7.52 E-8 Zr-95 2.82 E-5 1.17 E-5 Zr-97 4.05 E-6 3.72 E-6 Mo-99 3.24 E-6 1.34 E-6 Ru-1 03 3.84 E-8 1.06 E-8 Sb-125 2.26 E-6 - 6.23 E-7 Cs-134 2.14 E-5 1.97 E-4 Cs-136 7.82 E-7 1.08 E-6 Cs-137 4.85 E-5 4.01 E-4 Ba-140 6A4 E-7 6.65 E-7 Ce-141 3.04 E-8 8.38 E-9 Ce-144 2.37 E-6 6.53 E-6 4.01 E-4 (1) 1978 Undiluted Release Volume = 7 E 9 ml.

1978 Undil. Act Nuclide (I) gpm (release rate)

< 1 ECL, (from Table L-1) . 121000 gpm (dil rate)

Page 84 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.3 (continued)

A~ is the total average p,Ci/ml concentration of the reference mixture and M7 is the fraction of the MPC of all nuclides for the release conditions specified. Dividing A~by M, yields A~, which is the maximum total activity concentration equivalent to the'CL limit for the nuclide distribution typical of radwaste discharges. The-Technical Specifications allow 10 times the ECL limit where the Site Limit is 10 times A~ as follows:

~ro~ 4 01 E-4 0.34 p.Cilml = ECL Limit Mr1.18 E-3 Site Limit = 10 x A~ = 10 x 0.34 = 3A pCi/ml To provide conservative administrative control, A~ of 0.34 pCI/ml should be used as follows:

1. If the effluent monitor requires counts per minute units, a (C~ value in cpm should be obtained for the A (0.34 p,Ci/ml) from the release sources radioactive liquid effluent monitor curve of cpm vs. pCilml.

NOTE This setpoint is for a specified release of 1 gpm into 121000 gpm dilution flow,

2. For establishing the setpoint prior to liquid radwaste discharges, the A (or C Q will be adjusted as needed to account for actual release conditions (i.e., actual design maximum discharge flow rate, dilution flow rate and the contribution of dissolved and entrained Nobles Gas Activity to the Monitor Activity Level).

1.4 Determinin the Dose for Radioactive Li uid Releases'iscussion

- Control 3.11.1.2 requires calculations be performed at least once per 31 days to verify that cumulative radioactive liquid effluents do not cause a dose in excess of 1.5 mrem to the whole body and 5 mrem to any organ during any calendar quarter and not in excess of 3 mrem to the whole body and 10 mrem to any organ during any calendar year. This section presents calculational method to be used for this verification.

Page 85 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATIONMANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

This method is based on the methodology suggested by sections 4,3 and 4.3.1 of NUREG-0133 Revision 1, November, 1978. The dose factors are a composite of both the fish and shellfish pathways so that the fish-shellfish pathway is the only pathway for which dose will be calculated. For St. Lucie Plant, the adult is the most limiting age group, but the dose for child and teenager can also be calculated by this method provided that their appropriate dose factors are available for the organ of interest. Only those nuclides that appear in the Tables of this manual will be considered.

1. This method provides for a dose calculation to the whole body or any organ for a given age group based on real release conditions during a specified time interval for radioactive liquid release sources. The equation is:

AT dt~ Qtr (DF Where:

dose commitment in mrem received by organ T of age group (to be specified) during the release time interval dt,.

AT the composite dose factor for the fish-shellfish pathway for nuclide (i) for organ T of age group (to be specified) The AT values listed

~

in the Tables in this manual are independent of any site specific information and have the units mrem-ml p,Ci-hr dt, = the number of hours that the release occurs.

Q,, The total quantity of nuclide (i) release during dt, (p,CI)

(DF), The total volume of dilution that occurred during the release time period dt, (i.e., the circulating water flow times time)

Page 86 of 182 i

ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

1. (continued)

The doses associated with each release may then be summed to provide the cumulative dose over a desired time period (e.g., sum all doses for release during a 31 day period, calendar quarter or a year).

totalr Z D>~

Where:

the total dose commitment to organ 7 due to all releases during the desired time interval (mrem)

Based on the radionuclide distribution typical in radioactive effluents, the calculated doses to individuals are dominated by the radionuclides Fe-59, Co-58, Co-60, Zn-65, Nb-95, Cs-134 and Cs-137. These nuclides typically contribute over 95% of the whole body dose and over 90% of the Gl-LLI dose, which is the critical organ. Therefore, the dose commitment due to radioactivity in liquid effluents may be reasonably evaluated by limiting the dose calculation process to these radionuclides for the adult whole body and adult Gl-LLI. To allow for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.6 is introduced into the equation. After calculating the dose based on these 7 nuclides, the cumulative dose should be divided by 0.6, the conservatism factor. (i,e., D, = DQ0.6). Refer to Appendix B for a detailed evaluation and explanation of this limited analysis approach.

The methodology that follows is a step-by-step breakdown to calculate doses based on the above equation, Refer to the in-plant procedures to determine thy applicable organs, age groups and pathway factors. If the limited analysis approach is used, the calculation should be limited to the Adult whole body dose and Adult Gl-LLI dose from the fish and shellfish pathways. Only the 7 previously specified radionuclides should be evaluated. For the dose calculations to be included in annual reports, the doses to the adult groups and all organs should be evaluated for all radionuclides identified in the liquid effluents.

Page 87 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

(continued)

NOTE Table t.4 provides a convenient form for compiling the dose accounting.

A. Determine the time interval dt, that the release took place. The in-plant procedures shall describe the procedure for calculating dt, for official release purposes.

B. Obtain (DF), for the time period dt, from Liquid Waste Management Records for the release source(s) of interest.

C. Obtain Q,l for nuclide (i) for the time period dt, from the Liquid Waste Management Records D. Obtain A~ from the appropriate Liquid Dose Factor Table

Page 88 of 182 ST, LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued)

1. (continued)

TABLE 1A FISH AND SHELLFISH PATHWAY TIME/DATE START: TIME/DATE HOURS STOP'ls TOTAL DILUTION VOLUME:

AGE GROUP: ORGAN: DOSE FACTOR TABLE 4:

NUCLIDE (I) C, (p,CI) DOSE (i) mrem Fe-59 Co-58 Co-60 Zn-65 Nb-95 Cs-1 34 Cs-137 OTHERS TOTAL DOSE ~ = mrem If based on limited analysis, divide by 0.6 mrem E. Solve for Dose (i)

Page 89 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 1.4 (continued) 1 ~ (continued)

F. Repeat steps 1.4.1.C through 1.4.1.E for each nuclide reported and each organ required. If the limited analysis method is used, limit the radionuclides to Fe-59, Co-58, Co-60, Zn-65, Nb-95, Cs-134 and Cs-137

. and determine the adult whole body dose and the adult Gl-LLI dose.

G. Sum the Dose (i) values to obtain the total dose to organ T from the fish-shellfish pathway. If the limited analysis method is being used, divide the cumulative dose by a conservatism factor of 0.6 to account for any unexpected variability in radionuclide distribution 1.5 Pro ectin Dose for Radioactive Li uid Effluents Discussion - Control 3.11.1.3 requires that appropriate subsystems of the liquid radwaste treatment system be used to reduce radioactive material in liquid effluents when the projected doses due to the liquid effluent, from each unit, to UNRESTRICTED AREAS (see TS Figure 5.1-1) would exceed 0.06 mrem to the whole body or 0.2 mrem to any organ in a 31 day period. The following calculation method is provided for performing this dose projection, The method is based on dose as calculated in section 1.4 with the adult as the bases for projecting, Obtain the latest result of the monthly calculation of the adult whole body dose and the adult's highest organ dose. These doses can be obtained from the in-plant records, 2.. Divide each dose by the number of days the reactor plant was operational during the month.

3. Multiply the quotient of each. dose by the number. of days the reactor plant is projected to be operational during the next month. The products are the projected dose for the next month. These values should be adjusted as needed to account for any changes in failed fuel or other identifiable operating conditions that could significantly alter the actual releases.
4. If the projected dose is greater than 0.06 mrem to the whole body or greater than 0.2 mrem to the adults highest exposed organ, the liquid radwaste system shall be used.

Page 90 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.0 GASEOUS RELEASES METHODOLOGY

Page 91 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION Gaseous Effluent Model Assum tions Descri tion of Site - (The FUSAR contains the official description of the site characteristics. The description that follows is a brief summary for dose calculation purposes only). The St. Lucie Plant is located on an island surrounded on two sides by the Atlantic Ocean and the Indian River, an estuary of the Atlantic Ocean.

Private property adjoins the plant site in the north and south directions. A meteorological tower is located north of the plant near the site property line. There are 16 sectors, for dose calculation purposes, divided into 22.5'ach. The MET tower is calibrated such that a zero degree bearing coincides with TRUE NORTH.

A bearing of zero degrees dissects the north sector such that bearings of 348.75'nd 11.25'efine the boundaries of the north sector. The nearest distance to private property occurs in the north sector at approximately 0.97 miles. For ease of calculation, this 0.97 mile radius is assumed in all directions, although the real Unrestricted Area Boundary is defined in Figure 5.1-1 of the TS. Doses calculated over water areas do not apply to Controls or the annual report and may be listed as O.W, (over water) in lieu of performing calculations. The 0.97 mile range in the NW sector is O.W., but it was chosen as the worst sector for conservative dose calculations using the historical MET data.

Historical MET Data - MET data, between September 1, 1976 and August 31, 1978, from the St. Lucie MET Tower was analyzed by Dames 8 Moore of Washington, D.C. The methodology used by Dames 8 Moore was consistent with methods suggested by Regulatory Guide 1.111, Revision 1. Recirculation correction factors were also calculated for the St. Lucie Site and are incorporated into the historical MET tables (Tables M5, M6 and M7) in Appendix A of this manual. It was determined that these two years are representative data for this locale.

Dose Calculations - Dose calculations for Control dose limits are normally calculated using historical MET data and receptor location(s) which yield calculated doses no lower than the real location(s) experiencing the most exposure. Actual MET data factors are calculated and used in dose calculations for the annual reports.

Live MET data and hour-by-hour dose calculations are beyond the scope of this manual. Historical information and conservative receptor locations, etc., are only used for ease of Control dose limit calculations. Dose calculations for Control dose limits may be performed using actual MET data and real receptor locations. Any dose calculations performed with actual data should note the source of the data in the annual report. Actual MET data reduction should be performed in accordance with Regulatory Guide 1.111, Revision 1 and should incorporate Recirculation Correction Factors from Table M-4 of this manual.

Page 92 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.1 (continued)

Dose Calculations - (continued)

The St. Lucie site uses the long term ground release model for all gaseous effluents, Only those radionuclides that appear in the gaseous effluent dose factor tables will be considered in any dose calculations. Radioiodines are defined as Iodine-131 and I-133 for application to Controls. Other nuclides of Iodine may be included in dose calculations for ease of performing calculations, but their dose contribution does not have to be included in the Control requirements, Land Census information will apply to the calendar year following the year that the census was taken in to avoid splitting quarters, etc.

2.2 Determinin the Total Bod and Skin Dose Rates for Noble Gas Releases And Establishin Set pints for Effluent Monitors Discussion - Control 3.11.2.1 limits the dose rate from noble gases in airborne releases to <500 mrem/yr - total body and <3000 mrem/yr - skin. Control 3.3,3.11 requires that the gaseous radioactive effluent monitoring instrumentation be operable with alarm/trip setpoints set to ensure that these dose rate limits are not exceeded. The results of the sampling and analysis progr'am of Control Table 4.11-2 are used to demonstrate compliance with these limits.

The following calculation method is provided for determining the dose rates to the total body and skin from noble gases in airborne releases. The alarm/trip setpoints are based on the dose rate calculations. The Controls apply to all airborne releases on the site but all releases may be treated as if discharged from a single release point. Only those noble gases appearing in Table G-2 will be considered.

The calculation methods are based on Sections 5.1 and 5.2 of NUREG-0133, November 1978. The equations are:

For TOTAL BODY. Dose Rate:

n DR~ = Z K, (X/Q) (Q DOT),

I For TOTAL SKIN Dose Rate:

n DR,= Z [L, +.1.1 M) (X/Q) (Q DO7),.

I

Page 93 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

Where:

DR~ = total body dose rate from noble gases in airborne releases (mrem/yr)

DR,.= skin dose rate from noble gases in airborne releases (mrem/yr) a mathematical symbol to signify the operations to the right of the symbol are to be performed for each noble gas nuclide (i) through (n) and the individual nuclide doses are summed to arrive at the total dose rate for the release source.

the total body dose factor due to gamma emissions for each noble gas nuclide reported in the release source. (mrem-m'/pCI-yr) the skin dose factor due to beta emissions for each noble gas nuclide (i) reported in the assay of the release source. (mrem-m'/p.Ci-yr)

M, the air dose factor due to gamma emissions for each noble gas nuclide (i) reported in the assay of the release source. The constant 1.1 converts mrad to mrem since the units of M, are in (mrad-m'/p,CI-yr)

(X/Q) = for ground level, the highest calculated annual long term historic relative concentration for any of the 16 sectors, at or beyond the exclusion area boundary (sec/m')

(Q DOT), = The release rate of noble gas nuclide (i) in p,CI/sec from the release source of interest

1. Simplified Total Body Dose Rate Calculation From an evaluation of past releases, an effective total body dose factor (K,)

can be derived. This dose factor is in effect a weighted average total body dose factor, i.e., weighted by the radionuclide distribution typical of past operation. (Refer to Appendix C for a detailed explanation and evaluation of K,) The value of K,has been derived from the radioactive noble gas

~

effluents for the years 1978, 1979 and 1980. The value is:

68 /10, mrem-m',Ci-yr

Page 94 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATIONMANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

1. (continued)

This value may be used in conjunction with the total noble gas release rate (Q DOT),. to verify that the dose rate is within the allowable limits. To allow for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.8 is introduced into the calculation. The simplified equation is:

DR = ' (QDO7) I 0.8 To further simplify the determination, the historical annual average meteorological X/Q of 1.6 X 10'ec/m'From Table M-1) may be substituted into the equation. Also, the dose limit of 500 mrem/yr may be substituted for DR~. Making these substitutions yields a single cumulative (or gross) noble gas release rate limit. This value is:

Noble gas release rate limit = 3.5 X 10'CI/sec As long as the noble gas release rates do not exceed this value (3.5 X no additional dose rate calculations are needed to verify compliance 10',CI/sec),

with Control 3.11.2.1.

Page 95 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

2. Setpoint Determination To comply with Control 3.3.3.11, the alarm/trip setpoints are established to ensure that the noble gas releases do not exceed the value of 3.5 X which corresponds to a total body dose rate of 500 mrem/yr. The 10',CI/sec, method that follows is a step-by-step procedure for establishing the setpoints.

To allow for multiple sources of releases from different or common release points, the allowable operating setpoints will be controlled administratively by allocating a percentage of the total allowable release to each of the release sources.

A. Determine (V) the maximum volume release rate potential from the in-plant procedures for the release source under consideration. The units of (V) are ft'/min.

B. Solve for A, the activity concentration in pCI/cc that would produce the Y control dose rate Limit, 3.5 X 10'Ci X min X 4 X 60 eec eec (V) ft'.8317 X 104cc min A = p.CI/cc C. Refer to the pCI/cc vs. cpm curve for the Release Source's Gaseous Effluent Monitor cpm value (C), corresponding to the value of A above.

D. C is the,100% setpoint, assuming that there are no other release sources on the site.

t E. Obtain the current % allocated to this release source from the gaseous waste management logs.

Page 96 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

2. (continued)

F. The Operating setpoint SP

/0 allotted by in-Plant Procedures gP (C) c m g 100%

The total body dose is more limiting than the calculated skin dose. (Refer to Appendix C for a detailed evaluation.) Therefore, the skin dose rate calculations are not required if the simplified dose rate calculation is used (i.e., use of K, to determine release rate limits).

The calculation process of the following Section (2.2.3) is to be used if actual releases of noble gases exceed the above limit of 3.5 X 10'CI/sec.

Under these conditions, a nuclide-by-nuclide evaluation is required to evaluate compliance with the dose rate limits of Control 3.11.2.1.

3. Total Body and Skin Nuclide Specific Dose Rate Calculations The following outline provides a step-by-step explanation of how the total body dose rate is calculated on a nuclide-by-nuclide basis to evaluate compliance with Control 3.11.2.1. This method is only used if the actual releases exceed the value of 3.5 X 10'CI/sec.

A. The (X/Q) value = sec/m'nd is the most limiting sector at the exclusion area. (See Table M-1 for value and sector.)

B. Enter the release rate in ft'/min of the release source and convert it to:

(

min

)ft' 2.8317 ft'0 X10'cc <

cc/sec volume release rate min sec-

Page 97 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

3. (continued)

C. Solve for(Q DOT), for nuclide (i) by obtaining the pCI/cc assay value of the release source and multiplying it by the product of 2.2.3.B above.

(Q DOT), = (nuclide [i])

(assay) p.Ci X (2.2.3.B value) cc CC sec (Q DOT), = p,Ci/sec for nuclide (i)

D. To evaluate the total body dose rate obtain the K, value for nuclide (i) from Table 6-2.

E. Solve for DR>>.,

DR, = K(XQ) (Q DOT), = '

p,Ci-yr X

m'ecX DR~, = mrem total body dose from nuclide (i) for yr the specified release source F. To evaluate the skin dose rate, obtain the L,. and M, values from Table G-2 for nuclide (i).

G. Solve for DR,~,

DRsg~ ( [Lj + 1 1 M(] (X/Q)(Q DOT)(

DR~, = mrem skin dose fromnuclide (i) forthe yr specified release source

Page 98 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.2 (continued)

3. (continued)

H. Repeat steps 2.2.3.D through 2.2.3.6 for each noble gas nuclide (i) reported in the assay of the release source.

I. The Dose Rate to the Total Body from radioactive noble gas gamma radiation from the specified release source is:

J. The Dose Rate to the skin from noble gas radiation from the specified release source is:

n DR~= Z DR,.,

I The dose rate contribution of this release source shall be added to all other gaseous release sources that are in progress at the time of interest. Refer to in-plant procedures and logs to determine the Total Dose Rate to the Total Body and Skin from noble gas effluents.

Page 99 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 Determinin the Radioiodine 8 Particulate Dose Rate to An Or an From Gaseous Releases Discussion - Control 3.11.2.1 limits the dose rate from l-131, l-133, tritium and all radionuclides in particulate form with half lives >eight days to <1500 mrem/yr to any organ. The following calculation method is provided for determining the dose rate from radioiodines (see 2.1) and particulates and is based on Section 5.2.1 and 5.2.1.1 through 5.2.1.3 in NUREG-0133, November 1978. The Infant is the controlling age group in the inhalation, ground plane and cow/goat milk pathways, which are the only pathways considered for releases. The long term (X/Q)o (depleted) and (D/Q) values are based on historical MET data prior to implementing Appendix I, Only those nuclides that appear on their respective table will be considered. The equations are:

For Inhalation Pathwa excludin H-3:

n R

DR~8op Z (XQ)p (Q D07)]

I For Ground Plane:

n DR~8pp Z 'D/Q)(Q D07)]

For Grass-Cow/Goat-Milk:

n DR~8pp = Z R (D/Q)(Q D07))

I For Tritium Releases Inhalation 8 Grass-Cow/Goat-Milk:

DR~~ RHN AQ)p (Q DO/~~

Normally should be Pi~, but Ri~ values are the same, thus use Ri~ tables in Appendix A.

Page 100 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

For Total Dose Rate from I 8 8DP and H-3 To An Infant Or an T:

The organ of interest for the infant age group Where'&8DP The applicable pathways Dose Rate in mrem/yr to the organ T from iodines and 8 day particulates DR.3T Dose Rate in mrem/yr to organ T from Tritium DR~ Total Dose Rate in mrem/yr to organ T from all pathways under consideration A mathematical symbol to signify the operations to the right of the symbol are to be performed for each nuclide (i) through (n) and the individual nuclide dose rates are summed to arrive at the total dose rate from the pathway.

A mathematical symbol to indicate that the total dose rate D, to organ T is the sum of each of the pathways dose rates R, The dose factor for nuclide (i) for organ T for the pathway specified (units vary by pathway)

P, The dose factor for instantaneous ground plane pathway in units of mrem-m sec p,Ci-yr

Page 101 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

From an evaluation of the radioactive releases and environmental pathways, the grass-cow/goat-milk pathway has been identified as the most limiting pathway with the infant's thyroid being the critical organ. This pathway typically contributes >90%

of the total dose received by the infant's thyroid and the radioiodine contribute essentially all of this dose. Therefore, it is possible to demonstrate compliance with the release rate limit of Control 3.11.2.1 for radioiodines and particulates by only evaluating the infant's thyroid dose for the release of radioiodines via the grass-cow/goat-milk pathway. The calculation method of Section 2.3.3 is used for this determination. If this limited analysis approach is used, the dose calculations for other radioactive particulate matter and other pathways need not be performed.

Only the calculations of Section 2.3.3 for the radioiodines need be performed to demonstrate compliance with the Control dose rate limit.

The calculations of Sections 2.3.1, 2.3.2, 2.3.4 and 2.3.5 may be omitted. The dose rate calculations as specified in these sections are included for completeness and are to be used only for evaluating unusual circumstances where releases of particulate materials other than radioiodines in airborne releases are abnormally high. The calculations of Sections 2.3.1, 2.3.2, 2.3,4 and 2.3.5 will typically be used to demonstrate compliance with the dose rate limit of Control 3.11,2.1 for radioiodines and particulates when the measured releases of particulate material (other than radioiodines and with half lives >8 days) are >10 times the measured releases of radioiodines.

The Inhalation Dose Rate Method:

NOTE The H-3 dose is calculated as per 2.3.4.

A. 'he controlling location is assumed to be an.infant located in the sector at the mile range. The (X/Q)~

for this location is sec/m'. This value is common to all nuclides, (See Table M-2 for value, sector arid range.)

B. Enter the release rate in ft'/min of the release source and convert to cc/sec.

min ft' ft'0 2,8317 X 10'CC

~ min sec:

Page 102 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

(continued)

C. Solve for (Q DOT).,for nuclide (i) by obtaining the pCi/cc assay value of the release source activity and multiplying it by the product of 2.3.1.B above.

(nuclide [i] assay) p.Ci ( Value 2,3. 1 .B) cc (Q QQ l J~ <

CC sec (Q DOT), = pCi/sec for nuclide (i)

D. Obtain the R, value from Table G-5 for the organ T.

E. Solve for DR, mrem-m' sec pCi QR R (g/Q) (Q pQ7) p,Ci-yr m'ec <

DR~ = mrem The Dose Rate to organ T from nuclide (i) yr F. Repeat steps 2.3.1.C through 2.3.1,E for each nuclide (i) reported in the assay of the release source.

G. The Dose Rate to the Infants organ T from the Inhalation Pathway is:

+ DR for all nuclides except H-3. This dose rate shall be added to the other

'athways as per 2.3.5 - Total Organ Dose, NOTE Steps 2.3.1.C through 2.3.1.6 need to be completed for each organ T of the Infant.

Page 103 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

2. The Ground Plane Dose Rate Method:

NOTE Tritium dose via the ground plane is zero.

A. The controlling location is assumed to be an Infant located in the sector at the mile range. The (D/Q) for this location is 1/m'. This value is common to all nuclides. (See Table M-2 for sector, range and value.)

B. Enter the release rate in ft'/min of the release source and convert to cc/sec.

C.

min ft' 2.8317 ft'0 X 10'cc X min sec.

cdsec Solve for (Q DOT), for nuclide (i) by obtaining the pCi/cc assay value from the release source activity and multiplying it by the product of 2.3.2.B above.

(nucllide [I] assay) p,CI (Value 2.3.2.B) cc (Q DO7) X CC sec (Q DOT), = pCi/sec for nuclide (i)

D. Obtain the P, value from Table G-3 E., Solve for DR, DR,. = P (D/Q) (Q DOT), modem m.

p,Ci-yr sec

ec X 1 X p,Ci DR, = mrem The Dose Rate to organ T from nuclide (i) err

Page 104 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTtON 2.3 (continued)

2. (continued)

F. Repeat steps 2.3.2.C through 2.3.2.E for each nuclide (i) reported in the assay of the release source.

G. The Dose Rate to the Infant's Whole Body from the Ground Plane Pathway Is:

DRgrp) = DR) + DR2+ + DR for all nuclides. This dose rate shall be added to the other pathways as per 2.3.5.

3. The Grass-Cow/Goat-Milk Dose Rate Method:

NOTE H-3 dose is calculated as per 2.3.4.

A. The controlling animal was established as a located in the sector at miles. The (D/Q) for this location is 1/m'. This value is common to all nuclides. (See Table M-3 for sector, range and value.)

B. Enter the anticipated release rate in ft'/min of the release source and

~,

convert to cc/sec.

min X 2.83'f7 X 10'cc X min ft 60 sec.

C. Solve for (Q DOT),. for nuclide (i) by obtaining the p.CI/cc assay value of the release source activity and multiplying it by th'e product of 2.3.3.B above.

(Q QQ ~I Jg (nuclide f assay) 11 .

IjCi < ( value 2.3.3. B) cc CC sec (Q DOT), = p.CI/sec for nuclide (i)

Page 105 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

3. (continued)

D. Obtain the R, value from Table G-6(7) (whichever is the controlling animal, cow/goat, for infant).

If the limited analysis approach is being used, limit the calculation to the infant thyroid.

E. Solve for DR;T mrem-m' sec

< X pCi m'ec 1

OR R (O/Q) (Q pQ7) pCi-yr DR~ = mrem the Dose Rate to organ T from nuclide (i) yr F. Repeat steps 2.3.3.C through 2.3.3.E for each nuclide (i) reported in the assay of the release source.

Only the radioiodines need to be included if the limited analysis approach is being used.

G. The Dose Rate to the Infant's organ T from Grass- -Milk pathway is:

D Rgrass -Milkr = DR, + DR~+ + DR for all nuclides. This dose rate shall be added to the other pathways as

, per 2.3.5 - Total Organ Dose.

NOTE Steps 2.3.3.C through 2,3.3.G need to be completed for each organ of the Infant. Limit the calculation to the infant thyroid if the limited analysis approach is being used.

Page 106 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

4. The H-3 Dose Rate Method:

A. The controlling locations and their (X/Q)~ values for each pathway are:

Inhalation - Infant at range in the sector.

(X/Q)() = sec/m'See Table M-2 for range, sector and value)

Ground Plane - Does not apply to H-3 Grass-Cow/Goat-Milk- located in the sector at miles with an Infant at the exclusion area in the sector drinking the milk. The (X/Q)~ for the location is (X/Q)~ = sec/m . (From Table M-6 at the range and sector corresponding to the location of the Milk Animal above.)

B. Enter the anticipated release rate in ft'/min of the release source and convert it to cc/sec.

3

< 2.8317 X 10'c < min mm fP 60 sec.

cc/sec volume release rate C. Solve for (Q DOT)<< for Tritium, by obtaining the p,Ci/cc assay value of the release source and multiplying it by the product of 2.3.4.B above.

(Q DOT)

'H-3) p,C>

X cc sec (Q DOT)., = pCI/sec activity release rate D. Obtain the Tritium dose factor (R,) for Infant organ T from:

PATH TABLE ¹ Inhalation G-5 Grass-Cow/Goat-Milk G-6(7)

Page 107 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

4. (continued)

E. Solve for D~ (Inhalation) using the (X/Q)0 for inhalation from 2.3.4.A and R<<(inhalation) from 2.3.4.D.

DR<<R<<(X/Q) 0 (Q DOT)<<

DR<< = mrem/yr from H-3 Infant Inhalation for organ 7 F. Solve for D., (Grass- -Milk) using the (X/Q)0 for Grass- -Milk from 2,3.4.A and R~ (Grass- -Milk) from 2.3.4.D DR~ = R<<(+Q)o (Q DO7)<<

DR<< = mrem/yr from H-3 Infant G. Repeat steps 2.3.4.D through 2.3A.F for each Infant organ T of interest.

H. The individual organ dose rates from H-3 shall be added to the other organ pathway dose rates as per 2.3.5.

Page 108 of 182 ST. LUCIE PLANT, CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.3 (continued)

I

5. Determinin the Total Or an Dose Rate from lodines 8D-Particulates and H-3 from Release Source s A. The following table describes all the pathways that must be summed to arrive at the total dose rate to an organ T:

PATHWAY DOSE RATE STEP ¹ REF.

Inhalation (I8 8DP) 2.3.1,6 Ground Plane (188DP) (Whole Body only) 2.3.2.G Gr- Milk (I88DP) 2.3.3.G Inhalation (H-3) 2.3.4.E Gr- -Milk (H-3) 2.3 4.F DR~ (sum of above)

B. Repeat the above summation for each Infant organ T.

C. The DR, above shall be added to all other release sources on the site that will be in progress at any instant. Refer to in-plant procedures and logs to determine the Total DR~ to each organ.

2A Determinin the Gamma Air Dose for Radioactive Noble Gas Release Source s Discussion - Control 3.11.2.2 limits the air dose due to noble gases in gaseous effluents for gamma radiation to <5 mrads for the quarter and to <10 mrads in any calendar year. The following calculation method is provided for determining the noble gas gamma air dose and is based on section 5.3.1 of NUREG-0133, November 1978. The dose calculation is independent of any age group. The equation may be used for Control dose calculation, the dose calculation for the annual report or for projecting dose, provided that the. appropriate value of (X/Q) is used as outlined in the detailed explanation that follows. The equation for gamma air dose is:

n Dy -air = Z 3.17 X 10~ M, (X/Q) Q, I

Page 109 of 182 ST. LUCIE,PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2,4 (continued)

Where:

D-air gamma air dose in mrad from radioactive noble gases.

A mathematical. symbol to signify the operations to the right side of the symbol are to be performed for each nuclide (i) through (n) and summed to arrive at the total dose, from all nuclides reported during the interval. No units apply.

3.17 X 10 the inverse of the number of seconds per year with units of year/sec.

i M; the gamma air dose factor for radioactive noble gas nuclide (i) in units of mrad-m',Ci-yr (X/Q) the long term atmospheric dispersion factor for ground level releases in units of sec/m'. The value of (X/Q) is the same for all nuclides (i) in the dose calculation, but the value of (X/Q) does vary depending on the Limiting Sector the Control is based on, etc.

Q; the number of micro-curies of nuclide (i) released (or projected) during the dose calculation exposure period. (e.g., month, quarter or. year)

Page 110 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.4 (continued)

From an evaluation of past releases, a single effective gamma air dose factor (M,)

has been derived, which is representative of the radionuclide abundances and corresponding dose contributions typical of past operation. (Refer to Appendix C for a detailed explanation and evaluation of M,). The value of M,has been derived from the radioactive noble gas effluents for the years 1978, 1979 and 1980.

The value is m

M,= 74 X10 p,Ci/m'his value may be used in conjunction with the total noble gas releases ( Q,) to simplify the dose evaluation and to verify that the cumulative gamma air dose is within'the limits of Control 3.11.2.2. To allow for any unexpected variability in the radionuclide distribution, a conservatism factor of 0.8 is'introduced into the calculation; The simplified equation is 3 17 X 10 OJ BI/

08 Meff X/g j gf For purposes of calculations, the appropriate meteorological dispersion (X/Q) from Table M-1 should be used. Control 3.11.2.2 requires that the doses be evaluated once per 31 days, (i.e., monthly). The quarterly dose limit is 5 mrads, which corresponds to a monthly allotment of 1.7 mrads. If the 1.7 mrads is substituted for D..a cumulative noble gas monthly release objective can be calculated. This value is 36,000 Ci/month, noble gases.

As long as this value is not exceeded in any month, no additional calculations are needed to verify compliance with the quarterly noble gas release limits of Control 3,11.2.2, Also, the gamma air dose is more limiting than the beta air dose.

Therefore, the beta air dose does not need to be calculated per Section 2.5 if the M,dose factor is used to determine the gamma air dose. Refer to Appendix C for a detailed evaluation and explanation.

The calculations of Section 2.5 may be omitted when this limited analysis approach is used, but should be performed if the radionuclide specific dose analysis is performed. Also, the radionuclide specific calculations will be performed for inclusion in annual reports.

Page 111 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.4 (continued)

The following steps provide a detailed explanation of how the radionuclide specific dose is calculated. This method is used to evaluate quarterly doses in accordance with Control 3.11.2.2 if the releases of noble gases during any month of the quarter exceed 36,000 Ci ~

1. To.determine the applicable (X/Q) refer to Table M-1 to obtain the value for the type of dose calculation being performed. (i.e., Quarterly Control or Dose Projection for examples), This value of (X/Q) applies to each nuclide (i).
2. Determine (M,) the gamma air dose factor for nuclide (i) from Table G-2.
3. Obtain the micro-Curies of nuclide (i) from the in-plant radioactive gaseous waste management logs for the sources under consideration during the time interval.
4. Solve for D, as follows:

3'17 X10" yr X M, mrad m (XIQ) sec 9 P~i Di X sec pCi yr m',

= mrad = the dose from nuclide (i)

5. Perform steps 2.4.2 through 2.4.4 for each nuclide (i) reported during the time interval in the source.
6. The total gamma air dose for the pathway is determined by summing the D, dose of each nuclide (i) to obtain D-air dose.

D,.= D, + D, + + D= mrad NOTE Compliance with a 1/31 day Control, Quarterly Control, yearly or 12 consecutive months Control can be demonstrated by the limited analysis approach using M,. Using this method only requires that steps 2.4.2 through 2.4.5 be performed one time, remembering that the dose must be divided by 0.8, the conservatism factor.

7. Refer to in-plant procedures for comparing the calculated dose to any applicable limits that might apply.

Page 112 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.5 Determinin the Beta Air Dose for Radioactive Noble Gas Releases Discussion - Control 3.11.2.2 limits the quarterly air dose due to beta radiation from noble gases in gaseous effluents to <10 mrads in any calendar quarter and <20 mrads in any calendar year. The following calculation method is provided for determining the beta air dose and is based on Section 5.3.1 of NUREG-0133, November 1978. The dose calculation is independent of any age group. The equation may be used for Control dose calculation, dose calculation for annual reports or for projecting dose, provided that the appropriate value of (X/Q) is used as outlined in the detailed explanation that follows.

The equation for beta air dose is:

n D~ Z = 3.17 X10 N(XIQ) Qi I

Where:

B-air beta air dose in mrad from radioactive noble gases.

a mathematical symbol to signify the operations to the right side of the symbol are to be performed for each nuclide (i) through (n) and summed to arrive at the total dose, from all nuclides reported during the interval. No units apply.

3.17 X 10 = the inverse of the number of seconds per year with units of year/sec, N[ the beta air dose factor for radioactive noble gas nuclide (i) in units of mrad-m'j,Ci-yr (X/Q) the long term atmospheric dispersion factor for ground level releases in units of sec/m'. The, value of (X/Q) is the same for all nuclides (i) in the dose calculation, but the value of (X/Q) does vary depending on the Limiting Sector the Control is based on, etc.

Q, the number of micro-Curies of nuclide (i) released (or projected)

-during the dose calculation exposure period

Page 113 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.5 (continued)

The beta air dose does not have to be evaluated if the noble gas gamma air dose is evaluated by the use of the effective gamma air dose factor (M,). However, if the nuclide specific dose calculation is used to evaluate compliance with the quarterly gamma air dose limits (Section 2.4), the beta air dose should also be evaluated as outlined below for the purpose of evaluating compliance with the quarterly beta air dose limits of Control 3.11.2.2. The following steps provide a detailed explanation of how the dose is calculated.

1. To determine the applicable (X/Q) refer to Table M-1 to obtain the value for the type of dose calculation being performed (i.e., quarterly Control or Dose projection for examples). This value of (X/Q) applies to each nuclide (i).
2. Determine (N,) the beta air dose factor for nuclide (i) from Table G-2.
3. Obtain the micro-curies of nuclide (i) from the in-plant radioactive gaseous waste management logs for the source under consideration during the time interval.

L

4. Solve for D., as follows:

3.17 X10 yr < + m<<d-m' (XIQ) sec X Q V~i I

sec Ij.Ci-yr M3 1 D, = mrad = the dose from nuclide (i)

5. Perform steps 2.5.2 through 2.5.4 for each nuclide (i) reported during the time interval in the release source.
6. The total beta air dose for the pathway is determined by summing the D, dose of each nuclide (i) to obtain D~,.dose.

DB.,;,=D, +D2 + D= mrad

7. Refer to in-plant procedures for comparing the calculated dose to any applicable limits that might apply.

Page 114 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 Determinin the Radioiodine and Particulate Dose To An Or an From Cumulative Releases Discussion - Control 3.11.2.3 limits the dose to the whole body or any organ resulting from the release of 1-131, l-133, tritium and particulates with half-lives >8 days to <7.5 mrem during any calendar quarter and <15 mrem during any calendar year. The following calculation method is provided for determining the critical organ dose due to releases of radioiodines and particulates and is based on Section 5.3.1 of NUREG-0133, November 1978. The equation can be used for any age group provided that the appropriate dose factors are used and the total dose reflects only those pathways that are applicable to the age group. The (X/Q)0 symbol represents a DEPLETED-(X/Q) which is different from the Noble Gas (X/Q) in that (X/Q)~ takes into account the loss of l88DP and H-3 from the plume as the semi-infinite cloud travels over a given distance. The (D/Q) dispersion factor represents the rate of fallout from the cloud that affects a square meter of ground at various distances from the site. The l88DP and H-3 notations refer to 1-131, I-133 Particulates having half-lives >8 days and Tritium. For ease of calculations, dose from other Iodine nuclides may be included (see 2.1). Tritium calculations are always based on (X/Q),. The first step is to calculate the l&8DP and H-3 dose for each pathway that applies to a given age group. The total dose to an organ can then be determined by summing the pathways that'apply to the receptor in the sector.

The equations are:

For Inhalation Pathway (excluding H-3):

n D,~,~p = Z 3.17 X 10 R, (X/Q)OQ, I

For Ground Plane or Grass-Cow/Goat-Milk t

n Dg8pp Z 3 17 X 10 Rg (DIQ)Qj I

For each pathway above (excluding Ground Plane) For Tritium:

D 3.17 X 10~R~/X/Q)~Q,

Page 115 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

For Total Dose from Particulate Gaseous effluent to organ T of a specified age group:

Z Dr Z fDI&8op + D Where:

the organ of interest of a specified age group the applicable pathways for the age group of interest Dl&8DP Dose in mrem to the organ T of a specified age group from radioiodines and 8D Particulates DH-3 Dose in mrem to the organ T of a specified age group from Tritium DT Total Dose in mrem to the organ T of a specified age group from Gaseous particulate Effluents A mathematical symbol to signify the operations to the right of the symbol are to be performed for each nuclide (i) through (n) and the individual nuclide doses are summed to arrive at the total dose from the pathway of interest to organ T.

Z A mathematical symbol to indicate that the total dose DT to Z organ T is the sum of each of the pathway doses of I88DP and H-3 from gaseous particulate effluents.

3.17 X 10 = The inverse of the number of seconds per year with units of year/sec.

R, The dose factor for nuclide (i) (or H-3) for pathway Z to organ T of the specified age group. The units are either mrem-m'or pathways mrem-m' sec for pathways yr- pCi using (XIQ)~ <R yr- pC/ using (D/Q)

Page 116 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION'MANUALODCM METHODOLOGY SECTION 2.6 (continued)

(X/Q)~ The depleted-(X/Q) value for a specific location where the receptor is located (see discussion). The units are sec/m'D/Q) the deposition value for a specific location where the receptor is located (see discussion). The units are 1/m'here m=meters.

Q, The number of micro-Curies of nuclide (i) released (or projected) during the dose calculation exposure period.

QH-3 the number of micro-Curies of H-3 released (or projected) during the dose calculation exposure period.

As discussed in Section 2.3, the grass-cow/goat-milk pathway has been identified as the most limiting pathway with the infant's thyroid being the critical organ. This pathway typically contributes >90% of the total dose received by the infant's thyroid and the radioiodine contributes essentially all of this dose. Therefore, it is possible to demonstrate compliance with the dose limit of Control 3.11.2.3 for radioiodines and particulates by only evaluating the infant's thyroid dose due to the release of radioiodines via the grass-cow/goat-milk pathway. The calculation method of Section 2.6.3 is used for this determination.

The dose determined by Section 2.6.3 should be divided by a conservatism factor of 0.8. This added conservatism provides assurance that the dose determined by this limited analysis approach will not be < the dose that would be determined by evaluating all radionuclides and all pathways. If this limited analysis approach is used, the dose calculations for other radioactive particulate matter and other pathways need not be performed. Only the calculations of Section 2.6.3 for the radioiodines are required to demonstrate compliance with the-Control dose limit.

However, for the dose assessment included in Annual Reports, doses will be evaluated for the infant age groups and all organs via.all designated pathways from radioiodines and particulates measured in the gaseous effluents according to the sampling and analyses required in Control Table 4.11-2. The following steps provide a detailed explanation of how the dose is calculated for the given pathways:

Page 117 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

1. The Inhalation Dose Pathwa Method:

NOTE The H-3 dose should be calculated as per 2.6.4.

A. Determine the applicable (X/Q)0 from Table M-2 for the location where the receptor is located. This value is common to each nuclide (i)

B. Determine the R,. factor of nuclide (i) for the organ T and age group from Table G-5.

C. Obtain the micro-Curies (Q,) of nuclide (i) from the radioactive gas waste management logs for the release source(s) under consideration during the time interval.

D. Solve for D, Di = 3 17 X 10 Ri(X/Q)oQ D,= mrem from nuclide (i)

E. Perform steps 2.6.1,B through 2.6.1.D for each nuclide (i) reported during the time interval for each organ.

F. The Inhalation dose to organ T of the specified age group is determined by summing the D, Dose of each nuclide (i) o(nhaia<<on (Age Group) mrem Refer to 2.6.5 to determine the total dose to organ T from radioiodines 8 8D Particulates

Page 118 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

2. The Ground Plane Dose Pathwa Method:

NOTE Tritium dose via the ground plane is zero. The Whole Body is the only organ considered for the Ground Plane pathway dose.

A. Determine the applicable (D/Q) from Table M-2 for the location where the receptor is located. This (D/Q) value is common to each nuclide (i)

B. Determine the Ri factor of nuclide (i) for the whole body from Table G-4.

The ground plane pathway dose is the same for all age groups.

C. Obtain the micro-Curies (Q,) of nuclide (i) from the radioactive gas waste management logs for the source under consideration.

D. Solve for D, DI 3.17 X 10 RI (DIQ)QI mrem for nuclide (i)

E. Perform steps 2.6.2.B through 2.6.2.D for each nuclide (i) reported during the time interval.

F. The Ground Plane dose to the whole body is determined by summing the Di Dose of each nuclide (i)

Gr.PI.-WBody 1

+ D2 + + n mrem Refer to step 2.6.5 to calculate total dose to the Whole Body.

Page 119 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

3. The Grass-Cow/Goat-Milk Dose Pathwa Method:

NOTE Tritium dose is calculated as per 2.6.4.

A. A cow or a goat, will be the controlling animal; (i.e., dose will not be the sum of each animal), as the human receptor is assumed to drink milk from only the most restrictive animal. Refer to Table M-3 to determine which animal is controlling based on its (D/Q).

B. Determine the dose factor R.,for nuclide (i), for organ T, from

1. From Table G-6 for a cow, or;
2. From Table G-7 for a goat.

If the limited analysis approach is being used, limit the calculation to the infant thyroid.

C. Obtain the micro-Curies'(Q,.) of nuclide (i) from the radioactive gas waste management logs for the release source under consideration during the time interval.

D. Solve for D,.

D, = 3.17 X 10 R,(D/Q)Q, D., = mrem from nuclide (i)

E. Perform steps 2.6.3.B through 2.6.3.D for each nuclide (i) reported during the time interval. Only the radioiodines need to'e included if the limited analysis approach is used.

Page 120 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

3. (continued)

F. The Grass-Cow-Milk (or Grass-Goat-Milk) pathway dose to organ T is determined by summing the Di dose of each nuclide(i).

D~.~~ (or D~~.~) = D, + D, + + D= mrem The dose to each organ should be calculated in the same manner with steps 2.6.3.B through 2.6.3.F. Refer to step 2.6.5 to determine the total dose to organ T from radioiodines 88D Particulates. If the limited analysis approach is being used the infant thyroid dose via the grass-cow(goat)-milk pathway is the only dose that needs to be determined. Section 2.6.5 can be omitted.

4. The Gaseous Tritium Dose Each Pathwa Method:

A. The controlling locations for the pathway(s) has already been determined by: Inhalation - as per 2.6.1.A Ground Plane - not applicable for H-3 Grass-Cow/Goat-Milk - as per 2.6.3.A B. Tritium dose calculations use the depleted (X/Q)0 instead of (D/Q) Table

~

M-2 describes where the (X/Q)~ value should be obtained from.

C. Determine the Pathway Tritium dose factor (R<<) for the organ T of interest from the Table specified below:

MILK AGE INHALATION COW GOAT Infant G-5 G-6" G-7 D. Obtain the micro-Curies (Q) of Tritium from the radioactive gas waste management logs (for projected doses - the micro-Curies of nuclide (i) to be projected) for the release source(s) under consideration during the time interval The dose can be calculated from a single release source, but the

~

total dose for Control limits or quarterly reports shall be from all gaseous release sources.

Page 121 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.6 (continued)

4. (continued)

E. Solve for D<<

DQ 3 3.17 X 10 R<<(NQ)DQ D<< mrem from Tritium in the specified pathway for organ T of the specified age group

5. Determinin the Total Or an Dose From lodines 8D-Particulates and H-3 From Cumulative Gaseous Releases NOTE Control dose limits for l&8DP shall consider dose from all release sources from the reactor unit of interest.

A. The following pathways shall be summed to arrive at the total dose to organ T from a release source or if applicable to Control, from all release sources:

PATHWAY DOSE (mrem) STEP 0 REF.

Inhalation (l&8DP) 2.6.1.F Ground Plane (I88DP) (Whole Body only) 2.6.2.F Grass- Milk (I88DP) 2.6.3.F Inhalation (H-3) 2.6.4.E Grass- -Milk (H-3) 2,6.4.E Dose~ = (sum of above)

B. The dose to each of the INFANT'S ORGANS shall be calculated:

BONE, LIVER, THYROID, KIDNEY, LUNG, WHOLE BODY, &. Gl-LLI The INFANT organ receiving the highest exposure relative to its Control Limit is the most critical organ for the radioiodine 8 8D Particulates gaseous effluents.

Page 122 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 2.7 Pro'ectin Dose for Radioactive Gaseous Effluents Discussion - Control 3.11.2.4 requires that the waste gas holdup system be used to reduce releases of radioactivity when the projected doses in 31 days due to gaseous effluent releases, from each unit, to areas at and beyond the SITE BOUNDARY (see TS Figure 5-1-1) would exceed 0.2 mrad for gamma radiation and 0.4 mrad for beta radiation. The following calculation method is provided for determining the projected doses. This method is based on using the results of the calculations performed in Sections 2.4 and 2.5.

1. Obtain the latest results of the monthly calculations of the gamma air dose (Section 2.4) and the beta air dose if performed (Section 2.5). These doses

. can be obtained from the in-plant records.

2. Divide these doses by the number of days the plant was operational during the month.
3. Multiply the quotient by the number of days the plant is projected to be operational during the next month. The product is the projected dose for the next month. The value should be adjusted as needed to account for any changes in failed-fuel or other identifiable operating conditions that could significantly alter the actual releases.
4. If the projected doses are >0.2 mrads gamma air dose or > 0.4 mrads beta air dose, the appropriate subsystems of the waste gas holdup system shall be used.

Page 123 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 3.0 40 CFR 190 Dose Evaluation Discussion - Dose or dose commitment to a real individual from all uranium fuel cycle sources be limited to <25 mrem to the whole body or any organ (except thyroid, which is limited to <75 mrem) over a period of 12 consecutive months. The following approach should be used to demonstrate compliance with these dose limits. This approach is based on NUREG-0133, Section 3.8.

O.

3.1 Evaluation Bases Dose evaluations to demonstrate compliance with the above dose limits need only be performed if the quarterly doses calculated in Sections 1.4, 2.4 and 2.6 exceed twice the dose limits of Controls 3.11 1.2.a, 3.11.1.2.b, 3.11.2.2a,

~

3.1.2.2b, 3.11.2.3a and 3.11.2.3b respectively; i.e., quarterly doses exceeding 3 mrem to the whole body (liquid releases), 10 mrem to any organ (liquid releases), 10 mrads gamma air dose, 20 mrads beta air dose or 15 mrem to the thyroid or any organ from radioiodines and particulates (atmospheric releases). Otherwise, no evaluations are required and the remainder of this section can be omitted.

3.2 Doses From Li uid Releases For the evaluation of doses to real individuals from liquid releases, the same calculation method as employed in Section 1.4 will be used. However, more realistic assumptions will be made concerning the dilution and ingestion of fish and shellfish by individuals who live and fish in the area. Also, the results of the Radiological Environmental Monitoring program will be included in determining more realistic dose to these real people by providing data on actual measured levels of plant related radionuclides in the environment.

3.3 Doses From Atmos heric Releases For the evaluation of doses to real individuals from the atmospheric releases, the same calculation methods as employed in Section 2.4 and 2.6 will be used.

In Section 2.4, the total body dose factor (K) should be substituted for the gamma air dose factor (M,.) to determine the total body dose. Otherwise the same calculation sequence applies. However, more realistic assumptions will be made concerning the actual location of real individuals, the meteorological conditions and the consumption of food (e.g., milk). Data obtained from the latest land use census (Control 3.12.2) should be used to determine locations for evaluating doses. Also, the results of the Radiological Environmental Monitoring program will be included in determining more realistic doses to these real people by providing data on actual measured levels of radioactivity and radiation at locations of interest,

Page 124 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 Annual Radioactive Effluent Re ort Discussion - The information contained in a annual report shall not apply to any Control. The reported values are based on actual release conditions instead of historical conditions that the Control dose calculations are based on. The Control dose limits are therefore included in item 1 of the report, for information only. The ECLs in item 2 of the report shall be those listed in Tables L-1 and G-1 of this manual. The average energy in item 3 of the report is not applicable to the St. Lucie Plant, The format, order of nuclides and any values shown as an example in Tables 3.3 through 3.8 are samples only. Other formats are acceptable if they contain equivalent information. A table of contents should also accompany the report. The following format should be used:

RADIOACTIVE EFFLUENTS - SUPPLEMENTAL INFORMATION

1. Regulatory Limits:

1.1 For Radioactive liquid waste effluents:

a. The concentration of radioactive material released from the site (see Figure 5.1-1 in TS-A) shall be limited to ten times the concentrations specified in 10 CFR Part 20.1001-20.2401, Appendix B, Table 2, Column 2 for radionuclides other than dissolved or entrained noble gases. For dissolved or entrained noble gases, the concentration shall be limited to 2 X 10~ pCi/ml total activity.
b. The dose or dose commitment to a MEMBER OF THE PUBLIC from radioactive materials in liquid effluents released from each reactor unit to unrestricted areas (See Fig. 5.1-1 in TS-A) shall be limited during any calendar quarter to <1,5 mrem to the wholekody and to <5 mrem to any organ and <3 mrem to the whole body and <10 mrem to any organ during any calendar year.

1.2 For Radioactive Gaseous Waste Effluents:

a. The dose rate resulting from radioactive materials released in gaseous effluents to areas at or beyond the SITE BOUNDARY (See TS Figure 5.1-1) shall be limited to the following values:

The dose rate limit for noble gases shall be <500 mrem/yr to the total body and <3000 mrem/yr to the skin and

Page 125 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

1. (continued) 1.2 (continued)
a. (continued)

The dose rate limit from l-131, I-133, Tritium and particulates with half-lives >8 days shall be <1500 mrem/yr to any organ.

b. The air dose (see Figure 5.1-1 in the TS-A) due to noble gases released in gaseous effluents, from each reactor unit, to areas at and beyond the SITE BOUNDARY shall be limited to the following:

During any calendar quarter, to <5 mrad for gamma radiation and <10 mrad for beta radiation and during any calendar year to <10 mrad for gamma radiation and <20 mrad for beta radiation

c. The dose to a MEMBER OF THE PUBLIC from l-131, l-133, Tritium and all radionuclide,in particulate form, with half-lives >8 days in gaseous effluents released from each reactor unit to areas at and beyond the SITE BOUNDARY (see Figure 5.1-1 in the TS-A) shall be limited to the following:

During any calendar quarter to <7.5 mrem to any organ and during any calendar year to <15 mrem to any organ.

2. Effluent Limiting Concentrations:

Air - as per attached Table 6-1 Water - as per attached Table L-1

3. Average energy of fission and activation gases in gaseous effluents is not applicable to the St. Lucie Plant.

Page 126 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

4. Measurements and Approximations of Total Radioactivity:

A summary of liquid effluent accounting methods is described in Table 3.1.

A summary of gaseous effluent accounting methods is described in Table 3.2.

Estimate of Errors:

LIQUID GASEOUS Error Topic Avg. % Max. % Avg. % Max. %

Release Point Mixing 2 5 NA NA Sampling 1 2 5 Sample Preparation 5 1 5 Sample Analysis 3 10 3 10 Release Volume 2 5 4 15 Total % 9 30 10 35 (above values are examples only)

The predictability of error for radioactive releases can only be applied to nuclides that are predominant in sample spectrums. Nuclides that are near background relative to the predominant nuclides in a given sample could easily have errors greater than the above listed maximums.

Page 127 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

4. (continued)

TABLE 3.1 RADIOACTIVE LIQUID EFFLUENT SAMPLING AND ANALYSIS LIQUID METHOD OF SOURCE FREQUENCY TYPE OF ANALYSIS ANALYSIS EACH BATCH PRINCIPAL GAMMA EMITTERS p.h.a.

RELEASES'AMPLING MONITOR TRITIUM TANK L.S MONTHLY COMPOSITE GROSS ALPHA G.F.P.

QUARTERLY COMPOSITE Sr-89, Sr-90, Fe-55 C.S. 5 L.S.

FOUR PER MONTH PRINCIPAL GAMMA EMITTERS p.h.a.

STEAM AND DISSOLVED GASES GENERATOR TRITIUM L.S.

RELEASES MONTHLY COMPOSITE GROSS ALPHA G.F.P.

QUARTERLY COMPOSITE Sr-89, Sr-90, Fe-55 C.S. 5 L.S.

TABLE NOTATION:

Boric Acid Evaporator condensate is normally recovered to the Primary Water Storage Tank for recycling into the reactor coolant system and normally does not contribute to liquid waste effluent totals.

p.h,a. gamma spectrum pulse height analysis using Lithium Germanium detectors. All peaks are identified and quantified.

L.S, Liquid Scintillation counting C.S. Chemical Separation G,F.P. Gas Flow Proportional Counting

Page 128 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

4. (continued)

TABLE 3.2 RADIOACTIVE GASEOUS WASTE SAMPLING AND ANALYSIS GASEOUS .

METHOD OF SAMPLING FREQUENCY TYPE OF ANALYSIS SOURCE ANALYSIS Waste Gas Each Tank Principal Gamma Emitters G, p.h.a.

Decay Tank Releases Containment Each Purge Principal Gamma Emitters G, p.h.a.

Purge Releases H-3 L.S.

Four per Month Principal Gamma Emitters (G, C, P) - p.h.a.

H-3 L.S.

Plant Vent Monthly Composite Gross P-G.F.P.

(Particulates) Alpha Quarterly Composite Sr-90 C.S. 8.

(Particulates) Sr-89 L.S.

Gaseous Grab Sample Charcoal Filter Sample, Particulate Filter Sample L.S. Liquid Scintillation Counting C.S. Chemical Separation p.h.a. Gamma spectrum pulse height analysis using Lithium Germanium detectors. All peaks are identified and quantified.

G.F.P. Gas Flow Proportional Counting

Page 129 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

5. Batch Releases A. Liquid
1. Number of batch releases:
2. Total time period of batch releases: minutes
3. Maximum time period for a batch release: minutes
4. Average time period for a batch release: minutes
5. Minimum time period for a batch release: minutes
6. Average dilution stream flow during the period (see Note 1 on Table 3.3): GPM All liquid releases are summarized in tables B. Gaseous
1. Number of batch releases:
2. Total time period for batch releases: minutes
3. Maximum time period for a batch release: minutes
4. Average time period for batch releases: minutes

'. Minimum time period for a batch release; minutes AII gaseous waste releases are summarized in tables

Page 130 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

6. Unplanned Releases A. Liquid
1. Number of releases:
2. Total activity releases: Curies B. Gaseous
1. Number of releases:
2. Total activity released: Curies C. See attachments (if applicable) for:
1. A description of the event and equipment involved.
2. Cause(s) for the unplanned release.
3. Actions taken to prevent a recurrence
4. Consequences of the unplanned release
7. Description of dose assessment of radiation dose from radioactive effluents to the general public due to their activities inside the site are reported on the January annual report.
8. Offsite dose calculation manual revisions initiated during this reporting period.

See Control 3.11.2.6 for required attachments to the Annual Report.

9. Solid waste and irradiated fuel shipments as per requirements of Control 3.11.2.6.

Page 131 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION 4.0 (continued)

10. Process Control Program (PCP) revisions as per requirements of TS 6.13.
11. Major changes to Radioactive Liquid, Gaseous and Solid Waste Treatment Systems as per requirements of Control 3.11.2.5.

Page 132 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8( LIGHT COMPANY ST. LUOIE UNIT ¹ ANNUAL REPORT - /~ THROUGH ~

TABLE 3.3: LIQUID EFFLUENTS - SUMMATION OF ALL RELEASES

/

UNIT QUARTER 4 QUARTER 4 A, Fission and Activation Products Total Release - (Not including Tritium, Gases, Alpha) Ci

2. Average Diluted Concentration During Period pCi/ML B. Tritium
1. Total Release Ci
2. Average Diluted Concentration During Period pCI/ML C. Dissolved and Entrained Gases
1. Total Release Ci
2. Average Diluted Concentration During Period pCi/ML D. Gross Alpha Radioactivity
1. Total Release Ci

Page 133 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION TABLE 3.3: LIQUID EFFLUENTS - SUMMATION OF ALL RELEASES (continued)

QUARTER ¹ QUARTER ¹ E. Volume of Waste Released F.

Period'NIT (Prior to Dilution)

Volume of Dilution Water LITERS Used During LITERS 1 - The volume reported should be for the entire interval of the reporting period, not just during release intervals. This volume should also be used to calculate average dilution stream flow during the period.

Page 134 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTiON FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT 4 ANNUAL REPORT - ~~ THROUGH ~~

TABLE 3.4: LIQUID EFFLUENTS (EXAMPLE FORMAT)

CONTINUOUS MODE BATCH MODE NUCLIDES RELEASED'-131 UNIT QUARTER ¹ QUARTER ¹ QUARTER ¹ QUARTER ¹ CI I-133 CI l-135 CI NA-24 CI CR-51 CI MN-54 CI CO-57 CI CO-58 CI FE-59 CI CO-60 CI ZN-65 CI Nl<5 CI AG-110 CI SN-113 CI SB-122 CI SB-124 CI W-187 CI NP-239 CI ZR-95 CI MO-99 CI E RU-103 CI CS-134 CI CS-136 CI CS-137 CI BA-140 CI E CE-141 CI BR-82 CI ZR-97 CI SB-125 CI

" All nuclides that were detected should be added to the partial list of the example format.

Page 135 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION DOSE CALCULATION MANUAL ODCM 17'FFSITE METHODOLOGY SECTION TABLE 3.4: LIQUID EFFLUENTS (EXAMPLE FORMAT)

(continued)

CONTINUOUS MODE BATCH MODE NUCLIDES RELEASED QUARTER ¹ QUARTER ¹ QUARTER ¹ QUARTER ¹ CE-144 CI SR-89 CI SR-90 CI UNIDENTIFIED CI TOTAL FOR PERIOD (ABOVE) CI AR-41 CI KR-85 CI XE-131M CI XE-133 CI XE-133M CI XE-135 CI

Page 136 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8c LIGHT COMPANY ST. LUCIE UNIT ¹ TABLE 3.5 LIQUID EFFLUENTS - DOSE SUMMATION Age Group: Adult Location: Any Adult Exposure Interval: From Through CALENDAR YEAR DOSE Fish & Shellfish Pathway to Organ (mrem)

BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY

Page 137 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER S. LIGHT COMPANY ST. LUCIE UNIT ¹ ANNUAL REPORT - ~~ THROUGH ~~

TABLE 3.6: GASEOUS EFFLUENTS - SUMMATION OF ALL RELEASES UNIT QUARTER ¹ QUARTER ¹ A. Fission and Activation Gases

1. Total Release Ci
2. Average Release Rate For Period pCi/SEC B. Iodines
1. Total Iodine-131 Ci
2. Average Release Rate for Period p,Ci/SEC C. Particulates 1, Particulates T-1/2 > 8 Days Ci
2. Average Release Rate for Period p.Ci/SEC
3. Gross Alpha Radioactivity Ci E D. Tritium Total Release Ci
2. Average Release Rate for Period p,Ci/SEC E

Page 138 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM METHODOLOGY SECTION FLORIDA POWER & LIGHT COMPANY ST. LUCIE UNIT 0 ANNUAL REPORT - /~ THROUGH / /

TABLE 3.7 GASEOUS EFFLUENTS - GROUND LEVEL RELEASES (EXAMPLE FORMAT)

CONTINUOUS MODE BATCH MODE NUCLIDES RELEASED'ission UNIT QUARTER ¹ QUARTER ¹ QUARTER ¹ QUARTER ¹ Gases AR-41 CI KR-85 CI KR-85M CI KR-87 CI KR-88 CI XE-131M CI XE-133 CI XE-133M CI XE-135 CI XE-135M CI XE-138 CI UNIDENTIFIED CI TOTAL FOR PERIOD (ABOVE) CI

2. Iodines l-131 CI I-133 CI I-135 CI TOTAL FOR PERIOD (ABOVE) CI
3. Particulates CO-58 CI SR-89 CI SR-90 CI F All nuclides that were detected should be added to the partial list of the example format.

Page 1 182 ST. ~LANT C (. -MISTRY OPERATING PR ~ a)URE NO. C-200, REVISION. (7 OFFSITE DOSE CALCULATIONMANUAL ODCM METHODOLOGY SECTION FLORIDA POWER 8( LIGHT COMPANY ST. LUCIE UNIT 0 TABLE 3.8 GASEOUS EFFLUENTS - DOSE SUMMATION - CALENDAR YEAR AGE GROUP: INFANT EXPOSURE INTERVAL: FROM THROUGH BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY PATHWAY (mrem) (mrem) (mrem) (mrem) (mrem (mrem) (mrem)

Ground Plane (A)

Grass- -Milk(B)

Inhalation (A)

TOTAL (A) SECTOR: RANGE: miles (B) COW/ GOAT SECTOR: RANGE'iles NOBLE GASES CALENDAR YEAR (mrad)

Gamma Air Dose Beta Air Dose Sector: Range: 0.97 miles I NOTE The dose values above were calculated using actual meteorological data during the specified time interval with MET data reduced as per Reg. Guide 1.111, March 1976.

Page 140 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX A ECL, DOSE FACTOR AND HISTORICAL METEOROLOGICAL TABLES

Page 141 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-1 EFFLUENT CONCENTRATION LIMITS IN WATER IN UNRESTRICTED AREAS NOTE If a nuclide is not listed below, refer to 10 CFR Part 20, Appendix B, Table 2 Effluent Concentrations Column 2 and use the most conservative ECL listed for the nuclide.

Nuclide ECL (pCi/ml) Nuclide ECL (pCi/ml) Nuclide ECL (p.Ci/ml)

H-3 1 E-3 Y-90 7 E-6 Te-129 4 E-4 Na-24 5 E-5 Y-91m 2 E-3 Te-131m 8 E-6 P-32 9 E-6 Y-91 8 E-6 Te-131 8 E-5 Cr-51 5 E-4 Y-92 4 E-5 Te-132 9 E-6 Mn-54 3 E-5 Y-93 2 E-5 I-130 2 E-5 Mn-56 7 E-5 Zr-95 2 E-5 l-131 1 E-6 Fe-55 1 E-4 Zr-97 9 E-6 I-132 1 E-4 Fe-59 1 E-5 Nb-95 3 E-5 I-133 7 E-6 Co-57 6 E-5 Nb-97 3 E-4 I-134 4 E-4 Co-58 2 E-5 Mo-99 2 E-5 I-135 3 E-5 Co-60 3 E-6 Tc-99m 1 E-3 Cs-134 9 E-7 Ni-65 1 E-4 Tc-101 2 E-3 Cs-136 6 E-6 Cu-64 2 E-4 Ru-103 3 E-5 Cs-137 1 E-6 Zn-65 5 E-6 Ru-105 7 E-5 Cs-138 4 E-4 Zn-69 8 E-4 Ru-106 3 E-6 Ba-139 2 EA Br-82 4 E-5 Ag-110 6 E-6 Ba-140 8 E-6 Br-83 9 E-4 Sn-113 3 E-5 Ba-141 3 EA Br-84 4 E-4 In-113m 7 E-4 Ba-142 7 E-4 Rb-86 7 E-6 Sb-122 1 E-5 La-140 9 E-6 Rb-88 4 EA Sb-124 7 E-6,, La-142 1 EA Rb-89 9 E-4 Sb-125 3 E-5 Ce-141 3 E-5 Sr-89 8 E-6 Te-125m 2 E-5 Ce-143 2 E-5 Sr-90 5 E-7 Te-127m 9 E-6 Ce-144 3 E-6 Sr-91 2 E-5 Te-127 1 E-4 Pr-144 6 EA Sr-92 4 E-5 Te-129m 7 E-6 W-187 3 E-5 Np-239 2 E-5

Page 142 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER p,CI/ML)

NUCLIDE BONE LIVER THYROID KIDNEY GI-LLI WHOLE LUNG BODY H-3 0. 'p 3.60E-01 3.60E-01 3.60E-01 3.60E-01 3.60E-01 3.60E-01 NA-24 6.08E-01 6.08E-01 6.08E-01 6.08E-01 6.08E-01 6.08E-01 6.08E-01 P-32 1.67E+07 1.05E+06 0. 0. 0. 1.88E+06 6.47E+05 CR-51 0. 0. 3.34E+00 1.23E+00 7.42E+00 1.41E+03 5.59E+00 MN-54 7.07E+03 0. 2.10E+03 0. 2.17E+04 1.35E+03 MN-56 0. 1.78E+02 0. 2.26E+02 0. 5.68E+03 3.'I 7E+01 FE-55 1.15E+05 5.19E+05 0. 0. 6.01E+05 2.03E+05 1.36E+05 FE-59 8.08E+04 1.92E+05 0. 0. 5.32E+04 6.33E+05 7.29E+04 CO-57 0. 1.42E+02 0. 0. 0. 3.60E+03 2.36E+02 CO-58 0. 6;05E+02 0. 0. 0. 1.22E+04 1.35E+03 CO-60 0. 1.74E+03 0. 0. 0. 3.26E+04 3.83E+03 NI-65 ~ 2.02E+02 2.63E+01 0. 0. 0. 6.65E+02 1.20E+01 CU-64 0. 2.15E+02 0. 5.41E+02 0. 1.83E+04 1.01E+02 ZN-65 1.62E+05 5.13E+05 0. 3.43E+05 0. 3.23E+05 2.32E+05 ZN-69 3.43E+02 6.60E+02 0. 4.27E+02 0. 9.87E+01 4.57E+01 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 143 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER p,CI/ML)

NUCLIDE BONE LIVER THYROID WHOLE KIDNEY LUNG GI-LLI BODY BR-82 0. 0. 0. 0. 0. 4.68E+00 4.08E+00 BR-83 0. 0. 0. 0. 0. 1.05E-01 7.26E-02 BR-84 0. 0. 0. 0. 0. 7.38E-07 9.42E-02 BR-85 0. 0. 0. 0. 0. 0. 3.86E-03 RB-86 0. 6.25E+02 0. 0. 0. 1.23E+02 2.91E+02 RB-88 0. 1.79E+00 0. 0. 0. 0. 9.50E-01 RB-89 0. 1.19E+00 0. 0. 0. 0. 8.38E-01 SR-89 5.01E+03 0. 0. 0. 0. 8.01E+02 1.44E+02 SR-90 1.23E+05 0. 0. 0. 0. 1.65E+03 3.02E+04 SR-91 9.43E+01 0: 0. 0. 0. 4.75E+02 4.15E+00 SR-92 3.50E+01 0. 0. 0. 0. 6.91E+02 1.51E+00 Y-90 ~ 6.07E+00 0. 0. 0. 0. 6.43E+04 1.63E-01 Y-91M 5.74E-02 0. 0. 0. 0. 1.68E-01 2.23E-03 Y-91 8.89E+01 0. 0. 4.89E+04 2.38E+00 Y-92 5.34E-01 0. 0. 0. 0. 9.33E+03 1.56E-02 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 144 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200,-REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID ISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCI/ML)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY Y-93 1.69E+00 0. 0. 0. 0. 5.36E+04 4.67E-02 ZR-95 1.60E+01 5.13E+00 0. 8.09E+00 0. 1.59E+04 3.47E+00 ZR-97 8.82E-01 1.78E-01 0. 2.69E-01 0. 5.51E+04 8.19E-02 NB-95 4.48E+02 2.49E+02 0. 2.47E+02 0. 1.51E+06 9.79E+01 NB-97 3.76E+00 9.50E-01 0. 1.11E+00 0. 3.51E+03 3.47E-01 MO-99 0. 1.28E+02 0. 2.90E+02 0. 2.97E+02 2.43E+01 TC-99M 1.30E-02 3.67E-02 0. 5.57E-01 1.80E-02 2.17E+01 4.67E-01 TC-101 1.33E-02 1.93E-02 0. 3.47E-01 9.82E-03 0. I.89E-01 RU-103 1.07E+02 0. 0. 4.09E+02 0. 1.25E+04 4.61E+01 RU-105 8.90E+00 0. 0. 1 15E+02

~ 0. 5.44E+03 3.51E+00 RU-106 1.59E+03 0. 3.08E+03 0. 1.03E+05 2.01E+02 AG-110 1.57E+03 0.'.45E+03

0. 2.85E+03 0. 5.92E+05 8.62E+02 SB-124 2.78E+02 5.23E+00 6.71E-01 0. 2.15E+02 7.85E+03 1.10E+02 SB-125 2.20E+02 2.37E+00 1.96E-01 0. 2.30E+04 1.95E+03 4.42E+01 TE-125M 2.17E+02 7.89E+01 6.54E+01 8.83E+02 0. 8.67E+02 2.91E+01 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 145 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES "

PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCi/ML)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY TE-127M 5.50E+02 1.92E+02 1.40E+02 2.23E+03 0. 1.84E+03 6.70E+01 TE-127 8.92E+00 3.20E+00 6.61E+00 3.63E+01 0. 7.04E+02 1.93E+00 TE-129M 9.32E+02 3.49E+02 3.20E+02 3.89E+03 0. 4.69E+03 1.48E+02 TE-129 2.55E+00 9.65E-01 1.95E+00 1.07E+01 0. 1.92E+00 6.21E-01 TE-131M 1.41E+02 6.87E+01 1.09E+02 6.95E+02 6.81E+03 5.72E+01 TE-131 1.60E+00 6.68E-01 1.31E+00 7.00E+00 0. 2.39E-01 5.04E-01 TE-132 2.05E+03 1.33E+02 1.46E+02 . 1.28E+03 0. 6.25E+03 1.24E+02 I-130 3.98E+01 1.18E+02 1.50E+04 1.83E+02 0. 1.01E+02 4.63E+01 I-131 2.18E+02 3.13E+02 1.02E+05 5.36E+02 0. 8.24E+01 1.79E+02 I-132 1.07E+01 2.85E+01 3.76E+03 4.55E+01 0. 5.36E+00 1.01E+01 I-133 7.51E+01 1.'30E+02 2.51E+04 2.27E+02 0. 1.15E+02 3.98E+01 I-134 5.57E+00 1.51E+01 1.96E+03 2.41E+01 0. 1.32E-02 5.41E+00 I-135 2.33E+01 6.14E+01 8.03E+03 9.77E+01 0. 6.88E+01 2.25E+01 CS-134 6.85E+03 1.63E+04 0. 5.29E+03 1.75E+03 2.85E+02 1.33E+04 CS-136 7.17E+02 2.83E+03 0. 1.58E+03 2.16E+02 3.22E+02 2.04E+03 Based on 1 pCi/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 146 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE L-2 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS FOR LIQUID DISCHARGES PATHWAY - SALT WATER FISH AND SHELLFISH AGE GROUP - ADULT ORGAN DOSE FACTOR (MREM/HR PER pCI/ML)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY CS-137 8.79E+03 1.20E+04 0. 4.09E+03 1.36E+03 2.31E+02 7.88E+03 CS-138 6.08E+00 1.20E+01 0. 8.84E+00 8.73E-01 5.12E-05 5.96E+00 BA-139 7.87E+00 5.61E-03 0. 5.24E-03 3.18E-03 1.39E+01 2.30E-01 BA-140 1.65E+03 2.07E+00 0. 7.04E-01 1. I8E+00 3.39E+03 1.09E+02 BA-141 2.89E-03 0. 2.68E-03 1.64E-03 1.80E-09 1.29E-01 BA-142 1.73E+00 1.78E-03 0. 1.50E-03 1.01E-03 0. 1.09E-01 LA-140 1.58E+00 7.95E-01 0. 0. 0. 5.83E+04 2.11E-01 LA-142 8.07E-02 3.67E-02 0. 0. 0. 2.68E+02 9.15E-03 CE-141 3.43E+00 2.32E+00 0. 1.08E+00 0. 8.87E+03 2.63E-01 CE-143 6.05E-01 4.47E+02 0. 1.97E-01 0. 1.67E+04 4.95E-02 CE-144 1.79E+02 ~ 7:48E+01 0. 4.43E+01 0. 6.05E+04 9.60E+00 PR-144 1.91E-02 7.88E-03 0. 4.45E-03 0. 2.73E-09 9.65E-04 W-187 9.17E+00 7.68E+00 0. 0. 0. 2.51E+03 2.69E+00 NP-239 3.56E-02 3.50E-03 0. 1.08E-02 0. 7.12E+02 1.92E-03 Based on 1 pCI/sec release rate of each isotope in discharge flow of 1 cc/sec with no additional dilution

Page 147 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE 6-1 EFFLUENT CONCENTRATION LIMITS IN AIR IN UNRESTRICTED AREAS NOTE If a nuclide is not listed below, refer to 10 CFR Part 20, Appendix B, Table 2 Effluent Concentrations Column 1 and use the most conservative ECL listed for the nuclide.

Nuclide ECL pCi/ml Nuclide ECL pCi/ml Nuclide ECL pCi/ml Ar<1 1 E-8 Co-57 9 E-10 Sb-124 3 E-10 Kr-83m 5 E-5 Co-58 1 E-9 Sb-125 7 E-10 Kr-85m 1 E-7 Fe-59 5 E-10 Te-125m 1 E-9 Kr-85 7 E-7 Co-60 5 E-11 Te-127m 4 E-10 Kr-87 2 E-8 Zn-65 4 E-10 Te-129m 3 E-10 Kr-88 9 E-9 Rb-86 1 'E-9 I-130 3 E-9 Kr-89 None Rb-88 9 E-8 l-131 2 E-10 Kr-90 None Sr-89 2 E-10 l-132 2 E-8 Xe-131m 2 E-6 Sr-90 6 E-12 I-133 1 E-9 Xe-133m 6 E-7 Y-91 2 E-10 I-134 6 E-8 Xe-133 5 E-7 Zr-95 4 E-10 1-135 6 E-9 Xe-135m 4 E-8 Nb-95 2 E-9 Cs-134 2 E-10 Xe-135 7 E-8 Ru-103 9 E-10 Cs-136 9 E-10 Xe-137 None Ru-106 2 E-11 Cs-137 2 E-10 Xe-138 2 E-8 Ag-110 1 E-10 Ba-140 2 E-9 H-3 1 E-7 Sn-113 8 E-10 La-140 2 E-9 P-32 1 E-9 In-113m 2 E-7 Ce-141 8 E-10 Cr-51 3 E-8 Sn-123 2 E-10 Ce-144 2 E-11 Mn-54 1 E-9 Sn-126 8 E-11

Page 14 182 ST. ~LANT C i. NllSTRY OPERATING PR ~ JURE NO. C-200, REI/ISIOi../'FFSITE DOSE CALCULATION MANUAL ODCM TABLE 6-2 DOSE FACTORS FOR NOBLE GASES*

TOTAL BODY SKIN DOSE FACTOR GAMMAAIR BETA AIR DOSE FACTOR L, DOSE FACTOR DOSE FACTOR RADIONUCLIDE K, M, N, (mrem/yr per pCi/m') (mrem/yr per pCi/m') (mrad/yr per pCi/m') (mrad/yr per pCi/m')

Kr-83m 1.93E+01 2.88E+02 7.56E-02*'.17E+03 Kr-85m 1.46E+03 1.23E+03 1.97E+03 Kr-85 1.61E+01 1.34E+03 1.72E+01 1.95E+03 Kr-87 5.92E+03 9.73E+03 6. I7E+03 1.03E+04 Kr-88 1.47E+04 2.37E+03 1.52E+04 2.93E+03 Kr-89 1.66E+04 1.01E+04 1.73E+04 1.06E+04 Kr-90 1.56E+04 7.29E+03 1.63E+04 7.83E+03 Xe-131m 9.15E+0 I 4.76E+02 1.56E+02 1.11E+03 Xe-133m 2.51E+02 9.94E+02 3.27E+02 1.48E+03 Xe-133 2.94E+02 3.06E+02 3.53E+02 1.05E+03 Xe-135m 3.12E+03 7.11E+02 3.36E+03 7.39E+02 Xe-135 1.81E+03 1.86E+03 1.92E+03 2.46E+03 Xe-137 1 42E+03 1.22E+04 1.51E+03 1.27E+04 Xe-138 8.83E+03 4.13E+03 9.21E+03 4.75E+03

'Ar-41 8.84E+03,. 2.69E+03 9.30E+03 3.28E+03

  • The listed dose factors are for radionuclides that may be detected in gaseous effluents.
    • 7.56E-02 = 7.56 X 10

Page 1 '82 ST. ~LANT C i ~ IVIISTRY OPERATING P dURE NO. C-200, REVISION.. I OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-3 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS P I FOR GASEOUS DISCHARGES

. PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - INFANT ORGAN DOSE FACTOR -

(SQ. METER MREM/YR PER pCi/Sec)

NUCLIDE WHOLE BODY H-3 0.

CR-51 6.68E+06 MN-54 1.10E+09 FE-59 3.92E+08 CO-57 1.64E+08 CO-58 5.27E+08 CO-60 4.40E+09 ZN-65 6.87E+08 RB-86 1.29E+07 SR-89 3.07E+04 SR-90 5.94E+05 Y-91 1.53E+06 ZR-95 6.94E+08 NB-95 1.95E+08 RU-103 1.57E+08 RU-106 2.99E+08 AG-110 3.18E+09 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 1 '82 ST. ~LANT Ci ~MISTRY OPERATING P BURE NO. C-200, REVISIO>>

OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE G-3 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS P I FOR GASEOUS DISCHARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - INFANT ORGAN DOSE FACTOR -

(SQ. METER MREM/YR PER pCi/Sec)

NUCLIDE WHOLE BODY SN-126 4.80E+09 SB-124 8.42E+08 SB-125 7.56E+08 TE-125M 2.19E+06 TE-127M 1.15E+06 TE-129M 5.49E+07 I-130 7.90E+06 1-131 2.46E+07 I-132 1.78E+06 I-133 3.54E+06 I-134 6.43E+05 l-135 3.66E+06 CS-134 2.82E+09 CS-136 2.13E+08 CS-137 1.15E+09 BA-140 2.39E+08 CE-141 1.95E+07 CE-144 9.52E+07 Based on 1 pCI/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 1 '82 ST oLANT C i .MISTRY OPERATING PR ~ OURE NO. C-200, REVISIOii 7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-4 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I FOR GASEOUS DISCHARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - CHILD - TEEN-ADULT & INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE WHOLE BODY H-3 0.

CR-51 4.68E+06 MN-54 1.38E+09 FE-59 2.75E+08 CO-57 1.89E+08 CO-58 3.80E+08 CO-60 2.15E+10 ZN-65 7.43E+08 RB-86 9.01E+06 SR-89 2.17E+04 SR-90 5.35E+06 Y-91 1.08E+06 ZR-95 5.01E+08 NB-95 1.36E+08 RU-103 1.10E+08 RU-106 4.19E+08 AG-110 3.58E+09 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 1 '82 ST. I. PLANT Ct-icMISTRY OPERATING PR v~OURE NO. C-200, REVISION~ 7 <

OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-4 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I FOR GASEOUS DISCHARGES PATHWAY - GROUND PLANE DEPOSITION AGE GROUP - CHILD - TEEN-ADULT 8c INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE WHOLE BODY SN-126 5.16E+10 SB-124 5.98E+08 SB-125 2.30E+09 TE-125M 1.55E+06 TE-127M 8.79E+05 TE-129M 3.85E+07 I-130 5.53E+06 1-131 1.72E+07 I-132 1.25E+06 1-133 2.48E+06 I-134 4.50E+05 I-135 2.56E+06 CS-134 6.99E+09 CS-136 1.49E+08 CS-137 1.03E+10 BA-140 1.68E+08 CE-141 1.37E+07 CE-144 1.13E+08 Based on 1 pCi/sec release'rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 1 '82 ST. PLANT

( s aMISTRY OPERATING PR ~-.OURE NO. C-200, REVISION. i7 OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE G-5 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - INHALATION AGE GROUP - INFANT ORGAN DOSE FACTOR (MREM/YR PER pCI/Cu Meter)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY H-3 0. 4.30E+02 4.30E+02 1.88E+02 4.30E+02 4.30E+02 4.30E+02 P-32 2.31E+05 1.35E+04 0. 0. 0. 1.51E+04 8.78E+03 CR-51 0. 0. 1.40E+01 3.99E+00 2.52E+03 5.81E+02 1.75E+01 MN-54 0. 6.93E+03 0. 1.72E+03 2.45E+05 1.35E+04 1.10E+03 FE-59 2.06E+03 4.86E+06 0. 0. 1.78E+05 3.29E+04 1.85E+03 CO-57 0. 1.21E+02 0. 6.47E+04 5.50E+03 1.18E+02 CO-58 0. 1.18E+02 0. 0. 8.79E+05 I.21E+04 1.68E+02 CO-60 0. 8.40E+02 0. 0. 5.57E+06 3.28E+04 1.17E+03 ZN-65 5.67E+03 1.81E+04 0. 1.21E+04 1.53E+05 9.35E+03 8.15E+03 RB-86 0. 2.37E+04 0. 0. 0. 2.91E+03 1.03E+04 SR-89 4.31E+04 0. 0. 0. 2.31E+06 6.80E+04 1.24E+03 SR-90 1.32E+07 0. 1.53E+07 1.39E+05 8.06E+05 Y-91 5.98E+04 0. 0. 0. 2.63E+06 7.17E+04 1.60E+03 ZR-95 1.08E+04, , 2.73E+03 0. 9.48E+03 1.81E+06 1.41E+04 1.95E+03 NB-95 1.28E+03 5.75E+02 0. 1.35E+03 4.77E+05 1.21E+04 3.37E+02 RU-,103 1.69E+02 0. 0. 1.02E+03 5.66E+05 1.58E+04 5.85E+01 RU-106 9.31E+03 0 2.34E+04 1.50E+07 1.76E+05 1.14E+03 AG-110 1.89E+03 1.75E+03 0. 3.44E+03 8.12E+05 5.29E+04 1.04E+03 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 15 '82 ST. PLANT C i <aMISTRY OPERATING P QURE NO: C-200, REVISION~ i7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-5 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - INHALATION AGE GROUP - INFANT ORGAN DOSE FACTOR (MREM/YR PER pCi/Cu Meter)

BONE LIVER THYROID KIDNEY LUNG

'UCLIDE Gl-LLI WHOLE BODY SN-123 3.11E+04 6.45E+02 6.45E+02 0. 3.61E+06 5.99E+04 1.02E+03 SN-126 2.21E+05 5.85E+03 1.72E+03 1.64E+06 2.23E+04 8.40E+03 SB-124 5.46E+03 1.03E+02 1.32E+01 4.34E+05 7.11E+04 2.17E+03 SB-125 1.16E+04 1.25E+02 1.03E+01 0. 3.85E+05 1.76E+04 2.32E+03 TE-125M 4.54E+02 1.95E+02 1.53E+02 2.17E+03 4.96E+05 1.36E+04 6.16E+01 TE-127M 2.21E+03 9.83E+02 5.75E+02 8.01E+03 1.68E+05 2.62E+04 2.74E+02 TE-129M 1.32E+03 5.80E+02 5.08E+02 '.40E+03 1.83E+06 7.32E+04 2.06E+02 I-130 8.02E+02 2.35E+03 3.05E+05 3.65E+03 1.35E+03 9.25E+02 1-131 3.63E+04 4.27E+04 1.41E+07 1.07E+04 0. 1.07E+03 2.51E+04 l-132 2.03E+02 5.70E+02 7.67E+04 9.09E+02 7.11E+01 2.03E+02 I-133 1.34E+04 1.93E+04 4.66E+06 4.55E+03 0. 2.28E+03 5.87E+03 I-134 1.13E+02 3.02E+02 4.02E+04 4.82E+02 1.76E-01 1.08E+02 I-135 4.70E+02 1.22E+03 1.64E+05 1.95E+03 0. 9.18E+02 4.51E+02 CS-134 4.80E+05, , 8.25E+05 0. 5.04E+04 1.01E+05 1.37E+03 7.32E+04 CS-136 6.85E+03. 2.56E+04 0. 1.50E+04 2.10E+03 2.04E+03 1.95E+04 CS;137 6.86E+05 7.31E+05 0. 3.89E+04 9.45E+04 1.32E+03 4.41E+04 BA-140 5.TOE+03 4.27E+00 0. 2.93E+00 1.64E+06 3.88E+03 2.95E+02 CE-141 2.52E+03 1.55E+03 . 1.10E+03 5.24E+05 2.06E+04 1.81E+02 CE-144 4.68E+05 1.82E+05 0. 1.48E+05 1.27E+07 1.61E+05 2A9E+04 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition

Page 1 '82 ST. ~LANT Cl ii-MISTRY OPERATING PR OURE NO. C 200, REVISION i I OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE G-6 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - COWS MILK (CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY H-3 0. 2.37E+03 2.37E+03 1.04E+03 2.37E+03 2.37E+03 2.37E+03 P-32 1.82E+10 1.14E+09 0. 0. 0. 2.05E+09 7.05E+08 CR-51 0. 0. 1.82E+04 6.72E+03 4.04E+04 ~

7.66E+06 3.05E+04 MN-54 8.96E+06 0. 2.67E+06 0. 2.74E+07 1.71E+06 FE-59 3.17E+07 7.52E+07 0. 0. 2.09E+07 2.48E+08 2.86E+07 CO-57 0. 1.36E+06 0. 0. 0. 3.46E+07 2.27E+06 CO-58 0. 2.55E+07 '0. 0. 0. 6.60E+07 6.24E+07 CO-60 0. 8.73E+07 0. 0. 0. 2.16E+08 2.09E+08 ZN-65 1.46E+09 4.65E+09 0. 3.11E+09 0. 2.93E+09 2.10E+09 RB-86 0. 2.77E+09 0. 0. 5.45E+08 1.29E+09 SR-89 1.47E+10 0. 0. 0. 0. 2.75E+08 4.22E+08 SR-90 1.65E+11 1.61E+09 4.21E+10 Y-91 8.12E+04 0. 0. 0. 0. 5.37E+06 2.16E+03 ZR-95 2.12E+05, , 9.41E+04 0. 1.86E+04 7.47E+07 5.56E+04 NB-95 5.49E+05 2.47E+05 0. 4.84E+04 0. 1.98E+08 1A5E+05 RU-,103 8.30E+03 0. 0. 4.16E+03 0. 1.04E+05 2.86E+03 RU-106 2.01E+05 0. 0. 4.20E+04 0. 1.56E+06 2.46E+04 AG-110 6.21E+07 5.75E+07 0. 1.13E+08 0. 2.35E+10 3.42E+07 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition Note: The units for C-14 and H-3 are (MREM/YR Per pCi/Cu. Meter)

Page 15 '82 ST. ~LANT Cr >i MISTRY OPERATING PR a JURE NO. C"200, REVISION OFFSITE DOSE CALCULATIONMANUAL ODCM TABLE G-6 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - COWS MILK(CONTAMINATED FORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR -

(SQ. METER MREM/YR PER pCi/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY SN-126 1.75E+09 3.48E+07 1.01E+07 0. 4.97E+06 1.16E+09 5.25E+07 SB-124 2.75E+07 5.19E+05 6.64E+04 0. 2.13E+07 7.78E+08 1.09E+07 SB-125 3.59E+07 3.27E+06 2.93E+06 3.96E+06 2.83E+09 2.43E+08 6.62E+06 TE-125M 1.57E+08 5.30E+07 5.18E+07 7.05E+07 0. 7.57E+07 2.10E+07 TE-127M 5.54E+07 1.93E+07 1.79E+07 2.00E+08 0. 3.24E+08 7.38E+06 TE-129M 5.87E+08 2.02E+08 2.21E+08 2.70E+08 0. 3.54E+08 8.95E+07 I-130 4.54E+05 1.35E+06 1.71E+08 2.09E+06 0. 1.15E+06 5.29E+05 I-131 2.59E+09 3.09E+09 9.94E+11 7.24E+08 0. 1.16E+08 1.81E+09 1-132 1.78E-01 4.76E-01 6.26E+01 7.58E-01 0. 8.93E-02 1.69E-01 I-133 3.75E+07 5.48E+07 1.30E+10 1.29E+07 0. 9.74E+06 1.66E+07 1-134 0. 0. 1.06E-09 0. 0. 0. 0.

I-135 1.49E+04 3.94E+04 5.15E+06 6.26E+04 8.07E-02 4.41E+04 =

1.44E+04 CS-134 4.43E+10 7.97E+10 0. 4.65E+09 9.12E+09 1.90E+08 6.75E+09 CS-136 2.78E+08, .1.10E+09 0. 6.11E+08 8.37E+07 1.25E+08 7.90E+08 CS-137 6.44E+10 7.21E+10 0. 3.66E+09 8.69E+09 1.86E+08 4.14E+09 BA-140 2.45E+08 2.47E+05 0. 1.22E+04 1.51E+05 8.13E+06 1.27E+07 CE-141 2.65E+05 1.62'5 0. 9.72E+03 7.87E+07 1.90E+04 CE-144 2.10E+07 8.29E+06 0. 5.67E+05 0. 8.66E+08 1.13E+06 Based on 1 pCi/sec release rate of each isotope in and a value of 1. for X/Q, depleted X/Q and relative deposition.

Note: The units for C-14 and H-3 are (MREM/YR Per pCi/Cu. Meter)

Page 1 '82 ST. PLANT

~MISTRY OPERATING PR w OURE NO. C-200, REVISION i 7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-7 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - GOATS MILK(CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG Gl-LLI WHOLE BODY H-3 0. 4.84E+03 4.84E+03 2.11E+03 4.84E+03 4.84E+03 4.84E+03 P-32 2.19E+10 1.37E+09 0. 0. 0. 2.46E+09 8.46E+08 CR-51 0. 0. 2.19E+03 8.07E+02 4.85E+03 9.19E+05 3.66E+03 MN-54 0. 1.08E+06 0. 3.20E+05 0. 3.29E+06 2.05E+05 FE-59 4.12E+05 9.78E+05 0. 0. 2.72E+05 3.23E+06 3.72E+05 CO-57 0. 1.64E+05 0. 0. 4.15E+06 2.72E+05 CO-58 0. 3.06E+06 0. 0. 0. 7.92E+06 '.49E+06 CO-60 0. 1.05E+07 0. 0. 0. 2.59E+07 2.51E+07 ZN-65 1.76E+08 5.57E+08 0. 3.73E+08 0. 3.51E+08 2.52E+08 RB-86 0. 3.32E+08 0. 0. 0. 6.54E+07 1.55E+08 SR-89 3.09E+10 0. 0. 0. 0. 5.77E+08 8.87E+08 SR-90 3.46E+11 0. 0. 0. 0. 3.35E+09 8.83E+10 Y-91 9.74E+03 0. 0. 0. 0. 6.45E+05 2.60E+02 ZR-95 2.54E+04, , 1.13E+04 0. 2.23E+03 0. 8.95E+06 6.67E+03 NB-95 6.59E+04- 2.97E+04 0. 5.81E+03 0. 2.37E+07 1.75E+04 RU-103 9.96E+02 0. 0. 4.99E+02 0. 1.24E+04 3.43E+02 RU-106 2A1E+04 0. 5.04E+03 0. 1.87E+05 2.96E+03 AG-110 7.45E+06 6.90E+06 0. 1.36E+07 0. 2.81E+09 4.10E+06 Based on 1 pCi/sec release rate of each isotope in and a Value of 1. for X/Q, depleted X/Q and Relative Deposition Note: The units for C-14 and H-3 are 1MREM/Yr per pCi/Cu meter.

Page 1 '82 ST. PLANT

'MISTRY OPERATING PR m-l3URE NO. C 200, REVISIGs 7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE G-7 ENVIRONMENTALPATHWAY-DOSE CONVERSION FACTORS R I /P I FOR GASEOUS DISCHARGES PATHWAY - GOATS MILK(CONTAMINATEDFORAGE) AGE GROUP - INFANT ORGAN DOSE FACTOR (SQ. METER - MREM/YR PER pCI/Sec)

NUCLIDE BONE LIVER THYROID KIDNEY LUNG GI-LLI WHOLE BODY SN;126 2.10E+08 4.17E+06 1.22E+06 0. 5.97E+05 1.40E+08 6.30E+06 SB-124 3.30E+06 6.22E+04 7.97E+03 0. 2.56E+06 9.33E+07 1.30E+06 SB-125 4.31E+06 3.92E+05 3.52E+05 4.76E+05 3.40E+08 2.92E+07 7.94E+05 TE-125M 1.89E+07 6.36E+06 6.21E+06 8.46E+06 0. 9.09E+06 2.52E+06 TE-127M 6.64E+06 2.31E+06 2.15E+06 2.40E+07 0. 3.88E+07 8.85E+05 TE-129M 7.05E+07 2.42E+07 2.66E+07 3.23E+07 0. 4.25E+07 1.07E+07 I-130 5.45E+05 1.61E+06 2.05E+08 2.51E+06 1.38E+06 6.35E+05 I-131 3.11E+09 3.70E+09 1.19E+12 9.28E+08 0. 1.39E+08 2.17E+09 I-132 2.13E-01 5.71E-01 7.51E+01 9.10E-01 1.07E-01 2.03E-01 1-133 4.50E+07 6.57E+07 1.55E+10 1.55E+07 0. 1.17E+07 1.99E+07 I-134 0. 0. 1.27E-09 0. 0. 0. 0.

I-135 1.79E+04 4.72E+04 6.18E+06 7.51E+04 2.42E-01 5.29E+04 1.73E+04 CS-134 1.33E+11 2.39E+11 0. 1.39E+10 2.74E+10 5.69E+08 2.02E+10 CS-136 8.34E+08, , 3.29E+09 0. 1.83E+09 2.51E+08 3.74E+08 2.37E+09 CS-137 1.93E+11 2.16E+11 0. 1.10E+10 2.61E+10 5.59E+08 1.24E+10 BA-140 2.95E+07 2.96E+04 0. 1.47E+03 1.81E+04 9.76E+05 1.52E+06 CE-141 3.17E+04 1.95E+04 1.17E+03 0. 9.44+06 2.28E+03 CE-144 2.52E+06 9.95E+05 0. 6.80E+04 0. 1.04E+08 1.36E+05 Based on 1 pCi/sec release rate of each isotope in and a value of 1. for X/Q, depleted X/Q and relative deposition.

Note: The units for C-14 and H-3 are 1MREM/Yr per pCI/Cu meter.

Page 159 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-1 Selecting the Appropriate Long Term (X/Q) for Dose Calculations Involving Noble Gases for:

(1) Total Body dose from instantaneous releases (2) Skin dose from instantaneous releases (3) Gamma air dose (cumulative)

(4) Beta air dose (cumulative)

TYPE OF DOSE LIMITING LIMITING (X/Q) VALUE CALCULATION RANGE (miles) Sector sec/m'.6 Instantaneous 0.97 NW X 10 1/31 days 0.97

1. Normally (X/Q) = 1.6 X 10~ sec/m'.

Quarterly 0.97 Yearly May use option of actual 12 Consecutive 0.97 meteorological data for time of months concern.

Annual Report 0.97 N/A Note-1 NOTE 1 The (X/Q) has to be calculated based on actual meteorological data that occurred during the period of interest. The sector of interest is N/A because the limiting (X/Q) will be determined from the actual meteorological data and may occur in any sector.

0.97 miles 'orresponds to the minimum site boundary distance in the north direction and 0.97 miles was chosen for all other sectors for ease of calculations when the averaging is done for quarterly reports.

Page 160 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-2 Selecting the Appropriate Long Term (X/Q)o or (D/Q) for Dose Calculations Involving Radioiodines & 8 D Particulates for:

(1) Inhalation (2) Tritium (All gas pathways) (3) Ground Plane TYPE OF DOSE LIMITING LIMITINGSECTOR CALCULATION RANGE (miles) (X/Q) seo/m' (D/Q)

(OL)

NW 1/m'&~<jg&3+$

d Instantaneous 0.97 1.3 X 10 WNW 8.2 X 10 Quarterly for 0.97 A,B ~pg~><)+~~a~~

Annual Reports 0.97 ~""~4%VXAW A 1/31 days, B 0.97 NW Qtr. yearly, 1.3 X 10 Annual Total Dose 0.97 WNW 8.2 X 10 (OL) Over land areas only (A) To be determined by reduction of actual met data occurring during each quarter (B) For Tritium in the Milk Animal Pathway, the (X/Q)o value should be that of the respective controlling sector and range where the Milk Animal is located as per Table M-3. Example: If a cow was located at 4.25 miles in NW sector, use the (X/Q)o for 4.25 miles NW.

Page 161 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-3 Selecting the Appropriate Long Term (D/Q) for Dose Calculations Involving Radioiodines and 8D Particulates for Grass-Cow-Milk or Grass-Goat-Milk:

TYPE OF DOSE (D/Q) Value LIMITING RANGE LIMITINGSECTOR CALCULATION Release Rate 1/31 Days 1/m'.

Quarterly - Yearly Annual (Calendar Year)

Annual Report The worst cow or goat as per locations from land census. If no milk animal in any sector, assume a cow at 4.25 miles in the highest (D/Q) sector over land.

B. The historical (D/Q) 'of all land sectors with the worst cow or goat from each sector as reported in the Land Census, A 4.25 mile cow should be assumed in the worst sector over land when no milk animal is reported.

C. The highest (D/Q) at a milk animal location of all milk animals reported in the Land Census Report. (If no milk animals within 5 miles a 4.25 mile cow should be assumed in the sector having the highest (D/Q) at 4.25 miles over land). Actual Met Data should be used for the selection of the worst case milk animal and for the dose calculations. If both goat and milk animals are reported inside 5 miles, dose calculations should be performed on each animal and the higher dose animal contribution should be used.

The historical wind frequency fractions for each sector are listed in-Table M-8.

Page 16 182 ST. L ~LANT Cl >a NllSTRY OPERATING PR u (JURE NO. C 200, REVISIOI> < 7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-4 TERRAIN CORRECTION FACTORS Florida Power & Light Company St. Lucie Unit 1 Terrain Correction Factors (PUFF / STRAIGHT LINE)

Mutchinson Island, Florida Period of Record: 8/29/77 to 8/31/78 Dames and Moore Job No: 4598-112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64

0. 1.906 1.576 1.465 1.404 1.338 1.318 1.334 1.386 1.346 1.338
0. 1.887 1.581 1.461 1.391 1.310 1.259 1.164 1.128 1.101 1.116 ENE 0. 1.452 1.230 1.122 1.081 1.047 1.033 .941 .941 - .906 .902
0. 1.662 1.425 1.277 1.193 1.151 1.123 1.097 1.121 1.123 1.122 ESE 0. 1.690 1.483 1.328 1.260 1.246 1.190 1.134 1.094 1.032 968 SE 1.818 1.691 1.470 1.427 1.435 1.361 1.366 1.331 1.279 1.239 SSE 0. 1.812 1.586 1.370 1.302 1.270 1.263 1.229 1.193 1.171 1.151
0. 1.398 1.321 1.125 1.083 1.108 1.127 1.073 1.063 1.047 1.024 SSW 0. 1.534 1.411 1.296 1.192 1.205 1.132 1.135 1.116 1.077 1.060 SW 0. 1.685 1.492 1.294 1.233 1.200 1.222 1.160 1.160 1.198 1.196 WSW 0. '.620 1.333 1.210 1.173 1.082 1.091 1.099 1.056 1.034 1.004 W 1.651 1.415 1.290 1.218 1.154 1.099 1.081 1.067 1.093 1.083 WNW 0. 1.720 1.430 1.267 1.185 1.150 1.133 1.125 1.085 1.033 1.045 NW 0. 1.681 1.407 1.257 1.173 1.119 1.078 1.063 .995 .998 .978 NNW 0. 1.739 1.488 1.316 1.212 1.172 1.122 1.135 1.080 1.099 1.091
0. 1.816 1.524 1.389 1.285 1.257 1.263 1.285 1.267 1.231 1.213 Note 1: Any interpolations between stated mileages will be done by log-log

Page 1 '82 ST. PLANT Cl)-))=MISTRY OPERATING PR u QURE NO. C-200, REVISIO)~ ) 7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-5 HISTORICAL LONG TERM - X/Q Fre uenc corrected Terrain / Hecirculation Adjusted Program ANNXOQ9 Version - 11/1 8/76 Florida Power 8 Light Company St. Lucie Unit 1 Average Annual Relative Concentration (sec/cubic meter)

Hutchinson Island, Florida Period of Record: 9/1/76 to 8/31/78 Dames and Moore Job No: 1.4598- 112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64 NNE 0. 1.1E-05 1.?E-06  ?.BE-07 4.5E-O? 3.1E-07 2.2E-07 1;7E-07 1.5E-07 1.2E-O? 1.0E-07 NE 1.3E-05 2.1E-06 8.9E-07 5.1E-07 3.4E-O? 2.4E-07 1.7E-O? 1.4E-07 1.1E-O? 9.8E-OB ENE 0. 9.3E-06 1.4E-06 6.2E-07 3.7E-O? 2.5E-O? 1.9E-07 1.3E-O? 1.1E-07 B.BE-OB 7.5E-OB 9.8E-06 1.6E-06 6.5E-07 3.7E-O? 2.5E-07 1.8E-07 1.4E-O? 1.2E-O? 9.9E-OB 8.4E-OB ESE 0. 1.2E-05 1.9E-06 8.1E-07 4.8E-07 3.2E-07 2.4E-07 1.8E-07 1.4E-07 1.1E-07 9.0E-OB SE 1.4E-OS 2.4E-06 9.7E-07 5.7E-07 4.0E-07 2.9E-07 2.3E-07 1.9E-07 1.4E-07 1.2E-07 SSE 0. 1.1E-05 1.7E-06 7.3E-07 4.3E-O? 2.9E-O? 2.1E-07 1.6E-07 1.3E-07 1.1E-O? 9.1E-OB

0. 6.2E-06 1.0E-06 4.2E-O? 2.5E-07 1.8E-07 1.4E-O? 1.0E-07 B.OE-OB 6.6E-OB 5.5E-OB SSW 0. 5.?E-P6 9.0E-07 4.0E-07 2.3E-07 1.6E-O? 1.1E-07 8.9E-OB 7.0E-OB 5.7E-OB 4.8E-OB Sw 0. 6.1E-06 9.4E-07 3.9E-O? 2.2E-07 1.6E-O? 1.1E-07 8.6E-OB 7.0E-OB 6.0E-OB 5.1E-OB WSW 0. 7.3E-06 1.1E-06 4.6E-07 2.7E-07 1.?E-O? 1.3E-O? 1.0E-07 B.OE-OB 6.5E-OB 5.4E-OB
0. 7.6E-06 1 2E-06 5.2E-07 2.9E-07 2.0E-O? 1.3E-07 1.0E-07 8.4E-OB 7.2E-OB 6.1E-OB WNW 0. 1.4E-05 2.1E-06 9.1E-O? 5.2E-O? 3.4E-07 2.6E-O? 2.0E-O? 1.5E-07 1.2E-07 1.0E-07 NW 0. 1.6E-05 2.4E-06 1.0E-06 5.9E-07 3.9E-07 2.8E-O? 2.1E-07 1.7E-07 1.4E-07 1.2E-07 NNW 0. 1.5E-05 2.2E-06 9.6E-07 5.5E-07 3.6E-07 2.6E-07 2.0E-O? 1.6E-O? 1.3E-07 1.2E-07
0. 9.1E-06 1.4E-06 6.3E-07 3.6E-07 2.4E-O? 1.8E-07 1.4E-O? 1.2E-07 9.4E-OB 7.9E-OB Number of Valid Observations = 17135 Number of Calms Lower Level = 95 Number of Invalid Observations = 385 Number of Calms Upper Level = 0 Note 1 - Any interpolations between stated mileages will be done by log-log

Page 1 '82 ST. ~LANT Cr s~MISTRY OPERATING PR v OURE NO. C-200, REVISIOI~ i 7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-6 HISTORICAL LONG TERM DEPLETED - X/0 Fre uenc corrected Terrain / Recirculation Adjusted Program ANNXOQ9 Version - 11/18/76 Florida Power 8 Light Company St. Lucie Unit 1 Average Annual Relative Concentration Depleted (sec/cubic meter)

Hutchinson Island, Florida Period of Record: 9/1/76 to 8/31/78 Dames and Moore Job No: 4598-112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64 NNE 0. 1.1E-05 1.6E-06 6.6E-07 3.8E-07 2.4E-07 1.7E-07 1.3E-07 1.1E-07 9.2E-OB 7.6E-OB 1.2E-05 1.7E-06 7.6E-07 4.3E-07 2.8E-07 1.9E-07 1.4E-07 1.1E-07 8.6E-OB 7.4E-OB ENE 0. 8.9E-06 1.2E-06 5.3E-07 3.0E-07 2.0E-07 1.4E-07 1.0E-07 8.4E-OB 6.6E-OB 5.6E-OB 9.1E-06 1.3E-06 5.6E-07 3.1E-07 2.1E-07 1.5E-07 1.1E-07 9.1E-OB 7.5E-OB 6.3E-OB ESE 0. 1.2E-05 1.6E-06 6.9E-07 3.9E-07 2.6E-07 1.9E-07 1.4E-07 1.1E-07 8.5E-OB 6.7E-OB SE 1.3E-05 2.0E-06 8.2E-07 4.7E-07 3.3E-07 2.3E-07 1.8E-07 1.3E-07 1.1E-07 9.0E-OB SSE 0. 1.1E-05 1.6E-06 6.3E-07 3.5E-07 2.4E-07 1.8E-07 1.4E-07 1.0E-07 8.2E-OB 6.8E-OB 5.9E-06 9.1E-07 3.6E-07 2.1E-07 1.4E-07 1.1E-07 7.7E-OB 6.2E-OB 5.0E-OB 4.1E-OB SSW 0. 5.4E-06 B.OE-07 3.4E-07 1.9E-07 1.3E-07 8.9E-OB 6.9E-OB 5.5E-OB 4.3E-OB 3.6E-OB SW 5.7E-'06 8.4E-07 3.4E-07 1.8E-07 1.2E-07 9.2E-OB 6.7E-OB 5.3E-OB 4.6E-OB 3.8E-OB WSW 0. 7.0E-06 9.6E-07 4.0E-07 2.2E-07 1.4E-07 1.0E-07 B.OE-OB 6.1E-OB 5.0E-OB 4.0E-OB W 7.3E-06 1.1E-06 4.4E-07 2.4E-07 1.6E-07 1.1E-07 8.2E-OB 6.4E-OB 5.5E-OB 4.4E-OB I

WNW 0. 1.3E-05 1.9E-06 7.9E-07 4.4E-07 2.9E-07 2.0E-07 1.6E-07 1.2E-07 9.3E-OB 7.8E-OB Nw 1.5E-05 2.1E-06 8.9E-07 4.9E-07 3.1E-07 2.3E-07 1.7E-07 1.3E-07 1.0E-07 8.5E-OB NNW 0. 1.4E-05 2.1E-06 8.3E-07 4.5E-07 2.9E-07 2.0E-07 1.6E-07 1.2E-07 1.0E-07 8.6E-OB

0. 8.7E-06 1.3E-06 5.4E-07 3.0E-07 2.0E-07 1.4E-07 1.1E-07 8.9E-OB 7.0E-OB 5.8E-OB Number of Valid Observations = 17135 Number of Calms Lower Level = 95 Number of Invalid Observations = 385 Number of Calms Upper Level = 0 Note 1 - Any interpolations between stated mileages will be done by log-log

Page 1 182 ST. PLANT 1 GI scMISTRY OPERATING PROa OURE NO. C-200, REVISIOlw i7 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-7 HISTORICAL LONGTERM- D/Q Fre uenc corrected TERRAIN / RECIRCULATION ADJUSTED PROGRAM ANNXOQ9 VERSION - 11/18/76 Florida Power & Light Company St. Lucie Unit 1 Average Annual Relative Deposition Rate (square meter - 1)

Hutchinson Island, Florida Period of Record: 9/1/76 to 8/31/78 Dames and Moore Job No: 4598-112 Base Distance in Miles/Kilometers DESIGN AFFECTED DISTANCE .25 .75 1.25 1.75 2.25 2.75 3.25 3.75 4.25 4.75 SECTOR MILES .40 1.21 2.01 2.82 3.62 4.42 5.23 6.03 6.84 7.64

0. 6.5E-OB 9.3E-09 3.7E-09 2.1E-09 1.3E-09 9.0E-10 6.8E-10 5.5E-10 4.3E-10 .3.5E-10 NE 0. 6.0E-OB 8.9E-09 3.5E-09 1.9E-09 1.2E-09 8.1E-10 5.6E-10 4.3E-10 3.3E-10 2.8E-10 ENE 0. 3.2E-OB 4.8E-09 1.9E-09 1.0E-09 6.6E-10 4.6E-10 3.2E-10 2.4E-10 1.9E-10 1.5E-10 3.0E-OB 4.6E-09 1.8E-09 9.5E-10 6.0E-10 4.2E-10 3.1E-10 2.5E-10 2.0E-10 1.6E-10 ESE 0. 3.7E-OB 5.8E-09 2.3E-09 1.2E-09 B.OE-10 5.4E-10 3.9E-10 3.0E-10 2.2E-10 1.7E-10 SE 6.4E-OB 1.0E-OB 4.0E-09 2.1E-09 1.4E-09 9.7E-10 7.2E-10 5.6E-10 4.3E-10 3.5E-10 SSE 0. 6.2E-OB 9.5E-09 3.6E-09 2.0E-09 1.2E-09 8.7E-10 6.4E-10 4.9E-10 3.9E-10 3.1E-10 4.2E-OB 7.0E-09 2.6E-09 1.4E-09 9.5E-10 6.9E-10 4.9E-10 3.8E-10 3.0E-10 2.5E-10 SSW 0. 3.4E-OB 5.4E-09 2.2E-09 1.1E-09 7.5E-10 5.0E-10 3.7E-10 2.9E-10 2.3E-10 1.8E-10 SW 4.5E-OB 7.0E-09 2.6E-09 1.5E-09 9.0E-10 6.6E-'IO 4.6E-10 3.6E-10 3.0E-10 2.5E-10 WSW 0. 5.3E-OB 7.7E-09 3.0E-09 1.6E-09 1.0E-09 7.3E-10 5.5E-10 4.1E-10 3.3E-10 2.6E-10 W 5.0E-OB 7.5E-09 3.0E-09 1.6E-09 9.8E-10 6.7E-10 5.0E-10 3.8E-10 3.2E-10 2.6E-10 WNW 0. B.BE-OB 1.3E-OB 4.9E-09 2.6E-09 1.7E-09 1.1E-09 8.7E-10 6.6E-10 5.1E-10 4.2E-10 NW 8.2E-OB 1.2E-OB 4.7E-09 2.5E-09 1.6E-09 1.1E-09 7.9E-10 5.8E-10 4.7E-10 3.8E-10 NNW 0. 8.2E-OB 1.2E-OB 4.6E-09 2.4E-09 1.5E-09 1.1E-09 8.1E-10 5.9E-10 4.8E-10 4.0E-10
0. 5.1E-OB 7.3E-09 2.9E-09 1.5E-09 9.8E-10 7.1E-10 5.4E-10 4.2E-10 3.2E-10 2.7E-10 Number of Valid Observations = 17135 Number of Calms Lower Level = 95 Number of Invalid Observations = 385 Number of Calms Upper Level = 0 Note 1 - Any interpolations between stated mileages will be done by log-log

Page 166 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE M-8 Joint Wind Frequency Distribution Data Period September1, 1976-August 31,1978 All Winds St. Lucie Unit 2 Data Source: On-Site Hutchinson Island, Florida Wind Sensor Height 10.00 Meters Florida Power & Light Co.

Table Generated: 12/05/78. 07.42.18. Dames and Moore Job No: 4598 - 112 - 27 Wind Speed Categories (Meters per Second)

WIND 0.0- 1.5- 3.0- 5.0- 7.5- MEAN SECTOR 1.5 3.0 5.0 7.5 10.0 >10.0 TOTAL'69 SPEED NNE 71 206 318 71 3 0 1.25 1.92 02 0.00 3.32 4.05 62 292 385 128 0 0 867 NE 38 1.77 2.33 .77 0.00 0.00 5.25 60 505 158 0 0 1057 ENE 3.51 36 2.02 3.06 .96 0.00 0.00 6.40 69 355 510 76 0 0 1010

.42 2.15 3.09 .46 0.00 0.00 3.25 6.11 115 684 744 72 1 0 1616 ESE

.70 4.14 4.50 01 0.00 9.78 183 660 749 28 0 0 1620 SE 1.11 3.99 4.53 .17 0.00 0.00 9.81 129 579 656 93 1 0 1458 SSE 3.10

.78 3.50 3.97 56 01 0.00 8.82 72 310 407 99 8 1 897 1.88 2.46 3.36

.60 05 01 5A3 SSW 372 446 105 4 1044

.51 2.25 2.70 .20 02 6.32 129 440 336 106 14 0 1025 SW 3.10

.78 2.66 2.03 ~ 08 0.00 6.20 155 320 186 29 5 0 695 WSW 2.59

.94 1.94 1.13 .18 03 0.00 4.21 174 267 119 37 2 0 599 W

1.05 1.62 .72 .22 01 0.00 3.63 WNW 203 304 172 17 0 0- 696 1.23 1.84 1.04 10 0.00 0.00 4.21 143 518 424 50 0 0 1135 NW '.87 2.85 3.14 2.57 .30 000 0.00 6.87 NNW 85 379 535 70 1 0 1070

.51 2.29 3.24 .42 .01 0.00 6A6 91 194 531 148 5 0 969

.55 1.17 3.21 .90 .03 0.00 3.69 5.86 CALM 95 95

.57 CALM

.57 1920 6214 7023 1287 73 5 16522 TOTAL 3.10 11.62 37.61 42.51 7.79 .03 100.00 NUMBER OF VALIDOBSERVATIONS 16522 94.30 PCT. Key XXX Number of Occurrences NUMBER OF INVALIDOBSERVATIONS 988 5.70 PCT. XXX Percent Occurrences TOTAL NUMBER OF OBSERVATIONS 17520 100.00 PCT.

' Totals below are given in hours 8 percent for wind frequency by sectors

Page 167 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX B LIMITEDANALYSIS DOSE ASSESSMENT FOR LIQUID RADIOACTIVE EFFLUENTS The radioactive liquid effluents for the years 1978, 1979 and 1980 were evaluated to determine the dose contribution of the.radionuclide distribution. This analysis was performed to evaluate the use of a limited dose analysis for determining environmental doses. Limiting the dose calculation to a few selected radionuclides that contribute the majority of the dose provides a simplified method of determining compliance with the dose limits of Control 3.11.1.2.

Tables B-1 and B-2 present the results of this evaluation. Table B-1 presents the fraction of the adult whole body dose contributed by the major radionuclides. Table B-2 presents the same data for the adult Gl-LLI dose. The adult whole body and adult Gl-LLI were determined to be the limiting doses based on an evaluation of all age groups (adult, teenager, child and infant) and all organs (bone, liver, kidney, lung and Gl-LLI). As the data in the tables show, the radionuclides Fe-59, Co-58, Co-60, Zn-65, Cs-134 and Cs-137 dominate the whole body dose; the radionuclides, Fe-59, Co-58, Co-60, Zn-65 and Nb-95 dominate the Gl-LLI dose. In all but one case (1979-fish, Gl-LLI dose) these radionuclides contribute 90% or more of the total dose. If for 1979 the fish and shellfish pathways are combined as is done to determine the total dose, the contribution from these nuclides is 84%" of the total Gl-LLI dose.

Therefore, the dose commitment due to radioactive material in liquid effluents can be reasonably estimated by limiting the dose calculation to the radionuclides, Fe-59, Co-58, Co-60, Zn-65, Nb-95, 'Cs-134 and Cs-137, which cumulatively contribute the majority of the total dose calculated by using all radionuclides detected. This limited analysis dose assessment method is a simplified calculation that provides a reasonable evaluation of doses due to liquid radioactive effluents and allows for an estimate of Fe-55 contribution to dose.

Tritium is not included in the limited analysis dose assessment for liquid releases because the'potential dose resulting from normal reactor releases is negligible and is essentially independent of radwaste system operation. The amount of tritium releases annually is about 300 curies, At St. Lucie, 300 Ci/yr released to the Atlantic Ocean produces a calculated whole body dose of 5 X 10'rem/yr via the fish and shellfish pathways. This amounts to less than 0.001% of the design objective dose of 3 mrem/yr.

Furthermore, the release of tritium is a function of operating time and power level and is essentially unrelated to radwaste system operation.

The dose due to Iron -55 made it necessary to change the conservatism factor from 0.8 to 0.6, which was done on Revision 7 to the ODCM, based on early 1986 data.

Page 168 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE B-1 ADULT WHOLE BODY DOSE CONTRIBUTIONS FRACTION OF TOTAL 1978 1979 1980 RADIONUCLIDE FISH SHELLFISH FISH SHELLFISH FISH SHELLFISH Co-58 0.08 0.27 0.06 0.28 0.02 0.05 Co-60 0.05 0.19 0.03 0.15 0.20 OA4 Fe-59 0.10 0.25 0.04 0.13 0.15 0.22, Zn-65 0.01 0.10 0.02 0.19 0.04 0.20 Cs-134 0.31 0.07 0.46 0.14 0.27 0.04 Cs-137 0.42 0.10 0.38 0.11 0.30 0.04 TOTAL 0.97 0.98 0.99 1.00 0.98 0.99 TABLE B-2 ADULT Gl-LLI DOSE CONTRIBUTION FRACTION OF TOTAL 1978 1979 1980 RADIONUCLIDE FISH SHELLFISH FISH SHELLFISH FISH SHELLFISH Co-58 0.03 0.36 0.25 OA4 0.01 0.07 Co%0 0.02 0.23 0.12 0.22 0.05 0.57 Fe-59 0.03 0.31 0.16 0.19 0.04 0.29 Zn-65 0.01 0.02 0.01 0.05 0.01 0.04 Nb-95 0.89 0.01 0.21 0.01 0.88 0.01 TOTAL 0.98 0.92 0.75 0.90 0.97 0.97

Page 169 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX C TECHNICAL BASES FOR EFFECTIVE DOSE FACTORS Overview The evaluation of doses due to releases of radioactive material to the atmosphere can be simplified by the use of effective dose. transfer factors instead of using dose factors which are radionuclide specific. These effective factors, which are based on the typical radionuclide distribution in the releases, can be applied to the total radioactivity released to approximate the dose in the environment, i.e., instead of having to sum the isotopic distribution multiplied by the isotope specific dose factor only a single multiplication (K,,

M,or N,) times the total quantity of radioactive material released would be needed.

This approach provides a reasonable estimate of the actual dose while eliminating the need for a detailed calculational technique.

Determination of Effective Dose Factors The effective dose transfer factors are based on past operating data. The radioactive effluent distribution for the past years can be used to derive single effective factors by the following equations:

(C-1)

Where:

K, the effective total body dose factor due to gamma emissions from all noble gases released the total body dose factor due to gamma emissions from each noble gas radionuclide i released the fractional abundance of noble gas radionuclide i is of the total noble gas radionuclides '

Page 170 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX C TECHNICAL BASES FOR EFFECTIVE DOSE FACTORS (continued)

(L + 1.1 M),= (L, + 1.1 M) ~

f, (C-2)

Where:

(L+1.1 M),= the effective skin dose factor due to beta and gamma emissions from all noble gases released (L,. + 1.1 M,) = the skin dose factor due to beta and gamma emissions from each noble gas radionuclide i released (C-3)

Where:

the effective air dose factor due to gamma emissions from all noble gases released M, the air dose factor due to gamma emissions from each noble gas radionuclide i released (CA)

I Where:

eff the effective air dose factor due to beta emissions from all noble gases released N, the air dose factor due to beta emissions from each noble gas radionuclide i

Page 171 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX C TECHNICAL BASES FOR EFFECTIVE DOSE FACTORS (continued)

To determine the appropriate effective factors to be used and to evaluate the degree of variability, the atmospheric radioactive effluents for the past 3 years have been evaluated, Tables C-1 and C-2 present the results of this evaluation.

As can be seen from Tables C-1 and C-2, the effective dose transfer factors varies little from year to year. The maximum observed variability from the average value is 18%.

This variability is minor considering other areas of uncertainty and conservatism inherent in the environmental dose calculation models.

To provide an additional degree of conservatism, a factor of 0.8 is introduced into the dose calculation process when the effective dose transfer factor is used. This added conservatism provides additional assurance that the evaluation of doses by the use of a single effective factor will not significantly underestimate any actual doses in the environment.

Reevaluation The doses due to the gaseous effluents are evaluated by the more detailed calculation methods (i.e., use of nuclide specific dose factors) on a yearly basis. At this time a comparison can be made between the simplified method and the detailed method to assure the overall reasonableness of this limited analysis approach. If this comparison indicates that the radionuclide distribution has changed significantly causing the simplified method to underestimate the doses by more than 20%, the value of the effective factors will need to be reexamined to assure the overall acceptability of this approach. However, this reexamination will only be needed if the doses as calculated by the detailed analysis exceed 50% of the design bases doses (i.e., greater than 5 mrads-gamma air dose or 10 mrads beta air dose) ~

In any case, the appropriateness of the A,value will be periodically evaluated to assume the applicability of a single effective dose factor for evaluating environmental doses.

Page 172 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE C-1 EFFECTIVE DOSE FACTORS NOBLE GASES-TOTAL BODY AND SKIN DOSES TOTAL BODY EFFECTIVE SKIN EFFECTIVE DOSE FACTOR DOSE FACTOR YEAR K, (L+1.1M),ff mrem-m'i- mrem-m'i-r r 1978 73 X 10 1.4 X 10 1979 '.4X10 1.4 X 10 1980 5.6 X 10 1.2 X 10 AVERAGE 6.8 X 10 1.3 X 10 TABLE C-2 EFFECTIVE DOSE FACTORS NOBLE GASES - AIR DOSES GAMMAAIR EFFECTIVE BETA AIR EFFECTIVE DOSE FACTOR DOSE FACTOR YEAR M, mrad-m~ mrad-m'i-CI- r r 1978 8.0 X 'IO 1.2 X 10 1979 80 X 10 1.2 X 10 1980 6.2 X 10 1.2 X 10 AVERAGE 7.4 X 10 1.2 X 10

Page 173 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX D TECHNICAL BASES FOR ELIMINATINGCURIE INYENTORY LIMIT FOR GASEOUS WASTE STORAGE TANKS The NRC Standard Technical Specifications include a limit for the amount of radioactivity that can be stored in a single waste gas storage tank, This curie inventory limit is established to assure that in the event of a tank failure releasing the radioactivity to the environment the resulting total body dose at the site boundary would not exceed 0.5 rem.

For St. Lucie, the inventory limit in the waste gas storage tank has been determined to be approximately 285,000 curies (Xe-133, equivalent). An allowable primaty coolant radioactivity concentration is established by the Appendix A Technical Specifications which limits the primary coolant radioactivity concentrations to 100/E with E being the average energy of the radioactivity in Mev. This equation yields an upper primary coolant gross activity limit of about 160 pCi/ml. By applying this activity concentration limit to the total liquid volume of the primary system, a total activity limit can be determined, For St. Lucie the primary system volume is about 70,000 gallons, which yields a limiting total inventory of approximately 43,000 Ci ~

~ ~

By assuming a typical radionuclide distribution an equivalent Xe-133 inventory can be determined. Table D-1 provides the typical radionuclide (noble gases) distribution and

~

~

the Xe-133 equivalent concentration. The equivalent concentration is determined by

~

~ ~

multiplying the radionuclide concentration by the ratio of the nuclide total body dose factor to the Xe-133 total body dose factor. Summing all the individual radionuclide equivalent concentrations provides the overall reactor coolant Xe-133 equivalent concentration. The data show that the equivalent concentration is a factor of 2 larger than the gross concentration (i.e., 24 p,CI/gm total versus 47 p.CI/gm equivalent). The resulting Xe-133 equivalent curie inventory of the reactor coolant system is approximately 86,000 Ci ~

Therefore, even if the total primary system at the maximum Tech. Spec, allowable concentration was degassed to a single waste gas decay tynk, the tank curie inventory would be well below the 285,000 Ci limit. Based on this evaluation, the curie inventory limit on a single waste gas storage tank cannot exceed the Technical Specification requirement.

Page 174 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM TABLE D-1 REACTOR COOLANT - XE-133 EFFECTIVE CONCENTRATION REG. GUIDE 1.109 Xe-133 REACTOR TOTAL BODY DF RATIO EFFECTIVE COOLANT'ONCENTRATION

~mrem~r TB DF CONCENTRATION RADIONUCLIDE (pCi/gm) (pCI/ml) Xe-133 DF (pCi/gm)

Kr-85m . 0.19 1.2 X 10 4.1 0.78 Kr-85 0.83 1.6 X 10 0.06 0.05 Kr-87 0.16 59 X 10 20. 3.2 Kr-88 0.31 1.5 X 10 52. 16 Xe-131m 8.8 9.2 X 0.32 2.8 10'.5 Xe-133m 0.20 X 10 0.86 0.17 Xe-133 12. 2.9 X 10 1.0 12.

Xe-135m 0.11 3.1 X 10 1.2 Xe-135 1.2 1.8 X 10 6.2 7.4 Xe-137 0.02 1.4 X 10 4.8 0.1 Xe-138 0.12 8.8 X 10 30. 3.6 TOTALS 24 47.

  • Data adapted from the NRC GALE Code

Page 1 182 ST. PLANT

( .. IVIISTRY OPERATING PR QURE NO: C-200, REVISIG . <7 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE ST. LUCIE PLANT-Key to Sample Locations SAMPLE APPROXIMATE PATHWAY LOCATION SAMPLES DIRECTION DESCRIPTION COLLECTION DISTANCE COLLECTED SECTOR FREQUENCY (miles)

Direct Radiation North of Blind Creek TLD Quarterly N Direct Radiation NNW-5 South of Pete Stone Creek'.

TLD Quarterly NNW Direct Radiation NNW-10 G. Station TLD Quarterly NNW Direct Radiation NW-5 indian River Drive at Rio Vista Drive TLD Quarterly NW Direct Radiation NW-10 Intersection of SR 68 and SR 607 TLD Quarterly 10 NW Direct Radiation WNW-2 Cemetery South of 7107 Indian River Drive TLD Quarterly WNW Direct Radiation WNW-5 US-1 at SR 712 TLD Quarterly WNW Direct Radiation WNW-10 SR 70, West of Turnpike TLD Quarterly 10 WNW Direct Radiation W-2 7609 Indian River Drive TLD Quarterly W Direct Radiation W-5 Oleander and Sager Streets TLD Quarterly W Direct Radiation W-10 I-95 and SR 709 TLD Quarterly W Direct Radiation WSW-2 8503 Indian River Drive TLD Quarterly WSW Direct Radiation WSW-5 Prima Vista Blvd. at Yacht Club TLD Quarterly WSW Direct Radiation WSW-10 Del Rio and Davis Streets TLD Quarterly 10 WSW Direct Radiation SW- 9207 Indian River Drive TLD Quarterly SW Direct Radiation SW-5 US 1 and Village Green Drive TLD Quarterly SW Direct Radiation SW-10 Port St. Lucie Blvd. and Cairo Road TLD Quarterly 10 SW Direct Radiation SSW-2 10307 Indian River Drive TLD Quarterly SSW

Page 1 182 ST. PLANT

. -MISTRY OPERATING P OURE NO. C-200, REVISIGi. i7 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE (continued)

ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMATE PATHWAY LOCATION SAMPLES DIRECTION DESCRIPTION COLLECTION DISTANCE COLLECTED SECTOR FREQUENCY (miles)

Direct Radiation 'SW-5 Port St. Lucie Blvd. and US 1 TLD Quarterly SSW Direct Radiation SSW-10 Pine Valley and Westmoreland Roads TLD Quarterly SSW Direct Radiation S-5 13179 Indian River Drive TLD Quarterly Direct Radiation S-10 US 1 and SR 714 TLD Quarterly 10 Direct Radiation S/SSE-10 Indian River Drive and Quail Run Lane TLD Quarterly 10 SSE Direct Radiation SSE-5 Entrance of Nettles Island TLD Quarterly SSE Direct Radiation SSE-10 Elliot Museum TLD Quarterly 10 SSE Direct Radiation SE-1 South of Cooling Canal TLD Quarterly SE

'H-32 U. of Florida - 1FAS Entomology Lab Vero Direct Radiation TLD Quarterly 19 NNW Beach Airborne H08 FPL Substation - Weatherby Road Radioiodine &

Weekly WNW Particulates Airborne 'H12 FPL Substation - SR 76, Stuart Radioiodine &

Weekly 12 Particulates Airborne H14 Onsite - near south property line Radioiodine &

Particulates Weekly SE Airborne H30 Power Line - 7609 Indian River Drive Radioiodine &

Weekly W Particulates

'Denotes Control Sample

Page 1 182 ST. PLANT I

( ..=MISTRY OPERATING PR QURE NO. C-200, REVISIGi. i7 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE (continued)

ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMAT SAMPLES PATHWAY LOCATION DESCRIPTION COLLECTION E DISTANCE DIRECTION COLLECTED SECTOR FREQUENCY (miles)

Airborne H34 Onsite - At Meteorological Tower Radioiodine 8 Particulates Weekly 0.5 Surface Water Atlantic Ocean vicinity of public beaches east side Weekly Waterborne H15 (ocean) of Route A1A Sediment from ENE/E/ESE Semi-Annually shoreline Surface Water Monthly Waterborne 'H59 Near south end of Hutchinson Island (ocean) 10-20 S/SSE Sediment from Semi-Annually shoreline Food Products H15 Ocean side vicinity of St. Lucie Plant (NOTE 1) Semi-Annually Crustacea Fish ENE/E/ESE Semi-Annually Broad Leaf Food Products H51 Offsite near north property line Monthly vegetation N/NNW I (when available)

(mangrove)

  • Denotes control sample

Page 1 '82 ST. PLANT I .. -MISTRY OPERATING P OURE NO. C-200, REVISIG;. i7 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX E RADIOLOGICALENVIRONMENTALSURVEILLANCE (continued)

ST. LUCIE PLANT Key to Sample Locations SAMPLE APPROXIMAT PATHWAY LOCATION SAMPLES DIRECTION DESCRIPTION COLLECTION E DISTANCE COLLECTED SECTOR FREQUENCY (miles)

Broad leaf Food Products H52 Offsite near south property line Monthly vegetation S/SSE (when available)

(mangrove)

Crustacea Fish Semi-Annually Food Products 'H59 Near south end of Hutchinson Island Broad leaf Semi-Annually 10-20 S/SSE vegetation Monthly (mangrove)

"Denotes control sample It is the policy of Florida Power 8 Light Company (FPL) that the St. Lucie 1 8 2 Radiological Environmental Monitoring Programs are conducted by the State of Florida Department of Health and Rehabilitative Services (DHRS), pursuant to an Agreement between FPL and DHRS and; that coordination of the Radiological Environmental Monitoring Programs with DHRS and compliance with the Radiological Environmental Monitoring Program Controls are the responsibility of the Nuclear Energy Services Department.

NOTE 1 These samples may be collected from or supplemented by samples collected from the plant intake canal if the required analyses are unable to be performed due to unavailability or inadequate quantity of sample from the ocean side location.

Page 179 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM FIGURE 1-1 SITE AREA MAP & ENVIRONMENTALSAMPLE LOCATIONS N-1 I

H51 Mnd Creek K

LU 0

K

.2 a Inset Detail p+ I H34 e+

Cg CREE H15 EXCLUSION AREA (0.97 mi)

AND LOW UNIT 1 W-2 POPULATION ZONE (1 mi)

NOTES:

+ UNIT2 A1

1) L-Uquld Radwaste Release Point
2) Due to the scale of the Rgure the Exduslon Area 'E-Radius (0.97 mile) and the Low Population Zone (1 mlle) area shown as being the same size.

H14l

-2 H52' 3

0 (C-200A. WPG)

SCALE IN MILES

Page 180 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM FIGURE 1-2 ENVIRONMENTALSAMPLE LOCATIONS 10 MILES NW-10 H32 Vere Beach (Control) 10mke'"

-'""'NW-1D U*

WNW-10 W-5 gad WSW4 WSW-10 4cg

t. Lm!d Cod!!r Pt. St. L1i SW-10 StSSE10 SSE-1D 4

a.

.AK (C2NR RAG)

SSW.1 0 H12

Page 181 of 182, ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX F METEOROLOGICAL DISPERSION FORMULAS*

For X/Q:

2.032 EQ (1)

(u) D 2.032 3 a EQ (2)

()D Where:

c V

=,5

= 207.5 ft. (63.2 meters)

(u) = a name for one term X/Q was calculated using each of the above EQs for each hour. The highest X/Q from EQ (1) or EQ (2) was selected. The total integrated relative concentration at each sector and distance was then divided by the total number of hours in the data base, Terrain correction factors given by Table M-4 were also applied to Dispersion Formulas

Page 182 of 182 ST. LUCIE PLANT CHEMISTRY OPERATING PROCEDURE NO. C-200, REVISION 17 OFFSITE DOSE CALCULATION MANUAL ODCM APPENDIX F METEOROLOGICAL DISPERSION FORMuLAS'continued)

For De leted X/Q:

(X/Q)p (X/Q) X (Depletion factor of Figure 2 of R.G. 1 .1 1 1-R1 )

~FD gati D/Q:

D/Q = RDep/(2 sin [11.25] X) X (Freq. distribution)

Where:

D/Q Ground deposition rate Calculation distance RDep = Relative ground deposition rate from Figure 6 of R.G. 1.111, R1