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/Input 7Output 177/167 U1/U2 12 Z Tech Spec PINGP Units I & 2 LCO for Secondary Specific Activity 3.7.14. Amendment ZInput L--Output I 1_ 1 158/149 QF-0549 (FP-E-CAL-01), Rev. 3 Pacie 4 of 277:XceI Energy' Calculation Signature Sheet U1/U2 Amendment | /Input 7Output 177/167 U1/U2 12 Z Tech Spec PINGP Units I & 2 LCO for Secondary Specific Activity 3.7.14. Amendment ZInput L--Output I 1_ 1 158/149 QF-0549 (FP-E-CAL-01), Rev. 3 Pacie 4 of 277:XceI Energy' Calculation Signature Sheet U1/U2 Amendment | ||
[npt[-Opu 13 Z Tech Spec P1NGP Units 1 & 2 LCO for RCS Specific Activity 3.4.17 191/180en PINGP Units 1 & 2 LCO for Reactor Coolant Dose U1/U2 14 [ Tech Spec Equivalent 1-131 Specific Activity Limit Versus Figure 3.4.17-1 Amendment | [npt[-Opu 13 Z Tech Spec P1NGP Units 1 & 2 LCO for RCS Specific Activity 3.4.17 191/180en PINGP Units 1 & 2 LCO for Reactor Coolant Dose U1/U2 14 [ Tech Spec Equivalent 1-131 Specific Activity Limit Versus Figure 3.4.17-1 Amendment | ||
[Input [-]Output Percentage Rated Thermal Power 191/180 U1/U2 15 [ Tech Spec PINGP Units 1 & 2 LCO for RCS Operational Leakage 3.4.14 Amendment ZInput [:j]Output 158/149 PINGP Units I & 2 Specification for Ventilation Filter UA/U2 16 Z Tech Spec Testing Program (VFTP) 5.5.9 Amendment 16Input /16utput 186/176 U1/U2 17 [] Tech Spec PINGP Units 1 & 2 Bases for RCS Operational Leakage B3.4.14 Amendment ZInput [--Output 158/149 PINGP Units 1 & 2 Bases for Control Room Special UB/U2 18 Z Tech Spec Ventilation System (CRSVS) Actuation Instrumentation B3.3.6 Amendment 18nput 4Output 158/149 PINGP Units 1 & 2 LCO for Control Room Special 3.3.6 A]Output 19 E Tech Spec Ventilation System (CRSVS) Actuation Instrumentation 3.3.6 Amendment 4Input 158/149 U 1/U2 20 [ Tech Spec PINGP Units 1 & 2 LCO for Control Room Special 3A mnt Ventilation System (CRSVS) 3.7.10 Amendment 4Input 9Output 1 158/149 21 Federal Guidance Report 11 EPA-520/1-88-020 ZInput DOutput 22 Federal Guidance Report 12 EPA-402-R-93-081 ZInput [-]Output Westinghouse Letter -Nuclear Management Company Prairie Island Units 1 & 2, MUR Power Uprate Program, NSP-07-59 11/02/2007 Zlnput [:]Output 23 [ LTR Core Activity Inventory and Coolant Activity LTR-PEP-07-26 Concentrations 24 Laboratory Testing of Nuclear-Grade Activated Charcoal GL 99-02 6/3/99 Zlnput [:]Output QF-0549 (FP-E-CAL-01), Rev. 3 Paae 5 of 277 Calculation Signature Sheet 25 ASME Steam Tables Sixth n Zinput []Output Edition 26 Accident Source Term 10 CFR 50.67 Zlnput --Output 27 Z DRAW Admin Bldg, Screen House, & Control RM Flow Diagram NF-39603-1 76 Zlnput -]Output Prairie Island Nuclear Generating Plant, Units I And 2 -Issuance Of Amendments Re: Revision To Loss-Of-28 Z SER Coolant (LOCA) Accident And Main Steam Line Break MD9140 & 06/19/2009 Zlnput [--]Output (MSLB) Accident Radiological Dose Consequences MD9141 Analyses And Affected Technical Specifications (TAC Nos. MD9140 And MD9141)29 Z PROC Natural Circulation Cooldown With CRDM Fans 1ES-0.3A 14 Zinput -]Output 30 Z PROC Natural Circulation Cooldown Without CRDM Fans 1ES-0.3B 11 ]Input [:]Output 31 Z DRAW Architectural Plant Roof Plan NF-38513 T Zinput [--]Output 32 NUREG-0800, Standard Review Plan, "Radiological 15.0.1 0 Zinput --Output Consequence Analyses Using Alternative Source Terms" 33 Z CALC Post-LOCA EAB, LPZ, and CR Doses -AST GEN-PI-079 0 ZInput --Output 34 Z CALC Dose Consequences At The Site Boundary & Control 12400604-UR(B)- | [Input [-]Output Percentage Rated Thermal Power 191/180 U1/U2 15 [ Tech Spec PINGP Units 1 & 2 LCO for RCS Operational Leakage 3.4.14 Amendment ZInput [:j]Output 158/149 PINGP Units I & 2 Specification for Ventilation Filter UA/U2 16 Z Tech Spec Testing Program (VFTP) 5.5.9 Amendment 16Input /16utput 186/176 U1/U2 17 [] Tech Spec PINGP Units 1 & 2 Bases for RCS Operational Leakage B3.4.14 Amendment ZInput [--Output 158/149 PINGP Units 1 & 2 Bases for Control Room Special UB/U2 18 Z Tech Spec Ventilation System (CRSVS) Actuation Instrumentation B3.3.6 Amendment 18nput 4Output 158/149 PINGP Units 1 & 2 LCO for Control Room Special 3.3.6 A]Output 19 E Tech Spec Ventilation System (CRSVS) Actuation Instrumentation | ||
====3.3.6 Amendment==== | |||
4Input 158/149 U 1/U2 20 [ Tech Spec PINGP Units 1 & 2 LCO for Control Room Special 3A mnt Ventilation System (CRSVS) 3.7.10 Amendment 4Input 9Output 1 158/149 21 Federal Guidance Report 11 EPA-520/1-88-020 ZInput DOutput 22 Federal Guidance Report 12 EPA-402-R-93-081 ZInput [-]Output Westinghouse Letter -Nuclear Management Company Prairie Island Units 1 & 2, MUR Power Uprate Program, NSP-07-59 11/02/2007 Zlnput [:]Output 23 [ LTR Core Activity Inventory and Coolant Activity LTR-PEP-07-26 Concentrations 24 Laboratory Testing of Nuclear-Grade Activated Charcoal GL 99-02 6/3/99 Zlnput [:]Output QF-0549 (FP-E-CAL-01), Rev. 3 Paae 5 of 277 Calculation Signature Sheet 25 ASME Steam Tables Sixth n Zinput []Output Edition 26 Accident Source Term 10 CFR 50.67 Zlnput --Output 27 Z DRAW Admin Bldg, Screen House, & Control RM Flow Diagram NF-39603-1 76 Zlnput -]Output Prairie Island Nuclear Generating Plant, Units I And 2 -Issuance Of Amendments Re: Revision To Loss-Of-28 Z SER Coolant (LOCA) Accident And Main Steam Line Break MD9140 & 06/19/2009 Zlnput [--]Output (MSLB) Accident Radiological Dose Consequences MD9141 Analyses And Affected Technical Specifications (TAC Nos. MD9140 And MD9141)29 Z PROC Natural Circulation Cooldown With CRDM Fans 1ES-0.3A 14 Zinput -]Output 30 Z PROC Natural Circulation Cooldown Without CRDM Fans 1ES-0.3B 11 ]Input [:]Output 31 Z DRAW Architectural Plant Roof Plan NF-38513 T Zinput [--]Output 32 NUREG-0800, Standard Review Plan, "Radiological 15.0.1 0 Zinput --Output Consequence Analyses Using Alternative Source Terms" 33 Z CALC Post-LOCA EAB, LPZ, and CR Doses -AST GEN-PI-079 0 ZInput --Output 34 Z CALC Dose Consequences At The Site Boundary & Control 12400604-UR(B)- | |||
0 E]Input ZOutput 3 CALC Room Following a MSLB 005 35 Z USAR Dose Analysis for MSLB Outside Containment 14.5.5.6 29P --lnput ZOutput 36 Z USAR Steam Generators Section 4.3.2.1.1 29 ZInput []Output 37 Deletion of E Bar Definition and Revision to RCS Specific TSTF-490 0 ZInput [:]Output 37 STD Activity Tech Spec PINGP Amendment Nos. 166 and 156 to Operating ZInput DOutput 38 Z LA License Nos. DPR-42 and DPR-60, respectively, Selective LA # 166 & 156 Implementation Of Alternate Source Term For Fuel Handling Accidents 39 Z USAR Letdown Orifices Section 10.2.3.2.4.b 29 Zlnput --Output 40 Z USAR Chemical and Volume control System Performance Table 10.2-7 27 ZInput [l-Output Requirements 41 Z PROC PINGP Emergency Plan Implementing Procedure, F3-20 22 Zlnput Dou put 41_ _ _RO __ Determination of Radioactive Release Concentrations | 0 E]Input ZOutput 3 CALC Room Following a MSLB 005 35 Z USAR Dose Analysis for MSLB Outside Containment 14.5.5.6 29P --lnput ZOutput 36 Z USAR Steam Generators Section 4.3.2.1.1 29 ZInput []Output 37 Deletion of E Bar Definition and Revision to RCS Specific TSTF-490 0 ZInput [:]Output 37 STD Activity Tech Spec PINGP Amendment Nos. 166 and 156 to Operating ZInput DOutput 38 Z LA License Nos. DPR-42 and DPR-60, respectively, Selective LA # 166 & 156 Implementation Of Alternate Source Term For Fuel Handling Accidents 39 Z USAR Letdown Orifices Section 10.2.3.2.4.b 29 Zlnput --Output 40 Z USAR Chemical and Volume control System Performance Table 10.2-7 27 ZInput [l-Output Requirements 41 Z PROC PINGP Emergency Plan Implementing Procedure, F3-20 22 Zlnput Dou put 41_ _ _RO __ Determination of Radioactive Release Concentrations | ||
_32022__npt__-Ouu QF-0549 (FP-E-CAL-01), Rev. 3 Paqe 6 of 277 IXcelEnergY Calculation Signature Sheet Steam Release Pathway Inputs for Main Steam Line Break 4 Z TRNS (MSLB), Steam Generator Tube Rupture (SGTR), Locked 42 [] TRNS Rotor Accident (LRA) and Control Rod Ejection Accident DIT No. 13720-16 0 Zlnput -Ouput (CREA)PTNGP Operating Procedure, 43 Z PROC Unit 1 Shutdown 1C1.3 68 ZInput --Ou put Unit 2 Shutdown 2C 1.3 67 Shaw Stone & Webster Calculation | _32022__npt__-Ouu QF-0549 (FP-E-CAL-01), Rev. 3 Paqe 6 of 277 IXcelEnergY Calculation Signature Sheet Steam Release Pathway Inputs for Main Steam Line Break 4 Z TRNS (MSLB), Steam Generator Tube Rupture (SGTR), Locked 42 [] TRNS Rotor Accident (LRA) and Control Rod Ejection Accident DIT No. 13720-16 0 Zlnput -Ouput (CREA)PTNGP Operating Procedure, 43 Z PROC Unit 1 Shutdown 1C1.3 68 ZInput --Ou put Unit 2 Shutdown 2C 1.3 67 Shaw Stone & Webster Calculation | ||
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XceI nergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 9 of 277 1 ýXclnry-Design Review Comment Form Sheet of DOCUMENT NUMBER/ TITLE: GEN-PI-078/ | XceI nergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 9 of 277 1 ýXclnry-Design Review Comment Form Sheet of DOCUMENT NUMBER/ TITLE: GEN-PI-078/ | ||
Main Steam Line Break (MSLB) Accident Analysis Using AST REVISION: | Main Steam Line Break (MSLB) Accident Analysis Using AST REVISION: | ||
0 DATE: ITEM REVIEWER'S COMMENTS PREPARER'S REVIEWER'S N RESOLUTION DISPOSITION I Design Input Parameter 5.3.1. There are two Incorporated. | 0 DATE: ITEM REVIEWER'S COMMENTS PREPARER'S REVIEWER'S N RESOLUTION DISPOSITION I Design Input Parameter | ||
====5.3.1. There==== | |||
are two Incorporated. | |||
Accepted power levels listed. Do these include the 2%uncertainty? | Accepted power levels listed. Do these include the 2%uncertainty? | ||
Either way, it should be indicated. | Either way, it should be indicated. | ||
2 Design Input Parameter 5.3.3. The units for Incorporated. | 2 Design Input Parameter 5.3.3. The units for Incorporated. | ||
Accepted DEI are listed as uCi/gm and uCi/g. They should be consistent throughout the calc.3 Design Input Parameter 5.3.4. Should the Incorporated. | Accepted DEI are listed as uCi/gm and uCi/g. They should be consistent throughout the calc.3 Design Input Parameter | ||
====5.3.4. Should==== | |||
the Incorporated. | |||
Accepted RTP be 102%?4 Design Input Parameter 5.3.14. Two SG Please see Section 7.1. Accepted liquid masses are given. Which one was used in the calc for conservatism? | Accepted RTP be 102%?4 Design Input Parameter 5.3.14. Two SG Please see Section 7.1. Accepted liquid masses are given. Which one was used in the calc for conservatism? | ||
This should be indicated here.5 Design Input Parameter 5.3.15. Two SG Please see Section 7.3.2. Accepted pressures are given. Which one was used in the calc for conservatism? | This should be indicated here.5 Design Input Parameter 5.3.15. Two SG Please see Section 7.3.2. Accepted pressures are given. Which one was used in the calc for conservatism? | ||
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Thomas Mscisz Date: 06/15/2009 Preparer: | Thomas Mscisz Date: 06/15/2009 Preparer: | ||
Gopal J. Patel Date: 06/15/2009 SXcelEnergY: | Gopal J. Patel Date: 06/15/2009 SXcelEnergY: | ||
Calculation No. GEN-PI-078 Revision No. 1 Page No. 11 of 277 I REVISION HISTORY Revision Description 0 Initial issue I The TDAFW pump exhaust steam release path is re-evaluated as an Unit 2 Group I PORV release path Xcel Energy. Calculation No. GEN-PI-078 Revision No. I Page No. 12 of 277 SHEET REVISION INDEX SHEET REV SHEET REV SHEET REV 1 1 27 1 53 1 2 1 28 1 54 1 3 1 29 1 55 1 4 1 30 1 56 1 5 1 31 1 57 1 6 1 32 1 58 1 7 1 33 1 59 1 8 1 34 1 60 1 9 1 35 1 61 1 10 1 36 1 Attachment 13.1 1 11 1 37 1 Attachment 13.2 1 12 1 38 1 Attachment 13.3 1 13 1 39 1 Attachment 13.4 1 14 1 40 1 Attachment 13.5 1 15 1 41 1 Attachment 13.6 1 16 1 42 1 Attachment 13.7 1 17 1 43 1 Attachment 13.8 1 18 1 44 1 Attachment 13.9 1 19 1 45 1 Attachment 13.10 1 20 1 46 1 21 1 47 1 22 1 48 1 23 1 49 1 24 1 50 1 25 1 51 1 26 1 52 1 SXcel Energy Calculation No. GEN-PI-078 Revision No. I Page No. 13 of 277 TABLE OF CONTENTS Section Cover Sheet Revision History Sheet Revision Index Table of Contents 1.0 Purpose And Summary Report 2.0 Methodology 3.0 Acceptance Criteria 4.0 Assumptions 5.0 Design Inputs 6.0 Computer Codes & Compliance With Regulatory Requirements | Calculation No. GEN-PI-078 Revision No. 1 Page No. 11 of 277 I REVISION HISTORY Revision Description 0 Initial issue I The TDAFW pump exhaust steam release path is re-evaluated as an Unit 2 Group I PORV release path Xcel Energy. Calculation No. GEN-PI-078 Revision No. I Page No. 12 of 277 SHEET REVISION INDEX SHEET REV SHEET REV SHEET REV 1 1 27 1 53 1 2 1 28 1 54 1 3 1 29 1 55 1 4 1 30 1 56 1 5 1 31 1 57 1 6 1 32 1 58 1 7 1 33 1 59 1 8 1 34 1 60 1 9 1 35 1 61 1 10 1 36 1 Attachment 13.1 1 11 1 37 1 Attachment 13.2 1 12 1 38 1 Attachment 13.3 1 13 1 39 1 Attachment 13.4 1 14 1 40 1 Attachment 13.5 1 15 1 41 1 Attachment 13.6 1 16 1 42 1 Attachment 13.7 1 17 1 43 1 Attachment 13.8 1 18 1 44 1 Attachment 13.9 1 19 1 45 1 Attachment 13.10 1 20 1 46 1 21 1 47 1 22 1 48 1 23 1 49 1 24 1 50 1 25 1 51 1 26 1 52 1 SXcel Energy Calculation No. GEN-PI-078 Revision No. I Page No. 13 of 277 TABLE OF CONTENTS Section Cover Sheet Revision History Sheet Revision Index Table of Contents 1.0 Purpose And Summary Report 2.0 Methodology | ||
===3.0 Acceptance=== | |||
Criteria 4.0 Assumptions | |||
===5.0 Design=== | |||
Inputs 6.0 Computer Codes & Compliance With Regulatory Requirements | |||
==7.0 Calculations== | ==7.0 Calculations== | ||
8.0 Results Summary And Conclusions | |||
===8.0 Results=== | |||
Summary And Conclusions | |||
==9.0 References== | ==9.0 References== | ||
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These dose characteristics combined with the extremely low fractional release of less than 1/10,000 will result in inconsequential CR and offsite doses, which will be eliminated as being less than the significant figure rounding error.2.5 CR Air Intake Radiation Monitor Response Post-accident Xe-133 activity in the CR @ 0.0833 hr (5 minutes)= 2.9936E-02 Ci (RADTRAD Run PMSFPNGOI .o0)Control room volume 61,315 ft 3 (Section 5.5.1) = 61,315 ft 3 /(3.28 ft/m)3 = 1,737.58 m 3 Xe-133 activity concentration in the CR @ 0.0036 hr (0.22 minute)= 2.9936E-02 Ci / 1,737.58 m 3 = 1.723E-05 Ci/m 3 = 1.723E-05 | These dose characteristics combined with the extremely low fractional release of less than 1/10,000 will result in inconsequential CR and offsite doses, which will be eliminated as being less than the significant figure rounding error.2.5 CR Air Intake Radiation Monitor Response Post-accident Xe-133 activity in the CR @ 0.0833 hr (5 minutes)= 2.9936E-02 Ci (RADTRAD Run PMSFPNGOI .o0)Control room volume 61,315 ft 3 (Section 5.5.1) = 61,315 ft 3 /(3.28 ft/m)3 = 1,737.58 m 3 Xe-133 activity concentration in the CR @ 0.0036 hr (0.22 minute)= 2.9936E-02 Ci / 1,737.58 m 3 = 1.723E-05 Ci/m 3 = 1.723E-05 | ||
[tCi/cc, which exceeds the CR monitor setpoint of IE-05 ytCi/cc for Xe-133 (Ref. 9.3.2, Item # 9).Since the Xe-133 activity in the CR is circulated by the CR recirculation flow through the CR air supply duct (Ref. 9.24), the monitor setpoint is exceeded within 5 minutes due to the P-T-S leakage noble gas release from the faulted SG alone. Therefore, the CR actuation delay of 5 minutes following a MSLB accident is considered extremely conservative, and does not require any further justification. | [tCi/cc, which exceeds the CR monitor setpoint of IE-05 ytCi/cc for Xe-133 (Ref. 9.3.2, Item # 9).Since the Xe-133 activity in the CR is circulated by the CR recirculation flow through the CR air supply duct (Ref. 9.24), the monitor setpoint is exceeded within 5 minutes due to the P-T-S leakage noble gas release from the faulted SG alone. Therefore, the CR actuation delay of 5 minutes following a MSLB accident is considered extremely conservative, and does not require any further justification. | ||
3.0 ACCEPTANCE CRITERIA: The following NRC regulatory requirement and guidance documents are applicable to this PINGP MSLB accident analysis:* Regulatory Guide 1.183 (Ref. 9.1)* 1OCFR50.67 (Ref. 9.12)* Standard Review Plan section 15.0.1 (Ref. 9.17)Dose Acceptance Criteria are: | |||
===3.0 ACCEPTANCE=== | |||
CRITERIA: The following NRC regulatory requirement and guidance documents are applicable to this PINGP MSLB accident analysis:* Regulatory Guide 1.183 (Ref. 9.1)* 1OCFR50.67 (Ref. 9.12)* Standard Review Plan section 15.0.1 (Ref. 9.17)Dose Acceptance Criteria are: | |||
61 X I Energy] Calculation No. GEN-PI-078 Revision No. I Page No.20 of 277 Regulatory Dose Limits SXcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No.21 of 277 4.0 ASSUMPTIONS: | 61 X I Energy] Calculation No. GEN-PI-078 Revision No. I Page No.20 of 277 Regulatory Dose Limits SXcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No.21 of 277 4.0 ASSUMPTIONS: | ||
Regulatory Guide 1.183 (Ref. 9.1) provides guidance on modeling assumptions that are acceptable to the NRC staff for the evaluation of the radiological consequences of a MSLB accident. | Regulatory Guide 1.183 (Ref. 9.1) provides guidance on modeling assumptions that are acceptable to the NRC staff for the evaluation of the radiological consequences of a MSLB accident. | ||
The following sections address the applicability of these modeling assumptions to the PINGP Units I and 2 MSLB accident analysis. | The following sections address the applicability of these modeling assumptions to the PINGP Units I and 2 MSLB accident analysis. | ||
These assumptions are incorporated as design inputs in Sections 5.3 through 5.6.The radioactivity material releases and radiation levels used in the control room dose analysis are determined using the same source term, transport, and release assumptions used for determining the exclusion area boundary (EAB) and the low population zone (LPZ) TEDE values (Ref 9.1, Section 4.2.2).There are no unverified assumptions in this calculation. | These assumptions are incorporated as design inputs in Sections 5.3 through 5.6.The radioactivity material releases and radiation levels used in the control room dose analysis are determined using the same source term, transport, and release assumptions used for determining the exclusion area boundary (EAB) and the low population zone (LPZ) TEDE values (Ref 9.1, Section 4.2.2).There are no unverified assumptions in this calculation. | ||
4.1 Source Terms Per Reference 9.3.1, Item # 3, no fuel damage is postulated for the MSLB accident. | |||
===4.1 Source=== | |||
Terms Per Reference 9.3.1, Item # 3, no fuel damage is postulated for the MSLB accident. | |||
Per RG 1.183 (Ref. 9.1, Appendix E, Section 2), since no or minimal fuel damage is postulated for the limiting event, the released activity is the maximum coolant activity allowed by the technical specifications. | Per RG 1.183 (Ref. 9.1, Appendix E, Section 2), since no or minimal fuel damage is postulated for the limiting event, the released activity is the maximum coolant activity allowed by the technical specifications. | ||
Two cases of iodine spiking, a pre-accident case and a concurrent case, are assumed.4.1.1 Pre-accident Iodine Spike Source Term It is assumed for the pre-accident iodine spike that a reactor transient has occurred prior to the postulated MSLB and has raised the primary coolant iodine concentration to the maximum value permitted by the technical specifications (Ref. 9.1, Appendix E, Section 21. ).Per Technical Specification (TS) LCO for Specific Activity (Ref. 9.14, LCO 3.4.17), the proposed maximum primary coolant iodine concentration permitted by the technical specifications at full power is shown in TS Figure 3.4.17-1 (Ref. 9.6.6), which will be 30 ýtCi/gm Dose Equivalent (DE) 1-131 approved in the P1NGP Safety Evaluation Report (SER) (Ref. 9.14). Technical Specification Section 1.10 (Ref. 9.6.2) defines DE 1-131 as that concentration of 1-131 (in pCi/gm) which alone would produce the same thyroid dose as the quantity and isotopic mixture of 1-131, 1-132, 1-133, 1-134, and 1-135 actually present using the thyroid dose conversion factors (DCFs) specified in Table III of TID-14844; the TS Section 1.10 definition of DE 1-131 will be revised to be based on the effective DCFs specified in Federal Guidance Report 11 (Ref. 9.7). Therefore, this analysis calculates DE-1 31 in Table 1 in terms of the thyroid DCFs instead of the effective DCFs specified in FGR 11, which produce relatively a higher iodine concentration. | Two cases of iodine spiking, a pre-accident case and a concurrent case, are assumed.4.1.1 Pre-accident Iodine Spike Source Term It is assumed for the pre-accident iodine spike that a reactor transient has occurred prior to the postulated MSLB and has raised the primary coolant iodine concentration to the maximum value permitted by the technical specifications (Ref. 9.1, Appendix E, Section 21. ).Per Technical Specification (TS) LCO for Specific Activity (Ref. 9.14, LCO 3.4.17), the proposed maximum primary coolant iodine concentration permitted by the technical specifications at full power is shown in TS Figure 3.4.17-1 (Ref. 9.6.6), which will be 30 ýtCi/gm Dose Equivalent (DE) 1-131 approved in the P1NGP Safety Evaluation Report (SER) (Ref. 9.14). Technical Specification Section 1.10 (Ref. 9.6.2) defines DE 1-131 as that concentration of 1-131 (in pCi/gm) which alone would produce the same thyroid dose as the quantity and isotopic mixture of 1-131, 1-132, 1-133, 1-134, and 1-135 actually present using the thyroid dose conversion factors (DCFs) specified in Table III of TID-14844; the TS Section 1.10 definition of DE 1-131 will be revised to be based on the effective DCFs specified in Federal Guidance Report 11 (Ref. 9.7). Therefore, this analysis calculates DE-1 31 in Table 1 in terms of the thyroid DCFs instead of the effective DCFs specified in FGR 11, which produce relatively a higher iodine concentration. | ||
The pre-accident iodine spike isotopic iodine concentrations are calculated in Table 4.4.1.2 Concurrent Iodine Spike Source Term Consistent with Regulatory Guide 1.183 (Ref. 9.1, Appendix E, Section 2.2), it is assumed for the concurrent iodine spike that the primary system transient associated with the MSLB causes an iodine spike in the primary system. The increase in primary coolant iodine concentration is estimated using a spiking model that assumes that the iodine release rate from the fuel rods to the primary coolant (expressed in curies per unit time) increases to a value 500 times greater than the release rate corresponding to the iodine concentration at the equilibrium value specified in technical specifications (i.e., concurrent iodine spike case). The assumed iodine spike is conservatively assumed to persist for the maximum 8 hour duration specified in RG 1.183.Per Technical Specification LCO for reactor coolant specific activity (Ref. 9.14, LCO 3.4.17), the approved equilibrium primary coolant iodine concentration permitted by the technical specifications will be 0.50 pCi/gm DE 1-131.. The concurrent iodine spike isotopic iodine activity release rates are calculated in Table 8. | The pre-accident iodine spike isotopic iodine concentrations are calculated in Table 4.4.1.2 Concurrent Iodine Spike Source Term Consistent with Regulatory Guide 1.183 (Ref. 9.1, Appendix E, Section 2.2), it is assumed for the concurrent iodine spike that the primary system transient associated with the MSLB causes an iodine spike in the primary system. The increase in primary coolant iodine concentration is estimated using a spiking model that assumes that the iodine release rate from the fuel rods to the primary coolant (expressed in curies per unit time) increases to a value 500 times greater than the release rate corresponding to the iodine concentration at the equilibrium value specified in technical specifications (i.e., concurrent iodine spike case). The assumed iodine spike is conservatively assumed to persist for the maximum 8 hour duration specified in RG 1.183.Per Technical Specification LCO for reactor coolant specific activity (Ref. 9.14, LCO 3.4.17), the approved equilibrium primary coolant iodine concentration permitted by the technical specifications will be 0.50 pCi/gm DE 1-131.. The concurrent iodine spike isotopic iodine activity release rates are calculated in Table 8. | ||
Xce Energy Calculation No. GEN-PI-078 Revision No. I Page No. 22 of 277 4.1.3 Noble Gas Source Term As discussed in Section 2.3, the noble gas isotopic concentrations are calculated in Tables 5 & 5A using the proposed a new indicator, XE-I 33 Dose Equivalent, instead of the current indicator known as E-Bar (Ref.9.6.3). The noble gas isotopic concentration based on 580 pCi/gm DE XE-133 are used for both the pre-accident and concurrent iodine spike cases as shown in Tables 6 and 10.4.1.4 Activity Release from the Fuel into the Primary Coolant It is assumed consistent with RG 1.183 (Ref. 9. 1, Appendix E, Section 3) that the activity released from the fuel (for both the pre-accident and concurrent iodine spike cases) is released instantaneously and homogeneously through the primary coolant.4.1.5 Iodine Chemical Form It is assumed that the chemical forms of iodine released from the steam generators to the environment are 97%elemental and 3% organic (Ref. 9.1, Appendix E, Section 4). The chemical form of iodine released from the fuel is irrelevant, given that the chemical form of iodine released from the SGs is specified. | Xce Energy Calculation No. GEN-PI-078 Revision No. I Page No. 22 of 277 4.1.3 Noble Gas Source Term As discussed in Section 2.3, the noble gas isotopic concentrations are calculated in Tables 5 & 5A using the proposed a new indicator, XE-I 33 Dose Equivalent, instead of the current indicator known as E-Bar (Ref.9.6.3). The noble gas isotopic concentration based on 580 pCi/gm DE XE-133 are used for both the pre-accident and concurrent iodine spike cases as shown in Tables 6 and 10.4.1.4 Activity Release from the Fuel into the Primary Coolant It is assumed consistent with RG 1.183 (Ref. 9. 1, Appendix E, Section 3) that the activity released from the fuel (for both the pre-accident and concurrent iodine spike cases) is released instantaneously and homogeneously through the primary coolant.4.1.5 Iodine Chemical Form It is assumed that the chemical forms of iodine released from the steam generators to the environment are 97%elemental and 3% organic (Ref. 9.1, Appendix E, Section 4). The chemical form of iodine released from the fuel is irrelevant, given that the chemical form of iodine released from the SGs is specified. | ||
4.2 Transport 4.2.1 Primary-to-Secondary Leak Rates It is assumed that the maximum allowed accident induced steam generator (SG) leak rate is 1 gallon/minute at 70'F per the Technical Specification 3.4.14 Bases (Ref. 9.6.9) for the faulted SG (Ref. 9.3.1, Item # 21) and 150 gallons/day at 70'F of P-T-S leakage for the intact SG (Ref. 9.6.7). It is conservatively assumed that the intact SG tubes are uncovered for 2 hours after onset of the event.4.2.2 Primary-to-Secondary Leak Primary Coolant Density It is assumed that the primary coolant (i.e., RCS) density is 1.0 gm/cc (62.4 lb/ft 3) (Ref. 9.1, Appendix E, Section 5.2) used in converting the volumetric primary-to-secondary leak rates (e.g., gpm) to mass leak rates (e.g., lb/hr).4.2.3 Primary-to-Secondary Leak Duration It is assumed consistent with RG 1.183 (Ref. 9.1, Appendix E, Section 5.3), that the primary-to-secondary (P-T-S) leakage continues until the primary system pressure is less than the secondary system pressure, or until the temperature of the leakage is less than 212'F, and the release of radioactivity is assumed to continue until shutdown cooling is in operation and releases from the steam generator have terminated. | |||
===4.2 Transport=== | |||
4.2.1 Primary-to-Secondary Leak Rates It is assumed that the maximum allowed accident induced steam generator (SG) leak rate is 1 gallon/minute at 70'F per the Technical Specification 3.4.14 Bases (Ref. 9.6.9) for the faulted SG (Ref. 9.3.1, Item # 21) and 150 gallons/day at 70'F of P-T-S leakage for the intact SG (Ref. 9.6.7). It is conservatively assumed that the intact SG tubes are uncovered for 2 hours after onset of the event.4.2.2 Primary-to-Secondary Leak Primary Coolant Density It is assumed that the primary coolant (i.e., RCS) density is 1.0 gm/cc (62.4 lb/ft 3) (Ref. 9.1, Appendix E, Section 5.2) used in converting the volumetric primary-to-secondary leak rates (e.g., gpm) to mass leak rates (e.g., lb/hr).4.2.3 Primary-to-Secondary Leak Duration It is assumed consistent with RG 1.183 (Ref. 9.1, Appendix E, Section 5.3), that the primary-to-secondary (P-T-S) leakage continues until the primary system pressure is less than the secondary system pressure, or until the temperature of the leakage is less than 212'F, and the release of radioactivity is assumed to continue until shutdown cooling is in operation and releases from the steam generator have terminated. | |||
In this analysis RCS is conservatively assumed to leak into the intact SG for 45.5 hours until the RHR system is initialized (Ref. 9.3.1, Item #27).P-T-S Leakage into the faulted SG is assumed to continue for a total of 75 hours, until the faulted SG temperature decreases to 200'F (Ref. 9.3.1, Item #26).The release of fission products from the secondary system is evaluated with the assumption of a coincident loss of offsite power (LOOP). The offsite power is assumed to be lost so that the main steam condensers are not available for removal of the decay heat. | In this analysis RCS is conservatively assumed to leak into the intact SG for 45.5 hours until the RHR system is initialized (Ref. 9.3.1, Item #27).P-T-S Leakage into the faulted SG is assumed to continue for a total of 75 hours, until the faulted SG temperature decreases to 200'F (Ref. 9.3.1, Item #26).The release of fission products from the secondary system is evaluated with the assumption of a coincident loss of offsite power (LOOP). The offsite power is assumed to be lost so that the main steam condensers are not available for removal of the decay heat. | ||
SXceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No.23 of 277 4.2.4 Noble Gas Releases to the Environment It is assumed that all noble gas radionuclides released from the primary system (via the primary-to-secondary leak) are released to environment without reduction or mitigation. (Ref. 9.1, Appendix E, Section 5.4)4.2.5 Transport Model RG 1.183 (Ref. 9.1, Appendix E, Section 5.5) presents the following generic steam generator transport model for use in evaluating an MSLB accident: STEAM GENERATOR TRANSPORT MODEL Release via the Faulted Steam Generator: | SXceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No.23 of 277 4.2.4 Noble Gas Releases to the Environment It is assumed that all noble gas radionuclides released from the primary system (via the primary-to-secondary leak) are released to environment without reduction or mitigation. (Ref. 9.1, Appendix E, Section 5.4)4.2.5 Transport Model RG 1.183 (Ref. 9.1, Appendix E, Section 5.5) presents the following generic steam generator transport model for use in evaluating an MSLB accident: STEAM GENERATOR TRANSPORT MODEL Release via the Faulted Steam Generator: | ||
Line 135: | Line 161: | ||
These assumptions are incorporated as design inputs in Section 5.5. | These assumptions are incorporated as design inputs in Section 5.5. | ||
c X eIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 26 of 277 4.4.1 Control Room Operator Dose Contributors Consistent with RG 1.183 (Ref. 9.1, Section 4.2.1), the CR TEDE analysis considers the following sources of radiation that will cause exposure to control room personnel: " Contamination of the control room atmosphere by the filtered CR ventilation inflow through the CR air intake and by unfiltered inleakage of the radioactive material contained in the post-accident radioactive plume released from the facility,* Contamination of the control room atmosphere by filtered CR ventilation inflow via the CR air intake and by unfiltered inleakage of airborne radioactive material from areas and structures adjacent to the control room envelope,* Radiation shine from the external radioactive plume released from the facility (i.e., external airborne cloud shine dose), Radiation shine from radioactive material in the reactor containment (i.e., containment shine dose). This form of radiation shine is not applicable to a MSLB accident in which the activity is not released into the containment air space, and* Radiation shine from radioactive material in systems and components inside or external to the control room envelope (e.g., radioactive material buildup in CR intake and recirculation filters [i.e., CR filter shine dose]).* Note: The external airborne cloud shine dose and the CR filter shine dose due to a MSLB accident are expected to be considerably less than those due to a LOCA as a result of source term differences (i.e., the LOCA releases significantly more activity from failed fuel than does the MSLB event per RG 1.183 [Ref. 9.1, Table 2 for LOCA compared to no fuel failure and only iodine spiking for the MSLB]). Therefore, the post-LOCA external airborne cloud and CR filter shine doses are conservatively applied to the MSLB accident in Section 8.1.1 and 8.1.2.4.4.2 Control Room Source Term It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.2), that the radioactive material releases and radiation levels used in the control room dose analysis are determined using the same source term, transport, and release assumptions used for determining the EAB and the LPZ TEDE values. The parameters assumed for determining the EAB and LPZ TEDE values also result in conservative dose projections to the control room personnel. | c X eIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 26 of 277 4.4.1 Control Room Operator Dose Contributors Consistent with RG 1.183 (Ref. 9.1, Section 4.2.1), the CR TEDE analysis considers the following sources of radiation that will cause exposure to control room personnel: " Contamination of the control room atmosphere by the filtered CR ventilation inflow through the CR air intake and by unfiltered inleakage of the radioactive material contained in the post-accident radioactive plume released from the facility,* Contamination of the control room atmosphere by filtered CR ventilation inflow via the CR air intake and by unfiltered inleakage of airborne radioactive material from areas and structures adjacent to the control room envelope,* Radiation shine from the external radioactive plume released from the facility (i.e., external airborne cloud shine dose), Radiation shine from radioactive material in the reactor containment (i.e., containment shine dose). This form of radiation shine is not applicable to a MSLB accident in which the activity is not released into the containment air space, and* Radiation shine from radioactive material in systems and components inside or external to the control room envelope (e.g., radioactive material buildup in CR intake and recirculation filters [i.e., CR filter shine dose]).* Note: The external airborne cloud shine dose and the CR filter shine dose due to a MSLB accident are expected to be considerably less than those due to a LOCA as a result of source term differences (i.e., the LOCA releases significantly more activity from failed fuel than does the MSLB event per RG 1.183 [Ref. 9.1, Table 2 for LOCA compared to no fuel failure and only iodine spiking for the MSLB]). Therefore, the post-LOCA external airborne cloud and CR filter shine doses are conservatively applied to the MSLB accident in Section 8.1.1 and 8.1.2.4.4.2 Control Room Source Term It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.2), that the radioactive material releases and radiation levels used in the control room dose analysis are determined using the same source term, transport, and release assumptions used for determining the EAB and the LPZ TEDE values. The parameters assumed for determining the EAB and LPZ TEDE values also result in conservative dose projections to the control room personnel. | ||
4.4.3 Control Room Transport It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.3), that the models used to transport radioactive material into and through the control room, and the shielding models used to determine radiation dose rates from external sources, are structured to provide suitably conservative estimates of the exposure to control room personnel. | |||
====4.4.3 Control==== | |||
Room Transport It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.3), that the models used to transport radioactive material into and through the control room, and the shielding models used to determine radiation dose rates from external sources, are structured to provide suitably conservative estimates of the exposure to control room personnel. | |||
These conservative assumptions include conservative values for unfiltered inleakage, minimum clean-up air flow rates, and minimum filter efficiencies. | These conservative assumptions include conservative values for unfiltered inleakage, minimum clean-up air flow rates, and minimum filter efficiencies. | ||
The shielding models are not developed to determine radiation dose rates from external sources because their dose contributions are conservatively assumed to be same as those due to a LOCA and added to the dose contributions from other sources in Section 8.1.1 and 8.1.2.4.4.4 Control Room Response It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.4), that engineered safety features (ESF) that mitigate airborne radioactive material within the control room are credited. | The shielding models are not developed to determine radiation dose rates from external sources because their dose contributions are conservatively assumed to be same as those due to a LOCA and added to the dose contributions from other sources in Section 8.1.1 and 8.1.2.4.4.4 Control Room Response It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.4), that engineered safety features (ESF) that mitigate airborne radioactive material within the control room are credited. | ||
Line 142: | Line 170: | ||
= (DDE. x V'3 3 8) / 1173 4.4.8 Control Room Operator Dose Acceptance Criteria It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.4), that for the MSLB accident the postulated CR doses should not exceed the 5 Rem TEDE criterion established in 10 CFR 50.67 (Ref. 9.12): CR Dose Acceptance Criterion (pre-accident iodine spike case): 5 Rem TEDE CR Dose Acceptance Criterion (concurrent iodine spike case): 5 Rein TEDE XceI Energy Calculation No. GEN-Pl-078 Revision No. I Page No. 28 of 277 5.0 DESIGN INPUTS: 5.1.1 Applicability of Prior Licensing Basis The PINGP plant specific design inputs and assumptions used in the current facility's design basis MSLB accident analysis were assessed for their validity to represent the as-built condition of the plant and evaluated for their compatibility to meet the AST and TEDE methodology. | = (DDE. x V'3 3 8) / 1173 4.4.8 Control Room Operator Dose Acceptance Criteria It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.4), that for the MSLB accident the postulated CR doses should not exceed the 5 Rem TEDE criterion established in 10 CFR 50.67 (Ref. 9.12): CR Dose Acceptance Criterion (pre-accident iodine spike case): 5 Rem TEDE CR Dose Acceptance Criterion (concurrent iodine spike case): 5 Rein TEDE XceI Energy Calculation No. GEN-Pl-078 Revision No. I Page No. 28 of 277 5.0 DESIGN INPUTS: 5.1.1 Applicability of Prior Licensing Basis The PINGP plant specific design inputs and assumptions used in the current facility's design basis MSLB accident analysis were assessed for their validity to represent the as-built condition of the plant and evaluated for their compatibility to meet the AST and TEDE methodology. | ||
The analysis in this calculation ensures that analysis assumptions, design inputs, and methods are compatible with the AST and comply with RG 1.183, Appendix E requirements. | The analysis in this calculation ensures that analysis assumptions, design inputs, and methods are compatible with the AST and comply with RG 1.183, Appendix E requirements. | ||
5.1.2 Credit for Engineered Safety Features Credit is taken only for those accident mitigation features that are classified as safety-related, are required to be operable by technical specifications, are powered by emergency power sources, and are either automatically actuated or, in limited cases, have actuation requirements explicitly addressed in emergency operating procedures. | |||
====5.1.2 Credit==== | |||
for Engineered Safety Features Credit is taken only for those accident mitigation features that are classified as safety-related, are required to be operable by technical specifications, are powered by emergency power sources, and are either automatically actuated or, in limited cases, have actuation requirements explicitly addressed in emergency operating procedures. | |||
The dose mitigation feature of the Control Room Special Ventilation System (CRSVS) are credited in the analysis. | The dose mitigation feature of the Control Room Special Ventilation System (CRSVS) are credited in the analysis. | ||
This system is safety related and operable by Technical Specification LCO 3.7.10 (Ref. 9.6.12).The CRSVS HEPA particulate removal filtration efficiency, and the CRSVS charcoal iodine removal filtration efficiencies used in the analysis are verified by the Ventilation Filter Testing Program in Technical Specification 5.5.9 (Ref. 9.6.8), which comply with Generic Letter (GL) 99-02 as demonstrated in Section 7.5.The CRSVS air intake monitors are required to be operable by TS 3.3.6 and Table 3.3.6-1 (Refs. 9.6.10 &9.6.11) in Modes 1, 2, 3, & 4 and during movement of irradiated fuel assemblies. | This system is safety related and operable by Technical Specification LCO 3.7.10 (Ref. 9.6.12).The CRSVS HEPA particulate removal filtration efficiency, and the CRSVS charcoal iodine removal filtration efficiencies used in the analysis are verified by the Ventilation Filter Testing Program in Technical Specification 5.5.9 (Ref. 9.6.8), which comply with Generic Letter (GL) 99-02 as demonstrated in Section 7.5.The CRSVS air intake monitors are required to be operable by TS 3.3.6 and Table 3.3.6-1 (Refs. 9.6.10 &9.6.11) in Modes 1, 2, 3, & 4 and during movement of irradiated fuel assemblies. | ||
The CRSVS actuation during the MSLB accident is credited in the analysis with a 5-minutes system response delay.5.1.3 Assignment of Numeric Input Values The numeric values chosen as inputs to this analysis are compatible to AST and TEDE dose criteria and selected with the objective of maximizing the postulated dose. The loss of offsite power for the entire duration of the event disabling the condenser, single failure of the motor driven AFW pump, use of more than measured CR unfiltered inleakage, 5 minutes delay for CRSVS actuation and a 10% lower CR recirculation flow rate are conservatively used to maximize the resulting doses (see Section 2.5).5.1.4 Meteorology Considerations The control room atmospheric dispersion factors (X/Qs) are developed in References 9.4 using the NRC sponsored ARCON96 computer code and guidance provided for the use of ARCON96 in the Regulatory Guide 1.194. The release point for activity released to the environment is the common area of auxiliary building Units 2 Group 1 PORV locations (Sections 2.1.1 & 2.1.2). The EAB and LPZ X/Qs were originally developed for the plant operating license and were accepted by the staff in the previous licensing amendments. | The CRSVS actuation during the MSLB accident is credited in the analysis with a 5-minutes system response delay.5.1.3 Assignment of Numeric Input Values The numeric values chosen as inputs to this analysis are compatible to AST and TEDE dose criteria and selected with the objective of maximizing the postulated dose. The loss of offsite power for the entire duration of the event disabling the condenser, single failure of the motor driven AFW pump, use of more than measured CR unfiltered inleakage, 5 minutes delay for CRSVS actuation and a 10% lower CR recirculation flow rate are conservatively used to maximize the resulting doses (see Section 2.5).5.1.4 Meteorology Considerations The control room atmospheric dispersion factors (X/Qs) are developed in References | ||
===9.4 using=== | |||
the NRC sponsored ARCON96 computer code and guidance provided for the use of ARCON96 in the Regulatory Guide 1.194. The release point for activity released to the environment is the common area of auxiliary building Units 2 Group 1 PORV locations (Sections 2.1.1 & 2.1.2). The EAB and LPZ X/Qs were originally developed for the plant operating license and were accepted by the staff in the previous licensing amendments. | |||
5.2 Accident-Specific Design Inputs/Assumptions The design inputs and assumptions utilized in this EAB, LPZ, and CR dose consequence analysis are listed in the following sections. | 5.2 Accident-Specific Design Inputs/Assumptions The design inputs and assumptions utilized in this EAB, LPZ, and CR dose consequence analysis are listed in the following sections. | ||
The design inputs are compatible with the requirements of the AST and TEDE dose criteria and the assumptions are consistent with those identified in Section 4 and Appendix E of RG 1.183 (Ref.9.1). The design inputs and assumptions in the following sections represent the as-built design of the plant. | The design inputs are compatible with the requirements of the AST and TEDE dose criteria and the assumptions are consistent with those identified in Section 4 and Appendix E of RG 1.183 (Ref.9.1). The design inputs and assumptions in the following sections represent the as-built design of the plant. | ||
Xc el E'nergy lCalculation No. GEN-PI-078 Rvso o aeN.9o 7 Revision No. I Page No. 29 of 277 Design Input Parameter Value Assigned Reference Main Steam Line Break Accident Parameters 5.3 Source Terms 5.3.1 Licensed reactor core power 1,650 MWt 9.6.1 level 1,683 MWt (= 102% of 1,650 MWt) 10% EPU Power Level Used in 1,852 MW,(= 110% of 1,683 MW,) the analysis 5.3.2 Primary Coolant (PC) 0.50 pCi/gm DE 1-131 9.6.2, 9.6.5, & 9.14, LCO 3.4.17 (iodine) specific activity in the Technical Specifications 5.3.3 PC (non-iodine) specific 100 / E-bar 9.6.3 activity in the proposed Technical 580 AtCi/gm DE of XE-133 Section 2.3, Tables 5 & 5A, Specifications Used in the analysis 5.3.4 Maximum PC (iodine) 30 IpCi/gm DE 1-131 9.6.6 & 9.14, Figure 3.4.17-1 specific activity permitted by the Technical Specifications 5.3.5 Concurrent Iodine Spiking 500 (for a MSLB accident) 9.1, Appendix E, Section 2.2 Factor 5.3.6 Duration of concurrent 8 hours (for a MSLB accident) 9.1, Appendix E, Section 2.2 iodine spike 5.3.7 Secondary coolant (iodine) 0. 1; .tCi/gm DE Iodine-131 9.6.2 & 9.6.4 specific activity in the Technical Specifications 5.3.8 Nominal reactor coolant 5;290 ft 3 9.9, Table 6-1 system (RCS) volume 5.3.9 RCS temperature | Xc el E'nergy lCalculation No. GEN-PI-078 Rvso o aeN.9o 7 Revision No. I Page No. 29 of 277 Design Input Parameter Value Assigned Reference Main Steam Line Break Accident Parameters | ||
===5.3 Source=== | |||
Terms 5.3.1 Licensed reactor core power 1,650 MWt 9.6.1 level 1,683 MWt (= 102% of 1,650 MWt) 10% EPU Power Level Used in 1,852 MW,(= 110% of 1,683 MW,) the analysis 5.3.2 Primary Coolant (PC) 0.50 pCi/gm DE 1-131 9.6.2, 9.6.5, & 9.14, LCO 3.4.17 (iodine) specific activity in the Technical Specifications 5.3.3 PC (non-iodine) specific 100 / E-bar 9.6.3 activity in the proposed Technical 580 AtCi/gm DE of XE-133 Section 2.3, Tables 5 & 5A, Specifications Used in the analysis 5.3.4 Maximum PC (iodine) 30 IpCi/gm DE 1-131 9.6.6 & 9.14, Figure 3.4.17-1 specific activity permitted by the Technical Specifications | |||
====5.3.5 Concurrent==== | |||
Iodine Spiking 500 (for a MSLB accident) 9.1, Appendix E, Section 2.2 Factor 5.3.6 Duration of concurrent 8 hours (for a MSLB accident) 9.1, Appendix E, Section 2.2 iodine spike 5.3.7 Secondary coolant (iodine) 0. 1; .tCi/gm DE Iodine-131 9.6.2 & 9.6.4 specific activity in the Technical Specifications | |||
====5.3.8 Nominal==== | |||
reactor coolant 5;290 ft 3 9.9, Table 6-1 system (RCS) volume 5.3.9 RCS temperature | |||
& pressure 560(F @ 2235 psia 9.3.1, Item # 25 5.3.10 Maximum allowed accident I gpm @ 70'F 9.3.1, Item # 21 & 9.6.9 induced SG leak rate 5.3.11 Faulted SG dryout time 600 seconds = 10 minutes 9.3.1, Item # 22 5.3.12 PC iodine activity concentration based on 1% fuel defects 9.9, Table 2-2, HB x 1.04 Isotope Activity Isotope Activity (gtCi/gm) | & pressure 560(F @ 2235 psia 9.3.1, Item # 25 5.3.10 Maximum allowed accident I gpm @ 70'F 9.3.1, Item # 21 & 9.6.9 induced SG leak rate 5.3.11 Faulted SG dryout time 600 seconds = 10 minutes 9.3.1, Item # 22 5.3.12 PC iodine activity concentration based on 1% fuel defects 9.9, Table 2-2, HB x 1.04 Isotope Activity Isotope Activity (gtCi/gm) | ||
Isotope Activity (gCi/gm) (gci/gm)1-131 2.55E+00 1-133 3.88E+00 1-135 2.20E+00 1-132 2.80E+00 1-134 5.82E-01 5.3.13 PC noble gas activity based on 1% fuel defects 9.9, Table 2-2, 1IB x 1.04 Isotope Activity Isotope Activity (giCi/gm) | Isotope Activity (gCi/gm) (gci/gm)1-131 2.55E+00 1-133 3.88E+00 1-135 2.20E+00 1-132 2.80E+00 1-134 5.82E-01 5.3.13 PC noble gas activity based on 1% fuel defects 9.9, Table 2-2, 1IB x 1.04 Isotope Activity Isotope Activity (giCi/gm) | ||
Line 154: | Line 197: | ||
Unit I _< 0.10 %Unit 2 < 0.25 %5.5 Control Room Model Parameters (Figure 3)5.5.1 CR Volume 61,315 ft 3 9.3.2, Item # 6 5.5.2 CRSVS Normal Flow Rate 1,818 cfm +/- 10% 9.3.2, Item # 10 2,000 cfm < 5 minutes Used in the analysis 5.5.3 CRSVS Makeup Rate 0 cfm > 5 minutes 9.3.2, Item #4 (CR operates in a recirculation mode)5.5.4 CRSVS Recirc Flow Rate 4,000 cfm +/- 10% 9.3.2, Item # 13 3,600 cfm > 5 minutes 5.5.5 CRSVS Charcoal Filter 95% for elemental iodine Section 7.5.1 Efficiencies 95% for organic iodide 5.5.6 CRSVS HEPA Filter 99% Section 7.5.2 Efficiency XceI Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 31 of 277 Design Input Parameter Value Assigned Reference 5.5.6A CR Monitor Setpoint 1 .0E-05 gtCi/ml for Xe-133 9.3.2, Item # 9 5.5.6B CR Recirculation Flow 10,000 cfm 9.24 Rate 5.5.7 CR Unfiltered Inleakage 300 cfm (includes 10 cfm for 9.3.2, Item # 11, higher CR Determined By Tracer Gas ingress and egress) (nominal value unfiltered inleakage than LOCA Testing including uncertainty) analysis is conservatively used 5.5.8 CR Breathing Rate 3.5E-04 m 3/sec 9.1, Section 4.2.6 5.5.9 CR Allowable Dose Limit 5 rem TEDE for the event duration 9.4 5.5.10 CR occupancy factors Time (Hr) % 9.1, Section 4.2.6 0-24 100 24-96 t60 96-720 40 5.5.11 Not Used 5.5.12 Unit 2 CR air intake y/Qs for Common Area of Auxiliary Building Release -Faulted SG Time (Hr) X/Q (sec/m 3) 9.4, Table 8-3 (these U2 CR air 0-2 4.79E-03 intake y/Qs conservatively 2-8 3.60E-03 provide less dispersion than the 8-24 1.60E-03 U 1 CR air intake X/Qs from time 24-96 1.21 E-03 2 hours to the end of the event at 96-720 9:55E-04' 75 hours): 5.5.13 Unit 2 CR air intake z/Qs for Unit 2 Group 1 PORV Release -Intact SG Time (Hr). X/Q*(sec/m | Unit I _< 0.10 %Unit 2 < 0.25 %5.5 Control Room Model Parameters (Figure 3)5.5.1 CR Volume 61,315 ft 3 9.3.2, Item # 6 5.5.2 CRSVS Normal Flow Rate 1,818 cfm +/- 10% 9.3.2, Item # 10 2,000 cfm < 5 minutes Used in the analysis 5.5.3 CRSVS Makeup Rate 0 cfm > 5 minutes 9.3.2, Item #4 (CR operates in a recirculation mode)5.5.4 CRSVS Recirc Flow Rate 4,000 cfm +/- 10% 9.3.2, Item # 13 3,600 cfm > 5 minutes 5.5.5 CRSVS Charcoal Filter 95% for elemental iodine Section 7.5.1 Efficiencies 95% for organic iodide 5.5.6 CRSVS HEPA Filter 99% Section 7.5.2 Efficiency XceI Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 31 of 277 Design Input Parameter Value Assigned Reference 5.5.6A CR Monitor Setpoint 1 .0E-05 gtCi/ml for Xe-133 9.3.2, Item # 9 5.5.6B CR Recirculation Flow 10,000 cfm 9.24 Rate 5.5.7 CR Unfiltered Inleakage 300 cfm (includes 10 cfm for 9.3.2, Item # 11, higher CR Determined By Tracer Gas ingress and egress) (nominal value unfiltered inleakage than LOCA Testing including uncertainty) analysis is conservatively used 5.5.8 CR Breathing Rate 3.5E-04 m 3/sec 9.1, Section 4.2.6 5.5.9 CR Allowable Dose Limit 5 rem TEDE for the event duration 9.4 5.5.10 CR occupancy factors Time (Hr) % 9.1, Section 4.2.6 0-24 100 24-96 t60 96-720 40 5.5.11 Not Used 5.5.12 Unit 2 CR air intake y/Qs for Common Area of Auxiliary Building Release -Faulted SG Time (Hr) X/Q (sec/m 3) 9.4, Table 8-3 (these U2 CR air 0-2 4.79E-03 intake y/Qs conservatively 2-8 3.60E-03 provide less dispersion than the 8-24 1.60E-03 U 1 CR air intake X/Qs from time 24-96 1.21 E-03 2 hours to the end of the event at 96-720 9:55E-04' 75 hours): 5.5.13 Unit 2 CR air intake z/Qs for Unit 2 Group 1 PORV Release -Intact SG Time (Hr). X/Q*(sec/m | ||
: 3) 9.4, Table 8-5 0-2 3.07E-02 2-8 2.49E-02 8-24 1.12E-02 24-96 7.78E-03 96-720 6.17E-03 5.6 Site Boundary Release Model Parameters 5.6.1 EAB Atmospheric 6.49E-04 sec/m 3 9.3.3, Item # 2 Dispersion Factor (z/Q)5.6.2 EAB Breathing Rate 3.5E-04 9.1, Section 4.1.3 (m 3/sec)5.6.3 LPZ Distance 2,414 m 9.3.3, Item # 3 5.6.4 LPZ atmospheric dispersion factors (X/Qs)Time (Hr) X/Q (sec/M 3) 9.3.3, Item # 3 0-8 1.77E-04 8-24 3.99E-05 24-96 7.12E-06 96-720 1.04E-06 5.6.5 LPZ breathing rates (m 3/sec)Time (Hr) BR (m 3/sec) 9.1, Section 4.1.3 0-8 3.5E-04 8-24 1.8E-04 24-720 2.3E-04 X, MXceEnegy Calculation No. GEN-PI-078 Revision No. I Page No.32 of 277 Design Input Parameter Value Assigned Reference 5.6.6 EAB & LPZ allowable dose 9.1, Table 6 limit Pre-accident Iodine Spike Case 25 rem TEDE Concurrent Iodine Spike Case 2.5 rem TEDE XcelEnergy] | : 3) 9.4, Table 8-5 0-2 3.07E-02 2-8 2.49E-02 8-24 1.12E-02 24-96 7.78E-03 96-720 6.17E-03 5.6 Site Boundary Release Model Parameters 5.6.1 EAB Atmospheric 6.49E-04 sec/m 3 9.3.3, Item # 2 Dispersion Factor (z/Q)5.6.2 EAB Breathing Rate 3.5E-04 9.1, Section 4.1.3 (m 3/sec)5.6.3 LPZ Distance 2,414 m 9.3.3, Item # 3 5.6.4 LPZ atmospheric dispersion factors (X/Qs)Time (Hr) X/Q (sec/M 3) 9.3.3, Item # 3 0-8 1.77E-04 8-24 3.99E-05 24-96 7.12E-06 96-720 1.04E-06 5.6.5 LPZ breathing rates (m 3/sec)Time (Hr) BR (m 3/sec) 9.1, Section 4.1.3 0-8 3.5E-04 8-24 1.8E-04 24-720 2.3E-04 X, MXceEnegy Calculation No. GEN-PI-078 Revision No. I Page No.32 of 277 Design Input Parameter Value Assigned Reference 5.6.6 EAB & LPZ allowable dose 9.1, Table 6 limit Pre-accident Iodine Spike Case 25 rem TEDE Concurrent Iodine Spike Case 2.5 rem TEDE XcelEnergy] | ||
Co78 Revision No. 1 f 277 6. COMPUTER CODES & COMPLIANCE WITH REGULATORY REQUIREMENTS 6.1 COMPUTER CODES RADTRAD 3.03 (Ref. 9.2): This is an NRC-sponsored code approved for use in determining control room and offsite doses from releases due to reactor accidents. | Co78 Revision No. 1 f 277 6. COMPUTER CODES & COMPLIANCE WITH REGULATORY REQUIREMENTS | ||
===6.1 COMPUTER=== | |||
CODES RADTRAD 3.03 (Ref. 9.2): This is an NRC-sponsored code approved for use in determining control room and offsite doses from releases due to reactor accidents. | |||
This code was used by the most of the AST license amendments that have been approved by the NRC. A rigorous high quality code qualification process was adopted to develop and procure the code by testing of the program elements, verification of input/output files, and examination of design specification. | This code was used by the most of the AST license amendments that have been approved by the NRC. A rigorous high quality code qualification process was adopted to develop and procure the code by testing of the program elements, verification of input/output files, and examination of design specification. | ||
Therefore the RADTRAD3.03 computer code is considered to be qualified to comply with the quality assurance requirements of 10 CFR50, Appendix B and it can be safely used to perform the design basis accident analyses.Calculation GEN-PI-079 (Ref. 9.18, Sections 2.6 & 8.2) documents a V&V of the RADTRAD3.03 code. Suitable acceptance test cases for the PWR radiological analysis were incrementally selected, initially defining simplified cases that could verified against analytical solutions, then adding complexity (typically a control room) and comparing the results against the RADTRAD3.03 and HABIT code analyses, adding more complexity (e.g., removal by decay chain) and comparing the results with the RADTRAD3.03 and HABIT codes again. The selected PWR code cases cover all essential characteristics of an MSLB accident AST analysis, including transportation of activity within the compartment and in the atmosphere. | Therefore the RADTRAD3.03 computer code is considered to be qualified to comply with the quality assurance requirements of 10 CFR50, Appendix B and it can be safely used to perform the design basis accident analyses.Calculation GEN-PI-079 (Ref. 9.18, Sections 2.6 & 8.2) documents a V&V of the RADTRAD3.03 code. Suitable acceptance test cases for the PWR radiological analysis were incrementally selected, initially defining simplified cases that could verified against analytical solutions, then adding complexity (typically a control room) and comparing the results against the RADTRAD3.03 and HABIT code analyses, adding more complexity (e.g., removal by decay chain) and comparing the results with the RADTRAD3.03 and HABIT codes again. The selected PWR code cases cover all essential characteristics of an MSLB accident AST analysis, including transportation of activity within the compartment and in the atmosphere. | ||
Line 167: | Line 213: | ||
= 560°F and 2235 psia (Ref. 9.3.1, Item # 25)Specific volume of RCS water @ 560 OF and 2235 psia = 0.02165 ft 3/lbm (Ref. 9.11, page 281)RCS density = 1 /0.02165 ft 3/lbm = 46.19 lb/ft 3 RCS water mass = 5,290 ft 3 x 62.4 lb/ft 3 x 453.6 gm/lbm = 1.497E+08 gm used for calculating the RCS activity in Tables 4 & 5 (a larger mass yields a greater RCS activity inventory available for leakage)RCS water mass = 5,290 ft 3 x 46.19 Ibm/ft 3 x 453.6 gm/lbm = 1.108E+08 gm used for calculating the iodine appearance rate in Section 7.2 (a smaller mass maximizes the RCS iodine appearance rate)SG Mass: SG Mass For PC Iodine Activity Release: Faulted SG volume = 107,100 lb x (1/62.4) ft 3/lb = 1,716.35 ft 3: 1,716 ft 3 Faulted SG liquid mass = 107,100 lb x 453.6 g/lb 4.858E+07 gm Intact SG volume = 107,420 lb x (1/62.4) ft 3/lb = 1,721.47 ft 3; 1,721 ft 3 Intact SG liquid mass = 107,420 lb x 453.6 gm/lb = 4.873E+07 gm The maximum SG liquid mass of 4.873E+07 gm is conservatively used to calculate the SG liquid iodine activity in Table 11 (a larger mass yields a greater SG liquid activity inventory available for release).The minimum SG liquid volume of 1716 ft 3 is conservatively used in the RADTRAD model for the Faulted Steam Generator. | = 560°F and 2235 psia (Ref. 9.3.1, Item # 25)Specific volume of RCS water @ 560 OF and 2235 psia = 0.02165 ft 3/lbm (Ref. 9.11, page 281)RCS density = 1 /0.02165 ft 3/lbm = 46.19 lb/ft 3 RCS water mass = 5,290 ft 3 x 62.4 lb/ft 3 x 453.6 gm/lbm = 1.497E+08 gm used for calculating the RCS activity in Tables 4 & 5 (a larger mass yields a greater RCS activity inventory available for leakage)RCS water mass = 5,290 ft 3 x 46.19 Ibm/ft 3 x 453.6 gm/lbm = 1.108E+08 gm used for calculating the iodine appearance rate in Section 7.2 (a smaller mass maximizes the RCS iodine appearance rate)SG Mass: SG Mass For PC Iodine Activity Release: Faulted SG volume = 107,100 lb x (1/62.4) ft 3/lb = 1,716.35 ft 3: 1,716 ft 3 Faulted SG liquid mass = 107,100 lb x 453.6 g/lb 4.858E+07 gm Intact SG volume = 107,420 lb x (1/62.4) ft 3/lb = 1,721.47 ft 3; 1,721 ft 3 Intact SG liquid mass = 107,420 lb x 453.6 gm/lb = 4.873E+07 gm The maximum SG liquid mass of 4.873E+07 gm is conservatively used to calculate the SG liquid iodine activity in Table 11 (a larger mass yields a greater SG liquid activity inventory available for release).The minimum SG liquid volume of 1716 ft 3 is conservatively used in the RADTRAD model for the Faulted Steam Generator. | ||
The maximum SG liquid volume of 1721 ft 3 is conservatively used in the RADTRAD model for the Intact Steam Generator. | The maximum SG liquid volume of 1721 ft 3 is conservatively used in the RADTRAD model for the Intact Steam Generator. | ||
7.2 Iodine Spike Appearance Rate: Letdown coolant temperature before entering demineralizer | |||
===7.2 Iodine=== | |||
Spike Appearance Rate: Letdown coolant temperature before entering demineralizer | |||
= 100°F (Ref. 9.3.1, Item # 18)Letdown demineralizer decontamination factor (DF) = o (infinite) | = 100°F (Ref. 9.3.1, Item # 18)Letdown demineralizer decontamination factor (DF) = o (infinite) | ||
Specific volume of letdown coolant at I 00°F and 14.7 psia = 0.01613 ft 3/lb (Ref. 9.11, page 186)RCS mass = 1.108E+08 gm (Section 7.1) | Specific volume of letdown coolant at I 00°F and 14.7 psia = 0.01613 ft 3/lb (Ref. 9.11, page 186)RCS mass = 1.108E+08 gm (Section 7.1) | ||
Line 208: | Line 256: | ||
==SUMMARY== | ==SUMMARY== | ||
/CONCLUSIONS: | /CONCLUSIONS: | ||
8.1 Result Summary: 8.1.1 The results of the MSLB accident with the pre-accident iodine spike are summarized in the following table: MSLB Accident -Preaccident Iodine Case TEDE Dose (rem)Receptor Location Control Room EAB LPZ P-T-S Iodine Release FSG 1.16E-01 2.63E-02 1.57E-02 PMSFPI0 .oO (occurs at t = 24.0 hrs)Dryout SG Liquid Iodine Release FSG 8.75E-02 3.18E-02 8.68E-03 PMSFPDLIOI .o0 (occurs at t = 0.0 hrs)P-T-S NG Release FSG 1.85E-03 1.43E-03 1.68E-03 PMSFPNGOI .oO (occurs at t = 0.0 hrs)P-T-S Iodine Release ISG 2.63E-01 1.10E-02 9.52E-03 PMSINPIOl.oO (occurs at t = 0.0 hrs)Liquid Iodine Release ISG 2.50E-01 4.05E-02 1.14E-02 PMSINPLI01.oO (occurs at t = 0.0 hrs)P-T-S NG Release ISG 1.1 5E-03 1.48E-04 1.69E-04 PMSINPNGO1.o0 (occurs at t = 0.0 hrs)External Cloud* 4.51E-02 0.OOE+00 0.OOE+00 CR Filter Shine* 2.33E-02 0.OOE+00 0.OOE+00 Total 7.88E-01 1.1IE-01 4.71E-02 Allowable TEDE Limit 5.OOE+00 2.50E+01 2.50E+01 FSG Faulted SG ISG = Intact SG* Post-LOCA External Cloud & CR Filter Shine Doses Used From Reference 9.18, Section 8.1 XceEnery Calculation No. GEN-PI-078 Revision No. I Page No. 42 of 277 .8.1.2 The results of the MSLB accident with the concurrent iodine spike are summarized in the following table: MSLB Accident -Concurrent Iodine Case TEDE Dose (rem)Receptor Location Control Room EAB LPZ P-T-S Iodine Release FSG 1.13E+00 3.53E-01 1.47E-0I PMSFCI01.o0 (occurs at t = 24.0 hrs)Dryout SG Liquid Iodine Release 8.75E-02 3.18E-02 8.68E-03 FSG PMSFPDLIO1 .oO (occurs at t = 0.0 hrs)P-T-S NG Release FSG 1.52E-03 9.55E-04 1.36E-03 PMSFCNGO1.o0 (occurs at t = 2.6 hrs)P-T-S Iodine Release ISG 2.50E+00 1.23E-01 8.99E-02 PMSINCIOI .oO (occurs at t = 24.0 hrs)Liquid Iodine Release ISG 2.50E-01 4.05E-02 1.14E-02 PMS1NPLI0I .oO (occurs at t = 0.0 hrs)P-T-S NG Release ISG 9.19E-04 9.96E-05 1.36E-04 PMSINCNG01.o0 (occurs at t = 2.6 hrs)External Cloud* 4.51E-02 0.00E+00 0.00E+00 CR Filter Shine* 2.33E-02 0.OOE+00 0.OOE+00 Total 4.04E+00 5.49E-01 2.58E-01 Allowable TEDE Limit 5.OOE+00 2.50E+00 2.50E+00 8.2 | |||
===8.1 Result=== | |||
Summary: 8.1.1 The results of the MSLB accident with the pre-accident iodine spike are summarized in the following table: MSLB Accident -Preaccident Iodine Case TEDE Dose (rem)Receptor Location Control Room EAB LPZ P-T-S Iodine Release FSG 1.16E-01 2.63E-02 1.57E-02 PMSFPI0 .oO (occurs at t = 24.0 hrs)Dryout SG Liquid Iodine Release FSG 8.75E-02 3.18E-02 8.68E-03 PMSFPDLIOI .o0 (occurs at t = 0.0 hrs)P-T-S NG Release FSG 1.85E-03 1.43E-03 1.68E-03 PMSFPNGOI .oO (occurs at t = 0.0 hrs)P-T-S Iodine Release ISG 2.63E-01 1.10E-02 9.52E-03 PMSINPIOl.oO (occurs at t = 0.0 hrs)Liquid Iodine Release ISG 2.50E-01 4.05E-02 1.14E-02 PMSINPLI01.oO (occurs at t = 0.0 hrs)P-T-S NG Release ISG 1.1 5E-03 1.48E-04 1.69E-04 PMSINPNGO1.o0 (occurs at t = 0.0 hrs)External Cloud* 4.51E-02 0.OOE+00 0.OOE+00 CR Filter Shine* 2.33E-02 0.OOE+00 0.OOE+00 Total 7.88E-01 1.1IE-01 4.71E-02 Allowable TEDE Limit 5.OOE+00 2.50E+01 2.50E+01 FSG Faulted SG ISG = Intact SG* Post-LOCA External Cloud & CR Filter Shine Doses Used From Reference 9.18, Section 8.1 XceEnery Calculation No. GEN-PI-078 Revision No. I Page No. 42 of 277 .8.1.2 The results of the MSLB accident with the concurrent iodine spike are summarized in the following table: MSLB Accident -Concurrent Iodine Case TEDE Dose (rem)Receptor Location Control Room EAB LPZ P-T-S Iodine Release FSG 1.13E+00 3.53E-01 1.47E-0I PMSFCI01.o0 (occurs at t = 24.0 hrs)Dryout SG Liquid Iodine Release 8.75E-02 3.18E-02 8.68E-03 FSG PMSFPDLIO1 .oO (occurs at t = 0.0 hrs)P-T-S NG Release FSG 1.52E-03 9.55E-04 1.36E-03 PMSFCNGO1.o0 (occurs at t = 2.6 hrs)P-T-S Iodine Release ISG 2.50E+00 1.23E-01 8.99E-02 PMSINCIOI .oO (occurs at t = 24.0 hrs)Liquid Iodine Release ISG 2.50E-01 4.05E-02 1.14E-02 PMS1NPLI0I .oO (occurs at t = 0.0 hrs)P-T-S NG Release ISG 9.19E-04 9.96E-05 1.36E-04 PMSINCNG01.o0 (occurs at t = 2.6 hrs)External Cloud* 4.51E-02 0.00E+00 0.00E+00 CR Filter Shine* 2.33E-02 0.OOE+00 0.OOE+00 Total 4.04E+00 5.49E-01 2.58E-01 Allowable TEDE Limit 5.OOE+00 2.50E+00 2.50E+00 8.2 | |||
== Conclusions:== | == Conclusions:== |
Latest revision as of 02:28, 14 October 2018
ML102300296 | |
Person / Time | |
---|---|
Site: | Prairie Island |
Issue date: | 07/23/2010 |
From: | Patel G J Xcel Energy |
To: | Office of Nuclear Reactor Regulation |
References | |
L-PI-10-076, TAC ME2609, TAC ME2610 GEN-PI-078, Rev 1 | |
Download: ML102300296 (278) | |
Text
J.!ATTACHMENT 2 to ENCLOSURE_(SUPERCEDES ATTACHMENT 9 to LAR)MSLB Analysis titled, "GEN-PI-078, Main Steam Line Break (MSLB)Accident Analysis Using AST," Revision I 277 Pages Follow Q-0549 (FP-E-CAL-0i), 3 .:Page I o..Xcel'nergy- " " Sheet f. 277 Document Information NSPM Calculation (Doc) No: GEN-PI-078 fRevision:
1 JTfle: Main Steam Line Break (MSLB) Accident Analysis Using AST Fac6ility: MT.N P- Unit: 1l !2 Safety Class:. SR L. Aug Q .Non SR Special Codes: E] Safeguards EL Proprietary Type: Caic Su~b-Type:
NOTE: :.IPrint 'and sign name in signature blocks, as requred:.i-:...:
"-...:.. i : Major Revisions ECn N amber: 1372 e VendorDoc No. .Vendor' Nam~e or Code:.: .:: Vendor Doc No:.".:" :. .... ..*:. .:.,,: -..Description of Revision:
The TDAFW pump exhaust steani release path is re-evaluated Pas an Unit 2 Group 1 PORV releasp. path -Pere ed by: Gopal J. Patel Date: 07f1212010 Reviewed by: Thomas J. Msci; Date: 07/19/2010 Type of Review: E Design Veriffi on ED] ecReview [] Vendor Acceptance Method Used (Fo, 1V ] Review l Alternate Calc r- Test Approved by : ate: T./'Z: 1 Minor Revisions EC No: I] Verndor Caic: Minor Rev. No: Description of Change:-Pages Affected-______________________
Prepared by: Date:.Reviewed by: Date: oype of Review: [] Design, Verification
[-] Tech Review [] Vendor Acceptance
__...Method Used (FRe DV Only) OR] Reiew LI] Alternate Caic £] es Approved by: Date: (continued on next page)Record Retention:
Retain this form MIth the associated calculation for the life of the plant.
QF-0549 (FP-E-CAI-01), Rev. 3 Pap-e 2 of 277 (XcelEOerge Calculation Signature Sheet EC No: Vendor Calc: Minor Rev. No: Description of Change: Pages Affected: Prepared by: Date: Reviewed by: Date: Type of Review: EZ Design Verification 0 Tech Review F1 Vendor Acceptance Method Used (For DV Only): ] Review E] Alternate Calc E] Test Approved by: I Date: EC No: El Vendor Calc: Minor Rev. No: Description of Change: Pages Affected: Prepared by: Date: Reviewed by: Date: Type of Review: E] Design Verification L] Tech Review E] Vendor Acceptance Method Used (For DV Only): E] Review 0 Alternate Calc [] Test Approved by: Date: EC No: Eli Vendor Caic: Minor Rev. No: Description of Change: Pages Affected: Prepared by: Date: Reviewed by: Date: Type of Review: El Design Verification El Tech Review El Vendor Acceptance Method Used (For DV Only): El Review El Alternate Calc El Test Approved by: ý Date: Record Retention:
Retain this form with the associated calculation for the life of the plant.
QF-0549 (FP-E-CAL-01), Rev. 3 Page 3 of 277 XceI Energy Calculation Signature Sheet NOTE: This reference table is used for data entry into the PassPort Controlled Documents Module, reference tables (CO 12 Panel). It may also be used as the reference section of the calculation.
The input documents, output documents and other references should all be listed here. Add additional lines as needed.Reference Documents (PassPort C012 Panel from C020)# Controlled*
Document Name Document Doc Rev Ref Type**Doc?+ Type Number (if known)Alternative Radiological Source Terms for Evaluating 1 Design Basis Accidents at Nuclear Power Reactors, July 1.183 July 2000 [Input -]Output 2000 2 A Simplified Model for Radionuclide Transport and NUREG/CR-6604 Dec 1997 ZInput -]Output Removal and Dose Estimation 3 Z TRNS MSLB Input Parameters DIT No. 13720-08 0 ZInput [--]Output 4 Z TRNS Control Room Input Parameters DIT No. 13720-07 0 ZInput --Output 5 Z TRNS Meteorological Input Parameters DIT No. 13720-03 0 ZInput -jjlOutput 6 Z CALO Prairie Island Atmospheric Dispersion Factors (yz/Q) -GEN-PI-080 1I Znput E-Ou put AST Additional Releases 7 Z CALC PI Control Room Atmospheric Dispersion Factors GEN-PI-049 Add 2 ZInput [:]Output Ul/U2 8 Z Tech Spec PINGP Units 1 & 2, Definition of Rated Thermal Power 1.1 Amendment Zinput [--IOutput 158/149 U1/U2 10 Z Tech Spec P1NGP Units 1 & 2, Definition of Dose Equivalent 1-131 1.1 Amendment ZInput [-]Output 158/149 U1/U2 PTNGP Units 1 & 2, Definition of E-bar Average 1npu 11 Z Tech Spec Disintegration Energy 1.1 Amendment
/Input 7Output 177/167 U1/U2 12 Z Tech Spec PINGP Units I & 2 LCO for Secondary Specific Activity 3.7.14. Amendment ZInput L--Output I 1_ 1 158/149 QF-0549 (FP-E-CAL-01), Rev. 3 Pacie 4 of 277:XceI Energy' Calculation Signature Sheet U1/U2 Amendment
[npt[-Opu 13 Z Tech Spec P1NGP Units 1 & 2 LCO for RCS Specific Activity 3.4.17 191/180en PINGP Units 1 & 2 LCO for Reactor Coolant Dose U1/U2 14 [ Tech Spec Equivalent 1-131 Specific Activity Limit Versus Figure 3.4.17-1 Amendment
[Input [-]Output Percentage Rated Thermal Power 191/180 U1/U2 15 [ Tech Spec PINGP Units 1 & 2 LCO for RCS Operational Leakage 3.4.14 Amendment ZInput [:j]Output 158/149 PINGP Units I & 2 Specification for Ventilation Filter UA/U2 16 Z Tech Spec Testing Program (VFTP) 5.5.9 Amendment 16Input /16utput 186/176 U1/U2 17 [] Tech Spec PINGP Units 1 & 2 Bases for RCS Operational Leakage B3.4.14 Amendment ZInput [--Output 158/149 PINGP Units 1 & 2 Bases for Control Room Special UB/U2 18 Z Tech Spec Ventilation System (CRSVS) Actuation Instrumentation B3.3.6 Amendment 18nput 4Output 158/149 PINGP Units 1 & 2 LCO for Control Room Special 3.3.6 A]Output 19 E Tech Spec Ventilation System (CRSVS) Actuation Instrumentation
3.3.6 Amendment
4Input 158/149 U 1/U2 20 [ Tech Spec PINGP Units 1 & 2 LCO for Control Room Special 3A mnt Ventilation System (CRSVS) 3.7.10 Amendment 4Input 9Output 1 158/149 21 Federal Guidance Report 11 EPA-520/1-88-020 ZInput DOutput 22 Federal Guidance Report 12 EPA-402-R-93-081 ZInput [-]Output Westinghouse Letter -Nuclear Management Company Prairie Island Units 1 & 2, MUR Power Uprate Program, NSP-07-59 11/02/2007 Zlnput [:]Output 23 [ LTR Core Activity Inventory and Coolant Activity LTR-PEP-07-26 Concentrations 24 Laboratory Testing of Nuclear-Grade Activated Charcoal GL 99-02 6/3/99 Zlnput [:]Output QF-0549 (FP-E-CAL-01), Rev. 3 Paae 5 of 277 Calculation Signature Sheet 25 ASME Steam Tables Sixth n Zinput []Output Edition 26 Accident Source Term 10 CFR 50.67 Zlnput --Output 27 Z DRAW Admin Bldg, Screen House, & Control RM Flow Diagram NF-39603-1 76 Zlnput -]Output Prairie Island Nuclear Generating Plant, Units I And 2 -Issuance Of Amendments Re: Revision To Loss-Of-28 Z SER Coolant (LOCA) Accident And Main Steam Line Break MD9140 & 06/19/2009 Zlnput [--]Output (MSLB) Accident Radiological Dose Consequences MD9141 Analyses And Affected Technical Specifications (TAC Nos. MD9140 And MD9141)29 Z PROC Natural Circulation Cooldown With CRDM Fans 1ES-0.3A 14 Zinput -]Output 30 Z PROC Natural Circulation Cooldown Without CRDM Fans 1ES-0.3B 11 ]Input [:]Output 31 Z DRAW Architectural Plant Roof Plan NF-38513 T Zinput [--]Output 32 NUREG-0800, Standard Review Plan, "Radiological 15.0.1 0 Zinput --Output Consequence Analyses Using Alternative Source Terms" 33 Z CALC Post-LOCA EAB, LPZ, and CR Doses -AST GEN-PI-079 0 ZInput --Output 34 Z CALC Dose Consequences At The Site Boundary & Control 12400604-UR(B)-
0 E]Input ZOutput 3 CALC Room Following a MSLB 005 35 Z USAR Dose Analysis for MSLB Outside Containment 14.5.5.6 29P --lnput ZOutput 36 Z USAR Steam Generators Section 4.3.2.1.1 29 ZInput []Output 37 Deletion of E Bar Definition and Revision to RCS Specific TSTF-490 0 ZInput [:]Output 37 STD Activity Tech Spec PINGP Amendment Nos. 166 and 156 to Operating ZInput DOutput 38 Z LA License Nos. DPR-42 and DPR-60, respectively, Selective LA # 166 & 156 Implementation Of Alternate Source Term For Fuel Handling Accidents 39 Z USAR Letdown Orifices Section 10.2.3.2.4.b 29 Zlnput --Output 40 Z USAR Chemical and Volume control System Performance Table 10.2-7 27 ZInput [l-Output Requirements 41 Z PROC PINGP Emergency Plan Implementing Procedure, F3-20 22 Zlnput Dou put 41_ _ _RO __ Determination of Radioactive Release Concentrations
_32022__npt__-Ouu QF-0549 (FP-E-CAL-01), Rev. 3 Paqe 6 of 277 IXcelEnergY Calculation Signature Sheet Steam Release Pathway Inputs for Main Steam Line Break 4 Z TRNS (MSLB), Steam Generator Tube Rupture (SGTR), Locked 42 [] TRNS Rotor Accident (LRA) and Control Rod Ejection Accident DIT No. 13720-16 0 Zlnput -Ouput (CREA)PTNGP Operating Procedure, 43 Z PROC Unit 1 Shutdown 1C1.3 68 ZInput --Ou put Unit 2 Shutdown 2C 1.3 67 Shaw Stone & Webster Calculation
-ARCON96 12400604-WM(B)-
44 Z CALC Atmospheric Dispersion Factors (X/Qs) for Post-LOCA 001 04-WM(B)-Gaseous Radiological Releases from Units 1 and 2*Controlled Doc checkmark means the reference can be entered on the C012 panel in black. Unchecked lines will be yellow. If checked, also list the Doc Type, e.g., CALC, DRAW, VTM, PROC, etc.)**Corresponds to these PassPort "Ref Type" codes: Inputs/Both
= ICALC, Outputs = OCALC, Other/Unknown
= blank)
QF-0549 (FP-E-CAL-01), Rev. 3 Paae 7 of 277 it XceI Calculation Signature Sheet Other Pass Port Data Associated System (PassPort C011, first three columns) OR Equipment References (PassPort C025, all five columns): Facility Unit System Equipment Type Equipment Number PI 1 MS GEN 134-011 PI 1 MS GEN 134-012 PI 1 MS GEN 234-011 PI 1 MS GEN 234-012 PI 1 MS CV CV-31084 PI 1 MS CV CV-31085 PI 1 MS CV CV-31086 PI 1 MS CV CV-31089 PI 1 MS CV CV-31090 PI 1 MS CV CV-31091 PI 2 MS CV CV-31102 PI 2 MS CV CV-31103 PI 2 MS CV CV-31104 PI 2 MS CV CV-31107 PI 2 MS CV CV-31108 PI 2 MS CV CV-31109 PI 1 MS RFV RS-21-1 PI 1 MS RFV RS-21-2 PI 1 MS RFV RS-21-3 PI 1 MS RFV RS-21-4 PI 1 MS RFV RS-21-5 PI 1 MS RFV RS-21-6 PI 1 MS RFV RS-21-7 PI 1 MS RFV RS-21-8 PI 1 MS RFV RS-21-9 PI 1 MS RFV RS-21-10 PI 2 MS RFV RS-21-11 PI 2 MS RFV RS-21-12 PI 2 MS RFV RS-21-13 QF-0549 (FP-E-CAL-01), Rev. 3 Paae 8 of 277 ( X, celEnergy Calculation Signature Sheet PI 2 MS RFV RS-21-14 P1 2 MS RFV RS-21-15 PI 2 MS RFV RS-21-16 P1 2 MS RFV RS-21-17 PI 2 MS RFV RS-21-18 PI 2 MS RFV RS-21-19 P1 2 MS RFV RS-21-20 PI 0 ZN SYS SYS OZN Superseded Calculations (PassPort C019): Facility Calc Document Number Title P1 12400604-UR(B)-005 Dose Consequences at Site Boundary & Control Room Following a MSLB Accident Description Codes -Optional (PassPort C018): Code Description (optional)
Code Description (optional)
Notes (Nts) -Optional (PassPort X293 from C020): Topic Notes Text[:1 Calc Introduction Z] Copy directly from the calculation Intro Paragraph or El See write-up below The purpose of this calculation is to determine the Exclusion Area Boundary (EAB), Low Population Zone (LPZ), and Control Room (CR) doses due to a Main Steam Line Break (MSLB) accident using the Alternative Source Term (AST) methodology, the total effective dose equivalent (TEDE) dose criteria, and the plant-specific bounding design information applicable to the PINGP Units 1 &2 steam generators.
The dose consequences are analyzed using the maximum allowed accident induced primary-to-secondary (P-T-S)leak rate. The dose consequences are representative of a MSLB occurring in either Unit 1 or Unit 2. The following post-MSLB cases are analyzed: Pre-accident Iodine Spike Concurrent Accident Iodine Spike ED (Specify)
XceI nergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 9 of 277 1 ýXclnry-Design Review Comment Form Sheet of DOCUMENT NUMBER/ TITLE: GEN-PI-078/
Main Steam Line Break (MSLB) Accident Analysis Using AST REVISION:
0 DATE: ITEM REVIEWER'S COMMENTS PREPARER'S REVIEWER'S N RESOLUTION DISPOSITION I Design Input Parameter
5.3.1. There
are two Incorporated.
Accepted power levels listed. Do these include the 2%uncertainty?
Either way, it should be indicated.
2 Design Input Parameter 5.3.3. The units for Incorporated.
Accepted DEI are listed as uCi/gm and uCi/g. They should be consistent throughout the calc.3 Design Input Parameter
5.3.4. Should
the Incorporated.
Accepted RTP be 102%?4 Design Input Parameter 5.3.14. Two SG Please see Section 7.1. Accepted liquid masses are given. Which one was used in the calc for conservatism?
This should be indicated here.5 Design Input Parameter 5.3.15. Two SG Please see Section 7.3.2. Accepted pressures are given. Which one was used in the calc for conservatism?
This should be indicated here.6 Design Input Parameter 5.5.4. Was there a It is a statement of fact that the lower Accepted sensitivity study performed that shows that recirculation flow is conservative for the -10% value is conservative?
Should the CR dose like the lower (10% less)indicate why this value was chosen. make up flow instead of higher (10%more) flow for the pressurized CR envelope.7 Design Input Parameter 5.5.7. The CR It is a true statement.
Please see Accepted unfiltered inleakage value used in the MSLB clarification added in Section 5.5.7. A calc is different that that for the LOCA. clarification statement will be added in Although the 300 cfm is conservative, a the License Amendment Request.statement needs to be included why it was used instead of the LOCA value.8 Section 8.2 revises the definition for DOSE The use of the thyroid inhaled DCFs EQUIVALENT 1-131 to refer to FGR-1 I produce conservatively higher iodine thyroid inhalation dose conversion factors. It concentrations, therefore, used in the should be "effective", not thyroid. analysis.
The effective inhaled DCFs will be used in the proposed changes for the definitions of 1-131 DE and Xe-133 DE. Please see explanation added in Sections 2.1 & 4.1.1.
XceItnergy, Calculation No. GEN-P,-078 Revision No. 1 Page No. 10 of 277 1'b, .~XcefEnerwgjv Design Review Comment Form She .et of DOCUMENT NUMBER/ TITLE: GEN-PI-078/
Main Steam Line Break (MSLB) Accident Analysis Using AST REVISION:
0 DATE: 9 Attachment 13.5 (RADTRAD run The X/Qs for these RADTRAD runs Accepted PMSINPLI00.o0), Attachment 13.6 are from Table 13.(RADTRAD run PMSINPNGOO.oO), Attachment 13.9 (RADTRAD run PMSINCI00.o0), and Attachment 13.10 (RADTRAD run PMSINCNG00.o0):
The CR X/Qs do not match up with any in the design input table. Please provide a reference and include in the design input table.END Reviewer:
Thomas Mscisz Date: 06/15/2009 Preparer:
Gopal J. Patel Date: 06/15/2009 SXcelEnergY:
Calculation No. GEN-PI-078 Revision No. 1 Page No. 11 of 277 I REVISION HISTORY Revision Description 0 Initial issue I The TDAFW pump exhaust steam release path is re-evaluated as an Unit 2 Group I PORV release path Xcel Energy. Calculation No. GEN-PI-078 Revision No. I Page No. 12 of 277 SHEET REVISION INDEX SHEET REV SHEET REV SHEET REV 1 1 27 1 53 1 2 1 28 1 54 1 3 1 29 1 55 1 4 1 30 1 56 1 5 1 31 1 57 1 6 1 32 1 58 1 7 1 33 1 59 1 8 1 34 1 60 1 9 1 35 1 61 1 10 1 36 1 Attachment 13.1 1 11 1 37 1 Attachment 13.2 1 12 1 38 1 Attachment 13.3 1 13 1 39 1 Attachment 13.4 1 14 1 40 1 Attachment 13.5 1 15 1 41 1 Attachment 13.6 1 16 1 42 1 Attachment 13.7 1 17 1 43 1 Attachment 13.8 1 18 1 44 1 Attachment 13.9 1 19 1 45 1 Attachment 13.10 1 20 1 46 1 21 1 47 1 22 1 48 1 23 1 49 1 24 1 50 1 25 1 51 1 26 1 52 1 SXcel Energy Calculation No. GEN-PI-078 Revision No. I Page No. 13 of 277 TABLE OF CONTENTS Section Cover Sheet Revision History Sheet Revision Index Table of Contents 1.0 Purpose And Summary Report 2.0 Methodology
3.0 Acceptance
Criteria 4.0 Assumptions
5.0 Design
Inputs 6.0 Computer Codes & Compliance With Regulatory Requirements
7.0 Calculations
8.0 Results
Summary And Conclusions
9.0 References
10.0 Tables 11.0 Figures 12.0 Affected Documents 13.0 Attachments Sheet No.1 11 12 13 14 14 19 21 28 33 34 41 43 45 58 61 61 Attachment 13.1 PMSFPIOI.oO Attachment 13.2 PMSFPDLI1O.oO Attachment 13.3 PMSFPNGOI.oO Attachment 13.4 PMSINPOI.oO Attachment 13.5 PMSINPLIOI.oO Attachment 13.6 PMSINPNGOI .oO Attachment 13.7 PMSFCI01.o0 Attachment 13.8 PMSFCNGOI.oO Attachment 13.9 PMSINCIOI.oO Attachment PMSINCNGOI.oO 13.10 P-T-S Iodine Release FSG Dryout SG Liquid Iodine Release FSG P-T-S NG Release FSG P-T-S Iodine Release ISG Liquid Iodine Release ISG P-T-S NG Release ISG P-T-S Iodine Release FSG P-T-S NG Release FSG P-T-S Iodine Release ISG P-T-S NG Release ISG 62 85 104 123 147 170 190 214 234 258 Xce Energy Calculation No. GEN-PI-078 Revision No. I Page No. 14 of 277 1.0 PURPOSE AND
SUMMARY
REPORT: Purpo The purpose of this calculation is to determine the Exclusion Area Boundary (EAB), Low Population Zone (LPZ), and Control Room (CR) doses due to a Main Steam Line Break (MSLB) accident using the Alternative Source Term (AST) methodology, the total effective dose equivalent (TEDE) dose criteria, and the plant-specific bounding design information applicable to the PINGP Units I & 2 steam generators.
The dose consequences are analyzed using the maximum allowed accident induced primary-to-secondary (P-T-S) leak rate. The dose consequences are representative of a MSLB occurring in either Unit I or Unit 2. The following post-MSLB cases are analyzed: 1. Pre-accident Iodine Spike 2. Concurrent Accident Iodine Spike Summary Report: The resulting post-MSLB doses are shown in Section 8.0. These doses comply with the applicable regulatory allowable dose limits.2. METHODOLOGY:
The design basis main steam line break accident is analyzed using a conservative set of assumptions and as-built design inputs. The numeric values of the critical design inputs are conservatively selected to assure an appropriate prudent safety margin against unpredicted events in the course of an accident and compensate for large uncertainties in facility parameters, accident progression, radioactive material transport, and atmospheric dispersion.
The MSLB analysis is performed using the guidance in Regulatory Guide 1.183 and its Appendix E (Ref. 9.1).For Prairie Island, no fuel damage is predicted to occur for the MSLB (Ref. 9.3.1, Item # 3). Per RG 1.183 (Ref. 9.1, Appendix E, Section 2.0), if no or minimal fuel damage is postulated for the MSLB event, then the activity released should be the maximum coolant activity allowed by the technical specifications, and two cases of iodine spiking corresponding to pre-accident iodine spike and concurrent iodine spike should be assumed.2.1 Pre-accident Iodine Spike Release In the pre-accident iodine spike release scenario, a reactor transient has occurred prior to the postulated MSLB accident and has raised the primary coolant (PC) (also referred to as reactor coolant system[RCS]) iodine concentration to the maximum value permitted by technical specifications.
The new reduced PC iodine concentration limit of 30 jtCi/gm Dose Equivalent (DE) 1-131 for plant operations from 80 to 100% of rated thermal power (RTP) is obtained from References 9.14, Figure 3.4.17-1 and 9.6.6. These proposed limits are used in this analysis for DE 1-13 1.The plant-specific PC iodine concentration profile corresponding to 1% fuel defects is obtained from Reference 9.9 (Tables 2-2 & 6-1), and listed in Table 2. Technical Specification Section 1.10 (Ref.9.6.2) defines DE 1- 13 1 as that concentration of 1- 131 (in l.tCi/gm) which alone would produce the same thyroid dose as the quantity and isotopic mixture of 1-131, 1-132, 1-133, 1-134, and 1-135 actually present using the thyroid dose conversion factors (DCFs) specified in Table III of TID-14844; the TS Section 1.10 definition of DE 1-131 will be revised to be based on the effective DCFs specified in Federal Guidance Report 11 (Ref. 9.7). Therefore, this analysis calculates DE 1-131 in Table I in terms of the thyroid DCFs instead of the effective DCFs specified in FGR 11, which produce relatively a higher iodine concentration.
The iodine dose conversion factors are developed in Table 1 using the information Xcelfnergyl Caculation No. GEN-PI-078 Revision No. I Page No. 15 of 277 in Reference 9.7, and then used in Table 2 to establish the iodine scaling factor which is used in Table 3 to convert the iodine concentration of 1% fuel defects to 0.50 p1Ci/gm DE 1-131 in Table 3 (Refs. 9.6.5& 9.14, LCO 3.4.17). The total PC isotopic iodine activity is conservatively calculated in Table 4 using the PC mass determined at "cooled" liquid conditions (Section 7.1). The PC noble gas concentrations corresponding to a new proposed indicator, Dose Equivalent Xenon-133, instead of the current indicator known as E Bar is discussed in Section 2.4 and established in Tables 5 & 5A. The total iodine plus noble gas isotopic activities released to the PC are calculated in Table 6, which are then used to develop the RADTRAD Nuclide Inventory File (NIF) "PIMSPREdef.txt" for the pre-accident iodine spike case.The post-MSLB pre-accident iodine spike activity transport and CR response models are shown in Figures 1 & 3, which are used to determine the post-MSLB radiological consequences using the PINGP plant-specific as-built design inputs and assumptions listed in Sections 4 & 5. The EAB, LPZ, and CR doses are summarized in Section 8.1.1 for the pre-accident iodine spike case.The activity transport paths from the faulted and intact SGs are described in the following sections.These activity transport paths are applicable to both the pre-accident and concurrent iodine spike cases.Faulted SG Releases Following a MSLB the faulted SG is assumed to steam dry. PC is assumed to leak into the faulted SG at the technical specification maximum leak rate of 1.0 gpm (Refs. 9.6.9 & 9.3.1, Item # 21). To maximize the offsite doses it is assumed that offsite power is lost so that the main steam condensers are not available.
PC noble gas activity entering the faulted SG via Primary-to-Secondary (P-T-S) leakage is assumed to be released directly to the environment for 0-75 hrs through the sheet metal sidings of common area of auxiliary building as discussed in Section 2.1.1 using the applicable Z/Q values (Design Input 5.5.12) without reduction or mitigation.
Since the faulted SG is assumed to be dried-out in 600 seconds (10 minutes) (Ref. 9.3.1, Item # 22), the PC iodine activity entering the faulted SG via P-T-S leakage is also assumed to be released directly to the environment (Figures 1 & 2). During the faulted SG dryout period, the SG liquid mass is instantaneously evaporated to steam and released to the common area of the Auxiliary Building (CAAB) and from there to the atmosphere at the surface closest to the intake for the Control Room Special Ventilation System (CRSVS). Following the dryout, the P-T-S leakage continues in the faulted SG, which is instantly and homogeneously distributed in the entire volume of the empty faulted SG (single well mixed volume) and released to the atmosphere via the CAAB. The P-T-S leakage iodine & noble gas and SG liquid iodine release during and following the faulted SG dryout are shown in Figures 1 & 2 and listed in Table 13. The release from the faulted SG is postulated as a ground level release to the environment.
Intact SG Releases To maximize the calculated doses it is assumed that offsite power is lost so that the main steam condensers are not available.
Consequently, following the MSLB transient the plant must cool down by releasing secondary coolant via the power operated relief valve (PORV) (Refs. 9.15.1, Step 8 and 9.15.2, Step 7). The steam release from the intact SG continues for 45.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> until the Residual Heat Removal (RHR) system is aligned to dissipate heat (Ref. 9.3.1, Item # 27). During the 45.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> before the RHR system is initialized, the PC is assumed to leak into the intact SG at 150 gpd (measured at 70'F)(Ref. 9.6.7). The PC noble gas activity entering the intact SG via P-T-S leakage is assumed to be released directly to the environment without reduction or mitigation.
The PC iodine activity entering the intact SG via P-T-S leakage is assumed to be diluted within the intact SG liquid mass. An iodine partition coefficient of 10 (i.e., P-T-S leakage iodine retention in the intact SG) is conservatively assumed in lieu of the value of 100 recommended in Regulatory Guide 1.183 (Ref. 9.1, Appendix E, Section 5.5.4) to maximize the resulting dose. The P-T-S leakage noble gas & iodine activities and SG liquid iodine activity are assumed to be released to the environment at the SG steaming rates.
XceaEnergYT ,aculation No. GEN-PI-078 Revision No. 1 Page No. 16 of 277 The P-T-S leakage iodine & noble gas and SG liquid iodine release from the intact SG are shown in Figures 1 & 2 and listed in Section 5.5.13. Due to uncertainty associated with the progression of the accident and to provide operational flexibility during the event, it is assumed that the tubes in the intact SG are uncovered during the first two hours of the event and that all iodine activity in the P-T-S leakage in this 2 hour2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> time interval are flashed into vapor without scrubbing through the SG liquid.The activity during the MSLB accident releases to the atmosphere via the following two distinct plant-specific release paths. These release paths are applicable to both the pre-accident and concurrent iodine spike cases: 1. Faulted SG Release via Common Area of Auxiliary Building 2. Intact SG Release via Unit 2 Group I PORV Release 'In Revision 0 of this calculation, the post-MSLB long-term release was postulated to be through the turbine driven auxiliary feed water pump (TDAFWP) exhaust. In actuality, the steam is released through the TDAFW pump exhaust momentarily when offsite power is lost, until such time that the diesel generator completes its load sharing sequence and onsite power is available to safety related equipment, including the motor driven AFW pump (MDAFWP).
Plant operating procedures provide guidance such that the operators would preferentially use the MDAFWP in lieu of the TDAFWP. Per shutdown procedure C1.3 (Ref. 9.26), only one AFW pump is running when one pump is able to maintain SG levels (Step 5.4.13). The MDAFW Pump is preferable to the TDAFW Pump (implied from Steps 5.4.5 and 5.4.6). In addition, speed of the TDAFWP is affected by the steam pressure in the SG. At lower steam pressures in the SG, the TDAFWP would slow down and provide inadequate FW inventory to cover the SG tube. Furthermore, the activity levels released from the TDAFWP steam exhaust are not accurately estimated during an event -see procedure F3-20, Step 5.1 (Ref. 9.25). In order to provide adequate SG tube coverage and more accurate estimates of releases, the MDAFW is obviously used.There will be a steam release through the TDAFWP exhaust momentarily (less than a few minutes) until the onsite power is available through the diesel generator.
The steam mass from the intact SG is conservatively postulated to release from the Unit 2 Group I PORV, which has less atmospheric dispersion (i.e., higher x/Qs) than a release from the TDAFWP exhaust (Ref. 9.5, Table 8-5). Thus, use of the Unit 2 Group I PORV x/Qs conservatively bounds the momentary steam release from the TDAFWP exhaust.2.1.1 Faulted SG Release Via Common Area of Auxiliary Building The SG associated with the MSLB is also known as a "faulted SG." The MSLB is postulated to occur upstream of the Main Steam Isolation Valve (MSIV) resulting in an un-isolable release from the faulted SG. The blowdown from the faulted SG is into the Auxiliary Building (AB). Following blowdown of the faulted SG, primary to secondary (P-T-S) leakage (total) of I gpm (at 70TF) is postulated to continue until the RCS is cooled to less than 212TF. This release is through the ruptured pipe into the Auxiliary Building.
To preclude over-pressurization in the Auxiliary Building during a high energy line break (HELB) several doors with engineered ceramic pins are provided to open at a relatively low differential pressure.
The differential pressure acting on the door will break the ceramic pin and the door will open to relieve the pressure.
The open doors provide a flow path to the common area of the Auxiliary Building for both the initial release of the secondary side mass from the faulted SG and for the primary to secondary leakage. This release path is conservative for the following reasons: No credit is taken for mixing and dilution within the volume in the Auxiliary Building.
The volume of the Auxiliary Building above the 715' floor elevation is greater than 700,000 ft 3 (Ref. 9.3.1, Item #30).
XceI nergy]Calculation No. GEN-PI-078 Revision No. I age No. 17 of 277* No credit is taken for surface deposition in the Auxiliary Building.
The available surface areas in the Auxiliary Building above the 715' floor elevation is greater than 300,000 ft 2 (Ref. 9.3.1, Item #3 1).* No credit is taken for mixing and dilution in the common area of the Auxiliary Building.
This is also a large volume area.The P-T-S leakage iodine & noble gas and SG liquid iodine release from the faulted SG are shown in Table 12.2.1.2 Intact SG Release Via Unit 2 Group I PORV Release Following the event the intact SG is used to cooldown the RCS. The mass of the steam released and the release location during the cooldown are important considerations due to the 150 gpd leakage assumed for the intact SG (maximum allowed by Technical Specification 3.4.14) (Ref. 9.6.7). Assuming a loss of off-site power the unit would be cooled down using procedure ES-0.3A or ES-0.3B (Ref. 9.15) for cooling down using natural circulation.
Per either procedure, the preferred means to release steam for the cooldown is by dumping steam to the condenser.
If this path is not available, then the SG PORV is used (Refs. 9.15.1, Step 8 and 9.15.2, Step 7).The locations of the Units I and 2 PORVs with respect to the locations of the Units 1 & 2 CR air intakes are such that the Unit 2 PORVs are located closer to the Unit 2 CR air intake, and thereby provide less atmospheric dispersion, than any other combination of PORV release points and CR air intakes (Ref. 9.27, Section 6). The location of the Unit 2 Group I PORV is located closer to the Unit 2 CR air intake, and provides less atmospheric dispersion, than the Unit 2 Group 2 PORV (Ref. 9.4, Sections 2.4& 2.5). Therefore, the post-MSLB activity is postulated to release from the intact SG via Unit 2 Group I PORV to maximize the CR dose (Ref. 9.4, Table 8-5). The P-T-S leakage iodine & noble gas and SG liquid' iodine release, from the ihtact, SG are shown in Table 13.The post-MSLB activity transport and CR response models are shown in Figures 1 through 3, which are used to determine the post-MSLB radiological consequences using the plant-specific as-built design inputs and assumptions listed in Sections 4 & 5.2.2 Concurrent Accident Iodine Spike Release The primary system transient associated with the MSLB causes an iodine spike in the primary system.The increase in primary coolant iodine concentration is estimated using a spiking model that assumes that the iodine release rate from the fuel rods to the primary coolant (expressed in curies per unit time)increases to a value 500 times greater than the release rate corresponding to the iodine concentration at the equilibrium value of 0.50 jtCi/gm DE 1-131 specified in technical specifications LCO 3.4.17 (Ref.9.6.5) approved in the PINGP Safety Evaluation Report (SER) (Ref. 9.14). A concurrent iodine spike need not be considered if fuel damage is postulated.
The assumed iodine spike duration should be 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> (Ref. 9.1, Appendix E, Section 2.2).The isotopic iodine appearance rates are calculated in Section 7.2 and Table 8 using the specific activity production and removal rates based on the most conservative letdown flow rate of 100 gpm @ 100°F (Ref. 9.3.1, Item # 18). The total isotopic iodine activity is calculated in Table 9 using the spike duration of 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. The total isotopic iodine and noble gas activities are listed in Table 10 and used to develop the RADTRAD NIF "PIMSCONCdef.txt" for the concurrent iodine spike case. The RADTRAD model postulates that the 99% of all fuel activity is released into the RCS within 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> at a calculated rate of 9.60 cfm (Section 7.4). The post-MSLB steam release paths for the concurrent iodine spike are the same as those described in Sections 2.1.1 through 2.1.3. The post-MSLB concurrent iodine spike activity transport and CR response models are shown in Figures 2 & 3, which are used to determine the post-MSLB radiological consequences using the PINGP plant-specific as-built design inputs and assumptions SXcelEnery Calculation No. GEN-PJ-078 Revision No. I Page No. 18 of 277 listed in Sections 4 & 5. The EAB, LPZ, and CR doses are summarized in Section 8.1.2 for the concurrent iodine case.2.3 RCS Noble Gas Inventory Per Technical Specification LCO 3.4.17 (Refs. 9.6.5 & 9.14, LCO 3.4.17), the maximum permitted equilibrium RCS non-iodine concentration is 100/E-BAR.
The parameter E-BAR is defined in Technical Specification Section 1.1 (Ref. 9.6.3) as the average (weighted in proportion to the concentration of each radionuclide in the reactor coolant at the time of sampling) of the sum of the average beta and gamma energies per disintegration (in MeV) for isotopes, other than iodines, with half lives greater than 15 minutes, making up at least 95% of the total non-iodine activity in the coolant.The PINGP licensing proposes the deletion of the E-BAR definition and revision of the RCS Specific Activity Tech Specification to utilize a new indicator, Dose Equivalent Xenon-133, instead of the current indicator known as E-BAR. The current limits on primary coolant gross specific activity will be replaced with limits on primary coolant noble gas activity.
The noble gas activity would be based on DOSE EQUIVALENT XE-133 and would take into account only the noble gas activity in the primary coolant. The determination of Dose Equivalent Xe-133 will be performed in a similar manner to that currently used in determining DE 1-13 1, except that the calculation of Dose Equivalent Xe-133 is based on the acute dose to the whole body and considers the noble gases which are significant in terms of contribution to whole body dose. Some noble gas isotopes are not included due to low concentration, short half-life, or small dose conversion factor.Per TSTF-490 traveler (Ref. 9.13), the DOSE EQUIVALENT XE-133 shall be that concentration of Xe-133 (g.Ci/gm) that alone would produce the same acute dose to the whole body as the combined activities of noble gas nuclides [Kr-85m, Kr-85, Kr-87, Kr-88, Xe-131m, Xe-133m. Xe-133, Xe-135m, Xe-135, and Xe-138] actually present. The determination of DOSE EQUIVALENT XE-133 shall be performed using effective dose conversion factors for air submersion listed in Table 111. 1 of EPA Federal Guidance Report No. 12, 1993. "External Exposure to Radionuclides in Air, Water, and Soil".The XE-133 Dose Equivalent concentration is established in Table 5 as defined in the TSTF-490 design specification using effective dose conversion factors for air submersion listed in Table 111.1 of EPA Federal Guidance Report No. 12 (Ref. 9.8) and 1% failed fuel noble gas isotopic concentrations in Reference 9.9, Table 2-2 for HB x 1.04. The proposed XE-I 33 Dose Equivalent concentration limit for noble gas activity is calculated to be 580 jtCi/gm XE-133 DE (Table 5), and is used in this analysis with the noble gas isotopic concentrations in Table 5A.2.4 RCS Alkali Metal Inventory Westinghouse Letter NSP-07-59, LTR-PEP-07-26 (Ref. 9.9, Table 2-2) presents the PINGP Units 1 and 2 RCS non-iodine activity concentrations based on a 1% fuel defect level. The alkali metals (Cs, Rb) present in the source term are omitted from the RADTRAD analysis since they have a negligible impact on the analysis results, primarily because the dose contribution from alkali metals is insignificant compared to the dose contribution from noble gases which are released directly to the environment without hold-up.In the intact steam generator in which the tubes are covered by liquid for the event duration, the release of alkali metals is facilitated solely by steam generator moisture carryover of no more than 0.25% (Ref.9.21) (i.e., a factor of 400 less than the noble gas release rate). In addition, the alkali metals introduced into the intact SG are diluted within the SG space of approximately 1700 cubic feet (per Section 7.1), and then gradually released as this SG liquid volume is steamed to the environment at a rate of no more than 40 cfm (per Section 7.3.2). This release rate of approximately 0.025 SG volumes per minute (= 40 cfm / 1700 cf) is 40 times lower than the noble gas release rate to the environment.
Combining the moisture carryover and hold-up effects indicates that the alkali metal release rate is 16,000 times (= 400 XceIfnergy Calculation No. GEN-PI-078 Revision No. I Page No. 19 of 277 x 40) lower than the noble gas release rate to the environment.
This hold-up of the alkali metal within the intact SG significantly reduces the alkali metal activity released to the environment in comparison to the noble gas activity released to the environment.
In the faulted steam generator which is assumed to dry out, the alkali metals introduced into the faulted SG are diluted within the empty SG space of approximately 1700 cubic feet (per Section 7.1.2), and then gradually released as this SG air volume is displaced to the environment at the primary-to-secondary leak rate of 0.181 cfm. This alkali metal release rate of approximately 0.0001 SG volumes per minute (= 0.181 cfm / 1700 cf) is 10,000 times lower than the noble gas release rate to the environment.
This hold-up of the alkali metal within the faulted SG significantly reduces the alkali metal activity released to the environment in comparison to the noble gas activity released to the environment.
In addition, the control room dose contribution from alkali metals is further minimized by their removal via the 99% efficient control room HEPA recirculation filter (Ref. 9.3.2, Item #14), which would reduce the alkali metal CR dose contribution by an additional factor of 100.The activity released during the vent contributes to the external dose (whole body gamma -DDE) and internal dose (inhaled -CEDE). All alkali isotopes including the daughters are naturally beta emitters;therefore, they do not contribute to any external dose. The inhaled dose conversion factors for the rubidium and cesium isotopes are calculated in Table 14, which shows that the alkali isotopes are inherently low thyroid inhalation dose contributors.
These dose characteristics combined with the extremely low fractional release of less than 1/10,000 will result in inconsequential CR and offsite doses, which will be eliminated as being less than the significant figure rounding error.2.5 CR Air Intake Radiation Monitor Response Post-accident Xe-133 activity in the CR @ 0.0833 hr (5 minutes)= 2.9936E-02 Ci (RADTRAD Run PMSFPNGOI .o0)Control room volume 61,315 ft 3 (Section 5.5.1) = 61,315 ft 3 /(3.28 ft/m)3 = 1,737.58 m 3 Xe-133 activity concentration in the CR @ 0.0036 hr (0.22 minute)= 2.9936E-02 Ci / 1,737.58 m 3 = 1.723E-05 Ci/m 3 = 1.723E-05
[tCi/cc, which exceeds the CR monitor setpoint of IE-05 ytCi/cc for Xe-133 (Ref. 9.3.2, Item # 9).Since the Xe-133 activity in the CR is circulated by the CR recirculation flow through the CR air supply duct (Ref. 9.24), the monitor setpoint is exceeded within 5 minutes due to the P-T-S leakage noble gas release from the faulted SG alone. Therefore, the CR actuation delay of 5 minutes following a MSLB accident is considered extremely conservative, and does not require any further justification.
3.0 ACCEPTANCE
CRITERIA: The following NRC regulatory requirement and guidance documents are applicable to this PINGP MSLB accident analysis:* Regulatory Guide 1.183 (Ref. 9.1)* 1OCFR50.67 (Ref. 9.12)* Standard Review Plan section 15.0.1 (Ref. 9.17)Dose Acceptance Criteria are:
61 X I Energy] Calculation No. GEN-PI-078 Revision No. I Page No.20 of 277 Regulatory Dose Limits SXcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No.21 of 277 4.0 ASSUMPTIONS:
Regulatory Guide 1.183 (Ref. 9.1) provides guidance on modeling assumptions that are acceptable to the NRC staff for the evaluation of the radiological consequences of a MSLB accident.
The following sections address the applicability of these modeling assumptions to the PINGP Units I and 2 MSLB accident analysis.
These assumptions are incorporated as design inputs in Sections 5.3 through 5.6.The radioactivity material releases and radiation levels used in the control room dose analysis are determined using the same source term, transport, and release assumptions used for determining the exclusion area boundary (EAB) and the low population zone (LPZ) TEDE values (Ref 9.1, Section 4.2.2).There are no unverified assumptions in this calculation.
4.1 Source
Terms Per Reference 9.3.1, Item # 3, no fuel damage is postulated for the MSLB accident.
Per RG 1.183 (Ref. 9.1, Appendix E, Section 2), since no or minimal fuel damage is postulated for the limiting event, the released activity is the maximum coolant activity allowed by the technical specifications.
Two cases of iodine spiking, a pre-accident case and a concurrent case, are assumed.4.1.1 Pre-accident Iodine Spike Source Term It is assumed for the pre-accident iodine spike that a reactor transient has occurred prior to the postulated MSLB and has raised the primary coolant iodine concentration to the maximum value permitted by the technical specifications (Ref. 9.1, Appendix E, Section 21. ).Per Technical Specification (TS) LCO for Specific Activity (Ref. 9.14, LCO 3.4.17), the proposed maximum primary coolant iodine concentration permitted by the technical specifications at full power is shown in TS Figure 3.4.17-1 (Ref. 9.6.6), which will be 30 ýtCi/gm Dose Equivalent (DE) 1-131 approved in the P1NGP Safety Evaluation Report (SER) (Ref. 9.14). Technical Specification Section 1.10 (Ref. 9.6.2) defines DE 1-131 as that concentration of 1-131 (in pCi/gm) which alone would produce the same thyroid dose as the quantity and isotopic mixture of 1-131, 1-132, 1-133, 1-134, and 1-135 actually present using the thyroid dose conversion factors (DCFs) specified in Table III of TID-14844; the TS Section 1.10 definition of DE 1-131 will be revised to be based on the effective DCFs specified in Federal Guidance Report 11 (Ref. 9.7). Therefore, this analysis calculates DE-1 31 in Table 1 in terms of the thyroid DCFs instead of the effective DCFs specified in FGR 11, which produce relatively a higher iodine concentration.
The pre-accident iodine spike isotopic iodine concentrations are calculated in Table 4.4.1.2 Concurrent Iodine Spike Source Term Consistent with Regulatory Guide 1.183 (Ref. 9.1, Appendix E, Section 2.2), it is assumed for the concurrent iodine spike that the primary system transient associated with the MSLB causes an iodine spike in the primary system. The increase in primary coolant iodine concentration is estimated using a spiking model that assumes that the iodine release rate from the fuel rods to the primary coolant (expressed in curies per unit time) increases to a value 500 times greater than the release rate corresponding to the iodine concentration at the equilibrium value specified in technical specifications (i.e., concurrent iodine spike case). The assumed iodine spike is conservatively assumed to persist for the maximum 8 hour9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> duration specified in RG 1.183.Per Technical Specification LCO for reactor coolant specific activity (Ref. 9.14, LCO 3.4.17), the approved equilibrium primary coolant iodine concentration permitted by the technical specifications will be 0.50 pCi/gm DE 1-131.. The concurrent iodine spike isotopic iodine activity release rates are calculated in Table 8.
Xce Energy Calculation No. GEN-PI-078 Revision No. I Page No. 22 of 277 4.1.3 Noble Gas Source Term As discussed in Section 2.3, the noble gas isotopic concentrations are calculated in Tables 5 & 5A using the proposed a new indicator, XE-I 33 Dose Equivalent, instead of the current indicator known as E-Bar (Ref.9.6.3). The noble gas isotopic concentration based on 580 pCi/gm DE XE-133 are used for both the pre-accident and concurrent iodine spike cases as shown in Tables 6 and 10.4.1.4 Activity Release from the Fuel into the Primary Coolant It is assumed consistent with RG 1.183 (Ref. 9. 1, Appendix E, Section 3) that the activity released from the fuel (for both the pre-accident and concurrent iodine spike cases) is released instantaneously and homogeneously through the primary coolant.4.1.5 Iodine Chemical Form It is assumed that the chemical forms of iodine released from the steam generators to the environment are 97%elemental and 3% organic (Ref. 9.1, Appendix E, Section 4). The chemical form of iodine released from the fuel is irrelevant, given that the chemical form of iodine released from the SGs is specified.
4.2 Transport
4.2.1 Primary-to-Secondary Leak Rates It is assumed that the maximum allowed accident induced steam generator (SG) leak rate is 1 gallon/minute at 70'F per the Technical Specification 3.4.14 Bases (Ref. 9.6.9) for the faulted SG (Ref. 9.3.1, Item # 21) and 150 gallons/day at 70'F of P-T-S leakage for the intact SG (Ref. 9.6.7). It is conservatively assumed that the intact SG tubes are uncovered for 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> after onset of the event.4.2.2 Primary-to-Secondary Leak Primary Coolant Density It is assumed that the primary coolant (i.e., RCS) density is 1.0 gm/cc (62.4 lb/ft 3) (Ref. 9.1, Appendix E, Section 5.2) used in converting the volumetric primary-to-secondary leak rates (e.g., gpm) to mass leak rates (e.g., lb/hr).4.2.3 Primary-to-Secondary Leak Duration It is assumed consistent with RG 1.183 (Ref. 9.1, Appendix E, Section 5.3), that the primary-to-secondary (P-T-S) leakage continues until the primary system pressure is less than the secondary system pressure, or until the temperature of the leakage is less than 212'F, and the release of radioactivity is assumed to continue until shutdown cooling is in operation and releases from the steam generator have terminated.
In this analysis RCS is conservatively assumed to leak into the intact SG for 45.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> until the RHR system is initialized (Ref. 9.3.1, Item #27).P-T-S Leakage into the faulted SG is assumed to continue for a total of 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />, until the faulted SG temperature decreases to 200'F (Ref. 9.3.1, Item #26).The release of fission products from the secondary system is evaluated with the assumption of a coincident loss of offsite power (LOOP). The offsite power is assumed to be lost so that the main steam condensers are not available for removal of the decay heat.
SXceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No.23 of 277 4.2.4 Noble Gas Releases to the Environment It is assumed that all noble gas radionuclides released from the primary system (via the primary-to-secondary leak) are released to environment without reduction or mitigation. (Ref. 9.1, Appendix E, Section 5.4)4.2.5 Transport Model RG 1.183 (Ref. 9.1, Appendix E, Section 5.5) presents the following generic steam generator transport model for use in evaluating an MSLB accident: STEAM GENERATOR TRANSPORT MODEL Release via the Faulted Steam Generator:
Per RG 1.183 (Appendix E, Section 5.5.1) a portion of the primary-to-secondary leakage will flash to vapor, based on the thermodynamic conditions in the reactor and secondary coolant. During periods of faulted SG dryout, all of the primary-to-secondary leakage is assumed to flash to vapor and be released to the environment without mitigation.
Per RG 1.183 (Appendix E, Section 5.6) operating experience and analyses have shown that for some steam generator designs, tube uncovery may occur for a short period following any reactor trip. The potential impact of tube uncovery on the transport model parameters (e.g., flash fraction, scrubbing credit) is considered in the analysis.In this analysis the faulted steam generator is assumed to steam dry. Consistent with RG 1.183 (Appendix E, Section 5.5.1), during the period of faulted steam generator dryout, all of the 1.0 gpm primary-to-secondary leakage, into the faulted steam generator is assumed to flash to vapor and all of the iodine and noble gas activity P-T-S leakage into the faulted steam generator is assumed to be released directly to the environment with no credit taken for iodine partitioning or scrubbing in the faulted steam generator.
Release via the Intact Steam Generator:
Per RG 1.183 (Appendix E, Section 5.5.1) with regard to the unaffected (i.e., intact) steam generator used for plant cooldown, the 150 gpd primary-to-secondary leakage can be assumed to mix with the secondary water without flashing during periods of total tube submergence after two hours. The tubes are conservatively assumed to be uncovered during the first two hours after onset of the event and all of the iodine activity in the P-T-S leakage is assumed to flash to vapor and be released to the environment at the steaming rate of the intact SG (See Table 13). After two hours, the tubes in the intact SG are assumed to be totally submerged and the
,XceIEnergyl Calculation No. GEN-PI-078 T Revision No. I TPage No. 24 of 277 iodine activity in the P-T-S leakage is mixed with the SG liquid and assumed to become vapor at a rate that is a function of the steaming rate and an assumed iodine partition coefficient of 10 to maximize the resulting dose.All of the noble gas activity in the P-T-S leakage into the intact SG is assumed to be released directly to the environment.
Consistent with RG 1.183, Appendix E, Section 5.5.4, the radioactivity in the bulk water of the intact SG steam generators is assumed to become vapor at a rate that is a function of the steaming rate and an assumed iodine partition coefficient of 1 to maximize the resulting dose.4.3 Offsite Dose Consequences Regulatory Guide 1.183 (Ref. 9.1, Section 4.1) provides guidance to be used in determining the total effective dose equivalent (TEDE) for persons located at the exclusion area boundary (EAB) and at the outer boundary of the low population zone (LPZ). The following sections address the applicability of this guidance to the PINGP MSLB accident analysis.
These assumptions are incorporated as design inputs in Section 5.6.4.3.1 Modeling of Parent and Daughter Isotopes It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.1.1) that the dose calculation determines the TEDE, which is the sum of the committed effective dose equivalent (CEDE) from inhalation and the deep dose equivalent (DDE) from external exposure; and these two components of the TEDE consider all radionuclides, including progeny from the decay of parent radionuclides that are significant with regard to dose consequences and the released radioactivity.
These isotopes are listed in Section 5.3.4.3.2 CEDE (Inhalation)'
Dose Conversion'Factors It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.1.2), that the exposure-to-CEDE factors for inhalation of radioactive material are derived from the data provided in ICRP Publication 30, "Limits for Intakes of Radionuclides by Workers".
This calculation models the CEDE dose conversion factors (DCFs) in the column headed "effective" yield doses in Table 2.1 of Federal Guidance Report 11, "Limiting Values of Radionuclide Intake and Air Concentration and Dose Conversion Factors for Inhalation, Submersion, and Ingestion" (Ref. 9.7).4.3.3 Offsite Breathing Rates It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.1.3), that for the first 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />, the breathing rate of persons offsite is assumed to be 3.5 x 104 cubic meters per second. From 8 to 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> following the accident, the breathing rate is assumed to be 1.8 x 104 cubic meters per second. After that and until the end of the accident, the rate is assumed to be 2.3 x 10-4 cubic meters per second. These offsite breathing rates are listed in Section 5.6.4.3.4 DDE (Immersion)
Dose Conversion Factors It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.1.4), that the DDE is calculated assuming submergence in semi-infinite cloud assumptions with appropriate credit for attenuation by body tissue. The DDE is nominally equivalent to the effective dose equivalent (EDE) from external exposure if the whole body is irradiated uniformly.
Since this is a reasonable assumption for submergence exposure situations, EDE is used in lieu of DDE in determining the contribution of external dose to the TEDE. This calculation models the EDE dose conversion factors in the column headed "effective" in Table 111. 1 of Federal Guidance Report 12,"External Exposure to Radionuclides in Air, Water, and Soil" (Ref. 9.8).
XceI l Energy Calculation No. GEN-PI-078 Revision No. I Page No. 25 of 277 4.3.5 Exclusion Area Boundary Dose Acceptance Criteria It is assumed consistent with RG 1.183 (Ref. 9.1, Sections 4.1.5 and 4.4), that the TEDE is determined for the most limiting person at the EAB. The maximum EAB TEDE for any two-hour period following the start of the radioactivity release is determined and used in determining compliance with the dose criteria in 10 CFR 50.67 (Ref. 9.12). For the MSLB the postulated EAB doses should not exceed the criteria established in RG 1.183 Table 6. This assumption is incorporated as a design input in Section 5.5.EAB Dose Acceptance Criterion (pre-accident iodine spike case): 25 Rem TEDE EAB Dose Acceptance Criterion (concurrent iodine spike case): 2.5 Rem TEDE The MSLB event release via the intact SG is until cold shutdown is established at 45.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> (Reference 9.3.1, Item # 27). The MSLB event release via the faulted SG is until the faulted SG temperature decreases to 200'F at 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> (Ref. 9.3.1, Item #26). Dose contributions to the EAB end when the release stops at 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />.The RADTRAD3.03 Code (Ref. 9.2) used in this analysis determines the maximum two-hour TEDE by calculating the postulated dose for a series of small time increments and performing a "sliding" sum over the increments for successive two-hour periods. The time increments appropriately reflect the progression of the accident to capture the peak dose interval between the start of the event and the end of radioactivity release.4.3.6 Low Population Zone Outer Boundary Dose Acceptance Criteria It is assumed consistent with RG 1.183 (Ref. 9.1, Sections 4.1.6 and 4.4), that the TEDE is determined for the most limiting receptor at the outer boundary of the low population zone (LPZ) and is used in determining compliance with the dose criteria in 10 CFR 50.67 (Ref. 9.12). For the MSLB accident the postulated LPZ doses should not exceed the criteria established in RG 1.183 Table 6. This assumption is incorporated as a design input in Section 5.5.7.LPZ Dose Acceptance Criterion (pre-accident iodine spike case): 25 Rem TEDE LPZ Dose Acceptance Criterion (concurrent iodine spike case): 2.5 Rem TEDE The MSLB event release via the intact SG is until cold shutdown is established at 45.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> (Reference 9.3.1, Item # 27). The MSLB event release via the faulted SG is until the faulted SG temperature decreases to 200'F at 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> (Ref. 9.3.1, Item #26). Dose contributions to the LPZ end when the release stops at 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />.4.3.7 Effluent Plume Depletion It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.1 .7), that no correction is made for depletion of the effluent plume by deposition on the ground.4.4 Control Room Offsite Dose Consequences Regulatory Guide 1.183 (Ref. 9.1, Section 4.2) provides guidance to be used in determining the total effective dose equivalent (TEDE) for persons located in the control room (CR). The following sections address the applicability of this guidance to the MSLB accident analysis.
These assumptions are incorporated as design inputs in Section 5.5.
c X eIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 26 of 277 4.4.1 Control Room Operator Dose Contributors Consistent with RG 1.183 (Ref. 9.1, Section 4.2.1), the CR TEDE analysis considers the following sources of radiation that will cause exposure to control room personnel: " Contamination of the control room atmosphere by the filtered CR ventilation inflow through the CR air intake and by unfiltered inleakage of the radioactive material contained in the post-accident radioactive plume released from the facility,* Contamination of the control room atmosphere by filtered CR ventilation inflow via the CR air intake and by unfiltered inleakage of airborne radioactive material from areas and structures adjacent to the control room envelope,* Radiation shine from the external radioactive plume released from the facility (i.e., external airborne cloud shine dose), Radiation shine from radioactive material in the reactor containment (i.e., containment shine dose). This form of radiation shine is not applicable to a MSLB accident in which the activity is not released into the containment air space, and* Radiation shine from radioactive material in systems and components inside or external to the control room envelope (e.g., radioactive material buildup in CR intake and recirculation filters [i.e., CR filter shine dose]).* Note: The external airborne cloud shine dose and the CR filter shine dose due to a MSLB accident are expected to be considerably less than those due to a LOCA as a result of source term differences (i.e., the LOCA releases significantly more activity from failed fuel than does the MSLB event per RG 1.183 [Ref. 9.1, Table 2 for LOCA compared to no fuel failure and only iodine spiking for the MSLB]). Therefore, the post-LOCA external airborne cloud and CR filter shine doses are conservatively applied to the MSLB accident in Section 8.1.1 and 8.1.2.4.4.2 Control Room Source Term It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.2), that the radioactive material releases and radiation levels used in the control room dose analysis are determined using the same source term, transport, and release assumptions used for determining the EAB and the LPZ TEDE values. The parameters assumed for determining the EAB and LPZ TEDE values also result in conservative dose projections to the control room personnel.
4.4.3 Control
Room Transport It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.3), that the models used to transport radioactive material into and through the control room, and the shielding models used to determine radiation dose rates from external sources, are structured to provide suitably conservative estimates of the exposure to control room personnel.
These conservative assumptions include conservative values for unfiltered inleakage, minimum clean-up air flow rates, and minimum filter efficiencies.
The shielding models are not developed to determine radiation dose rates from external sources because their dose contributions are conservatively assumed to be same as those due to a LOCA and added to the dose contributions from other sources in Section 8.1.1 and 8.1.2.4.4.4 Control Room Response It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.4), that engineered safety features (ESF) that mitigate airborne radioactive material within the control room are credited.
Such features include control room XceI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 27 of 277 recirculation filtration.
CR isolation is actuated by radiation monitors (RMs). The Xe-1 33 concentration at the CR air intake instantaneously exceeds the CR air intake radiation monitor setpoint of I .OE-05 pCi/ml due to the noble gas released from the P-T-S leakage through the intact SG (see Section 2). Therefore, a delay of 5 minutes for the CR isolation to be fully operational is considered to be conservative and no further sensitivity of delay time is required.4.4.5 Control Room Operator Use of Dose Mitigating Devices It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.5), that credit is not taken for the use of personal protective equipment (e.g., protective beta radiation resistant clothing, eye protection, or self-contained breathing apparatus) or prophylactic drugs (i.e., potassium iodide [KI] pills).4.4.6 Control Room Occupancy Factors and Breathing Rates It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.6), that the CR dose receptor for these analyses is the hypothetical maximum exposed individual who is present in the control room for 100% of the time during the first 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> after the event, 60% of the time between I and 4 days, and 40% of the time from 4 days to 30 days. For the duration of the event, the breathing rate of this individual should be assumed to be 3.5 x 10-4 cubic meters per second. These assumptions are incorporated as design inputs in Section 5.5.4.4.7 Control Room Dose Conversion Factors It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.2.7), that the control room doses are calculated using the offsite dose analysis dose conversion factors identified in RG 1.183 Regulatory Position 4.1 (see above Sections 4.3.2 & 4.3.4). The deep dose equivalent (DDE) from photons is corrected for the difference between finite cloud geometry in the control room and the semi-infinite cloud assumption used in calculating the dose conversion factors. The RADTRAD Code (Ref. 9.2) used in this analysis uses the following expression to correct the semi-infinite cloud dose, DDE., to a finite cloud dose, DDEfinite, where the control room is modeled as a hemisphere that has a volume, V, in cubic feet, equivalent to that of the control room: DDEfinite
= (DDE. x V'3 3 8) / 1173 4.4.8 Control Room Operator Dose Acceptance Criteria It is assumed consistent with RG 1.183 (Ref. 9.1, Section 4.4), that for the MSLB accident the postulated CR doses should not exceed the 5 Rem TEDE criterion established in 10 CFR 50.67 (Ref. 9.12): CR Dose Acceptance Criterion (pre-accident iodine spike case): 5 Rem TEDE CR Dose Acceptance Criterion (concurrent iodine spike case): 5 Rein TEDE XceI Energy Calculation No. GEN-Pl-078 Revision No. I Page No. 28 of 277 5.0 DESIGN INPUTS: 5.1.1 Applicability of Prior Licensing Basis The PINGP plant specific design inputs and assumptions used in the current facility's design basis MSLB accident analysis were assessed for their validity to represent the as-built condition of the plant and evaluated for their compatibility to meet the AST and TEDE methodology.
The analysis in this calculation ensures that analysis assumptions, design inputs, and methods are compatible with the AST and comply with RG 1.183, Appendix E requirements.
5.1.2 Credit
for Engineered Safety Features Credit is taken only for those accident mitigation features that are classified as safety-related, are required to be operable by technical specifications, are powered by emergency power sources, and are either automatically actuated or, in limited cases, have actuation requirements explicitly addressed in emergency operating procedures.
The dose mitigation feature of the Control Room Special Ventilation System (CRSVS) are credited in the analysis.
This system is safety related and operable by Technical Specification LCO 3.7.10 (Ref. 9.6.12).The CRSVS HEPA particulate removal filtration efficiency, and the CRSVS charcoal iodine removal filtration efficiencies used in the analysis are verified by the Ventilation Filter Testing Program in Technical Specification 5.5.9 (Ref. 9.6.8), which comply with Generic Letter (GL) 99-02 as demonstrated in Section 7.5.The CRSVS air intake monitors are required to be operable by TS 3.3.6 and Table 3.3.6-1 (Refs. 9.6.10 &9.6.11) in Modes 1, 2, 3, & 4 and during movement of irradiated fuel assemblies.
The CRSVS actuation during the MSLB accident is credited in the analysis with a 5-minutes system response delay.5.1.3 Assignment of Numeric Input Values The numeric values chosen as inputs to this analysis are compatible to AST and TEDE dose criteria and selected with the objective of maximizing the postulated dose. The loss of offsite power for the entire duration of the event disabling the condenser, single failure of the motor driven AFW pump, use of more than measured CR unfiltered inleakage, 5 minutes delay for CRSVS actuation and a 10% lower CR recirculation flow rate are conservatively used to maximize the resulting doses (see Section 2.5).5.1.4 Meteorology Considerations The control room atmospheric dispersion factors (X/Qs) are developed in References
9.4 using
the NRC sponsored ARCON96 computer code and guidance provided for the use of ARCON96 in the Regulatory Guide 1.194. The release point for activity released to the environment is the common area of auxiliary building Units 2 Group 1 PORV locations (Sections 2.1.1 & 2.1.2). The EAB and LPZ X/Qs were originally developed for the plant operating license and were accepted by the staff in the previous licensing amendments.
5.2 Accident-Specific Design Inputs/Assumptions The design inputs and assumptions utilized in this EAB, LPZ, and CR dose consequence analysis are listed in the following sections.
The design inputs are compatible with the requirements of the AST and TEDE dose criteria and the assumptions are consistent with those identified in Section 4 and Appendix E of RG 1.183 (Ref.9.1). The design inputs and assumptions in the following sections represent the as-built design of the plant.
Xc el E'nergy lCalculation No. GEN-PI-078 Rvso o aeN.9o 7 Revision No. I Page No. 29 of 277 Design Input Parameter Value Assigned Reference Main Steam Line Break Accident Parameters
5.3 Source
Terms 5.3.1 Licensed reactor core power 1,650 MWt 9.6.1 level 1,683 MWt (= 102% of 1,650 MWt) 10% EPU Power Level Used in 1,852 MW,(= 110% of 1,683 MW,) the analysis 5.3.2 Primary Coolant (PC) 0.50 pCi/gm DE 1-131 9.6.2, 9.6.5, & 9.14, LCO 3.4.17 (iodine) specific activity in the Technical Specifications 5.3.3 PC (non-iodine) specific 100 / E-bar 9.6.3 activity in the proposed Technical 580 AtCi/gm DE of XE-133 Section 2.3, Tables 5 & 5A, Specifications Used in the analysis 5.3.4 Maximum PC (iodine) 30 IpCi/gm DE 1-131 9.6.6 & 9.14, Figure 3.4.17-1 specific activity permitted by the Technical Specifications
5.3.5 Concurrent
Iodine Spiking 500 (for a MSLB accident) 9.1, Appendix E, Section 2.2 Factor 5.3.6 Duration of concurrent 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br /> (for a MSLB accident) 9.1, Appendix E, Section 2.2 iodine spike 5.3.7 Secondary coolant (iodine) 0. 1; .tCi/gm DE Iodine-131 9.6.2 & 9.6.4 specific activity in the Technical Specifications
5.3.8 Nominal
reactor coolant 5;290 ft 3 9.9, Table 6-1 system (RCS) volume 5.3.9 RCS temperature
& pressure 560(F @ 2235 psia 9.3.1, Item # 25 5.3.10 Maximum allowed accident I gpm @ 70'F 9.3.1, Item # 21 & 9.6.9 induced SG leak rate 5.3.11 Faulted SG dryout time 600 seconds = 10 minutes 9.3.1, Item # 22 5.3.12 PC iodine activity concentration based on 1% fuel defects 9.9, Table 2-2, HB x 1.04 Isotope Activity Isotope Activity (gtCi/gm)
Isotope Activity (gCi/gm) (gci/gm)1-131 2.55E+00 1-133 3.88E+00 1-135 2.20E+00 1-132 2.80E+00 1-134 5.82E-01 5.3.13 PC noble gas activity based on 1% fuel defects 9.9, Table 2-2, 1IB x 1.04 Isotope Activity Isotope Activity (giCi/gm)
Isotope Activity (jiCi/gm) (gCi/gm)Kr-83M 3.92E-01 Kr-88 2.89E+00 Xe-135M 5.02E-01 Kr-85M 1.59E+00 Xe-131M 2.05E+00 Xe-135 8.24E+00 Kr-85 1.09E+01 Xe-133M 3.65E+00 Xe-138 6.09E-01 Kr-87 1.03E+00 Xe-133 2.60E+02 5.3.14 Steam Generator Liquid 9.3.1, Item # 10 Mass U1 Framatome ANP Model 56/19 107,100 Ibm @Full Power U2 Westinghouse Model 51 107,420 lbm@ Full Power 5.3.15 SG saturated pressure at hot 806.8 psia -Unit 1 9.3.1, Item # 32 full power 728 psia -Unit 2 XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 30 of 277 Design Input Parameter Value Assigned Reference 5.3.16 RCS operational leakage 9.6.7 Pressure boundary None Unidentified leakage I gpm Identified leakage 10 gpm Primary -to-secondaryleakage 150 gpd through any one SG 5.3.17 Normal letdown flow rate 40 gpm 9.23 5.4 Activity Transport Models (Figures 1 & 2)5.4.1 Not Used 5.4.2 Steam mass released from 107,100 lb (Unit 1) or 107,420 lb 9.3.1, Item #s 10 & 22 faulted SG to the environment (Unit 2) total liquid mass dries outs in 600 seconds 5.4.3 PC leakage to faulted SG 0.104 gpm (= 150 gallons/day 9.6.7 & 9.3. 1, Item # 9 maximum P-T-S leakage through any one steam generator, at assumed measured density of 1.0 gm/cc (62.4 lb/fl 3)5.4.4 Termination of release from 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> 9.3.1, Item # 26 faulted SG 5.4.5 Termination of release from 45.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br /> 9.3.1, Item # 27 intact SG 5.4.6 Steam mass released from 9.3.4, Attachment A intact SG to the environment 0 -2 hr 226;4'14 Ibm 2 -8 hr 406,952 lbm 8 -24 hr 796,899 lbm 24 hr -45.5 hr 863,053 ibm 5.4.7 Intact SG liquid iodine 100 9.1, Appendix E, Section 5.5.4 partition coefficient 10 (used in the analysis)5.4.8 Letdown system flow rate 100 gpm 9.3.1, Item # 18 5.4.9 Letdown system temperature 1007F 9.3.1, Item # 18 5.4.10 Steam generator moisture 9.21 carryover:
Unit I _< 0.10 %Unit 2 < 0.25 %5.5 Control Room Model Parameters (Figure 3)5.5.1 CR Volume 61,315 ft 3 9.3.2, Item # 6 5.5.2 CRSVS Normal Flow Rate 1,818 cfm +/- 10% 9.3.2, Item # 10 2,000 cfm < 5 minutes Used in the analysis 5.5.3 CRSVS Makeup Rate 0 cfm > 5 minutes 9.3.2, Item #4 (CR operates in a recirculation mode)5.5.4 CRSVS Recirc Flow Rate 4,000 cfm +/- 10% 9.3.2, Item # 13 3,600 cfm > 5 minutes 5.5.5 CRSVS Charcoal Filter 95% for elemental iodine Section 7.5.1 Efficiencies 95% for organic iodide 5.5.6 CRSVS HEPA Filter 99% Section 7.5.2 Efficiency XceI Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 31 of 277 Design Input Parameter Value Assigned Reference 5.5.6A CR Monitor Setpoint 1 .0E-05 gtCi/ml for Xe-133 9.3.2, Item # 9 5.5.6B CR Recirculation Flow 10,000 cfm 9.24 Rate 5.5.7 CR Unfiltered Inleakage 300 cfm (includes 10 cfm for 9.3.2, Item # 11, higher CR Determined By Tracer Gas ingress and egress) (nominal value unfiltered inleakage than LOCA Testing including uncertainty) analysis is conservatively used 5.5.8 CR Breathing Rate 3.5E-04 m 3/sec 9.1, Section 4.2.6 5.5.9 CR Allowable Dose Limit 5 rem TEDE for the event duration 9.4 5.5.10 CR occupancy factors Time (Hr) % 9.1, Section 4.2.6 0-24 100 24-96 t60 96-720 40 5.5.11 Not Used 5.5.12 Unit 2 CR air intake y/Qs for Common Area of Auxiliary Building Release -Faulted SG Time (Hr) X/Q (sec/m 3) 9.4, Table 8-3 (these U2 CR air 0-2 4.79E-03 intake y/Qs conservatively 2-8 3.60E-03 provide less dispersion than the 8-24 1.60E-03 U 1 CR air intake X/Qs from time 24-96 1.21 E-03 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> to the end of the event at 96-720 9:55E-04' 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br />): 5.5.13 Unit 2 CR air intake z/Qs for Unit 2 Group 1 PORV Release -Intact SG Time (Hr). X/Q*(sec/m
- 3) 9.4, Table 8-5 0-2 3.07E-02 2-8 2.49E-02 8-24 1.12E-02 24-96 7.78E-03 96-720 6.17E-03 5.6 Site Boundary Release Model Parameters 5.6.1 EAB Atmospheric 6.49E-04 sec/m 3 9.3.3, Item # 2 Dispersion Factor (z/Q)5.6.2 EAB Breathing Rate 3.5E-04 9.1, Section 4.1.3 (m 3/sec)5.6.3 LPZ Distance 2,414 m 9.3.3, Item # 3 5.6.4 LPZ atmospheric dispersion factors (X/Qs)Time (Hr) X/Q (sec/M 3) 9.3.3, Item # 3 0-8 1.77E-04 8-24 3.99E-05 24-96 7.12E-06 96-720 1.04E-06 5.6.5 LPZ breathing rates (m 3/sec)Time (Hr) BR (m 3/sec) 9.1, Section 4.1.3 0-8 3.5E-04 8-24 1.8E-04 24-720 2.3E-04 X, MXceEnegy Calculation No. GEN-PI-078 Revision No. I Page No.32 of 277 Design Input Parameter Value Assigned Reference 5.6.6 EAB & LPZ allowable dose 9.1, Table 6 limit Pre-accident Iodine Spike Case 25 rem TEDE Concurrent Iodine Spike Case 2.5 rem TEDE XcelEnergy]
Co78 Revision No. 1 f 277 6. COMPUTER CODES & COMPLIANCE WITH REGULATORY REQUIREMENTS
6.1 COMPUTER
CODES RADTRAD 3.03 (Ref. 9.2): This is an NRC-sponsored code approved for use in determining control room and offsite doses from releases due to reactor accidents.
This code was used by the most of the AST license amendments that have been approved by the NRC. A rigorous high quality code qualification process was adopted to develop and procure the code by testing of the program elements, verification of input/output files, and examination of design specification.
Therefore the RADTRAD3.03 computer code is considered to be qualified to comply with the quality assurance requirements of 10 CFR50, Appendix B and it can be safely used to perform the design basis accident analyses.Calculation GEN-PI-079 (Ref. 9.18, Sections 2.6 & 8.2) documents a V&V of the RADTRAD3.03 code. Suitable acceptance test cases for the PWR radiological analysis were incrementally selected, initially defining simplified cases that could verified against analytical solutions, then adding complexity (typically a control room) and comparing the results against the RADTRAD3.03 and HABIT code analyses, adding more complexity (e.g., removal by decay chain) and comparing the results with the RADTRAD3.03 and HABIT codes again. The selected PWR code cases cover all essential characteristics of an MSLB accident AST analysis, including transportation of activity within the compartment and in the atmosphere.
All radiological features of the RADTRAD3.03 code were verified and validated by running the selected PWR code cases in the Microsoft Window XP environment.
The results of V&V code cases were summarized in Calculation GEN-PI-079, Section 8.2, and compared with the RADTRAD3.03 and HABIT code results, which showed an excellent agreement.
Therefore, the code is considered validated for use in the PINGP AST analysis.6.2 COMPLIANCE WITH REGULATORY REQUIREMENTS:
As discussed in Section 4.0, Assumptions, the analysis in this calculation complies with the line-by-line requirements in Regulatory Guide 1.183 including its Appendix E.
XceEnergy]
Calculation No. GEN-PI-078 Revision No. I Page No. 34 of 277 7.0 CALCULATIONS:
This calculation addresses two cases, a pre-accident iodine spiking case and a concurrent iodine spiking case.Due to the limitations of the RADTRAD code, the MSLB dose consequences for each case are determined by summing together the results from RADTRAD code analyses that separately calculate the dose contributions from the primary-to-secondary (P-T-S) leakage pre-accident or concurrent iodine spike iodine activity release, the P-T-S leakage noble gas activity release, and the secondary liquid iodine release.7.1 Reactor Coolant & Steam Generator Coolant Mass: RCS Mass: RCS water volume = 5,290 ft 3 @ 560 OF and 2235 psia (Ref. 9.9, Table 6-1)RCS water density at cooled liquid conditions
= 62.4 lb/ft 3 (Ref. 9.1, Appendix E, Section 5.2)RCS operating conditions
= 560°F and 2235 psia (Ref. 9.3.1, Item # 25)Specific volume of RCS water @ 560 OF and 2235 psia = 0.02165 ft 3/lbm (Ref. 9.11, page 281)RCS density = 1 /0.02165 ft 3/lbm = 46.19 lb/ft 3 RCS water mass = 5,290 ft 3 x 62.4 lb/ft 3 x 453.6 gm/lbm = 1.497E+08 gm used for calculating the RCS activity in Tables 4 & 5 (a larger mass yields a greater RCS activity inventory available for leakage)RCS water mass = 5,290 ft 3 x 46.19 Ibm/ft 3 x 453.6 gm/lbm = 1.108E+08 gm used for calculating the iodine appearance rate in Section 7.2 (a smaller mass maximizes the RCS iodine appearance rate)SG Mass: SG Mass For PC Iodine Activity Release: Faulted SG volume = 107,100 lb x (1/62.4) ft 3/lb = 1,716.35 ft 3: 1,716 ft 3 Faulted SG liquid mass = 107,100 lb x 453.6 g/lb 4.858E+07 gm Intact SG volume = 107,420 lb x (1/62.4) ft 3/lb = 1,721.47 ft 3; 1,721 ft 3 Intact SG liquid mass = 107,420 lb x 453.6 gm/lb = 4.873E+07 gm The maximum SG liquid mass of 4.873E+07 gm is conservatively used to calculate the SG liquid iodine activity in Table 11 (a larger mass yields a greater SG liquid activity inventory available for release).The minimum SG liquid volume of 1716 ft 3 is conservatively used in the RADTRAD model for the Faulted Steam Generator.
The maximum SG liquid volume of 1721 ft 3 is conservatively used in the RADTRAD model for the Intact Steam Generator.
7.2 Iodine
Spike Appearance Rate: Letdown coolant temperature before entering demineralizer
= 100°F (Ref. 9.3.1, Item # 18)Letdown demineralizer decontamination factor (DF) = o (infinite)
Specific volume of letdown coolant at I 00°F and 14.7 psia = 0.01613 ft 3/lb (Ref. 9.11, page 186)RCS mass = 1.108E+08 gm (Section 7.1)
XcelEnergyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 35 of 277 Total purification flow rate: Normal letdown flow rate = 40 gpm (Ref. 9.23)Maximum number of letdown orifices used = 2 (Ref. 9.22)Unidentfied RCS leakage = I gpm (Ref. 9.6.7)Identified RCS leakage = 10 gpm (includes the P-T-S leakage)Total RCS leakage = 10 gpm + 1 gpm = 11 gpm Total purification flow rate= (2 x 40 gpm) x 1.10 (10% flow uncertainty)
+ 11 gpm = 80 gpm x 1.10 + 11 gpm =99 gpm Letdown flow rate of 100 gpm is used to determine the equilibrium iodine appearance rate as follows:= 100 gal x 1 ft 3 x 1 lb x 453.6 gm x 1 min =6,265.1 g/sec min 7.481 gal 0.01613 ft 3 lb 60 sec At steady-state pre-accident conditions, the RCS Iodine Appearance Rate is equal to the iodine removal rate (Xtotal) due to letdown demineralizer removal (kpurification) and decay removal (kdecay).-total = Xpurification
+ kdecay = [(letdown flow / RCS mass) (1 -1/DF)] + [decay removal rate]Conservatively assuming letdown demineralizer has an infinite DF, which results in a demineralizer iodine removal efficiency of 100%Letdown purification rate = Apurification
= (Letdown flow rate/RCS mass) x (1 -1/cc)= 6265.1 =m x 1 x ;--1%!= sec 1.108E+08 gm Iodine Appearance Rate = Ai x Xtotal = Ai x (5.654E-05 sec-1 + Xdecay sec-1)Where Ai = total isotopic iodine activity The isotopic concurrent iodine spike appearance rates are calculated in Table 8 using the isotopic iodine total activity, %kpurification and Xdecay.7.3 Post-MSLB Release Rates 7.3.1 Faulted SG -Iodine and Noble Gas Release Rate (P-T-S Leakage): No noble gas hold-up or decay is modeled in the Faulted SG. All RCS mass released to the faulted SG is treated as if it were released directly to the environment.
Maximum, accident induced leak rate into faulted SG = I gpm (= maximum leak rate into any one SG)(Ref. 9.3.1 Item #21 and Ref. 9.6.9). This leakage continues through the dried-out Faulted SG for 75 hours8.680556e-4 days <br />0.0208 hours <br />1.240079e-4 weeks <br />2.85375e-5 months <br /> (Ref. 9.3.1 Item #26).Per Regulatory Guide 1. 183 (Ref. 9.1, Appendix E, Section 5.2), the density of this leakage at time of measurement is assumed to be 1.0 gm/cc (62.4 lb/ft3). Therefore, the P-T-S volumetric and mass leakage rates into the faulted SG at measured conditions are: P-T-S volumetric leakage rate at measured conditions (1 gal/min) x (0.13368 ft 3/gal) = 0.13368 cfm P-T-S mass leakage rate at measured conditions
= (0.13368 ft 3/min) x (62.4 lb/fl 3) = 8.342 lb/min XceIEnergy:
Calculation No. GEN-PI-078 Revision No. I Page No. 36 of 277 However, per Section 7.1.1, at the time of the MSLB the RCS is operating at 560'F and 2235 psia with an RCS specific volume of 0.02165 ft 3/lb. Therefore, the iodine and noble gas P-T-S volumetric leakage rate into the faulted SG during the MSLB is: P-T-S volumetric leakage rate at op. conditions
= (8.342 lb/min) x (0.02165 ft 3/lb) = 0.181 cfm of RCS liquid Iodine partition coefficient
= 1.0 (no credit taken for P-T-S leakage iodine retention in the dried-out Faulted SG)0-75 hr iodine P-T-S release rate from RCS to environment through dried-out Faulted SG= (0.181 cfm of RCS liquid) x (1/1.0) = 0.181 cfm of RCS liquid 0-75 hr iodine P-T-S leakage release from RCS to the environ via the faulted SG = 0.181 cfm of RCS liquid 0-75 hr noble gas P-T-S leakage release from RCS to the environ via the faulted SG = 0.181 cfm of RCS liquid 7.3.2 Intact SG -Iodine Release & Steaming Rates (P-T-S Leakage): RCS release rate into intact SG = 0.104 gpm (=150 gpd / 24 hr/day x 60 minutes/hr
= 0.104 gpm)Per Regulatory Guide 1.183 (Ref. 9.1, Appendix E, Section 5.2), the density of this leakage at time of measurement is assumed to be 1.0 gm/cc (62.4 lb/ft3). Therefore, the P-T-S volumetric and mass leakage rates into the intact SG at measured conditions are: P-T-S volumetric leakage rate at measured' conditions
(0.104 gal/min) x (0.13368 ft 3/gal) = 0.01390 cfm P-T-S mass leakage rate at measured conditions.
(0.01 390 ft 3/min) x (62.4 lb/ft 3) = 0.867 lb/min However, per Section 7.1.1, at the time of the MSLB the RCS is operating at 560'F and 2235 psia with an RCS specific volume of 0.02165 ft 3/lb. Therefore, the iodine P-T-S volumetric leakage rate into the intact SG during the MSLB is: 0-45.5 hr P-T-S volumetric leakage rate at op. conditions
= (0.867 lb/min) x (0.02165 ft 3/lb)0-45.5 hr P-T-S iodine volumetric leakage rate at op. conditions
= 0.0188 cfm of RCS liquid The steam mass release is equivalent to the liquid mass release. To maximize the liquid volume release, the intact SG is modeled with a maximum liquid specific volume.Unit I SG saturated steam pressure @ full power = 806.8 psia (Ref. 9.3.1, Item #32)Unit I SG liquid specific volume = 0.02089 ft 3/lbm (Ref. 9.11, page 182)Unit 2 SG saturated steam pressure @ full power = 728 psia (Ref. 9.3.1, Item #32)Unit 2 SG liquid specific volume = 0.02061 ft 3/lbm (Ref. 9.11, page 182)Unit I SG liquid specific volume of 0.02089 ft 3/lbm is conservatively used in the following section: Iodine partition coefficient of I is used in the first 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> of the event, due to assumed SG tube uncovery.Iodine partition coefficient of 10 is used 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> after onset of the event following SG level recovery.
XceIEnergy~
Caculation No. GEN-PI-078 Revision No. 1a Page No. 37 of 277 Total mass of steam released from intact SG to the environment (0 -2 hr) = 226,414 lb (Ref. 9.3.4, Attachment A)Intact SG steaming rate (0 -2 hr) = 226,414 lb x 0.02089 ft 3/lb x (1/1) = 39.42 cfm of Intact SG liquid 120 minutes Total mass of steam released from intact SG to the environment (2 -8 hr) = 406,952 (Ref. 9.3.4, Attachment A)Intact SG steaming rate (2 -8 hr) = 406,952 lb x 0.02089 ft 3/lb x (1/10) = 2.361 cfm of Intact SG liquid 360 minutes Total mass of steam released from intact SG to the environment (8 -24 hrs) = 796,899 lb (Ref. 9.3.4, Attachment A )Intact SG steaming rate (8 -24 hr) = 796,899 lb x 0.02089 ft 3/lb x (1/10) = 1.734 cfm of Intact SG liquid 960 minutes Total mass of steam released from intact SG to the environment (24 -45.5 hrs) = 863,053 lb (Ref. 9.3.4, Attachment A)Intact SG steaming rate (24 -45.5 hr) = 863,053 lb x 0.02089 ft 3/lb x (1/10) = 1.398 cfm of Intact SG liquid 1290 minutes 0-45..5 hr iodine P-T-S leakage from RCSto intact SG = 0.0188 cfm of RCS liquid 0 -2 hr iodine P-T-S leakage release from intact SG to the environment
= 39.42 cfm of Intact SG liquid 2 -8 hr iodine P-T-S leakage release from-intact SG to the environment
= 2.361 cfm of Intact SG liquid 8 -24 hr iodine P-T-S leakage release-from intact SG to the environment
= 1.734 cfm of Intact SG liquid 24 -45.5 hr iodine P-T-S leakage release from intact SG to the environment
= 1.398 cfm of Intact SG liquid 7.3.3 Intact SG -Noble Gas Release Rate (P-T-S Leakage): No noble gas hold-up or decay is modeled in the Intact SG. All RCS mass released to the intact SG is treated as if it were released directly to the environment.
RCS release rate into Intact SG = 0.104 gpm (Section 7.3.2)RCS specific volume = 0.02165 ft 3/lbm (Section 7.1)P-T-S volumetric leakage rate at measured conditions
= (0.104 gal/min) x (0.13368 ft 3/gal) = 0.01390 cfm P-T-S mass leakage rate at measured conditions
= (0.01390 ft 3/min) x (62.4 lb/ft 3) = 0.867 lb/min Therefore, the noble gas P-T-S volumetric leakage rate into the intact SG during the MSLB is: 0-45.5 hr P-T-S volumetric leakage rate at op. conditions
= (0.867 lb/min) x (0.02165 ft 3/lb)0-45.5 hr P-T-S noble gas volumetric leakage rate at op. conditions
= 0.0188 cfm of RCS liquid 7.3.4 Faulted SG -Iodine Release Rate -Secondary Liquid Steam mass released from faulted SG (0 -10 minutes) = 107,100 lb (entire faulted SG liquid mass assumed to dry out in 10 minutes)Steam mass released from faulted SG (10 minutes -45.5 hrs) = 0 lb SXce.nerg Calculation No. GEN-PI-078 Revision No. 1 Page No.38 of 277 Unit 1 SG saturated steam pressure @ full power = 806.8 psia (Ref. 9.13.1, Item #32)Unit I SG liquid specific volume = 0.02089 ft 3/lbm (Ref. 9.11, page 182)Unit 2 SG saturated steam pressure @ full power = 728 psia (Ref. 9.3.1, Item #32)Unit 2 SG liquid specific volume = 0.02061 ft 3/lbm (Ref. 9.11, page 182)Unit I SG specific volume of 0.02089 ft 3/lbm is conservatively used in the following section: Iodine partition coefficient
= 1.0 (no credit taken for secondary liquid iodine retention in faulted SG liquid)0-0.167 hr Faulted SG steaming rate = 107,100 lb x 0.02089 ft 3/lb x (1/1.0) = 223.73 cfm of Faulted SG liquid 10 minutes 0-0.167 hr iodine release from faulted SG secondary liquid to the envion. = 223.73 cfm of Faulted SG liquid 0.167-45.5 hr iodine release from faulted SG secondary liquid to the environ. = 0.0 cfm of Faulted SG liquid 7.3.5 Intact SG -Iodine Release Rate -Secondary Liquid The steaming rates for the secondary liquid iodine releases from the intact steam generator are the intact SG iodine release rates from Section 7.3.2. An iodine partition coefficient of 1 is conservatively applied to the intact steam generator prior to 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br />, and an iodine PC of 10 is conservatively applied to the intact steam generator after 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> (i.e., credit is taken for secondary liquid iodine retention in the intact SG liquid): 0 -2 hr iodine secondary liquid release from intact SG to the environment
= 39.42 cfm of Intact SG liquid 2 -8 hr iodine secondary liquid release from intact SG to the environment
= 2.361 cfm of Intact SG liquid 8 -24 hr iodine secondary liquid release from intact SG to the environment
= 1.734 cfm of Intact SG liquid 24 -45.5 hr iodine secondary liquid release from intact SG to the environment
= 1.398 cfm of Intact SG liquid 7.4 Fuel Activity Release Rate for Concurrent Iodine Spike Model The release rate from the source node -fuel to RCS -is calculated such that 99% of the activity in the fuel is released to the RCS in the eight hour duration of the concurrent iodine spike (Ref. 9.1, Appendix E, Section 2.2). The 1% of the activity remaining in the fuel is an insignificant dose contribution.
The volume of the fuel is inconsequential, given that 99% of the activity will be released irrespective of the fuel volume.A = A 0 e-at Where;A 0 = Initial Activity in Fuel Node A = Final Activity in Fuel Node X Removal Rate (vol/hr)t = Removal Time (hr) = 8.0 hr Assuming that 99% of activity is released into the environment, A/Ao = 0.01 Therefore, A / Ao = e-t XceIEherg Calculation No. GEN-PI-078 Revision No. I Page No. 39 of 277 0.01 =In (0.01) -8 ln(e)-4.605 =- 8 ?k = -4.605/-8 = 0.5756 volume/hr Assuming an arbitrary fuel volume of 1,000 cubic feet, the Fuel Release Rate is:= 0.5756 1/hr x 1,000 ft 3 x I hr/60 min = 9.60 ft 3/min 7.5 CRSVS Filter Efficiency The CRSVS charcoal and HEPA filter efficiencies are calculated based on Generic Letter (GL) 99-02 requirements (Ref. 9.10).7.5.1 CRSVS Charcoal Filter Efficiency Laboratory penetration testing acceptance criteria for the safety related Charcoal filters are as follows: CRSVS Charcoal Filter -in-laboratory testing methyl iodide penetration
< 2.5% (Ref 9.6.8, Section 5.5.9.c)Generic Letter 99-02 (Ref. 9.10) requires a safety factor of at least 2 to be used to determine the filter efficiencies to be credited in the design basis accident.Testing methyl iodide penetration
(%) = (100% -rj)/safety factor = (100% -il)/2 Where TI = charcoal filter efficiency to be credited in the analysis CRSVS Charcoal Filter 2.5% = (100% -i)/2.5%= (lOO%- T)rl = 100% -5% = 95%7.5.2 CRSVS HEPA Filter Efficiency CRSVS HIEPA Filter -in-place DOP penetration
< 0.05% (Ref. 9.6.8, Section 5.5.9.a)Generic Letter 99-02 (Ref. 9.10) requires a safety factor of at least 2 to be used to determine the filter efficiencies to be credited in the design basis accident.Testing DOP penetration
(%) = (100% -<)/safety factor = (100% -i)/2 Where ril = HEPA filter efficiency to be credited in the analysis CRSVS HEPA Filter 0.05% = (100% -T1)/2 0.10% = (100%- ir)T1 = 100% -0.10% = 99.9%HEPA filter efficiency of 99% is used in the analysis Safety Grade Filter Efficiency Credited (%) I XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No.40 of 277 Filter Aerosol Elemental Organic CRSVS 99 95 95 ef Calculation No. GEN-PI-078 Revision No. I Page No. 41 of 277 8.0 RESULTS
SUMMARY
/CONCLUSIONS:
8.1 Result
Summary: 8.1.1 The results of the MSLB accident with the pre-accident iodine spike are summarized in the following table: MSLB Accident -Preaccident Iodine Case TEDE Dose (rem)Receptor Location Control Room EAB LPZ P-T-S Iodine Release FSG 1.16E-01 2.63E-02 1.57E-02 PMSFPI0 .oO (occurs at t = 24.0 hrs)Dryout SG Liquid Iodine Release FSG 8.75E-02 3.18E-02 8.68E-03 PMSFPDLIOI .o0 (occurs at t = 0.0 hrs)P-T-S NG Release FSG 1.85E-03 1.43E-03 1.68E-03 PMSFPNGOI .oO (occurs at t = 0.0 hrs)P-T-S Iodine Release ISG 2.63E-01 1.10E-02 9.52E-03 PMSINPIOl.oO (occurs at t = 0.0 hrs)Liquid Iodine Release ISG 2.50E-01 4.05E-02 1.14E-02 PMSINPLI01.oO (occurs at t = 0.0 hrs)P-T-S NG Release ISG 1.1 5E-03 1.48E-04 1.69E-04 PMSINPNGO1.o0 (occurs at t = 0.0 hrs)External Cloud* 4.51E-02 0.OOE+00 0.OOE+00 CR Filter Shine* 2.33E-02 0.OOE+00 0.OOE+00 Total 7.88E-01 1.1IE-01 4.71E-02 Allowable TEDE Limit 5.OOE+00 2.50E+01 2.50E+01 FSG Faulted SG ISG = Intact SG* Post-LOCA External Cloud & CR Filter Shine Doses Used From Reference 9.18, Section 8.1 XceEnery Calculation No. GEN-PI-078 Revision No. I Page No. 42 of 277 .8.1.2 The results of the MSLB accident with the concurrent iodine spike are summarized in the following table: MSLB Accident -Concurrent Iodine Case TEDE Dose (rem)Receptor Location Control Room EAB LPZ P-T-S Iodine Release FSG 1.13E+00 3.53E-01 1.47E-0I PMSFCI01.o0 (occurs at t = 24.0 hrs)Dryout SG Liquid Iodine Release 8.75E-02 3.18E-02 8.68E-03 FSG PMSFPDLIO1 .oO (occurs at t = 0.0 hrs)P-T-S NG Release FSG 1.52E-03 9.55E-04 1.36E-03 PMSFCNGO1.o0 (occurs at t = 2.6 hrs)P-T-S Iodine Release ISG 2.50E+00 1.23E-01 8.99E-02 PMSINCIOI .oO (occurs at t = 24.0 hrs)Liquid Iodine Release ISG 2.50E-01 4.05E-02 1.14E-02 PMS1NPLI0I .oO (occurs at t = 0.0 hrs)P-T-S NG Release ISG 9.19E-04 9.96E-05 1.36E-04 PMSINCNG01.o0 (occurs at t = 2.6 hrs)External Cloud* 4.51E-02 0.00E+00 0.00E+00 CR Filter Shine* 2.33E-02 0.OOE+00 0.OOE+00 Total 4.04E+00 5.49E-01 2.58E-01 Allowable TEDE Limit 5.OOE+00 2.50E+00 2.50E+00 8.2
Conclusions:
The results of MSLB accident analyses in Sections 8.1.1 & 8.1.2 indicate that the EAB, LPZ, and CR doses due to a MSLB accident are within their allowable limits. The calculated doses have adequate margins over the allowable dose limits for future safe operation of the plant. The proposed new LCO 3.4.17 for Reactor Coolant System Specific Activity is 580 pCi/gm DE of XE-I 33 based on the primary coolant noble gas activity corresponding to 1% failed fuel with the following changes:* Delete the definition of "E-Bar," AVERAGE DISINTEGRATION ENERGY* Add a new definition for DOSE EQUIVALENT XE-133* Revise definition for DOSE EQUIVALENT 1-131 to refer to FGR-1 I Effective inhalation dose conversion factors* Revise LCO 3.4.17, "RCS Specific Activity, to delete references to gross specific activity* Reference limit on DOSE EQUIVALENT XE-133* Revise SR 3.4.16.1 to verify the limit for DOSE EQUIVALENT XE-133 XceIEnergyI Calculation No. GEN-PI-078 7 Revision No. I Page No. 43 of 277
9.0 REFERENCES
- 1. U.S. NRC Regulatory Guide 1.183, Alternative Radiological Source Terms for Evaluating Design Basis Accidents at Nuclear Power Reactors, July 2000 2. S.L. Humphreys et. al., "RADTRAD:
A Simplified Model for Radionuclide Transport and Removal and Dose Estimation," NUREG/CR-6604, USNRC, December 1997 3. Design Input Transmittal Nos.3.1 DIT No. 13720-08, Rev. 1, MSLB Input Parameters 3.2 DIT No. 13720-07, Rev. 1, Control Room Input Parameters 3.3 DIT No. 13720-03, Rev. 0, Meteorological Input Parameters 3.4 DIT No. 13720-16, Rev 0, Steam Release Pathway Inputs for Main Steam Line Break (MSLB), Steam Generator Tube Rupture (SGTR), Locked Rotor Accident (LRA) and Control Rod Ejection Accident (CREA)4. PINGP Calculation No. GEN-PI-080, Rev 1, Prairie Island Atmospheric Dispersion Factors (y,/Qs) -AST Additional Releases 5. PINGP Calculation No. GEN-PI-049, Rev 0 (including Addendum 2), PI Control Room Atmospheric Dispersion Factors (X/Q)6. PINGP Units 1 & 2 Technical Specifications (TS): 6.1 Specification 1.1, PINGP Units I & 2, Rated Thermal Power 6.2 Specification 1.1, PINGP Units 1 & 2, Dose Equivalent 1- 131 6.3 Specification 1.1, PINGP Units I & 2, E-bar Average Disintegration Energy 6.4 Specification 3.7.14, PINGP Units I & 2 Limiting Condition for Operation (LCO) for Secondary Specific Activity 6.5 Specification 3.4.17, PINGP Units I & 2 LCO for RCS Specific Activity 6.6 PINGP Units 1 & 2 TS Figure 3.4.17-1 for Reactor Coolant DOSE EQUIVALENT 1-131 Specific Activity Limit Versus Percentage of RATED THERMAL POWER 6.7 Specification 3.4.14, PINGP Units 1 & 2 LCO FOR RCS Operational Leakage 6.8 Specification 5.5.9, PINGP Units I & 2 Ventilation Filter Testing Program (VFTP)6.9 PINGP Units I & 2 TS Basis B3.4.14 6.10 PINGP Units 1 & 2 TS Basis B3.3.6 6.11 Specification 3.3.6, PINGP Units I & 2 LCO for Control Room Special Ventilation System (CRSVS) Actuation Instrument and Table 3.3-6, PINGP Unit I/Unit 2 LCO for Radiation Monitoring Instrumentation 6.12 Specification 3.7.10, P1NGP Units I & 2 LCO for Control Room Special Ventilation System (CRSVS)7. Federal Guidance Report 1I, EPA-520/1-88-020, Environmental Protection Agency 8. Federal Guidance Report 12, EPA-402-R-93-081, Environmental Protection Agency XceI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 44 of 277 9. Westinghouse Letter NSP-07-59 LTR-PEP-07-26, Nuclear Management Company, Prairie Island Units I & 2, MUR Power Uprate Program, Core Activity Inventory and Coolant Activity Concentration, November 2, 2007.10. USNRC Generic Letter 99-02, "Laboratory Testing of Nuclear-Grade Activated Charcoal", June 3, 1999 11. ASME Steam Tables, Sixth Edition 12. 10 CFR 50.67, "Accident Source Term" 13. Technical Specification Task Force Improved Standard Technical Specifications Change Traveler TSTF-490, Rev 0, "Deletion of E Bar Definition and Revision to RCS Specific Activity Tech Spec" 14. Prairie Island Nuclear Generating Plant, Units I And 2 -Issuance Of Amendments Re: Revision To Loss-Of-Coolant (LOCA) Accident And Main Steam Line Break (MSLB) Accident Radiological Dose Consequences Analyses And Affected Technical Specifications (TAC Nos. MD9140 And MD9141)15. PINGP Procedure Nos: 15.1 1 ES-0.3A, Rev 14, Natural Circulation Cooldown With CRDM Fans 15.2 1ES-0.3B, Rev 11, Natural Circulation Cooldown Without CRDM Fans 16. PINGP Drawing No. NF-38513, Rev T, Architectural, Plant Roof Plan 17. NUREG-0800, Standard Review Plan, "Radiological Consequence Analyses Using Alternative Source Terms," SRP 15.0.1, Rev. 0, July 2000.18. P1NGP Calculation No. GEN-PI-079, Rev 0, Post-LOCA EAB, LPZ, and CR Doses -AST 19. PINOP Calculation No. 12400604-UR(B)-005, Rev 0, Dose Consequences At The Site Boundary &Control Room Following a MSLB 20. PINGP USAR Section 14.5.5.6, Rev 29P, Dose Analysis for MSLB Outside Containment
- 21. PINGP USAR Section 4.3.2.1.1, Rev 28, Steam Generators
- 22. PINGP USAR Section 10.2.3.2.4.b, Rev 29, Letdown Orifices 23. P1NGP USAR Table 10.2-7, Rev 27, Chemical and Volume control System Performance Requirements
- 24. PlNGP Flow Diagram No. NF-39603-1, Rev 76, Including T-Mod EC 14090, Admin Bldg, Screen House, & Control RM Flow Diagram 25. PINGP Emergency Plan Implementing Procedure No. F3-20, Rev 22, Determination of Radioactive Release Concentrations
- 26. PINGP Operating Procedure Nos.26.1 1CI.3, Rev 68, Unit I Shutdown 26.2 2C1.3, Rev 67, Unit 2 Shutdown 27. PINGP Calculation No. 12400604-UR(B)-001, Rev 0, ARCON96 Atmospheric Dispersion Factors (x/Qs) for Post-LOCA Gaseous Releases XcelEnery Calculation No. GEN-PI-078 Revision No. 1 Page No. 45 of 277 10.0 TABLES: Table 1 Iodine Isotopic Dose Conversion Factors Isotopic Conversion Iodine Dose Factor Dose Isotope Conversion Conversion Factor Factor (Sv/Bq) (rem/Ci/Sv/Bq) (rem/Ci)A B C=AxB 1-131 2.921E-07 3.70E+ 12 1.08E+06 1-132 1.74E-09 3.70E+ 12 6.44E+03 1-133 4.86E-08 3.70E+ 12 1.80E+05 1-134 2.88E-10 3.70E+12 1.07E+03 1-135 8.46E-09 3.70E+ 12 3.13E+04 A From Reference 9.7, Page 136 Table 2 Iodine Scaling Factor for Dose Equivalent 1-131 1% Failed Fuel Iodine Iodine Dose Product Isotope Activity Conversion Concentration Factor (ptCi/gm) (rem/Ci) (ptCi.rem
/ Ci.gm)A B (A x B)1-131 2.55E+00 1.08E+06 2.75E+06 1-132 2.80E+00 6.44E+03 1.80E+04 1-133 3.88E+00 1.80E+05 6.98E+05 1-134 5.82E-01 1.07E+03 6.20E+02 1-135 2.20E+00 3.13E+04 6.89E+04 Total 3.54E+06 A From Reference 9.9, Table 2-2 for 1-1B x 1.04 DE 1-131 Based on 1% FF Iodine Concentration 3.28E+00 Iodine Scaling Factor Based on 0.50 pCi/gm DE 1-131 1.526E-01 j XceiEnera alculation No. GEN-PI-078 Revision No. I Page No. 46 of 277 Table 3 Pre-accident Iodine Spike RCS Isotopic Iodine Concentration Normal Iodine 0.50 gCi/gm Iodine Scaling DE 1-131 Isotope Activity Factor Activity Concentration Concentration (l.ICi/gm) (pCi/gm)A B C=AxB 1-131 2.55E+00 1.526E-01 3.891E-01 1-132 2.80E+00 1.526E-01 4.272E-01 1-133 3.88E+00 1.526E-01 5.920E-01 1-134 5.82E-01 1.526E-01 8.880E-02 1-135 2.20E+00 1.526E-01 3.357E-01 A From Reference 9.9, Table 2-2 for HB x 1.04 B Scaling Factor Based on 0.5 pCi/gm DE 1-131 From Table 2 Table 4 Total RCS Iodine Activity -Pre-accident Iodine Spike Case Tech Spec Reactor Total RCS Activity RCS Coolant 0.50 pCi/gm 30.0 4Ci/gm Isotope Activity Mass DE 1-131 DE 1-131 Concentration (gCi/gm) (gm) (Ci) (Ci)A B C=AxB/1E-6 Cx60 1-131 3.891E-01 1.497E+08 5.825E+01 3.495E+03 1-132 4.272E-01 1.497E+08 6.396E+01 3.837E+03 1-133 5.920E-01 1.497E+08 8.862E+01 5.317E+03 1-134 8.880E-02 1.497E+08 1.329E+01 7.976E+02 1-135 3.357E-01 1.497E+08 5.025E+01 3.015E+03 A From Table 3 B Reactor coolant mass from Section 7.1 X eI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 47 of 277 Table 5 Dose Equivalent of Xenon-133 1% Failed Submersion Noble Fuel RCS Dose Product Gas Activity Coefficient Nuclide (ACi/gm) (Sv / Bq s M 3) (I.iCi/gm
- Sv / Bq s m3)A B C=AxB KR-85 1.09E+01 1.19E-16 1.297E-15 KR-85M 1.59E+00 7.48E- 15 1.189E-14 KR-87 1.03E+00 4.12E-14 4.244E-14 KR-88 2.89E+00 1.02E-13 2.948E- 13 XE-131M 2.05E+00 3.89E-16 7.975E-16 XE-133 2.60E+02 1.56E-15 4.056E-13 XE-133M 3.65E+00 1.37E-15 5.001E-15 XE-135 8.24E+00 1.19E-14 9.806E-14 XE-135M 5.02E-01 2.04E-14 1.024E-14 Xe-138 6.09E-01 5.77E-14 3.514E-14 Total (pCi/gm
- Sv / Bq s M 3) 9.052E-13 Xe-133 DE Based on 1% FF NG Concentration 580 A From Reference 9.9, Table 2-2 for HB x 1.04 (Kr-83M omitted per Xe-133 DE definition)
B From FGR 12, Table Il.1 (Ref. 9.8)Table 5A Total RCS Noble Gas Activity -Pre-accident Iodine Spike Noble Gas Primary Total Isotope Activity Coolant Noble Gas Concentration Mass Activity (PCi/gm) (gm) (Ci)A B C=(AxB/1E6)
Kr-83m 3.92E-01 1.497E+08 5.868E+01 Kr-85m 1.59E+00 1.497E+08 2.380E+02 Kr-85 1.09E+0I 1.497E+08 1.632E+03 Kr-87 1.03E+00 1.497E+08 1.542E+02 Kr-88 2.89E+00 1.497E+08 4.326E+02 Xe-I31m 2.05E+00 1.497E+08 3.069E+02 Xe-133m 3.65E+00 1.497E+08 5.464E+02 Xe-133 2.60E+02 1.497E+08 3.892E+04 Xe-135m 5.02E-0 I 1.497E+08 7.515E+01 Xe-135 8.24E+00 1.497E+08 1.234E+03 Xe-138 6.09E-01 1.497E+08 9.117E+0I A From Table 5 (with Kr-83M per Reference 9.9, Table 2-2 for HB x 1.04)B From Section 7.1 SXce lEnerav] Calculation No. GEN-PI-078 Revision No. 1 Page No.48 of 277 Table 6 Total Iodine & Noble Gas Activities in RCS Pre-accident Iodine Spike Iodine & Core RADTRAD Noble Gas Thermal Nuclide Isotope Total Power Inventory Activity File (Ci) (MWJ) (Ci/MWj)A B C=A/B 1-131 3.495E+03 1683 .2076E+01 1-132 3.837E+03 1683 .2280E+01 1-133 5.317E+03 1683 .3159E+01 1-134 7.976E+02 1683 .4739E+00 1-135 3.0155E+03 1683 .1791 E+O1 Kr-83m 5.868E+01 1683 .3487E-01 Kr-85m 2.380E+02 1683 .1414E+00 Kr-85 1.632E+03 1683 .9695E+00 Kr-87 1.542E+02 1683 .9162E-01 Kr-88 4.326E+02 1683 .2571E+00 Xe-131m 3.069E+02 1683 .1823E+00 Xe-133m 5.464E+02 1683 .3247E+00 Xe-133 3.892E+04 1683 .2313E+02 Xe-1-35m 7.515E+01 1683 .4465E-01 Xe-135 1.234E+03 1683 .7329E+00 Xe-138 9.117E+0O1 1683 .5417E-01 A -Iodine Activity from Table 4 A -Noble gas activity from Table 5A B -Isotopic Core Inventory From Reference 9.9, Table 2-1 based on 1683 MWt
.A pcetIE ergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 49 of 277 Table 7 Iodine Isotopic Decay Constant Half Half Decay Life Life Constant Isotope TI/2 T 1/2 2 (second) (sec)-'A Bi Ci=(LN2)/Bi 1-131 8.04d 694656 9.978E-07 1-132 2.30h 8280 8.371E-05 1-133 20.8h 74880 9.257E-06 1-134 52.6m 3156 2.196E-04 1-135 6.61h 23796 2.913E-05 A from Reference 9.8, Appendix A Table 8 Iodine Appearance Rate for Concurrent Iodine Spike 0.50 pCi/gm Letdown Iodine Iodine DE 1-1311 Decay Purification Appearance Spike Isotope Iodine Constant Removal, Rate Appearance Activity 2 Rate, Rate (Ci) (sec)-' (sec)-1 (Ci/sec) (Ci/sec)A B C D=Ax(B+C)
E=Dx500 1-131 5.825E+01 9.978E-07 5.654E-05 3.351E-03 1.676 1-132 6.396E+01 8.371E-05 5.654E-05 8.970E-03 4.485 1-133 8.862E+01 9.257E-06 5.654E-05 5.831E-03 2.916 1-134 1.329E+01 2.196E-04 5.654E-05 3.671E-03 1.836 1-135 5.025E+01 2.913E-05 5.654E-05 4.305E-03 2.152 Total Appearance Rate (Ci/sec) 13.064 A From Table 4 B From Table 7 C From Section 7.2 Xce Energy] Calculation No. GEN-PI-078 T Revision No. I Page No. 50 of 277 Table 9 Total Iodine Activity In Fuel -Concurrent Iodine Spike Iodine Concurrent Concurrent Spike Iodine Spike Iodine Spike Isotope Appearance Duration Total Rate Iodine Activity (Ci/sec) (hrs) (Ci)A B AxBx3600 1-131 1.676 8 4.826E+04 1-132 4.485 8 1.292E+05 1-133 2.916 8 8.397E+04 1-134 1.836 8 5.287E+04 1-135 2.152 8 6.199E+04 A From Table 8 B From Reference 9.1, Appendix E, Section 2.2 XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 51 of 277 Table 10 Total Iodine & Noble Gas Activities In Fuel Concurrent Iodine Spike Iodine & Core RADTRAD Noble Gas Thermal Nuclide Isotope Total Power Inventory Activity File (Ci) (MWJ) (Ci/MW,)A B C=A/B 1-131 4.826E+04 1683 .2867E+02 1-132 1.292E+05 1683 .7675E+02 1-133 8.397E+04 1683 .4989E+02 1-134 5.287E+04 1683 .3141E+02 1-135 6.199E+04 1683 .3683E+02 Kr-83m 5.868E+01 1683 .3487E-01 Kr-85m 2.380E+02 1683 .1414E+00 Kr-85 1.632E+03 1683 .9695E+00 Kr-87 1.542E+02 1683 .9162E-01 Kr-88 4.326E+02 1683 .2571E+00 Xe- 13 I'm 3.069E+02 1683 .1823E+00 Xe-133m 5.464E+02 1683 .3247E+00 Xe-133 3.892E+04 1683 .2313E+02 Xe-135m 7.515E+01 1683 .4465E-01 Xe-135 1.234E+03 1683 .7329E+00 Xe-138 9.117E+01 1683 .5417E-01 A -Iodine activity from Table 9 A -Noble gas from Table 6 B From Reference 9.6.1 0 I XceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 52 of 277 Table 1 I Secondary Side Iodine Activity -Faulted/Intact Steam Generators 0.50 I.Ci/gm Tech Spec Coolant Mass Secondary Core RADTRAD DE 1-131 Secondary In Intact Side Thermal Nuclide Isotope Activity Coolant Steam Activity Power Inventory Concentration Activity Limit Generator File (liCi/gm) (PCi/gm) (gm) (Ci) (MWO) (Ci)A B C D=AxBxC/0.50 xl E6 E F=D/E 1-131 3.891E-01 0.10 4.873E+07 3.792 1683 .2253E-02 1-132 4.272E-01 0.10 4.873E+07 4.164 1683 .2474E-02 1-133 5.920E-01 0.10 4.873E+07 5.770 1683 .3428E-02 1-134 8.880E-02 0.10 4.873E+07 0.865 1683 .5142E-03 1-135 3.357E-01 0.10 4.873E+07 3.27,1 1683 .1944E-02 A From Table 3 B From References 9.6.4 C From Section 7.1 E -Isotopic Core Inventory From Reference 9:9, Table 2-1 based on 1683 MWt SXceI Energ] Calculation No. GEN-PI-078 Revision No. I Page No. 53 of 277 This Page is Intentionally Left Blank XceIEnergyFCalculation No. GEN-PI-078 Revision No. 1 Page No.54 of 277 This Page is Intentionally Left Blank
- ,X elEnerg l Calculation No. GEN-PI-078 Revision No. I Page No. 55 of 277 Table 12 Faulted SG Release Faulted SG P-T-S Leakage Release Pre- Post-Category Dryout Dryout (cfm) (cfm)A B Iodine 0.181 0.181 Release 0-0.167 hr 0.167-75 hr Noble Gas 0.181 Release 0-75 hr SG Liquid 223.73 0.00 Iodine Release 0-0.167 hr > 0.167 hr Release Point Common Area of AB A & B For Iodine & Noble Gas Releases From Section 7.3.1 A & B For SG Liquid Iodine Release From Section 7:3.5 SXceI Enery Calculation No. GEN-PI-078 Revision No. I Page No. 56 of 277 Table 13 Post-MSLB Intact SG Release P-T-S Intact SG Release Release Leakage To Iodine, Noble gas, & SG Liquid Iodine Release Intact SG Category (cfm) (cfm) (cfm) (cfm) (cfm)A B C D E Iodine 0.0188 39.42 2.361 1.734 1.398 Release 0-45.5 hr 0-2 hr 2-8 hr 8-24 hr 24-45.5 Noble Gas 0.0188 0.0188 Release 0-45.5 hr 0-45.5 hr SG Liquid N/A 3.942 2.361 1.734 1.398 Iodine Release 0-2 hr 2-8 hr 8-24 hr 24-45.5 Release Unit 2 Group I PORV Release Point Point A Through E For Iodine Release From Section 7.3.2 A Through E For Noble Gas Release From Section 7.3.3 B Through E For SG Liquid Iodine Release From 7.3.5 XcelEnerg Calculation No. GEN-PI-078 Revision No. I Page No. 57 of 277 Table 14 Alkali Inhaled Isotopic Dose Conversion Factors Isotopic Conversion Iodine Fractional Dose Factor Dose Iodine Isotope Conversion Conversion Dose Factor Factor Conversion Factor (Sv/Bq) (rem/Ci/Sv/Bq) (rem/Ci)A B C=AxB D=C/1.08E+06 1131 2.92E-07 3.70E+12 1.08E+06 1.OOE+00 Rb-86 1.33E-09 3.70E+ 12 4.92E+03 4.56E-03 Rb-88 1.37E-12 3.70E+ 12 5.07E+00 4.69E-06 Rb-89 1.61E-12 3.70E+12 5.96E+00 5.52E-06 Cs-134 1.11E-08 3.70E+12 4.11E+04 3.80E-02 Cs-136 1.73E-09 3.70E+12 6.40E+03 5.93E-03 Cs-137 7.93E-09 3.70E+12 2.93E+04 2.72E-02 Cs-138 3.57E-12 3.70E+12 1.32E+OI 1.22E-05 A From Reference 9.7, Table 2.1, Thyroid Inhalation Xcei EnergylCalculation No. GEN-PI-078 Revision No. I Page No.58 of 277 11.0 FIGURES: P-T-S Noble Gas Release via Faulted SG 0-75 hrs / 0.181 cfm--.-...-...-.-...-...-.-...-...-.-..............
P-T-S Lkg & SG Liquid Iodine Release Intact Stea m I Generators P-T-S Iod. Release V = 1,721 ft3 0-45.5 hrs / 0.0188 cfm Figure 1: RADTRAD Nodalization For MSLB Pre-accident Iodine Spike Faulted/Intact SG Releases P-T-S Leakage Iodine Release Path Noble Gas Release Path
.X. elEnery. Calculation No. GEN-PI-078 Revision No. I Page No. 59 of 277 P-T-S Noble Gas Release via Faulted SG 0-75 hrs / 0.181 cfm I SG Liquid Iodine I 0-10 min / 223.73 cfm i[ Dryout Condition Figure 2: RADTRAD Nodalization For MSLB Concurrent Iodine Spike Faulted/Intact SG Releases P-T-S Leakage Iodine Release Path Noble Gas Release Path
.:XceIEnergy.
Calculation No. GEN-PI-078 Revision No. I Page No. 60 of 277 CONTROL ROOM V = 61,315 ft 3 HEPA il = 99%Charcoal TI = 95%I CRSVS Charcoal Filter MSLBA Releases Figure 3 -PINGP Post-MSLBA Control Room Response AST RADTRAD Nodalization
, Xcelnry Calculation No. GEN-PI-078 Revision No. I Page No. 61 of 277 12.0 AFFECTED DOCUMENTS:
Upon approval of the AST Licensing Change Request, the following documents will be revised or superseded:
12.1 PINGP Calculation No. 12400604-UR(B)-005, Rev 0, Dose Consequences At The Site Boundary &Control Room Following a MSLB 12.2 PINGP USAR Section 14.5.5.6, Dose Analysis for MSLB Outside Containment 13.0 ATTACHMENTS:
Attachment 13.1 PMSFPIOI.oO Attachment 13.2 PMSFPDLIOI.oO Attachment 13.3 PMSFPNGO1.oO Attachment 13.4 PMSINPIO1.oO Attachment 13.5 PMSINPLIOI.oO Attachment 13.6 PMSINPNGOI .oO Attachment 13.7 PMSFCIO1.oO Attachment 13.8 PMSFCNGO1.oO Attachment 13.9 PMSINCIO1.oO Attachment PMSINCNG01.oO 13.10 P-T-S Iodine Release FSG Dryout SG Liquid Iodine Release FSG P-T-S NG Release FSG P-T-S Iodine Release ISG Liquid Iodine Release ISG P-T-S NG Release ISG P-T-S Iodine Release FSG P-T-S NG Release FSG P-T-S Iodine Release ISG P-T-S NG Release ISG XceICEergy]Calculation No. GEN-PI-078 Revision No. I Page No. 62 of 277 Attachment 13.1 RADTRAD Output File PMSFPI01.oO RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:30:23######################################################################F
File information
- f#################################################################
Plant file Inventory file Release file Dose Conversion file= G:\Radtrad 3.03\Input\PI\GEN-PI-078\PMSFPIOl.psf
= g:\radtrad 3.03\defaults\pimspre def.txt= g:\radtrad 3.03\defaults\pingp iodine rft.txt= g:\radtrad 3.03\defaults\pingp fgll&l2.txt
- #### ###### ###4 ## ### #it # #iti it#it# #i#it it #i it iti ititititit it it it it ititititit it it it it ititititit it it it it it it it it* it itititit it Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Pre-accident Iodine Spike with Iodine Release From Faulted SG During and Following Dryout Nuclide Inventory File: g:\radtrad 3.03\defaults\pimspre def.txt Plant Power Level: 1.8520E+03 Compartments:
4 Compartment 1: RCS 3 5.2900E+03 0 0 0 0 0 Compartment 2: Faulted SG 3 1.7160E+03 0 0 0 0 0 Compartment 3: Environment 2 0.0000E+00
.. XceEnergy Calcuation No. GEN-PI-078 Revision No. 1 Page No.63 of 277 0 0 0 0 0 Compartment 4: Control Room 1 6.1315E+04 0 0 1 0 0 Pathways: 5 Pathway 1: RCS to Environment 1 3 2 Pathway 2: RCS to Faulted SG 1 2 2 Pathway 3: Environment 3 to Control Room 4 2 Pathway 4: Control Room 4 3 2 Pathway 5: Faulted SG to to Environment Environment 2 3 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.0000E+00 g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp iodine rft.txt 0.0000E+00 1 0.0000E+00 9.7000E-01 3.0000E-02 1.0000E+00 Overlying Pool: 0 0.0000E+00 0 0 0 (
SXceI Energy: Calculation No. GEN-PI-078 Revision No. I Page No. 64 of 277 0 Compartments:
4 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 0 1 0 0 0 0 0 0 0 Compartment 4: 1 1 0 0 0 0 1 3.6000E+03 3 o.OOOOE+00 8.3300E-02 7.2000E+02 0 0 Pathways: 5 Pathway 1: 0 0 0 0 0 1 3 0.OOOOE+00
- 9. 9000E+01 0.OOOOE+00 o.OOOOE+00
- 9. 5000E+01 O.OOOOE+00 0.OOOOE+00
- 9. 5000E+01 0.OOOOE+00 0.OOOOE+00 1.8100E-01 1.6700E-01 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
't :5 XcelIEnergy
ýý Calculation No. GEN-PI-078 Revision No. I Page No. 65 of 277 7.5000E+01 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 o.OOOE+00 1.6700E-01
- 7. 5000E+01 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 o.0000E+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 4: 0 0 0 0 0 1 3 o.0000E+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 5: 0 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00
- 1. 8100E-01 o.0000E+00 o.0000E+00 o.0000E+00 0.0000E+00 o.0000E+00 o.0000E+00 0.0000E+00 0.0000E+00 o.0000E+00 o.0000E+00 2.0000E+03 3.0000E+02 O.0000E+00 2.0000E+03 3.0000E+02 C.0000E+00 o.0000E+00 0.0000E+00 o.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00 X", .Ehergy. Calculation No. GEN-PI-078 Revision No. I Page No. 66 of 277 0 0 0 0 1 3 0.0000E+00 1.6700E-01 7.5000E+01 0 0 0 0 0 0 0.0000E+00
- 1. 8100E-01 0.OOO0E+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.0000E+00 O.OOOOE+O0 O.O000E+O0 O.O000E+O0 Dose Locations:
3 Location 1: Exclusion Area Boundary 3 1 2 o.OOOOE+00 7.2000E+02 1 2 o.OOOOE+00 7.2000E+02 0 6.4900E-04 C.OOOE+00 3.5000E-04 0.00OOE+00 Location 2: Low Population Zone 3 1 5 C.OOOOE+00 1.77C 8.0OOOE+00 3.99C 2.4000E+01 7.12C 9.6000E+01 1.04C 7.2000E+02 0.00C 1 4 O.0000E+00 3.50C 8.0000E+00 1.80C 2.4000E+01 2.30C 7.2000E+02 0.00C 0 Location 3: Control Room 4 0 1 2 O.0O00E+00 3.50C 7.2000E+02 0.00C 1 4 C.0O00E+00 1.00C 2.4000E+01 6.00C 9.6000E+01 4.00C 7.2000E+02 0.00C OOE-04 OOE-05 JOE-06 JOE-06 20E+00 0OE-04 OOE-04 OOE-04 0OE+00 OOE-04 00E+00 00E+00 O0E-01 JOE-01 00E+00 XceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 67 of 277 Effective Volume Location: 1 6 O.0OO0E+00 4.7900E-03 2.OOOOE+00 3.6000E-03 8.OOOOE+00 1.6000E-03 2.4000E+01 1.21OOE-03 9.6000E+01 9.5500E-04 7.2000E+02 O.0OOOE+00 Simulation Parameters:
6 0.0OCOE+00 1.OOOOE-01 2.OOOE+00 5.OOOE-01 8.OOOOE+00 1.OOO0E+00 2.4000E+01 2.OOOOE+00 9.6000E+01 4.OOOOE+00 7.2000E+02 O.OOOOE+00 Output Filename: G:\Radtrad 3.o3 1 1 1 0 0 End of Scenario File X~ceIfnerg l Calculation No. GEN-PI-078 Revision No. I Page No. 68 of 277###########4############################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:30:23ý#######################################################################
- 4#######################################################
Plant Description
- ý###########################################################
Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments
= 4 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: RCS to Environment Exit Pathway Number 2: RCS to Faulted SG Compartment number 2 Name: Faulted SG Compartment volume = 1.7160E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 2: RCS to Faulted SG Exit Pathway Number 5: Faulted SG to Environment Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 1: RCS to Environment Inlet Pathway Number 4: Control Room to Environment Inlet Pathway Number 5: Faulted SG to Environment Exit Pathway Number 3: Environment to Control Room Compartment number 4 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 4 Inlet Pathway Number 3: Environment to Control Room Exit Pathway Number 4: Control Room to Environment Total number of pathways = 5 Xce..nerg Calculation No. GEN-PI-078 Revision No. I Page No. 69 of 277##################ý#####################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:30:23#######################################################0################
Scenario Description
- 4#############################################################4###
Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 0.OOOOE+00 1.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 EARLY IN-VESSEL 0.0000 hrs 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0. 0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0. 0000E+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)0 OOOE+00 3 756E-02 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0. OOOE+00 0. OOOE+00 Inventory Power =1852. MWt Nuclide Name 1-131 1-132 1-133 1-134 1-135 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Specific Inventory (Ci/MWt)2 2.076E+00 2 2.280E+00 2 3.159E+00 2 4.739E-01 2 1.791E+00 half life (s)6. 947E+05 8.280E+03 7.488E+04 3.156E+03 2. 380E+04 Whole Body DCF (Sv-m3/Bq-s) 1.820E-14 1.120E-13 2.940E-14 1.300E-13 8.294E-14 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 Daughter none none none none Xe-133 Xe-135 none none none none Fractior 0.00 0.00 0.00 0.00 0.97 0.85 0.00 0.00 0.00 0.00 Inhaled Thyroid (Sv/Bq)2. 920E-07 1.740E-09 4 .860E-08 2. 880E-10 8.460E-09 Daughter none none none none none none none none none none Inhaled Effective (Sv/Bq)8.890E-09 1. 030E-10 1. 580E-09 3. 550E-11 3. 320E-I0 Fraction 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Iodine fractions Aerosol =Elemental
=Organic =COMPARTMENT DATA Compartment number Compartment number Compartment number 0.OOOOE+00 9.7000E-01 3.OOOOE-02 1: RCS 2: Faulted SG 3: Environment XceI Energy Calculation No. GEN-PI-078 T Revision No. I TPage No. 70 of 277 Compartment number 4: Control Room Compartment Filter Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Aerosol 0.0000E+00
- 9. 9000E+01 0.0000E+00 Efficiencies Elemental o.OOOOE+00
- 9. 5000E+01 0.0000E+00
(%)Organic 0.0000E+00
- 9. 5000E+01 0.0000E+00 PATHWAY DATA Pathway number 1: RCS to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00
- 1. 6700E-01 7. 5000E+01 Flow Rate (cfm)1. 8100E-01 0.0000E+00 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway numbher 2: RCS to Faulted SG Pathway Filter: Removal Data Time (hr)0.0000E+00 1.6700E-01 7.5000E+01 Flow Rate, (cfm)0.0000E+00 1..8100E-01 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0..0000E+001 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 3: Environment to Control Room Pathway Filter: Removal Data Time (hr)o.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.OOOOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Pathway number 4: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Pathway number 5: Faulted SG to Environment Pathway Filter: Removal Data Time (hr)0.OOOOE+00 Flow Rate (cfm)0.OOOOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 SXcel'nergyl Calculation No. GEN-PI-078 Revision No. I Page No. 71 of 277 1. 6700E-01 7. 5000E+01 1. 81OOE-01 0.OOOOE+00 O.OOOOE+O0 O.OOOOE+00 o .OOOOE+00 o .OOOOE+00 0.OOOOE+00 0.0000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr)0.OOOOE+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr)0.0000E+00 8.0000E+00 2 .4000E+01 9. 6000E+01 7.2000E+02 Location Breathing Time (hr)o.OOOOE+00 8.0000E+00 2 .4000E+01 7.2000E+02 Location Control R(Location X/Q Data Time (hr)0 OOOOE+00 2. OOOOE+00 8. 0000E+00 2 .4000E+01 9. 6000E+01 7. 2000E+02 Location Breathing Time (hr)o.OOOOE+00 7.2000E+02 Location Occupancy Time (hr)o.OOOOE+00 2 .4000E+01 9. 6000E+01 7.2000E+02 USER SPECIFIED TIME STE]Time Tir 0.OOOOE+00 2.OOOOE+00 8.OOOOE+00
- 2. 4000E+01 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 O.OOOOE+00 Rate Data, Breathging, Rate (m^3e
- sec^-I)3.5000E-04 1.8000E-04*
2.3000E-04' 0.OOOOE+00 oom is in compartment 4 X/Q (s
- m^-3)4.7900E-03 3.6000E-03 1.6000E-03 1.2100E-03 9.5500E-04 0.OOOOE+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 0.OOOOE+00 Factor Data Occupancy Factor 1.OOOOE+00
- 6. OOOOE-01 4 .OOOOE-01 0.OOOOE+00 P DATA -SUPPLEMENTAL TIME STEPS ne step 1.OOQ0E-01 5.00O0E-01 1.OOOOE+00 2.OOOOE+00 SXcelEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 72 of 277 9. 6000E+01 7.2000E+02 4.OOOOE+00 0.OOOOE+00 XceI Enerqy Calculation No. GEN-PI-078 Revision No. Page No. 73 of 277I################################V######################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:30:23######4#################################################################
- # # ##### ##### ## #####4t It* t It# It It It It It#t # It It It It It It I #t~ It It It It It It It It It # *S It It It It It It It It 4### ##4#It It######4###4######4##4####4#4####4######44######4####4##############4###
Dose, Detailed model and Detailed Inventory Output################l################################u#####B##naD#######
Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 9.7949E-06 9.7949E-06 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 2. 6713E-06 2. 6713E-06 Whole Body 7. 0081E-09 7. 0081E-09 Thyroid 4.4804E-03 4.4804E-03 Thyroid 1. 2219E-03 1. 2219E-03 Thyroid 9.0583E-05 9.0583E-05 TEDE 1.4952E-04 1.4952E-04 TEDE 4.0778E-05 4.0778E-05 TEDE 2. 8319E-06 2.8319E-06 Atoms 2 .3763E+12 3. 1074E+10 3. 8973E+II 2.4575E+09 7.0200E+I10 2.7575E+05 3.6999E+07
- 1. 1062E+06 1.8382E+07 3.2398E+06 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 0.0036 Ci 6.4084E-05 7.0306E-05 9.7504E-05 1.4587E-05 5.5266E-05 5.0244E-12 1.5295E-09 1.0962E-10 1.0523E-08
- 6. 6158E-08 kg 5.1691E-13
- 6. 8111E-15 8. 6073E-14 5. 4682E-16 1. 5737E-14 5 9985E-20 8. 1714E-18 2 4430E-19 4. 1208E-18 7.2627E-19 Decay 2. 1811E+07 2.3938E+07
- 3. 3187E+07 4.9698E+06
- 1. 8812E+07 2.5908E-01 7.8873E+01 5.6526E+00 5.42 61E+02 3.4025E+03 Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 6.0003E+07 0.OOOOE+00 2.7836E+12 0.OOOOE+00 8.6092E+10 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 XcelfnerwylCalculation No. GEN-PI-078 Revision No. I Page No. 74 of 277 Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)1-131 (Thyroid)1-131 (ICRP2 Thyroid)4.7428E 5. 6171E 3. 0175E--14-14-04 Time (h) =Noble gases Elemental I 0.0036 (atoms)(atoms)Deposition Surfaces.0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Organic I (atoms)Aerosols (kg)Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Transported 7.8259E+06
- 2. 7903E+12 8.6297E+10 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) =Noble gases Elemental I 0.0036 (atoms)(atoms)Pathway Filtered 2.7510E+04 6.5406E+09 2.0229E÷08 0.0000E+00 Organic I (atoms)Aerosols (kg)Exclusion Area Boundary Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 4.3342E-04 4.4321E-04 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.9836E-01
- 2. 0284E-01 Thyroid 5.4098E-02 5.5320E-02 Thyroid 1.1049E-01 1.1058E-01 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 1. 1820E-04 1.2088E-04 Whole Body 8.5442E-06 8.5512E-06 TEDE 6. 6194E-03 6.7689E-03 TEDE 1.8053E-03
- 1. 8461E-03 TEDE 3.4544E-03 3.4572E-03 Atoms 9. 9645E+13 1.2725E+12
- 1. 6304E+13 9. 6785E+10 2. 9201E+12 3.2468E+08
- 4. 3513E+10 1.3009E+09
- 2. 1574E+10 3.7786E+09 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m= 0.0833 Ci 2. 6873E-03 2 .8790E-03 4 .0790E-03 5. 7451E-04 2 .2989E-03 5. 9159E-09 1 .7988E-06 1 .2891E-07 1 .2350E-05 7 .7160E-05 kg 2. 1676E-11 2. 7892E-13 3. 6008E-12 2.1536E-14 6.5460E-13 7.0629E-17
- 9. 6098E-15 2.8730E-16
- 4. 8362E-15 8.4705E-16 Decay 2. 8554E+10 3. 0958E+10 4 .3394E+10 6. 3002E+09 2 4526E+10 2 .0951E+03 6. 3771E+05 4 .5689E+04 4. 3748E+06 2 4814E+07 XcelEnergyl, Calculation No. GEN-PI-078ReionN.I PgN.75f27 I Revision No. I Page No. 75 of 277 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 7.0490E+10 0.0000E+00 1.1663E+14 0.OOOOE+00 3.6072E+12 0.0000E+00 0.0000E+00 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1.9873E-12 2.3513E-12
- 1. 2519E-02 Deposition Recirculating Surfaces Filter 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = .0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 2.4977E+09 1.2632E+14
- 3. 9069E+12 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.9330E+08
- 9. 5673E+12 2.9590E+ll 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Whole Body 4. 4616E-04 8.8937E-04 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 2. 0803E-01 4.1087E-01 Thyroid 5.6735E-02 1.1205E-01 Thyroid 2.1259E-01 3.2318E-01 Low Population Zone Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Whole Body 1.2168E-04 2.4256E-04 Whole Body 1. 6142E-05 2.4693E-05 TEDE 6.9322E-03
- 1. 0102E-02 Atoms 8. 7761E+13 1. 0931E+12 1. 4324E+13 Control Room Compartment Nuclide Inventory:
Time (h) 0.1670 1-131 1-132 1-133 Ci 2.3668E-03 2.4732E-03 3.5836E-03 kg 1. 9091E-11 2. 3960E-13 3. 1635E-12 Decay 5. 5496E+10 5. 9472E+10 8.4240E+10 Xcelfnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 76 of 277 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 4. 7373E-04 2. 0076E-03 1. 2280E-08 3. 7292E-06 2. 6715E-07 2. 6011E-05 1. 3932E-04 1. 7758E-14 5. 7167E-13 1. 4661E-16 1. 9923E-14 5. 9537E-16 1. 0186E-14 1. 5294E-15 7. 9807E+10 2. 5501E+12 6.7396E+08
- 9. 0210E+10 2.6958E+09
- 4. 5436E+10 6.8224E+09 1.1878E+10
- 4. 7479E+10 8.7439E+04 2.6579E+07 1.9042E+06 1.8283E+08 1.0220E+09 Control Room Time (h) =Noble gases Elemental I Transport 0.1670 (atoms)(atoms)Group Inventory:
Atmosphere Sump 1.4584E+ll 0.OOOOE+00 1.0263E+14 0.OOOOE+00 3.1742E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)1.7489E-12
- 2. 0671E-12 1.0905E-02 Deposition Surfaces 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
- 3. 0620E+13 9. 4702E+ll 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.6138E+10 1.4575E+14
- 4. 5079E+12 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 2. 3351E+09 1.2253E+13
- 3. 7897E+ll 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 4.7550E-04 1.3649E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4. 4498E-01 8. 5584E-01 Thyroid 1.2136E-01 2.334 1E-01 Thyroid 8.4795E-01 1.1711E+00 Low Population Zone Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.2968E-04 3.7224E-04 Whole Body 5.5889E-05 8.0582E-05 TEDE 1.4248E-02 2.7949E-02 TEDE 3.8859E-03 7.6226E-03 TEDE 2.6436E-02 3.6538E-02 nCalculation No. GEN-PI-078 Revision No. I Page No.77 of 277 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 8.0000 Ci 4.9749E-05 5.0456E-06 5.9677E-05 2.0926E-08 1.9090E-05 7.0466E-08 1.9259E-05 1.3278E-06 8.8677E-05 6.6733E-06 kg 4. 0128E-13 4. 8881E-16 5.2681E-14 7.8442E-19
- 5. 4358E-15 8.4128E-16
- 1. 0289E-13 2. 9591E-15 3. 4724E-14 7. 3259E-17 Atoms 1. 8447E+12 2. 2301E+09 2.3853E+1l 3.5253E+06 2.4248E+10 3.8674E+09
- 4. 6587E+lI 1.3399E+10
- 1. 5490E+II 3.2679E+08 Decay 1. 5474E+11 1. 3680E+lI 2 2796E+ll 2 4160E+10 1. 2108E+ll 3. 1331E+07 8. 9704E+09 6. 2649E+08 5. 1378E+10 1. 9702E+10 Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 6.3836E+ll 0.OOOOE+00 2.0464E+12 0.OOOOE+00 6.3292E+10 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)3. 4710E-14 3. 8860E-14 1.3358E-04 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
- 1. 5200E+14 4.7011E+12 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 1. 0404E+12 1.7765E+l' 5.4945E+12 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 6.9217E+ll 2 .2901E+13 7.0828E+ll 0.OOOOE+00 Exclusion Area Boundary Doses: Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 3. 1562E+00 4. 0121E+00 Thyroid 9.9793E-02 Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.7620E-03
- 3. 1269E-03 TEDE 9.8853E-02 1.2680E-01 TEDE 3. 1781E-03 Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Whole Body 1.0833E-04
- .XcelEnergyj Calculation No. GEN-PI-078 Revision No. I Page No. 78 of 277 Accumulated dose (rem) 4.8057E-04 3.3320E-01 1.0801E-02 Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.7813E-05 9.8395E-05 Thyroid 6.2439E-01 1.7955E+00 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 24.0000 Ci 6. 0872E-05 5.2648E-08 4 .5377E-05 4. 6209E-06 3. 7598E-07 8. 1761E-05 5. 2299E-06 1. 2211E-04 2. 6161E-06 kg 4. 9100E-13 5. 1005E-18 4. 0057E-14 1.3158E-15 4.4887E-15 4.3680E-13
- 1. 1655E-14 4. 7818E-14 2.8719E-17 TEDE 1.9226E-02 5.5764E-02 Atoms 2. 2572E+12 2.3270E+07
- 1. 8138E+ll 5.8696E+09 2.0635E+10 1.9778E+12
- 5. 2775E+10 2. 1331E+ll 1.2811E+08 Decay 2 4777E+ll 1. 3827E+ll 3. 1373E+ll 1. 3679E+ll 4. 3102E+08 1. 0311E+ll 6. 8236E+09 2 .7406E+ll 2 .8009E+10 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 2.2646E+12 0.OOOOE+00 2.3711E+12 0.OOOOE+00 7.3333E+10 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)3. 9487E-14 4.2268E-14
- 1. 1092E-04 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 2.4342E+14
- 7. 5284E+12 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 8. 7487E+12 2. 7760E+14 8.5857E+12 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 6. 5595E+12 3. 0920E+13 9.5628E+ll 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 75.0000 Whole Body Thyroid Delta dose (rem) 6.1820E-03 2.1713E+01 TEDE 6. 6983E-01 XCeI Energ] calculation No. GEN-PI-078 Revision No. I Page No. 79 of 277 Accumulated dose (rem) 9.3089E-03 2.5726E+01 Low Population Zone Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 6. 7821E-05 5.4839E-04 Whole Body 2.6657E-05 1.2505E-04 Thyroid 1. 5654E-01 4. 8974E-01 Thyroid 1.9538E+00 3.7493E+00
- 7. 9663E-01 TEDE 4.8523E-03 1.5653E-02 TEDE 5. 9741E-02 1. 1551E-01 Atoms 3. 6463E+12 6. 4318E+10 5. 4180E+07 1.2984E+II
- 6. 3568E+12 1.2870E+ll 1.8420E+10
- 1. 1859E+06 Control Room Compartment Nuclide Inventory:
Time (h) = 75.0000 1-131 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Control Room Transport Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 9. 8335E-05 1. 6091E-05 4 .2654E-08 2 .3658E-06 2. 6279E-04 1 .2754E-05 1. 0545E-05 2 4217E-08 kg 7 9319E-13 1 4205E-14 1. 2146E-17 2. 8245E-14 1. 4039E-12 2. 8423E-14 4. 1293E-15 2. 6585E-19 Decay 7.7223E+ll
- 4. 9829E+ll 1.4275E+ll 8.9177E+09 1 .3036E+12 7. 2634E+10 6. 1785E+ll 3. 2056E+10 Group Inventory:
Atmosphere Sump 6.6338E+12 0.OOOOE+00 3.5994E+12 0.OOOOE+00 1.1132E+ll 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)5. 8180E-14 5. 9116E-14 1.1447E-04 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.OOOOE+00
- 7. 3261E+14 2. 2658E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 8.1702E+13 8.1206E+14 2.5115E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 7.3788E+13 7 .3832E+13 2 .2834E+12 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 SXcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 80 of 277 Exclusion Area Boundary Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.0000E+00 9.3089E-03 Low Population Zone Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 96.0060 Delta dose (rem)Accumulated dose.(rem)
Whole Body 0.OOOOE+00 5.4839E-04 Whole Body 4.8739E-07 1.2554E-04 Thyroid 0.0000E+00 2.5726E+01 Thyroid 0.0000E+00 4.8974E-01 Thyroid 2.5038E-02 3.7743E+00 TEDE 0.0000E+00
- 7. 9663E-01 TEDE 0.0000E+00 1.5653E-02 TEDE 7. 6414E-04 1.1627E-01 Atoms 2.5937E+08 1.1965E+10 2.0503E+08 7.8074E+06 Control Room Compartment Nuclide Inventory:
Time (h) =Xe-131m Xe-133 Xe-133m Xe-135 96.0000 Ci 4.7259E-09 4.9461E-07 2 .0318E-08 4.4695E-09 kg 5.6421E-17 2.6424E-15 4.5281E-17 1.7502E-18 Decay 9.8319E+09 1.4042E+12 7.7390E+10 6.2112E+11 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 1.2437E+10 0.0000E+00 2.0870E-21 0.0000E+00 6.4547E-23 0.0000E+00 0.0000E+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)3.3589E-47 3.3882E-47 6.2522E-38 Deposition Surfaces 0.OOOOE+00 0.00O0E+00 0.00O0E+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 7.3346E+14 2.2684E+13 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 8.1702E+13 8.1206E+14 2.5115E+13 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Pathway Filtered 8.0302E+13 7.3906E+13 2.2858E+12 Transported 0.0000E+00 0.0000E+00 0.0000E+00 XceI Energ. ] Calculation No. GEN-PI-078 Revision No. 1I Page No.81 of 277 Aerosols (kg)0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 9.3089E-03 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 5.4839E-04 Whole Body 3. 1009E-10 1.2554E-04 Thyroid 0.OOOOE+00 2 .572 6E+01 Thyroid 0.OOOOE+00
- 4. 8974E-01 Thyroid 9.6370E-36 3.7743E+00 TEDE 0.OOOOE+00
- 7. 9663E-01 TEDE 0.OOOOE+00 1.5653E-02 TEDE 3. 1009E-10 1. 1627E-01 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 1.2598E-71 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.0000E+00 0.0000E+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
- 7. 3346E+14 2. 2684E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 8.1702E+13 8.1206E+14 2.5115E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.0314E+13
- 7. 3906E+13 2.2858E+12 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 840 I V XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 82 of 277######################################################3###Sm#######m 1-131 Summary##*##################################################################
Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 75.000 96.000 720.000 Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 RCS 1-131 (Curies)5. 9332E+02 3.8447E+03 3.8430E+03 3.8411E+03 3.8339E+03 3.8274E+03 3.8210E+03 3.8145E+03 3.8080E+03 3.8016E+03 3.7952E+03 3.7887E+03 3.7823E+03 3.7759E+03 3.7695E+03 3.7632E+03 3.7568E+03 3.7504E+03 3.7441E+03 3.7378E+03 3.7314E+03 3.7251E+03 3.7188E+03 3.7125E+03 3.7062E+03 3.7000E+03 3.6937E+03 3.6875E+03 3.6812E+03 3.6750E+03 3.6688E+03 3.6626E+03 3.6564E+03 3.6502E+03 3.6440E+03 3.6378E+03 3.6317E+03 3.6255E+03 3.3576E+03 2.5177E+03 2.3347E+03 2.4817E+02 Control Room 1-131 (Curies)1.5292E-06
- 6. 4084E-05 2. 6873E-03 2. 3668E-03 7. 0467E-04 2. 3931E-04 8. 5178E-05 3. 5342E-05 Faulted SG 1-131 (Curies)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 2. 6191E+00 4. 9671E+00 7.3040E+00
- 9. 6301E+00 1. 1945E+01 1. 4250E+01 1. 6543E+01 1. 8826E+01 2.1098E+01
- 2. 3359E+01 2. 5610E+01 2. 7850E+01 3. 0079E+01 3. 2298E+01 3. 4507E+01 3. 6705E+01 3. 8892E+01 4.1070E+01
- 4. 3236E+01 4. 5393E+01 4.7539E+01
- 4. 9675E+01 5. 1801E+01 5. 3917E+01 5. 6022E+01 5. 8117E+01 6. 0203E+01 6. 2278E+01 6. 4344E+01 6. 6399E+01 6.8444E+01
- 7. 0480E+01 7.2506E+01
- 7. 4522E+01 1.5619E+02
- 3. 3101E+02 3.0695E+02 3.2628E+01 Environment 1-131 (Curies)3.3835E-04 1.4207E-02 6.4304E-01 1.3032E+00 1.3059E+00 1.3131E+00 1.3248E+00 1.3408E+00
- 1. 3613E+00 1.3862E+00
- 1. 4154E+00 1.4490E+00 1.4869E+00
- 1. 5291E+00 1.5756E+00 1.6263E+00
- 1. 6813E+00 1.7405E+00 1.8039E+00
- 1. 8715E+00 1.9432E+00
- 2. 0191E+00 2.0992E+00 2.1833E+00 2.2715E+00 2.3638E+00 2.4601E+00 2.5604E+00 2.6648E+00
- 2. 7731E+00 2.8854E+00
- 3. 0016E+00 3. 1218E+00 3.2459E+00
- 3. 3739E+00 3. 5058E+00 3. 6415E+00 3. 7810E+00 1. 3826E+01 9. 7016E+01 9. 7016E+01 9. 7016E+01 X.: I El e .rg y Calculation No. GEN-PI-078 Revision No. I Page No. 83 of 277 1.700 2.0456E-05 2.000 1.7275E-05 2.300 1.4973E-05 2.600 1.5547E-05 2.900 1.7080E-05 3.200 1.8927E-05 3.500 2.0873E-05 3.800 2.2846E-05 4.100 2.4822E-05 4.400 2.6793E-05 4.700 2.8756E-05 5.000 3.0710E-05 5.300 3.2655E-05 5.600 3.4591E-05 5.900 3.6517E-05 6.200 3.8435E-05 6.500 4.0343E-05 6.800 4.2242E-05 7.100 4.4133E-05 7.400 4.6014E-05 7.700 4.7886E-05 8.000 4.9749E-05 8.300 3.2198E-05 8.600 2.6860E-05 8.900 2.5612E-05 9.200 2.5732E-05 9.500 2.6309E-05 9.800 2.7036E-05 10.100 2.7810E-05 10.400 2.8598E-05 24.000 6.0872E-05 75.000 9.8335E-05 96.000 5.7481E-38 720.000 0.OOOOE+00 Cumulative Dose Summary Exclusion Area Bounda Low Population Zone Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 Thyroid (rem)0. 0000E+00 4.4804E-03
- 2. 0284E-01 4. 1087E-01 4 1174E-01 4. 1400E-01 4. 1764E-01 4.2266E-01
- 4. 2903E-01 4. 3675E-01 4 4580E-01 4. 5618E-01 4 .6786E-01 4.8084E-01
- 4. 9510E-01 5. 1064E-01 5. 2743E-01 5. 4548E-01 TEDE (rem)0.OOOOE+00 1.4952E-04 6.7689E-03 1.3701E-02 1.3730E-02 1.3805E-02 1.3925E-02 1.4090E-02 1.4298E-02 1.4550E-02 1.4845E-02 1.5182E-02 1.5560E-02 1.5980E-02 1.6441E-02 1.6941E-02 1.7482E-02 1.8061E-02 Thyroid (rem)0.0000E+00 1 .2219E-03 5.5320E-02 1 .1205E-01 1 .1229E-01 1 .1291E-01 1 .1390E-01 1 .1527E-01 1 .1701E-01 1 .1911E-01 1.2158E-01 1.2441E-01 1.2760E-01 1 .3114E-01 1 .3503E-01 1 3926E-01 1 .4385E-01 1.4877E-01 TEDE (rem)0.0000E+00 4.0778E-05 1.8461E-03 3.7367E-03 3.7445E-03 3.7649E-03 3.7977E-03 3.8426E-03 3.8995E-03 3.9682E-03 4.0486E-03 4.1405E-03 4.2438E-03 4.3582E-03 4.4838E-03 4.6203E-03 4.7677E-03 4.9258E-03 Control Thyroid (rem)0.0000E+00 9.0583E-05 1.1058E-01
- 3. 2318E-01 7. 8 656E-01 9. 1733E-01 9. 6226E-01 9. 7904E-01 9. 8695E-01 9. 9242E-01 9. 9710E-01 1 .0016E+00 1.0064E+00 1.0117E+00 1 .0175E+00 1. 0240E+00 1.0309E+00 1.0385E+00
-Room TEDE (rem)0.0000E+00 2.8319E-06 3.4572E-03
- 1. 0102E-02 2.4578E-02 2.8660E-02 3.0061E-02 3.0584E-02 3.0831E-02 3.1001E-02 3.1147E-02 3.1286E-02 3.1436E-02 3.1601E-02 3.1782E-02 3.1981E-02 3.2198E-02 3.2432E-02 XceI Energy Calculation No. GEN-PI-078 Revision No. I Page No.84 of 277 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8. 600 8.900 9.200 9.500 9.800 10.100 10.400 24. 000 75.000 96.000 720.000 5. 6477E-01 5. 8529E-01 6. 0703E-01 6. 2997E-01 6. 5412E-01 6. 7945E-01 7 0596E-01 7 .3364E-01 7. 6247E-01 7. 9246E-01 8. 2359E-01 8. 5584E-01 8 8922E-01 9. 2371E-01 9. 5931E-01 9. 9599E-01 1 .0338E+00 1. 0726E+00 1. 1125E+00 1. 1535E+00 4. 0121E+00 2 .5726E+01 2 .5726E+01 2. 5726E+01 1.8680E-02 1.9337E-02 2.0033E-02 2.0766E-02 2.1536E-02 2.2344E-02
- 2. 3188E-02 2.4069E-02 2.4986E-02 2.5938E-02 2.6926E-02 2.7949E-02 2.9007E-02 3.0099E-02 3.1226E-02 3.2386E-02 3.3580E-02 3.4808E-02 3.6068E-02
- 3. 7361E-02 1.2680E-01
- 7. 9663E-01 7.9663E-01 7 .9663E-01 1. 5403E-01 1. 5962E-01 1. 6555E-01 1. 7181E-01 1. 7840E-01 1. 8530E-01 1. 9253E-01 2 .0008E-01 2. 0795E-01 2 1613E-01 2. 2461E-01 2. 3341E-01 2. 3447E-01 2. 3556E-01 2. 3668E-01 2. 3784E-01 2. 3904E-01 2. 4027E-01 2 4153E-01 2 4282E-01 3. 3320E-01 4 8974E-01 4. 8974E-01 4. 8974E-01 5.0946E-03 5.2738E-03 5.4634E-03 5.6634E-03 5.8736E-03 6.0938E-03
- 6. 3241E-03 6.5643E-03 6.8143E-03 7.0741E-03 7.3436E-03 7.6226E-03 7.6568E-03 7.6922E-03 7.7286E-03 7.7661E-03 7.8047E-03 7.8444E-03 7.8851E-03 7.9269E-03
- 1. 0801E-02 1.5653E-02 1.5653E-02 1.5653E-02
- 1. 0466E+00 1. 0552E+00 1 .0644E+00 1. 0742E+00 1. 0844E+00 1. 0953E+00 1 1066E+00 1 1185E+00 1. 1309E+00 1. 1438E+00 1. 1572E+00 1. 1711E+00 1. 1824E+00 1. 1906E+00 1. 1980E+00 1. 2053E+00 1.2126E+00
- 1. 2202E+00 1. 2279E+00 1. 2358E+00 1. 7955E+00 3. 7493E+00 3. 7743E+00 3. 7743E+00 3.2683E-02
- 3. 2951E-02 3.3236E-02 3.3538E-02 3.3856E-02
- 3. 4191E-02 3.4542E-02
- 3. 4910E-02 3.5293E-02 3.5692E-02
- 3. 6107E-02 3.6538E-02 3.6886E-02
- 3. 7141E-02 3.7370E-02 3.7594E-02
- 3. 7821E-02 3.8054E-02 3.8293E-02 3.8538E-02 5.5764E-02
- 1. 1551E-01 1. 1627E-01 1.1627E-01
- W#################################################o##########
Worst Two-Hour Doses###4#########4########################4###########################4##
Exclusion Time (hr)24.0 Area Boundarl Whole Body (rem)2.4243E-04 Thyroid (rem)8. 5151E-01 TEDE (rem)2.6268E-02 Xce. i nergy Calculation No. GEN-PI-078 Revision No. 1 I Page No. 85 of 277 Attachment 13.2 RADTRAD Output File PMSFPDLIOI.oO
- ý###########################################################4 RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:09:47########F################m###o4########################################
- 4####4#44###4#############444########4#####4#4####444#####44####4#
File information
- 4########4#4##4#4#4####4####4#######4##########4######444##4######
Plant file Inventory file Release file Dose Conversion
= G:\Radtrad 3.03\Input\PI\GEN-PI-078\PMSFPDLIOl.psf
= g:\radtrad 3.03\defaults\pimsliq iodine_def.txt
= g:\radtrad 3.03\defaults\pingp iodine rft.txt file = g:\ýadtrad 3.03\defaults\pingptfgll&l2.txt
- ## #it it it it it it it it it it itititit it it it it it it it 4t it it it it it itit itit it# ## #4 # ###### # #it it itttii it it it it it it it it it it # it i Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Release During Faulted SG Dryout Nuclide Inventory File: g:\radtrad 3.03\defaults\pimsliq iodine c Plant Power Level: 1.8520E+03 Compartments:
3 Compartment 1: Faulted SG 3 1.7160E+03 0 0 0 0 0 Compartment 2: Environment 2 0.0000E+00 0 0 0 0 0 Compartment 3: Control Room 1 6. 1315E+04 Pre-accident Iodine Spike with SG Liquid Iodine XcelEnerg' Calculation No. GEN-PI-078 Revision No. I Page No. 86 of 277 0 0 1 0 0 Pathways: 3 Pathway 1: Faulted SG 1 2 2 to Environment Pathway 2: Environment to Control Room 2 3 2 Pathway 3: Control Room to Environment 3 2 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.0000E+00 g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp iodine rft.txt o.OOOOE+00 1 0.OO00E+00 9.7000E-01 3.OOOOE-02 1.0OO0E+00 Overlying Pool: 0 o.O0OOE+00 0 0 0 0 Compartments:
3 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 XcelEner9y Calculation No. GEN-PI-078 Revision No. I Page No. 87 of 277 I 0 0 0 Compartment 3: 1 1 o o o 0 1 3.6000E+03 3 o.0000E+00 8.3300E-02 7.2000E+02 0 0 Pathways: 3 Pathway 1: 0 0 0 0 0 1 2 o.OOOOE+00
- 1. 6700E-01 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 o.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 0.OOOOE+00
- 9. 9000E+01 0.OOOOE+00 o.OOOOE+00
- 9. 5000E+01 o.OOOOE+00 0.OOOOE+00
- 9. 5000E+01 o.OOOOE+00 2.23770E+02 0.OOOOE+00 2.OOOOE+03 3.OOOOE+02 o.OOOOE+00 o.0OOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 0.0000E+00 o.OOOOE+00 o.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 I , Xcel Energyli Calculation No. GEN-PI-078ReionN.I PgN.88f27 Revision No. I Page No. 88 of 277 1 3 o.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 2.0000E+03 3.0000E+02 C.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 Dose Locations:
3 Location 1: Exclusion Area Boundary 2 1 2 o.0000E+00 7.2000E+02 1 2 o.0000E+00 7.2000E+02 6.4900E-04 C.0000E+00 3.5000E-04 o.0000E+00 0 Location 2:.Low Population Zone 2 1 5 0.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 1 4 o.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 0 Location 3: Control Room 3 0 1 2 C.0000E+00 7.2000E+02 1 1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 C.0000E+00 3.5000E-04 1.8000E-04 2.3000E-04 o.0000E+00 3.5000E-04 C.0000E+00 4 0.0000E+00 1.0000E+00 2.4000E+01 6.0000E-01 9.6000E+01 4.0000E-01 7.2000E+02 0.CCCCE+00 Effective Volume Location: 1 6 0.0000E+00 4.7900E-03
ýXcelEn.er No. GEN-PI-078 Revision No. 1 Page No.89 of 277 2.OOOE+00 3.60OOE-03 8.0OOOE+00 1.6000E-03 2.4000E+01 1.2100E-03 9.6000E+01 9.5500E-04 7.2000E+02 O.OOOOE+00 Simulation Parameters:
6 O.OOOOE+00 1.0OO0E-01 2.0'OQOE+00 5.OOOOE-01 8.0000E+00 1.0000E+00 2.4000E+01 2.0000E+00 9.6000E+01 4.0000E+00 7.2000E+02 0.OOOOE+00 Output Filename: G:\Radtrad 3.o2 1 1 1 0 0 End of Scenario File XceIfnergl Calculation No. GEN-PI'-078 Revision No. I Page No. 90 of 277#############4########################################################4#
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:09:47#############P#####l#####4#n##t##D###########n4####4###4t4####o#######
- 44#######################4########*#4####4#####4#################ý###
Plant Description
- 44##44##444#####4#4######4#4#####4############444###44###4#4######4####
Number of Nuclides 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments Compartment information
= 3 Compartment number 1 (Source term fraction =Name: Faulted SG Compartment volume = 1.7160E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Faulted SG to Env 1.OOOOE+00 ironment Compartment number 2 Name: Environment Compartment type is Environment Pathways into and out of compartment 2 Inlet Pathway Number 1: Faulted SG to Environment Inlet Pathway Number 3: Control Room to Environment Exit Pathway Number 2: Environment to Control Room Compartment number 3 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter (s)Pathways into and out of Inlet Pathway Number Exit Pathway Number compartment 3 2: Environment to Control Room 3: Control Room to Environment Total number of pathways = 3 IE Calculation No. GEN-PI-078 Revision No. I Page No. 91 of 277#####4##################################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:09:47#######################################################################
- 4####################
Scenario Description
Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings/ GAP EARLY IN-VESSEL 0.003600 hr 0.0000 hrs NOBLES 0.0000E+00 0.0000E+00 IODINE 1.0000E+00 0.0000E+00 CESIUM 0.0000E+00 0.0000E+00 TELLURIUM 0.OOOOE+00 0.0000E+00 STRONTIUM 0.0000E+00 0.0000E+00 BARIUM 0.OOOOE+00 0.0000E+00 RUTHENIUM 0.0000E+00 0.OOOOE+00 CERIUM 0.0000E+00 0.OOOOE+00 LANTHANUM 0.OOOOE+00 0.0000E+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 RELEASE MASS (gm)0. OOOE+00 4 .077E-05 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 Inventory Power =1852. MWt Nuclide Name 1-131 1-132 1-133 1-134 1-135 Nuclide 1-131 1-133 1-135 Group Specific Inventory (Ci/MWt)2 2.253E-03 2 2.474E-03 2 3.428E-03 2 5.142E-04 2 1.944E-03 half life (s)6. 947E+05 8. 280E+03 7. 488E+04 3.156E+03 2. 380E+04 Whole Body DCF (Sv-m3/Bq-s)
- 1. 820E-14 1.120E-13 2.940E-14 1.300E-13 8.294E-14 Inhaled Thyroid (Sv/Bq)2. 920E-07 1.740E-09 4.860E-08 2.880E-10 8.460E-09 Daughter none none none Inhaled Effective (Sv/Bq)8.890E-09 1.030E-10 1. 580E-09 3.550E-11 3. 320E-10 Fraction 0.00 0.00 0.00 Daughter Xe-131m Xe-133m Xe-135m Fraction 0.01 0.03 0.15 Daughter none Xe-133 Xe-135 Fractior 0.00 0.97 0.85 Iodine fractions Aerosol Elemental Organic COMPARTMENT DATA= 0.OOOOE+00
= 9.7000E-01
= 3.OOOOE-02 Compartment number Compartment number Compartment number 1: Faulted SG 2: Environment 3: Control Room Compartment Filter Data Time (hr)0.OOOOE+00 8.3300E-02 Flow Rate (cfm)3.6000E+03 3.6000E+03 Filter Aerosol 0.OOOOE+00
- 9. 9000E+01 Efficiencies Elemental 0.OOOOE+00
- 9. 5000E+01 (%)Organic 0.OOOOE+00
- 9. 5000E+01 (j0 XceI nergy Calculation No. RENNPI2078 Revision No. I.1 Page No. 92 of 277 7.2000E+02 3.6000E+03 O.OOOOE+00 O.OOOE+00 O.OOOOE+00 PATHWAY DATA Pathway number 1: Faulted SG to Environment Pathway Filter: Removal Data Time (hr)0.OOOOE+00
- 1. 6700E-01 Flow Rate (cfm)2.2370E+02 0.OOOOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 0.OOO0E+00 0.0OOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Pathway number 2: Environment to Control Room Pathway Filter: Removal Data Time (hr)0.00OOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.OOO0E+03 3.OOOOE+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.O000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Pathway number 3: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol o.0000E+00 o.0000E+00 o.0000E+00 Elemental o.0000E+00 o.0000E+00 o.0000E+00 Organic 0.0000E+00 o.0000E+00 o.0000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 2 Location X/Q Data Time (hr)0.0000E+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Low Population Zone is in compartment 2 Location X/Q Data Time (hr)0.0000E+00 8.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 Location Breathing Time (hr)o.0000E+00 8.0000E+00
- 2. 4000E+01 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 0.OOOOE+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 SXcelEnergylCalculation No. GEN-PI-078 Revision N o. I Page No. 93 of 277 7.2000E+02 Location Contro Location X/Q Da Time (hr)0.0000E+00 2.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 Location Breath Time (hr)o.0000E+00 7.2000E+02 Location Occupa Time (hr)o.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 USER SPECIFIED TIME Time 0.0000E+00 2.0000E+00 8.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 1 Room ta 0.0000E+00 is in compartment X/Q (s
- m^-3)4. 7900E-03 3. 6000E-03 1. 6000E-03 1. 2100E-03 9. 5500E-04 0. 0000E+00 Ling Rate Data Breathing Rate (m^3 sec^-l)3.5000E-04 0.0000E+00.ncy Factor Data Occupancy Factor 1.0000E+00
- 6. 0OOOE-01 4 .0OOOE-01 0.0000E+00 STEP DATA -SUPPLEMENTAL TIME STEPS Time step 1.0000E-01 5.0000E-01 1.0000E+00 2.0000E+00 4.O000E+00 0.0000E+00 Xce lEnergy] Calculation No. GEN-PI-078 Revision No. I IPage No. 94 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:09:47##################################ý#*#########*#########################
- # 4# # 4# # ## # ## # ## # #### it # 4 it it it it it it it ititititit it it it it it it it it ititititit it it it it It it it It it it it it it it it itititit it##########4##########################################################
Dose, Detailed model and Detailed Inventory Output#######################E################x#####################u###nD Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 4.0120E-05
- 4. 0120E-05 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 1.0942E-05 1.0942E-05 Whole Body 2.8727E-08 2.8727E-08 Thyroid 1.8353E-02 1.8353E-02 Thyroid 5.0053E-03 5.0053E-03 Thyroid 3. 7132E-04 3. 7132E-04 TEDE 6. 1247E-04 6. 1247E-04 TEDE 1.6704E-04 1.6704E-04 TEDE 1. 1609E-05 1. 1609E-05 Atoms 9. 7339E+12 1.2727E+ll
- 1. 5963E+12 1.0065E+10
- 2. 8761E+ll 1.1291E+06 1.5148E+08 4.5287E+06 7.5276E+07 1.3267E+07 Control Room Compartment Nuclide Inventory:
Time (h) = 0.0036 1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 2. 6251E-04 2 .8795E-04 3. 9937E-04 5. 9742E-05 2 .2642E-04 2 .0572E-11 6.2620E-09 4 4878E-10 4. 3094E-08 2. 7092E-07 kg 2. 1174E-12 2. 7896E-14 3. 5255E-13 2. 2395E-15 6. 4473E-14 2.4560E-19
- 3. 3454E-17 1. 0002E-18 1. 6875E-17 2. 9741E-18 Decay 8. 9359E+07 9. 8057E+07 1. 3595E+08 2 .0357E+07 7. 7086E+07 1. 0583E+00 3 .2214E+02 2. 3087E+01 2 .2168E+03 1. 3901E+04 Group Inventory:
Atmosphere Sump 2.4568E+08 0.OOOOE+00 1.1402E+13 0.OOOOE+00 3.5265E+ll 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 XceI Energy. Calculation No. GEN-PI-078ReionN.1 PgN.95f27 Revision No. I Page No. 95 of 277 Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 9428E-13 2. 3009E-13 1.2360E-03 Time (h) =Noble gases Elemental I 0.0036 (atoms)(atoms)Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Organic I (atoms)Aerosols (kg)Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 3. 1907E+07 1.1430E+13 3.5350E+ll 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1. 1279E+05 2. 6841E+10 8.3012E+08; 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 0.0833 Whole Body Delta dose (rem) 1.3150E-03 Accumulated dose (rem) 1.3551E-03 Transported 0 .OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 6.0185E-01
- 6. 2020E-01 Thyroid 1.6414E-01 1.6915E-01 Thyroid 3. 3774E-01 3.3812E-01 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 3.5863E-04 3.6957E-04 Whole Body 2.6116E-05
- 1. 0571E-02 Atoms 3. 0212E+14 3. 8575E+12 4. 9429E+13 2. 9339E+ll 8. 8549E+12 9. 8441E+08 1. 3191E+ll 3.9437E+09
- 6. 5419E+10 1.1458E+10 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m= 0.0833 Ci 8.1477E-03 8.7277E-03 1.2366E-02 1.7415E-03
- 6. 9712E-03 1.7937E-08 5.4532E-06
- 3. 9081E-07 3.7451E-05 2.3398E-04 kg 6. 5720E-11 8 4553E-13 1. 0916E-11 6. 5283E-14 1. 9850E-12 2. 1414E-16 2. 9133E-14 8. 7098E-16 1. 4665E-14 2. 5686E-15 Decay 8. 6598E+10 9. 3873E+10 1.3159E+II
- 1. 9103E+10 7.4393E+10 6.3495E+03 1.9325E+06 1.3846E+05 1.32 61E+07 7. 5216E+07 SXce IEnergy Calculation No. GEN-PI-078 Revision No. I Page No.96 of 277 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 2.1372E+ll 0.0000E+00 3.5362E+14 0.0000E+00 1.0937E+13 0.0000E+00 0.0000E+00 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)6. 0254E-12 7.1288E-12 3.7954E-02 Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 O.O000E+00 Transported 7.5793E+09
- 3. 8624E+14 1.1946E+13 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 6.5969E+08
- 3. 2667E+13 1.0103E+12 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 0.1670 Whole Body Delta dose (rem) 7.1590E-04 Accumulated dose (rem) 2.0710E-03 Transported 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Thyroid 3. 3375E-01 9. 5395E-01 Thyroid 9. 1023E-02 2. 6017E-01 Thyroid 6.2204E-01
- 9. 6016E-01 Low Population Zone Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Whole Body 1.9525E-04 5.6482E-04 Whole Body 4.7231E-05 7.3375E-05 TEDE 1. 1122E-02 3. 1818E-02 TEDE 3.0332E-03 8.6777E-03 TEDE 1.9442E-02
- 3. 0012E-02 Atoms 2.4528E+14
- 3. 0547E+12 4. 0030E+13 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 0.1670 Ci 6. 6149E-03 6. 9113E-03 1. 0015E-02 kg 5. 3357E-11 6. 6956E-13 8. 8407E-12 Decay 1. 6309E+ll 1.7483E+ll 2.4754E+ll SXcel Energy Calculation No. GEN-PI-078 Revision No. I Page No. 97 of 277 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 1.3238E-03
- 5. 6119E-03 3.4556E-08 1.0493E-05 7.5168E-07 7.3213E-05
- 3. 9188E-04 4. 9622E-14 1.5980E-12 4.1255E-16
- 5. 6058E-14 1. 6752E-15 2. 8669E-14 4.3020E-15
- 2. 2301E+ll 7 1284E+12 1. 8965E+09 2 .5383E+ll 7. 5852E+09 1. 2789E+Il 1. 9191E+10 3.4941E+10
- 1. 3957E+ll 2.4975E+05 7.5908E+07 5.4383E+06 5.2228E+08 2.9222E+09 Control Room Transport Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 4.1038E+ll 0.OOOOE+00 2.8685E+14 0.0000E+00 8.8716E+12 0.0000E+00 0.OOOOE+00 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)4.8880E-12
- 5. 7771E-12 3.0477E-02 Deposition Recirculating Surfaces Filter 0.0000E+00 0.OOOOE+00 0.0000E+00 8.9752E+13 0.0000E+00 2.7758E+12 0.0000E+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported.
2.9252E+10 4.1742E+14 1.2910E+13 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 6.9405E+09 4 .0540E+13 1.2538E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00
- 2. 0710E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00
- 9. 5395E-01 Thyroid 0.OOOOE+00
- 2. 6017E-01 Thyroid 1.8406E+00 2.8008E+00 Low Population Zone Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 5.6482E-04 Whole Body 1.3425E-04 2.0762E-04 TEDE 0.OOOOE+00 3.1818E-02 TEDE 0.OOOOE+00 8.6777E-03 TEDE 5.7482E-02 8.7495E-02 XceIEnergy]
Calculation No. GEN-PI-078 Revision No. I Page No. 98 of 277 Control Room Compartment Nuclide Inventory:
Time (h) = 8.0000 Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 7.8290E-09 2.3141E-06 1.5589E-07 1.0687E-05 kg 9. 3469E-17 1.2363E-14
- 3. 4742E-16 4. 1848E-15 Atoms 4.2968E+08
- 5. 5977E+10 1. 5731E+09 1.8668E+10 Decay 3. 0192E+07 9.0564E+09 6.3623E+08
- 5. 9754E+10 Group Inventory:
Atmosphere Sump 7.6648E+10 0.OOOOE+00 1.0942E+02 0.OOOOE+00 3.3842E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1.8559E-24 2.0779E-24
- 7. 1425E-15 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
- 3. 5249E+14 1. 0902E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 2. 9252E+10 4. 1742E+14 1.2910E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 7.4805E+ll
- 6. 3588E+13 1 .9666E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00
- 2. 0710E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00
- 9. 5395E-01 Thyroid 0.OOOOE+00
- 2. 6017E-01 Thyroid 7. 0018E-13 Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Whole Body 0.OOOOE+00 5.6482E-04 Whole Body 9.7536E-08 TEDE 0.OOOOE+00
- 3. 1818E-02 TEDE 0.OOOOE+00 8.6777E-03 TEDE 9.7536E-08 A, celEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 99 of 277 Accumulated dose (rem) 2.0772E-04 2.8008E+00 8.7495E-02 Control Room Compartment Nuclide Inventory:
Time (h) = 24.0000 Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 6.8697E-11 1.9437E-08 1.1513E-09 2.8779E-08 kg 8.2016E-19
- 1. 0384E-16 2.5658E-18 1.1270E-17l Atoms 3.7703E+06 4.7018E+08
- 1. 1618E+07 5.0272E+07 Decay 3.3532E+07 1.0035E+10 7.0059E+08
- 6. 3457E+10 Group Inventory:
Atmosphere Sump 5.3584E+08 0.OOOOE+00 4.9560E-24 0.OOOOE+00 1.5328E-25 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)8.2534E-50 8.8348E-50
- 2. 3184E-40 Deposition Surfaces 0.OOOOE+00 0.0000E+00 0.OOOOE+00
- 0. O000E+0,0 Recirculating Filter 0.OOOOE+00 3.5249E+14
- 1. 0902E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 2. 9252E+10 4. 1742E+14 1.2910E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.1947E+ll
- 6. 3588E+13 1. 9666E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00
- 2. 0710E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00
- 9. 5395E-01 Thyroid 0.OOOOE+00 2.6017E-01 Low Population Zone Doses: TEDE 0.OOOOE+00
- 3. 1818E-02 TEDE 0.OOOOE+00 8.6777E-03 Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 96.0000 Whole Body 0.OOOOE+00 5.6482E-04 Whole Body Thyroid TEDE
.Xcel.nergl Calculation No. GEN-PI-078 Revision No. 1 Page No. 100 of 277 I Delta dose (rem) 1.7507E-10 3.5516E-38 Accumulated dose (rem) 2.0772E-04 2.8008E+00 Control Room Compartment Nuclide Inventory:
1.7507E-10 8.7495E-02 Time (h) = 96.0000 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 2.1816E-01 0.OOOOE+00 5.2755-138 0.0000E+00 1.6316-139 0.0000E+00 0.0000E+00 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)8.4906-164 8.5646-164 1.5804-154 Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00
- 3. 5249E+14 1.0902E+13 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms,)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 2. 9252E+10 4. 1742E+14 1.2910E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.1999E+ll 6.3588E+13
- 1. 9666E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00
- 2. 0710E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00
- 9. 5395E-01 Thyroid 0.OOOOE+00
- 2. 6017E-01 Thyroid 2.4360-152 2.8008E+00 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 5.6482E-04 Whole Body 5. 4753E-21 2.0772E-04 TEDE 0.OOOOE+00
- 3. 1818E-02 TEDE 0.OOOOE+00 8.6777E-03 TEDE 5. 4753E-21 8.7495E-02 SXcel-nergyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 101 of 277 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 2.0778E-82 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
- 3. 5249E+14 1. 0902E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0. 0.000E+00-0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 2..9252E+10 4.1742E+14 1.2910E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.1999E+ll 6.3588E+13 1 .9666E+12 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 840#########################4########################4###-S########a#ry 1-131 Summary##################################4##################################
Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 2.000 2.300 2.600 2.900 Faulted SG 1-131 (Curies)6.4251E-01 4.1143E+00 2.2052E+00 1.1455E+00 1.1441E+00 1.1429E+00 1.1416E+00
- 1. 1404E+00 1.1392E+00 1.1380E+00 1.1367E+00 1.1355E+00 1.1343E+00 Environment 1-131 (Curies)1.3970E-03
- 5. 8197E-02 1.9662E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 Control Room 1-131 (Curies)6.3139E-06 2.6251E-04 8.1477E-03
- 6. 6149E-03 1.9659E-03 6.5888E-04 2.2083E-04 7.4014E-05 2.4807E-05 8.3142E-06 2.7866E-06 9.3396E-07
- 3. 1303E-07 XcI... .r... Calculation No. GEN-PI-078 Revision No. I Page No. 102 of 277 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 96.000 720.000 1 1331E+00 1 1318E+00 1 1306E+00 1 1294E+00 1 1282E+00 1 1270E+00 1 1258E+00 1 1245E+00 1 1233E+00 1 1221E+00 1 1209E+00 1 1197E+00 1 1185E+00 1 1173E+00 1 1161E+00 1 1149E+00 1 1137E+00 1 1125E+00 1 1113E+00 1 1101E+00 1 1089E+00 1 1077E+00 1 1065E+00 1. 1053E+00 1. 1041E+00 1. 0515E+00 8.118 6E-01 8.6298E-02 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 3.0252E+00 1.0492E-07
- 3. 5164E-08 1. 1785E-08 3.9500E-09 1.3239E-09 4 4372E-10 1. 4872E-10 4. 9844E-11 1. 6706E-11 5. 5992E-12 1. 8766E-12 6. 2897E-13 2 1081E-13 7. 0654E-14 2. 3681E-14 7. 9368E-15 2. 6601E-15 8. 9157E-16 2. 9882E-16 1. 0015E-16 3. 3567E-17 1. 1250E-17 3. 7707E-18 1.2638E-18 4.2358E-19 1.2723E-40 1.4530-154 0.0000E+00
- C####ais################
Cumulative Dose Summary 4#ý########################4#4####################################4###
Exclusion Area Bounda Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 2.000 2.300 2. 600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 Thyroid (rem)0.OOOOE+00
- 1. 8353E-02 6. 2020E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 TEDE (rem)0.0000E+00
- 6. 1247E-04 2.0696E-02
- 3. 1818E-02 3. 1818E-02 3.1818E-02
- 3. 1818E-02 3. 1818E-02 3.1818E-02
- 3. 1818E-02 3. 1818E-02 3.1818E-02 3.1818E-02
- 3. 1818E-02 3. 1818E-02 3.1818E-02
- 3. 1818E-02 3. 1818E-02 3. 1818E-02 3.1818E-02
- 3. 1818E-02 3.1818E-02
- 3. 1818E-02 3.1818E-02 Low Population Zone Thyroid TEDE (rem) (rem)0.OOOOE+00 0.0000E+00 5.0053E-03 1.6704E-04 1.6915E-01 5.6445E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 2.6017E-01 8.6777E-03 Control Thyroid (rem)0 OOOOE+00 3. 7132E-04 3. 3812E-01 9. 6016E-01 2 .2548E+00 2. 6183E+00 2. 7398E+00 2. 7804E+00 2. 7940E+00 2. 7985E+00 2. 8000E+00 2. 8005E+00 2.8007E+00
- 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2.8008E+00
- 2. 8008E+00 2.8008E+00 2.8008E+00
- 1. 1609E-05 1. 0571E-02 3. 0012E-02 7.0457E-02 8.1802E-02 8.5592E-02 8.6858E-02 8.7281E-02 8.7423E-02 8.7470E-02 8.7486E-02
- 8. 7491E-02 8.7493E-02 8.7494E-02 8.7494E-02 8.7494E-02 8.7494E-02 8.7494E-02 8.7494E-02 8.7494E-02 8.7494E-02 8.7495E-02 8.7495E-02 XcelEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 103 of 277 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 96.000 720.000 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 9. 5395E-01 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3.1818E-02
- 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 3. 1818E-02 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 2 6017E-01 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03 8.6777E-03
- 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2. 8008E+00 2 .8008E+00 2. 8008E+00 2 .8008E+00 2 .8008E+00 2. 8008E+00 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495SE-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02 8.7495E-02
- W########H#################################################
Worst Two-Hour Doses Exclusion Area Boundary Time Whole Body Thyroid TEDE (hr) (rem)0.0 2.0710E-03 (rem) (rem)9.5395E-01 3.1818E-02 L'O XceI Energy] Calculation No. GEN-PI-078 Revision No. 1 Page No. 104 of 277 Attachment 13.3 RADTRAD Output File PMSFPNGOI.oO
- 4#####################################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:38:31##############4#####################4###############################t#####
- ý###############4##########4###################################
File information
- 4##44###4#####ý##############4##4#ý########4########44*4####4########4#4#
Plant file = G:\Radtrad 3.03\Input\PI\GEN-PI-078\PMSFPNG0l.psf Inventory file = g:\radtrad 3.03\defaults\pimspre def.txt Release file = g:\radtrad 3.03\defaults\pingp ng rft.txt Dose Conversion file = g:\radtrad 3.03\defaults\pingp fgll&12.txt
- #### ##### # # # ##### # # #i###i t # # # ## # # i # # #S # # # # # ## # # # i ###### #### #### # # # # ##### # # #Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Pre-accident Iodine Spike with Noble Gas Release From Faulted SG During and Following Dryout Nuclide Inventory File: g:\radtrad 3.03\defaults\pimspredef.txt Plant Power Level: 1.8520E+03 Compartments:
3 Compartment 1: RCS 3 5.2900E+03 0 0 0 0 0 Compartment 2: Environment 2 0.0000E+00 0 0 0 0 0 Compartment 3: Control Room 1 6. 1315E+04
~,XceI Energy~ Calculation No. GEN-PI-078 Revision No. I Page No. 105 of 277 0 0 1 0 0 Pathways: 3 Pathway 1: RCS to Environment 1 2 2 Pathway 2: Environment 2 3 2 to Control Room Pathway 3: Control Room 3 2 to Environment 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.OCO0E+00 g:\radtrad 3.03\defau~lts\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp ng rft.txt o.0O00E+00 1 0.COCOE+00 9.7000E-01 3.0000E-02 1.0000E+00 Overlying Pool: 0 0.0000E+00 0 0 0 0 Compartments:
3 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 Xce l Energy] Calculation No. GEN-PI-078 Revision No. 1 Page No. 106 of 277 0 Compartment 3: 1 1 0 0 0 0 1 3.6000E+03 3 0.0000E+00 8.33O0E-02 7.2000E+02 0 0 Pathways: 3 Pathway 1: 0 0 0 0 0 1 2 0.0000aa+00 7.5000E+01 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 0.0000E+00
- 9. 9000E+01 0.0000E+00 0.0000E+00
- 9. 5000E+01 O.0000E+00 o.0000E+00
- 9. 5000E+01 o.0000E+00
- 1. 8100E-01 C.0000E+00 o .000E+/-00 O .000E+00 o.0000E+00 0.0000E+00 o .000E+00 o ..0000E+00 2.0000E+03 3.0000E+02 0.0000E+00 o.0000E+00 o.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 a.0000E+00 0.OOOOE+00 SX0eIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 107 of 277 Iý ' ..:,'..:Is .J:. -:. .-I.:, T:i....h ' T 1 3 o.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 2.0000E+03 3.0000E+02 0.OOO0E+00 o.OOOE+00 o.OOOOE+00 o.OOCE+00 o.OOOOE+00 o.OO0E+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 0.OOOOE+00 0 0 0 Dose Locations:
3 Location 2: Exclusion Area Boundary 2 1 2 0.OOOOE+00 7.2000E+02 1 2 o.OOOOE+00 7.2000E+02 0 6.4900E-04 C.OOOE+00 3.5000E-04 0.0000E+00 Location 2: Low Population Zone 2 1 5 0.0O00E+00 8.OOOE+00 2 .4000E+01 9. 6000E+01 7.2000E+02 1 4 o.OOOE+00 8.00OOE+00 2.4000E+01 7.2000E+02 0 Location 3: Control Room 1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 C.OOOE+00 3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 3 0 1 2 C.CC00E+00 3.5000E-04 7.2000E+02 C.CCCCE+00 1 4 C.COCCE+00 1.O000E+00 2.4000E+01 6.0000E-01 9.6000E+01 4.0000E-01 7.2000E+02 O.CCCCE+00 Effective Volume Location: 1 6 C.CCCCE+00 4.7900E-03 xc.wIe nergy] Calculation No. GEN-PI-078 Revision No. I Page No. 108 of 277 2.OOOOE+00 3.60OOE-03 8.OOOOE+00 1.6000E-03 2.4000E+01 1.2100E-03 9.6000E+01 9.5500E-04 7.2000E+02 O.OOOE+00 Simulation Parameters:
6 O.OOOOE+00 1.OOOE-01 2.OOO0E+00 5.OOOOE-01 8.0000E+00 1.0000E+00 2.4000E+01 2.OOOOE+00 9.6000E+01 4.OOOOE+00 7.2000E+02 O.OOOE+00 Output Filename: G:\Radtrad 3.o4 1 1 1 0 0 End of Scenario File XceI Enrgy Calculation No. GEN-PI-078 Revision No. I Page No. 109 of 277#############################################################4##########
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:38:31########f###############################################################
Plant Description
- 4#####################################################
Number of Nuclides = 60 Inventory Power = 1.OOOOE+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments
= 3 Compartment information ,Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: RCS. to Environment Compartment number 2 Name: Environment Compartment type is Environment Pathways into and out of compartment 2 Inlet Pathway Number 1: RCS to Environment Inlet Pathway Number 3: Control Room to Environment Exit Pathway Number 2: Environment to Control Room Compartment number 3 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 3 Inlet Pathway Number 2: Environment to Control Room Exit Pathway Number 3: Control Room to Environment Total number of pathways = 3 4 XceIfnergyl Calculation No. GEN-PI-078 T Revision No. 1 Page No. 110 of 277 RADTRAD Version 3.03 (Spring'2001) run on 6/02/2009 at 3:38:31*######*######4##4##########################4##4#######################M
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Scenario Description
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Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 1.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 EARLY IN-VESSEL 0.0000 hrs 0. 0000E+00 0 OO0Et00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000,E+00 0.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)4.811E+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 Inventory Power 1852. MWt Nuclide Group Specific half Whole Body Inhaled Name Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 1 1 1 1 1 1 1 1 1 1 1 Inventory (Ci/MWt)3. 487E-02 9. 695E-01 1. 414E-01 9. 162E-02 2. 571E-01 1. 823E-01 2. 313E+01 3. 247E-01 7. 329E-01 4.4 65E-02 5. 417E-02 life (s)6. 588E+03 3. 383E+08 1. 613E+04 4. 5758E+03 1. 022E+04 1. 028E+06 4. 532E+05 1. 890E+05 3. 272E+04 9. 174E+02 8. 502E+02 DCF (Sv-m3/Bq-s) 1 .500E-18 1. 190E-16 7 .480E-15 4. 120E-14 1. 020E-13 3 .890E-16 1. 560E-15 1. 370E-15 1. 190E-14 2. 040E-14 5. 770E-14 Thyroid (Sv/Bq)0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 Daughter none none none none none none none hone none none Inhaled Effective (Sv/Bq)0.OOOE+00 0. OOOE+00 0.OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0.OOOE+00 0. OOOE+00 0.OOOE+00 0.OOOE+00 0.OOOE+00 Fraction 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 Daughter none none none none Xe-133 Xe-135 none none none none Fraction 0.00 0.00 0.00 0.00 0.97 0.85 0.00 0.00 0.00 0.00 Iodine fractions Aerosol Elemental Organic COMPARTMENT DATA= 0.OOOOE+00
= 9.7000E-01
= 3.OOOOE-02 XceI Energy Calculation No. GEN-PI-078 Revision No. I Page No. I11 of 277 Compartment number 1: RCS Compartment number 2: Environment Compartment number 3: Control Room Compartment Filter Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Efficiencies Aerosol Elemental 0.OOOOE+00 0.0O00E+00 9.9000E+01 9.5000E+01 0.0000E+00 0.OOOOE+00
(%)Organic 0.0000E+00
- 9. 5000E+01 o.00OOE+00 PATHWAY DATA Pathway number 1: RCS to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 7.5000E+01 Flow Rate (c fm)1. 8100E-01 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 2: Environment to Control Room Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 O.O000E+00 0.0000E+00 O.O000E+00 Pathway number 3: Control Room to Environment Pathway Filter: Removal Data Time (hr)o.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 O.O000E+00 O.O000E+00 O.O000E+00 O.O000E+00 O.O000E+00 O.O000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 2 Location X/Q Data Time (hr)0.0000E+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Low Population Zone is in compartment 2
SXceI Energy Icalculation No. GEN-PI-078 T Revision No. I Page No. 112 of 277 Location X/Q Data Time (hr)0.OOOOE+00 8.OOOOE+00 2.4000E+01 9.6000E+01 7.2000E+02 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing 0.0000E+00 8.OOOOE+00 2 .4000E+01 7.2000E+02 Location Control Room is Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 in compartment 3 Location X/Q Data Time (hr) X/Q (s
- m^-3)0.OOOOE+00 4.7900E-03 2.0000E+00 3.6000E-03 8.0000E+00 1.6000E-03 2.4000E+01 1.2100E-03 9.6000E+01 9.5500E-04 7.2000E+02 0.0000E+00 Location Breathing Rate Data, Time (hr) Breathing Rate (m^3
- sec^-1)0.0000E+00 3.5000E-04' 7.2000E+02 0.0000E+00 Location Occupancy Factor Data Time (hr) Occupancy Factor 0.0000E+00 1.0000E+00 2.4000E+01 6.0000E-01 9.6000E+01 4.0000E-01 7.2000E+02 0.0000E+00 USER SPECIFIED TIME STEP DATA -SUPPLEMENTAL TIME STEPS Time Time step 0.0000E+00 1.0000E-01 2.0000E+00 5.0000E-01 8.0000E+00 1.0000E+00 2.4000E+01 2.0000E+00 9.6000E+01 4.0000E+00 7.2000E+02 0.0000E+00 XceIEnergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 113 of 277#######################################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:38:31###################################################################i###
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Dose, Detailed model and Detailed Inventory Output####################################################################
Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 1.3234E-06 1.3234E-06 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 3.6092E-07 3.6092E-07 Whole Body 9. 4688E-10 9.4688E-10 Thyroid 2. 3555E-12 2. 3555E-12 Thyroid 6. 4240E-13 6.4240E-13 Thyroid 6. 1077E-14 6. 1077E-14 TEDE 1.3234E-06 1.3234E-06 TEDE 3.6093E-07 3.6093E-07 TEDE 9. 4776E-10 9. 4776E-10 Atoms 3.7802E+08
- 5. 4044E+14 3.7557E+09 6.8979E+08 4.3276E+09
- 3. 1001E+06 3. 0885E+ll 1.7271E+13
- 1. 0114E+ll 3. 9514E+i0 6.7566E+07 7.5092E+07 6.4978E+05 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-8 5m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Cs-138 0.0036 Ci 1.0749E-06 2.9928E-05 4.3625E-06 2.8227E-06 7.9295E-06 5.4378E-08 5.6274E-06 7.1399E-04 1.0023E-05 2 .2621E-05 1.3797E-06 1.6546E-06 6.3006E-09 kg 5. 2101E-17 7. 6281E-11 5. 3010E-16 9. 9652E-17 6. 3238E-16 4. 5301E-19 6. 7184E-14 3. 8144E-12 2. 2337E-14 8 .579E-15 1. 5146E-17 1. 7208E-17 1. 4890E-19 Decay 3.6603E+05
- 1. 0186E+07 1. 4851E+06 9. 6137E+05 2.6996E+06 2.7984E+03
- 1. 9153E+06 2.4301E+08
- 3. 4113E+06 7.6995E+06 4.7112E+05 5.6527E+05 3.2586E+02 Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Group Inventory:
Atmosphere Sump 5.5817E+14 0.OOOOE+00
'XceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 114 of 277 Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 6.0191E-19 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.0000E+00 Deposition Surfaces 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 5. 5948E+14 0.OOOOE+00 0.OOOOE+00 7.8640E-20 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.3115E+12 0.OOOOE+00 0.OOOOE+00 2.7643E-22 Exclusion Area Boundary Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 5.8603E-05 5.9927E-05 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 7.4835E-10 7.5070E-10 Thyroid 2. 0409E-10 2. 0474E-10 Thyroid 4.1810E-10 4.1816E-10 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 1.5983E-05 1.6344E-05 Whole Body 1. 1553E-06 1.1562E-06 TEDE 5.8614E-05 5.9938E-05 TEDE 1.5986E-05 1.6347E-05 TEDE 1. 1613E-06 1. 1623E-06 Atoms 1. 5385E+10 2 .2669E+16 1. 5560E+ll 2. 7704E+10 1.7803E+ll 3.5980E+09 1.2952E+13 Control Room Compartment Nuclide Inventory:
Time (h) = 0.0833 Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Ci 4.3748E-05 1.2553E-03 1.8074E-04
- 1. 1337E-04 3.2620E-04
- 6. 3112E-05 2.3600E-04 kg 2. 1204E-15 3. 1997E-09 2. 1963E-14 4. 0023E-15 2. 6015E-14 5.2576E-16 2 8175E-12 Decay 4.7188E+08 1.3337E+10 1.9322E+09 1.2310E+09 3.4996E+09 2.0698E+07 2.5075E+09 W Xcelfnergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 115 of 7 Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Cs-138 2.9936E-02 4.1997E-04 9.4343E-04 4.6736E-05 5.4928E-05 6.5935E-06
- 1. 5993E-10 9. 3596E-13 3.6943E-13
- 5. 1306E-16 5. 7124E-16 1. 5582E-16 7 .2415E+14 4. 2380E+12 1. 6480E+12 2 .2887E+09 2.4928E+09 6.7999E+08 3.1811E+11 4.4642E+09 1.0050E+10 5.5450E+08 6.5753E+08 2.4966E+06 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 2.3413E+16 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 6.8159E-16 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.0000E+00 0.0000E+00 Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 2.5330E+16 0.0000E+00 0.0000E+00 2.5061E-17 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.9184E+15 0.0000E+00 0.0000E+00 1.9394E-18 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 4.3114E-03 4.3713E-03 Transported 0.0000E+00 0.0.000E+00 0.0000E+00 0.0000E+00 Thyroid 4.5346E-06 4.53538-06 Thyroid 1.2367E-06 1.2369E-06 Thyroid 7.5129E-06 7.5133E-06 Low Population Zone Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.1758E-03 1.1922E-03 Whole Body 5.8877E-04 5.8993E-04 TEDE 4.3842E-03 4.4441E-03 TEDE 1.1957E-03 1.2120E-03 TEDE 7.1109E-04 7.1225E-04 XcelEnergyl aclatewion No. GEN-PI-078 Revision No. I Page No. 116 of 277 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Cs-138 8.0000 Ci 1.0405E-05 5.9879E-03 2.5331E-04 7.2273E-06 2.2536E-04 1.3301E-04 1.1043E-03 1.3679E-01 1.8046E-03 2.4643E-03 7 .4410E-10 kg 5. 0429E-16 1.5262E-08
- 3. 0780E-14 2. 5515E-16 1.7973E-14 1.1081E-15 1.3185E-Il
- 7. 3079E-i0 4.0217E-12
- 9. 6499E-13 1.7585E-20 Atoms 3. 6589E+09 1. 0813E+17 2. 1807E+lI 1. 7661E+09 1. 2299E+II 7. 5829E+09 6. 0610E+13 3. 3090E+15 1. 8210E+13 4. 3047E+12 7. 6739E+04 Decay 4.5917E+I0
- 5. 1289E+12 3. 9223E+lI 7.8616E+10
- 5. 1638E+I1 2. 0505E+II 9. 5391E+lI 1. 1940E+14 1. 6187E+12 2.7870E+12
- 2. 2513E+09 Control Room Transport Time (h) 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump I.1152E+17 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 1.1081E-15 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.0000E+00 0.0000E+00 Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.0000E+00 5.8941E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported
- 3. 2240E+17 0.0000E+00 0.0000E+00 1.9004E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 2.1075E+17 0.0000E+00 0.0000E+00 4.9633E-15 Exclusion Area Boundary Doses: Time (h) -24.0000 Whole Body Delta dose (rem) 5.3961E-03 Accumulated dose (rem) 9.7674E-03 Transported 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Thyroid 1.0903E-06 5.6256E-06 Thyroid 3.4472E-08 TEDE 5. 4141E-03 9.8582E-03 TEDE 3.3232E-04 Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Whole Body 3. 3175E-04 SXcelfnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 117 of 277 Accumulated dose (rem) 1.5239E-03 1.2714E-06 1.5444E-03 Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 5.9358E-04
- 1. 1835E-03 Thyroid 1.6358E-06
- 9. 1492E-06 Control Room Compartment Nuclide Inventory:
Time (h)Kr- 8 3m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 24.0000 Ci 1.1174E-08 2.7552E-03 9.8054E-06
- 5. 4246E-10 2.0886E-06
- 5. 6010E-06 4.8884E-04 5.7703E-02 6.7232E-04 3.3478E-04 kg 5. 4157E-19 7.0225E-09 1.1915E-15 1.9151E-20
- 1. 6657E-16 4. 6660E-17 5. 8361E-12 3. 0827E-10 1.4984E-12 1.3109E-13 TEDE 6.2056E-04 1.3328E-03 Atoms 3. 9294E+06 4. 9754E+16 8 4416E+09 1. 3256E+05 1. 1399E+09 3. 1931E+08 2. 6829E+13 1. 3958E+15 6. 7845E+12 5. 8479E+1I Decay 4. 8695E+10 1. 2394E+13 5. 2387E+ll 8. 0041E+I0 6. 0147E+1I 2. 3178E+II 2. 2713E+12 2. 7920E+14 3. 6178E+12 4. 6472E+12 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 5.1184E+16 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 4.6660E-17 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.0000E+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 0.OOOOE+00 0.OOOOE+00
- 6. 7450E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 5.6288E+17 0.OOOOE+00 0.0000E+00
- 2. 0791E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.1139E+17 0.OOOOE+00 0.OOOOE+00
- 5. 6796E-15 Transported 0.0000E+00
- 0. 0000+00 0.OOOOE+00 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 75.0000 Whole Body Thyroid TEDE Xce Energy- I Calculation No. GEN-PI-078 Revisin No.Page No. 118 of 277 Delta dose (rem) 1.2037E-02 4.2328E-08 Accumulated dose (rem) 2.1805E-02 5.6679E-06 Low Population Zone Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.3206E-04 1.6560E-03 Whole Body 4.9299E-04 1.6765E-03 Thyroid 3. 0515E-10 1. 2717E-06 Thyroid 2.7286E-08
- 9. 1764E-06 1.2038E-02 2.1896E-02 TEDE 1.3206E-04 1.6764E-03 TEDE 4.9344E-04 1.8263E-03 Atoms 3. 3518E+16 2. 1288E+06 1.5976E+13 7.1230E+14
- 2. 3322E+12 8.0662E+09 Control Room Compartment Nuclide Inventory:
Time (h) = 75.0000 Kr-85 Kr-85m Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 1 .8561E-03 2. 4727E-09 2. 9109E-04 2. 9446E-02 2. 3112E-04 4. 6177E-06 kg 4.7309E-09
- 3. 0047E-19 3. 4752E-12 1.5731E-10
- 5. 1507E-13 1.8082E-15 Decay 2. 5947E+13 5. 3072E+ll 4. 5382E+12 5. 2824E+14 6. 0539E+12 5. 0911E+12 Group Inventory:
Atmosphere Sump 3.4248E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.2353E-22 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 6. 7525E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.1016E+18 0.OOOOE+00 0.OOOOE+00 2.0843E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.0668E+18 0.OOOOE+00 0.OOOOE+00
- 5. 6859E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Xcel EnergytCalculation No. GEN-PI-078 Revision No. 1 Page No. 119 of 277 Exclusion Area Boundary Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.0000E+00
- 2. 1805E-02 Low Population Zone Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 1.6560E-03 Whole Body 2.5603E-05
- 1. 7021E-03 Thyroid 0.OOOOE+00 5.6679E-06 Thyroid 0.OOOOE+00 1.2717E-06 Thyroid 4.0022E-14
- 1. 8519E-03 Atoms 7. 0442E+13 3. 1912E+10 1.3348E+12
- 3. 7154E+09 3. 4186E+06 Control Room Compartment Nuclide Inventory:
Time (h)Kr-85 Xe-131m Xe-133 Xe-133m Xe-135 96.0000 Ci 3.9008E-06
- 5. 8145E-07 5. 5182E-05 3. 6819E-07 1.9570E-09 kg 9. 9426E-12 6. 9418E-15 2. 9480E-13 8.2055E-16
- 7. 6635E-19 Decay 2.6670E+13 4.6507E+12
- 5. 3950E+14 6. 1400E+12 5. 0925E+12 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (:atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 7.1812E+13 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.5287E-27 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0'.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 6. 7525E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Transported 1.1016E+18 0.OOOOE+00 0.OOOOE+00
- 2. 0843E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Pathway Filtered 1.1009E+18 0.OOOOE+00 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 SXcelfnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 120 of 277 Aerosols (kg)5.6859E-15 0.OOOOE+/-00 Exclusion Area Boundary Doses: Time (h) = 720.0000 Whole Body Delta dose (rem) 0.0000E+00 Accumulated dose (rem) 2.1805E-02 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 1.6560E-03 Whole Body 3. 2014E-08 1. 7021E-03 Thyroid 0.OOOOE+00 5.6679E-06 Thyroid 0.OOOOE+00 1.2717E-06 Thyroid 3. 3202E-19 9.1764E-06 TEDE 0.OOOOE+00 2.1896E-02 TEDE O.OOOOE+00 1.6764E-03 TEDE 3. 2014E-08 1. 8519E-03 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 1.9491E-66 0.OOOOE+00 O..OOOOE+00 O.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.0633-173 0.OOOOE+00 1-131 (Thyroid-)
1-131 (ICRP2 Thyroid)O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 6. 7525E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.1016E+18 0.OOOOE+00 0.OOOOE+00 2.0843E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.1010E+18 0.OOOOE+00 0.OOOOE+00
- 5. 6859E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 839 XdeI Energy] Calculation No. GEN-PI-078 Revision No. 1 Page No. 121 of 7###############-#########3#################################S########
1-131 Summary####################################ý################################
Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4.300 4.600 4.900 5.200 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7.600 7.900 8.000 8.300 8. 600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 75.000 96.000 720.000 RCS 1-131 (Curies)0.OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0.OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 Environment 1-131 (Curies)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room 1-131 (Curies)0. 0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0 OOOOE+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0 .0000E+00 0 .0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0. 0000E+00 0. 0000E+00##########4######################%#################4##############*###
Cumulative Dose Summary#################ý#4#################################################
Exclusion Area Bounda Low Population Zone Control Room Time Thyroid TEDE Thyroid TEDE Thyroid TEDE (hr) (rem) (rem) (rem) (rem) (rem) (rem)0.000 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.004 2.3555E-12 1.3234E-06 6.4240E-13 3.6093E-07 6.1077E-14 9.4776E-10 0.083 7.5070E-10 5.9938E-05 2.0474E-10 1.6347E-05 4.1816E-10 1.1623E-06 XcelEnerg Calculation No. GEN-PI-078 Revision No. I Page No. 122 of 0.400 0.700 1.000 1.300 1. 600 1.900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4.300 4.600 4.900 5.200 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7.600 7.900 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 75.000 96.000 720.000 1.6667E-07 4.5031E-07 7.7083E-07
- 1. 0915E-06 1.3977E-06
- 1. 6841E-06 1.9499E-06 2.1959E-06 2.4233E-06 2.6336E-06 2.8283E-06 3.0087E-06
- 3. 1758E-06 3.3307E-06 3.4745E-06 3.6079E-06
- 3. 7317E-06 3.8467E-06 3.9534E-06 4.0525E-06 4.1445E-06 4.2300E-06
- 4. 3093E-06 4. 3831E-06 4 4515E-06 4. 5151E-06 4. 5353E-06 4. 5929E-06 4. 6465E-06 4. 6962E-06 4. 7423E-06 4. 7852E-06 4 8251E-06 4 8621E-06 4 .8964E-06 5. 6256E-06 5. 6679E-06 5. 6679E-06 5. 6679E-06 2.9770E-04 5.2299E-04 7.4324E-04
- 9. 5661E-04 1. 1627E-03 1.3617E-03 1.5539E-03 1.7399E-03
- 1. 9201E-03 2.0950E-03 2.2649E-03 2.4302E-03
- 2. 5912E-03 2.7483E-03
- 2. 9017E-03 3. 0516E-03 3. 1983E-03 3.3420E-03 3.4828E-03
- 3. 6210E-03 3.7567E-03
- 3. 8901E-03 4. 0213E-03 4. 1503E-03 4.2775E-03 4.4028E-03 4 .4441E-03 4.5671E-03 4.6885E-03 4.8083E-03 4.9267E-03 5.0437E-03 5.1594E-03 5.2739E-03 5.3872E-03 9.8582E-03 2.1896E-02 2.1896E-02 2.1896E-02 4.5457E-08 1.2281E-07 2 .1023E-07 2.9769E-07
- 3. 8118E-07 4.5930E-07
- 5. 3180E-07 5.9888E-07 6.6090E-07 7.1827E-07
- 7. 7136E-07 8.2054E-07
- 8. 6612E-07 9.0838E-07 9.4759E-07 9.8397E-07 1.0177E-06 1.0491E-06 1.0782E-06
- 1. 1052E-06 1. 1303E-06 1. 1536E-06 1. 1753E-06 1. 1954E-06 1.2141E-06 1.2314E-06 1.2369E-06 1.2387E-06 1.2404E-06 1.2420E-06 1.2434E-06 1.2448E-06 1.2461E-06 1.2472E-06 1.2483E-06 1.2714E-06 1.2717E-06 1.2717E-06 1.2717E-06 8.1192E-05 1.4263E-04 2.0270E-04 2.6089E-04
- 3. 1710E-04 3. 7136E-04 4.2379E-04 4.7452E-04 5.2366E-04
- 5. 7135E-04 6. 1769E-04 6.6277E-04 7.0670E-04 7.4954E-04
- 7. 9137E-04 8.3226E-04 8.7227E-04
- 9. 1145E-04 9.4987E-04 9.8756E-04 1.0246E-03 1.0609E-03 1.0967E-03
- 1. 1319E-03 1. 1666E-03 1.2008E-03
- 1. 2120E-03 1. 2196E-03 1.2270E-03 1.2343E-03
- 1. 2416E-03 1.2488E-03 1.2559E-03 1.2629E-03 1.2698E-03 1.5444E-03 1.6764E-03 1.6764E-03 1.6764E-03 1.7300E-07 4.8843E-07 8.7239E-07 1.2899E-06 1.7236E-06 2.1635E-06 2.5956E-06
- 3. 0019E-06 3.3882E-06 3.7559E-06 4.1053E-06 4.4366E-06 4.7501E-06 5.0462E-06 5.3255E-06 5.5885E-06 5.8359E-06 6.0683E-06 6.2864E-06 6.4909E-06 6.6825E-06
- 6. 8619E-06 7.0296E-06 7.1864E-06 7.3330E-06 7.4698E-06
- 7. 5133E-06 7.6325E-06 7.7367E-06 7.8292E-06 7.9118E-06 7.9858E-06
- 8. 0521E-06 8. 1117E-06 8.1653E-06
- 9. 1492E-06 9. 1764E-06 9. 1764E-06 9. 1764E-06 1.4979E-05 3.4008E-05 5.7002E-05 8.2938E-05 1.1114E-04
- 1. 4110E-04 1. 7210E-04 2.0293E-04 2.3358E-04
- 2. 6401E-04 2. 9417E-04 3.2403E-04 3.5355E-04 3.8273E-04 4.1153E-04 4.3996E-04
- 4. 6801E-04 4.9568E-04 5.2297E-04 5.4989E-04 5.7644E-04 6.0263E-04 6.2848E-04 6.5399E-04
- 6. 7917E-04 7.0403E-04 7.1225E-04 7.3605E-04
- 7. 5841E-04 7.7950E-04 7.9944E-04 8.1836E-04 8.3635E-04 8.5349E-04 8.6986E-04 1.3328E-03 1.8263E-03
- 1. 8519E-03 1. 8519E-03 4#####W##########################w######o-H#ouro##e################s Worst Two-Hour Doses####################################################################
Exclusion Time (hr)0.0 Area Boundary Whole Body Thyroid (rem) (rem)1.3982E-03 1.7727E-06 TEDE (rem)1.4257E-03 XcI~erylCalculation No. GEN-PI-078 Revision No. I Page No. 123 of 277 Attachment 13.4 RADTRAD Output File PMSINPI01.o0 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:29:26###S##################Fil#e SSSSSSinformationSSSSSSSSSSSSSSSSSSSSSSS SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS File information SSSSSSSSSSSSSSSSSSSSSSSSSSSSSS#SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS######
Plant file Inventory file Release file Dose Conversion
= G:\Radtrad 3.03\Input\PI\GEN-PI-078 Rl\PMSINPIOl.psf
= g:\radtrad 3.03\defaults\pimspre-def.txt
= g:\radtrad 3.03\defaults\pingpiodine_rft.txt file = g:\radtrad 3.03\defaults\pingp-fgll&12.txt 55555# ## #5##55###### ### # # # 4#### ## # ## ## # #* 4## # # # 44 ## # # # # # # ## # # # #S S ##### # # # # ###S##Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Pre-accident Iodine Spike with Release From Intact SG With Tube Uncovered for 2 Hours Nuclide Inventory File: g:\radtrad 3.03\defaults\pimspre def.txt Plant Power Level: 1.8520E+03 Compartments:
4 Compartment 1: RCS 3 5.2900E+03 0 0 0 0 0 Compartment 2: Intact SG.3 1.7210E+03 0 0 0 0 0 Compartment 3: Iodine S & XceIfnergyl Calculation No. GEN-PI-078 T Revision No. 1 Page No. 124 of 277 1 Environment 2 0.OOOOE+00 0 0 0 0 0 Compartment 4: Control Room 1 6.1315E+04 0 0 1 0 b Pathways: 4 Pathway 1: RCS to Intact SG 1 2 2 Pathway 2: Intact SG to 2 3 2 Environment Pathway 3: Environment 3 4 2 to Control Room Pathway 4: Control Room 4 3 2 to Environment End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.OOOOE+00 g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp iodine rft.txt 0.OOOOE+00 1 0.OOOE+00 9.7000E-01 3.OOO0E-02 1.O000E+00 Overlying Pool: 0 0.0000E+00 0 0 XceI EnergyFCalculation No. GEN-PI-078 Revision No. I Page No. 125 of 277I 0 Compartments:
4 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 0 0 0 Compartment 3: 0 1 0 0 0 0 0 0 0 Compartment 4: 1 1 0 0 1 3. 6000E+03 3 C.CCCCE+CC C.CCCCE+CC C.CCCCE+CC C.CCCCE+0C 8.3300E-02 9.9000E+01 9.5000E+01 9.5000E+01 7.2000E+02 C.CCCCE+CC C.CCCCE+CC C.CCCCE+0C 0 0 Pathways: 4 Pathway 1: 0 0 0 0 0 SXceIEnergy~
Calculation No. GEN-PI-078 Revision No. I Page No. 126 of 277 1 2 0.OOO0E+00 4.5500E+01 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 6 C.0O00E+00 2.0000E+00 8.OOOE+00 2.4000E+01 9.6000E+01 7.2000E+02 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 C..000E+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 4: 0 0 0 0 0 1 3 C.0000E+00 8.3300E-02 1.8800E-02 C.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 0.0000E+00 O.0000E+00 o.0000E+00
- 3. 9420E+01 2. 3610E+00 1.7340E+00 1.3980E+00 C.0000E+00 C.0000E+00 0.0000E+00 0.00OOE+00 0.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 2.O000E+03 3.0000E+02 C.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 2.OOOOE+03 3.OOOOE+02 2.0000E+00 0.CCCCE+00 C.CC00E+00 3.CCCCE+00 C.0000E+00 0.0000E+00 XceIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 127 of 277 7.2000E+02 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOE+00 0 0 0 0 0 0 Dose Locations:
3 Location 1: Exclusion Area Boundary 3 1 2 C.0000E+00 7.2000E+02 1 2 C.0000E+00 7.2000E+02 0 6.4900E-04 C.0000E+00 3.5000E-04 C.0000E+00 Location 2: Low Population Zone 3 1 5 C.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 1 4 C.00CCE+00 8.00CCE+00
- 2. 4000E+01 7.2000E+02 0 Location 3: Control Room 4 0 1 2 C.0000E+00 7.2000E+02 1 1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 C.0000E+00 3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 3.5000E-04 C.0000E+00 4 C.0000E+00 1.0000E+00 2.4000E+01 6.0C00E-01 9.6000E+01 4.0000E-01 7.2000E+02 C.CCCCE+00 Effective Volume Location: 1 6 C.CCCCE+00 3.C700E-02 2.CCCCE+00 2.4900E-02 XceI I Calculation No. GEN-PI-078 Revision No. I Page No. 128 of 277 8.0OOOE+00 1.1200E-02 2.4000E+01 7.7800E-03 9.6000E+01 6.1700E-03 7.2000E+02 0.0000E+00 Simulation Parameters:
6 O.OOOE+00 1.OOOE-01 2.OOO0E+00 5.O000E-01 8.OOOOE+00 1.OOOOE+00 2.4000E+01 2.OOOE+00 9.6000E+01 4.OOOOE+00 7.2000E+02 O.OOOE+00 Output Filename: G:\Radtrad 3.o3 1 1 1 0 0 End of Scenario File S 6XceIEnergy Calculation No. GEN-Pl-078 Revision No. I Page No. 129 of 277#################4#####################################################4 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:29:26#4##########4#######4##4#########*######4#4#########4###4#######4#########
Plant Description
- m##e######r#f#####Ni4###4#######f##4i######4#########
Number of Nuclides = 60 Inventory Power =Plant Power Level =Number of compartmer 1.OOOOE+00 MWth 1.8520E+03 MWth its = 4 Compartment information Compartment number 1 (Source term fraction =Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: RCS to Intact SG Compartment number 2 Name: Intact SG Compartment volume = 1.7210E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: RCS to Intact SG Exit Pathway Number 2: Intact SG to Envi 1.OOOOE+00 ronment Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 2: Intact SG to Environment Inlet Pathway Number 4: Control Room to Environment Exit Pathway Number 3: Environment to Control Room Compartment number 4 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 4 Inlet Pathway Number 3: Environment to Control Room Exit Pathway Number 4: Control Room to Environment Total number of pathways 4 XceI Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 130 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:29:26####*######*###################################*##4######################
Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 0.OOOOE+00 1.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 EARLY IN-VESSEL 0.0000 hrs 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 RELEASE MASS (gm)0 OOOE+00 3. 756E-02 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Inventory Power =1852. MWt Nuclide Name 1-131 1-132 1-133 1-134 1-135 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Specific 2 2 2 2 2 Inventory (Ci/MWt)2.076E+00 2.280E+00 3.159E+00 4.739E-01 1.791E+00 half Whole Body life DCF (s) (Sv-m3/Bq-s) 6.947E+05 1.820E-14 8.280E+03 1.120E-13 7.488E+04 2.940E-14 3.156E+03 1.300E-13 2.380E+04 8.294E-14 Inhaled Thyroid (Sv/Bq)2 .920E-07 1.740E-09 4. 860E-08 2.880E-10 8. 460E-09 Inhaled Effective (Sv/Bq)8.890E-09 1.030E-10 1.580E-09 3.550E-11 3.320E-10 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 Daughter Fraction Daughter Fraction none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 Xe-133 0.97 none 0.00 Xe-135 0.85 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 none 0.00 Iodine fractions Aerosol Elemental Organic COMPARTMENT DATA 0.OOOOE+00
= 9.7000E-01
= 3.OOOOE-02 Compartment number 1: RCS Xce E ery]Calculation No. GEN-PI-078 Revision No. I Page No. 131 of 277 Compartment number 2: Intact SG Compartment number 3: Environment Compartment number 4: Control Room Compartment Filter Data Time (hr)0.OOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Aerosol 0.0000E+00 9.9000E+01 0.OOOOE+00 Efficiencies Elemental 0.0000E+00 9.5000E+01 0.0000E+00
(%)Organic 0.0000E+00
- 9. 5000E+01 0.0000E+00 PATHWAY DATA Pathway number 1: RCS to Intact SG Pathway Filter: Removal Data Time (hr)0.0000E+00
- 4. 5500E+01 Flow Rate (cfm)1.8800E-02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 2: Intact SG to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 2.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 Flow Rate (cfm)3. 9420E+01 2 .3610E+00 1.7340E+00 1.3980E+00 o.0000E+00 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 O.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 3: Environment to Control Room Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.OOOOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Pathway number 4: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 SýXceEnery Calculation No. GEN-PI-078 Revision No. I Page No. 132 of 277 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr)0.OOOOE+00 7.2000E+02 Location Breathing Time (hr)C.0000E+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 C.0000E+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 0.0000E+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr) X/0.0000E+00 8.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 Location Breathing Ra Time (hr) Brc 0.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 Location Control Room Location X/Q Data Time (hr) X/C.0000E+00 2.0000E+00 8.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 Location Breathing Ra Time (hr) Brc C.0000E+00 7.2000E+02 Location Occupancy Fa Time (hr) Occ C.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 Q (s
- m^-3)1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 C.0000E+00 te Data eathi[ng Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 C.0000E+00 is in compartment 4 Q (s
- m^-3)3. 070E-02 2 .4900E-02 1 .1200E-02 7 .7800E-03 6. 1700E-03.0000E+00 te Data eathing Rate (m^3
- sec^-l)3.5000E-04 C.0000E+00 ctor Data cupancy Factor 1.0000E+00 6.COCCE-01 4.0OCCE-01 C.0000E+00 USER SPECIFIED TIME STEP DATA -SUPPLEMENTAL TIME STEPS Time C.0000E+00 2.0000E+00 8.0000E+00 Time step 1 .COOOE-01 5. OCOCE-01 1.0000E+00 t), XceEnergy]
Calculation No. GEN-PI-078 T Revision No. I Page No. 133 of 277 2.4000E+01
- 9. 6000E+01 7.2000E+02 2.OOOOE+00 4.OOOOE+0o 0.OOO0E+00 XceIEnergylCalculation No. GEN-PI-078 T Revision No. 1 Page No. 134 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:29:26 t#### ## ## ## ##S#####* 4#### ## # #### ## ## ## ### ~# # S#####* # ## #66#6### ####################################################################
Dose, Detailed model and Detailed Inventory Output##########################################5####566###############
Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 1.6757E-09 1.6757E-09 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)'Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 4.5702E-10 4.5702E-10 Whole Body 7.0773E-12 7.0773E-12 Thyroid 7.6653E-07 7.6653E-07 Thyroid 2.0905E-07 2.0905E-07 Thyroid 9. 1477E-08 9. 1477E-08 TEDE 2.5581E-08 2.5581E-08 TEDE 6.9766E-09 6.9766E-09 TEDE 2.8599E-09 2.8599E-09 Atoms 2. 6071E+09 3.4093E+07 4.2760E+08 2.6962E+06
- 7. 7021E+07 4.2575E+04
- 2. 1153E+04 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-133 Xe-135 0.0036 Ci 7.0310E-08 7.7136E-08 1.0698E-07 1.6005E-08 6.0636E-08 1.7600E-12 1.2110E-11 kg 5. 6713E-16 7.4729E-18
- 9. 4436E-17 5.9995E-19 1 .7266E-17 9. 4027E-21 4.7420E-21 Decay 2.3482E+04
- 2. 5771E+04 3.5729E+04 5 .3504E+03 2.0253E+04
- 1. 1260E-01 7.7468E-01 Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 6.9045E+04 0.OOOOE+00 3.0541E+09 0.0000E+00 9.4456E+07 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 i XcelEnergylCalculation No. GEN-PI-078 Revision No. I Page No. 135 of 277 I Dose Effective (Ci/cc) 1-131 (Thyroid)Dose Effective (Ci/cc)' 1-131 (ICRP2 Thyroid)Total I (Ci)5.2036E-17
- 6. 1629E-17 3. 3106E-07 Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Deposition Surfaces 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Transported 1.2868E+04 3.0596E+09 9.4626E+07 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 2.7431E+01 5.7929E+06 1.7916E+05 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 0.0833 Whole Body Delta dose (rem) 2.4834E-06 Accumulated dose (rem) 2.4851E-06 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.1366E-03 1.1373E-03 Thyroid 3.0997E-04 3.1018E-04 Thyroid 3.9822E-03 3.9823E-03 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 6.7729E-07 6.7774E-07 Whole Body 3.0793E-07 3.0794E-07 TEDE 3.7928E-05 3.7953E-05 TEDE 1.0344E-05 1.0351E-05 TEDE 1.2450E-04 1.2450E-04 Atoms 3. 6742E+12 4. 6920E+10 6. 0119E+ll 3.5688E+09
- 1. 0767E+ll 1. 1973E+07 1.6045E+09 Control Room Compartment Nuclide Inventory:
Time (h) 0.0833 1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Ci 9.9088E-05
- 1. 0616E-04 1.5041E-04 2.1184E-05 8.4767E-05
- 2. 1815E-10 6.6330E-08 kg 7.9926E-13 1.0285E-14 1.3277E-13
- 7. 9410E-16 2.4137E-14
- 2. 6044E-18 3.5436E-16 Decay 1 .0521E+09 1 1407E+09 1 .5989E+09 2 .3213E+08 9. 0368E+08 7 .7361E+01 2 .3547E+04 XceEnergY Calculation No. GEN-PI-078 Revision No. I Page No. 136 of 277 Xe-133m Xe-135 Xe-135m 4.7536E-09 4.5542E-07 2.8452E-06 1.0594E-17 1.7833E-16
- 3. 1235E-17 4.7969E+07 7.9552E+08 1.3933E+08 1 .6871E+03 1. 6154E+05 9. 1624E+05 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 2.5993E+09 0.OOOOE+00 4.3006E+12 0.OOOOE+00 1.3301E+11 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)7. 3279E-14 8. 6699E-14 4. 6160E-04 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 9.1720E+07 4.5396E+12 1.4040E+ll 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 4.6460E+06 2.2944E+11 7.0962E+09 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 2.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 5.8959E-04 5.9208E-04 Transported 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Thyroid 3.3445E-01 3.3559E-01 Thyroid 9.1213E-02 9.1523E-02 Thyroid 1.0625E+00 1.0665E+00 Low Population Zone Doses: TEDE 1.0994E-02 1.1032E-02 TEDE 2.9984E-03 3.0087E-03 Time (h) = 2.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 2.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.6080E-04 1.6148E-04 Whole Body 6.6435E-05 6.6743E-05 TEDE 3. 3115E-02 3.3239E-02 4 i XceI nr:: Calculation No. GEN-PI-078 Revision No. I Page No. 137 of 277 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m-2.0000 Ci 8. 7198E-04 5.2792E-04 1.2503E-03
- 4. 1241E-05 6. 1434E-04 1.4763E-07 4.3739E-05 3.1058E-06 3.0357E-04 2.0717E-04 kg 7. 0335E-12 5.1144E-14
- 1. 1037E-12 1.5459E-15 1.7493E-13 1.7625E-15 2 .3367E-13 6.9218E-15 1.1887E-13 2.2743E-15 Atoms 3.2333E+13 2.3333E+11 4.9974E+12 6.9476E+09
- 7. 8035E+11 8. 1023E+09 1. 0580E+12 3.1341E+10
- 5. 3027E+11 1. 0145E+10 Decay 1.4822E+11 1.1308E+11 2.1727E+11 1 .3566E+10 1 .1269E+11 1.2900E+07 3.8456E+09 2.7372E+08 2.714'8E+10 3.0862E+10 Control Room Transport Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 1.6379E+12 0.0000E+00 3.7201E+13 0.0000E+00 1.1505E+12 0.0000E+00 0.0000E+00 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)6.3416E-13 7.3550E-13 3.3057E-03 Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00 1.5321E+14 4.7384E+12 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 1.6393E+12 2.0468E+14 6.3303E+12 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 3.0178E+11 1.3669E+13 4.2275E+11 0.0000E+00 Transported 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Thyroid 3.7081E-01 7.0639E-01 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 3.7664E-04 9.6872E-04 TEDE 1.1849E-02 2.2881E-02 Low Population Zone Doses:
XceIEfn roy n No. GEN-PI-078 Revision No. I Page No. 138 of 277 Time (h) = 8.0000 Whole Body Delta dose (rem) 1.0272E-04 Accumulated dose (rem) 2.6420E-04 Control Room Doses: Thyroid 1. 0113E-01 1. 9265E-01 Thyroid 1.3007E+00 2.3672E+00 Time (h) = 8.0000 Whole Body Delta dose (rem) 5.6995E-05 Accumulated dose (rem) 1.2374E-04 Control Room Compartment Nuclide Inventory:
TEDE 3. 2316E-03 6.2403E-03 TEDE 4.0325E-02 7.3565E-02 Atoms 1. 1735E+13 1. 4186E+10 1. 5174E+12 2. 2425E+07 1. 5425E+ll 2. 4785E+10 2. 9852E+12 8. 5862E+10 9. 9265E+lI 2. 0814E+09 Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 8.0000 Ci 3. 1647E-04 3.2096E-05 3.7962E-04 1.3311E-07
- 1. 2143E-04 4.5160E-07 1.2341E-04 8.5087E-06 5.6827E-04 4.2503E-05 kg 2.5527E-12 3.1095E-15
- 3. 3511E-13 4. 9899E-18 3.4579E-14
- 5. 3915E-15 6. 5929E-13 1. 8963E-14 2.2252E-13
- 4. 6660E-16 Decay 3.2349E+11
- 1. 6032E+1I 4.4574E+1I 1.5344E+10 2.0313E+1I 1.8919E+08 5 .3769E+10 3 .7512E+09 3. 0024E+II 6. 6881E+10 Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 4.0906E+12 0.OOOOE+00 1.3018E+13 0.OOOOE+00 4.0262E+11 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)2. 2080E-13 2. 4720E-13 8.4975E-04 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 3.4083E+14 1.0541E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 7.8793E+12 3.8513E+14 1.1911E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Pathway Filtered 4.0865E+12 3.0127E+13 9.3177E+II Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 XceIEnergy Calculation No. GEN-PI-078 Revision No. I aPge No. 139 of 277 Aerosols (kg)0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 1.1070E-03 Accumulated dose (rem) 2.0757E-03 Low Population Zone Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 6.8056E-05 Accumulated dose (rem) 3.3225E-04 Thyroid 1.9638E+00 2.6702E+00 Thyroid 6.2090E-02
- 2. 5474E-01 Thyroid 2. 7515E+00 5. 1187E+00 TEDE 6. 1521E-02 8.4402E-02 TEDE 1.9782E-03 8 .2185E-03 Control Room Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 8.1012E-05 Accumulated dose (rem) 2.0475E-04 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 24.0000 Ci 2.3965E-04 2.0727E-07 1.7865E-04
- 1. 8192E-05 1.5371E-06
- 3. 3471E-04 2.1401E-05 4.9986E-04
- 1. 0315E-05 kg 1 .9330E-12 2. 0080E-17 1.5770E-13 5.1802E-15
- 1. 8351E-14 1.7881E-12 4 .7696E-14 1. 9574E-13 1. 1324E-16 TEDE 8.4736E-02 1.5830E-01 Atoms 8. 8862E+12 9. 1610E+07 7. 1406E+ll 2. 3108E+10 8. 4362E+10 8. 0965E+12 2.1596E+ll
- 8. 7316E+11 5. 0515E+08 Decay 7 .2977E+ll 1.6737E+lI 8.2409E+ll 2.7414E+ll
- 1. 9918E+09 4.8168E+lI 3.1959E+10 1 .3466E+12 1.0420E+ll Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 9.2705E+12 0.OOOOE+00 9.3348E+12 0.OOOOE+00 2.8870E+1I 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 5546E-13 1. 6641E-13 4.3669E-04 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 7.4353E+14 2.2996E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 4.1096E+13 8.2031E+14 2.5370E+13 XceIEnergyj Calculation No. GEN-PI-078 Revision No. I Page No. 140 of 277 Aerosols (kg)0.OOOOE+00 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 3.1101E+13 6.5451E+13 2.0243E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 45.5000 Whole Body Delta dose (rem) 1.0867E-03 Accumulated dose (rem) 3.1624E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Thyroid 3.1090E+00 5.7791E+00 Thyroid 2.2413E-02 2.7716E-01 Thyroid 1.8245E+00 6.9433E+00 Low Population Zone Doses: Time (h) = 45.5000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Whole Body 1.1922E-05 3.4417E-04 Time (h) = 45.5000 Whole Body Delta dose (rem) 3.4189E-05 Accumulated dose (rem) 2.3894E-04 TEDE 9. 6301E-02 1.8070E-01 TEDE 6.9835E-04 8 .9169E-03 TEDE-5.5914E-02 2.1421E-01.
Atoms 6. 6435E+12 1. 1355E+05 2. 8170E+11 1. 9581E+09 1. 3678E+11 9. 7218E+12 2. 3280E+ll 2. 2902E+lI 4 1827E+07 Control Room Compartment Nuclide Inventory:
Time (h) =1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 45.5000 Ci 1. 7916E-04 2. 5691E-10 7.0478E-05
- 1. 5416E-06 2.4922E-06
- 4. 0189E-04 2.3070E-05 1.3111E-04 8 .5413E-07 kg 1.4452E-12 2.4889E-20 6.2215E-14 4.3896E-16
- 2. 9753E-14 2. 1471E-12 5. 1414E-14 5. 1340E-14 9. 3766E-18 Decay 1.1983E+12 1.6742E+I1 1.0786E+12 2.8797E+11 7.1050E+09 1.4227E+12 8.8884E+10
- 2. 0351E+12 1.1372E+ll Control Room Transport Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Group Inventory:
Atmosphere Sump 1.0320E+13 0.OOOOE+00 6.7193E+12 0.OOOOE+00 2.0781E+II 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 0997E-13 1. 1411E-13 2. 5118E-04 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.1903E+15 0.OOOOE+00 3.6814E+13 XCelEnergy]
Calculation No. GEN-PI-078 Revision No. 1 Page No. 141 of 277 Aerosols (kg)0.OOOOE+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Transported 9.8108E+13 1.3075E+15 4.0437E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.5702E+13
- 1. 0464E+14 3.2364E+12 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 6.8790E-04 Accumulated dose (rem) 3.8503E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Thyroid 2.7057E+00 8.4848E+00 Thyroid 1.9506E-02 2.9666E-01 Thyroid 1.5905E+00 8.5338E+00 TEDE 8.3306E-02 2.6401E-01 Low Population Zone Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 7.5467E-06 Accumulated dose (rem) 3.5172E-04 Control Room Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 1.9106E-05 Accumulated dose (rem) 2.5804E-04 Control Room Compartment Nuclide Inventory:
TEDE 6. 0317E-04 9. 5201E-03 TEDE 4.8585E-02
- 2. 6280E-01 Atoms 4. 8027E+ll 4.5373E+09 8.5086E+05
- 2. 7105E+10 1. 0526E+12 1. 8659E+10 6.8605E+08
- 1. 8731E+04 Time (h)1-131 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 96.0000 Ci 1.2952E-05
- 1. 1352E-06 6. 6985E-10 4.9387E-07
- 4. 3513E-05 1.8491E-06 3.9275E-07
- 3. 8250E-10 kg 1.0447E-13
- 1. 0021E-15 1. 9074E-19 5.8962E-15 2.3247E-13 4.1209E-15
- 1. 5379E-16 4. 1991E-21 Decay 1.6183E+12 1.1903E+12 2.8930E+ll
- 1. 6636E+10 2 .6569E+12 1.5366E+Il 2 .2073E+12 1.1459E+ll Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Group Inventory:
Atmosphere Sump 1.0990E+12 0.OOOOE+00 4.7026E+11 0.OOOOE+00 1.4544E+10 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)7. 5686E-15 XceI nergy Cculation No. GEN-PI-078 Revision No. I age No. 142 of 277 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid)Total I (Ci)7. 6346E-15 1.4088E-05 Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00 1.5911E+15 4.9210E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.6065E+14 1.7377E+15 5.3742E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic .I (atoms)Aerosols (kg)Pathway Filtered 1.5616E+14 1.3980E+14 4.3238E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 3.8503E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00 8.4848E+00 Thyroid 0.OOOOE+00 2.9666E-01 Thyroid 2.1715E-03 8.5360E+00 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 3.5172E-04 Whole Body 4.2721E-08 2.5809E-04 TEDE 0.OOOOE+00
- 2. 6401E-01 TEDE 0.0000E+00
- 9. 5201E-03 TEDE 6. 6218E-05 2.6287E-01 Control Room Compartment Nuclide Inventory:
Time (h) 720.0000 Control Room Transport Time (h) 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 1.1354E-69 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)0.OOOOE+00 SXcelEnergy'l Calculation No. GEN-PI-078 Revision No. I Page No. 143 of 277 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid)Total I (Ci)O.OOOOE+00 O.OOOOE+00 Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Deposition Surfaces 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 1.5912E+15
- 4. 9214E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Transported
- 1. 6065E+14 1.7377E+15 5.3742E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered Transported 1.5725E+14 0.OOOOE+00 1.3981E+14 0.OOOOE+00 4.3241E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 840 1-131 Summary Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 RCS 1-131 (Curies)5.9332E+02 3.8447E+03 3.8435E+03 3.8389E+03 3.8345E+03 3.8302E+03 3.8258E+03 3.8214E+03 3.8171E+03 3.8156E+03 3.8112E+03 3.8069E+03 3.8026E+03 3.7982E+03 3.7939E+03 3.7896E+03 3.7852E+03 3.7809E+03 3.7766E+03 3.7723E+03 3.7680E+03 Intact SG 1-131 (Curies)3.5134E-05 1.4732E-03 6.3190E-02 2.5104E-01 3.6707E-01 4.4357E-01 4.9395E-01 5.2704E-01 5.4870E-01 5.5409E-01 7.8082E-01 1.0015E+00 1.2163E+00 1.4254E+00 1.6288E+00 1.8268E+00 2.0195E+00 2.2071E+00 2.3896E+00 2.5671E+00 2.7399E+00 Environment 1-131 (Curies)8.9424E-09 2.4306E-06 3.6055E-03 7.4953E-02 2.0401E-01 3.7218E-01 5.6614E-01 7.7705E-01 9.9909E-01 1.0749E+00 1.0914E+00 1.1134E+00 1.1408E+00 1.1734E+00 1.2111E+00 1.2538E+00 1.3013E+00 1.3534E+00 1.4102E+00 1.4714E+00 1.5369E+00 j XceIEnergy]
Calculation No. REN-Pe1078 2 Revision No. I I Page No. 144 of 277 5. 600 5. 900 6.200 6.500 6.800 7. 100 7.400 7.700 8. 000 8.300 8. 600 8. 900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 3.7637E+03
- 3. 7594E+03 3. 7551E+03 3.7508E+03 3.7465E+03
- 3. 7423E+03 3. 7380E+03 3. 7337E+03 3.7295E+03
- 3. 7252E+03 3. 7210E+03 3. 7167E+03 3. 7125E+03 3. 7082E+03 3. 7040E+03 3. 6998E+03 3. 6956E+03 3. 5092E+03 3. 2335E+03 2. 6970E+03 2. 8669E+02 2.9080E+00 3.0716E+00 3.2307E+00 3.3855E+00
- 3. 5361E+00 3.6826E+00 3.8251E+00 3.9637E+00 4.0986E+00 4.2567E+00 4.4116E+00 4.5633E+00 4.7118E+00 4.8572E+00 4.9996E+00
- 5. 1390E+00 5. 2755E+00 9. 1546E+00 1 .2175E+01 8. 6644E-01 9. 2100E-02 1.6067E+00 1.6805E+00 1.7583E+00 1.8400E+00 1.9254E+00
- 2. 0145E+00 2 .1072E+00 2.2034E+00 2.3029E+00 2.3787E+00 2.4573E+00 2.5387E+00 2.6228E+00 2.7095E+00 2.7989E+00 2.8908E+00 2.9852E+00
- 9. 172 6E+00 2 .0726E+01 3.1239E+01
- 3. 1239E+01 Time (hr)0.000 0. 004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.000 2.300 2. 600 2. 900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8. 900 Control Room 1-131 (Curies)2.5906E-10 7.0310E-08 9.9088E-05 2.3488E-04 4.3112E-04 5.9653E-04 7.1762E-04 8.0138E-04 8.5776E-04 8.7198E-04 3.2869E-04 1.5842E-04 1.1285E-04 1.0877E-04 1.1830E-04 1.3209E-04 1.4703E-04 1.6208E-04 1.7690E-04 1.9137E-04 2.0547E-04 2.1920E-04 2.3256E-04 2.4556E-04 2.5821E-04 2.7051E-04 2.8248E-04 2.9412E-04 3.0545E-04 3.1647E-04 1.7939E-04 1.3618E-04 1.2437E-04 SXceItne ,rgy~ Calculation No. GEN-PI-078 Revision No. I Page No. 145 of 7 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 1. 2304E-04 1 .2515E-04 1. 2838E-04 1. 3192E-04 1. 3551E-04 2. 3965E-04 1. 7916E-04 1. 2952E-05 0 OOOOE+00 Cumulative Dose Summary Exclusion Area Bounda Low Population Zone Time (hr)0.000 0. 004 0.083 0. 400 0.700 1. 000 1.300 1. 600 1. 900 2.000 2.300 2.600 2. 900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 Thyroid (rem)0.OOOOE+00 7.6653E-07
- 1. 1373E-03 2.3599E-02
- 6. 4121E-02 1. 1679E-01 1. 7737E-01 2 .4308E-01 3. 1208E-01 3. 3559E-01 3. 4069E-01 3. 4750E-01 3. 5594E-01 3. 6597E-01 3. 7755E-01 3. 9061E-01 4. 0512E-01 4.2103E-01 4.3829E-01 4.5687E-01 4.7672E-01 4.9780E-01
- 5. 2008E-01 5.4351E-01
- 5. 6806E-01 5.9369E-01 6.2037E-01 6.4807E-01 6.7676E-01
- 7. 0639E-01 7.2891E-01 7.5223E-01 7.7633E-01 8.0119E-01 8.2680E-01
- 8. 5313E-01 8.8017E-01
- 2. 1274E-03 3.8652E-03 5.8571E-03
- 8. 0106E-03 1. 0265E-02 1. 1032E-02 1. 1198E-02 1. 1419E-02 1. 1693E-02 1.2017E-02 1.2391E-02 1.2812E-02 1.3279E-02 1.3790E-02 1.4343E-02 1.4938E-02 1.5573E-02 1.6247E-02 1.6958E-02 1.7705E-02 1.8487E-02 1.9303E-02
- 2. 0151E-02 2. 1031E-02 2. 1941E-02 2.2881E-02 2.3595E-02 2.4333E-02 2.5096E-02 2.5882E-02 2.6692E-02 2.7524E-02 2.8377E-02 2.9252E-02 8.4402E-02
- 1. 8070E-01 Thyroid (rem)0.0000E+00 2.0905E-07 3.1018E-04 6.4362E-03 1.7487E-02 3.1851E-02 4.,8373E-02 6.6294E-02 8 .5112E-02 9.1523E-02
- 9. 2916E-02 9.4772E-02 9.7074E-02 9.9811E-02 1.0297E-01
- 1. 0653E-01 1.1049E-01
- 1. 1483E-01 1. 1953E-01 1.2460E-01 1.3001E-01 1.3576E-01 1.4184E-01 1.4823E-01 1.5492E-01
- 1. 6192E-01 1. 6919E-01 1.7675E-01 1.8457E-01
- 1. 9265E-01 1.9336E-01
- 1. 9410E-01 1. 9486E-01 1. 9565E-01 1.9646E-01
- 1. 9729E-01 1. 9815E-01 1.9902E-01 2.5474E-01 2.7716E-01 TEDE (rem)0.OOOOE+00 6.9766E-09 1 .0351E-05 2.1412E-04 5.8020E-04 1.0542E-03 1.5974E-03 2.1847E-03 2.7996E-03 3.0087E-03 3.0541E-03
- 3. 1143E-03 3. 1890E-03 3.2775E-03 3.3793E-03
- 3. 4941E-03 3. 6214E-03 3.7608E-03
- 3. 9118E-03 4.0741E-03 4.2473E-03 4 .4310E-03 4.6249E-03 4.8286E-03
- 5. 0419E-03 5.2644E-03 5.4957E-03 5.7357E-03 5.9840E-03 6.2403E-03 6.2634E-03 6.2873E-03 6.3120E-03 6.3374E-03 6.3636E-03 6.3905E-03 6.4181E-03 6.4463E-03 8.2185E-03
- 8. 9169E-03 Control Room Thyroid TEDE (rem) (rem)0.OOOOE+00 0.OOOOE+00 9.1477E-08 2.8599E-09 3.9823E-03 1.2450E-04 5.2580E-02 1.6429E-03 1.5297E-01 4.7769E-03 3.0815E-01 9.6178E-03 5.0575E-01 1.5778E-02 7.3321E-01 2.2864E-02 9.8075E-01 3.0572E-02 1.0665E+00 3.3239E-02 1.2315E+00 3.8374E-02 1.2992E+00 4.0480E-02 1.3378E+00 4.1680E-02 1.3700E+00 4.2680E-02 1.4032E+00 4.3712E-02 1.4399E+00 4.4851E-02 1.4807E+00 4.6119E-02 1.5259E+00 4.7520E-02 1.5753E+00 4.9052E-02 1.6289E+00 5.0713E-02 1.6865E+00 5.2498E-02 1.7480E+00 5.4404E-02 1.8133E+00 5.6428E-02 1.8823E+00 5.8564E-02 1.9549E+00 6.0810E-02 2.0309E+00 6.3162E-02 2.1102E+00 6.5616E-02 2.1928E+00 6.8171E-02 2.2785E+00 7.0821E-02 2.3672E+00 7.3565E-02 2.4346E+00 7.5649E-02 2.4784E+00 7.7003E-02 2.5150E+00 7.8135E-02 2.5500E+00 7.9214E-02 2.5850E+00 8.0298E-02 2.6208E+00 8.1403E-02 2.6575E+00 8.2536E-02 2.6951E+00 8.3698E-02 5.1187E+00 1.5830E-01 6.9433E-ý00 2.1421E-01 4 o XceIEn 0] Calculation No. GEN-PIE-78 Revision No. I Page No. 146 of 277 96.000 8.4848E+00 2.6401E-01 2.9666E-01 9.5201E-03 8.5338E+00 2.6280E-01 720.000 8.4848E+00 2.6401E-01 2.9666E-bl 9.520lE-03 8.5360E+00 2.6287E-0l Worst Two-Hour Doses#############################*################4#################*#*##
Exclusion Area Boundary Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem)0.0 5.9208E-04 3.3559E-01 1.1032E-02 4 XceIEnerg Calculation No. GEN-PI-078 Revision No. I Page No. 147 of 277 Attachment 13.5 RADTRAD Output File PMSINPLI01.o0 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:36:48 4#4###################4############4################################4####
- 4###########*#####4#################################################
File information
- 4##ý#############4##*###4#################4#######*###################
Plant file = G:\Radtrad 3.03\Input\PI\GEN-PI-078 Rl\PMSINPLIOl.psf Inventory file = g:\radtrad 3.03\defaults\pimsliq iodine def.txt Release file = g:\radtrad 3.03\defaults\pingp iodine rft.txt Dose Conversion file = g:\radtrad 3.03\defaults\pingp-fgll&12.txt
- #### ##### # # # ##### # # #####8 8 # # # #8# 8 # # # #8 # # 8 # 8# # # # # # #8#### #### 88#8 # 8 8 # 88#88 # # #S# # 8 8 ## # 8 #. #8# 8 8 # #8 # 8 #8 8#88 # 8 8 # # 8### 8 Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Pre-accident Iodine Spike with SG Liquid Iodine Released From Intact SG With Tube Uncovered for 2 Hours Nuclide Inventory File: g:\radtrad 3.03\defaults\pimsliq iodinedef.txt Plant Power Level: 1.8520E+03 Compartments:
3 Compartment 1: Intact SG 3 1.7210E+03 0 0 0 0 0 Compartment 2: Environment 2 C.0000E+0b 0 0 0 0 0 Compartment 3:
XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 148 of 277 Control Room 1 6.1315E+04 0 0 1 0 0 Pathways: 3 Pathway 1: Intact SG to Environment 1 2 2 Pathway 2: Environment to Control Room 2 3 2 Pathway 3: Control Room to Environment 3 2 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.OOOOE+00 g:\radtrad 3.03\defaults\pingpfgll&12.txt g:\radtrad 3.03\defaults\pingp iodine rft.txt 0.0000E+00 1 0.OOOE+00 9.7000E-01 3.0000E-02 1.OOOOE+00 Overlying Pool: 0 0.0000E+00 0 0 0 0 Compartments:
3 Compartment 1: 0 1 0 0 0 0 0 0 0 SXcelEnergyl Caculation No. GEN-PI-078 Revision No. 1 Page No. 149 of 277 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 1 1 0 0 0 0 1 3.6000E+03 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 Pathways: 3 Pathway 1: 0 0 0 0 0 1 5 0.0000E+00 2.0000E+00 8.0000E+00 2.4000E+01 4.5500E+01 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 0.0000E+00 8.3300E-02 7.2000E+02 0.0000E+00
- 9. 9000E+01 0.0000E+00
- 3. 9420E+01 2.3610E+00 1.7340E+00 1.3980E+00 0.OOOOE+00 0.0000E+00
- 9. 5000E+01 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 9.5000E+01 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Xce. I nergyi Calculation No. GEN-PL-078 Revision No. I Page No. 150 of 277 I Revision No. I Page No. 150 of 277 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 2.0O00E+03 3.0000E+02 C.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 o.0000E+00 0.0000E+00 o.0000E+00 0 0 Dose Locations.:
3 Location 1: Exclusion Area Boundary 2 1 2 C.0000E+00 7.2000E+02 1 2 0.0000E+00 7.2000E+02 0 6.4900E-04 C.0000E+00 3.5000E-04 C.0000E+00 Location 2: Low Population Zone 2 1 5 C.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 1 4 C.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 0 Location 3: Control Room 3 1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 C.0000E+00 3.5000E-04 1.8000E-04 2..3000E-04 C.0000E+00 Xcelnergyl]
Calculation No. GEN-PI-078 Revision No. I Page No. 151 of 277I 0 1 2 0.0000E+00 7.2000E+02 1 3.5000E-04 0.OOOE+00 4 0.0000E+00 1.O000E+00 2.4000E+01 6.OOOE-01 9.6000E+01 4.OO00E-01 7.2000E+02 0.0000E+00 Effective Volume Location: 1 6 0.OOOE+00 3.0700E-02 2.O000E+00 2.4900E-02 8.0000E+00 1.1200E-02 2.4000E+01 7.7800E-03 9.6000E+01 6.1700E-03 7.2000E+02 0.OOOOE+00 Simulation Parameters:
6 0.0000E+00 1.OOO0E-01 2.OOOOE+00 5.OOOE-01 8.OOOE+00 1.0000E+00 2.4000E+01 2.OOOE+00 9.6000E+01 4.O0OOE+00 7.2000E+02 0.OOOOE+00 Output Filename: G:\Radtrad 3.o4 1 1 1 0 0 End of Scenario File XceI Energy]Calculation No. GEN-PI-078 Revision No. I Page No. 152 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:36:48###4########################################################4############
ý################*#######################################################
Plant Description
- 4########################t######f####################################
Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments 3 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Intact SG Compartment volume 1.7210E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Intact SG to Environment Compartment number 2 Name: Environment Compartment type is Environment Pathways into and out of compartment 2 Inlet Pathway Number 1: Intact SG to Environment Inlet Pathway Number 3: Control Room to Environment Exit Pathway Number 2: Environment to Control Room Compartment number 3 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 3 Inlet Pathway Number 2: Environment to Control Room Exit Pathway Number 3: Control Room to Environment Total number of pathways = 3
- XceInergyl lculation No. GEN-PI-078 Revision No. 1 Page No. 153 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:36:48###4#########4#############4######4###############4#####4###4##########4##
Scenario Description
- 4#######ý##*#####*########4*##*########4##*####ý##########4#############4##
Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 0.0000E+00 1.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 EARLY IN-VESSEL 0.0000 hrs 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 o OOOOE+00 0 OOOOE+00 0 OOOOE+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000OOE+00.
0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)0 OOOE+00 4. 077E-05 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Inventory Power =1852. MWt Nuclide Name 1-131 1-132 1-133 1-134 1-135 Nuclide 1-131 1-133 1-135 Group Specific Inventory (Ci/MWt)2 2.253E-03 2 2.474E-03 2 3.428E-03 2 5.142E-04 2 1.944E-03 half life (s)6. 947E+05 8.280E+03 7.488E+04 3. 156E+03 2. 380E+04 Whole Body DCF (Sv-m3/Bq-s) 1.820E-14 1.120E-13 2.940E-14 1.300E-13 8 .294E-14 Inhaled Thyroid (Sv/Bq)2. 920E-07 1.740E-09 4.860E-08 2. 880E-10 8. 460E-09 Daughter none none none Inhaled Effective (Sv/Bq)8.890E-09 1.030E-10 1.580E-09 3.550E-11 3.320E-10 Fraction 0.00 0.00 0.00 Daughter Xe-131m Xe-133m Xe-135m Fraction 0.01 0.03 0.15 0.OOOOE+00 9.7000E-01 3.OOOOE-02 Daughter none Xe-133 Xe-135 Fractior 0.00 0.97 0.85 Iodine fractions Aerosol Elemental
=Organic =COMPARTMENT DATA Compartment number Compartment number Compartment number 1: Intact SG 2: Environment 3: Control Room Compartment Filter Data Time (hr)Flow Rate Filter Efficiencies
(%)
XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 154 of 277 I 0.OOOOE+00 8.3300E-02 7.2000E+02 (c fm)3.6000E+03 3.6000E+03 3.6000E+03 Aerosol o.OOOE+00 9. 9000E+01 0.0000E+00 Elemental 0.OOOOE+00
- 9. 5000E+01 0.OOOOE+00 Organic 0.0000E+00 9.5000E+01 0.0000E+00 PATHWAY DATA Pathway number 1: Intact SG to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 2 .0000E+00 8 .0000E+00 2 .4000E+01 4. 5500E+01 Flow Rate (cfm)3. 9420E+01 2. 3610E+00 1.7340E+00 1.3980E+00 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic O.OOOOE+00 O.OOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Pathway number 2: Environment to Control Room Pathway Filter: Removal Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 3: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 O.OOOOE+00 0.OOOOE+00 0.0000E+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0.OOOOE+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 2 Location X/Q Data Time (hr)0.OOOOE+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.OOOE+00 3.5000E-04 7.2000E+02 O.OOOE+00.
Location Low Population Zone is in compartment 2 Location X/Q Data Time (hr)0.OOOOE+00 8.OOOOE+00 X/Q (s
- m^-3)1.7700E-04 3.9900E-05
ýXcei Energyý Calculation No. GEN-PI-078 Rvso o aeN.15o 7 I Revision No. I Page No. 155 of 277 2. 4000E+01 9. 6000E+01 7.2000E+02 7 .1200E-06 1.0400E-06 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing 0.OOOOE+00 8.OOOOE+00 2.4000E+01 7.2000E+02 Location Control Room' is Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 in compartment 3 Location X/Q Data Time (hr) X/Q (s
- m^-3)0.OOOOE+00 3.0700E-02 2.0000E+00 2.4900E-02 8.OOOOE+00 1.1200E-02 2.4000E+01 7.7800E-03 9.6000E+01 6.1700E-03 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Occupancy Factor Data Time (hr) Occupancy Factor 0.OOOOE+00 1.0000E+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 0.OOOOE+00 USER SPECIFIED TIME STEP DATA -SUPPLEMENTAL TIME STEPS Time Time step 0.OOOOE+00 1.OOOOE-01 2.OOOOE+00 5.OOOOE-01 8.OOOOE+00 1.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 4.OOOOE+00 7.2000E+02 0.OOOOE+00
.XceI Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 156 of 277#####88##8###8##88####ý*
- 8##### ###8#888#########8###8#8#####8####8#8#
RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:36:48 8#8#88###4##888##88##88888888#88#8#88#888888##4#####8##8##444####8##88##
- #8# #8 8 #8#84# #8 ###4### M#44#88 #8 4 #8 #8 ##8 8 8##8#8 8 8################4#####4########8
- 444########4##4####8#4###
Dose, Detailed model and Detailed Inventory Output 8##8##4#88#4###4###8##8##8####8#8##4#4####888####88##4#888########8 Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 7. 1040E-06 7. 1040E-06 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Whole Body 1.9374E-06 1.9374E-06 Thyroid 3.2497E-03 3.2497E-03 Thyroid 8.8628E-04 8.8628E-04 Thyroid 4.2114E-04 4.2114E-04 TEDE 1.0845E-04 1.0845E-04 Time (h) = 0.0036 Whole Body Delta dose (rem) 3.2581E-08 Accumulated dose (rem) 3.2581E-08 Control Room Compartment Nuclide Inventory:
TEDE 2.9577E-05 2.9577E-05 TEDE 1.3166E-05 1 .3166E-05 Atoms 1. 1047E+13 1. 4443E+11 1. 8116E+12 1. 1422E+10 3. 2639E+11 1. 2818E+06 1. 7197E+08 5. 1413E+06 8.5460E+07 1.5062E+07 Time (h) = 0.0036 1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Ci 2. 9791E-04 3.2678E-04 4.5323E-04 6.7799E-05 2.5696E-04 2.3355E-11 7.1091E-09
- 5. 0949E-10 4.8924E-08 3.0757E-07 kg 2.4030E-12 3.1658E-14 4.0009E-13 2.5415E-15 7.3168E-14 2.7883E-19 3.7980E-17 1.1355E-18
- 1. 9158E-17 3.3765E-18 Decay 1.0140E+08 1.1126E+08 1.5427E+08 2.3099E+07 8.7469E+07 1.2038E+00 3.6644E+02 2 .6262E+01 2.5216E+03 1.5812E+04 Control Room Transport Group Inventory:
Time (h) = 0.0036 Atmosphere Sump Noble gases (atoms) 2.7891E+08 0.OOOOE+00 XceI Ene Calculation No. RENoPI5078 Revision No. I Page No. 157 of 277 Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)1.2940E+13 O.0000E+00 4.0021E+ll 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)2. 2048E-13 2. 6112E-13 1.4027E-03 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 3.6350E+07 1.2971E+13 4.0117E+ll 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.2791E+05 3.0415E+10 9.4067E+08 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 0.0833 Whole Body Delta dose (rem) 2.9752E-04 Accumulated dose (rem) 3.0463E-04 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.3617E-,01 1.3942E-01 Thyroid 3.7138E-02 3.8024E-02 Thyroid 4.8668E-01 4.8710E-01 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 8.1143E-05 8.3080E-05 Whole Body 3.7632E-05 3.7665E-05 TEDE 4.5442E-03 4.6526E-03 TEDE 1.2393E-03 1.2689E-03 TEDE 1 .5215E-02 1.5228E-02 Atoms 4. 3833E+14 5. 5966E+12 7. 1713E+13 4. 2566E+ll Control Room Compartment Nuclide Inventory:
Time (h) 0.0833 1-131 1-132 1-133 1-134 Ci kg 1.1821E-02 9.5350E-11 1.2662E-02 1.2267E-12 1.7941E-02 1.5838E-11 2.5267E-03 9.4715E-14 Decay 1.2561E+ll 1.3616E+ll 1.9087E+ll 2 .7710E+10 X , :,celEneryl JCalculation No. GEN-PI-078 Revision No. I Page No. 158 of 277 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 1. 0114E-02 2.6023E-08 7.9118E-06
- 5. 6701E-07 5.4336E-05 3.3947E-04 2.8800E-12
- 3. 1069E-16 4 .2268E-14 1.2637E-15 2 .1277E-14 3.7267E-15 1.2847E+13 1.4282E+09
- 1. 9139E+ll 5. 7218E+09 9. 4914E+10 1. 6624E+10 1.0791E+11 9.2152E+03 2.8047E+06 2.0094E+05 1.9246E+07 1 .0916E+08 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 3.1007E+11 0.OOOOE+00 5.1304E+14 0.OOOOE+00 1.5867E+13 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)8. 7419E-12 1. 0343E-11 5. 5066E-02 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h)0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.0990E+10 5.5650E+14 1.7211E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h)0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.6761E+08 4.2946E+13 1.3282E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 2.0000 Whole Body Delta dose (rem) 2.1126E-03 Accumulated dose (rem) 2.4172E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.0835E+00 1.2229E+00 Thyroid 2.9550E-01 3.3352E-01 Low Population Zone Doses: TEDE 3.5857E-02 4.0509E-02 TEDE 9.7791E-03 1.1048E-02 Time (h) = 2.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Whole Body 5.7617E-04 6.5925E-04 Time (h)2.0000 Whole Body Thyroid TEDE e XcelEnergy Calculation No. GEN-PI-078 Revision No. I R Page No. 159 of 277 Delta dose (rem) 5.0526E-04 Accumulated dose (rem) 5.4293E-04 7.2042E+00 2.2488E-01 7.6913E+00 2.4011E-01 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m= 2.0000 Ci 7.0272E-04 4.2538E-04 1.0075E-03 3.3228E-05 4.9517E-04 3.2263E-07 9.6205E-05
- 6. 8180E-06 6. 7416E-04 2.3911E-04 kg 5. 6682E-12 4. 1210E-14 8.8936E-13
- 1. 2456E-15 1.4100E-13
- 3. 8518E-15 5. 1397E-13 1.5195E-14 2 .6399E-13 2. 6250E-15 Atoms 2. 6057E+13 1. 8801E+11 4. 0270E+12 5.5979E+09
- 6. 2897E+ll 1.7707E+10
- 2. 3272E+12 6. 8801E+10 1. 1776E+12 1. 1710E+10 Decay 1.0110E+12 9.4695E+l1 1.5128E+12 1.5727E+lI 8 .2466E+l1 5.7846E+07 1.7364E+10 1.2364E+09 1.2441E+ll
- 1. 6218E+l1 Control Room Transport Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 3.6030E+12 0.0000E+00 2.9979E+13 0.OOOOE+00 9.2720E+ll 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)5. 1105E-13 5. 9272E-13 2.6640E-03 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 1.0368E+15 3.2065E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 2.8405E+12 1.2050E+15 3.7268E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1. 4427E+12 1.3389E+14 4.1409E+12 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 3.1181E-02 1.2541E+00 Exclusion Area Boundary Doses: Time (h) = 8.0000 Whole Body Delta dose (rem) 3.5153E-05 Accumulated dose (rem) 2.4524E-03 TEDE 1.0008E-03
- 4. 1510E-02
[...X. eIEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 160 of 277 Low Population Zone Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Whole Body 9.5872E-06 6.6883E-04 Thyroid 8.5038E-03
- 3. 4203E-01 Thyroid 2 .8547E-01 7.9768E+00 Time (h) = 8.0000 Whole Body Delta dose (rem) 1.9960E-05 Accumulated dose (rem) 5.6289E-04 Control Room Compartment Nuclide Inventory:
TEDE 2.7294E-04 1.1321E-02 TEDE 8.8764E-03 2.4899E-01 Atoms 4. 8020E+ll 5.8042E+08 6.2087E+10
- 9. 1749E+05 6. 3131E+09 4. 3917E+09 5. 5613E+11 1. 5759E+10 1. 8540E+ll 8.8301E+07 Time (h)1-131 1-132 1-133 1-134 1-135'Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 8.0000 Ci 1.2950E-05 1.3132E-06 1.5533E-05 5.4461E-09
- 4. 9701E-06 8.0019E-08 2.2990E-05 1.5617E-06 1.0614E-04 1.8031E-06 kg 1.0446E-13 1.2722E-16 1.3712E-14
- 2. 0415E-19 1.4152E-15
- 9. 5532E-16 1.2282E-13
- 3. 4805E-15 4.1562E-14 1.9795E-17 Decay 1.0452E+12
- 9. 6257E+II 1.5600E+12 1.5823E+ll 8.4611E+ll 1.8892E+08
- 5. 6039E+10 3.9307E+09 3.5817E+II 1.7692E+ll Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 7.6177E+ll 0.OOOOE+00 5.3271E+1l 0.OOOOE+00 1.6476E+10 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)9. 0352E-15 1. 0116E-14 3.4772E-05 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 1.0777E+15 3.3329E+13 0.OOOOE+00 Environment to Control Room Transport Group 'Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 3.2848E+12 1.2201E+15 3.7737E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Pathway Time (h) 8.0000 Filtered Transported XceI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 161 of 277 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)4.5247E+12 1.3748E+14 4.2519E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 1.7023E-05 Accumulated dose (rem) 2.4694E-03 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Thyroid 2.7695E-02 1.2818E+00 Thyroid 8.7565E-04
- 3. 4290E-01 Thyroid 4. 1491E-02 8. 0183E+00 TEDE 8.6977E-04 4.2380E-02 Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.0466E-06 6.6988E-04 Whole Body 2.2130E-06 5.6510E-04 TEDE 2.8009E-05
- 1. 1349E-02 Control Room Compartment Nuclide Inventory:
Time (h) = 24.0000 1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 1.5260E-06
- 1. 3196E-09 1. 1375E-06 1. 1586E-07 1.3068E-08 2.9082E-06 1.8471E-07 4.3394E-06 6.6238E-08 kg 1.2309E-14 1.2785E-19 1.0041E-15 3.2991E-17 1.5602E-16 1.5537E-14 4.1166E-16
- 1. 6992E-15 7 .2715E-19 TEDE 1.2799E-03 2.5027E-01 Atoms 5. 6585E+10 5.8326E+05 4.5465E+09
- 1. 4717E+08 7. 1723E+08 7. 0350E+10 1.8639E+09 7.5800E+09 3.2437E+06 Decay 1.0510E+12
- 9. 6275E+lI 1.5658E+12 8.4741E+Il 2.4473E+08 7.0957E+10
- 4. 9187E+09 4.0811E+ll 1.7755E+II Group Inventory:
Atmosphere Sump 8.0514E+10 0.OOOOE+00 5.9441E+10 0.OOOOE+00 1.8384E+09 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)9. 8989E-16 1. 0596E-15 2.7806E-06 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 1.0837E+15 3.3517E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Pathway Time (h) = 24.0000 Filtered Transported Xcel Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 162 of 277 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 0.0000E+00 0'.0000E+00 3 .7090E+12 1.2263E+15
- 3. 7926E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) ý 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.5724E+12 1.3801E+14 4.2683E+12 0.0000E+00 Exclusion Area Boundary Doses: Time (h) ý 45.5000 Whole Body Delta dose (rem) 3.5483E-06 Accumulated dose (rem) 2.4730E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Thyroid 9.6904E-03 1.2915E+00 Thyroid 6.9861E-05 3.4297E-01 Thyroid 5.8865E-03 8.0242E+00 TEDE 3.0045E-04 4.2680E-02 Low Population Zone Doses: Time (h) ý 45.5000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) ý 45.5000 Delta dose (rem)Accumulated dose (rem)Whole Body 3.8927E-08 6.6992E-04 Whole Body 1.3376E-07 5.6524E-04 TEDE 2. 1794E-06 1. 1351E-02 TEDE 1.8050E-04 2.5045E-01 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 45.5000 Ci 2.7652E-07 1.0876E-07 2.3796E-09
- 4. 6113E-09 7.4969E-07 4.2939E-08
- 2. 4461E-07 1.3284E-09 kg 2 .2304E-15 9. 6012E-17 6.7758E-19 5.5053E-17 4.0052E-15 9.5696E-17 9.5786E-17 1.4583E-20 Atoms 1. 0253E+I10 4.3474E+08 3.0226E+06 2.5308E+08
- 1. 8135E+10 4. 3331E+08 4.2729E+08 6.5054E+04 Decay 1.0524E+12 1.5666E+12 8.4747E+1I 2.6375E+08 7 .4657E+10 5.1448E+09 4.1139E+11 1.7759E+lI Control Room Transport Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 45.5000 Noble gases (atoms)Group Inventory:
Atmosphere Sump 1.9249E+10 0.OOOOE+00 1.0370E+10 0.OOOOE+00 3.2074E+08 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 6973E-16 1. 7612E-16 3.8766E-07 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 XcelEnergY Calculation No. GEN-PI-078 Revision No. I Page No. 163 of 277 Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.0851E+15 3.3560E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) ý 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 3.8800E+12 1.2278E+15 3.7973E+13 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) ý 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.7986E+12 1.3813E+14 4.2721E+12 0.0000E+00 Exclusion Area Boundary Doses: Time (h) ý 96.0000 Whole Body Delta dose (rem) 0.0000E+00 Accumulated dose (rem) 2.4730E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.0000E+00 1.2915E+00 Thyroid 0.OOOOE+00 3.4297E-01 Thyroid 5.2073E-05 8.0242E+00 TEDE 0.0000E+00 4.2680E-02 Low Population Zone Doses: Time (h) ý 96.0000 Delta dose (rem)Accumulated dose (rem)Control Roomfi Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 6.6992E-04 Whole Body 2.5280E-09 5.6524E-04 TEDE 0.OOOOE+00
- 1. 1351E-02 TEDE 1.5946E-06 2 .5045E-01 Control Room Compartment Nuclide Inventory:
Time (h) = 96.0000 Control Room Transport Time (h) ý 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 5.2364E+03 0.OOOOE+00 1.2129E-70 0.OOOOE+00 3.7513E-72 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 9521E-96 1. 9691E-96 3.6336E-87 Deposition Time (h) = 96.0000 Surfaces Noble gases (atoms) 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
{. XceIEnergy]
Calculation No. GEN-PI-078 Revision No. I Page No. 164 of 277 Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.0000E+00 0.OOOOE+00 0.OOOOE+00 1.0851E+15
- 3. 3561E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Transported 3.8800E+12 1.2278E+15 3.7973E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.8175E+12 1.3813E+14 4.2722E+12 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.0000E+00 2.4730E-03 Transported 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.0000E+00 1.2915E+00 Thyroid 0.0000E+00 3.4297E-01 Thyroid 5.6007E-85 8.0242E+00 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 6.6992E-04 Whole Body 1.3105E-16 5.6524E-04 TEDE 0.OOOOE+00 4.2680E-02 TEDE 0.OOOOE+00 1.1351E-02 TEDE 1.3105E-16 2 .5045E-01 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 5.1568E-78 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 I V XceIfnergY I Calculation No. GEN-PI-078 Rvso o aeN.15o 7 Revision No. I Page No. 165 of 277 Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 o.OOOOE+00 0.OOOOE+00
- 1. 0851E+15 3.3561E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000z+00 0.0000E+00 0.0000E+00 Transported 3.8800E+12 1.2278E+15 3.7973E+13 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.8175E+12 1.3813E+14 4.2722E+12 0.0000E+00 Transported 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 840####################################################################
1-131 Summary Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 Intact SG 1-131 (Curies)6.4367E-01 4.1622E+00 3.7293E+00 2.4105E+00
.1.5944E+00 1.0545E+00 6.9748E-01 4.6133E-01 3.0513E-01 2.6585E-01 2.5909E-01 2.5250E-01 2.4607E-01 2.3981E-01 2.3371E-01 2.2776E-01 2.2197E-01 2.1632E-01 2.1082E-01 2.0545E-01 2.0023E-01 1.9513E-01 1.9017E-01 1.8533E-01 1.8062E-01 1.7602E-'0l 1.7154E-01 Environment 1-131 (Curies)2.4575E-04 1.0305E-02 4.4200E-01 1.7571E+00 2.5710E+00 3.1093E+00 3.4654E+00 3.7009E+00 3.8566E+00 3.8958E+00 3.9023E+00 3.9086E+00 3.9148E+00 3.9208E+00 3.9266E+00 3.9323E+00 3.9378E+00 3.9433E+00 3.9485E+00 3.9537E+00 3.9587E+00 3.9636E+00 3.9683E+00 3.9729E+00 3.9775E+00 3.9819E+00 3.9862E+00 Control Room 1-131 (Curies)7. 1188E-06 2.9791E-04 1.1821E-02 6.9823E-03
- 4. 4135E-03 2.8506E-03 1.8624E-03 1.2241E-03 8.0707E-04 7.0272E-04 2.4939E-04 9.7097E-05 4.5711E-05 2.8153E-05 2.1942E-05 1.9542E-05 1.8428E-05 1.7752E-05 1.7231E-05 1.6769E-05 1.6335E-05 1.5917E-05 1.5511E-05 1.5116E-05 1.4731E-05 1.4356E-05 1.3991E-05 XceI f nergy] alculationNo.GEN-PI-078 Revision No. I Page No. 166 of 277 7.400 7.700 8.000 8.300 8. 600 8. 900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 1. 6718E-01 1. 6292E-01 1.5878E-01
- 1. 5576E-01 1. 5279E-01 1. 4989E-01 1. 4703E-01 1. 4423E-01 1.4149E-01
- 1. 3880E-01 1. 3616E-01 5.6985E-02 1.8498E-02 1.5429E-02
- 1. 6401E-03 3.9903E+00 3.9944E+00 3.9984E+00
- 4. 0012E+00 4 .0040E+00 4. 0068E+00 4. 0095E+00 4 .0121E+00 4. 0147E+00 4 .0172E+00 4 .0197E+00 4. 0944E+00 4 .1301E+00 4 1301E+00 4 1301E+00 1.3635E-05 1.3288E-05 1.2950E-05 7.0864E-06 5.0688E-06
- 4. 3413E-06 4.0472E-06 3.8993E-06
- 3. 8013E-06 3.7210E-06 3.6475E-06 1.5260E-06 2.7652E-07 3.3406E-87 0.OOOOE+00 Cumulative Dose Summary Exclusion Area Bounda Low Population Zone Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 Thyroid (rem)0 OOOOE+00 3.2497E-03
- 1. 3942E-01 5. 5358E-01 8. 0917E-01 9. 7777E-01 1. 0890E+00 1. 1624E+00 1. 2108E+00 1. 2229E+00 1.2249E+00
- 1. 2269E+00 1. 2288E+00 1. 2306E+00 1. 2324E+00 1. 2342E+00 1. 2359E+00 1. 2375E+00 1 .2391E+00 1. 2407E+00 1 .2422E+00 1 .2437E+00 1. 2451E+00 1.2465E+00
- 1. 2478E+00 1. 2492E+00 1. 2505E+00 1. 2517E+00 1. 2529E+00 1 .2541E+00 1. 2549E+00 1. 2558E+00 1 .2566E+00 1 .2574E+00 TEDE (rem)0 OOOOE+00 1. 0845E-04 4. 6526E-03 1. 8436E-02 2. 6905E-02 3.2469E-02
- 3. 6126E-02 3. 8531E-02 4 0113E-02 4. 0509E-02 4. 0575E-02 4. 0638E-02 4. 0699E-02 4. 0759E-02 4. 0817E-02 4. 0873E-02 4. 0928E-02 4. 0981E-02 4. 1032E-02 4. 1082E-02 4. 1131E-02 4. 1178E-02 4. 1224E-02 4. 1268E-02 4. 1311E-02 4. 1353E-02 4. 1394E-02 4. 1434E-02 4. 1472E-02 4. 1510E-02 4. 1537E-02 4 1563E-02 4. 1589E-02 4. 1614E-02 Thyroid (rem)0 OOOOE+00 8 .8628E-04 3. 8024E-02 1 .5098E-01 2 .2068E-01 2. 6666E-01 2 9700E-01 3. 1701E-01 3. 3021E-01 3. 3352E-01 3. 3407E-01 3. 3460E-01 3. 3512E-01 3. 3562E-01 3. 3611E-01 3. 3659E-01 3. 3705E-01 3. 3750E-01 3. 3794E-01 3. 3836E-01 3. 3878E-01 3. 3918E-01 3. 3957E-01 3. 3995E-01 3. 4032E-01 3. 4068E-01 3. 4103E-01 3. 4137E-01 3. 4171E-01 3. 4203E-01 3.4205E-01 3.4208E-01
- 3. 4211E-01 3.4213E-01 TE DE (rem)0.OOOOE+00 2.9577E-05 1.2689E-03 5.0280E-03 7.3376E-03 8 .8551E-03 9.8526E-03 1.0508E-02 1.0940E-02 1.1048E-02 1.1066E-02
- 1. 1083E-02 1. 11OOE-02 1.1116E-02 1.1132E-02 1.1147E-02 1.1162E-02
- 1. 1177E-02 1. 1191E-02 1.1204E-02 1.1217E-02 1 .1230E-02 1 .1243E-02 1 .1255E-02 1.1267E-02
- 1. 1278E-02 1. 1289E-02 1 .1300E-02 1.1311E-02 1.1321E-02 1.1322E-02 1.1323E-02
- 1. 1323E-02 1.1324E-02 Control Room Thyroid TEDE (rem) (rem)0.OOOOE+00 0.OOOOE+00 4.2114E-04 1.3166E-05 4.8710E-01 1.5228E-02 3.4089E+00 1.0652E-01 5.0939E+00 1.5913E-01 6.1675E+00 1.9263E-01 6.8632E+00 2.1432E-01 7.3179E+00 2.2848E-01 7.6165E+00 2.3778E-01 7.6913E+00 2.4011E-01 7.8220E+00 2.4418E-01 7.8697E+00 2.4566E-01 7.8896E+00 2.4628E-01 7.9001E+00 2.4661E-01 7.9073E+00 2.4683E-01 7.9134E+00 2.4702E-01 7.9189E+00 2.4719E-01 7.9242E+00 2.4736E-01 7.9293E+00 2.4751E-01 7.9343E+00 2.4767E-01 7.9391E+00 2.4782E-01 7.9437E+00 2.4796E-01 7.9'483E+00 2.4810E-01 7.9527E+00 2.4824E-01 7.9570E+00 2.4837E-01 7.9612E+00 2.4850E-01 7.9652E+00 2.4863E-01 7.9692E+00 2.4875E-01 7.9730E+00 2.4887E-01 7.9768E+00 2.4899E-01 7.9795E+00 2.4907E-01 7.9812E+00 2.4912E-01 7.9825E+00 2.4916E-01 7.9837E+00 2.4920E-01 0 XcIEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 167 of 277 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 1.2582E+00 1.2589E+00 1 .2597E+00 1 .2604E+00 1 .2818E+00 1 2915E+00 1 .2915E+00 1. 2915E+00 4. 1639E-02 4. 1663E-02 4. 1686E-02 4. 1709E-02 4. 2380E-02 4. 2680E-02 4. 2680E-02 4. 2680E-02 3. 4216E-01 3. 4218E-01 3. 4220E-01 3 4223E-01 3 .4290E-01 3 4297E-01 3 4297E-01 3. 4297E-01 1. 1325E-02 1 .132 6E-02 1. 1327E-02 1. 1327E-02 1. 1349E-02 1. 1351E-02 1. 1351E-02 1 .1351E-02 7. 9848E+00 7 .9859E+00 7. 9870E+00 7. 9880E+00 8. 0183E+00 8. 0242E+00 8. 0242E+00 8. 0242E+00 2 4923E-01 2 4927E-01 2 4930E-01 2 4933E-01 2 .5027E-01 2. 5045E-01 2.5045E-01 2 .5045E-01 Worst Two-Hour Doses##############*######################################################
Exclusion Area Boundary Time Whole Body Thyroid TEDE (hr) (rem) (rem) (rem)0.0 2.4172E-03 1.2229E+00 4.0509E-02 XceIEnergl Calculation No. GEN-PL-078 Rvso o aeN.18o 7 Revision No. I Page No. 168 of 277 Attachment 13.6 RADTRAD Output File PMSINPNGOI.oO
- 4############################4#4########################################
RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:45:30############*#####4###########F##i####ir o#################n########
- 4##########################################
File information
- ý###*##*######*#######*#########################################
Plant file Inventory file Release file Dose Conversion file G: g: g: g:\Radtrad 3.03\Input\PI\GEN-PI-078 Rl\PMSINPNG01.psf
\radtrad 3.03\defaults\pimspre def.txt\radtrad 3.03\defaults\pingp ng rft.txt\radtrad 3.03\defaults\pingp fgll&12.txt
- ##### # # ## # #6 6 6 6 6 6 #6#6 6 6 6 #6 6666 6 6 6 6 66666 6 6 6 6 66666 6 6#6 6#6 6 66666 6 6 6 6 6 6 6 6 6 6 6 666# 6 Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Pre-accident Iodine Spike with Noble Gas Release From Intact SG Nuclide Inventory File: g:\radtrad 3.03\defaults\pimspre def.txt Plant Power Level: 1.8520E+03 Compartments:
3 Compartment 1: RCS 3 5.2900E+03 0 0 0 0 0 Compartment 2: Environment 2 0.0000E+00 0 0 0 0 0 Compartment 3:
XcelEnergy Calculation No. GEN-PI-078 I Revisio No. 1 Page No. 169 of 277I Control Room 1 6.1315E+04 0 0 1 0 0 Pathways: 3 Pathway 1: RCS to Environment 1 2 2 Pathway 2: Environment to Control Room 2 3 2 Pathway 3: Control Room to Environment 3 2 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.0000E+00 g:\radtrad 3.03\defaults\pingpfgll&12.txt g:\radtrad 3.03\defaults\pingp ng rft.txt 0.0000E+00 1 0.0000E+00 9.7000E-01 3.OOOOE-02 1.OOOOE+00 Overlying Pool: 0 0.OOOOE+00 0 0 0 0 Compartments:
3 Compartment 1: 0 1 0 0 0 0 0 0 0 SXceI Energy] Calculation No. GEN-PI-078 T Revision No. 1 Page No. 170 of 277 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 0 0 0 0 1 3.6000E+03 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 pathways: 3 Pathway 1: 0 0 0 0 0 1 2 0.0000E+00 4.5500E+01 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 0 C.0000E+00
- 9. 9000E+01 C.0000E+00 0.0000E+00
- 9. 5000E+01 0.0000E+00 C.0000E+00
- 9. 5000E+01 C.0000E+00 1.8800E-02 C.0000E+00 C.0000E+00 C.0000E+00 C.0CCCE+00 C.0000E+00 C.0000E+00 0.0000E+00 2.0000E+03 3.0C00E+02 0.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00 0.0000E+00
.XcefI Calculation No. GEN-PI-078 Revision No. 1 Page No. 171 of 277 0 0 0 Pathway 3: 0 0 0 0 0 1 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 0 0 0 2.0000E+03 3.0000E+02 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 o.0000E+00 o.0000E+00 0.0000E+00 0 Dose Locations:
3 Location 1: Exclusion Area Boundary 2 1 2 C.0CCCE+00 7.2000E+02 1 2 0.0000E+00 7.2000E+02 0 6.4900E-04 C.0000E+00 3.5000E-04 C.0000E+00 Location 2: Low Population Zone 2 1 5 0.0O00E+00 8.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 1 4 C.0000E+00 8.0000E+00 2 4000E+01 7.2000E+02 0 Location 3: Control Room 3 0 1 2 1.7700E-04 3.9900E-05
- 7. 1200E-06 1.0400E-06 C.0000E+00 3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 SXcelEnergY" Calculation No. GEN-PI-078 Revision No. I Page No. 172 of 277 0.OOOOE+00 3.5000E-04 7.2000E+02 O.000E+00 1 4 0.OOCOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 Effective Volume Location: 1 6 0.0OOOE+00 3.0700E-02 2.OOOE+00 2.4900E-02 8.0000E+00 1.1200E-02 2.4000E+01 7.7800E-03 9.6000E+01 6.1700E-03 7.2000E+02 O.0000E+00 Simulation Parameters:
6 O.OOOE+00 1.OOOOE-01 2.OO0E+00 5.OOOOE-01 8.OOOOE÷00 1.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 4.0O00E+00 7.2000E+02 0.0000E+00 Output Filename: G:\Radtrad 3.o5 1 1 1 0 0 End of Scenario File IXceInergy Calculation No. GEN-PI-078 Revision No. I Page No. 173 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:45:30 Plant Description
- 4####444#4###4#####4#4##4##4#444##########44##444#444##444######44#######
Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments
= 3 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: RCS to Environment Compartment number 2 Name: Environment Compartment type is Environment Pathways into and out of compartment 2 Inlet Pathway Number 1: RCS to Environment Inlet Pathway Number 3: Control Room to Environment Exit Pathway Number 2: Environment to Control Room Compartment number 3 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 3 Inlet Pathway Number 2: Environment to Control Room Exit Pathway Number 3: Control Room to Environment Total number of pathways = 3 Xce Ener] Calculation No. GEN-PI-078 Revision No. 1 Page No. 174 of 277 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:45:30######################S##########c#####################################
- 4##4#######4#############################*##########
Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 1.0000E+00 0.OOOOE+00 0.OOOOE+00
- 0. 0000E+00 0. 0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 EARLY IN-VESSEL 0.0000 hrs 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)4. 811E+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Inventory Power 1852. MWt Nuclide Name Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Specific Inventory (Ci/MWt)1 3.487E-02 1 9.695E-01 1 1.414E-01 1 9.162E-02 1 2.571E-01 1 1.823E-01 1 2.313E+01 1 3.247E-01 1 7.329E-01 1 4.465E-02 1 5.417E-02 half life (s)6.588E+03 3. 383E+08 1. 613E+04 4 .578E+03 1. 022E+04 1. 028E+06 4. 532E+05 1. 890E+05 3. 272E+04 9. 174E+02 8. 502E+02 Whole Body DCF (Sv-m3/Bq-s) 1 .500E-18 1. 190E-16 7. 480E-15 4. 120E-14 1. 020E-13 3. 890E-16 1. 560E-15 1. 370E-15 1. 190E-14 2. 040E-14 5 .770E-14 Inhaled Thyroid (Sv/Bq)0 OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0 00 E+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 Daughter none none none none none none none none none none Inhaled Effective (Sv/Bq)0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Fraction 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 Daughter none none none none Xe-133 Xe-135 none none none none Fractior 0.00 0.00 0.00 0.00 0.97 0.85 0.00 0.00 0.00 0.00 Iodine fractions Aerosol = 0.OOOOE+00 Elemental
= 9.7000E-01 XceI ,eq y ion No. GEN-PI-078 Revision No. I Page No. 175 of 277 Organic 3.0000E-02 COMPARTMENT DATA Compartment number 1: RCS Compartment number 2: Environment Compartment number 3: Control Room Compartment Filter Data Time (hr)0.0OO0E+00 8.3300E-02 7.2000E+02 Flow Rate (c fm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Aerosol 0.OOOOE+00
- 9. 9000E+01 0.0000E+00 Efficiencies Elemental 0.0000E+00 9.5000E+01 0.OOOOE+00
(%)Organic 0.0000E+00
- 9. 5000E+01 0.0000E+00 PATHWAY DATA Pathway number 1: RCS to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 4.5500E+01 Flow Rate (cfm)1.8800E-02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 2: Environment to Control Room Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.OO0E+02 C.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0O00E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 3: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Aerosol C.0000E+00 C.0000E+00 C.0000E+00 Efficiencies Elemental 0.0000E+00 0.0000E+00 0.0000E+00 s(%)Organic 0.0000E+00 0.0000E+00 0.0000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 2 Location X/Q Data Time (hr)C.0000E+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 C.0000E+00 XceI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 176 of 277 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)O.0OOOE+00 3.5000E-04 7.2000E+02 O.0O00E+00 Location Low Population Zone is in compartment Location X/Q Data Time (hr) X/Q (s
- m^-3)0.OOOE+00 1.7700E-04 8.OOOE+00 3.9900E-05 2.4000E+01 7.1200E-06 9.6000E+01 1.0400E-06 7.2000E+02 O.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.0OOOE+00 3.5000E-04 8.OOOOE+00 1.8000E-04 2.4000E+01 2.3000E-04 7.2000E+02 0.OOOOE+00 Location Control Room is in compartment 3 Location X/Q Data Time (hr) X/Q (s
- m^-3)O.000E+00 3.0700E-02 2.OOOOE+00 2.4900E-02 8.OO0E+00 1.1200E-02 2.4000E+01 7.7800E-03 9.6000E+01 6.1700E-03 7.2000E+02 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)O.OOOOE+00 3.5000E-04 7.2000E+02 O.OOOE+00 Location Occupancy Factor Data Time (hr) Occupancy Factor O.OO0E+00 1.OOOOE+00 2.4000E+01 6.0000E-01 9.6000E+01 4.OOOOE-01 7.2000E+02 O.OOOOE+00 USER SPECIFIED TIME STEP DATA -SUPPLEMENTAL TIME STEPS Time Time step O.OOOOE+00 1.OOOOE-01 2.OOOOE+00 5.0OO0E-01 8.OOOOE+00 1.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 4.OO0E+00 7.2000E+02 O.OOOOE+00 2
4~XceIEnergyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 177 of 7 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:45:30#### 6# # #6 #68 6 88#8 88#8 88#8 6 8 8 8 8 88888 88888 8 8 8 88888 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8888 8 8888 8888 Dose, Detailed model and Detailed Inventory Output Exclusion Area Boundary Doses: Time (h) = 0.0036 Whole Body Delta dose (rem) 1.3746E-07 Accumulated dose (rem) 1.3746E-07 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 3.7488E-08 3.7488E-08 Whole Body 6.3034E-10 6.3034E-10 Thyroid 2.4466E-13 2.4466E-13 Thyroid 6.6724E-14 6.6724E-14 Thyroid 4. 0659E-14 4. 0659E-14 TEDE 1.3746E-07 1.3746E-07 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Cs-138 0.0036 Ci 7.1560E-07 1.9923E-05
- 2. 9041E-06 1.8791E-06 5.2787E-06 3.6200E-08 3.7462E-06 4.7531E-04 6.6722E-06 1.5059E-05
- 9. 1849E-07 1. 1015E-06 4. 1944E-09 kg 3.4684E-17
- 5. 0781E-11 3. 5289E-16 6. 6339E-17 4.2098E-16
- 3. 0157E-19 4.4725E-14 2 .5393E-12 1.4870E-14
- 6. 3093E-10 Atoms 2. 5165E+08 3. 5978E+14 2.5002E+09 4.5920E+08 2.8809E+09 2.0637E+06
- 2. 0560E+ll 1. 1498E+13 6.7330E+10
- 2. 6305E+10 4.4979E+07 4.9989E+07 4.3256E+05 Decay 2.4367E+05 6.7808E+06 9.8861E+05 6 .3999E+05 1 .7972E+06 1.8629E+03 1.2750E+06 1 6177E+08 2.2709E+06 5 1256E+06 3 1363E+05 3 .7631E+05 2 .1693E+02 IF~Xcei Energ Calculation No. GNP-7 Revision No. I Page No. 178 of 277 Control Room Transport Time (h) ý 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 3.7158E+14 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.0069E-19 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.OOOOE+00 0.0000E+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.00O0E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) ý 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 Transported 3 .7245E+14 0.OOOOE+00 0.0000E+00 5.2351E-20 Control Room to Environment Transport Group Inventory:
Time (h) ý 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8.7306E+ll 0.OOOOE+00 0.OOOOE+00 1.8402E-22 Exclusion Area Boundary Doses: Time (h) ( 0.0833 Whole Body Delta dose (rem) 6.0874E-06 Accumulated dose (rem) 6.2249E-06 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 7.7735E-11 7.7979E-11 Thyroid 2.1200E-1l 2.1267E-11 Thyroid 2.7835E-10 2.7839E-10 TEDE 6.0886E-06 6.2260E-06 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 1.6602E-06 1.6977E-06 Whole Body 7.6913E-07 7.6976E-07 TEDE 1.6605E-06 1.6980E-06 TEDE 7. 7316E-07 7.7379E-07 Control Room Compartment Nuclide Inventory:
Time (h) = 0.0833 Ci kg Atoms Kr- 83m 2.9126E-05 1.4117E-15 1.0243E+10 Decay 3. 1416E+08 XceI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 179 of 277 Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Cs-138 8. 3575E-04 1 .2033E-04 7 .5475E-05 2 1717E-04 4 .2017E-05 1. 5712E-04 1 .9930E-02 2. 7960E-04 6. 2810E-04 3. 1114E-05 3. 6569E-05 4. 3897E-06 2 .1302E-09 1. 4622E-14 2 6645E-15 1 .7319E-14 3. 5003E-16 1. 8758E-12 1. 0647E-10 6. 2312E-13 2 4595E-13 3. 4157E-16 3. 8031E-16 1. 0374E-16 1.5092E+16
- 1. 0359E+11 1. 8444E+10 1. 1852E+II 2.3954E+09
- 8. 6231E+12 4. 8211E+14 2. 8215E+12 1. 0972E+12 1.5237E+09 1.6596E+09
- 4. 5271E+08 8 .8791E+09 1 .2863E+09 8 1954E+08 2 .3299E+09 1. 3780E+07 1 .6694E+09 2 .1179E+II 2. 9721E+09 6. 6911E+09 3. 6916E+08 4 .3775E+08 1. 6621E+06 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 1.5587E+16 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 4.5377E-16 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.0000E+00 0.OOOOE+00 Deposition Surfaces 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Transported 1.6864E+16 0.0000E+00 0.000OE+00 1.-6685E-17 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.2772E+15 0.OOOOE+00 0.0000E+00 1.2912E-18 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4.7363E-07 4.7371E-07 Exclusion Area Boundary Doses: Time (h) = 8.0000 Whole Body Delta dose (rem) 4.5080E-04 Accumulated dose (rem) 4.5702E-04 TEDE 4.5841E-04 4.6463E-04 Low Population Zone Doses: Time (h)8.0000 Whole Body Thyroid TEDE
.. :Xcel Calculation No. GEN-PI-078 Revision No. I Page No. 180 of 277 Delta dose (rem) 1.2295E-04 Accumulated dose (rem) 1.2464E-04 Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)1.2917E-07 1.2919E-07 Thyroid 5. 1753E-06 5. 1756E-06 Whole Body 4.0877E-04 4.0954E-04 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Cs-138 8.0000 Ci 7.4781E-06 4.3037E-03 1.8206E-04 5.1945E-06
- 1. 6198E-04 9.5684E-05 7.9373E-04
- 9. 8316E-02 1.2970E-03
- 1. 7712E-03 5. 4224E-10 kg 3. 6245E-16 1.0969E-08 2 .2123E-14 1.8338E-16 1.2917E-14
- 7. 9711E-16 9.4761E-12
- 5. 2524E-10 2.8905E-12
- 6. 9357E-13 1.2814E-20 1.2502E-04 1.2672E-04 TEDE 4.9306E-04 4.9383E-04 Atoms 2.6298E+09 7.7717E+16
- 1. 5674E+ll 1.2694E+09
- 8. 8399E+10 5.4549E+09
- 4. 3562E+13 2. 3783E+15 1. 3088E+13 3. 0939E+12 5. 5921E+04 Decay 3. 1358E+10 3 .5756E+12 2 .7109E+ll 5.3304E+10
- 3. 5512E+ll 1.4148E+ll
- 6. 6493E+ll 8.3216E+13 1.1277E+12
- 1. 9348E+12 1.5081E+09 Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci!cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 8.0155E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 7.9712E-16 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.0602E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 2.2708E+17 0.OOOOE+00 0.OOOOE+00 1.3258E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Pathway Filtered 1.4683E+17 0.OOOOE+00 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 XceI Energy Calculation No. GEN-PI-078 Revision No. I Page No. 181 of 277 Aerosols (kg)3.4189E-15 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 5.7681E-04 Accumulated dose (rem) 1.0338E-03 Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 3.5462E-05 1.6010E-04 Whole Body 4.3673E-04 8.4627E-04 Thyroid 1. 1602E-07 5.8973E-07 Thyroid 3.6685E-09 1.3286E-07 Thyroid 1. 1965E-06 6. 3721E-06 TEDE 5.7872E-04 1.0434E-03 TEDE 3.5522E-05 1.6224E-04 TEDE 4.5647E-04 9.5030E-04 Atoms 2.9652E+06
- 3. 7544E+16 6. 3701E+09 1.0003E+05
- 8. 6017E+08 2.4097E+08
- 2. 0245E+13 1. 0533E+15 5. 1196E+12 4. 4129E+11 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 24.0000 Ci 8.4317E-09 2.0791E-03 7.3993E-06 4.0935E-10 1.5761E-06 4.2268E-06 3.6888E-04 4.3543E-02 5.0734E-04 2.5263E-04 kg 4.0867E-19 5.2992E-09
- 8. 9911E-16 1.4451E-20 1.2569E-16
- 3. 5212E-17 4. 4040E-12 2. 3262E-10 1. 1307E-12 9. 8925E-14 Decay 3 .3371E+10 8.9324E+12
- 3. 6721E+l1 5.4334E+10 4.1703E+11 1.6089E+ll 1.6361E+12
- 2. 0099E+14 2 .6002E+12 3 .2992E+12 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 3.8624E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.5212E-17 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.6792E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 Transported 4.0714E+17 0.OOOOE+00 XceIfnergy Calculation No. GEN-PI-078 Revision No. I Page No. 182 of 277 Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.0000E+00 0.0000E+00 1.4589E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 3.6829E+17 0.0000E+00 0.0000E+00 3.9400E-15 Exclusion Area Boundary Doses: Time (h) ý 45.5000 Whole Body Delta dose (rem) 6.3118E-04 Accumulated dose (rem) 1.6650E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4.6053E-09 5.9434E-07 Thyroid 3.3201E-11 1.3290E-07 Thyroid 1.9881E-08 6.3920E-06 Low Population Zone Doses: Time (h) = 45.5000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 45.5000 Delta dose (rem)Accumulated dose (rem)Whole Body 6.9245E-06 1.6703E-04 Whole Body 1.7304E-04 1.0193E-03 TEDE 6.3126E-04 1.6746E-03 TEDE 6. 9251E-06 1. 6917E-04 TEDE 1.7336E-04 1 .1237E-03 Atoms 2. 5723E+16 1.5679E+08
- 3. 1010E+06 4. 7118E+05 1. 3168E+13 6. 4200E+14 2. 6414E+12 5. 8690E+10 Control Room Compartment Nuclide Inventory:
Time (h) = 45.5000 Kr-85 Kr-85m Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Ci 1.4245E-03
- 1. 8212E-07 5. 6821E-09 8.2649E-09 2.3992E-04 2.6540E-02
- 2. 6176E-04 3.3598E-05 kg 3.6307E-09 2 .2130E-17 4.5314E-19 6.8852E-20 2.8644E-12 1.4179E-10
- 5. 8336E-13 1.3157E-14 Decay 1.3271E+13 3.7202E+11 4.1772E+lI 1.6097E+ll 2 .3869E+12 2.8693E+14 3.5274E+12
- 3. 5677E+12 Group Inventory:
Atmosphere Sump 2.6381E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 6.8852E-20 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 XceI Eneray. Calculation No. GEN-PI-078 Revision No. I Page No. 183 of 277 Aerosols (kg)0.OOOOE+00 4.6845E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 5.7404E+17 0.OOOOE+00 0.0000E+00 1.4626E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.4735E+17 0.0000E+00 0.OOOOE+00 3.9445E-15 Exclusion Area Boundary Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 0.OOOOE+00 Accumulated dose (rem) 1.6650E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00 5.9434E-07 Thyroid 0.OOOOE+00 1.3290E-07 Thyroid 3.0051E-11 6.3920E-06 Low Population Zone Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 1.6703E-04 Whole Body 2.3278E-05 1.0426E-03 TEDE 0.OOOOE+00 1.6746E-03 TEDE 0.OOOOE+00 1 .6917E-04 TEDE 2.3279E-05
- 1. 1469E-03 Atoms 9.3693E+09 4.2445E+06 1.7754E+08
- 4. 9418E+05 Control Room Compartment Nuclide Inventory:
Time (h) = 96.0000 Kr-85 Xe-131m Xe-133 Xe-133m Ci 5. 1884E-10 7. 7338E-11 7.3396E-09
- 4. 8972E-11 kg 1.3224E-15 9.2332E-19
- 3. 9211E-17 1. 0914E-19 Decay 1.3833E+13 2.4808E+12
- 2. 9722E+14 3. 6262E+12 Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Atmosphere Sump 9.5516E+09 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 2.0332E-31 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating XcelEnerqyl Calculation No. GEN-PI-078 T Revision No. I FPage No. 184 of 277 Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Surfaces 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 Filter 0.0000E+00 0.0000E+00 0.0000E+00
- 4. 6845E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Transported 5 .7404E+17 0.OOOOE+00 0.0000E+00 1.4626E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.7371E+17 0.OOOOE+00 0.0000E+00 3.9445E-15 Exclusion Area Boundary Doses: Time (h) = 720.0000 Whole Body Delta dose (rem) 0.OOOOE+00 Accumulated dose (rem) 1.6650E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00 5.9434E-07 Thyroid 0.0000E+00 1.3290E-07 Thyroid 4.4162E-23 6.3920E-06 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 1.6703E-04 Whole Body 4.2581E-12 1.0426E-03 TEDE 0.OOOOE+00 1.6746E-03 TEDE 0.OOOOE+00 1 .6917E-04 TEDE 4.2581E-12
- 1. 1469E-03 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Ci kg Atoms Decay Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Atmosphere Sump 2.5924E-70 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.0744-177 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating XI' Cal nNo. GEN-PI-078 Revision No. I Page No. 185 of 277 Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 4. 6845E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 5.7404E+17 0.OOOOE+00 0.0000E+00 1.4626E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.7371E+17 0.OOOOE+00 0.OOOOE+00 3.9445E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 840 1-131 Summary Time (hr)0.000 0. 004 0.083 0.400 0.700 1. 000 1.300 1. 600 1. 900 2.200 2.500 2.800 3. 100 3.400 3.700 4. 000 4.300 4. 600 4.900 5.200 5.500 5.800 6.100 6.400 6.700 RCS 1-131 (Curies)0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00.0. 0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 Environment 1-131 (Curies)0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0. OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 Control Room 1-131 (Curies)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Xce...er.y.Calculation No. GEN-PI-078 Revision No. I age No. 186 of 277 7.000 7.300 7. 600 7. 900 8.000 8.300 8. 600 8. 900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Cumulative Dose Summary Exclusion Area Bounda Low Populatio Time Thyroid TEDE Thyroid (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.200 2.500 2. 800 3.100 3.400 3.700 4. 000 4.300 4. 600 4. 900 5.200 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7. 600 7. 900 8.000 8.300 8-.600 (rem)0.OOOOE+00 2.4466E-13
- 7. 7979E-11 1.7321E-08 4.6811E-08
- 8. 0155E-08 1. 1354E-07 1.4542E-07 1.7527E-07 2.0298E-07 2.2864E-07 2.5237E-07 2.7434E-07 2.9468E-07
- 3. 1353E-07 3. 3102E-07 3.4724E-07 3.6229E-07 3.7627E-07 3.8925E-07 4.0130E-07 4.1251E-07 4.2291E-07 4.3258E-07
- 4. 4157E-07 4.4992E-07 4.5767E-07 4.6488E-07 4.7158E-07
- 4. 7371E-07 4.7979E-07 4.8543E-07 (rem)0.OOOOE+00 1.3746E-07 6.2260E-06 3.0933E-05 5.4357E-05 7.7269E-05 9.9478E-05 1.2094E-04
- 1. 4167E-04 1. 6172E-04 1.8112E 2-04 1.9993E-04
- 2. 1819E-04 2.3594E-04 2.5322E-04 2.7007E-04
- 2. 8651E-04 3.0257E-04
- 3. 1828E-04 3.3366E-04 3.4873E-04 3.6352E-04 3.7803E-04 3.9229E-04
- 4. 0631E-04 4.2010E-04 4.3369E-04 4.4707E-04 4.6027E-04 4.6463E-04 4.7760E-04 4.9040E-04 (rem)0.0000E+00
- 6. 6724E-14 2. 1267E-11 4 .7238E-09 1. 2767E-08 2 .1860E-08 3. 0965E-08 3. 9660E-08 4 .7800E-08 5. 5358E-08 6.2355E-08
- 6. 8829E-08 7. 4820E-08 8.0368E-08 8 .5509E-08 9. 0277E-08 9. 4701E-08 9. 8806E-08 1.0262E-07 1.0616E-07 1 .0945E-07 1.1250E-07 1 .1534E-07 1. 1798E-07 1. 2043E-07 1 .2270E-07 1.2482E-07 1 .2679E-07 1.2861E-07 1.2919E-07 1 .2939E-07 1.2956E-07 0.0 3.7 1.6 8.4 1.4 2.1 2.7 3.2 3.8 4.4 4.9 5.4 5.9 6.4 6.9 7.3 7.8 8.2 8.6 9. 0 9.5 9.9 1.0 1.0 1.1 1.1 1. 1 1.2 1.2 1.2 1.2 1.2 n Zone Control Room TEDE Thyroid TEDE (rem) (rem) (rem)000E+00 0.OOOOE+00 0.OOOOE+00 7489E-08 4.0659E-14 6.3093E-10 980E-06 2.7839E-10 7.7379E-07 363E-06 1.1519E-07 9.9732E-06
- 825E-05 3.2525E-07 2.2645E-05
.073E-05 5.8103E-07 3.7962E-05
'130E-05 8.5926E-07 5.5244E-05 984E-05 1.1484E-06 7.4039E-*05
- 638E-05 1.4417E-06 9.4017E-05 104E-05 1.7311E-06 1.1474E-04 396E-05 2.0067E-06 1.3556E-04 526E-05 2.2708E-06 1.5642E-04 506E-05 2.5238E-06 1.7727E-04 348E-05 2.7655E-06 1.9806E-04 061E-05 2.9957E-06 2.1874E-04 656E-05 3.2145E-06 2.3929E-04 139E-05 3.4219E-06 2.5967E-04 520E-05 3.6182E-06 2.7986E-04
- 804E-05 3.8036E-06 2.9986E-04
)999E-05 3.9784E-06 3.1964E-04 109E-05 4.1431E-06 3.3921E-04 141E-05 4.2981E-06 3.5857E-04 310E-04 4.4436E-06 3.7769E-04
)699E-04 4.5802E-06 3.9660E-04
.081E-04 4.7083E-06 4.1529E-04
.457E-04 4.8284E-06 4.3376E-04
.828E-04 4.9408E-06 4.5202E-04 193E-04 5.0460E-06 4.7008E-04 553E-04 5.1443E-06 4.8793E-04 672E-04 5.1756E-06 4.9383E-04 751E-04 5.2614E-06 5.1095E-04 830E-04 5.3365E-06 5.2705E-04 XceI nergy alculation No. Revision No. I Page No. 187 of 277 8.900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 4.9068E-07 4.9556E-07 5.0009E-07 5.0430E-07
- 5. 0821E-07 5. 1185E-07 5.8973E-07 5.9434E-07 5.9434E-07 5.9434E-07 5.0305E-04
- 5. 1556E-04 5.2792E-04
- 5. 4015E-04 5.5226E-04 5.6426E-04 1.0434E-03 1.6746E-03 1.6746E-03 1.6746E-03 1.2973E-07 1.2988E-07 1.3003E-07 1.3016E-07 1.3028E-07 1.3040E-07 1.3286E-07 1.3290E-07 1.3290E-07 1.3290E-07 1.2907E-04 1.2984E-04 1.3060E-04 1.3135E-04 1.3209E-04 1.3282E-04 1.6224E-04
- 1. 6917E-04 1. 6917E-04 1. 6917E-04 5.4032E-06 5.4629E-06 5.5164E-06 5.5644E-06 5.6076E-06 5.6465E-06
- 6. 3721E-06 6.3920E-06 6.3920E-06 6.3920E-06 5.4225E-04 5.5665E-04 5.7032E-04 5.8333E-04 5.9574E-04
- 6. 0761E-04 9.5030E-04
- 1. 1237E-03 1. 1469E-03 1. 1469E-03 Worst Two-Hour Doses###*#######################4#######4##########ý##ý####*################
Exclusion Time (hr)0.0 Area Boundar)Whole Body (rem)1.4549E-04 Thyroid (rem)1.8450E-07 TEDE (rem)1.4835E-04 XceI nergyl Calculation No. GEN-PI-078 Revision No. I Page No. 188 of 277 Attachmentl13.7 RADTRAD Output File PMSFCI01.o0 RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 2:51:59 File information
- 4###############
Plant file Inventory file Release file Dose Conversion file=G:=g:=g:=g:\Radtrad 3.03\Input\PI\GEN-PI-078\PMSFCIOl.psf
\radtrad 3.03\defaults\pimsconcdef.txt
\radtrad 3.03\defaults\pingp iodine rft.txt\radtrad 3.03\defaults\pingp~fgll&12.txt
- ######t #it i it# it ##tii it### #i### i# #### ## ## # ### # ## # #it iti#it iti#it ititititit it it it it it it it it it it itititit it Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -From Faulted SG During & Following Dryout Nuclide Inventory File: g:\radtrad 3.03\defaults\pimsconc def.txt Plant Power Level: 1.8520E+03 Compartments:
5 Compartment 1: Fuel 3 1.0000E+03 0 0 0 0 0 Compartment 2: RCS 3 5.2900E+03 0 0 0 0 0 Compartment 3: Environment 2 Concurrent Iodine Spike with Iodine Release
- Xr Calculation No. GEN-PI-078 Revision No. I Page No. 189 of 277 o.OOOOE+00 0 0 0 0 0 Compartment 4: Control Room 1 6. 1315E+04 0 0 1 0 0 Compartment 5: Faulted SG 3 1.7160E+03 0 0 0 0 0 Pathways: 6 Pathway 1: Fuel to RCS 1 2 2 Pathway 2: RCS to Environment 2 3 2 Pathway 3: Environment 3 4 2 to Control Room Pathway 4: Control Room to Environment 4 3 2 Pathway 5: RCS to Faulted SG 2 5 2 Pathway 6: Faulted SG to 5 3 Environment 2 End of Plant Model File Scenario Description Name: Plant Model Filename:
SXcelEneryl Calculation No. GEN-PI-078 Revision No. 1 Page No. 190 of 277 Source Term: 1 1 1.0O00E+00 g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingpiodinerft.txt o.OOOOE+00 1 0.0OCOE+00 9.7000E-01 3.OOOOE-02 1.OOOOE+00 Overlying Pool: 0 o.OOOE+00 0 0 0 0 Compartments:
5 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 0 1 0 0 0 0 0 0 0 Compartment 4: 1 1 0 0 0 0 1 3.6000OE+03 3 o .OOOOE+00 8. 3300E-02 0.OOOOE+00
- 9. 9000E+01 0.OOOOE+00 9.5000E+01 0.OOOOE+00
- 9. 5000E+01 SXce~negylCalculatinN.G -P07 Revision No. I Page No. 191 of 277 7.2000E+02 O.OOOOE+00 0 0 Compartment 5: 0 1 0 0 0 0 0 0 0 Pathways: 6 Pathway 1: 0 0 0 0 0 0.OOOOE+00 0.OOOOE+00 1 2 o.OOOOE+00 8.OOOOE+00 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 o.OOOOE+00 1.6700E-01 7.5000E+01 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 o.OOOOE+00 8.3300E-02 7.2000E+02 0 9.6000E+00 o.OOOOE+00
- 1. 8100E-01 o.OOOOE+00 0.OOOOE+00 2.OOOOE+03 3.OOOOE+02 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 0.0000E+00 o.OOOOE+00 o.OOOOE+00 0.0000E+00 o.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
" q "lEnergy:
Calculation No. GEN-PI-078 Revision No. 1 Page No. 192 of 277 0 0 0 0 0 Pathway 4: 0 0 0 0 0 1 3 o .OOOOE+0O 8 .3300E-02 7 .2000E+02 0 0 0 0 0 0 Pathway 5: 0 0 0 0 0 1 3 o.OOOOE+00
- 1. 6700E-01 7 .5000E+/-01 0 0 0 0.0 0 Pathway 6: 0 0 0 0 0 1 3 o .OOOOE+00 I1. 6700E-01 7 .5000E+01 0 0 0 2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 o.OOOOE+00
- 1. 8100E-01 o.OOOOE+00 0.OOOOE+00
- 1. 8100E-01 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 0 0 0 Dose Locations:
3 Location 1: Exclusion Area Boundary XceIfnergy.
Calculation No. GEN-PI-078 Rvso o aeN.13o 7 Revision No. I Page No. 193 of 277 3 1 2 o.0O00E+00 7.2000E+02
.2 o.0O00E+00 7.2000E+02 0 6.4900E-04 0.OOO0E+00 3.5000E-04 0.0000E+00 Location 2: Low Population Zone 3 1 5 0.0000E+00 1.7700E-04 8.0000E+00 3.9900E-05 2.4000E+01 7.1200E-06 9.6000E+01 1.0400E-06 7.2000E+02 0.0000E+00 1 4 0.OOOOE+00 3.5000E-04 8.0O00E+00 1.8000E-04 2.4000E+01 2.3000E-04 7.2000E+02 0.0000E+00 0 Location 3: Control Room 4 0 1 2 0.OOOOE+00 3.5000E-04 7.2000E+02 0.OOOOE+00 1 4 0.OOOOE+00 1.OOOOE+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.0000E-01 7.2000E+02 0.OOOOE+00 Effective Volume Location: 1 6 0.OOOOE+00 4.7900E-03 2.0000E+00 3.6000E-03 8.OOOOE+00 1.6000E-03 2.4000E+01 1.2100E-03 9.6000E+01 9.5500E-04 7.2000E+02 0.OOOOE+00 Simulation Parameters:
6 0.OOOOE+00 1.0000E-01 2.0000E+00 5.0000E-01 8.0000E+00 1.0000E+00 2.4000E+01 2.0000E+00 9.6000E+01 4.0000E+00 7.2000E+02 0.0000E+00 Output Filename: G:\Radtrad 3.oO XceI Energy] Calculation No. GEN-PI-078 T Revision No. I FPage No. 194 of 277 1 1 1 0 End of Scenario File XceI Energy Calculation No. GEN-PI-078 Revision No. I Page No. 195 of 277 I#################*######################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 2:51:59################4#######################################################
- O#######4#ý#*###################################################
Plant Description
- 4############################################
Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments
= 5 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Fuel Compartment volume = 1.OOOOE+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Fuel to RCS Compartment number 2 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Fuel to RCS Exit Pathway Number 2: RCS to Environment Exit Pathway Number 5: RCS to Faulted SG Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 2: RCS to Environment Inlet Pathway Number 4: Control Room to Environment Inlet Pathway Number 6: Faulted SG to Environment Exit Pathway Number 3: Environment to Control Room Compartment number 4 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 4 Inlet Pathway Number 3: Environment to Control Room Exit Pathway Number 4: Control Room to Environment Compartment number 5 Name: Faulted SG Compartment volume = 1.7160E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 5 Inlet Pathway Number 5: RCS to Faulted SG Exit Pathway Number 6: Faulted SG to Environment Total number of pathways = 6 XceIl Energy]Calculation No. GEN-PI-078 Revision No. I Page No. 196 of 277##########################4#############################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 2:51:59##############################4##*##*#######4###########################
- 4#################################################################
Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings GAP EARLY IN-VESSEL 0.003600 hr 0.0000 hrs NOBLES 0.0000E+00 0.0000E+00 IODINE 1.0000E+00 0.0000E+00 CESIUM 0.0000E+00 0.OOOOE+00 TELLURIUM 0.0000E+00 0.0000E+00 STRONTIUM 0.0000E+00 0.0000E+00 BARIUM 0.0000E+00 0.0000E+00 RUTHENIUM 0.0000E+00 0.0000E+00 CERIUM 0.0000E+00 0.0000E+00 LANTHANUM 0.0000E+00 0.0000E+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)0. OOOE+00 5. 452E-01 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOE+00 Inventory Power 1852. MWt Nuclide Name 1-131 1-132 1-133 1-134 1-135 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Specific Inventory (Ci/MWt)2 2.867E+01 2 7.675E+01 2 4.989E+01 2 3.141E+01 2 3.683E+01 half life (s)6. 947E+05 8.280E+03 7. 488E+04 3.156E+03 2. 380E+04 Whole Body DCF (Sv-m3/Bq-s) 1.820E-14 1.120E-13 2.940E-14 1.300E-13 8 .294E-14 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 0.OOOOE+00
- 9. 7000E-01 3.OOOOE-02 Daughter none none none none Xe-133 Xe-135 none none none none Fraction 0.00 0.00 0.00 0.00 0.97 0.85 0.00 0.00 0.00 0.00 Inhaled Thyroid (Sv/Bq)2.920E-07 1.740E-09 4. 860E-08 2.880E-10 8.460E-09 Daughter none none none none none none.none none none none Inhaled Effective (Sv/Bq)8.890E-09 1.030E-10 1.580E-09 3. 550E-11 3. 320E-I0 Fraction 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Iodine fractions Aerosol =Elemental
=Organic =COMPARTMENT DATA Compartment number Compartment number Compartment number 1: Fuel 2: RCS 3: Environment XceI Energy Calculation No. GEN-PI-078 Revision No. 1 Page No. 197 of 277 Compartment number 4: Control Room Compartment Filter Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Aerosol 0.OOO0E+00
- 9. 9000E+01 0.OOOOE+00 Efficiencies Elemental o.OOOOE+00 9.5000E+01 o.OOOOE+00
(%)Organic 0.OOOOE+00
- 9. 5000E+01 0.0000E+00 Compartment number 5: Faulted SG PATHWAY DATA Pathway number 1: Fuel to RCS Pathway Filter: Removal Data Time (hr)o.0000E+00 8.0000E+00 Flow Rate (cfm)9.6000E+00 O.O000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 2: RCS to Environment Pathway Filter: Removal Data Time (hr)O. 0000E+00 1.6700E-01 7.5000E+01 Flow Rate (cfm)1.61OE-01 o.0000E+00 o.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic D.0000E+00 0.0000E+00 0.D0OE+00 0.0000E+00 0.0000E+00 0.0000E+00 0:0000E+00 0.0000E+00 0.0000E+00 Pathway number 3: Environment to Control Room Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Pathway number 4: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0000E+00 O.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 O.0000E+00 0.0000E+00 Pathway number 5: RCS to Faulted SG Pathway Filter: Removal Data Time (hr) Flow Rate Filter Efficiencies
(%)(cfm) Aerosol Elemental Organic XcelEnergy Calculation No. GEN-PI-078 Revision No. I Page No. 198 of 277 o.OOOOE+00
- 1. 6700E-01 7. 5000E+01 0.OOOOE+00
- 1. 8100E-01 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Pathway number 6: Faulted SG to Environment Pathway Filter: Removal Data Time (hr)0.0000E+00 1.6700E-01 7.5000E+01 Flow Rate (cfm)o.OOOOE+00
- 1. 8100E-01 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic O.OOOOE+00 0.0OCOE+00 0.OOOOE+00 0.OOOOE+00 0.0OOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr)o.0000E+00 7.2000E+02 Location Breathing Time (hr)o.0000E+00 7.2000E+02 Location Low Popula Location X/Q Data Time (hr)o.0000E+00 8.OOOOE+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.0000E+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 0.0000E+00 tion Zone is in compartment 3 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 0.0000E+00 Location Breathing Rate DýTime (hr) Breathi 0.0000E+00 8.OOOOE+00 2 .4000E+01 7.2000E+02 Location Control Room ing Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 is in compartment 4 Location X/Q Data Time (hr)0.OOOOE+00 2.0000E+00 8.0000E+00 2 .4000E+01 9. 6000E+01 7.2000E+02 Location Breathing Time (hr)o.OOOOE+00 7.2000E+02 X/Q (s
- m^-3)4.7900E-03 3.6000E-03 1.6000E-03
- 1. 2100E-03 9.5500E-04 0.OOOOE+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 0.OOOOE+00 Location Occupancy Factor Data Time (hr) Occupancy Factor SXceEnerg Calculation No. GEN-PI-078 Revision No. 1 Page No. 199 of 277 o.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 USER SPECIFIED TIME Time 0.OOO0E+00 2.OOOE+00 8.OOO0E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 1.0000E+00 6.00O0E-01 4 .0OOOE-01 0.OOOOE+00 STEP DATA -SUPPLEMENTAL TIME STEPS Time step 1.OOD0E-01 5.O0O0E-01 1.0000E+00 2.OOOOE+00 4.OOGE+00 C.0000E+00 S XcelE ergyj I Calculation No. GEN-PI-078 Revision No. I Page No. 200 of 277#D#####################T####0#o6######0################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 2:51:59##4####444###444#########4#f#4##########4##4########4#44########44###4###4#
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Dose, Detailed model and Detailed Inventory Output 4Exclusion4AreaBoun#a44#4 ry#4##Doses:##44##4#44444444#4##444###
Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 2. 0113E-07 2. 0113E-07 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 5.4854E-08 5.4854E-08 Whole Body 1.3253E-10
- 1. 3253E-10 Thyroid 4.4704E-05 4.4704E-05 Thyroid 1. 2192E-05 1. 2192E-05 Thyroid 8.3237E-07 8.3237E-07 TEDE 1. 6115E-06 1. 6115E-06 TEDE 4.3950E-07 4.3950E-07 TEDE 2.6393E-08 2.6393E-08 Atoms 2. 2684E+10 7.2306E+08 4.2546E+09
- 1. 1259E+08 9.9788E+08 4.2364E+05 1.2665E+04 2.7407E+05 4.8287E+04 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-133 Xe-133m Xe-135 Xe-135m= 0.0036 Ci 6. 1176E-07 1. 6359E-06 1. 0644E-06 6. 6833E-07 7. 8559E-07 1. 7513E-11 1. 2551E-12 1. 5690E-10 9. 8604E-10 kg 4. 9346E-15 1.5849E-16
- 9. 3965E-16 2 .5053E-17 2. 2370E-16 9. 3561E-20 2 .7972E-21 6. 1438E-20 1. 0825E-20 Decay 2. 0431E+05 5.4656E+05
- 3. 5551E+05 2.2343E+05 2.6240E+05
- 1. 1206E+00 8.0308E-02 1.0038E+01
- 6. 2940E+01 Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Group Inventory:
Atmosphere Sump 7.6142E+05 0.OOOOE+00 2.7909E+10 0.OOOOE+00 8.6318E+08 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)4.7349E-16 SXceIEnergy]
Calculation No. GEN-PI-078 Revision No. I Page No. 201 of 277 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid) 5.9440E-16 Total I (Ci) 4.7661E-06 Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Deposition Surfaces o.0000E+00 o.0000E+00 o.0000E+00 o.0000E+00 Recirculating Filter o.0000E+00 o.OOOOE+00 o.0000E+00 o.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported
- 1. 4193E+05 2. 7960E+10 8.6475E+08 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) =Noble gases Elemental I 0.0036 (atoms)(atoms)Pathway Filtered 3.0250E+02 5.2936E+07 1.6372E+06 0.OOOOE+00 Organic I (atoms)Aerosols (kg)Exclusion Area Boundary Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 3.0420E-04 3.0440E-04 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 6.7666E-02 6.7711E-02 Thyroid 1.8454E-02 1.8467E-02 Thyroid 3. 7001E-02 3. 7001E-02 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 8.2964E-05 8.3019E-05 Whole Body 5.8868E-06 5.8869E-06 TEDE 2.4390E-03 2.4406E-03 TEDE 6. 6518E-04 6.6562E-04 TEDE 1. 1732E-03 1. 1733E-03 Atoms 3. 2645E+13 1. 0161E+12 6. 1084E+12 1. 5218E+11 1. 4245E+12 1.0638E+08
- 1. 6303E+10 4.8739E+08 1.0525E+10 1.8434E+09 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 0.0833 Ci 8. 8038E-04 2. 2991E-03 1. 5282E-03 9. 0331E-04 1. 1215E-03 1. 9382E-09 6. 7395E-07 4. 8299E-08 6. 0252E-06 3.7642E-05 kg 7. 1013E-12 2. 2273E-13 1.3490E-12 3.3861E-14
- 3. 1933E-13 2.3140E-17
- 3. 600SE-15 1. 0764E-16 2. 3594E-15 4. 1323E-16 Decay 9. 3477E+09 2 4703E+10 1. 6245E+10 9. 8984E+09 1. 1956E+10 6. 8736E+02 2. 3926E+05 1. 7142E+04 2 1372E+06 1. 2122E+07 XceI Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 202 of 277 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Group Inventory:
Atmosphere Sump 2.9265E+10 0.OOOE+00 4.0106E+13 0.OOOOE+00 1.2404E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)6. 8067E-13 8. 5268E-13 6.7324E-03 Time (h) =Noble gases Elemental I Organic I (at Aerosols (kg)Deposition 0.0833 Surfaces atoms) 0.OOOOE+00 atoms) 0.OOOOE+00 oms) 0.OOOOE+00 0.0000E+00 Recirculating Filter 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.0326E+09 4.2349E+13 1.3098E+12 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.2291E+07 2.1400E+12 6.6186E+10 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 0.1670 Whole Body Delta dose (rem) 8.9834E-04 Accumulated dose (rem) 1.2027E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 2. 0573E-01 2. 7344E-01 Thyroid 5. 6109E-02 7.4576E-02 Thyroid 8.2850E-02 1.1985E-01 Low Population Zone Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.1670 Delta dose (rem)Accumulated dose (rem)Whole Body 2.4500E-04 3.2802E-04 Whole Body 1.2809E-05 1.8696E-05 TEDE 7.3856E-03 9.8262E-03 TEDE 2. 0142E-03 2.6799E-03 TEDE 2.6253E-03 3.7985E-03 Atoms 3. 7825E+13 1. 1484E+12 7. 0601E+12 1. 6509E+ll Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 0.1670 Ci 1.0201E-03 2.5983E-03 1.7663E-03 9.7993E-04 kg 8.2282E-12 2.5172E-13
- 1. 5592E-12 3. 6733E-14 Decay 2. 0430E+10 5. 3278E+10 3. 5458E+10 2. 0895E+10 J 1. XceIEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 203 of 277 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 1. 2884E-03 5. 1861E-09 1. 8010E-06 1 .2902E-07 1. 6353E-05 8 7751E-05 3. 6689E-13 6. 1915E-17 9. 6217E-15 2.8753E-16
- 6. 4034E-15 9. 6331E-16 1. 6366E+12 2.8463E+08 4.3566E+10
- 1. 3019E+09 2. 8565E+10 4.2972E+09
- 2. 6011E+10 3. 5281E+04 1 .2264E+07 8 .7862E+05 1. 0985E+08 6. 1237E+08 Control Room Transport Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 7.8015E+10 0.0000E+00 4.6401E+13 0.OOOOE+00 1.4351E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)7. 8782E-13 9. 8477E-13 7. 6531E-03 Deposition Surfaces 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Recirculating Filter 0.0000E+00 1.1868E+13
- 3. 6707E+Il 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Transported 1.7533E+10
- 6. 1642E+13 1. 9064E+12 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.1670 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.0530E+09 3.1811E+12
- 9. 8384E+10 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body?6. 6461E-03 7.8488E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4.3458E+00
- 4. 6192E+00 Thyroid 1. 1852E+00 1.2598E+00 Thyroid 2.1063E+00
- 2. 2261E+00 Low Population Zone Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.812 6E-03 2. 1406E-03 Whole Body 1.4932E-04 1.6801E-04 TEDE 1. 4168E-01 1. 5151E-01 TEDE 3.8640E-02 4.1320E-02 TEDE 6.5714E-02
- 6. 9513E-02 SXcelEner l Calculation No. GEN-PI-078 Revision No. I Page No. 204 of 277 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m= 8.0000 Ci 5.4815E-04 1.3551E-04 7.5194E-04 1.1066E-06
- 3. 1320E-04 7.0543E-07 2.1948E-04 1.5153E-05 1.3156E-03 1.0886E-04 kg 4.4215E-12 1.3128E-14
- 6. 6378E-13 4. 1481E-17 8. 9183E-14 8. 4219E-15 1.1726E-12
- 3. 3770E-14 5. 1516E-13 1.1951E-15 Atoms 2. 0326E+13 5. 9893E+10 3. 0056E+12 1. 8642E+08 3. 9783E+ll 3. 8716E+10 5. 3093E+12 1. 5291E+ll 2 .2980E+12 5. 3309E+09 Decay 2. 9762E+1l 2. 6564E+1I 4. 5088E+I1 5. 4153E+10 2. 4456E+11 1.9726E+08
- 6. 2860E+10 4.3749E+09 4.2646E+ll
- 7. 0572E+10 Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 7.8043E+12 0.OOOOE+00 2.3075E+13 0.OOOOE+00 7.1367E+ll 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)3. 9348E-13 4.4930E-13 1.7499E-03 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 3.1486E+14
- 9. 7381E+12 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.2614E+13
- 3. 6904E+14 1.1414E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.0186E+12 2.9760E+13
- 9. 2040E+ll 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 2.6890E-02 3.4739E-02 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4. 0070E+01 4. 4689E+01 Thyroid 1.2669E+00 2.5267E+00 Low Population Zone Doses: TEDE 1. 2616E+00 1. 4131E+00 TEDE 4.0691E-02
- 8. 2011E-02 Time (h) = 24.0000 Whole Body Delta dose (rem) 1.6532E-03 Accumulated dose (rem) 3.7938E-03 xceifnergyf Calculation No. GEN-PI-078 Revision No., I Page No. 205 of 277 I Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 2.8411E-04
- 4. 5213E-04 Thyroid 7. 9018E+00 1. 0128E+01 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 24.0000 Ci 7 .8413E-04 1.6531E-06 6.6846E-04 8.8635E-05 4.8009E-06 1.1934E-03 7.6346E-05 2.3209E-03 5.0165E-05 kg 6. 3250E-12 1. 6015E-16 5. 9009E-13 2. 5239E-14 5. 7316E-14 6. 3757E-12 1.7015E-13
- 9. 0883E-13 5. 5070E-16 TEDE 2.4377E-01
- 3. 1329E-01 Atoms 2. 9076E+13 7. 3065E+08 2 6719E+12 1. 1259E+ll 2. 6349E+ll 2. 8868E+13 7. 7041E+ll 4. 0542E+12 2. 4566E+09 Decay 1.4541E+12 3.0801E+11 1.6645E+12
- 5. 3025E+ll 5.1037E+09
- 1. 3790E+12 9. 0959E+10 4.4109E+12 2 .2273E+ll Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 3.3959E+13 0.OOOOE+00 3.0905E+13 0.OOOOE+00 9.5584E+ll 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)5. 1719E-13 5. 5882E-13 1.5429E-03 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00
- 1. 4657E+15 4.5331E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.2752E+14 1.6313E+15
- 5. 0453E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 8. 9982E+13 1.3071E+14
- 4. 0426E+12 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 2. 9165E+02 3.3634E+02 Exclusion Area Boundary Doses: Time (h) = 75.0000 Whole Body Delta dose (rem) 8.8679E-02 Accumulated dose (rem) 1.2342E-01 TEDE 9.0072E+00
- 1. 0420E+01
- Xce nergy Calculation No. GEN-PI-078 I Revision No. I Page No. 206 of 277 Low Population Zone Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 9.7287E-04 4.7666E-03 Whole Body 4. 0918E-04 8. 6130E-04 Thyroid 2.1026E+00 4.6293E+00 Thyroid 2. 6236E+01 3. 6363E+01 Control Room Compartment Nuclide Inventory:
TEDE 6.5270E-02
- 1. 4728E-01 TEDE 8.0270E-01
- 1. 1160E+00 Atoms 4. 9162E+13 9. 9168E+ll 1.0877E+09
- 1. 7491E+12 9. 7924E+13 1. 9825E+12 3. 6948E+ll 2.3808E+07 Time (h) =1-131 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 75.0000 Ci 1. 3258E-03 2. 4810E-04 8. 5633E-07 3. 1870E-05 4. 0481E-03 1. 9647E-04 2 1152E-04 4. 8616E-07 kg 1. 0694E-11 2. 1901E-13 2 4384E-16 3. 8048E-13 2. 1627E-11 4. 3785E-13 8. 2827E-14 5. 3371E-18 Decay 8. 4444E+12 4. 4645E+12 6. 4677E+ll 1. 1834E+ll 1. 9662E+13 1. 0924E+12 1. 1143E+13 3. 0182E+ll Control Room Transport Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Group Inventory:
Atmosphere Sump 1.0203E+14 0.OOOOE+00 4.8650E+13 0.OOOOE+00 1.5046E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)7.8741E-13
- 8. 0185E-13 1.5748E-03 Time (h) =Noble gases Elemental I 75.0000 (atoms)(atoms)Deposition Surfaces 0.OOOOE+00 0.0000E+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 8.0181E+15 2.4798E+14 0.OOOOE+00 Organic I-(atoms)Aerosols (kg)Environment to Control Room Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 1. 2452E+15 8.7914E+15
- 2. 7190E+14 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.1174E+15 7.0548E+14 2.1819E+13 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 XceIEnergyi Calculation No. GEN-PI-078 Revision No. 1 Page No. 207 of 277 Exclusion Area Boundary Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.0000E+00 1.2342E-01 Low Population Zone Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 4.7666E-03 Whole Body 7.4826E-06 8.6879E-04 Thyroid 0.0000E+00 3.3634E+02 Thyroid 0.0000E+00 4.6293E+00 Thyroid 3.3886E-01
- 3. 6702E+01 TEDE 0.OOOOE+00
- 1. 0420E+01 TEDE 0.OOOOE+00
- 1. 4728E-01 TEDE 1.0345E-02
- 1. 1263E+00 Atoms 3.4940E+09
- 1. 8431E+ll 3. 1584E+09 1.5660E+08 Control Room Compartment Nuclide Inventory:
Time (h)Xe-131m Xe-133 Xe-133m Xe-135 96.0000 Ci 6.3663E-08 7.6193E-06 3.1299E-07
- 8. 9651E-08 kg 7. 6005E-16 4. 0705E-14 6. 9754E-16 3. 5106E-17 Decay 1.3066E+ll 2.1211E+13 1.1657E+12 1.1209E+13 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 1.9112E+11 0.OOOOE+00 2.8176E-20 0.OOOOE+00 8.7143E-22 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)4.5381E-46 4.5832E-46 8.5273E-37 Deposition Recirculating Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Filter 0.OOOOE+00
- 8. 0296E+15 2.4834E+14 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)(Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.2452E+15 8.7914E+15
- 2. 7190E+14 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Pathway Time (h) = 96.0000 Filtered Noble gases (atoms) 1.2176E+15 Elemental I (atoms) 7.0649E+14 Organic I (atoms) 2.1850E+13 Aerosols (kg) 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 X eEnergy CculatioNo.
GEN-PI-078Rs og .f I Revision No. I Page No. 208 of 277 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00
- 1. 2342E-01 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 4.7666E-03 Whole Body 4. 8514E-09 8.6879E-04 Thyroid 0.OOOOE+00 3.3634E+02 Thyroid 0.OOOOE+00 4.6293E+00 Thyroid 1.3020E-34
- 3. 6702E+01 TEDE 0.OOOOE+00
- 1. 1263E+00 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 1.9100E-70 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Filter 0.OOOOE+00
- 8. 0296E+15 2. 4834E+14 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.2452E+15 8.7914E+15 2 .7190E+14 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.2178E+15
- 7. 0649E+14 2.1850E+13 0.OOOOE+00 Transported O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 840 XceIEnergy]
Calculation No. GEN-PI-078 Revision No. I Page No. 209 of 277####################################################################
1-131 Summary####################################################################
Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10. 100 10.400 24.000 75. 000 96.000 720.000 Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 Fuel 1-131 (Curies)8.1926E+03 5.3041E+04 5.0647E+04 4.8248E+04 3.9780E+04 3.3431E+04 2.8095E+04 2.3611E+04 1.9843E+04 1.6676E+04
- 1. 4014E+04 1. 1778E+04 9.8980E+03 8.3183E+03 6.9907E+03 5.8750E+03 4.9373E+03
- 4. 1493E+03 3. 4871E+03 2.9306E+03 2.4628E+03 2.0698E+03 1.7394E+03 1.4618E+03 1.2285E+03 1.0324E+03 8.6766E+02 7.2919E+02 6.1281E+02 5.1500E+02 5.1445E+02 5.1389E+02 5.1334E+02 5.1279E+02 5.1224E+02 5.1168E+02 5.1113E+02 5.1058E+02 4.8624E+02 4.0484E+02 3.7543E+02 3.9907E+01 Control Room 1-131 (Curies)2.2527E-09 6.1176E-07 8.8038E-04 1.0201E-03 3.0587E-04 1.1182E-04 5.6355E-05 4.9806E-05 6.1713E-05 RCS 1-131 (Curies)1.3109E+00 5.5012E+01 2.4340E+03 4.8158E+03 1.3215E+04 1.9496E+04 2.4761E+04
- 2. 9172E+04 3.2864E+04 3.5953E+04 3.8535E+04 4.0691E+04 4.2488E+04 4.3985E+04 4.5229E+04 4.6260E+04 4.7113E+04
- 4. 7816E+04 4.8392E+04 4.8863E+04 4.9245E+04 4.9552E+04 4.9796E+04 4.9987E+04 5.0134E+04 5.0244E+04 5.0323E+04 5.0375E+04 5.0405E+04
- 5. 0417E+04 5.0332E+04 5.0247E+04 5.0162E+04 5.0077E+04 4.9992E+04 4.9907E+04 4.9823E+04 4.9739E+04 4.6063E+04 3.4540E+04 3.2030E+04 3.4047E+03 Faulted SG 1-131 (Curies)0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 6.2477E+00
- 1. 6345E+01 2. 9953E+01 4 .6488E+01 6.5459E+01 Environment 1-131 (Curies)4.9838E-07 1.3555E-04 2.0526E-01 8.2973E-01 8.3531E-01 8.5615E-01 8.9959E-01 9.7172E-01 1.0776E+00 1.2215E+00 1.4069E+00 1.6367E+00 1.9133E+00 2.2386E+00 2.6142E+00 3.0416E+00 3.5216E+00 4.0552E+00 4.6430E+00 5.2856E+00 5.9833E+00 6.7364E+00 7.5450E+00 8.4094E+00 9.3296E+00 1.0306E+01 1.1337E+01 1.2425E+01 1.3568E+01 1.4766E+01 1.6020E+01 1.7329E+01 1.8692E+01 2.0110E+01 2.1582E+01 2.3108E+01 2.4688E+01 2.6322E+01 1.5225E+02 1.2609E+03 1.2609E+03 1.2609E+03
~,XcelEnergyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 210 of 277 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 75.000 96. 000 720.000 8.1517E-05 8.5995E-05
- 1. 0133E-04 1.2104E-04
- 1. 4281E-04 1.6575E-04 1.8950E-04 2.1382E-04 2.3860E-04 2.6374E-04
- 2. 8914E-04 3.147 6E-04 3.4053E-04
- 3. 6641E-04 3.9236E-04 4.1835E-04 4.4436E-04 4.7036E-04 4.9634E-04 5.2227E-04
- 5. 4815E-04 3. 5716E-04 3.0072E-04 2.8935E-04 2.9305E-04
- 3. 0176E-04 3. 1212E-04 3.2299E-04 3.3399E-04
- 7. 8413E-04 1.3258E-03 7.7500E-37 0.OOOOE+00
- 8. 6454E+01 1. 0912E+02 1. 3318E+02 1.5838E+02
- 1. 8451E+02 2.1141E+02 2.3892E+02 2.6693E+02 2.9533E+02 3.2404E+02 3.5299E+02
- 3. 8211E+02 4.1135E+02 4.4068E+02 4.7006E+02 4.9945E+02 5.2883E+02
- 5. 5818E+02 5.8749E+02
- 6. 1673E+02 6.4590E+02 6.7496E+02 7.0388E+02 7.3266E+02
- 7. 6130E+02 7. 8981E+02 8.1818E+02 8.4642E+02
- 8. 7451E+02 2 .0135E+03 4.4632E+03 4.1389E+03 4.3995E+02
- C###############################u###e#######################
Cumulative Dose Summary####################################################################
Exclusion Area Bounda Low Population Zone Time (hr)0.000 0.004 0.083 0.167 0.500 0.800 1.100 1.400 1.700 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 Thyroid (rem)0.0000E+00 4.4704E-05
- 6. 7711E-02 2 .7344E-01 2 .7528E-01 2 8210E-01 2. 9626E-01 3. 1971E-01 3. 5401E-01 4. 0047E-01 4. 6013E-01 5. 3385E-01 6. 2230E-01 7 .2604E-01 8 .4550E-01 9. 8100E-01 1. 1328E+00 1 .3011E+00 1.4859E+00 TEDE (rem)0.0000E+00
- 1. 6115E-06 2.4406E-03 9.8262E-03
- 9. 8913E-03 1.0131E-02 1.0625E-02 1.1435E-02 1.2612E-02 1.4194E-02
- 1. 6214E-02 1.8696E-02 2.1660E-02
- 2. 5121E-02 2.9089E-02 3.3574E-02 3.8581E-02 4 .4115E-02 5.0177E-02 Thyroid (rem)0.0000E+00 1.2192E-05
- 1. 8467E-02 7. 4576E-02 7 .5075E-02 7.6935E-02 8.0799E-02 8 .7193E-02 9. 6548E-02 1. 0922E-01 1.2549E-01
- 1. 4559E-01 1. 6972E-01 1. 9801E-01 2. 3059E-01 2 .6754E-01 3. 0894E-01 3. 5484E-01 4. 0526E-01 TEDE (rem)0.0000E+00 4.3950E-07 6.6562E-04 2.6799E-03 2.6976E-03 2.7631E-03 2.8977E-03 3.1187E-03 3.4396E-03
- 3. 8711E-03 4.4220E-03 5.0990E-03 5.9073E-03
- 6. 8511E-03 7.9334E-03 9.1566E-03 1.0522E-02 1.2031E-02 1.3685E-02 Control Thyroid (rem)0 OOOOE+00 8.3237E-07
- 3. 7001E-02 1. 1985E-01 3. 2876E-01 3. 8918E-01 4 1369E-01 4. 2958E-01 4 .4663E-01 4. 6867E-01 4. 9412E-01 5. 2277E-01 5. 5678E-01 5. 9706E-01 6. 4405E-01 6. 9801E-01 7. 5910E-01 8 .2746E-01 9. 0315E-01* Room TEDE (rem)0.OOOOE+00 2.6393E-08
- 1. 1733E-03 3.7985E-03 1.0411E-02 1.2320E-02 1.3093E-02 1.3593E-02
- 1. 4129E-02 1. 4821E-02 1.5620E-02
- 1. 6518E-02 1.7583E-02 1.8843E-02
- 2. 0311E-02 2.1997E-02 2.3904E-02 2.6036E-02 2.8396E-02 XceI nerg Calculation No. GEN-PI-078 Revision No. I Page No. 211 of 277 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8. 600 8.900 9.200 9.500 9.800 10. 100 10.400 24.000 75. 000 96.000 720.000 1.6875E+00 1.9058E+00
- 2. 1409E+00 2.3927E+00
- 2. 6612E+00 2.9463E+00
- 3. 2481E+00 3.5663E+00
- 3. 9010E+00 4.2520E+00
- 4. 6192E+00 5.0025E+00
- 5. 4018E+00 5. 8170E+00 6.2478E+00 6.6943E+00 7.1562E+00 7.6333E+00
- 8. 1257E+00 4. 4689E+01 3.3634E+02 3.3634E+02 3.3634E+02 5.6769E-02 6.3890E-02 7.1541E-02
- 7. 9719E-02 8.8422E-02 9.7648E-02 1.0739E-01
- 1. 1766E-01 1.2843E-01 1.3972E-01 1.5151E-01
- 1. 6380E-01 1.7659E-01 1.8987E-01 2.0364E-01 2.1789E-01
- 2. 3262E-01 2.4782E-01
- 2. 6350E-01 1. 4131E+00 1. 0420E+01 1. 0420E+01 1.0420E+01
- 4. 6023E-01 5.1977E-01
- 5. 8388E-01 6. 5255E-01 7.2578E-01
- 8. 0355E-01 8. 8584E-01 9. 7264E-01 1.0639E+00
- 1. 1596E+00 1.2598E+00
- 1. 2719E+00 1.2845E+00 1.2977E+00
- 1. 3113E+00 1.3254E+00 1.3400E+00
- 1. 3551E+00 1.3707E+00 2.5267E+00 4.6293E+00 4.6293E+00 4.6293E+00 1.5482E-02 1.7425E-02
- 1. 9511E-02 2. 1742E-02 2.4115E-02
- 2. 6631E-02 2.9289E-02 3.2088E-02 3.5027E-02
- 3. 8104E-02 4. 1320E-02 4.1721E-02 4.2138E-02 4.2571E-02
- 4. 3019E-02 4.3483E-02 4.3962E-02 4.4456E-02 4.4965E-02
- 8. 2011E-02 1. 4728E-01 1. 4728E-01 1. 4728E-01 9. 8625E-01 1.0768E+00
- 1. 1748E+00 1.2802E+00 1.3932E+00
- 1. 5135E+00 1. 6413E+00 1.7765E+00
- 1. 9191E+00 2.0690E+00
- 2. 2261E+00 2. 3541E+00 2.4487E+00 2.5342E+00
- 2. 6188E+00 2.7052E+00 2.7942E+00
- 2. 8861E+00 2. 9810E+00 1. 0128E+01 3. 6363E+01 3. 6702E+01 3. 6702E+01 3. 0985E-02 3. 3804E-02 3. 6855E-02 4. 0136E-02 4. 3647E-02 4. 7389E-02 5. 1360E-02 5. 5559E-02 5. 9985E-02 6. 4637E-02 6. 9513E-02 7. 3482E-02 7. 6416E-02 7. 9069E-02 8 1691E-02 8. 4368E-02 8. 7125E-02 8. 9971E-02 9.2909E-02
- 3. 1329E-01 1 1160E+00 1. 12 63E+00 1. 1263E+00 Worst Two-Hour Doses####################################################################
Exclusion Time (hr)24.0 Area Boundary Whole Body Thyroid (rem) (rem)3.4776E-03 1.1437E+01 TEDE (rem)3. 5323E-01 A d XceEnergy calculation No. GEN-PI-078 Revision No. I Page No. 212 of 277 Attachment 13.8 RADTRAD Output File PMSFCNGOI.oO
- 4##########################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:00:12#######################################################################
File information
- 0#############################################################
Plant file Inventory file Release file Dose Conversion file= G:\Radtrad
= g:\radtrad
= g:\radtrad
= g:\radtrad 3.03\Input\PI\GEN-PI-078\PMSFCNG01.psf 3.03\defaults\pimsconc def.txt 3.03\defaults\pingp ng rft.txt 3.03\defaults\pingp fgll&12.txt it it it it it it it it itititit it* it it Ititititit
- it itit it it it it it itit it it it it it it it it ititititit it it it itit it it it it itit it it it it it it it ititititit it it it it it it it it it it tititit it it Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Concurrent Iodine Spike with Noble Gas Release From Faulted SG During and Following Dryout Nuclide Inventory File: g:\radtrad 3.03\defaults\pimsconc def.txt Plant Power Level: 1.8520E+03 Compartments:
4 Compartment 1: Fuel 3 1.0000E+03 0 0 0 0 0 Compartment 2: RCS 3 5.2900E+03 0 0 0 0 0 Compartment 3: Environment 2 O.O000E+O0 0 0 CXceEnergy alculation No. GEN-PI-078 Revision No. 1 Page No. 213 of 277 I 0 0 0 Compartment 4: Control Room 1 6.1315E+04 0 0 1 0 0 Pathways: 4 Pathway 1: Fuel to RCS 1 2 2 Pathway 2: RCS to Environment 2 3 2 Pathway 3: Environment 3 4 2 to Control Room Pathway 4: Control Room to Environment 4 3 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.0000E+00 g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp ngrft.txt o.0000E+00 1 C.0000E+00 9.7000E-01 3.0000E-02 1.0000E+00 Overlying Pool: 0 o.0000E+00 0 0 0 0 Compartments:
4 Compartment 1: 0 1 0 Xcei n Calculation No. GEN-PI-078 Revision No. I Page No. 214 of 277 0 0 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 0 1 0 0 0 0 0 0 0 Compartment 4: 1 1 0 0 1 3.6000CE+/-03 3 C. CCCCE+CC 8. 3300E-C2 7. 2000E+02 0 0 Pathways: 4 Pathway 1: 0 0 0 0 0 1 2 8 .CCCE+CC 0 0 0 0 0 0 Pathway 2: 0.0000E+00
- 9. 9000E+01 o.0000E+00 o.0000E+00
- 9. 5000E+01 o.0000E+00 o.0000E+00
- 9. 5000E+01 o.0000E+00 9.6000E+00 C.0000E+00 0.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 0.0000E+00 0.0000E+00 SXceEnergy, Calculation No. GEN-PI-078 Revision No. I Page No. 215 of 277 0 0 0 0 0 1 2 o .000E+00 7 .5000E+01 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 O.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 4: 0 0 0 0 0 1 3 O.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Dose Locations:
3 1.81OCE-01 0.OOOOE+00 2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 2.OOOOE+03 3.OOOOE+02 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOE+00 o.OOOE+00 o.OOOOE+00 o.OOOOE+00 0.0000E+00 o.OOC0E+00 o.OOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOCE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Location 1: Exclusion Area Boundary 3 1 2 0.OOOE+00 7.2000E+02 1 2 6. 4900E-04 0. OOOOE+0O XceC Energy Calculation No. GEN-PI-078 Revision No. 1 Page No. 216 of 277 0.0000E+00 7.2000E+02 0 3.5000E-04 0.0000E+00 Location 2: Low Population Zone 3 1 5 o.0000E+00 8.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 1 4 o.0000E+00 8.0000E+00 2 .4000E+01 7.2000E+02 0 Location 3: Control Room 4 0 1 2 0.OOOOE+00 7.2000E+02 1 1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 O.OOOOE+00 3.5000E-04 1.8000E-04 2.3000E-04 o.00OOE+00 3.5000E-04 o.0000E+00 4 0.OOOOE+00 1.0000E+00 2.4000E+01 6.OOOE-01 9.6000E+01 4.0000E-01 7.2000E+02 0.OOOOE+00 Effective Volume Location: 1 6 0.0000E+00 4.7900E-03 2.0000E+00 3.6000E-03 8.0000E+00 1.6000E-03 2.4000E+01 1.2100E-03 9.6000E+01 9.5500E-04 7.2000E+02 0.OOOOE+00 Simulation Parameters:
6 0.OOOOE+00 1.0000E-01 2.OOOOE+00 5.0000E-01 8.0000E+00 1.0000E+00 2.4000E+01 2.0000E+00 9.6000E+01 4.OOOOE+00 7.2000E+02 0.OOOOE+00 Output Filename: G:\Radtrad 3.ol 1 1 1 0 0 End of Scenario File tj XceIEnergylcalculation No. GEN-PI-078 Revision No. 1 Page No. 217 of 277######4##########################*#######4#######ý#######################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:00:12#####################4#ý############4######################4############
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Plant Description
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Number of Nuclides = 60 Inventory Power = 1.COCOE+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments
= 4 Compartment information Compartment number 1 (Source term fraction = 1.0000E+00 Name: Fuel Compartment volume = 1.OOOOE+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Fuel to RCS Compartment number 2 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Fuel to RCS Exit Pathway Number 2: RCS to Environment Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 2: RCS to Environment Inlet Pathway Number 4: Control Room to Environment Exit Pathway Number 3: Environment to Control Room Compartment number 4 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 4 Inlet Pathway Number 3: Environment to Control Room Exit Pathway Number 4: Control Room to Environment Total number of pathways = 4 hergyl Calculation No. GEN-PI-078 Revision No. I Page No. 218 of 277#################################ý######################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:00:12#######################################################################
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Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 1. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 EARLY IN-VESSEL 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0O00E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 LATE RELEASE 0.0000 hrs 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 o OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 RELEASE MASS (gm)4 .811E+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 Inventory Power =1852. MWt Nuclide Name Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Speci Invent (Ci/N 1 3.487E 1 9.695E 1 1.414E 1 9.162E 1 2.571E 1 1.823E 1 2.313E 1 3.247E 1 7.329E 1 4.465E 1 5.417E Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 fic ory[Wt)-02-01-01-02-01-01+01-01-01-02-02 half life (s)6. 588E+03 3 383E+08 1 613E+04 4. 578E+03 1. 022E+04 1. 028E+06 4. 532E+05 1 890E+05 3 .272E+04 9. 174E+02 8 .502E+02 Whole Body DCF (Sv-m3/Bq-s) 1.500E-18 1.190E-16 7.480E-15 4. 120E-14 1.020E-13 3.890E-16 1.560E-15 1.370E-15 1.190E-14 2.040E-14 5.770E-14 Inhaled Thyroid (Sv/Bq)0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 Inhaled Effective (Sv/Bq)0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0.OOOE+00 0.OOOE+00 0. OOOE+00 0.OOOE+00 0.OOOE+00 Fraction Daughter Fraction Daughter Fraction 0.21 none 0.00 none 0.00 1.00 none 0.00 none 0.00 1.00 none 0.00 none 0.00 0.01 none 0.00 none 0.00 0.03 Xe-133 0.97 none 0.00 0.15 Xe-135 0.85 none 0.00 1.00 none 0.00 none 0.00 1.00 none 0.00 none 0.00 1.00 none 0.00 none 0.00 1.00 none 0.00 none 0.00 Iodine fractions Aerosol Elemental Organic COMPARTMENT DATA= 0.OOOOE+00
= 9.7000E-01
= 3.OOOOE-02
? i XcefI nergy- Calculation No. GEN-PI-078 Revision No. I Page No. 219 of 277 Compartment number 1: Fuel Compartment number 2: RCS Compartment number 3: Environment Compartment number 4: Control Room Compartment Filter Data Time (hr)C.OOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Aerosol 0.OOOE+00 9. 9000E+01 0.0000E+00 Efficiencies Elemental o.OOOOE+00
- 9. 5000E+01 O.O0OOE+00
(%)Organic o.0O00E+00
- 9. 5000E+01 o.00OOE+00 PATHWAY DATA Pathway number 1: Fuel to RCS Pathway Filter: Removal Data Time (hr)o.OOOOE+00 8.OOO0E+00 Flow Rate (cfm)9.6000E+00 0.0OOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic O.OOE+00 O.OOOOE+00 O.OOOE+O0 O.OOOEE+O0 O.OOOOE+00 O.O0OOE+O0 Pathway number 2: RCS to Environment Pathway Filter: Removal Data Time (hr)C.0OO0E+00 7.5000E+01 Flow Rate (cfm)1. 8100E-01 0.O0OOE+00 Filter Efficiencies
(%)Aerosol Elemental Organic O.000E+00 0.0OCOE+00 O.0OOCE+00 0.0OOOE+00 0.OO00E+00 O.OOOE+00 Pathway number 3: Environment to Control Room Pathway Filter: Removal Data Time (hr)o.OOCE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.O000E+02 D.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0OO0E+00 0.0OCOE+00 0.0000E+00 0.0000E+00 0.0OOOE+00 0.OOOOE+00 0.0O00E+00 0.OO00E+00 0.OO0E+00 Pathway number 4: Control Room to Environment Pathway Filter: Removal Data Time (hr)0.OOCE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.O000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.0O00E+00 0.OOOE+00 0.O000E+00 0.0000E+00 0.0000E+00 O.O000E+O0 O.O000E+O0 O.OOO0E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3
S ECalculation No. GEN-PI-078 Revision No. I Page No. 220 of 277 Location X/Q Data Time (hr)0.00OOE+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.OOOOE+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-1)0.OOOOE+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr)0.0000E+00 8.0000E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7.1200E-06 1.0400E-06 0.0000E+00 Location Breathing Rate De Time (hr) Breathi 0.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 Location Control Room ing Rate (mA^3
- sec^I-l)3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 is in compartment 4 Location X/Q Data Time (hr) X/Q (s
- m^-3)0.0000E+00 4.7900E-03 2.0000E+00 3.6000E-03 8.0000E+00 1.6000E-03 2.4000E+01 1.2100E-03 9.6000E+01 9.5500E-04 7.2000E+02 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.0000E+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Occupancy Factor Data Time (hr) Occupancy Factor 0.0000E+00 1.0000E+00 2.4000E+01 6.0000E-01 9.6000E+01 4.0000E-01 7.2000E+02 0.0000E+00 USER SPECIFIED TIME STEP DATA -SUPPLEMENTAL TIME STEPS Time Time step 0.0000E+00 1.0000E-01 2.0000E+00 5.0000E-01 8.0000E+00 1.0000E+00 2.4000E+01 2.0000E+00 9.6000E+01 4.0000E+00 7.2000E+02 0.0000E+00 XceI.Energy Calculation No. Rio. Pg.2f7 Revision No. I Page No. 221 of 277#######################################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/02/2009 at 3:00:12##################################ý################ý#############4#4####
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Dose, Detailed model and Detailed Inventory Output#################4#################################################
Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 9.1615E-I0 9.1615E-I0 Low Population Zone Doses: Time (h) = 0.0036 Whole Body Delta dose (rem) 2.4986E-10 Accumulated dose (rem) 2.4986E-10 Thyroid 2.4405E-15 2.4405E-15 Thyroid 6. 6558E-16 6. 6558E-16 Thyroid 4.7804E-17
- 4. 7804E-17 Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 6. 0366E-13 6.0366E-13 TEDE 9. 1618E-10 9. 1618E-10 TEDE 2.4987E-10 2.4987E-10 TEDE 6. 0435E-13 6.0435E-13 Atoms 2. 6131E+05 3. 7358E+11 2. 5961E+06 4.7682E+05
- 2. 9914E+06 2.1349E+08 1.1939E+10
- 6. 9915E+07 2.7357E+07
- 5. 4301E+04 5. 1907E+04 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 0.0036 Ci 7. 4305E-10 2. 0687E-08 3. 0156E-09 1. 9512E-09 5. 4813E-09 3 .8899E-09 4. 9355E-07 6. 9284E-09 1. 5661E-08 1 1089E-09 1. 1437E-09 kg 3. 6014E-20 5. 2729E-14 3. 6643E-19 6.8884E-20 4.3713E-19
- 4. 6441E-17 2.6367E-15 1.5441E-17 6.1327E-18 1.2173E-20 1.1895E-20 Decay 2. 4828E+02 6. 9090E+03 1. 0073E+03 6. 5209E+02 1. 8311E+03 1 .2991E+03 1. 6483E+05 2 .3139E+03 5 2308E+03 3. 7124E+02 3. 8339E+02 Control Room Time (h) =Noble gases Elemental I Transport 0.0036 (atoms)(atoms)Group Inventory:
Atmosphere Sump 3.8584E+11 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Organic I (atoms)
, .XcelE e* rgy Calculation No. GEN-PI-078 Revision No. I Page No. 222 of 277 Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)4.3631E-22 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.0000E+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.OOOOE+00
.0.0000E+00 0.OOOOE+00 Transported 3.8652E+ll 0.OOOOE+00 0.OOOOE+00 8.1478E-23 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 7. 3177E+08 0.OOOOE+00 0.0000E+00 1.7365E-25 Exclusion Area Boundary Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 1.3888E-06 1.3897E-06 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.7728E-11 1.7731E-11 Thyroid 4.8350E-12 4.8356E-12 Thyroid 9.6948E-12
- 9. 6948E-12 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 3.7876E-07
- 3. 7901E-07 Whole Body 2.6876E-08 2.6876E-08 TEDE 1. 3891E-06 1.3900E-06 TEDE 3.7883E-07 3.7908E-07 TEDE 2.7016E-08 2.7016E-08 Atoms 3.6497E+08
- 5. 3777E+14 3. 6913E+09 6 5720E+08 4. 2232E+09 8. 5357E+07 3. 0726E+ll 1. 7179E+13 1. 0054E+I1 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m 0.0833 Ci 1.0378E-06 2.9780E-05 4.2877E-06 2.6893E-06 7.7383E-06 1.4972E-06 5.5985E-06 7.1016E-04 9.9632E-06 kg 5. 0302E-17 7. 5904E-11 5.2102E-16
- 9. 4944E-17 6. 1713E-16 1.2473E-17
- 6. 6839E-14 3.7940E-12 2.2204E-14 Decay 1. 1186E+07 3. 1615E+08 4. 5801E+07 2. 9180E+07 8.2956E+07
- 4. 9170E+05 5. 9441E+07 7.5409E+09 1.0583E+08 SXcel Energyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 223 of 277 o Xe-135 Xe-135m Xe-138 Cs-138 2 .2441E-05 1.4053E-06 1.3030E-06 1.5642E-07
- 8. 7877E-15 1.5427E-17 1.3551E-17
- 3. 6967E-18 3. 9200E+10 6.8820E+07
- 5. 9136E+07 1. 6132E+07 2.3887E+08 1.6660E+07 1.5585E+07
- 5. 9310E+04 Control Room Time (h) =Noble gases Elemental I Transport 0.0833 (atoms)(atoms)Group Inventory:
Atmosphere Sump 5.5541E+14 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 1.6170E-17 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 5.8546E+14 0.0000E+00 0.0000E+00 5.9192E-19 Control Room to Environment Transport Group Inventory:
Time (h) ' 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg).Pathway Filtered 2 .9585E+13 0.0000E+00 0.0000E+00 2.9975E-20 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 3. 2419E-03 3.2433E-03 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 3.2244E-06 3.2245E-06 Thyroid 8.7940E-07 8.7940E-07 Thyroid 3. 9951E-06 3. 9951E-06 Low Population Zone Doses: Time (h) = 8.0000 Whole Body Delta dose (rem) 8.8415E-04 Accumulated dose (rem) 8.8453E-04 TEDE 3.2942E-03 3.2956E-03 TEDE 8.9842E-04 8.9880E-04 TEDE 4.1379E-04
- 4. 1382E-04 Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 3.4830E-04 3.4833E-04.
Control Room Compartment Nuclide Inventory:
XceI Energy Calculation No. GEN-PI-078 Revision No. 1 Page No. 224 of 277 Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Cs-138 8.0000 Ci 9. 1155E-06 5.2460E-03
- 2. 2192E-04 6. 3319E-06 1. 9744E-04 1. 1750E-04 9. 6753E-04 1. 1984E-01 1. 5811E-03 2. 1657E-03 7 .3783E-10 kg 4. 4181E-16 1 .3371E-08 2. 6967E-14 2. 2354E-16 1. 5746E-14 9. 7888E-16 1. 1551E-II 6. 4026E-10 3. 5236E-12 8. 4807E-13 1. 7437E-20 Atoms 3.2056E+09
- 9. 4734E+16 1.9106E+ll 1.5473E+09 1.0775E+lI 6.6988E+09
- 5. 3101E+13 2.8990E+15 1.5955E+13
- 3. 7831E+12 7.6092E+04 Decay 2.0593E+10
- 3. 2105E+12 2. 1714E+1I 2. 9931E+10 2.6370E+1I
- 1. 1241E+ll 5. 9609E+ll 7.4453E+13
- 1. 0038E+12 1.6523E+12 6.3230E+08 Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 9.7706E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 9.7890E-16 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 3. 1330E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 Transported
- 2. 2822E+17 o.OOOOE+00 o.OOOOE+00 1.2902E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.3044E+17 o.OOOOE+00 o.OOOOE+00 2.6372E-15 Exclusion Area Boundary Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 5. 3618E-03 8.6050E-03 Transported o.OOOOE+00 o.OOOOE+00 0.OOOOE+00 o.OOOOE+00 Thyroid 1.0831E-06 4.3075E-06 Thyroid 3.4245E-08
- 9. 1364E-07 Low Population Zone Doses: TEDE 5.3796E-03 8.6752E-03 TEDE 3.3020E-04 1.2290E-03 Time (h) = 24.0000 Delta dose '(rem)Accumulated dose (rem)Whole Body 3.2964E-04
- 1. 2142E-03 4 XcelEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 225 of 277 Control Room Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 5.6250E-04 Accumulated dose (rem) 9.1084E-04 Thyroid 1.5286E-06 5.5237E-06 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135= 24.0000 Ci 1. 1074E-08 2.7306E-03 9.7178E-06 5.3762E-10 2.0700E-06
- 5. 5511E-06 4.8448E-04
- 5. 7188E-02 6.6635E-04 3.3282E-04 kg 5.3673E-19 6.9598E-09 1.1809E-15 1.8980E-20
- 1. 6508E-16 4.6244E-17
- 5. 7840E-12 3.0552E-10 1.4851E-12 1.3033E-13 TEDE 5.8772E-04
- 1. 0015E-03 Atoms 3.8943E+06
- 4. 9309E+16 8.3662E+09 1.3138E+05
- 1. 1297E+09 3.1646E+08 2.6589E+13
- 1. 3834E+15 6. 7242E+12 5. 8138E+ll Decay 2.3116E+10
- 1. 0126E+13 3. 3935E+ll 3. 1214E+10 3. 4184E+ll 1. 3686E+ll 1. 8495E+12 2. 2641E+14 2. 9023E+12 3. 4056E+12 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)I Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 5.0726E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.6244E'-17 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.9146E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 Transported 4.6711E+17 0.OOOOE+00 0.OOOOE+00 1.4677E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 4.1614E+17 0.0000E+00 0.OOOOE+00 3.2952E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Thyroid 4.2048E-08 4.3496E-06 Exclusion Area Boundary Doses: Time (h) = 75,.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.1958E-02 2.0563E-02 TEDE 1. 1959E-02 2.0634E-02 Xcel EnergylCalculation No. GEN-PI-078 Revision No. I Page No. 226 of 277 Low Population Zone Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 75.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.3119E-04 1.3454E-03 Whole Body 4.8964E-04 1.4005E-03 Thyroid 3. 0314E-10 9. 1395E-07 Thyroid 2.7071E-08 5.5508E-06 TEDE 1. 3120E-04 1.3602E-03 TEDE 4.9009E-04
- 1. 4916E-03 Atoms 3.3296E+16 2.1147E+06 1.5870E+13
- 7. 0760E+14 2. 3169E+12 8.0379E+09 Control Room Compartment Nuclide Inventory:
Time (h) = 75.0000 Kr-85 Kr-85m Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 1. 8438E-03 2. 4564E-09 2. 8917E-04 2. 9252E-02 2 .2960E-04 4. 6015E-06 kg 4.6996E-09 2.9848E-19
- 3. 4523E-12 1. 5627E-10 5. 1169E-13 1. 8019E-15 Decay 2.3586E+13
- 3. 4615E+ll 4. 1010E+12 4.7376E+14 5.3218E+12
- 3. 8477E+12 Group Inventory:
Atmosphere Sump 3.4022E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.2272E-22 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.9221E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.0023E+18 0.OOOOE+00 0.OOOOE+00
- 1. 4729E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 75.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 9. 6771E+17 0.OOOOE+00 0.OOOOE+00 3.3014E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Exclusion Area Boundary Doses:
- . XceIfnergy Caculation No. GEN-PI-078 T Revision No. 1 Page No. 227 of 277 I Time (h) = 96.0000 Whole Body Delta dose (rem) O.0000E+00 Accumulated dose (rem) 2.0563E-02 Low Population Zone Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 0.0000E+00 Accumulated dose (rem) 1.3454E-03 Thyroid 0.0000E+00 4.3496E-06 Thyroid 0.0000E+00
- 9. 1395E-07 Thyroid 3. 9758E-14 5.5508E-06 Control Room Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)TEDE 0.0000E+00 2.0634E-02 TEDE 0.0000E+00 1.3602E-03 TEDE 2.5434E-05 1.5171E-03 Atoms 6. 9976E+13 3. 1701E+10 1. 3260E+12 3. 6910E+09 3.4066E+06 Whole Body 2.5434E-05 1.4259E-03 Control Room Compartment Nuclide Inventory:
Time (h)Kr-85 Xe-131m Xe-133 Xe-133m Xe-135= 96.0000 Ci 3.8750E-06 5.7761E-07 5.4817E-05 3.6577E-07 1.9502E-09 kg 9.8769E-12 6.8960E-15 2.9286E-13 8.1517E-16 7.6366E-19 Decay 2.4304E+13 4.2128E+12 4.8495E+14 5.4074E+12
- 3. 8491E+12 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 7.1338E+13 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.5186E-27 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 Recirculating Filter 0.OOOOE+00 0.0000E+00 0.OOOOE+00
- 3. 9221E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0OOOE+00 Transported 1.0023E+18 0.OOOOE+00 0.OOOOE+00
- 1. 4729E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.0016E+18 0.OOOOE+00 0.OOOOE+00 3.3014E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 SXceIfnergy FCalculation No. GEN-PI-078 Revision No. I Page No. 228 of 277 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.0000E+00 2.0563E-02 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.0000E+00 1.3454E-03 Whole Body 3. 1802E-08 1.4259E-03 Thyroid 0.OOOOE+00.
4.3496E-06 Thyroid 0.OOOOE+00
- 9. 1395E-07 Thyroid 3. 2983E-19 5.5508E-06 TEDE 0.OOOOE+00 2.0634E-02 TEDE 0.OOOOE+00 1.3602E-03 TEDE 3. 1802E-08 1. 5171E-03 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 1.9362E-66 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.0431-173 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00
- 3. 9221E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported
- 1. 0023E+18 0.0000E+00 0.OOOOE+00
- 1. 4729E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)839 Pathway Filtered 1.0017E+18 0.OOOOE+00 0.OOOOE+00 3.3014E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 XcelEnergylCalculation No. GEN-PI-078 Revision No. I Page No. 229 of 277 1-131 Sum~mary*###############################4##ý##################################
Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4.300 4. 600 4.900 5.200 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7.600 7.900 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10. 100 10.400 24.000 75.000 96.000 720.000 Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.200 Fuel 1-131 (Curies)0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0.0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00
- 0. 0000E+00 0.0000E+00 0.0000E+00 0.0000+E00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00
- 0. 0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Control Room 1-131 (Curies)0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 RCS 1-131 (Curies)0.0000E+00
- 0. 0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Environment 1-131 (Curies)0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.00008+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0 .0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 o.0000+E00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 XceI Energy" Calculation No. GEN-PI-078 Revision No. I Page No. 230 of 277 2.500 0.OOOOE+00 2.800 0.0000E+00 3.100 0.OOOOE+00 3.400 0.0000E+00 3.700 0.0000E+00 4.000 0.OOOOE+00 4.300 0.OOOOE+00 4.600 0.OOOOE+00 4.900 0.0000E+00 5.200 0.OOOOE+00 5.500 0.OOOOE+00 5.800 0.OOOOE+00 6.100 0.OOOOE+00 6.400 0.OOOOE+00 6.700 0.OOOOE+00 7.000 0.0000E+00 7.300 0.OOOOE+00 7.600 0.OOOOE+00 7.900 0.OOOOE+00 8.000 0.OOOOE+00 8.300 0.OOOOE+00 8.600 0.OOOOE+00 8.900 0.OOOOE+00 9.200' 0.OOOOE+00 9.500 0.OOOOE+00 9.800 0.OOOOE+00 10.100 0.OOOOE+00 10.400 0.OOOOE+00 24.000 0.OOOOE+00 75.000 0.OOOOE+00 96.000 0.OOOOE+00 720.000 0.OOOOE+00
- C###############################u#####u##############
Cumulative Dose Summary######4###################4##########################################
Exclusion Area Bounda Low Population Zone Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1.900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4.300 4.600 4.900 5.200 Thyroid (rem)0.OOOOE+00 2.4405E-15 1.7731E-11 2.3698E-08 1.0091E-07 2.2474E-07
- 3. 7981E-07 5.5297E-07 7.3481E-07
- 9. 1906E-07 1. 1016E-06 1.2798E-06
- 1. 4519E-06 1. 6170E-06 1.7743E-06 1.9235E-06 2.0646E-06 2.1977E-06 2.3227E-06 2.4401E-06 TEDE Thyroid (rem) (rem)0.0000E+00 0.OOOOE+00 9.1618E-10 6.6558E-16 1.3900E-06 4.8356E-12 3.1906E-05 6.4631E-09 9.2769E-05 2.7520E-08 1.7780E-04 6.1293E-08 2.8102E-04 1.0359E-07 3.9765E-04 1.5081E-07 5.2404E-04 2.0040E-07 6.5737E-04 2.5065E-07 7.9550E-04 3.0044E-07 9.3678E-04 3.4904E-07 1.0799E-03 3.9598E-07 1.2240E-03 4.4099E-07 1.3683E-03 4.8389E-07 1.5122E-03 5.2460E-07 1.6553E-03 5.6308E-07 1.7973E-03 5.9936E-07 1.9379E-03 6.3347E-07 2.0771E-03 6.6549E-07 TEDE (rem)0.OOOOE+00 2.4987E-10 3.7908E-07
- 8. 7016E-06 2. 5301E-05 4.8491E-05
- 7. 6641E-05 1.0845E-04 1.4292E-04 1.7928E-04 2.1695E-04 2.5549E-04 2.9453E-04 3.3383E-04
- 3. 7318E-04 4. 1242E-04 4. 5144E-04 4. 9017E-04 5.2852E-04 5.6647E-04 Control Room Thyroid TEDE (rem) (rem)0.0000E+00 0.0000E+00 4.7804E-17 6.0435E-13 9.6948E-12 2.7016E-08 8.4774E-09 6.4091E-07 4.3283E-08 2.5536E-06 1.1382E-07 6.3641E-06 2.1995E-07 1.2334E-05 3.5792E-07 2.0539E-05 5.2317E-07 3.0952E-05 7.0609E-07 4.3245E-05 8.9230E-07 5.6650E-05 1.0837E-06 7.1132E-05 1.2792E-06 8.6628E-05 1.4770E-06 1.0305E-04 1.6753E-06 1.2030E-04 1.8725E-06 1.3829E-04 2.0673E-06 1.5693E-04 2.2585E-06 1.7613E-04 2.4451E-06 1.9582E-04 2.6263E-06 2.1592E-04 Xcei Energy. Calculation No. GEN-PI-078 Revision No. 1 age No. 231 of 277 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7.600 7.900 8.000 8.300 8. 600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 75.000 96.000 720.000 2. 5501E-06 2. 6530E-06 2 .7492E-06 2. 8390E-06 2. 9228E-06 3. 0009E-06 3. 0736E-06 3. 1414E-06 3. 2044E-06 3. 2245E-06 3. 2817E-06 3.3349E-06
- 3. 3843E-06 3. 4301E-06 3. 4727E-06 3. 5123E-06 3. 5491E-06 3. 5832E-06 4.3075E-06 4.3496E-06 4.3496E-06 4.3496E-06 2 .2146E-03 2.3505E-03 2.4846E-03 2.6171E-03 2.7478E-03 2.8769E-03 3.0044E-03 3.1302E-03 3.2545E-03 3.2956E-03
- 3. 4178E-03 3.5384E-03 3.6575E-03
- 3. 7751E-03 3. 8914E-03 4.0064E-03 4.1202E-03 4.2327E-03 8.6752E-03 2.0634E-02 2.0634E-02 2.0634E-02
- 6. 9549E-07 7 .2355E-07 7. 4978E-07 7. 7427E-07 7. 9712E-07 8 1841E-07 8. 3826E-07 8. 5674E-07 8. 7394E-07 8. 7940E-07 8 8121E-07 8. 8289E-07 8 .8445E-07 8. 8590E-07 8. 8725E-07 8 .8850E-07 8 .8966E-07 8. 9074E-07 9. 1364E-07 9. 1395E-07 9. 1395E-07 9. 1395E-07 6.0398E-04
- 6. 4103E-04 6.7762E-04 7.1375E-04 7.4941E-04 7.8461E-04
- 8. 1937E-04 8.5369E-04 8.8759E-04 8.9880E-04 9.0629E-04
- 9. 1368E-04 9.2097E-04
- 9. 2818E-04 9. 3531E-04 9.4236E-04 9.4934E-04 9.5624E-04 1.2290E-03 1.3602E-03 1.3602E-03 1.3602E-03 2 8016E-06 2. 9704E-06 3. 1324E-06 3.2875E-06
- 3. 4354E-06 3. 5762E-06 3. 7100E-06 3. 8367E-06 3. 9566E-06 3. 9951E-06 4 1006E-06 4 1931E-06 4 .2757E-06 4 .3498E-06 4 4165E-06 4. 4766E-06 4. 5309E-06 4 .5800E-06 5. 5237E-06 5. 5508E-06 5. 5508E-06 5. 5508E-06 2.3637E-04
- 2. 5711E-04 2.7808E-04 2.9925E-04 3.2056E-04
- 3. 4199E-04 3.6349E-04 3.8504E-04 4.0662E-04 4.1382E-04 4.3475E-04
- 4. 5451E-04 4.7326E-04
- 4. 9108E-04 5.0808E-04 5.2432E-04 5.3988E-04
- 5. 5481E-04 1. 0015E-03 1. 4916E-03 1. 5171E-03 1.5171E-03
Worst Two-Hour Doses####################################################################
Exclusion Time (hr)2.6 Area Boundary Whole Body Thyroid (rem) (rem)9.3768E-04 1.0366E-06 TEDE (rem)9.5468E-04 XceInergy Calculation No. GEN-PI-078 Revision No. 1 Page No. 232 of 277 Attachment 13.9 RADTRAD Output File PMSINCI01.o0 RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:53:11#########4############4####4#########4########4#####4###4#4####*##4######
- 4#4##4####4################%####44#######################4##4#4#####
File information Plant file = G:\Radtrad 3.03\Input\PI\GEN-PI-078 R1\PMSINCI0l.psf Inventory file = g:\radtrad 3.03\defaults\pimsconc def.txt Release file = g:\radtrad 3.03\defaults\pingp iodine rft.txt Dose Conversion file = g:\radtrad 3.03\defaults\pingp-fgll&12.txt
- #### ##### # # f # ##### # ,# ##M###### #### #### # # # # ##### 6 ~# #66 6# # # # ## 6 # # # 6# # #6 6 6 6 # # 6# *#### # #### #Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Concurrent Iodine Spike with Iodine Release From Intact SG With Tube Uncovered for 2 Hours Nuclide Inventory File: g:\radtrad 3.03\defaults\pimsconc def.txt Plant Power Level: 1.8520E+03 Compartments:
5 Compartment 1: Fuel 3 1.OOOOE+03 b 0 0 0 0 Compartment 2: RCS 3 5.2900E+03 0 0 0 0 -, 0 Compartment 3: Environment 2 0.OOOOE+00
,Ene V.: Calculation No. GEN-PI-078 Revision No. I Page No. 233 of 277 0 0 0 0 0 Compartment 4: Control Room 1 6.1315E+04 0 0 1 0 0 Compartment 5: Intact SG 3 1.7210E+03 0 0 0 0 0 Pathways: 5 Pathway 1: Fuel to RCS 1 2 2 Pathway 2: RCS to Intact SG 2 5 2 Pathway 3: Environment 3 4 2 to Control Room Pathway 4: Control Room 4 3 2 Pathway 5: Intact SG to to Environment Environment 5 3 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 XcelEnerg Calculation No. GEN-PI-078 Revision No. 1 Page No. 234 of 277 1 1.OOOOE+OO g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp iodine rft.txt 0.OOOOE+00 1 0.OOO0E+00 9.7000E-01 3.OOOOE-02 1.OOOOE+00 Overlying Pool: 0 0.0000E+00 0 0 0 0 Compartments:
5 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 0 1 0 0 0 0 0 0 0 Compartment 4: 1 1 0 0 0 0 1 3.6000E+03 3 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 8.3300E-02 9.9000E+01 9.5000E+01 9.5000E+01 x .Ene...Calculation No. GEN-PI-078 Revision No. I Page No. 235 of 277 7.2000E+02 0.0000E+00 0 0 Compartment 5: 0 1 0 0 0 0 0 0 0 Pathways: 5 Pathway 1: 0 0 0 0 0 0.OOOOE+00 0.OOOOE+00 1 2 0.OOOOE+00 8.OOOOE+00 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 2 0.OOOOE+00 4.5500E+01 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 0.OOOOE+00 8.3300E-02 9.6000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00
- 0. OOOOE+00 0. OOOOE+00 1.8800E-02 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 XcelEnergyl Calculation No. GEN-PI-078 Revision No. I age No. 236 of 277 7.2000E+02 0 0 0 0 0 0 Pathway 4: 0 0 0 0 0 1 3 C.0000E+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 5: 0 0 0 0 0 1 5 C.0000E+00 2.0000E+00 8.0000E+00 2.4000E+01 4.5500E+01 0 0 0 0 0 0 C.0CCCE+00 2.0000E+03 3.0000E+02 0.0000E+00 C.0000E+00 0.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00
- 3. 9420E+01 2.3610E+00 1.7340E+00 1.3980E+00 0.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0000E+00 C.0CCCE+00 C.0000E+00 0.0000E+00 C.0000E+00 C.0CCCE+00 C.0000E+00 0.0000E+00 C.0000E+00 Dose Locations:
3 Location 1: Exclusion Area Boundary 3 1 2 0.0000E+00 7.2000E+02 1 2 0.0CC0E+00 7.2000E+02 0 6.4900E-04 C.0CC0E+00 3.5000E-04 0.0000E+00 SXcel Energyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 237 of 277 Location 2: Low Population Zone 3 1 5 0.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 1 4 0.OOOOE+00 8.0000E+00 2.4000E+01 7.2000E+02 0 Location 3: Control Room 4 0 1 2 0.0000E+00 7.2000E+02 1 1.7700E-04 3.9900E-05
- 7. 1200E-06 1.0400E-06 0.0000E+00 3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 3.5000E-04 0.OOOOE+00 4 0.0000E+00 1.0000E+00 2.4000E+01 6.OOOOE-01 9.6000E+01 4.OOOOE-01 7.2000E+02 0.OOOOE+00 Effective Volume Location: 1 6 0.OOOOE+00 3.0700E-02 2.OOOOE+00 2.4900E-02 8.0000E+00 1.1200E-02 2.4000E+01 7.7800E-03 9.6000E+01 6.1700E-03 7.2000E+02 0.0000E+00 Simulation Parameters:
6 0.0000E+00 1.0000E-01 2.OOOOE+00 5.0000E-01 8.OOOOE+00 1.OOOOE+00 2.4000E+01 2.OOOOE+00 9.6000E+01 4.OOOOE+00 7.2000E+02 0.OOOOE+00 Output Filename: G:\Radtrad 3.o6 1 1 1 0 0 End of Scenario File 0 XcefI nergyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 238 of 277 rPag##############################4####################################4####
RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:53:11#############4##4##4#########4###44#####4################################
Plant Description Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level = 1.8520E+03 MWth Number of compartments
= 5 Compartment information Compartment number 1 (Source term fraction = 1.OOOOE+00 Name: Fuel Compartment volume = 1.0000E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Fuel to RCS Compartment number 2 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Fuel to RCS Exit Pathway Number 2: RCS to Intact SG Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 4: Control Room to Environment Inlet Pathway Number 5: Intact SG to Environment Exit Pathway Number 3: Environment to Control Room Compartment number 4 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 4 Inlet Pathway Number 3: Environment to Control Room Exit Pathway Number 4: Control Room to Environment Compartment number 5 Name: Intact SG Compartment volume = 1.7210E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 5
X.eI Energy- Calculation No. GEN-PI-078 Revision No. I Page No. 239 of 277 Inlet Pathway Number Exit Pathway Number 2: RCS to Intact SG 5: Intact SG to Environment Total number of pathways = 5
.XceI Energy] Calculation No. GEN-PI-078 Reiion No. 1IaeN.20o 7##########R0##3g#################################6#######0#a###########
RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:53:11#4#########################################################*############
Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 0 OOOOE+00 1 .OOOOE+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0. 0000E+00 0.0000E+00 0.0000E+00 EARLY IN-VESSEL 0.0000 hrs 0 OOOOE+00 0. 0000E+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 o OOOOE+00 0 OOOOE+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)0 OOOE+00 5. 452E-01 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Inventory Power =1852. MWt Nuclide Name 1-131 1-132 1-133 1-134 1-135 Nuclide Kr-85m Kr-87 Kr-8 8 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Specific Inventory (Ci/MWt)2 2.867E+01 2 7.675E+01 2 4.989E+01 2 3.141E+01 2 3.683E+01 half life (s)6. 947E+05 8.280E+03 7. 488E+04 3. 156E+03 2. 380E+04 Whole Body DCF (Sv-m3/Bq-s) 1.820E-14 1.120E-13 2. 940E-14 1.300E-13 8.294E-14 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 Daughter none none none none Xe-133 Xe-135 none none none none Fractior 0.00 0.00 0.00 0.00 0.97 0.85 0.00 0.00 0.00 0.00 Inhaled Thyroid (Sv/Bq)2. 920E-07 1.740E-09 4.860E-08 2. 880E-10 8. 460E-09 Daughter none none none none none none none none none none Inhaled Effective (Sv/Bq)8.890E-09 1.030E-10 1.580E-09 3.550E-11 3.320E-I0 Fraction 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Iodine fractions Aerosol Elemental Organic COMPARTMENT DATA= 0.OOOOE+00 9.7000E-01
= 3.OOOOE-02 Compartment number 1: Fuel XceI Energy Calculation No. GEN-PI-078 Revision No. I Page No. 241 of 277 I Compartment number 2: RCS Compartment number 3: Environment Compartment number 4: Control Room Compartment Filter Data Time (hr)0.OOOOE+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)3.6000E+03 3.6000E+03 3.6000E+03 Filter Aerosol 0.OOO0E+00
- 9. 9000E+01 0.0000E+00 Efficiencies Elemental 0.0000E+00 9.5000E+01 0.0000E+00
(%)Organic 0.OOOOE+00
- 9. 5000E+01 0.0000E+00 Compartment number 5: Intact SG PATHWAY DATA Pathway number 1: Fuel to RCS Pathway Filter: Removal Data Time (hr)0.0000E+00 8.0000E+00 Flow Rate (cfm)9.6000E+00 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0OOOE+00 0.OOO0E+00 0.0OOOE+00 O.0000E+00 0.0000E+00 O.OOOE+00 Pathway number 2: RCS to Intact SG Pathway Filter: Removal Data Time (hr)D.OO0E+00 4 .5500E+01 Flow Rate (cfm)1.8800E-02 0.0000E+00 Filter Aerosol D.D000E+00 0.0000E+00 Efficiencies Elemental D.0DDDE+00 D.OOOOE+00
(%)Organic 0.0000E+00 0.O000E+00 Pathway number 3: Environment to Control Room Pathway Filter: Removal Data Time (hr)D.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.0000E+03 3.0000E+02 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0000E+00 0.DODE+00 0.0OOOE+00 0.0000E+00 0.000DE+00 0.OOOOE+00 0.0D00E+00 0.0000E+00 0.0000E+00 Pathway number 4: Control Room to Environment Pathway Filter: Removal Data Time (hr)D.0000E+00 8.3300E-02 7.2000E+02 Flow Rate (cfm)2.ODD0E+03 3.0000E+02 0.0000E+00 Aeros 0. DOODE D.DO00E 0. DOD0E Filter Efficiencies sol Elemental D+00 O.0ODDE+00 D+00 D.0OD0E+00 A+O0 O.OOOOE+O0
(%)Organic 0. DODE+00 D. DDDDE+00 D. OO0E+00 Pathway number 5: Intact SG to Environment W XcI Energ.] Calculation No. GEN-PI-078 I Revision No. I Page No. 242 of 277 Pathway Filter: Removal Data Time (hr)0.OOOE+00 2.OOOE+00 8.0000E+00 2.4000E+01
- 4. 5500E+01 Flow Rate (cfm)3. 9420E+01 2 .3610E+00 1.7340E+00 1.3980E+00 0.0000E+00 Filter Efficiencies
(%)Aerosol Elemental Organic 0.0OOOE+00 0.0000E+00 0.OOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.OO00E+00 O.OOOE+O0 O.O000E+O0 O.O0OOE+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr)0.0000E+00 7.2000E+02 Location Breathing Time (hr)0.0000E+00 7.2000E+02 Location Low Popula Location X/Q Data Time (hr)0.0000E+00 8.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.0000E+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 0.D000E+00Zone is in compartment 3 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7 .1200E-06 1.0400E-06 0.0000E+00 Location Breathing Ra Time (hr) Br D.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 Location Control Room Location X/Q Data Time (hr) X/0.0000E+00 2.0000E+00 8.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 Location Breathing Ra Time (hr) Br 0.0000E+00 7.2000E+02 te Data eathing Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 is in compartment 4 Q (s
- m^-3)3. 07OE-02 2. 4900E-02 1. 1200E-02 7 .7800E-03 6. 1700E-03 0. OOOE+00 te Data eathing Rate (m^3
- sec^-l)3.5000E-04 0.OOOOE+00 Location Occupancy Factor Data Time (hr) Occupancy Factor SXcel IEnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 243 of 277 0.OOCE+00 2.4000E+01
- 9. 6000E+01 7.2000E+02 USER SPECIFIED TIME Time 0.OOOOE+00 2.OOOOE+00 8.OOOOE+00 2.4000E+01 9.6000E+01 7.2000E+02 1.OOO0E+00
- 6. 0OOOE-01 4 .OOOOE-01 0.OOOOE+00 STEP DATA -SUPPLEMENTAL TIME STEPS Time step 1.0O00E-01 5.0OCCE-01 1.0000E+00 2.000CE+00 4.000CE+00 0.00C0E+00 XceIfnergyl Calculation No. GEN-PI-078 Revision No. I Page No. 244 of 277#######################################################################
RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:53:11###4###################################################################
- # 9 ##### ##### 9 9 #999#9 99 9 9 9 # 99 9 9 9 99#99999 9 9 99 9 9 9 9 99 9 9 9 9 9 9 9 9##9999 9999 9 9#########################################################9##########
Dose, Detailed model and Detailed Inventory Output###########9#############9##########################################
Exclusion Area Boundary Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 2.5817E-11 2.5817E-11 Low Population Zone Doses: Time (h.) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Whole Body 7.0409E-12 7.0409E-12 Whole Body 1.0631E-13 1.0631E-13 Thyroid 5. 7381E-09 5.7381E-09 Thyroid 1.5649E-09 1.5649E-09 Thyroid 6. 6765E-10 6. 6765E-10 TEDE 2.0685E-10
- 2. 0685E-10 TEDE 5. 6414E-11 5. 6414E-11 Control Room Compartment Nuclide Inventory:
TEDE 2. 1171E-11 2. 1171E-11 Atoms 1.8668E+07 5.9505E+05
- 3. 5014E+06 9.2659E+04
- 8. 2122E+05 Time (h)1-131 1-132 1-133 1-134 1-135 0.0036 Ci 5. 0346E-10 1.3463E-09 8.7600E-10
- 5. 5001E-10 6. 4651E-10 kg 4.0610E-18 1.3043E-19 7.7329E-19 2.0618E-20
- 1. 8409E-19 Decay 1.6727E+02 4.4746E+02
- 2. 9105E+02 1.8291E+02 2 .1482E+02 Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Group Inventory:
Atmosphere Sump 6.4870E+02 0.OOOOE+00 2.2968E+07 0.OOOOE+00 7.1036E+05 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)3.8966E-19 4.8917E-19 3.9223E-09 Time (h) =Noble gases Elemental I 0.0036 (atoms)(atoms)Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 SXcei Energy. Calculation No. GEN-PI-078 Revision No. I Page No. 245 of 277 Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Transported 1.4151E+02 2.3002E+07 7.1141E+05 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 2.5210E-01 3.9592E+04 1.2245E+03 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 0.0833 Whole Body Delta dose (rem) 1.1529E-06 Accumulated dose (rem) 1.1529E-06 Transported 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 2.5645E-04 2.5646E-04 Thyroid 6.9942E-05 6.9944E-05 Thyroid 9.0930E-04 9.0930E-04 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 3. 1443E-07 3. 1444E-07 Whole Body 1.4467E-07 1.4467E-07 TEDE 9.2438E-06 9.2440E-06 TEDE 2 .5210E-06 2 .5211E-06 TEDE 2.8832E-05 2.8832E-05 Atoms 8. 0280E+II 2. 4989E+10 1. 5022E+11 3.7423E+09
- 3. 5031E+10 2. 6161E+06 4.0094E+08
- 1. 1987E+07 2.5884E+08 4.5334E+07 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 0.0833 Ci 2.1650E-05 5.6538E-05
- 3. 7581E-05 2.2214E-05 2.7579E-05 4.7667E-11 1.6575E-08 1.1878E-09
- 1. 4818E-07 9.2574E-07 kg 1.7463E-13
- 5. 4774E-15 3. 3175E-14 8.3272E-16 7 .8530E-15 5. 6909E-19 8.8548E-17 2 .6472E-18 5. 8024E-17 1. 0163E-17 Decay 2.2987E+08 6.0748E+08 3.9950E+08 2.4342E+08 2.9400E+08 1.6929E+01 5.8929E+03 4.2220E+02 5.2639E+04 2.9856E+05 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Group Inventory:
Atmosphere Sump 7.1971E+08 0.OOOOE+00 9.8628E+11 0.OOOOE+00 Xce. Calculation No. GEN-PR-078 Revision No. I Page No. 246 of 277 Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)3.0503E+10 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 6739E-14 2. 0969E-14 1.6556E-04 Time (h) =Noble gases Elemental I Organic I (at Aerosols (kg)Deposition 0.0833 Surfaces (atoms) 0.0000E+00 (atoms) 0.0000E+00 oms) 0.0000E+00 0.0000E+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 Environment to Control Room Transport Group Inventory:
Pathway Time (h) = 0.0833 Filtered Noble gases (atoms) 0.0000E+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 Transported 2.5119E+07 1.0280E+12 3.1795E+10 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.2566E+06 5.1425E+10 1.5905E+09 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 2.0000 Whole Body Delta dose (rem) 5.0566E-03 Accumulated dose (rem) 5.0578E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.6303E+00 1.6305E+00 Thyroid 4. 4462E-01 4. 4469E-01 Thyroid 4.5875E+00 4.5884E+00 Low Population Zone Doses: Time (h) = 2.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 2.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.3791E-03 1.3794E-03 Whole Body 5.0070E-04 5.0084E-04 TEDE 5. 6177E-02 5. 6187E-02 TEDE 1.5321E-02 1.5324E-02 TEDE 1.4432E-01 1.4435E-01 Atoms 2. 1267E+14 3. 7409E+12 3. 7589E+13 2. 1932E+ll 7.6428E+12 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 2.0000 Ci 5.7354E-03 8.4638E-03 9.4042E-03
- 1. 3019E-03 6. 0169E-03 kg 4.6262E-11 8.1997E-13 8 .3017E-12 4.8801E-14 1.7133E-12 Decay 6.2834E+ll 1.0984E+12 1.0472E+12 2.3083E+11
- 6. 9712E+ll j Xce*.I E -ne Calculation No. GEN-PI-078 Revision No. I Page No. 247 of 277 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 8.0498E-07 2.7238E-04 1.9349E-05 2.4555E-03 1.8887E-03
- 9. 6104E-15 1.4552E-12 4.3122E-14
- 9. 6153E-13 2 .0734E-14 4. 4180E+10 6. 5890E+12 1. 9525E+ll 4.2893E+12
- 9. 2489E+10 5.5657E+07
- 1. 8935E+10 1.3476E+09 1.7315E+11
- 1. 9161E+lI Control Room Transport Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Cl/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 1.1210E+13 0.0000E+00 2.5401E+14 0.0000E+00 7.8559E+12 0.0000E+00 0.0000E+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)4. 3350E-12 5. 2279E-12 3.0922E-02 Deposition Surfaces 0.0000E+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 6.6114E+14 2.0448E+13 0.0000E+00 Environment to Control Room Transport Group Inventory:
Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 1.1248E+13 9.7679E+14 3.0210E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 2.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.5958E+12 5.8046E+13 1.7953E+12 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 6.3191E-03 1.1377E-02 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4.2987E+00 5.9292E+00 Thyroid 1.1724E+00 1.6171E+00 Low Population Zone Doses: TEDE 1.3984E-01
- 1. 9603E-01 TEDE 3.8139E-02 5.3462E-02 Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Whole Body 1.7234E-03 3.1028E-03 Whole Body Thyroid TEDE 8.5880E-04 1.3855E+01 4.3150E-01
.. iXceEne r'- Calculation No. GEN-PI-078 Revision No. I Page No. 248 of 277 Accumulated dose (rem) 1.3596E-03 1.8444E+01 5.7585E-01 Control Room Compartment Nuclide Inventory:
Time (h)1-131 1-132 1-133 1-134 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 8.0000 Ci 3. 8691E-03 9. 5650E-04 5.3076E-03
- 7. 8108E-06 2 .2107E-03 5. 1487E-06 1. 6044E-03 1 .1072E-04 9. 6179E-03 7 .7058E-04 kg 3. 1209E-11 9 .2665E-14 4. 6854E-12 2 9279E-16 6 .2951E-13 6. 1469E-14 8. 5714E-12 2 4674E-13 3 .7662E-12 8 .4593E-15 Atoms 1. 4347E+14 4. 2276E+ll 2. 1215E+13 1. 3159E+09 2. 8081E+12 2. 8258E+ll 3. 8811E+13 1. 1172E+12 1. 6801E+13 3. 7736E+10 Decay 2 .4664E+12 2. 1815E+12 3.7611E+12
- 2. 9872E+ll 2. 0622E+12 1 .6942E+09 5. 4474E+ll 3 .7954E+10 3 8173E+12 6. 9941E+ll Control Room Transport Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 5.7049E+13 0.OOOOE+00 1.6288E+14 0.OOOOE+00 5.0375E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)2. 7774E-12 3. 1714E-12 1.2352E-02 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 2.6534E+15 8.2063E+13 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h)8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 9.9685E+13 3.0597E+15 9.4629E+13 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 4.4119E+13 2.3280E+14 7.2001E+12 0.OOOOE+00 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 2.6433E+01 3.2362E+01 Exclusion Area Boundary Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 1.8010E-02 Accumulated dose (rem) 2.9386E-02 TEDE 8.3262E-01 1.0287E+00 Sj XceIEnergy Cculation No. GEN-PI-078 Revision No. 1 Page No. 249 of 277 Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.1072E-03 4.2100E-03 Whole Body 1.3820E-03 2.7417E-03 Thyroid 8. 3576E-01 2.4528E+00 Thyroid 3. 6944E+01 5. 5387E+01 Control Room Compartment Nuclide Inventory:
TEDE 2.6864E-02 8.0326E-02 TEDE 1. 1400E+00 1 .7158E+00 Atoms 1. 1953E+14 3.0036E+09
- 1. 0984E+13 4. 6284E+l1 1. 1293E+12 1. 2390E+14 3. 3052E+12 1. 7399E+13 1. 0116E+10 Time (h)1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m 24.0000 Ci 3.2235E-03 6.7958E-06 2.7480E-03 3.6437E-04 2.0576E-05
- 5. 1221E-03 3.2754E-04 9.9606E-03 2.0658E-04 kg 2. 6001E-11 6.5837E-16 2.4258E-12 1.0376E-13 2 .4565E-13 2 .7364E-11 7.2996E-13
- 3. 9004E-12 2.2678E-15 Decay 7.8164E+12 2.4008E+12
- 9. 4416E+12 3 .4394E+12 2 .5141E+10 6. 8890E+12 4 .5598E+ll 2 .3754E+13 1.4261E+12 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (,atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Group Inventory:
Atmosphere Sump 1.4575E+14 0.OOOOE+00 1.2705E+14 0.OOOOE+00 3.9294E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)2. 1261E-12 2. 2973E-12 6.3427E-03 Deposition Recirculating Time (h) = 24.0000 Surfaces Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.OOOOE+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.OOOOE+00 Filter 0.OOOOE+00 8 .0317E+15 2.484 OE+14 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000E+00 0.00OOE+00 0.OOOOE+00 Transported 6.2373E+14
- 8. 8862E+15 2.7483E+14 0.0000E+00 Control Room to Environment Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Pathway Filtered 4. 6028E+14 7.0458E+14 Transported 0.OOOOE+00 0.0000E+00
[ i,~iI Eno.... Calculation No. GEN-PI-078 Revision No. I Page No. 250 of 277 Organic I (atoms)Aerosols (kg)2.1791E+13 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) ý 45.5000 Whole Body Delta dose (rem) 1.6439E-02 Accumulated dose (rem) 4.5826E-02 Low Population Zone Doses: 0.OOOOE+00 0.0000E+00 Thyroid 4. 2703E+01 7.5065E+01 Thyroid 3. 0786E-01 2.7607E+00 Thyroid 2.5055E+01 8.0442E+01 Time (h) = 45.5000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) ý 45.5000 Delta dose (rem)Accumulated dose (rem)Whole Body 1.8035E-04 4.3904E-03 Whole Body 5.6673E-04 3.3084E-03 TEDE 1.3253E+00 2.3540E+00 TEDE 9. 6167E-03 8.9942E-02 TEDE 7 .6857E-01 2.4844E+00 Atoms 9. 0500E+13 3.7704E+06
- 4. 3885E+12 3. 9719E+10 1.8617E+12
- 1. 5132E+14 3. 6235E+12 4. 6416E+12 8. 4841E+08 Control Room Compartment Nuclide Inventory:
Time (h) = 45.5000 1-131 1-132 1-133 1-135 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Control Room Transport Time (h) ý 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) ý 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 2.4406E-03 8.5306E-09 1.0979E-03
- 3. 1269E-05 3.3922E-05 6.2555E-03 3.5908E-04 2.6572E-03 1.7325E-05 kg 1. 9687E-11 8.2643E-19
- 9. 6920E-13 8. 9039E-15 4.0499E-13 3.3419E-11 8.0027E-13 1.0405E-12 1.9019E-16 Decay 1.4174E+13 2.4027E+12 1.3389E+13 3.7183E+12 9.4407E+10 2.1458E+13 1.3373E+12 3 .7605E+13 1.6179E+12 Group Inventory:
Atmosphere Sump 1.6145E+14 0.OOOOE+00 9.2081E+13 0.OOOOE+00 2.8479E+12 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1. 5115E-12 1.5762E-12 3.5698E-03 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 1.4144E+16
- 4. 3744E+14 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) ý 45.5000 Noble gases (atoms)Elemental I (atoms)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 Transported 1.5202E+15 1.5552E+16
- ::XcelEnergyl I Calculation No. GEN-PI-078 Revision No. I Page No. 251 of 277 Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 4.8098E+14 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.3169E+15 1.2407E+15 3.8373E+13 0.0000E+00 Exclusion Area Boundary Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 0.OOOOE+00 Accumulated dose (rem) 4.5826E-02 Transported 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Thyroid 0.0000E+00 7.5065E+01 Thyroid 0.0000E+00 2.7607E+00 Thyroid 4.6371E-01
- 8. 0906E+01 Low Population Zone Doses: Time (h) =Delta dose Accumulated 96.0000 Whole Body rem) 0.0000E+00 dose (rem) 4.3904E-03 Control Room Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)TEDE 0.OOOOE+00 2.3540E+00 TEDE 0.OOOOE+00 8.9942E-02 TEDE 1.4210E-02 2.4986E+00 Atoms 6.0024E+05
- 4. 2310E+07 6. 7801E+05 3. 5971E+04 Whole Body 2.5016E-05 3.3334E-03 Control Room Compartment Nuclide Inventory:
Time (h)Xe-131m Xe-133 Xe-133m Xe-135 96.0000 Ci 1.0937E-11 1.7491E-09 6.7189E-11
- 2. 0592E-1I kg 1.3057E-19 9.3442E-18 1.4974E-19 8.0637E-21 Decay 1.0769E+11 2.3884E+13 1.4729E+12 3.8439E+13 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 4.3624E+07 0.OOOOE+00 1.0720E-66 0.OOOOE+00 3.3155E-68 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)1.7266E-92 1.7437E-92 3.2443E-83 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 1.4212E+16 4.3954E+14 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
ceIEnergYF Calculation No. GEN-PI-078 Revision No. I Page No. 252 of 277 Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Transported 1.5202E+15 1.5552E+16
- 4. 8098E+14 0.OOOOE+00 Control Room to Environment Transport Group Inventory:
Pathway Time (h) = 96.0000 Filtered Noble gases (atoms) 1.4750E+15 Elemental I (atoms) 1.2467E+15 Organic I (atoms) 3.8557E+13 Aerosols (kg) 0.OOOOE+00 Exclusion Area Boundary Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 4.5826E-02 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00 7.5065E+01 Thyroid 0.OOOOE+00 2.7607E+00 Thyroid 4.9536E-81 8.0906E+01 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0'000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 4.3904E-03 Whole Body 1.1109E-12 3.3334E-03 TEDE 0.OOOOE+00 2.3540E+00 TEDE 0.OOOOE+00 8.9942E-02 TEDE 1. 1109E-12 2.4986E+00 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci kg Atoms Decay Group Inventory:
Atmosphere Sump 4.2541E-74 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 1.4212E+16 4.3954E+14 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Calculation No. GEN-PI-078 Revision No. I Page No. 253 of 277 Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Transported 1.5202E+15 1.5552E+16 4.8098E+14 0.0000E+00 Control Room to Environment Transport Group Inventory:
Pathway Time (h) = 720.0000 Filtered Noble gases (atoms) 1.4750E+15 Elemental I (atoms) 1.2467E+15 Organic I (atoms) 3.8557E+13 Aerosols (kg) 0.0000E+00 Transported 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 840 1-131 Summary Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.000 2.300 2.600 2.900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7. 100 7.400 7.700 8.000 8.300 8. 600 8. 900 Fuel 1-131 (Curies)8.1926E+03 5.3041E+04 5.0647E+04 4.2153E+04 3.5426E+04 2.9772E+04 2.5020E+04 2.1027E+04 1.7671E+04 1.6676E+04 1.4014E+04 1.1778E+04 9.8980E+03 8.3183E+03 6.9907E+03 5.8750E+03 4.9373E+03 4.1493E+03 3.4871E+03 2.9306E+03 2.4628E+03 2.0698E+03 1.7394E+03 1.4618E+03 1.2285E+03 1.0324E+03 8.6766E+02 7.2919E+02 6.1281E+02 5.1500E+02 5.1445E+02 5.1389E+02 5.1334E+02 RCS 1-131 (Curies)1.3109E+00 5.5012E+01 2.4342E+03 1.0867E+04 1.7536E+04 2.3132E+04 2.7825E+04 3.1759E+04 3.5056E+04 3.6032E+04 3.8634E+04 4.0811E+04 4.2632E+04 4.4152E+04 4.5420E+04 4.6477E+04 4.7355E+04 4.8084E+04 4.8687E+04 4.9184E+04 4.9592E+04 4.9926E+04 5.0197E+04 5.0416E+04 5.0590E+04 5.0727E+04 5.0833E+04 5.0912E+04 5.0970E+04 5.1009E+04 5.0950E+04 5.0892E+04 5.0834E+04 Environment 1-131 (Curies)9. 8795E-12 1 .7399E-08 7 .7742E-04 7 .7962E-02 3. 6644E-01 9. 3862E-01 1. 8189E+00 3. 0039E+00 4 .4752E+00 5. 0248E+00 5. 1538E+00 5.3396E+00
- 5. 5843E+00 5. 8892E+00 6. 2552E+00 6. 6826E+00 7 .1717E+00 7. 7221E+00 8. 3334E+00 9. 0051E+00 9. 7364E+00 1.0526E+01
- 1. 1374E+01 1 .2279E+01 1. 3239E+01 1 .4253E+01 1. 5321E+01 1. 6441E+01 1 .7611E+01 1. 8832E+01 1. 9767E+01 2 .0742E+01 2 .1758E+01 W, XceItnergyqý Calculation No. GEN-PI-078 Revision No. 1 Page No. 254 of 277 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 Time (hr)0. 000 0. 004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.000 2.300 2. 600 2. 900 3.200 3.500 3. 800 4. 100 4.400 4.700 5.000 5. 300 5.600 5.900 6.200 6. 500 6.800 7. 100 7.400 7.700 8. 000 8.300 8. 600 8. 900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 5. 1279E+02 5. 1224E+02 5. 1168E+02 5. 1113E+02 5. 1058E+02 4.8624E+02
- 4. 5010E+02 3.7543E+02
- 3. 9907E+01 5.0776E+04
- 5. 0718E+04 5.0660E+04 5.0603E+04 5.0545E+04 4.7996E+04 4.4225E+04 3.6888E+04
- 3. 9211E+03 2 .2813E+01 2 .3906E+01 2 .5036E+01 2. 6203E+01 2 .7406E+01 1.0938E+02
- 2. 6613E+02 2. 6613E+02 2 .6613E+02 Control Room 1-131 (Curies)2.8622E-13 5.0346E-10 2.1650E-05 2.4737E-04 9.0709E-04 1.8884E-03 3.0336E-03 4.2202E-03 5.3692E-03 5.7354E-03 2.2094E-03 1.1502E-03
- 9. 2170E-04 9.7445E-04 1.1232E-03 1.3049E-03 1.4979E-03 1.6941E-03 1.8905E-03 2.0856E-03 2.2786E-03 2.4690E-03 2.6565E-03 2.8407E-03 3.0214E-03 3.1985E-03 3.3719E-03 3.5415E-03 3.7073E-03 3.8691E-03 2.2022E-03 1.6827E-03 1.5470E-03 1.5391E-03 1.5733E-03 1.6209E-03 1.6721E-03 1.7239E-03 3.2235E-03 2.4406E-03 2.9485E-83 0.OOOOE+00 Intact SG .1-131 (Curies)5.1755E-08 1.4061E-05 2.0543E-02 4.0102E-01 1.0264E+00 1.7587E+00 2.5102E+00 3.2314E+00 3.8962E+00 4.1030E+00 6.3591E+00 8.7082E+00 1.1123E+01 1.3582E+01 1.6067E+01 1.8561E+01 2.1052E+01 2.3531E+01 2.5989E+01 2.8419E+01 3.0815E+01 3.3174E+01 3.5492E+01 3.7766E+01 3.9995E+01 4.2177E+01 4.4310E+01 4.6396E+01 4.8433E+01 5.0421E+01 5.2691E+01 5.4915E+01 5.7092E+01 5.9225E+01 6.1313E+01 6.3358E+01 6.5360E+01 6.7321E+01 1.2319E+02 1.6586E+02 1.3834E+02
- 1. 4705E+01 Cumulative Dose Summary XceI Energy Calculation No. GEN-PI-078 Revision No. I Page No. 255 of 277 Exclusion Area Bounda Low Population Zone Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.000 2.300 2.600 2. 900 3.200 3.500 3.800 4.100 4.400 4.700 5.000 5.300 5.600 5.900 6.200 6.500 6.800 7.100 7.400 7.700 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 Thyroid (rem)0 OOOOE+00 5. 7381E-09 2. 5646E-04 2. 5640E-02 1 .2018E-01 3. 0702E-01 5. 9345E-01 9. 7773E-01 1 .4533E+00 1. 6305E+00 1. 6720E+00 1. 7316E+00 1. 8099E+00 1. 9072E+00 2. 0235E+00 2 .1591E+00 2 .3137E+00 2. 4873E+00 2. 6796E+00 2. 8903E+00 3. 1191E+00 3. 3657E+00 3. 6296E+00 3. 9106E+00 4.2081E+00
- 4. 5217E+00 4 .8511E+00 5. 1957E+00 5. 5552E+00 5. 9292E+00 6. 2151E+00 6. 5128E+00 6.8220E+00
- 7. 1424E+00 7.4738E+00
- 7. 8159E+00 8 1684E+00 8. 5310E+00 3. 2362E+01 7. 5065E+01 7 .5065E+01 7. 5065E+01 TEDE (rem)0 OOOOE+00 2. 0685E-10 9. 2440E-06 9. 1504E-04 4. 2535E-03 1. 0786E-02 2. 0713E-02 3.3925E-02
- 5. 0160E-02 5. 6187E-02 5. 7591E-02 5. 9599E-02 6. 2221E-02 6. 5464E-02 6. 9330E-02 7.3817E-02
- 7. 8917E-02 8. 4625E-02 9. 0930E-02 9. 7821E-02 1. 0529E-01 1. 1331E-01 1. 2188E-01 1. 3099E-01 1. 4062E-01 1. 5075E-01 1. 6137E-01 1. 7246E-01 1. 8402E-01 1. 9603E-01 2. 0519E-01 2. 1473E-01 2 .2462E-01 2. 3486E-01 2. 4544E-01 2. 5635E-01 2. 6758E-01 2. 7913E-01 1. 0287E+00 2. 3540E+00 2.3540E+00
- 2. 3540E+00 Thyroid (rem)0 OOOOE+00 1. 5649E-09 6. 9944E-05 6. 9927E-03 3. 2776E-02 8 .3732E-02 1. 6185E-01 2 .6665E-01 3. 9634E-01 4 4469E-01 4. 5601E-01 4. 7227E-01 4. 9361E-01 5 .2013E-01 5. 5187E-01 5. 8884E-01 6. 3101E-01 6. 7835E-01 7. 3079E-01 7 8826E-01 8. 5066E-01 9. 1791E-01 9 8990E-01 1. 0665E+00 1 .1477E+00 1 .2332E+00 1 .3230E+00 1. 4170E+00 1 .5151E+00 1. 6171E+00 1. 6261E+00 1. 6355E+00 1. 6453E+00 1. 6554E+00 1 .6659E+00 1. 6767E+00 1.6879E+00 1.6993E+00 2.4528E+00 2.7607E+00 2.7607E+00 2.7607E+00 TEDE (rem)0.OOOOE+00
- 5. 6414E-11 2. 5211E-06 2.4956E-04
- 1. 1600E-03 2. 9417E-03 5.6490E-03 9.2524E-03 1.3680E-02 1.5324E-02 1.5707E-02 1.6254E-02 1.6969E-02 1.7854E-02 1.8908E-02
- 2. 0132E-02 2.1523E-02 2.3080E-02 2.4799E-02 2.6678E-02 2.8714E-02 3.0903E-02 3.3241E-02 3.5725E-02 3.8350E-02 4.1113E-02 4.4009E-02 4.7035E-02 5.0188E-02 5.3462E-02 5.3761E-02 5.4072E-02 5.4395E-02 5.4728E-02 5.5072E-02 5.5427E-02 5.5792E-02
- 5. 6167E-02 8.0326E-02 8.9942E-02 8.9942E-02 8.9942E-02 Control Room Thyroid TEDE (rem) (rem)0.OOOOE+00 0.OOOOE+00 6.6765E-10 2.1171E-11 9.0930E-04 2.8832E-05 3.3803E-02 1.0701E-03 2.0573E-01 6.5026E-03 6.3755E-01 2.0125E-02 1.4027E+00 4.4229E-02 2.5299E+00 7.9686E-02 4.0164E+00 1.2639E-01 4.5884E+00 1.4435E-01 5.7232E+00 1.7995E-01 6.2094E+00 1.9519E-01 6.5167E+00 2.0481E-01 6.8029E+00 2.1377E-01 7.1213E+00 2.2372E-01 7.4898E+00 2.3523E-01 7.9143E+00 2.4848E-01 8.3966E+00 2.6353E-01 8.9368E+00 2.8037E-01 9.5345E+00 2.9899E-01 1.0189E+01 3.1937E-01 1.0899E+01 3.4148E-01 1.1664E+01 3.6527E-01 1.2482E+01 3.9071E-01 1.3352E+01 4.1777E-01 1.4274E+01 4.4640E-01 1.5245E+01 4.7657E-01 1.6265E+01 5.0822E-01 1.7331E+01 5.4133E-01 1.8444E+01 5.7585E-01 1.9293E+01 6.0220E-01 1.9848E+01 6.1940E-01 2.0314E+01 6.3387E-01 2.0762E+01 6.4775E-01 2.1214E+01 6.6175E-01 2.1677E+01 6.7610E-01 2.2153E+01 6.9086E-01 2.2644E+01 7.0605E-01 5.5387E+01 1.7158E+00 8.0442E+01 2.4844E+00 8.0906E+01 2.4986E+00 8.0906E+01 2.4986E+00 Worst Two-Hour Doses Exclusion Time (hr)24.0 Area Boundary Whole Body Thyroid TEDE (rem) (rem) (rem)1.5293E-03 3.9723E+00 1.2329E-01 lCalculation No. GEN Revision No. I Page No. 256 of 277 Attachment 13.10 RADTRAD Output File PMSINCNGO1.oO
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RADTRAD Version 3.03 (Spring 2001) run on 6/22/2010 at 0:58:00*#####*##########Fn####i##################i##########e#n#######i#####on
- ý#*ý################4###4#########4########*##############4###########
File information Plant file Inventory file Release file Dose Conversion
= G:\Radtrad 3.03\Input\PI\GEN-PI-078 Rl\PMSINCNG01.psf
= g:\radtrad 3.03\defaults\pimsconcdef.txt
= g:\radtrad 3.03\defaults\pingp ng rft.txt file = g:\radtrad 3.03\defaults\pingp fgll&12.txt
- 4######### ## ##### #* * # ##### #5 ## # # # ## S # # ##### S S 5 # # #itS # #it i###### S S #it S S ## ##S S Radtrad 3.03 4/15/2001 PINGP 1 & 2 MSLB Accident AST Analysis -Concurrent Iodine Spike with Noble Gas Release From Intact SG Nuclide Inventory File: g:\radtrad 3.03\defaults\pimsconc def.txt Plant Power Level: 1.8520E+03 Compartments:
4 Compartment 1: Fuel 3 1.0000E+03 0 0 0 0 0 Compartment 2: RCS 3 5.2900E+03 0 0 0 0 0 Xb- lEnel.,. .Calculation No. GEN-PI-078 Revision No. I Page No. 257 of 277 Compartment 3: Environment 2 0.0000E+00 0 0 0 0 0 Compartment 4: Control Room 1 6.1315E+04 0 0 1.0 0 Pathways: 4 Pathway 1: Fuel to RCS 1 2 2 Pathway 2: Environment 3 4 2 to Control Room Pathway 3: Control Room 4 3 2 to Environment Pathway 4: RCS to Environment 2 3 2 End of Plant Model File Scenario Description Name: Plant Model Filename: Source Term: 1 1 1.0000E+00 g:\radtrad 3.03\defaults\pingp fgll&12.txt g:\radtrad 3.03\defaults\pingp ng rft.txt 0.0000E+00 1 0.0000E+00 9.7000E-01 3.OOOOE-02 1.0000E+00 Overlying Pool: 0 C.OOOE+00 0 XceI Energy~ Calculation No. GEN-PI-078 Revision No. 1 Page No. 258 of 277 0 Compartments:
4 Compartment 1: 0 1 0 0 0 0 0 0 0 Compartment 2: 0 1 0 0 0 0 0 0 0 Compartment 3: 0 1 0 0 0 0 0 0 0 Compartment 4: 0 0 0 0 1 3.6000E+03 3 0.0000E+00 8.3300E-02 7.2000E+02 0 0 Pathways: 4 Pathway 1: 0 0 0 0 C.0000E+00
- 9. 9000E+01 C.0000E+00 C.0CCCE+00
- 9. 5000E+01 C.0CCCE+00 C.0000E+00
- 9. 5000E+01 0.0000E+00 SXcelEner i GEN-PI-078 Revision No. I Page No. 259 of 277 0 1 2 0.0000E+00 8.0000E+00 0 0 0 0 0 0 Pathway 2: 0 0 0 0 0 1 3 0.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 3: 0 0 0 0 0 1 3 0.OOOOE+00 8.3300E-02 7.2000E+02 0 0 0 0 0 0 Pathway 4: 0 0 0 0 0 1 2 0.OOOOE+00 4.5500E+01 0 0 9.6000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 O.OOOOE+00 2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 2.OOOOE+03 3.OOOOE+02 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00-0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 o.OOOOE+00 1.8800E-02 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Xce, Energy] Calculation No. GEN-PI-078 Revision No. 1 Page No. 260 of 277 0 0 0 0 Dose Locations:
3 Location 1: Exclusion Area Boundary 3 1 2 0.0000E+00 7.2000E+02 1 2 0.0000E+00 7.2000E+02 0 6.4900E-04 0.0000E+00 3.5000E-04 0.0000E+00 Location 2: Low Population Zone 3 1 5 0.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 7.2000E+02 1 4 0.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 0 Location 3: Control Room 4 0 1 2 0.0000E+00 7.2000E+02 1 4 1.7700E-04 3.9900E-05
- 7. 1200E-06 1.0400E-06 0.OOOOE+00 3.5000E-04 1.8000E-04 2.3000E-04 0.OOOOE+00 3.5000E-04 0.OOOOE+00 0.0000E+00 1.OOOOE+00 2.4000E+0l 6.OOOOE-01 9.6000E+0l 4.OOOOE-01 7.2000E+02 0.OOOOE+00 Effective Volume Location: 1 6 0.0000E+00 2.0000E+00 8.0000E+00
- 2. 4000E+01 9. 6000E+01 3.0700E-02 2.4900E-02
- 1. 1200E-02 7.7800E-03
- 6. 1700E-03 X .Energy Calculation No. GEN-PI-078 Revision No. I I Page No. 261 of 277 7.2000E+02 O.OOOOE+00 Simulation Parameters:
6 O.OOOE+00 1.OOOOE-01 2.0000E+00 5.OOOE-01 8.C000E+00 1.0000E+00 2.4000E+01 2.O000E+00 9.6000E+01 4.OO0E+00 7.2000E+02 0.0000OE+00 Output Filename: G:\Radtrad 3.o7 1 1 1 0 0 End of Scenario File XceI.Energyl Calculation No. GEN-PI-078 Revision No. I Page No. 262 of 277#####4#################*#############4#####################4########*#####
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Plant Description
- ý##########
Number of Nuclides = 60 Inventory Power = 1.0000E+00 MWth Plant Power Level 1 1.8520E+03 MWth Number of compartments
= 4 Compartment information Compartment number 1 (Source term fraction = 1.0000E+00 Name: Fuel Compartment volume = 1.0000E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 1 Exit Pathway Number 1: Fuel to RCS Compartment number 2 Name: RCS Compartment volume = 5.2900E+03 (Cubic feet)Compartment type is Normal Pathways into and out of compartment 2 Inlet Pathway Number 1: Fuel to RCS Exit Pathway Number 4: RCS to Environment Compartment number 3 Name: Environment Compartment type is Environment Pathways into and out of compartment 3 Inlet Pathway Number 3: Control Room to Environment Inlet Pathway Number 4: RCS to Environment Exit Pathway Number 2: Environment to Control Room Compartment number 4 Name: Control Room Compartment volume = 6.1315E+04 (Cubic feet)Compartment type is Control Room Removal devices within compartment:
Filter(s)Pathways into and out of compartment 4 Inlet Pathway Number 2: Environment to Control Room Exit Pathway Number 3: Control Room to Environment Total number of pathways = 4 S Xce Energy] Calculation No. GEN-PI-078 Revision No. I Page No. 263 of 277##################################################################R##4#
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Scenario Description Radioactive Decay is enabled Calculation of Daughters is enabled Release Fractions and Timings NOBLES IODINE CESIUM TELLURIUM STRONTIUM BARIUM RUTHENIUM CERIUM LANTHANUM GAP 0.003600 hr 1.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 EARLY IN-VESSEL 0.0000 hrs 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 LATE RELEASE 0.0000 hrs 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 RELEASE MASS (gm)4. 811E+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Inventory Power 1852. MWt Nuclide Name Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Xe-131m Xe-133 Xe-133m Xe-135 Xe-135m Xe-138 Nuclide Kr-85m Kr-87 Kr-88 1-131 1-133 1-135 Xe-133m Xe-135 Xe-135m Xe-138 Group Specific Inventory (Ci/MWt)1 3.487E-02 1 9.695E-01 1 1.414E-01 1 9.162E-02 1 2.571E-01 1 1.823E-01 1 2.313E+01 1 3.247E-01 1 7.329E-01 1 4.465E-02 1 5.417E-02 half life (s)6.588E+03 3. 383E+08 1. 613E+04 4. 578E+03 1. 022E+04 1. 028E+06 4. 532E+05 1. 890E+05 3. 272E+04 9. 174E+02 8. 502E+02 Whole Body DCF (Sv-m3/Bq-s) 1 .500E-18 1. 190E-16 7. 480E-15 4. 120E-14 1. 020E-13 3. 890E-16 1. 560E-15 1. 370E-15 1 .190E-14 2. 040E-14 5. 770E-14 Inhaled Thyroid (Sv/Bq)0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 0. OOOE+00 Daughter none none none none none none none none none none Inhaled Effective (Sv/Bq)0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 0 OOOE+00 Fraction 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Daughter Kr-85 Rb-87 Rb-88 Xe-131m Xe-133m Xe-135m Xe-133 Cs-135 Xe-135 Cs-138 Fraction 0.21 1.00 1.00 0.01 0.03 0.15 1.00 1.00 1.00 1.00 Daughter none none none none Xe-133 Xe-135 none none none none Fractior 0.00 0.00 0.00 0.00 0.97 0.85 0.00 0.00 0.00 0.00 Iodine fractions Aerosol Elemental= .OOOOE+00= 9.7000E-01 bX elfnergy]
Calculation No. GEN-PI-078 Revision No. I Page No. 264 of 277 Organic = 3.OOOOE-02 COMPARTMENT DATA Compartment number 1: Fuel Compartment number 2: RCS Compartment number 3: Environmen Compartment number 4: Control Ro Compartment Filter Data Time (hr) Flow Rate (cfm)O.OOOOE+00 3.6000E+03 8.3300E-02 3.6000E+03 7.2000E+02 3.6000E+03 PATHWAY DATA Pathway number 1: Fuel to RCS Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOOE+00 O.OOOOE+00 O.0O00E+00 9.9000E+01 9.5000E+01 9.5000E+01 O.OCC0E+00 O.OOOOE+00 0.0OOOE+00 Pathway Filter: Removal Data Time (hr) Flow Rate (cfm)O.OOOOE+00 9.6000E+00 8.OOOOE+00 O.0OOOE+00 Pathway number 2: Environment to Pathway Filter: Removal Data Time (hr) Flow Rate (cfm)0.OOOOE+00 2.OOOOE+03 8.3300E-02 3.OOOOE+02 7.2000E+02 O.OOOOE+00 Pathway number 3: Control Room t(Pathway Filter: Removal Data Time (hr) Flow Rate (cfm)O.OOOOE+00 2.OOOE+03 8.3300E-02 3.OOOE+02 Filter Efficiencies
(%)Aerosol Elemental Organic 0.OOOE+00 O.OOOOE+00 0.0O00E+00 O.OOOE+00 O.OO00E+00 O.0OOOE+00 Control Room Filter Efficiencies
(%)Aerosol Elemental Organic O.OOOE+00 O.OOOE+00 O.0O00E+00 O.OOOE+00 O.OO0E+00 O.OOOOE+00 0.OOOCE+00 O.OOOOE+00 O.COOE+00 D Environment Filter Efficiencies
(%)Aerosol Elemental Organic C.0OOOE+00 O.OOOOE+00 0.OO0E+00 0.0O00E+00 O.OOOE+00 0.0O00E+00 7.2000E+02 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.0000E+00 Pathway number 4: RCS to EnvironmE Pathway Filter: Removal Data Time (hr) Flow Rate (cfm)Filter Efficiencies
(%)Aerosol Elemental Organic V XceIfnergy Cl~culation No. GEN-PI-078 T Revision No. 1 Page No. 265 of 277 1 0.0000E+00 4.5500E+01 1.8800E-02 0.0O00E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 LOCATION DATA Location Exclusion Area Boundary is in compartment 3 Location X/Q Data Time (hr)0.0000E+00 7.2000E+02 X/Q (s
- m^-3)6.4900E-04 0.0000E+00 Location Breathing Rate Data Time (hr) Breathing Rate (m^3
- sec^-l)0.OOOOE+00 3.5000E-04 7.2000E+02 0.0000E+00 Location Low Population Zone is in compartment 3 Location X/Q Data Time (hr)0.OOOOE+00 8.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 X/Q (s
- m^-3)1.7700E-04 3.9900E-05 7 .1200E-06 1.0400E-06 0.0000E+00 Location Breathing Rate Da Time (hr) Breathi 0.0000E+00 8.0000E+00 2.4000E+01 7.2000E+02 Location Control Room ng Rate (m^3
- sec^-l)3.5000E-04 1.8000E-04 2.3000E-04 0.0000E+00 is in compartment 4 Location X/Q Data Time (hr)0 00O0E+00 2. 0000E+00 8. 0000E+00 2. 4000E+01 9. 6000E+01 7 .2000E+02 Location Breathing Time (hr)0.0000E+00 7.2000E+02 Location Occupancy Time (hr)0.0000E+00 2.4000E+01 9.6000E+01 7.2000E+02 X/Q (s
- m^-3)3.0700E-02 2.4900E-02
- 1. 1200E-02 7.7800E-03
- 6. 1700E-03 0.0000E+00 Rate Data Breathing Rate (m^3
- sec^-l)3.5000E-04 0.0000E+00 Factor Data Occupancy Factor 1.0000E+00 6.0O00E-01 4.OOO0E-01 0.OO0E+00 USER SPECIFIED TIME STEP DATA -SUPPLEMENTAL TIME STEPS Time C.0000E+00 Time step 1 .0OOOE-01 X Calculation No. GEN-PI-078 Revision No. 1 Page No. 266 of 277 2.OOOOE+00 8.OOO0E+00 2.4000E+01
- 9. 6000E+01 7.2000E+02
- 5. 0OOOE-01 1.OOOE+00 2.0000E+00 4.OOO0E+00 0.0000E+00 4if XceI :Ener .gyl Calculation No. GEN-PI-078 T Revision No. I FPage No. 267 of 277#######################R################A##############################
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- #S #S #S S S S S#S#S S S#S S S#S#### S####5 S###### S S S S S# # #SSSS ft ft ## # ## ## S ##555 4#55##############f######f##4#############f##########44##########f##########
Dose, Detailed model and Detailed Inventory Output \S#4#S###################################S##*#SSSSSS###############
Exclusion Area Boundary Doses: Time (h) = 0.0036 Whole Body Delta dose (rem) 9.5158E-11 Accumulated dose (rem) 9.5158E-11 Low Population Zone Doses: Time (h) = 0.0036 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Whole Body 2.5952E-11 2.5952E-1I Thyroid 2.5349E-16
- 2. 5349E-16 Thyroid 6. 9133E-17 6. 9133E-17 Thyroid 3. 1823E-17 3. 1823E-17 Time (h) = 0.0036 Whole Body Delta dose (rem) 4.0186E-13 Accumulated dose (rem) 4.0186E-13 TEDE 9.5161E-11 9.5161E-11 TEDE 2. 5953E-11 2.5953E-11 TEDE 4.0232E-13 4.0232E-13 Atoms 1.7395E+05 2.4869E+11 1.7283E+06
- 3. 1742E+05 1. 9914E+06 1. 4212E+08 7.9478E+09 4.6543E+07
- 1. 8212E+07 3. 6149E+04 3.4555E+04 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Xe-131m Xe-133 Xe-1333m Xe-135 Xe-135m Xe-138 0.0036 Ci 4.9466E-10 1.3772E-08 2.0075E-09 1.2989E-09 3.6489E-09 2.5896E-09 3.2856E-07 4.6123E-09 1.0426E-08 7.3817E-10
- 7. 6140E-10 kg 2.3975E-20
- 3. 5102E-14 2 .4394E-19 4.5857E-20 2 .910OE-19 3. 0916E-17 1.7553E-15 1.0279E-17 4.0826E-18
- 8. 1036E-21 7. 9184E-21 Decay 1.6528E+02 4.5994E+03 6.7057E+02
- 4. 3410E+02 1.2190E+03 8.6484E+02 1.0973E+05 1.5404E+03 3.4822E+03 2.4713E+02 2.5523E+02 Control Room Transport Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Group Inventory:
Atmosphere Sump 2.5685E+1l O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 0.OOOOE+00 O.OOOOE+00 2.904SE-22 0.OOOOE+00 1-131 (Thyroid)0.0000E+00 XceIfnergyv Calculation No. GEN-PI-078 Revision No. I Page No. 268 of 277 Dose Effective (Ci/cc) 1-131 (ICRP2 Thyroid)Total I (Ci)0.OOOOE+00 0.OOOOE+00 Deposition Time (h) = 0.0036 Surfaces Noble gases (atoms) 0.OOOOE+00 Elemental I (atoms) 0.0000E+00 Organic I (atoms) 0.OOOOE+00 Aerosols (kg) 0.0000E+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 Transported 2.5731E+11 0.OOOOE+00 0.OOOOE+00 5.4240E-23 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0036 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 4.8715E+08 0.OOOOE+00 0.OOOOE+00 1.1560E-25 Exclusion Area Boundary Doses: Time (h) = 0.0833 Whole Body Delta dose (rem) 1.4426E-07 Accumulated dose (rem) 1.4435E-07 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.8415E-12 1.8417E-12 Thyroid 5.0222E-13 5.0229E-13 Thyroid 6.4542E-12
- 6. 4542E-12 Low Population Zone Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 0.0833 Delta dose (rem)Accumulated dose (rem)Whole Body 3.9343E-08 3.9369E-08 Whole Body 1.7892E-08 1.7893E-08 TEDE 1.4428E-07 1.4438E-07 TEDE 3.9350E-08 3.9376E-08 TEDE 1.7985E-08 1.7986E-08 Atoms 2.4297E+08
- 3. 5801E+14 2.4575E+09 4.3752E+08
- 2. 8116E+09 5.6825E+07
- 2. 0456E+11 1. 1437E+13 Control Room Compartment Nuclide Inventory:
Time (h)Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133= 0.0833 Ci 6.9092E-07 1.9826E-05 2.8545E-06 1.7904E-06
- 5. 1517E-06 9.9677E-07 3.7272E-06 4.7278E-04 kg 3.3488E-17 5.0532E-11 3.4686E-16 6.3208E-17 4.1085E-16 8.3038E-18 4.4498E-14 2 .5258E-12 Decay 7.4468E+06 2.1047E+08 3.0492E+07 1.9426E+07 5.5227E+07 3.2735E+05 3.9572E+07 5.0203E+09 X IEnergyj Calculation No. GEN-PI-078 Revision No. I Page No. 269 of 277 Xe-133m Xe-135 Xe-135m Xe-138 Cs-138 6.6329E-06 1.4940E-05 9.3558E-07 8.6748E-07
- 1. 0414E-07 1. 4782E-14 5. 8503E-15 1. 0271E-17 9. 0216E-18 2.4610E-18
- 6. 6933E+10 2. 6097E+10 4. 5816E+07 3.9369E+07 1.0740E+07 7.0454E+07 1.5902E+08
- 1. l091E+07 1.0376E+07 3.9485E+04 Control Room Transport Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 3.6976E+14 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 1.0765E-17 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)O.OOOOE+00 O.OOOOE+00 O.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Environment to Control Room Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 3.8977E+14 0.OOOOE+00 0.OOOOE+00 3.9406E-19 Control Room to Environment Transport Group Inventory:
Time (h) = 0.0833 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 1.9696E+13 0.0000E+00 0.OOOOE+00 1.9956E-20 Exclusion Area Boundary Doses: Time (h) = 8.0000 Whole Body Delta dose (rem) 3.3864E-04 Accumulated dose (rem) 3.3879E-04 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 3.3649E-07 3.3649E-07 Thyroid 9.1769E-08 9.1769E-08 Thyroid 2.8038E-06 Low Population Zone Doses: Time (h) = 8.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 8.0000 Delta dose (rem)Whole Body 9.2357E-05 9.2397E-05 Whole Body 2.4611E-04 TEDE 3.4410E-04 3.4425E-04 TEDE 9.3847E-05 9.3886E-05 TEDE 2.9208E-04 XcelEnergyl calculation No. GEN-PI-078 Revision No. I Page No. 270 of 277 Accumulated dose (rem) 2.4613E-04 2.8039E-06 2.9210E-04 Control Room Compartment Nuclide Inventory:
Time (h) =Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Cs-138 Control Room Time (h) =Noble gases Elemental I 8.0000 Ci 6.5737E-06 3.7832E-03 1.6004E-04 4.5663E-06 1.4239E-04 8.4784E-05 6.9774E-04 8.6427E-02
- 1. 1402E-03 1.5618E-03
- 5. 3604E-10 kg 3. 1862E-16 9.6428E-09
- 1. 9447E-14 1. 6121E-16 1. 1355E-14 7 .0631E-16 8.3301E-12
- 4. 6173E-10 2. 5411E-12 6. 1160E-13 1.2668E-20 Atoms 2. 3118E+09 6. 8318E+16 1. 3778E+ll 1. 1159E+09 7. 7708E+10 4. 8335E+09 3. 8294E+13 2. 0907E+15 1. 1506E+13 2. 7282E+12 5. 5281E+04 Decay 1.4350E+10 2 .2748E+12 1.5291E+ll
- 2. 0689E+10 1.8495E+ll 7 .8963E+10 4.2232E+ll 5.2743E+13
- 7. 1087E+ll 1. 1674E+12 4.2736E+08 Transport 8.0000 (atoms)(atoms)Group Inventory:
Atmosphere Sump 7.0462E+16 0.0000E+00 0.OOOOE+00 0.0000E+00 0.0000E+00 0.0000E+00 7.0632E-16 0.0000E+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.0000E+00 0.0000E+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.0000E+00 0.0000E+00 2.1988E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 1.6292E+17 0.OOOOE+00 0.OOOOE+00 9.1021E-15 Control Room to Environment Transport Group Inventory:
Time (h) = 8.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 9.2400E+16 0.OOOOE+00 0.OOOOE+00 1.8508E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 1.1491E-07 4.5139E-07 Exclusion Area Boundary Doses: Time (h) = 24.0000 Whole Body Delta dose (rem) 5.7139E-04 Accumulated dose (rem) 9.1018E-04 TEDE 5.7328E-04
- 9. 1753E-04 SXcelEnergyl Calculation No. GEN-PI-078 Reision No. 1 Page No. 271 of 277 I Low Population Zone Doses: Time (h) = 24.0000 Delta dose (rem)Accumulated dose (rem)Control R6om Doses: Whole Body 3.5129E-05 1.2753E-04 Thyroid 3. 6331E-09 9.5402E-08 Thyroid 1. 1192E-06 3.9230E-06 Time (h) = 24.0000 Whole Body Delta dose (rem) 4.1401E-04 Accumulated dose (rem) 6.6014E-04 Control Room Compartment Nuclide Inventory:
TEDE 3. 5188E-05 1.2907E-04 TEDE 4.3247E-04 7.2457E-04 Atoms 2.9304E+06
- 3. 7104E+16 6.2953E+09 9.8859E+04 8.5007E+08
- 2. 3814E+08 2. 0008E+13 1. 0410E+15 5. 0598E+12 4.3747E+ll Time (h) = 24.0000 Kr-83m Kr-85 Kr-85m Kr-87 Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 8. 3328E-09 2 .0547E-03 7. 3124E-06 4. 0454E-l0 1. 5576E-06 4 1773E-06 3. 6456E-04 4. 3032E-02 5. 0141E-04 2 .5044E-04 kg 4. 0388E-19 5. 2371E-09 8. 8856E-16 1. 4282E-20 1 .2422E-16 3. 4800E-17 4 .3523E-12 2 .2990E-10 1 1175E-12 9. 8069E-14 Decay 1. 6183E+10 7 .3741E+12 2 4227E+ll 2 .1619E+10 2. 4190E+ll 9. 6759E+10 1 .3464E+12 1. 6475E+14 2 1097E+12 2 4543E+12 Group Inventory:
Atmosphere Sump 3.8170E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 3.4800E-17 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 2.7684E-14 Environment to Control Room Transport Group Inventory:
Time (h) = 24.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 3.4124E+17 0.OOOOE+00 0.OOOOE+00 1.0420E-14 Control Room to Environment Transport Group Inventory:
Pathway Filtered Transported Time (h) = 24.0000 XbeIEnerg Calculation No. GEN-PI-078 Revision No. I Page No. 272 of 277 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)3. 0289E+17 0.OOOOE+00 0.OOOOE+00
- 2. 3303E-15 Exclusion Area Boundary Doses: Time (h) = 45.5000 Whole Body Delta dose (rem) 6.2516E-04 Accumulated dose (rem) 1.5353E-03 0.0000E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Thyroid 4.5609E-09 4.5596E-07 Thyroid 3.2881E-11 9.5435E-08 Thyroid 1.9666E-08 3.9427E-06 Low Population Zone Doses: Time (h) = 45.5000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 45.5000 Delta dose (rem)Accumulated dose (rem)Whole Body 6.8584E-06 1.3438E-04 Whole Body 1.7130E-04
- 8. 3144E-04 TEDE 6.2523E-04 1.5428E-03 TEDE 6.8589E-06 1.3593E-04 TEDE 1.7163E-04 8.9620E-04 Atoms 2. 5475E+16 1.5528E+08
- 3. 0711E+06 4.6664E+05
- 1. 3041E+13 6. 3582E+14 2. 6161E+12 5. 8305E+10 Control Room Compartment Nuclide Inventory:
Time (h) = 45.5000 Kr-85 Kr-85m Kr-88 Rb-88 Xe-131m Xe-133 Xe-133m Xe-135 Control Room Transport Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Ci 1.4107E-03 1 .8036E-07 5. 6273E-09 8. 1853E-09 2. 3761E-04 2. 6284E-02 2 .5924E-04 3.3378E-05 kg 3.5957E-09
- 2. 1917E-17 4. 4878E-19 6. 8189E-20 2. 8368E-12 1. 4042E-10 5. 7776E-13 1 .3070E-14 Decay 1.1669E+13 2 4702E+ll 2 .4258E+ll 9. 6837E+10 2 .0897E+12 2 .4984E+14 3.0275E+12 2 .7210E+12 Group Inventory:
Atmosphere Sump 2.6127E+16 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 6.8189E-20 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.0000E+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 2.7737E-14 Environment to Control Room Transport Group Inventory:
Pathway Time (h) = 45.5000 Filtered Transported Noble gases (atoms) 0.OOOOE+00 5.0655E+17 Xce Energy]Calculation No. GEN-PI-078 Revision No. I Page No. 273 of 277..... !Elemental I (atoms)Organic I (atoms)Aerosols (kg)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 o.OOOOE+00 o.OOOOE+00 1.0457E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 45.5000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 4. 8014E+17 0.OOOOE+00 0.0000E+00 2.3348E-15 Exclusion Area Boundary Doses: Time (h) = 96.0000 Whole Body Delta dose (rem) 0.0000E+00 Accumulated dose (rem) 1.5353E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 Thyroid 0.OOOOE+00 4.5596E-07 Thyroid 0.OOOOE+00 9.5435E-08 Thyroid 2.9762E-11 3.9427E-06 Low Population Zone Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 96.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 1.3438E-04 Whole Body 2.3055E-05 8.5450E-04 TEDE 0.OOOOE+00 1.5428E-03 TEDE 0.OOOOE+00 1.3593E-04 TEDE 2.3055E-05
- 9. 1925E-04 Atoms 9.2790E+09 4.2036E+06 1.7583E+08 4.8944E+05 Control Room Compartment Nuclide Inventory:
Time (h)Kr-85 Xe-131m Xe-133 Xe-133m 96.0000 Ci 5. 1384E-10 7. 6593E-11 7.2689E-09
- 4. 8502E-11 kg 1.3097E-15
- 9. 1442E-19 3.8833E-17 1.0809E-19
.Decay 1.2225E+13 2.1827E+12
- 2. 6002E+14 3. 1254E+12 Control Room Transport Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 9.4596E+09 0.OOOOE+00 0.OOOOE+00 0.0000E+00 0.OOOOE+00 0.OOOOE+00 2.0136E-31 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Recirculating Surfaces Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 2.7737E-14 Environment to Control Room Transport Group Inventory:
Xce. l ergyl Calculation No. GEN-PI-078 Revision No. I Page No. 274 of 277 Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 5.0655E+17 o.OOOOE+00 o.OOOOE+00 1.0457E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 96.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.0625E+17 0.0000E+00 0.OOOOE+00 2.3348E-15 Exclusion Area Boundary Doses: Time (h) = 720.0000 Whole Body Delta dose (rem) 0.OOOOE+00 Accumulated dose (rem) 1.5353E-03 Transported 0.0000E+00 0.0000E+00 0.OOOOE+00 0.0000E+00 Thyroid 0.OOOOE+00 4.5596E-07 Thyroid 0.0000E+00 9.5435E-08 Thyroid 4.3736E-23 3.9427E-06 Low Population Zone Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Control Room Doses: Time (h) = 720.0000 Delta dose (rem)Accumulated dose (rem)Whole Body 0.OOOOE+00 1.3438E-04 Whole Body 4.2171E-12 8.5450E-04 TEDE 0.OOOOE+00 1.5428E-03 TEDE 0.OOOOE+00 1.3593E-04 TEDE 4.2171E-12
- 9. 1925E-04 Control Room Compartment Nuclide Inventory:
Time (h) = 720.0000 Ci kg Atoms Decay Control Room Transport Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Dose Effective (Ci/cc)Dose Effective (Ci/cc)Total I (Ci)Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Group Inventory:
Atmosphere Sump 2.5674E-70 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 4.0352-177 0.OOOOE+00 1-131 (Thyroid)1-131 (ICRP2 Thyroid)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Deposition Surfaces 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Recirculating Filter 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 2.7737E-14 Environment to Control Room Transport Group Inventory:
S tXceI Energy]Calculation No. GEN-PI-078 Revision No. I I Page No. 275 of 277 Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Transported 5.0655E+17 0.OOOOE+00 0.OOOOE+00 1.0457E-14 Control Room to Environment Transport Group Inventory:
Time (h) = 720.0000 Noble gases (atoms)Elemental I (atoms)Organic I (atoms)Aerosols (kg)Pathway Filtered 5.0625E+17 0.OOOOE+00 0.OOOOE+00 2.3348E-15 Transported 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 840 1-131 Summary Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4 .300 4.600 4.900 5.200 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7. 600 7. 900 8. 000 8 .300 8. 600 Fuel 1-131 (Curies)0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 o OOOOE+00 0 OOOOE+00 0 OOOOE+00 RCS 1-131 (Curies)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Environment 1-131 (Curies)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 O.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.0O00E+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 X we Enercw~ calculation No. GEN-PI-078 Revision No. I Page No. 276 of 277 8. 900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 Time (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1. 600 1. 900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4.300 4. 600 4. 900 5.200 5.500 5.800 6.100 6.400 6.700 7. 000 7.300 7. 600 7. 900 8.000 8.300 8. 600 8. 900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 .OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 Control Room 1-131 (Curies)0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.000OE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0.OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00 0 OOOOE+00.7 Xcelcnergyl Calculation No. GEN-PI-078 Revision No. 1 Page No. 277 of 277 Cumulative Dose Summary#############################f#######################################
Exclusion Area Bounda Low Population Zone Time Thyroid (hr)0.000 0.004 0.083 0.400 0.700 1.000 1.300 1.600 1.900 2.200 2.500 2.800 3.100 3.400 3.700 4.000 4.300 4.600 4.900 5.200 5.500 5.800 6.100 6.400 6.700 7.000 7.300 7.600 7.900 8.000 8.300 8.600 8.900 9.200 9.500 9.800 10.100 10.400 24.000 45.500 96.000 720.000 (rem)0.OOOOE+00 2.5349E-16
- 1. 8417E-12 2.4621E-09 1.0486E-08 2.3359E-08 3.9485E-08 5.7497E-08 7.6420E-08
- 9. 5601E-08 1. 1461E-07 1.3318E-07 1.5112E-07 1.6833E-07 1.8473E-07 2.0031E-07
- 2. 1504E-07 2.2894E-07 2 .4201E-07 2.5429E-07 2.6579E-07
- 2. 7656E-07 2. 8663E-07 2. 9604E-07 3. 0482E-07 3. 1301E-07 3. 2064E-07 3. 2776E-07 3. 3438E-07 3. 3649E-07 3. 4250E-07 3. 4810E-07 3. 5329E-07 3. 5812E-07 3. 6261E-07 3. 6678E-07 3. 7066E-07 3.7426E-07 4.5139E-07 4.5596E-07 4.5596E-07 4.5596E-07 TEDE (rem)0.OOOOE+00
- 9. 5161E-11 1.4438E-07
- 3. 3148E-06 9.6399E-06 1.8479E-05
- 2. 9213E-05 4.1346E-05 5.4498E-05 6.8378E-05 8.2763E-05 9.7482E-05
- 1. 1240E-04 1.2743E-04 1.4248E-04 1.5749E-04 1.7243E-04 1.8727E-04
- 2. 0196E-04 2. 1651E-04 2.3090E-04 2.4512E-04
- 2. 5917E-04 2.7305E-04 2.8675E-04 3.0029E-04
- 3. 1366E-04 3.2687E-04 3.3993E-04 3.4425E-04 3.5709E-04 3.6978E-04
- 3. 8231E-04 3.9470E-04 4.0695E-04
- 4. 1907E-04 4.3106E-04 4.4294E-04
- 9. 1753E-04 1.5428E-03 1.5428E-03 1.5428E-03 Thyroid (rem)0.0000E+00
- 6. 9133E-17 5. 0229E-13 6. 7150E-10 2.8599E-09 6.3707E-09 1.0769E-08 1.5681E-08 2.0842E-08 2.6073E-08
- 3. 1258E-08 3. 6321E-08 4.1214E-08 4.5907E-08 5.0382E-08 5.4630E-08 5.8648E-08 6.2438E-08 6.6003E-08 6.9350E-08 7.2488E-08 7.5426E-08
- 7. 8172E-08 8.0738E-08 8.3133E-08 8.5366E-08 8.7448E-08 8.9388E-08
- 9. 1195E-08 9. 1769E-08 9. 1959E-08 9.2136E-08 9.2301E-08 9.2453E-08 9.2595E-08 9.2727E-08 9.2850E-08 9.2964E-08 9.5402E-08 9.5435E-08 9.5435E-08 9.5435E-08 TE DE (rem)0.OOOOE+00 2.5953E-11 3.9376E-08 9.0404E-07 2.6291E-06 5.0398E-06 7.9671E-06
- 1. 1276E-05 1.4863E-05 1.8649E-05 2.2572E-05 2.6586E-05 3.0656E-05 3.4753E-05 3.8858E-05 4.2953E-05 4.7028E-05
- 5. 1072E-05 5. 5081E-05 5.9049E-05 6.2972E-05
- 6. 6851E-05 7.0682E-05 7.4467E-05 7.8205E-05 8.1897E-05 8.5544E-05 8 .9147E-05 9.2708E-05 9.3886E-05 9.4673E-05 9.5450E-05
- 9. 6218E-05 9.6977E-05 9.7728E-05
- 9. 8471E-05 9.9206E-05 9.9935E-05 1.2907E-04 1.3593E-04 1.3593E-04 1.3593E-04 Control Room Thyroid TEDE (rem) (rem)0.OOOOE+00 0.OOOOE+00 3.1823E-17 4.0232E-13 6.4542E-12 1.7986E-08 5.6444E-09 4.2672E-07 2.8823E-08 1.7005E-06 7.5809E-08 4.2385E-06 1.4652E-07 8.2155E-06 2.3846E-07 1.3683E-05 3.4862E-07 2.0624E-05 4.7139E-07 2.8858E-05 5.9880E-07 3.7976E-05 7.3120E-07 4.7938E-05 8.6741E-07 5.8686E-05 1.0060E-06 7.0149E-05 1.1456E-06 8.2254E-05 1.2849E-06 9.4931E-05 1.4229E-06 1.0811E-04 1.5588E-06 1.2173E-04 1.6917E-06 1.3573E-04 1.8210E-06 1.5005E-04 1.9462E-06 1.6465E-04 2.0670E-06 1.7948E-04 2.1832E-06 1.9450E-04 2.2944E-06 2.0967E-04 2.4007E-06 2.2497E-04 2.5020E-06 2.4037E-04 2.5983E-06 2.5584E-04 2.6896E-06 2.7136E-04 2.7761E-06 2.8691E-04 2.8039E-06 2.9210E-04 2.8800E-06 3.0720E-04 2.9469E-06 3.2148E-04 3.0066E-06 3.3503E-04 3.0603E-06 3.4793E-04 3.1087E-06 3.6024E-04 3.1523E-06 3.7202E-04 3.1917E-06 3.8331E-04 3.2274E-06 3.9416E-04 3.9230E-06 7.2457E-04 3.9427E-06 8.9620E-04 3.9427E-06 9.1925E-04 3.9427E-06 9.1925E-04
ýý####################################W##Tw#################r#######
Worst Two-Hour Doses########################f############################################
Exclusion Time (hr)2.6 Area Boundar)Whole Body (rem)9.7823E-05 Thyroid (rem)1. 0814E-07 TEDE (rem)9.9596E-05