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Category:INTERNAL OR EXTERNAL MEMORANDUM
MONTHYEARML20059J7501990-09-0707 September 1990
Requests RESAR SP/90 Technical Reviewer Support During Listed ACRS Meetings.Full Committee Meeting Scheduled for 901004,05 or 06
ML20245E8501989-08-0707 August 1989
Advises of Reassignments in Project Mgt Duties Due to Recent Reorganization of Standardization & Life Extension Project Directorate
ML20246B8331989-07-0505 July 1989
Notification of 890714 Meeting W/Util in Rockville,Md to Discuss Severe Accident & Licensing Issues on RESAR SP/90
ML20236B3751989-03-0909 March 1989
Forwards to Wj Johnson,Forwarding NRC Draft SER Re RESAR SP/90 on Listed Technical Areas.Ltrs Provided to ACRS Members of Progress in Reviewing Pda Application
ML20236D5751989-03-0909 March 1989
Forwards to Wj Johnson,Forwarding NRC Draft SER Re RESAR SP/90 on Listed Technical Areas.Ltrs Provided to Inform CRGR Members of Progress in Reviewing Pda Application
ML20236A9721989-03-0707 March 1989
Forwards Feb 1989 Status Rept Re Current Review Milestones for Each Std Plant Project
ML20196B6081988-11-29029 November 1988
Forwards Status Rept for Nov 1988 Re Std Plant Design Technical Reviews
ML20195J3231988-11-18018 November 1988
Provides Responses Re Review of Resolution of USIs & Generic Safety Issues for RESAR SP/90,per 881027 Request
ML20195D6891988-10-27027 October 1988
Proposes Review Responsibilities & Review Guidelines Re Resolution of USIs & Generic Safety Issues for RESAR SP/90. Encls Provide Matrices Delineating Proposed NRR Review Responsibilities for All Applicable USIs
ML20195B6131988-10-26026 October 1988
Forwards Status Rept on Std Plant Design Technical Reviews
ML20154E4051988-09-14014 September 1988
Forwards Status Rept for Aug 1988 Re Std Plant Design Technical Reviews
ML20207E9601988-08-0909 August 1988
Forwards Status Rept for Jul Re Current Review Milestones for Each Std Plant Project.Requests Notification within 1 Wk of Receipt of Memo If Problems W/Input Dates Encountered
ML20207E1421988-07-29029 July 1988
Forwards Proprietary BNL Repts Re Probability Safety Study for RESAR SP/90.Repts Withheld (Ref 10CFR2.740)
ML20150C7751988-07-0101 July 1988
Forwards Status Rept on Std Plant Design Technical Reviews
ML20154R5161988-06-0202 June 1988
Foorwards May Status Rept Re Current Review Milestones for Std Plants (Epri,Advanced Bwr,Resar SP/90 & C-E Sys 80+)
ML20154F9981988-05-17017 May 1988
Notification of 880608 Meeting W/Westinghouse in Rockville, MD to Discuss QA Program Intended for Application to RESAR SP/90 & Westinghouse Responses to NRC Request for Addl Info
ML20151W3301988-04-25025 April 1988
Forwards Apr 1988 Status Rept Re Current Review Milestones for Each Std Plant Design.Problems in Meeting Input Dates Should Be Reported within 1 Wk of Memo Receipt
ML20151L3341988-04-14014 April 1988
Requests Draft SER Discussing Acceptability of Applicable design-specific Resolutions of Listed Generic Issues No Later than 880516
ML20148H4691988-03-23023 March 1988
Notification of 880331 Meeting W/Bnl & Westinghouse in Monroeville,Pa to Discuss Results of NRC Review of PRA for RESAR SP/90
ML20148J8961988-03-23023 March 1988
Forwards Mar 1988 Status Rept Re Std Plant Design Technical Reviews
ML20148H4711988-03-22022 March 1988
Forwards BNL Draft Rept, Independent Assessment of Severe Accident Risks for Westinghouse Advanced PWR Design (SP/90). Encl Withheld (Ref 10CFR2.740)
ML20150D5891988-03-21021 March 1988
Forwards Wj Johnson of Westinghouse Mar 1988 Ltr Forwarding Draft SER on front-end Portion of Module 16, Probabilistic Safety Study, to Inform of Progress of Review of Pda Application.W/O Encls
ML20148D7511988-03-21021 March 1988
Forwards Author Mar 1988 Ltr to Wj Johnson Transmitting Draft SER on front-end Portion of Module 16, Probabilistic Safety Study of Pda Application for RESAR SP/90 Design. Rest of Pda Application Under Review.W/O Encl
ML20149L9901988-02-19019 February 1988
Forwards Feb Status Rept Re Current Review Milestones for Std Plant Projects (Epri,Abwr,Resar SP/90 & C-E Sys 80+)
ML20149M0251988-01-25025 January 1988
Forwards Revised Std Plant Review Program Plan. Four Standardization Projects & Expected Westinghouse Advanced Passive Plant Design Listed.Issuance of Revised Program Plan Constitutes Completion of Task Assignment 3 Per 871116 Memo
ML20207L4251988-01-25025 January 1988
Forwards Info Re Advanced LWR Performance Goals.Info Assembled After Discussion W/Knowledgeable NRC Staff Members & During 880119 Meeting W/Erpi Representatives
ML20148C9131988-01-19019 January 1988
Forwards Status Rept on Std Plant Design Technical Reviews for Jan 1988.Problems W/Meeting Listed Input Dates Requested within 1 Wk of Memo Receipt
ML20237B3631987-12-14014 December 1987
Forwards Review Status Repts on GE Advanced Bwr,Westinghouse RESAR SP/90,C-E Sys 80+ & EPRI Advanced Lwr.Repts Will Be Issued Periodically Re Current Review Milestone for Each Std Plant Project.Expected Input Date Discussed
ML20236J1531987-11-0202 November 1987
Advises That Technical Reviewers for Standardized LWR Plants Should Be Reminded of Responsibility for Assuring That safety-related Structures,Sys & Components within Scope of Review Classified as safety-related by Applicant
ML20236J2401987-10-28028 October 1987
Notification of 871030 Meeting W/Nrc in Bethesda,Md to Discuss Westinghouse PWR Licensing Initiatives.Agenda Encl
ML20235K8271987-09-29029 September 1987
Forwards Final List of Review Assignments Including Currently Assigned Review Staff,Former Reviewers,Psar Sections Listed by Branch & Staff Members & Listing of Draft SERs Received to Date
ML20235K6431987-09-29029 September 1987
Notification of 871119 Meeting W/Westinghouse in Monroeville,Pa to Discuss Engineering & Human Factors Design Aspects of Westinghouse Advanced Control Room That Will Be Utilized in RESAR SP/90 Facility Design
ML20237F8671987-08-27027 August 1987
Notification of Rescheduled 870903 Meeting to 870910 W/Westinghouse in Bethesda,Md to Provide NRC W/Background Info Re RESAR SP/90 Design.General Layout of Nuclear Power Block & Unique Features of Design to Be Discussed
ML20237K9001987-08-25025 August 1987
Notifies of Meeting W/Westinghouse to Discuss General Layout & Unique Plant Design Features Due to Large Number of Staff Members Assigned to Review RESAR SP/90.Meeting Will Be Similar to June 1987 Meeting
ML20237K9121987-08-25025 August 1987
Notification of 870903 Meeting W/Westinghouse in Bethesda,Md to Discuss RESAR SP/90 Design,Including General Layout of Nuclear Power Block & Unique Design Features
ML20215M1261987-06-22022 June 1987
Discusses Review of Draft Sandia Rept, Observations on Sabotage Protection Capabilities of Advanced Pwr. Use of Relative Risk Techniques to Determine If Design Has Sabotage Weak Links Encouraged
ML20215H3891987-06-18018 June 1987
Submits Addl Questions for Westinghouse Re Modules 2 & 3 of RESAR-SP/90 Preliminary Design Approval Application on Design Features to Reduce Sabotage Vulnerability
ML20214P7881987-05-27027 May 1987
Forwards Notification of Meeting on 870603 to Discuss RESAR SP-90.Westinghouse Will Be Making Presentation Re General Layout & Unique Features of Plant Design.W/O Encl
ML20214M8711987-05-21021 May 1987
Notification of 870603 Meeting W/Westinghouse in Bethesda,Md to Provide NRC W/Background Info Re RESAR SP/90 Design, Including General Layout of Nuclear Power Block & Unique Design Features
ML20213H0521987-05-12012 May 1987
Requests Assignment of Technical Reviewers to Westinghouse Oct 1983 Advance PWR (RESAR SP/90) Application.Brief History & Status of Project,Tentative Review Schedule & Listing of Issued Sers,Former Reviewers & PSAR Modules Encl
ML20206B6771987-04-0707 April 1987
Forwards 870319 Memo Detailing Status of Westinghouse RESAR-SP/90 Review & Safety Evaluations.W/O Encls
ML20215G2641987-03-19019 March 1987
Submits Assessment of Status of Review for Westinghouse RESAR-SP/90 Design,Per 870310 Request.Most Technical Matl Needed for Review Submitted.Review Could Be Completed within Several Months If Priority Established
IA-87-309, Submits Assessment of Status of Review for Westinghouse RESAR-SP/90 Design,Per 870310 Request.Most Technical Matl Needed for Review Submitted.Review Could Be Completed within Several Months If Priority Established1987-03-19019 March 1987
Submits Assessment of Status of Review for Westinghouse RESAR-SP/90 Design,Per 870310 Request.Most Technical Matl Needed for Review Submitted.Review Could Be Completed within Several Months If Priority Established
ML20206J0821986-06-24024 June 1986
Notification of 860708 Meeting W/Westinghouse in Bethesda,Md to Outline Content & Discuss Format for Module 15 of RESAR-SP/90.Module 15 Will Contain Section 18 & Portions of Section 7 of PSAR Re Human Factors Issues & Control Room
ML20155E0091986-04-10010 April 1986
Notification of 860423-24 Meetings W/Westinghouse in Monroeville,Pa to Discuss Preliminary Questions on Instrumentation & Control Section of Module 9 of RESAR-SP/90.Agenda Encl
ML20155D9991986-04-10010 April 1986
Notification of 860423-24 Meetings W/Westinghouse in Monroeville,Pa to Discuss Preliminary Questions on Instrumentation & Control Section of Module 7 of RESAR-SP/90.Agenda Encl.W/O Encl
ML20138R9501985-11-14014 November 1985
Notification of 851119-20 Meetings W/Westinghouse in Monroeville,Pa to Discuss PRA Submitted in RESAR-SP/90
ML20209G6011985-09-16016 September 1985
Notification of 850924 Meeting W/Westinghouse in Bethesda,Md to Discuss Questions on RESAR SP/90,Sections 1 & 15 of Module 1, Primary Side Safeguard Sys
1990-09-07
[Table view]
Category:MEMORANDUMS-CORRESPONDENCE
MONTHYEARML20059J7501990-09-0707 September 1990
Requests RESAR SP/90 Technical Reviewer Support During Listed ACRS Meetings.Full Committee Meeting Scheduled for 901004,05 or 06
ML20245E8501989-08-0707 August 1989
Advises of Reassignments in Project Mgt Duties Due to Recent Reorganization of Standardization & Life Extension Project Directorate
ML20246B8331989-07-0505 July 1989
Notification of 890714 Meeting W/Util in Rockville,Md to Discuss Severe Accident & Licensing Issues on RESAR SP/90
ML20236B3751989-03-0909 March 1989
Forwards to Wj Johnson,Forwarding NRC Draft SER Re RESAR SP/90 on Listed Technical Areas.Ltrs Provided to ACRS Members of Progress in Reviewing Pda Application
ML20236D5751989-03-0909 March 1989
Forwards to Wj Johnson,Forwarding NRC Draft SER Re RESAR SP/90 on Listed Technical Areas.Ltrs Provided to Inform CRGR Members of Progress in Reviewing Pda Application
ML20236A9721989-03-0707 March 1989
Forwards Feb 1989 Status Rept Re Current Review Milestones for Each Std Plant Project
ML20196B6081988-11-29029 November 1988
Forwards Status Rept for Nov 1988 Re Std Plant Design Technical Reviews
ML20195J3231988-11-18018 November 1988
Provides Responses Re Review of Resolution of USIs & Generic Safety Issues for RESAR SP/90,per 881027 Request
ML20195D6891988-10-27027 October 1988
Proposes Review Responsibilities & Review Guidelines Re Resolution of USIs & Generic Safety Issues for RESAR SP/90. Encls Provide Matrices Delineating Proposed NRR Review Responsibilities for All Applicable USIs
ML20195B6131988-10-26026 October 1988
Forwards Status Rept on Std Plant Design Technical Reviews
ML20154E4051988-09-14014 September 1988
Forwards Status Rept for Aug 1988 Re Std Plant Design Technical Reviews
ML20207E9601988-08-0909 August 1988
Forwards Status Rept for Jul Re Current Review Milestones for Each Std Plant Project.Requests Notification within 1 Wk of Receipt of Memo If Problems W/Input Dates Encountered
ML20207E1421988-07-29029 July 1988
Forwards Proprietary BNL Repts Re Probability Safety Study for RESAR SP/90.Repts Withheld (Ref 10CFR2.740)
ML20150C7751988-07-0101 July 1988
Forwards Status Rept on Std Plant Design Technical Reviews
ML20154R5161988-06-0202 June 1988
Foorwards May Status Rept Re Current Review Milestones for Std Plants (Epri,Advanced Bwr,Resar SP/90 & C-E Sys 80+)
ML20154F9981988-05-17017 May 1988
Notification of 880608 Meeting W/Westinghouse in Rockville, MD to Discuss QA Program Intended for Application to RESAR SP/90 & Westinghouse Responses to NRC Request for Addl Info
ML20151W3301988-04-25025 April 1988
Forwards Apr 1988 Status Rept Re Current Review Milestones for Each Std Plant Design.Problems in Meeting Input Dates Should Be Reported within 1 Wk of Memo Receipt
ML20151L3341988-04-14014 April 1988
Requests Draft SER Discussing Acceptability of Applicable design-specific Resolutions of Listed Generic Issues No Later than 880516
ML20148H4691988-03-23023 March 1988
Notification of 880331 Meeting W/Bnl & Westinghouse in Monroeville,Pa to Discuss Results of NRC Review of PRA for RESAR SP/90
ML20148J8961988-03-23023 March 1988
Forwards Mar 1988 Status Rept Re Std Plant Design Technical Reviews
ML20148H4711988-03-22022 March 1988
Forwards BNL Draft Rept, Independent Assessment of Severe Accident Risks for Westinghouse Advanced PWR Design (SP/90). Encl Withheld (Ref 10CFR2.740)
ML20150D5891988-03-21021 March 1988
Forwards Wj Johnson of Westinghouse Mar 1988 Ltr Forwarding Draft SER on front-end Portion of Module 16, Probabilistic Safety Study, to Inform of Progress of Review of Pda Application.W/O Encls
ML20148D7511988-03-21021 March 1988
Forwards Author Mar 1988 Ltr to Wj Johnson Transmitting Draft SER on front-end Portion of Module 16, Probabilistic Safety Study of Pda Application for RESAR SP/90 Design. Rest of Pda Application Under Review.W/O Encl
ML20149L9901988-02-19019 February 1988
Forwards Feb Status Rept Re Current Review Milestones for Std Plant Projects (Epri,Abwr,Resar SP/90 & C-E Sys 80+)
ML20149M0251988-01-25025 January 1988
Forwards Revised Std Plant Review Program Plan. Four Standardization Projects & Expected Westinghouse Advanced Passive Plant Design Listed.Issuance of Revised Program Plan Constitutes Completion of Task Assignment 3 Per 871116 Memo
ML20207L4251988-01-25025 January 1988
Forwards Info Re Advanced LWR Performance Goals.Info Assembled After Discussion W/Knowledgeable NRC Staff Members & During 880119 Meeting W/Erpi Representatives
ML20148C9131988-01-19019 January 1988
Forwards Status Rept on Std Plant Design Technical Reviews for Jan 1988.Problems W/Meeting Listed Input Dates Requested within 1 Wk of Memo Receipt
ML20237B3631987-12-14014 December 1987
Forwards Review Status Repts on GE Advanced Bwr,Westinghouse RESAR SP/90,C-E Sys 80+ & EPRI Advanced Lwr.Repts Will Be Issued Periodically Re Current Review Milestone for Each Std Plant Project.Expected Input Date Discussed
ML20236J1531987-11-0202 November 1987
Advises That Technical Reviewers for Standardized LWR Plants Should Be Reminded of Responsibility for Assuring That safety-related Structures,Sys & Components within Scope of Review Classified as safety-related by Applicant
ML20236J2401987-10-28028 October 1987
Notification of 871030 Meeting W/Nrc in Bethesda,Md to Discuss Westinghouse PWR Licensing Initiatives.Agenda Encl
ML20235K8271987-09-29029 September 1987
Forwards Final List of Review Assignments Including Currently Assigned Review Staff,Former Reviewers,Psar Sections Listed by Branch & Staff Members & Listing of Draft SERs Received to Date
ML20235K6431987-09-29029 September 1987
Notification of 871119 Meeting W/Westinghouse in Monroeville,Pa to Discuss Engineering & Human Factors Design Aspects of Westinghouse Advanced Control Room That Will Be Utilized in RESAR SP/90 Facility Design
ML20237F8671987-08-27027 August 1987
Notification of Rescheduled 870903 Meeting to 870910 W/Westinghouse in Bethesda,Md to Provide NRC W/Background Info Re RESAR SP/90 Design.General Layout of Nuclear Power Block & Unique Features of Design to Be Discussed
ML20237K9001987-08-25025 August 1987
Notifies of Meeting W/Westinghouse to Discuss General Layout & Unique Plant Design Features Due to Large Number of Staff Members Assigned to Review RESAR SP/90.Meeting Will Be Similar to June 1987 Meeting
ML20237K9121987-08-25025 August 1987
Notification of 870903 Meeting W/Westinghouse in Bethesda,Md to Discuss RESAR SP/90 Design,Including General Layout of Nuclear Power Block & Unique Design Features
ML20215M1261987-06-22022 June 1987
Discusses Review of Draft Sandia Rept, Observations on Sabotage Protection Capabilities of Advanced Pwr. Use of Relative Risk Techniques to Determine If Design Has Sabotage Weak Links Encouraged
ML20215H3891987-06-18018 June 1987
Submits Addl Questions for Westinghouse Re Modules 2 & 3 of RESAR-SP/90 Preliminary Design Approval Application on Design Features to Reduce Sabotage Vulnerability
ML20214P7881987-05-27027 May 1987
Forwards Notification of Meeting on 870603 to Discuss RESAR SP-90.Westinghouse Will Be Making Presentation Re General Layout & Unique Features of Plant Design.W/O Encl
ML20214M8711987-05-21021 May 1987
Notification of 870603 Meeting W/Westinghouse in Bethesda,Md to Provide NRC W/Background Info Re RESAR SP/90 Design, Including General Layout of Nuclear Power Block & Unique Design Features
ML20213H0521987-05-12012 May 1987
Requests Assignment of Technical Reviewers to Westinghouse Oct 1983 Advance PWR (RESAR SP/90) Application.Brief History & Status of Project,Tentative Review Schedule & Listing of Issued Sers,Former Reviewers & PSAR Modules Encl
ML20206B6771987-04-0707 April 1987
Forwards 870319 Memo Detailing Status of Westinghouse RESAR-SP/90 Review & Safety Evaluations.W/O Encls
ML20215G2641987-03-19019 March 1987
Submits Assessment of Status of Review for Westinghouse RESAR-SP/90 Design,Per 870310 Request.Most Technical Matl Needed for Review Submitted.Review Could Be Completed within Several Months If Priority Established
IA-87-309, Submits Assessment of Status of Review for Westinghouse RESAR-SP/90 Design,Per 870310 Request.Most Technical Matl Needed for Review Submitted.Review Could Be Completed within Several Months If Priority Established1987-03-19019 March 1987
Submits Assessment of Status of Review for Westinghouse RESAR-SP/90 Design,Per 870310 Request.Most Technical Matl Needed for Review Submitted.Review Could Be Completed within Several Months If Priority Established
ML20206J0821986-06-24024 June 1986
Notification of 860708 Meeting W/Westinghouse in Bethesda,Md to Outline Content & Discuss Format for Module 15 of RESAR-SP/90.Module 15 Will Contain Section 18 & Portions of Section 7 of PSAR Re Human Factors Issues & Control Room
ML20155E0091986-04-10010 April 1986
Notification of 860423-24 Meetings W/Westinghouse in Monroeville,Pa to Discuss Preliminary Questions on Instrumentation & Control Section of Module 9 of RESAR-SP/90.Agenda Encl
ML20155D9991986-04-10010 April 1986
Notification of 860423-24 Meetings W/Westinghouse in Monroeville,Pa to Discuss Preliminary Questions on Instrumentation & Control Section of Module 7 of RESAR-SP/90.Agenda Encl.W/O Encl
ML20138R9501985-11-14014 November 1985
Notification of 851119-20 Meetings W/Westinghouse in Monroeville,Pa to Discuss PRA Submitted in RESAR-SP/90
ML20209G6011985-09-16016 September 1985
Notification of 850924 Meeting W/Westinghouse in Bethesda,Md to Discuss Questions on RESAR SP/90,Sections 1 & 15 of Module 1, Primary Side Safeguard Sys
1990-09-07
[Table view] |
Text
_ _ _ _ _ _ _ -
January 25. 1988 Docket No. 50 601 Project Nos. 669, 671, 675, 676 MEMORANDUM FOR: Thomas E. Purley, Director Office of Nuclear Reactor Regulation k
. t ,1h(
THRU: Frank Miraglia Associate Director for Projects &
FROM: Dennis M. Crutchfield, Director Division of Rsactor Projects - !!!, !Y, Y and Special Projects
SUBJECT:
ALWR PERFORMANCE GOALS Per your request, attached is an information paper regarding ALWR performance goals. This information has been assembled after discussion with knewledgeable NRC staff nenbers and during a January 19, 1988 meeting with ERPI representatives. WehaverequestedEPRI,GC,y,andCEtodefinetheirdesign goals in this .rea for their project (s) and will provide an update to this information paper when their formal responses are received.
orisinal siso*4 W ternisW.C M
- W N Dennis M. Crutchfield, Director Division of Reactor Projects - !!!, !Y, V and Special Projects CONTACT:
T. Kenyon NRR/PDSNP Ext. 18206 DISTRIBUTION:
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PbSNP Reeding DScaletti TKenyon RWHeuston l LRubenstein JFartin ADR#4, JCollins MTaylor DCrutchfield . FMiraglia PDSNPU- PD [(
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l ALWR Performance Goals The following information has been assembled af ter discussion with .
knowledger.ble NRC staff memters.
Large Radioactive Release Probability
, 1. Background Prior to the issuance of WASH 1400, it was generally held by the staf f and industry that ige probability of a large release due to core melt was on the order of 10 / reactor year. This number was based on design besis accidents, assuming complete core meltdown and a containment leakage rate of 0.1 (Volume) %/ day. ,
-5 Howaver, WASH 1400 stated that this probability was actually 5 x 10 ent PRAs have established this -
(etan value)/ reactor year and number to be on the order of 1 x 10 subsegg/ reactor year (median value).
- n 1985-1986 time frame, Congressman Markey asked the NRC to estimate the r vere core damage accident in the next 20 years.
1 grobability Assuming a 3ofx a 10ig/ reactor year probability of severe core damage, the i l staff indicated the probability of a core melt in the next 20 years was ,
approximately 45% using ultra conservative simple ratio arithmetic. A I realistic esti.uate of 12% was given later. The ACRS determined this i number to ibout 17%. this probability l could be es high as 20%, Commissioner and concluded Asselstine that a 1 x believgg/
10 reactor year core insufficient for new advanced reactors and was of the melt probability view that a 1 x 10wgg/ reactor year core melt probability with a 1 x 210 /
reactor year containment failure probability should be an advanced plant safety goal. Af ter the accident at Chernobyl, Chairman Palladino and ,
Comissioner Asselstine proposed a performance 9_oa_l of an overall mean adioactive materials from a reactor frequencyofalargereleaseof,g/reactoryear.
accident to be less than 1 x 10 (Note that this is a <
l performance goal, and not an objective). The Safety Goal Policy does not define a large release, and work is underway within the staf f to do so.
Current NRC thinking defines a large release as_the amount of radioactivity 4
that has a 50% probability of causing an early fatality.
~
~ " -
- 2. Derive. ion of Numerical Value The 1 x 10-6/ reactor year large release probability is not without some theoretical support. It has been well established by PRAs that the median.g/
1 x 10 reactor year.ilculated frequency For most plants, onlyofa severe fractioncore of the damage calcu- is on the order of lated severe core damage sequences are likely to progress to a large-scale core melt. Of the core melt sequences, only 1 in 10 (or less) it expected to yield a large release of radioactive material (large release not yet defined). The probability of containment failure is approximately 1 in 10. Therefore:
l
. 1 a
1 2-10'4/ reactor year (core melt probability) x 10*I/ reactor year (large '
l
- *corereleaseprobability)x10'I/reactoryear(containmentfailure l probability)=10-6/ reactor year (large release to environment probability). l In addition, the staff believes that conditions at most sites (population, locaticn, weather, evacuation plans) are such that, even with a large ,
release, there is only 1 chance in 10 that an early fatality will result i
from such a release. Therefore, the staff has concluded that the risk of I an early fata11ty from a core melt is quite low. ,
1 ,
Note, however, that Comission Asselstine questiongd the staff's use !
of the median frequency of severe core damage (10' / reactor year) since j
onstrated that severe core damage frequencies could be as .
i PRAshavedp/reactoryear.
high as 10* ,
1 Maxim m Severe Accident Dose 1 i
. 1. Background
IPRI's ALWR Requirements Document currently proposes a requirement that j the dose beyond 1/2 mile radius fron, an individual reactor shall not
- j exceed 25 rem (whole body) in the event of a severe accident. The exact !
t origin of this number 1. a little unclear. During early discussions over
} the definition of large release, there apparently was a move by the staff to relate the maximum severe accident dose to 10 CrR Part 100, which .
states, in part, that, assuming a fission product release from the core I with an expected containment leak rate and appropriate meteorological l 3' conditions, the exclusion area should be
... of such size that an individual located at any point on its l boundary for two hours immediately following onset of the postulated !
fission product release would not receive a total radiatien dose to I i
the whole body in excess of 25 rem...
.. (hote that most exclusion areas are within a 1/2 mile radius from the reactor). Certain staff members are of the opinion that EPRI basically took the position that the industry would meet 10 CFR Part 100 for severe accidents. First indications that the industry would propose this r"%er j
came during a GE presentation 'o the ACR$ stibcomittee on Advanced . actors i 3 !
! in 1986. l Derivation of Numerical Value l 2.
The biological effects of radiation exposure have been well documented. It j is expected that 100% of individuals receiving a dose of 500-600 rem (whole body) would not be expected to survive the exposure. Persons receiving a lesser dose on the order of 100 rem (whole sody) would be expected to show l i l
biological changes (such as drop in blood cowat), and a small percentage j would be expected tt' suffer early fatality. 25 rem is the whole body dose generally considen J to correspond to no observable health effects after
{ exposure, and has aistorically been used as a cut off point for such matters.
I l
a - - - -- - - - - - . - - - -- -
1 I'. .
3 The 1/2 mile radius from the reactor roughly corresponds to th'e exclusion l 1 zene typically used in current nuclear p ants.
Advanced Plant Vendor Views
] '
i The staff has requested EPRI, GE, W, and CE to precisely define their design
! goals in this area for their pro,iect(s). Attacied is a copy of the request '
1 for additional information. :
q '
J During a January 19, 1988 meting, the staff discussed this utter with l I W Attached is a ccpy of EPRI's representativec of presentation. The followingEPRI, GE, Ts,aand CE.
sumary of EPRI's verbal response. ;
< EPRI has proposed a public safety criterion that the dose at a distance of 0.5 I 4
mileshallbelesstian25 rem (wholebody)forggeidentsequenceswhose .
j a cumulative (mean) frequency value exceeds 1 x 10 / reactor year. ;
i The E5 ren (whole body) was selected because it represents a very low dose with l
'no observable health effects" (10 CFR Part 100) ,
,. The 0.5 mile site boundary was selected because it is a reasonable site !
j boundary distance.
The 1 x 10'0/ reactor year accident frequency was selected because:
' t
- 1) it indicates a high level of protection to the public 'l in a f
million chance, i
2)itissufficientlylowforutilityinvestmentconsiderations,ag ;
j 3) it is attaiaable, while a frequency criterien lower than 1 x 10 !
I would be difficult to analytically demonstrate. ;
i The 1 x 10-6/ reactor year accident frequency is consistent with a design geel in the l
1 x 10,gWR requirements
/ reactor years. This nuder document that the is believed by the (man) industry coretodamage be a frequency (CDl, j factor of 5 to 10 times better than most currert plants and is believed to be }
j achievable. To analytically demonstrate a lower core damage frequency would (
! be difficult, since consideration of difficult te-define events (e.g., cominon i l pode failures, human interactions) for which good analytical data is scarce would have to be included in the evaluation.
- EPRI reccgnizes the containment failure rate w ighted over credible core
' damage sequeness can be inferred to be 1 x 10'q/ reactor year. Therefore: )
]
1 x 10-5/ reactor year (CDF) x 1 x 10'I/ reactor year (containment failure l l l rate) = 1 x 10-6/ reactor year (accident frequency).
l Note that, by using this approach to define the ALWR perform nce goal, it is j jl not necessary to define what is mant by a large release nor is it necessary te relate this goal to the health objectives of the Safety Goal Policy since j EPRI believes compliance with the ALWR performance goal is more restrictive 1
I I 1 i
!_ l
4 than compliance with the Safety Goal Policy. It is necessary, however, to define the meteorology analysis methods to be used when determining compliance of specific designs with this goal. EPRI intends to utilize the CRAC2 i consequence calculation rethodology, so that it will average weathei conditiens for a j
specific site over a one year period, but take no credit for the wind rose.
Definitions and assumptions used by EPRI in definin this performance goal are d
provided in the attacied slides. We have not recei ed a ferral response to the request for additional information yet, and will provide an update regarding the response when it is received.
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f r NUCLEAR REGULATORY COMMISSION 3 i W ASHINGTON, D. C. 30Se4 Docket No. 50-601 Project No. 676 Mr. W. J. Johnsen -
Nuclear Safety Department Westinghouse Electric Corporation Water Reactor Division Box 355 Pittsburgh, Pennsylvania 15230
Dear Mr. Johnson:
SUBJECT:
RE0 VEST FOR ADDITIONAL INFORMTION REGARDING DESIGN GOALS ADDRESSING SEVERE ACCIDENT RELEASES i
) As a result of our review of your ALWR application, we have determined the
, need to request additional information regarding your design goals that address large radioactive releases resulting from a severe accident. Attached are our questions. ,
l Please respond to this request for additional information within 30 days of 1 the date of this letter. If you have any questions concerning this matter. .
l contact the project manager for your application. i l
l 1 Sincerely, 1
j (ester S. Rubenstein. Director Standardization and Non-Power i l Reactor Project Directorate l l Division of Reactor Projects !!!, !Y. l i V and Special Projects j Office of Nuclear Peactor Regulation
Enclosure:
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! As stated '
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- See next page l l
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l REQUEST FOR ADDITIONAL IhFORMATION
. l in Chapter 1 of the EPRI ALWR Requirements Document, EPRI proposes the following requirement:
In the event of a severe accident, the dose beyond a half-mile radius The expected frequency of from the reacter shall not exceed 25 rem.
' occurrence for high off-site deses shall be less than once per million reactor years, considering both internal and external events.
1 CE has indicated they int >nd to comply with this criteria.
GE has defined their compliance with this position in its Licensing Review Bases.
W has not comitted to this position for its RESAR SP/90 application.
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Rather, it has comftted Ittoisshowing a core melt however, our understanding, frequencythat of the W -
approximately 1x10" .
' AP-600 will cocply with the EPRI requirements.
- 1. a) Provide a precise statement of your design goals that address large radicactive releases resulting from a severe accident. This statement shoold be defined in terms of probabilities as well as large releases.
Items to define include the number of sequences to be considered, the use of internal and/or external events, consideration of sabotage (insider / I outsider threat), etc. This statenent should clearly indicate whether 1
the values used are median / upper bound / lower bound / average /etc. values, b) Provide your definition of core damage (clad tee;,erature/p(ercentage ofleakage claddir.g failure /compitte meltdown), containment failure .
total release), and lar,* release (threshold value) (as app /windropriate).
Specify your/assumptions direction wind speed regarding
/ wind meteoroloadverse shift probability or expected weather),
/gy (plume stre f l
1 population distribution (probability of individual seeing plume / location 1 of individual (s) during release), and time of exposure (as appropriate).
- 2. How do you propose to show the NRC that you meet this objective?
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EPRI Al.WR REQUIREMEN,TS DOCUMENT
. ALWR CORE DAMAGE FREQUENCY CRITERION In addition to meeting all other licensing design basis requirements, mean annual CDF s.1 x 10 5 Believed to be a factor of 5 to 10 better than most current plants Believed to be sufficiently low for protection of utility investment A lower value would present a problem in making an anaiytical demonstration Function level PRA models are being developed for ALWRs Work to date indicates . 7t the ALWR requirements specified to date will result in a plant that is likely to meet the 1 x 10.s target value l
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e EPRI At.WR REQUIREMENTS DOCUMENT ALWR PUBLIC SAFETY CRITERlON .
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+ Additional check beyond meeting other licensing design basis requirements.
- For accident sequences whose cumulative frequency mean value exceeds 1 x 10 8 per reactor year, the dose at a distance of 0.5 mile l shall be less than 25 Rem whole body.
. This criterion is viewed as an extremely demanding target worth reaching for.
The criterion was selected based on a number of considerations
- A desire on the part of utility sponsors to define an ALWR that is excellent in all respects
- An accident frequency less than 1 x 104 per reactor year is low enough 10 '.'atisfy this desire for excellence and the public perception
- A frequency criterion lower than 1 x 10 5would present a problem in making an analytical demonstration l
- 25 Rem at the site boundary is a very low does with "no observable health effects" (10CFR100)
- Preliminary estimates based on existing plant PRAs indicate that an improved ALWR whose dominant accident sequence frequencies are reduced has good likelihood of meeting this stringent criterion
- For design that meets the 1 x 105 CDF target, the containment function needs simply to add one decade of additional frequency reduction :
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- Consideration may be given to raising the 25 Rem target value if the improved, optimized design is unable to meet the criterion as presently i l stated
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' EPRI Al.WR REQUIREMENTS DOCUMENT ALWR PRA KEY ASSUMPTIONS & GROUNDRULES
- Being developed, reviewed and submitted as a supplement to the CDF and Safety criteria contained inChapter 1 of the ALWR Requirements e Scope: Internal and External Events (exceot Sabotage)
- Core Damage defined as
- RCS collapsed level uncovers active fuel, and .
Realistic analysis shows cladding temperature >2200oF
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- CDF criterion evaluated based on point estimate comparison with mean value (expected value) and cualitative uncertainty analysis
- Safety Criterion evaluated by comparing mean CCDF for whole body dose to the 1 x 104,25 Rem t'oundaries l
- CCF evaluations using EPRt/NUREG methods and data recently developed and benchmarked
- Human Interactions evaluated using EPRI SHARP analysis framework
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- TesVmaintenance events quantified using THERP procedure i j (NUREG/CR 1278)
- Procedural actions and Recovery actions quantified using EPRI l HCR correlation (NUS 4351 and EPRI RP28471 Interim Report) l
- Hardware f ailures to run for "indefinite": evaluated based on 24 hour2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> l mission time t
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