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03/19/2013-03/21/2013 Licensee Meeting Slides Re Joseph M. Farley Nuclear Plant NFPA 805 Fire Modeling LAR Submittal - Session 4
	ML13078A250
Person / Time
Site:	Farley
Issue date:	03/19/2013
From:	; Southern Nuclear Operating Co
To:	; Division of Operating Reactor Licensing
	Brown E
Shared Package
ML13078A284	List: ML13078A245; ML13078A246; ML13078A247; ML13078A248; ML13078A250; ML13078A251; ML13078A252; ML13078A253; ML13078A255;
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FNP NFPA 805 LAR Submittal Overview March 19-21, 2013 Circuit Analysis

Summary

Circuit Analysis Process and Controls

A l t Qualifications Analyst Q lifi ti

Governing Analysis Criteria

NSCA SC vs. PRA

Analysis Methodology

Circuit Analysis Database

Associated Circuits Circuit Analysis Slide 2 of 14

Process and Controls

Circuit Analysis Process

- Performed IAW approved procedure

- Strict and formal analysis conventions

- Emphasis on consistency and standardization

- Integrated PRA and NSCA requirements

Controls

- Rigidly defined Function States

- Independent verification for each analysis

- Detailed documentation in database (FDM/ARCPlus)

Circuit Analysis Slide 3 of 14

Analyst Qualifications

All analysts formally qualified to SNC &

Contractor QUAL CARD for independent work

Internalized industry lessons learned on training, qualifications and oversight qualifications,

Procedure and database established to force consistency

Maintained awareness of dual use - PRA and NSCA Circuit Analysis Slide 4 of 14

Governing Criteria

NEI 00-01, Rev.1

- Initial Work to Rev.1

- Gap analysis performed to Rev. 2 (per Generic RAI 10 and RG 1.205)

NEI 00-01 00 01, Rev Rev. 2

- Later work

- Integrated emerging PIRT issues

- No N creditdit ttaken k ffor off-scheme ff h exclusions l i

NUREG/CR-6850

- Included Open p circuits Note: Integrated requirements for conservative, but universal criteria between PRA and NSCA Circuit Analysis Slide 5 of 14

NSCA vs. PRA

Implementing Concepts

- 95% of circuit analysis y criteria for PRA and NSCA are the same

Establish single dataset for criteria to assure dual use and better interface between NSCA and PRA

Provide procedure and database flexibility to accommodate the 5% difference

- Long Long-term term configuration control extremely difficult if redundant data sets are maintained

- Differences p primarily y handled through: g

Use of Function States

Interlock identification and documentation Circuit Analysis Slide 6 of 14

Analysis Methodology

All circuit analysis drive by FUNCTION STATES

Function States

- Component + Initial State + Desired State

- Permits maximum flexibility to accommodate PRA and NSCA differences (primarily auto signals)

- Minimize false failures up front

- Efficient Effi i t and d lless error prone

- Consistent with NUREG/CR-6850 methods for Tasks 3&9 Circuit Analysis Slide 7 of 14

Analysis Methodology, cont

Work package development to facilitate process

Single, controlled database (FDM)

Process and techniques based on NRC/EPRI training g modules

Major Steps Prerequisites q satisfied

Function state established

Plant specific rules and conventions

General classification

Resolve questions Circuit Analysis Slide 8 of 14

Analysis Methodology, cont

Major Steps Work Package g Development p

Drawings

Supplemental information Cable Selection

All scheme cables dispositioned

Fault codes applied to all cables

Basis documented for excluded cables

Selection of required cables with hot probe method

Cables generally excluded based only on design features at this stage (NUREG/CR-6850 concept)

Circuit Analysis Slide 9 of 14

Analysis Methodology, cont

Major Steps Power Supply pp y Identification

All Power Supplies identified

Required and not-required determined based on Function State requirements

Sensitive to alternate PS lineups and how they are credited Dependencies & Interlocks

All circuit interlocks formally dispositioned

Equipment dependencies established or off-scheme cables directly incorporated

Differentiate auto functions so NSCA and PRA can apply as credited by Basic Event Circuit Analysis Slide 10 of 14

Analysis Methodology, cont

Major Steps Documentation

Controlled database, with individual analysis originate and check sign-offs

Reference drawing

Final calculation for circuit analysis and PRA Notebook Circuit Analysis Slide 11 of 14

Circuit Analysis Database Circuit Analysis Slide 12 of 14

Associated Circuits

Electrical Coordination

- Consolidated calculation

- Addresses NSCA & PRA

Common Enclosure

- Addresses secondary fire concerns

- Addresses loss of DC control power to Switchgear

CPT Open Circuits

- Followed PIRT recommendations

MHIF Analysis

- Followed NEI 00-01, Appendix B method Circuit Analysis Slide 13 of 14

Q Questions ti ?

Circuit Analysis Slide 14 of 14

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 =Text=
-{{#Wiki_filter:FNP NFPA 805 LAR Submittal Overview OverviewMarch19-21, 2013 Circuit Analysis Summary*Circuit Analysis Process and ControlsAltQlifiti
+{{#Wiki_filter:FNP NFPA 805 LAR Submittal Overview March 19-21, 2013 Circuit Analysis
-*A na l ys t Q ua lifi ca ti ons*Governing Analysis Criteria SC*N SC A vs. PR A*Analysis Methodology*Circuit Analysis Database
-*Associated CircuitsCircuit AnalysisSlide 2of 14 Process and Controls*Circuit Analysis ProcessPerformedIAWapprovedprocedure
--Performed IAW approved procedure-Strict and formal analysis conventions
--Emphasisonconsistencyandstandardization Emphasis on consistency and standardization-Integrated PRA and NSCA requirements
-*Controls Controls-Rigidly defined Function States-Independent verification for each analysis-Detailed documentation in database (FDM/ARCPlus)Circuit AnalysisSlide 3 of 14 Analyst Qualifications*All analysts formally qualified to SNC & ContractorQUALCARDforindependentwork Contractor QUAL CARD for independent work*Internalized industry lessons learned on training, qualificationsandoversight qualifications , and oversight*Procedure and database established to force consistency consistency*Maintained awareness of dual use -PRA and NSCA NSCACircuit AnalysisSlide 4of 14 Governing Criteria*NEI 00-01, Rev.1-Initial Work to Rev.1
--Gap analysis performed to Rev. 2 (per Generic RAI 10 and RG 1.205)
-*NEI00-01Rev2 NEI 00 01 , Rev. 2-Later work
--Integrated emerging PIRT issuesNdittkfffhli-N o cre dit t a k en f or o ff-sc h eme exc l us i ons*NUREG/CR-6850
--Included O p en circuits pNote: Integrated requirements for conservative, but universal criteria between PRA and NSCA Circuit AnalysisSlide 5 of 14 NSCA vs. PRA*Implementing Concepts
--95% of circuit anal ysis criteria for PRA and NSCA are y the same*Establish single dataset for criteria to assure dual use and betterinterfacebetweenNSCAandPRA better interface between NSCA and PRA*Provide procedure and database flexibility to accommodate the 5% difference Longtermconfigurationcontrolextremelydifficultif
--Long-term configuration control extremely difficult if redundant data sets are maintained
--Differences p rimaril y handled throu g h:pyg*Use of Function States*Interlock identification and documentationCircuit AnalysisSlide 6 of 14 Analysis Methodology*All circuit analysis drive by FUNCTION STATES
-*FunctionStates Function States-Component + Initial State + Desired State-Permits maximum flexibility to accommodate PRA and NSCA differences (primarily auto signals)-Minimize false failures up frontEffiitdl-Effi c i en t an d less error prone-Consistent with NUREG/CR-6850 methods for Tasks 3&9 3 & 9Circuit AnalysisSlide 7 of 14 Analysis Methodology, cont-*Work package development to facilitate process
-*Single,controlleddatabase(FDM)
-Single, controlled database (FDM)*Process and techniques based on NRC/EPRI trainin g modules g*Major Steps Prere q uisites satisfied q*Function state established*Plant specific rules and conventions
-*Generalclassification
-*General classification*Resolve questionsCircuit AnalysisSlide 8 of 14 Analysis Methodology, cont-*Major Steps Work Packa g e Develo p ment gp*Drawings*Supplemental informationCableSelection Cable Selection*All scheme cables dispositioned
-*Fault codes applied to all cables*Basis documented for excluded cables
-*Selection of required cables with "hot probe" method
-*Cablesgenerallyexcludedbasedonlyondesignfeaturesat Cables generally excluded based only on design features at this stage (NUREG/CR-6850 concept)Circuit AnalysisSlide 9 of 14 Analysis Methodology, cont-*Major Steps Power Su pp l y Identificationppy*All Power Supplies identified*Required and not-required determined based on Function Staterequirements State requirements*Sensitive to alternate PS lineups and how they are creditedDependencies & Interlocks*All circuit interlocks formally dispositioned
+Summary
-*Equipment dependencies established or off-scheme cables directly incorporated*Differentiate auto functions so NSCA and PRA can apply as credited by Basic EventCircuit AnalysisSlide 10 of 14 Analysis Methodology, cont-*Major Steps Documentation*Controlled database, with individual analysis originate and check sign-offs
+* Circuit Analysis Process and Controls
-*Referencedrawing Reference drawing*Final calculation for circuit analysis and PRA NotebookCircuit AnalysisSlide 11 of 14 Circuit Analysis DatabaseCircuit AnalysisSlide 12 of 14 Associated Circuits*Electrical Coordination
+* A l t Qualifications Analyst  Q lifi ti
--Consolidated calculation-Addresses NSCA & PRA*Common Enclosure-Addresses secondary fire concerns-Addresses loss of DC control power to Switchgear*CPT Open Circuits-Followed PIRT recommendations*MHIF Analysis-Followed NEI 00-01, Appendix B methodCircuit AnalysisSlide 13 of 14 Qti?Q ues ti ons ?Circuit AnalysisSlide 14 of 14}}
+* Governing Analysis Criteria
+* NSCA SC vs. PRA
+* Analysis Methodology
+* Circuit Analysis Database
+* Associated Circuits Circuit Analysis Slide 2 of 14
+Process and Controls
+* Circuit Analysis Process
+         -  Performed IAW approved procedure
+         -  Strict and formal analysis conventions
+         -  Emphasis on consistency and standardization
+         -  Integrated PRA and NSCA requirements
+* Controls
+         - Rigidly defined Function States
+         - Independent verification for each analysis
+         - Detailed documentation in database (FDM/ARCPlus)
+Circuit Analysis Slide 3 of 14
+Analyst Qualifications
+* All analysts formally qualified to SNC &
+Contractor QUAL CARD for independent work
+* Internalized industry lessons learned on training, qualifications and oversight qualifications,
+* Procedure and database established to force consistency
+* Maintained awareness of dual use - PRA and NSCA Circuit Analysis Slide 4 of 14
+Governing Criteria
+* NEI 00-01, Rev.1
+         - Initial Work to Rev.1
+         - Gap analysis performed to Rev. 2 (per Generic RAI 10 and RG 1.205)
+* NEI 00-01 00 01, Rev Rev. 2
+         - Later work
+         - Integrated emerging PIRT issues
+         - No N creditdit ttaken k ffor off-scheme ff h        exclusions l i
+* NUREG/CR-6850
+         - Included Open  p circuits Note: Integrated requirements for conservative, but universal criteria between PRA and NSCA Circuit Analysis Slide 5 of 14
+NSCA vs. PRA
+* Implementing Concepts
+         - 95% of circuit analysis   y    criteria for PRA and NSCA are the same
+* Establish single dataset for criteria to assure dual use and better interface between NSCA and PRA
+* Provide procedure and database flexibility to accommodate the 5% difference
+         - Long Long-term term configuration control extremely difficult if redundant data sets are maintained
+         - Differences p    primarily y handled through:  g
+* Use of Function States
+* Interlock identification and documentation Circuit Analysis Slide 6 of 14
+Analysis Methodology
+* All circuit analysis drive by FUNCTION STATES
+* Function States
+         - Component + Initial State + Desired State
+         - Permits maximum flexibility to accommodate PRA and NSCA differences (primarily auto signals)
+         - Minimize false failures up front
+         - Efficient Effi i t and d lless error prone
+         - Consistent with NUREG/CR-6850 methods for Tasks 3&9 Circuit Analysis Slide 7 of 14
+Analysis Methodology, cont
+* Work package development to facilitate process
+* Single, controlled database (FDM)
+* Process and techniques based on NRC/EPRI training  g modules
+* Major Steps Prerequisites q        satisfied
+* Function state established
+* Plant specific rules and conventions
+* General classification
+* Resolve questions Circuit Analysis Slide 8 of 14
+Analysis Methodology, cont
+* Major Steps Work Package    g Development p
+* Drawings
+* Supplemental information Cable Selection
+* All scheme cables dispositioned
+* Fault codes applied to all cables
+* Basis documented for excluded cables
+* Selection of required cables with hot probe method
+* Cables generally excluded based only on design features at this stage (NUREG/CR-6850 concept)
+Circuit Analysis Slide 9 of 14
+Analysis Methodology, cont
+* Major Steps Power Supply pp y Identification
+* All Power Supplies identified
+* Required and not-required determined based on Function State requirements
+* Sensitive to alternate PS lineups and how they are credited Dependencies & Interlocks
+* All circuit interlocks formally dispositioned
+* Equipment dependencies established or off-scheme cables directly incorporated
+* Differentiate auto functions so NSCA and PRA can apply as credited by Basic Event Circuit Analysis Slide 10 of 14
+Analysis Methodology, cont
+* Major Steps Documentation
+* Controlled database, with individual analysis originate and check sign-offs
+* Reference drawing
+* Final calculation for circuit analysis and PRA Notebook Circuit Analysis Slide 11 of 14
+Circuit Analysis Database Circuit Analysis Slide 12 of 14
+Associated Circuits
+* Electrical Coordination
+         - Consolidated calculation
+         - Addresses NSCA & PRA
+* Common Enclosure
+         - Addresses secondary fire concerns
+         - Addresses loss of DC control power to Switchgear
+* CPT Open Circuits
+         - Followed PIRT recommendations
+* MHIF Analysis
+         - Followed NEI 00-01, Appendix B method Circuit Analysis Slide 13 of 14
+Q Questions ti    ?
+Circuit Analysis Slide 14 of 14}}

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