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NEI Perspective on Performance Monitoring in Use of Probabilistic Fracture Mechanics for Optimizing Inspections of Non-RPV Pressure Vessels

April 27, 2023

©2023 Nuclear Energy Institute Content

Problem Statement Licensee Relief Requests Risk-informed vs PFM Methodologies Purpose of PM Programs for Identifying New Degradation Phenomena Industry Perspective on PM

• Inherent Cadence of PM across the US PWR Fleet Existing Supplemental PM Programs Summary and Conclusion

©2023 Nuclear Energy Institute 2 Problem Statement

Optimizing inspections has been justified using various analytical methods, including Probabilistic Fracture Mechanics (PFM), with significant margins of safety and no adverse impact on performance.

NRC granted relief with no conditions on four (4) pilot plants alternatives to defer non-RPV pressure vessel component inspections for up to 30 years based on PFM methodologies.

Subsequently, the NRC has not granted that same relief to defer these inspections beyond 20 years unless licensees commit to some type of performance monitoring (PM).

There are no regulatory or technical bases for requiring PM and the type of PM that would be acceptable for PFM applications

©2023 Nuclear Energy Institute 3 Licensee Relief Requests to Extend non-RPV Pressure Vessel Component Inspections

EPRI Technical Basis Documents:

3002014590 - PWR SG MS and FW Nozzles 3002015906 - PWR SG Other Class 1 and 2 Welds/Components 3002015905 - PWR Pressurizer Welds/Components 3002018473 - BWR Heat Exchanger Welds/Components

Probabilistic Fracture Mechanics (PFM) and Deterministic Fracture Mechanics (DFM) substantiate high flaw tolerance of these components and supports Plant specific applicability is demonstrated with actual operating transient cycles increased examination intervals using plant geometry bounded by the analysis in the applicable EPRI Report and in some cases with substantial margin Submittals do not make use of the stations probabilistic risk assessment (PRA) and therefore are not risk-informed changes to licensing basis

©2023 Nuclear Energy Institute 4 Risk-informed vs PFM Methodologies

Risk-informed Methodologies (Failure Potential and Consequences )

(What can go wrong? How likely is it? What are the consequences?)

• RG 1.200, An Approach for Determining the Technical Adequacy of Probabilistic Risk Assessment Results for Risk-Informed Activities

• RG 1.174, An Approach for Using Probabilistic Risk Assessment in RiskPlant-Specific Changes to the Licensing Basis-Informed Decisions on

• Require evaluation of consequence of failure (PRA)

• PM Required PFM Methodologies (Failure Potential, Consequences not Considered)

• RG 1.245, Preparing Probabilistic Fracture Mechanics Submittals

The purpose of PFM is to model the behavior and degradation of systems more accurately and consequentially draw more precise and accurate conclusions about situations relative to performance criteria or design assumptions.

• May be used in conjunction with or in support of risk-changesinformed decision -making for licensing basis

• Consequences of failure are not considered unless applied with PRA

• No mention of Risk-informed or PM

©2023 Nuclear Energy Institute 5 Guidance for PFM Submittals

RG 1.245 Preparing Probabilistic Fracture Mechanics Submittals No mention of Consequences or PM

U.S. NRC Technical Letter Report TLR-RES/DE/CIB-2018- 01, Important Aspects of Probabilistic Fracture Mechanics Analyses No mention of PM Consequences referenced in terms of PRA

EPRI Letter to NRC 2019- 016, White Paper on Suggested Content for PFM Submittals to the NRC PM included only when PFM submittal makes use of PRA

©2023 Nuclear Energy Institute 6 Purpose of PM

RG 1.174, An Approach for Using Probabilistic Risk Assessment in Risk -

Informed Decisions on Plant-Specific Changes to the Licensing Basis

• Monitoring and trending performance characteristics to verify aspects of the underlying analyses, research, or bases for a requirement (e.g., measuring battery voltage and specific gravity, inservice inspection of piping)

Other PM Measures

• Leak before Break (LBB)

• Industry tracking of OE (including international)

• BACC program and other walkdowns

• PWR RCS leakage monitoring programs PM employs examination techniques to monitor Known Failure and/or Known Degradation Mechanisms

©2023 Nuclear Energy Institute 7 Programs for Identifying New Degradation Phenomena (Unknown Unknowns)

EPRI Materials Degradation Matrix (MDM) and Issues Management T(IMT) able

• The objective of the EPRI MDM is to identify knowledge gaps associated with degradation phenomena that may detrimentally affectpower reactor operations, reactor safety, or regulatory climate

• NEI 03-08 materials initiative was developed to ensure proactive management of materials degradation issues. The MDM and IMT are primary tools applied by EPRI to address the intent of the materials initiative NRC Research into Proactive Management of Material Degradation (PMMD)

• Goal is to proactively address potential future degradation in operating plants to avoid failures and to maintain integrity, operability and safety Research through these programs, not PM, is the effective approach for discovering new (unknown unknowns) degradation mechanisms

©2023 Nuclear Energy Institute 8 Industry Perspective on PM

Inherent Cadence of PM across the US PWR Fleet Matrix for postulated timing of alternative request applications and current operating license

• Considers each component individually (SG, Pressurizer)

• Combines components, considering all are low allow steel

The following matrices illustrate the inherent PM for future submittals

• International units would provide additional data

©2023 Nuclear Energy Institute 9 US PWR Fleet Performance Monitoring

Pl ant Name End of Current Year US PWR Fleet - SG & PZR Performance Monitoring Lice nse 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055

Diablo Canyon 1 2024 Diablo Canyon 2 2025 Key Ginna 2029 X Comanche Pe ak 1 2030 Havenot applied Point Beach 1 2030 SER Issued (7)

Robinson 2 2030 X Comanche Pe ak 2 2033 Relief Request in Progress (19)

Oconee 1 2033 X -End of the current deferral period Oconee 2 2033 Point Beach 2 2033 % of US fleet applied for relief = ~42%

Prairie Island 1 2033 Calvert Cliffs 1 2034 X Arkansas Nucl e ar 1 2034 D.C. Cook 1 2034 Oconee 3 2034 Prairie Island 2 2034 Watts Bar 1 2035 Millstone 2 2035 X Calvert Cliffs 2 2036 X Beaver Valley 1 2036 Saint Lucie 1 2036 Sal e m 1 2036 X D.C. Cook 2 2037 Davis-Besse 2037 Farl e y 1 2037 Arkansas Nucl e ar 2 2038 North Anna 1 2038 North Anna 2 2040 Sal e m 2 2040 X Sequoyah 1 2040 Farl e y 2 2041 McGu i re 1 2041 X Sequoyah 2 2041 Summer 2042 X Catawba 1 2043 X Catawba 2 2043 X McGu i re 2 2043 X X Saint Lucie 2 2043 Byron 1 2044 Callaway 2044 Wate rford 3 2044 Millstone 3 2045 Palo Verde 1 2045 Wolf Creek 1 2045 Byron 2 2046 Palo Verde 2 2046 She aron Harri s 1 2046 Braidwood 1 2046 Beaver Valley 2 2047 Palo Verde 3 2047 South Texas 1 2047 Braidwood 2 2047 Vogtle 1 2047 X South Texas 2 2048 Vogtle 2 2049 X Seabrook 1 2050 Surry 1 2052 Turkey Point 3 2052 Surry 2 2053 Turkey Point 4 2053 Watts Bar 2 2055

©2023 Nuclear Energy Institute 10 US PWR Fleet Performance Monitoring

Pl ant Name End of Current Year US PWR Fleet - SG & PZR Performance Monitoring Lice nse 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 Diablo Canyon 1 2024 Diablo Canyon 2 2025 Ginna 2029 X Key Comanche Peak 1 2030 A SME Sec tion XI Exams Have not applied Point Beach 1 2030 A SME Sec tion XI Exams SER Issued (7)

Robinson 2 2030 X Comanche Peak 2 2033 A SME Sec tion XI Exams Relief Request in Progress (19)

Oconee 1 2033 X - End of the current deferral period Oconee 2 2033 Point Beach 2 2033 A SME Sec tion XI Exams % of US fleet appliedfor relief = ~42%

Prairie Island 1 2033 A SME Sec tion XI Exams Calvert Cliffs 1 2034 X Arkansas Nucl ear 1 2034 A SME Sec tion XI Exams D.C. Cook 1 2034 A SME Sec tion XI Exams Oconee 3 2034 Prairie Island 2 2034 A SME Sec tion XI Exams Watts Bar 1 2035 A SME Sec tion XI Exams Millstone 2 2035 X Calvert Cliffs 2 2036 X Beaver Valley 1 2036 A SME Sec tion XI Exams Saint Lucie 1 2036 A SME Sec tion XI Exams Sal e m 1 2036 X D.C. Cook 2 2037 A SME Sec tion XI Exams Davis-Besse 2037 A SME Sec tion XI Exams Farl e y 1 2037 Arkansas Nucl e ar 2 2038 A SME Sec tion XI Exams North Anna 1 2038 A SME Sec tion XI Exams North Anna 2 2040 A SME Sec tion XI Exams Sal e m 2 2040 X Sequoyah 1 2040 A SME Sec tion XI Exams Farl e y 2 2041 McGu i re 1 2041 X Sequoyah 2 2041 A SME Sec tion XI Exams Summer 2042 X A SME Sec tion XI Exams Catawba 1 2043 X A SME Sec tion XI Exams Catawba 2 2043 X A SME Sec tion XI Exams McGu i re 2 2043 X A SME Sec tion XI Exams X Saint Lucie 2 2043 A SME Sec tion XI Exams Byron 1 2044 Callaway 2044 A SME Sec tion XI Exams Wate rford 3 2044 A SME Sec tion XI Exams Millstone 3 2045 A SME Sec tion XI Exams Palo Verde 1 2045 A SME Sec tion XI Exams Wolf Creek 1 2045 A SME Sec tion XI Exams Byron 2 2046 Palo Verde 2 2046 A SME Sec tion XI Exams She aron Harri s 1 2046 Braidwood 1 2046 Beaver Valley 2 2047 A SME Sec tion XI Exams Palo Verde 3 2047 A SME Sec tion XI Exams South Texas 1 2047 A SME Sec tion XI Exams Braidwood 2 2047 Vogtle 1 2047 X South Texas 2 2048 A SME Sec tion XI Exams Vogtle 2 2049 X Seabrook 1 2050 A SME Sec tion XI Exams Surry 1 2052 Turkey Point 3 2052 A SME Sec tion XI Exams Surry 2 2053 Turkey Point 4 2053 A SME Sec tion XI Exams Watts Bar 2 2055 A SME Sec tion XI Exams

©2023 Nuclear Energy Institute 11 US PWR Fleet Performance Monitoring

Start of Next US PWR Fleet - SG & PZR Performance Monitoring Pl ant Name Inspection Year Inte rval 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 Diablo Canyon 1 2025 Diablo Canyon 2 2026 Ginna 2030 Comanche Pe ak 1 2031 = Next Inspection Period Point Beach 1 2031 Robinson 2 2031 SER Issued (7)

Comanche Pe ak 2 2034 Relief Request in Progress (19)

Oconee 1 2034 Oconee 2 2034 Point Beach 2 2034 Prairie Island 1 2034 Calvert Cliffs 1 2035 Arkansas Nucl e ar 1 2035 D.C. Cook 1 2035 Oconee 3 2035 Prairie Island 2 2035 Watts Bar 1 2036 Millstone 2 2036 Calvert Cliffs 2 2037 Beaver Valley 1 2037 Saint Lucie 1 2037 Sal e m 1 2037 D.C. Cook 2 2038 Davis-Besse 2038 Farl e y 1 2038 Arkansas Nucl e ar 2 2039 North Anna 1 2039 North Anna 2 2041 Sal e m 2 2041 Sequoyah 1 2041 Farl e y 2 2042 McGu i re 1 2042 Sequoyah 2 2042 Summer 2043 Catawba 1 2044 Catawba 2 2044 McGu i re 2 2044 Saint Lucie 2 2044 Byron 1 2045 Callaway 2045 Wate rford 3 2045 Millstone 3 2046 Palo Verde 1 2046 Wolf Creek 1 2046 Byron 2 2047 Palo Verde 2 2047 She aron Harri s 1 2047 Braidwood 1 2047 Beaver Valley 2 2048 Palo Verde 3 2048 South Texas 1 2048 Braidwood 2 2048 Vogtle 1 2048 South Texas 2 2049 Vogtle 2 2050 Seabrook 1 2051 Surry 1 2053 Turkey Point 3 2053 Surry 2 2054 Turkey Point 4 2054 Watts Bar 2 2056

©2023 Nuclear Energy Institute 12 Existing Supplemental PM Programs

Boric Acid Corrosion Control (BACC) Programs Routine Engineering and Operations Walkdowns Fatigue Monitoring Programs PWR RCS Leakage Monitoring Systems

• W CAPPressurized Water Reactors (ML070310082) NEI 03-16465, Standard RCS Leakage Action Levels and Response Guidelines for - 08 Needed Requirement

Action Level 1: One seven (7) day rolling average of daily Unidentified RCS leak rates >

0.1 gpm

Action Level 2: Two consecutive daily Unidentified RCS leak rates > 0.15 gpm

Action Level 3: One daily Unidentified RCS leak rate > 0.3 gpm

• Plant Tech Spec Limits

• RG 1.45, RCPB Leakage Detection Systems

©2023 Nuclear Energy Institute 13 Summary and Conclusion

Probabilistic Fracture Mechanics (PFM) Methods are not risk-informed (magnitude of consequences are not considered)

Existing regulatory and industry guidance for PFM submittals does not require consideration of performance monitoring unless also applying PRA PM is effective for known failure mechanisms while EPRI (MDM and IMT) and NRC (PMMD) research programs were developed to proactively address potential future degradation Existing PM programs, including international operating experience, provide supplemental indications of any potential issues

The postulated timing of applications for extension of these specific component inspections results in inherent PM across the US PWR Fleet

Therefore, PM on a plant specific basis is not required for deferrals greater than 20 years justified by PFM methodologies

©2023 Nuclear Energy Institute 14 QUESTIONS?