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| {{#Wiki_filter:Facilitating Regulatory Change through an Understanding of the Current Levels of Safety November 28, 2018 Greg Krueger (NEI), Fernando Ferrante (EPRI) | | {{#Wiki_filter:Facilitating Regulatory Change through an Understanding of the Current Levels of Safety Greg Krueger (NEI), Fernando Ferrante (EPRI) |
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| ©2018 Nuclear Energy Institute 2 Insights on Risk Margins The Nexus between Safety and Risk Application of Margin Regulatory Implications Next Steps Outline
| | Outline Insights on Risk Margins The Nexus between Safety and Risk Application of Margin Regulatory Implications Next Steps |
| ©2018 Nuclear Energy Institute 3 Insights on Risk Margins EPRI Product ID 3002012967 (May 2018) | | ©2018 Nuclear Energy Institute 2 |
| "Insights on Current Margins at Nuclear Power Plants: A Technical Evaluation of Margins in Relation to Quantitative Health Objectives and Subsidiary Risk Goals in the United States" Utilized previous NRC and EPRI work to provide a technical bases for how our understanding of margin to the regulatory Quantitative Health Objectives (QHOs) has evolved over time, and to estimate that margin The EPRI white paper does not address how to apply the margin that exists
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| ©2018 Nuclear Energy Institute 4 Change in Perceived Safety Margin Factor of 100 - 10,000 Factor of 2-5 Factor of 2-5 ? Severe Accid ent Research | | Insights on Risk Margins EPRI Product ID 3002012967 (May 2018) |
| - Improving State of Knowledge Margin to Safety Goal NRC Safety Goal QHOs 1985 1990 1995 2000 2005 2020 2015 2010 1995 NRC PRA Policy Statement ~1990 NUREG-1150 1986 NRC Safety Goal Policy 2007 NUREG-1860: Regulatory Framework 2012 NUREG-1975: SOARCA 2014 NUREG-2161: Spent Fuel Pool Risks 2015 US NRC CPRR Regulatory Analysis CDF/LERF Objectives CDF/LERF Objectives CDF/LERF Objectives
| | Insights on Current Margins at Nuclear Power Plants: A Technical Evaluation of Margins in Relation to Quantitative Health Objectives and Subsidiary Risk Goals in the United States Utilized previous NRC and EPRI work to provide a technical bases for how our understanding of margin to the regulatory Quantitative Health Objectives (QHOs) has evolved over time, and to estimate that margin The EPRI white paper does not address how to apply the margin that exists |
| | ©2018 Nuclear Energy Institute 3 |
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| ©2018 Nuclear Energy Institute 5 Regulations based on deterministic requirements provide an important foundation for assuring safety Risk analyses assist in assessing the completeness and effectiveness of the deterministic framework Risk information is not intended to supplant deterministic requirements PRA tools assess and provide risk insights even when regulations are followed | | Change in Perceived Safety Margin NRC Safety Goal QHOs |
| *Measure or identify the residual risk
| | ? Factor of 2-5 Factor of 2-5 Factor Margin to of 100 - 10,000 CDF/LERF CDF/LERF Safety Goal Objectives Objectives CDF/LERF Objectives 2014 NUREG-2161: |
| *Support a graded consideration of risk throughout the decision
| | Spent Fuel Pool Risks 2007 2015 1986 1995 2012 |
| -making process The Nexus between Safety and Risk
| | ~1990 NUREG- US NRC NRC NRC PRA NUREG-NUREG- 1860: CPRR Safety Policy 1975: |
| | 1150 Regulatory Regulatory Goal Policy Statement SOARCA Framework Analysis 1985 1990 1995 2000 2005 2010 2015 2020 Severe Accident Research - Improving State of Knowledge |
| | ©2018 Nuclear Energy Institute 4 |
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| ©2018 Nuclear Energy Institute 6 A risk informed regulatory approach that complements deterministic regulations is the optimal means to make informed decisions on safety significance in an objective manner SECY-98-144 defines RIDM as a philosophy whereby risk insights are considered together with other factors to establish requirements that better focus licensee and regulatory attention on design and operational issues commensurate with their importance to health and safety Risk Informed Decision Making (RIDM) | | The Nexus between Safety and Risk Regulations based on deterministic requirements provide an important foundation for assuring safety Risk analyses assist in assessing the completeness and effectiveness of the deterministic framework Risk information is not intended to supplant deterministic requirements PRA tools assess and provide risk insights even when regulations are followed |
| | * Measure or identify the residual risk |
| | * Support a graded consideration of risk throughout the decision-making process |
| | ©2018 Nuclear Energy Institute 5 |
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| ©2018 Nuclear Energy Institute 7 Application of margin for general decision-making *Use the appropriate level of resources to investigate an issue commensurate with safety Improve timely disposition of safety significance conclusions Disposition low safety significance conclusions quickly
| | Risk Informed Decision Making (RIDM) |
| *Prioritize regulatory issues
| | A risk informed regulatory approach that complements deterministic regulations is the optimal means to make informed decisions on safety significance in an objective manner SECY-98-144 defines RIDM as a philosophy whereby risk insights are considered together with other factors to establish requirements that better focus licensee and regulatory attention on design and operational issues commensurate with their importance to health and safety |
| *Reassess impact and use of regulatory quantitative risk thresholds Application of margin in support of specific decision
| | ©2018 Nuclear Energy Institute 6 |
| -making *Increase in margin driven by plant design and operational changes should allow flexibility in response, scope, and depth of review of regulatory initiatives Margin in the Context of RIDM
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| ©2018 Nuclear Energy Institute 8 Licensing and Oversight of Operating Reactors
| | Margin in the Context of RIDM Application of margin for general decision-making |
| *Focus resources on safety significant issues and apply the appropriate (limited) review for low risk regulatory decisions
| | * Use the appropriate level of resources to investigate an issue commensurate with safety Improve timely disposition of safety significance conclusions Disposition low safety significance conclusions quickly |
| *Align regulatory response commensurate with the understanding of margin and low safety significance of issues within the ROP
| | * Prioritize regulatory issues |
| *Do not expend resources on inspections of low safety significant components within 10 CFR 50.69
| | * Reassess impact and use of regulatory quantitative risk thresholds Application of margin in support of specific decision-making |
| *Take full advantage of inherent plant features and operator response to optimize security Regulatory Implications
| | * Increase in margin driven by plant design and operational changes should allow flexibility in response, scope, and depth of review of regulatory initiatives |
| | ©2018 Nuclear Energy Institute 7 |
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| ©2018 Nuclear Energy Institute 9 Risk-inform Reasonable Assurance RISK INSIGHTS REGULATORY DECISION LOW SAFETY SIGNIFICANCE Reduced Scrutiny & Touchpoints HIGH SAFETY SIGNIFICANCE Increased Confidence & Focus Qualitative & | | Regulatory Implications Licensing and Oversight of Operating Reactors |
| | * Focus resources on safety significant issues and apply the appropriate (limited) review for low risk regulatory decisions |
| | * Align regulatory response commensurate with the understanding of margin and low safety significance of issues within the ROP |
| | * Do not expend resources on inspections of low safety significant components within 10 CFR 50.69 |
| | * Take full advantage of inherent plant features and operator response to optimize security |
| | ©2018 Nuclear Energy Institute 8 |
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| | Risk-inform Reasonable Assurance REGULATORY DECISION HIGH SAFETY SIGNIFICANCE Increased Confidence & Focus LOW SAFETY SIGNIFICANCE RISK Reduced Scrutiny & Touchpoints INSIGHTS Qualitative & |
| Quantitative | | Quantitative |
| | ©2018 Nuclear Energy Institute 9 |
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| | Low Safety Significance Off-Ramps |
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| | ==Purpose:== |
| | Identify LSS issues early to avoid resource expenditures LSS Exit Applicability: |
| | Licensing Oversight Inspections Non-concurrences |
| | ©2018 Nuclear Energy Institute 10 |
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| ©2018 Nuclear Energy Institute 10 Purpose: Identify LSS issues early to avoid resource expenditures Applicability:
| | Regulatory Implications Licensing and Oversight of Advanced Reactors |
| Licensing Oversight Inspections Non-concurrences Low Safety Significance "Off
| | * Streamline and focus the licensing process of advanced reactor designs due to their enhanced safety |
| -Ramps" LSS Exit
| | ©2018 Nuclear Energy Institute 11 |
| ©2018 Nuclear Energy Institute 11 Licensing and Oversight of Advanced Reactors
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| *Streamline and focus the licensing process of advanced reactor designs due to their enhanced safety Regulatory Implications
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| ©2018 Nuclear Energy Institute 12 Application of PRA Insights and Metrics
| | Regulatory Implications Application of PRA Insights and Metrics |
| *Limit the need to quantify all risk contributors with detailed PRAs if they can be shown to be of low risk
| | * Limit the need to quantify all risk contributors with detailed PRAs if they can be shown to be of low risk |
| *Apply PRA insights to enable a reconsideration of past practices and conventions
| | * Apply PRA insights to enable a reconsideration of past practices and conventions |
| *Improve application of quantitative regulatory guidelines (RG 1.174) to preclude the use of "hard" limits
| | * Improve application of quantitative regulatory guidelines (RG 1.174) to preclude the use of hard limits |
| *Understand the implications bounding new methods cause on risk insights and metrics Regulatory Implications
| | * Understand the implications bounding new methods cause on risk insights and metrics |
| | ©2018 Nuclear Energy Institute 12 |
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| ©2018 Nuclear Energy Institute 13 Acknowledge the implications of the increased margin between surrogate risk metrics and the QHOs Apply the understanding of the margin to the QHOs, in conjunction with the extensive accumulated operating and regulatory experience, into an integrated risk informed decision
| | Next Steps Acknowledge the implications of the increased margin between surrogate risk metrics and the QHOs Apply the understanding of the margin to the QHOs, in conjunction with the extensive accumulated operating and regulatory experience, into an integrated risk informed decision-making framework (IRIDM) |
| -making framework (IRIDM) | | * A framework for decision-making can consist of a qualitative, consequence-biased framework that incorporates insights from quantitative PRA tools, as appropriate, to a spectrum of regulatory decisions Incorporate concepts from the soon-to-be-published EPRI Report (3002014783) - A Framework for Using Risk Insights in Integrated Risk-Informed Decision-Making ©2018 Nuclear Energy Institute 13}} |
| *A framework for decision
| |
| -making can consist of a qualitative, consequence | |
| -biased framework that incorporates insights from quantitative PRA tools, as appropriate, to a spectrum of regulatory decisions Incorporate concepts from the soon | |
| -to-be-published EPRI Report (3002014783) | |
| - "A Framework for Using Risk Insights in Integrated Risk | |
| -Informed Decision-Making" Next Steps}} | |
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Category:Meeting Briefing Package/Handouts
MONTHYEARML24303A2212024-10-29029 October 2024
NEI SDP Realism Presentation for October 30, 2024 Public Meeting
ML24291A0062024-10-17017 October 2024
NEI Slide Presentation: ACRS Regulatory Policies and Practices - Draft White Paper on Nth-of-a-Kind (Noak) Micro-Reactor Licensing and Deployment Considerations - Sc - October 17, 2024
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06 Jim Slider NEI September 2024 NRC Ai Public Workshop 09-17-2024
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NEI Presentation - Sept 9 Public Meeting - Flooding DGs - Final
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Slide Presentations for High Burnup (Hbu) Workshop V
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2024 NEI Early Warning System (EWS) Presentation - NEI Slides
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NEI - Spent Fuel Management: Safety and Efficiency Improvements Through Technology and Performance Margins - NRC PIRTs Public Meeting Rev. 8.15.2024 Final
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NEI 7-30-24 Trial Use RG 1.247 Path Forward Final
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NEI Slides for 06-27-2024 Public Meeting Structures as IROFS at Fuel Cycle Facilities
ML24178A0372024-06-26026 June 2024
NRC Power Uprate Review Preparation June 26, 2024 Public Meeting Slides
ML24164A1972024-06-17017 June 2024
Public Meeting Slides - NRC Staff Comments and Observations on NEI 10-01, Rev 2 Industry Guideline for Developing a Plant Parameter Envelope in Support of an Early Site Permit
ML24129A1382024-05-0808 May 2024
NEI Slides on Centralized Inspections for May 9, 2024 Public Workshop
ML24103A1532024-04-12012 April 2024
NEI Supplemental Information on NRC Comments of NEI 20-07 Rev E (Non-Proprietary) - Slides
ML24088A2252024-03-26026 March 2024
NEI Slides for Centralized Inspections March 2024 ROP Public Meeting
ML24075A2092024-03-14014 March 2024
NEI Advanced Reactor Di&C Task Force Slides - Accident Monitoring Instrumentation
ML24075A2102024-03-14014 March 2024
NEI Alan Campbell Slides - Non-Safety-Related with Special Treatment – Digital Considerations
ML24086A5342024-03-14014 March 2024
RIC 2024 TH23 Slides - the Industry’S Innovation Imperative
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1 - NRC - Workshop3 - Non-LOCA Release Fractions Feedback - Final
ML24067A0072024-03-0808 March 2024
2 - NRC - Workshop3 - Non-LOCA - FFRD - Final
ML24067A0092024-03-0808 March 2024
3 - NRC - Worshop3 - CR Dose Presentation - Final
ML24067A0102024-03-0808 March 2024
4 - NRC - Workshop3 - EQ Presentation - Final
ML24067A0122024-03-0808 March 2024
6 - NRC - Workshop3 - Best Estimate Dose
ML24067A0132024-03-0808 March 2024
7 - NRC - Workshop3 - Closing Remarks
ML24067A2882024-03-0808 March 2024
1 (Revised)-NRC_Workshop3_Non-LOCA Release Fraction Feedback-Final
ML24043A1162024-02-13013 February 2024
3- EQ Presentation Workshop 2
ML24043A1192024-02-13013 February 2024
1- Impacts on RG 1.183 for Workshop2
ML24043A1202024-02-13013 February 2024
2- CR Dose Presentation Workshop 2
ML24016A2372024-01-17017 January 2024
NEI Environmental Reviews Slides Public Meeting 1-17-24
ML24008A0442024-01-0909 January 2024
NEI - Slides for NRC Workshop 1 on Revision to RG 1.183 R1 - Final - ML24008A044
ML23342A0262023-12-14014 December 2023
December 14, 2023, Presentation on NEI 23-01 Operator Cold Licensing Training Plan for Advanced Nuclear Reactors
ML23347A1782023-12-13013 December 2023
12-14 NEI EPRI Presentation NRC Public Meeting 16-03 R1
ML23303A1922023-10-30030 October 2023
NEI Slides for SLR Public Meeting - Oct 31 2023
ML23324A2392023-10-24024 October 2023
S1P6 - Hilary Lane - NRC AMT Workshop - Oct. 2023
ML23258A1992023-09-20020 September 2023
NEI 99-02 Draft Rev. 8 Update for Sept 2023 ROP Public Meeting
ML23242A0782023-08-30030 August 2023
Hbu Workshop IV Industry Presentation: Drive to Deploy ATF with Increased Enrichment and Higher Burnup
ML23230A0142023-08-22022 August 2023
Industry Slide Presentation for 8-22-23 Meeting on ARCAP-TICAP and DG-1404 Guidance Documents
ML23191A0632023-07-0707 July 2023
NEI Cybersecurity Presentation for July 2023 ROP Public Meeting
ML23191A0662023-07-0707 July 2023
NEI 99-02 Draft Rev. 8 Update for July 2023 ROP Public Meeting
ML23160A1512023-06-15015 June 2023
25 - Industry - Industry Perspectives on ASME III and XI Pre-Service Inspection
ML23160A1422023-06-15015 June 2023
20 - Industry - Industry Perspective on Performance Monitoring
ML23116A1892023-05-31031 May 2023
Industry Observations of NRC Licensing Program (NEI Slides May 2023)
ML23136A5912023-05-18018 May 2023
NEI Safety Culture Presentation for May 2023 ROP Public Meeting
ML23125A3192023-05-0909 May 2023
NEI Presentation for May 9, 2023, Public Meeting on NEI 22-05, Revision a
ML23115A0302023-04-27027 April 2023
NEI Perspective on Performance Monitoring in Use of Probabilistic Fracture Mechanics for Optimizing Inspections of Non-RPV Pressure Vessels, April 27, 2023
ML23088A0822023-03-30030 March 2023
NEI Presentation - March 30, 2023 PRA Configuration Control Public Meeting
ML23082A0572023-03-28028 March 2023
Proposal to Establish Alternate Requirements for Components Commensurate with Safety and Risk
ML23079A2642023-03-23023 March 2023
General Visual Examination of Containment Surfaces Covered by Insulation - March 23, 2023 Public Meeting Slides from NEI
ML23210A0042023-03-15015 March 2023
Destination: Termination, NRC Regulatory Information Conference
2024-09-09
[Table view]
Category:Slides and Viewgraphs
MONTHYEARML24303A2212024-10-29029 October 2024
NEI SDP Realism Presentation for October 30, 2024 Public Meeting
ML24291A0062024-10-17017 October 2024
NEI Slide Presentation: ACRS Regulatory Policies and Practices - Draft White Paper on Nth-of-a-Kind (Noak) Micro-Reactor Licensing and Deployment Considerations - Sc - October 17, 2024
ML24267A0032024-09-25025 September 2024
NEI Slides for ROP Public Meeting Sept 2024
ML24263A2592024-09-17017 September 2024
06 Jim Slider NEI September 2024 NRC Ai Public Workshop 09-17-2024
ML24249A2012024-09-0909 September 2024
NEI Presentation - Sept 9 Public Meeting - Flooding DGs - Final
ML24249A1152024-09-0505 September 2024
Power Uprate September 5, 2024 Public Meeting Slides
ML24243A1612024-08-30030 August 2024
Slide Presentations for High Burnup (Hbu) Workshop V
ML24228A2102024-08-20020 August 2024
2024 NEI Early Warning System (EWS) Presentation - NEI Slides
ML24229A0012024-08-19019 August 2024
NEI - Spent Fuel Management: Safety and Efficiency Improvements Through Technology and Performance Margins - NRC PIRTs Public Meeting Rev. 8.15.2024 Final
ML24218A1832024-07-30030 July 2024
NEI 7-30-24 Trial Use RG 1.247 Path Forward Final
ML24197A0652024-07-17017 July 2024
SDP Realism Public Meeting NEI Presentation
ML24172A1952024-06-27027 June 2024
NEI Slides for 06-27-2024 Public Meeting Structures as IROFS at Fuel Cycle Facilities
ML24178A0372024-06-26026 June 2024
NRC Power Uprate Review Preparation June 26, 2024 Public Meeting Slides
ML24164A1972024-06-17017 June 2024
Public Meeting Slides - NRC Staff Comments and Observations on NEI 10-01, Rev 2 Industry Guideline for Developing a Plant Parameter Envelope in Support of an Early Site Permit
ML24130A1972024-05-0909 May 2024
NEI Presentation Slides on Rapid and Large-Scale Nuclear Reactor Deployments for Remote Industrial Applications - May 14 2024 Public Meeting
ML24129A1382024-05-0808 May 2024
NEI Slides on Centralized Inspections for May 9, 2024 Public Workshop
ML24114A1142024-04-18018 April 2024
NEI Supplemental Information on NRC Comments on NEI 20-07, Draft Revision E - April 18 Meeting (Non-Proprietary)
ML24103A1532024-04-12012 April 2024
NEI Supplemental Information on NRC Comments of NEI 20-07 Rev E (Non-Proprietary) - Slides
ML24092A3132024-04-0303 April 2024
Public Mtg_2024-04-03 Pre-submittal Meeting with the Nuclear Energy Institute (NEI) to Discuss an Update to NEI 03-12, Security Plan Template (Revision 8)_NEI Slides
ML24088A2252024-03-26026 March 2024
NEI Slides for Centralized Inspections March 2024 ROP Public Meeting
ML24075A2092024-03-14014 March 2024
NEI Advanced Reactor Di&C Task Force Slides - Accident Monitoring Instrumentation
ML24075A2102024-03-14014 March 2024
NEI Alan Campbell Slides - Non-Safety-Related with Special Treatment – Digital Considerations
ML24082A1792024-03-14014 March 2024
RIC-2024 TH18 True Slides
ML24086A5342024-03-14014 March 2024
RIC 2024 TH23 Slides - the Industry’S Innovation Imperative
ML24067A2592024-03-13013 March 2024
RIC-2024 W14 Slides - NEI-BHoltzman an Industry Perspective on Advanced Reactor Construction Oversight
ML24067A0062024-03-0808 March 2024
1 - NRC - Workshop3 - Non-LOCA Release Fractions Feedback - Final
ML24067A0072024-03-0808 March 2024
2 - NRC - Workshop3 - Non-LOCA - FFRD - Final
ML24067A0092024-03-0808 March 2024
3 - NRC - Worshop3 - CR Dose Presentation - Final
ML24067A0102024-03-0808 March 2024
4 - NRC - Workshop3 - EQ Presentation - Final
ML24067A0122024-03-0808 March 2024
6 - NRC - Workshop3 - Best Estimate Dose
ML24067A0132024-03-0808 March 2024
7 - NRC - Workshop3 - Closing Remarks
ML24067A2882024-03-0808 March 2024
1 (Revised)-NRC_Workshop3_Non-LOCA Release Fraction Feedback-Final
ML24043A1162024-02-13013 February 2024
3- EQ Presentation Workshop 2
ML24043A1192024-02-13013 February 2024
1- Impacts on RG 1.183 for Workshop2
ML24043A1202024-02-13013 February 2024
2- CR Dose Presentation Workshop 2
ML24016A2372024-01-17017 January 2024
NEI Environmental Reviews Slides Public Meeting 1-17-24
ML24010A0202024-01-11011 January 2024
Public Meeting on SLR Efficiencies - NEI Presentation
ML24008A0442024-01-0909 January 2024
NEI - Slides for NRC Workshop 1 on Revision to RG 1.183 R1 - Final - ML24008A044
ML23342A0262023-12-14014 December 2023
December 14, 2023, Presentation on NEI 23-01 Operator Cold Licensing Training Plan for Advanced Nuclear Reactors
ML23347A1782023-12-13013 December 2023
12-14 NEI EPRI Presentation NRC Public Meeting 16-03 R1
ML23303A1922023-10-30030 October 2023
NEI Slides for SLR Public Meeting - Oct 31 2023
ML23324A2392023-10-24024 October 2023
S1P6 - Hilary Lane - NRC AMT Workshop - Oct. 2023
ML23261C3792023-09-27027 September 2023
NEI 22-04 Pre-Submittal Meeting with NRC - September 27, 2023
ML23258A1992023-09-20020 September 2023
NEI 99-02 Draft Rev. 8 Update for Sept 2023 ROP Public Meeting
ML23242A0782023-08-30030 August 2023
Hbu Workshop IV Industry Presentation: Drive to Deploy ATF with Increased Enrichment and Higher Burnup
ML23242A1662023-08-30030 August 2023
the Future of Nuclear Power: 2023 Baseline Survey (Slides)
ML23230A0142023-08-22022 August 2023
Industry Slide Presentation for 8-22-23 Meeting on ARCAP-TICAP and DG-1404 Guidance Documents
ML23228A0042023-08-18018 August 2023
NEI Slides for Public Meeting to Discuss Possible Efficiencies on the Subsequent License Renewal Review - August 18, 2023
ML23191A0162023-07-11011 July 2023
NEI Comments on Risk-Informed Process for Evaluation (RIPE) DORL TSG - 7/11/23 Public Meeting Slides from NEI
ML23191A0632023-07-0707 July 2023
NEI Cybersecurity Presentation for July 2023 ROP Public Meeting
2024-09-09
[Table view] |
Text
Facilitating Regulatory Change through an Understanding of the Current Levels of Safety Greg Krueger (NEI), Fernando Ferrante (EPRI)
November 28, 2018
Outline Insights on Risk Margins The Nexus between Safety and Risk Application of Margin Regulatory Implications Next Steps
©2018 Nuclear Energy Institute 2
Insights on Risk Margins EPRI Product ID 3002012967 (May 2018)
Insights on Current Margins at Nuclear Power Plants: A Technical Evaluation of Margins in Relation to Quantitative Health Objectives and Subsidiary Risk Goals in the United States Utilized previous NRC and EPRI work to provide a technical bases for how our understanding of margin to the regulatory Quantitative Health Objectives (QHOs) has evolved over time, and to estimate that margin The EPRI white paper does not address how to apply the margin that exists
©2018 Nuclear Energy Institute 3
Change in Perceived Safety Margin NRC Safety Goal QHOs
? Factor of 2-5 Factor of 2-5 Factor Margin to of 100 - 10,000 CDF/LERF CDF/LERF Safety Goal Objectives Objectives CDF/LERF Objectives 2014 NUREG-2161:
Spent Fuel Pool Risks 2007 2015 1986 1995 2012
~1990 NUREG- US NRC NRC NRC PRA NUREG-NUREG- 1860: CPRR Safety Policy 1975:
1150 Regulatory Regulatory Goal Policy Statement SOARCA Framework Analysis 1985 1990 1995 2000 2005 2010 2015 2020 Severe Accident Research - Improving State of Knowledge
©2018 Nuclear Energy Institute 4
The Nexus between Safety and Risk Regulations based on deterministic requirements provide an important foundation for assuring safety Risk analyses assist in assessing the completeness and effectiveness of the deterministic framework Risk information is not intended to supplant deterministic requirements PRA tools assess and provide risk insights even when regulations are followed
- Measure or identify the residual risk
- Support a graded consideration of risk throughout the decision-making process
©2018 Nuclear Energy Institute 5
Risk Informed Decision Making (RIDM)
A risk informed regulatory approach that complements deterministic regulations is the optimal means to make informed decisions on safety significance in an objective manner SECY-98-144 defines RIDM as a philosophy whereby risk insights are considered together with other factors to establish requirements that better focus licensee and regulatory attention on design and operational issues commensurate with their importance to health and safety
©2018 Nuclear Energy Institute 6
Margin in the Context of RIDM Application of margin for general decision-making
- Use the appropriate level of resources to investigate an issue commensurate with safety Improve timely disposition of safety significance conclusions Disposition low safety significance conclusions quickly
- Prioritize regulatory issues
- Reassess impact and use of regulatory quantitative risk thresholds Application of margin in support of specific decision-making
- Increase in margin driven by plant design and operational changes should allow flexibility in response, scope, and depth of review of regulatory initiatives
©2018 Nuclear Energy Institute 7
Regulatory Implications Licensing and Oversight of Operating Reactors
- Focus resources on safety significant issues and apply the appropriate (limited) review for low risk regulatory decisions
- Align regulatory response commensurate with the understanding of margin and low safety significance of issues within the ROP
- Do not expend resources on inspections of low safety significant components within 10 CFR 50.69
- Take full advantage of inherent plant features and operator response to optimize security
©2018 Nuclear Energy Institute 8
Risk-inform Reasonable Assurance REGULATORY DECISION HIGH SAFETY SIGNIFICANCE Increased Confidence & Focus LOW SAFETY SIGNIFICANCE RISK Reduced Scrutiny & Touchpoints INSIGHTS Qualitative &
Quantitative
©2018 Nuclear Energy Institute 9
Low Safety Significance Off-Ramps
Purpose:
Identify LSS issues early to avoid resource expenditures LSS Exit Applicability:
Licensing Oversight Inspections Non-concurrences
©2018 Nuclear Energy Institute 10
Regulatory Implications Licensing and Oversight of Advanced Reactors
- Streamline and focus the licensing process of advanced reactor designs due to their enhanced safety
©2018 Nuclear Energy Institute 11
Regulatory Implications Application of PRA Insights and Metrics
- Limit the need to quantify all risk contributors with detailed PRAs if they can be shown to be of low risk
- Apply PRA insights to enable a reconsideration of past practices and conventions
- Improve application of quantitative regulatory guidelines (RG 1.174) to preclude the use of hard limits
- Understand the implications bounding new methods cause on risk insights and metrics
©2018 Nuclear Energy Institute 12
Next Steps Acknowledge the implications of the increased margin between surrogate risk metrics and the QHOs Apply the understanding of the margin to the QHOs, in conjunction with the extensive accumulated operating and regulatory experience, into an integrated risk informed decision-making framework (IRIDM)
- A framework for decision-making can consist of a qualitative, consequence-biased framework that incorporates insights from quantitative PRA tools, as appropriate, to a spectrum of regulatory decisions Incorporate concepts from the soon-to-be-published EPRI Report (3002014783) - A Framework for Using Risk Insights in Integrated Risk-Informed Decision-Making ©2018 Nuclear Energy Institute 13