QHO Margins-Nov-28-2018 Final

ML18331A363
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Issue date:	11/28/2018
From:	Mike Franovich NRC/NRR/DRA
To:
Weerakkody S
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QHO Margins Progress & Path Forward Michael X. Franovich Director, Division of Risk Assessment Office of Nuclear Reactor Regulation U.S. Nuclear Regulatory Commission Mike.Franovich@nrc.gov 301-415-2884 November 28, 2018 1

Review of Draft EPRI Paper

• April 2018: Formed an inter-office panel of experts (expert panel) to review pending industry documents relating to QHO margins.

• May 7th: EPRI requested an expeditious high-level technical review of the draft EPRI report under the RES-EPRI technical exchange MOU.

• May 14th: RES transmitted NRCs high-level comments to EPRI.

• Final EPRI Report EPRI 3002022967 is publicly available.

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• Cautioned about extrapolating results from studies such as SOARCA, which were intended for other purposes, to draw conclusions on QHO Margins.

• Noted the need to consider other NRC policies (e.g. PRA Policy, 1995: .for the purpose of implementation of the safety goals, subsidiary numerical values on core damage frequency and containment performance have been established..)

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• October 2018: Shared expert panels initial observations with NRR senior management and the NRC RISC.

• Most significant observations of the expert panel:

- Agrees with industry that QHO margins are greater than previously assumed.

- When the entirety of Safety Goal Policy is considered, including its treatment of enterprise risk*, the numerical QHO margins* do not translate to regulatory margins*.

Definition of terms enterprise risk, numerical margins, and regulatory margins, for the purpose of this presentation are provided in Slide#16.

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• October 18: Received NEIs letter to the EDO (ADAMS Accession Nos. ML18303A098 & ML18303A106).

• Letter posited that improved understanding of margins to safety goals can serve as a foundation for regulatory changes in licensing and oversight of operating reactors, advanced reactors, and to application of PRA insights and metrics.

• NEI proposals complement NRCs initiatives relating to RIDM (Commission Meeting SRM M170511), ROP transformation &

transformation initiatives discussed in (SECY-18-0060).

• NRC plans to incorporate insights from QHO Margins to the above initiatives and explore other areas which could benefit from QHO Margins.

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Numerical vs. Regulatory Margins Between Quantitative Health Objectives (QHOs) and Subsidiary Safety Goals (CDF, LERF)

Sunil Weerakkody, Senior Level Advisor in PRA, NRR Contributors Martin Stutzke, Senior Level Advisor in PRA, NRO Nathan Siu, Senior Level Advisor in PRA, RES Tina Ghosh, Senior Reactor Systems Engineer (SOARCA Expert), RES Mehdi Reisi Fard, Team Leader (Acting), Risk Informed Initiatives, NRR 6

Quantitative Health Objectives (QHOs) of NRCs Safety Goal Policy and Subsidiary Goals

• The QHO for Early Fatalities is ~ 5x10-7/year.

• NRCs subsidiary goal for the QHO for early fatalities, LERF is 1x10-5/year**.

• The QHO for Latent Fatalities is ~ 2x10-6/year.

• NRCs subsidiary goal for the QHO for latent fatalities, CDF, for operating and new reactors, is 1x10-4/year.

• • For new reactors designs, 1x10-6/year LRF and a 0.1 CCFP as a design goal.

Appendix D of NUREG 1860 (December 2007) provided the basis for subsidiary goals.

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QHO Margin Early Fatalities = 5 x 10-7/(LERFplant-specific x consequential early fatalities due to a large early release)

• Industry estimate of the above ratio is of the order of 10,000.

• NRC staff agrees that expected risk of early fatalities due to potential releases are less than previously estimated.

• The margins, however, are highly plant-specific and site-specific, and highly dependent on effectiveness of evacuation.

• Some proposed changes may need to consider plant-specific information.

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QHO Margin Latent Fatalities = 2 x 10-6/(CDFplant specific x consequential latent fatalities due to a core damage)

• Industry estimate of the above ratio is of the order of 100.

• NRC staff agrees that expected risk of latent fatalities due to core damage events are likely to be less than previously estimated (albeit highly plant-specific & site-specific) and highly dependent on effectiveness of evacuation.

- Some proposed changes may need to consider plant-specific information.

• NRC staff also notes that due to enterprise risk included in the Safety Goal Policy (next page), these margins do not directly translate into regulatory margins.

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Commission Intent to avoid Core Damage Events in US EXCERPT from 1986 Safety Goal Policy: Severe core damage accidents can lead to more serious accidents with the potential for life-threatening offsite release of radiation, for evacuation of members of public, and for contamination of public property. Apart from their health and safety consequence, severe core damage accidents can erode the public confidence in the safety of nuclear power and can lead to further instability for the industry. In order to avoid these adverse consequences, the Commission intends to continue to pursue a regulatory program that has as its objective providing reasonable assurance, while giving appropriate consideration to the uncertainties involved, that a severe core damage accident will not occur.

- A reactor which operates at a CDF much greater than the safety goal (minimum QHO margin for latent fatalities per EPRI) could pose a significant threat to enterprise risk.

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Impact of Average CDF on Likelihood of a Core Damage Event in USA Average CDF (1) Likelihood (2) of a core Remarks damage event in US within 20 years assuming 100 operating units 1x10-5 /year ~ 2% Number of countries are using 1x10-5 /year as their CDF goal.

5x10-5 /year ~ 10% Assumed average CDF in NUREG-2201.

1x10-4 /year ~ 18% Staff uses guidance in Reg. Guide 1.174 to minimize the likelihood of plants operating beyond this threshold when licensees request risk-informed amendments to their licenses.

(1) Based on best available information of quantified components of CDF, staff believes that most plants CDF vary between mid 10-5 /year to very low 10-4 /year. Industry and NRC initiatives to enhance safety (e.g., initiatives to enhance FLEX strategies to mitigate internal as well as external events could reduce this likelihood further).

(2) Statements based on PRA results should not be interpreted as predictions. Rather they are statement that present the state-of-knowledge that recognizes the random nature of events and conditions that influence outcomes.

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• NRC staff believes that most NEI proposals are reasonable, in that they can be pursued, with appropriate checks and balances, without impacting enterprise risk (i.e., actual increases to CDF).

• PRA Policy 1995: Section III (A) contains the following: For the purpose of implementation of the safety goals, subsidiary numerical values on core damage frequency and containment performance have been established..

• Industry estimates of QHO margins are highly plant-specific and site-specific. Therefore, licensees who possess, plant-specific Level 3 PRAs, even if they are simplified, will provide greater insights on how QHO Margins can be translated to plant-specific Regulatory Margins.

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• AEA provides the NRC with authority to regulate its licensees or applicant for the purpose of avoiding or mitigating damages to offsite property resulting from a release of radionuclides from an NRC-licensed facility during or following a severe accident or other event at a facility.

• Therefore, in executing NEI proposals, staff should consider the entirety of NRC responsibilities, rules, and policies (e.g. potential implications on 10 CFR 51 Environmental Protection Regulations for Domestic Licensing and Related Regulatory Functions).

• NRCs responsibilities to consider environmental impacts appear in regulatory framework related Early Site Permits, License Renewal (e.g., GEIS, SAMA), and Regulatory Analysis (NUREG\BR-0058).

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• Expert panel will explore areas that are not already identified by the NEI letter where QHO Margins may be used to reduce undue burdens, without adversely affecting safety.

• Process\Program owners will hold follow-up public meetings on specific NEI proposals on an as-needed basis.

• Expert panel will advise Process\Program Owners on how to appropriately incorporate insights from QHO Margins to various processes and programs.

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• How can NRC incorporate insights from QHO Margins to NRR & Regional RIDM activities?

• How\who should communicate insights from QHO margins with members of the general public?

• Why did we use 1x10-7/year as the threshold for NFPA 805 (self-approved changes on cumulative risk)? Are there other measures in place, and considerations on QHO margin that should prompt NRC to re-consider this threshold?

• With respect to GREEN\WHITE thresholds, what are the implications on Enterprise Risk in light of the fact that SDPs are have a focus on risk already incurred?

• In LIC-504, do we need the LERF threshold of 1x10-4/year in addition to Defense-in-Depth & Safety Margins?

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Acronyms & Definitions of Terms for the Purpose of this Presentation Only

• AEA: Atomic Energy Authority Act (1954) as

• SOARCA: State-of-the-Art Reactor amended Consequences Analysis Study

• CCFP: Conditional Containment Failure DEFINITIONS Probability.

• Enterprise Risk: Quantifiable and non-

• CDF: Core Damage frequency quantifiable risk to the members of the

• EDO: Executive Director of Operations public (including publics risk tolerance to

• EPRI: Electric Power Research Institute nuclear related events), nuclear power enterprise, and the regulator due to a

• GEIS: Generic Environmental Impact potential core-damage event.

Assessment Statement

• Numerical Margin: The ratio between the

• LERF: Large Early Release Frequency subsidiary safety goal and the numerical

• LRF: Large Release Frequency value of risk (plant-specific LERF\CDF

• MOU: Memorandum of Understanding frequency x conditional probability of

• NEI: Nuclear Energy Institute early\latent fatality)

• NEPA: National Environmental Policy Act of

• Regulatory Margin: Magnitude to margins 1969 as amended between QHOs and the subsidiary goals that

• NRO: Office of New Reactors can be used to provided regulatory relief.

• NRR: Office of Nuclear Reactor Regulations

• NSIR: Office of Nuclear Security and Incidence Response

• QHO: Quantitative Health Objectives 16