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{{#Wiki_filter:Overview of Recent Codes and Standards Initiatives Moderator: Ronaldo Jenkins, Senior Project Manager, RES/DE/RGPMB Panelists/Speakers:
Donald Eggett (ANS) and Thomas Vogan (ASME)
Mark Richter (NEI)
Thomas Basso (NEI)
David Rudland (NRC)
Sheila Ray (NRC) 1
 
ANS/ASME Nuclear Standards Collaborative to Support Advanced Reactor Standards Needs NRC Standards Forum September 15, 2021 Donald R. Eggett Chair, ANS Standards Board Thomas J. Vogan Chair, Board on Nuclear Codes & Standards 2
 
===
Background===
Over the past few years, multiple reports have been issued and workshops held identifying standards needs for the advanced reactor community. Some of these include:
NEI 19-03 (Rev. 1), Advanced Reactor Codes and Standards Needs Assessment (March 2020)
ANS/NEI Advanced Reactor Codes and Standards Workshop (June 2020)
NRC Standards Forum emphasizing the need for better industry coordination (October 2020)
ASME High-Temperature Reactor Workshop (November 2020)
ANS Special Report Setting the Right Bar: How Consensus Standards Help Advanced Reactor Development (November 2019)
ANS/NRC Workshop to Develop a Strategic Vision for Advanced Reactor Standards (May 2018)
NRC Standards Forum on advanced reactors (September 2017)
ORNL/SR-2017/520, Assessment of Applicability of Standards Endorsed by Regulatory Guides to Sodium Fast Reactors (September 2017) 3
 
ANS/ASME Joint Nuclear Standards Collaborative Proposal ANS and ASME approved a proposal to jointly create a Nuclear Standards Collaborativea centralized industry led teamto ensure there is coordination and collaboration among standards development organizations (SDOs) to support the reactor designers, regulators, and other interested stakeholders to develop industry standards and/or guidelines in support of the designers advanced reactor designs.
This proposal parallels the focus of NRCs Forums:
aims to identify standards needs for the nuclear industry that are not currently being addressed by standards development organizations (SDOs) such as ASTM, ASME, ACI, ANS, IEEE, etc.
4
 
Focus The primary focus is on the integration and harmonization among all SDOs to support advanced reactor designers on the needs for developing such standards. Although the focus will be on advanced reactors, nonreactor nuclear facilities and current operating reactors may be given some consideration relative to their prioritized needs for consensus standards or industry guidelines.
5
 
Objectives Develop appropriate interrogatories, agendas, and other actions necessary to facilitate strategies and action plans that support the development of codes, standards, and other guidance that foster licensing, design, construction, and operation of advanced reactors. Specific actions include:
* Establish a list of advanced reactor needs using existing industry resources.
* Solicit additional standards needed from Nuclear Standards Collaborative members based on users prioritization.
* Compile a list of all standards currently being developed or revised and planned by SDOs and other stakeholders that will support advanced reactor initiatives.
6
 
Objectives (Contd)
* Develop a roadmap for advanced reactor standards needs across all participative SDOs based on above gathered information.
* Develop a recommended list of standards development priorities with associated targeted milestones from this roadmap.
Develop plans that are optimal in meeting the needs of developers/designers and stakeholder organizations. Formats may include virtual, face-to-face, or hybrid meetings and the structuring of semi-annual international forums with the mission of assembling stakeholders to obtain their input, comments, priorities, and challenges.
7
 
Organization The Nuclear Standards Collaborative will be governed by a steering committee. The ANS Standards Board Chair and the ASME Board on Nuclear Codes and Standards Chair have been assigned to lead the steering committee.
The membership of the steering committee will be comprised of a core group of industry members, working independently but with support of the full Nuclear Standards Collaborative, ANS and ASME leadership, and other stakeholders to drive achievement of timely needed prioritized standards.
ANS and ASME organization staffs will administratively support the Nuclear Standards Collaborative as needed.
8
 
Membership Makeup Full membership should include stakeholders from several constituencies, for example: SDOs (ANS, ASME, IEEE, ASTM, ASCE, ACI, etc.), NEI, NRC, DOE (incl. labs), EPRI, reactor developers/vendors (e.g., BWXT, Holtec, GEH, Westinghouse, NuScale, Kairos Power, Terra Power, X-Energy, etc.) architect engineers & constructors (e.g., Bechtel, Fluor, Sargent & Lundy, etc.), equipment and technical service suppliers, and owners/licensees.
Consideration will be given to including members from international organizations to gain their input and engagement.
9
 
Benefits to Participation Improve the identification and prioritization of needed standards through engagement, input and collaboration with industry stakeholders.
Determine which subject matter is best covered by standards vs.
other industry documents (guidelines).
Incentivize the harmonization of integrated codes & standards and collaborative SDO activities.
Expedite standards development through an industry process for funding and possible trial use.
Standards that better meet design goals, challenges and development timelines, and provide a path to efficient regulatory approval.
10
 
Benefits to Participation (Contd)
SDOs will realize benefits as follows:
* Utilize recommendations to ensure prioritization of timely needed standards to better plan for and allocate limited supporting resources.
* Ensure standards are relevant and support industry objectives.
* Increase participation of advanced reactor developers/vendors standards development.
* Develop more harmonized and better-quality standards through collaboration.
* Establish better collaboration with industry.
* Elevate awareness of OMB Circular A-119 and the National Technology Transfer and Advancement Act which establishes and clarifies U.S. policy to elevate and increase Federal reliance on voluntary consensus standards.
11
 
Milestones: Initial Phase (3-12 months)
ANS and ASME have appointed co-chairs to lead activities.
ANS and ASME to perform initial outreach and solicit participation from SDOs and key industry stakeholders to support the steering committee.
Establish the Nuclear Standards Collaborative committee membership; hold working meeting(s) to initiate the committee.
Establish the process to obtain needed financial support for the development of prioritized, near-term advanced reactor codes and standards.
12
 
Milestones: Initial Phase (3-12 months)
(Contd)
Determine Nuclear Standards Collaborative meeting structure (i.e., full committee meetings vs. steering committee plus industry workshops and periodicity).
Develop and issue full committee and steering committee charters, meeting frequencies, committee protocols, required logistics, decision making processes, etc.
13
 
Milestones: Near Term (1-2 yrs.)
Establish a list of the next advanced reactor needs.
Compile list of the next advanced reactor standards under development/revision or planned.
Develop roadmap of the next needed advanced reactor standards.
Prioritize list of the next needed advanced reactor standards.
Develop proposals for funding and resource development for the next highest priority standards.
14
 
Milestones: Long Term (3-5 yrs.)
Update list of needed advanced reactor standards.
Update list of standards under development/revision or planned.
Revise roadmap if needed for advanced reactor standards.
Update prioritized list of needed advanced reactor standards.
Develop additional proposals for funding development of advanced reactor priority standards.
15
 
Closing Remarks The Nuclear Standards Collaborative A multi-organization campaign dedicated to accelerating the development of industry consensus standards for advanced nuclear energy systems.
This approved proposal /initiative parallels the focus of NRCs Forums.
Guiding principle: Greater use of industry consensus standards in the NRC licensing and regulatory processes.
Main objectives:
: 1. Identify high priority consensus standards in need of development/updates.
: 2. Seek and obtain funding to accelerate development of high priority standards, using inter-SDO partnerships where applicable.
: 3. Ensure the timely adoption of new/updated standards into NRC regulations.
16
 
Closing Remarks (Contd)
The Nuclear Standards Collaborative Other Considerations:
: 1. An aggressive initiative requiring everyones engagement.
: 2. Harmonization of technical and management decision-making.
: 3. A living exercise i.e., roadmap can change at any time, if needed.
17
 
18 Recent Codes and Standards Initiatives NRC Standards Forum Mark Richter Nuclear Energy Institute September 15, 2021
  ©2021 Nuclear Energy Institute 19
 
Advanced Reactors Energy markets are evolving and carbon-free options drive forward planning Large reactor competitive position challenged-plants shutting down U.S. utilities evaluating different options for new nuclear Growing interest in conversion of coal power sites to nuclear Carbon-free energy portfolios not possible without nuclear Continued strong support in Congress 20                ©2021 Nuclear Energy Institute
 
Advanced Reactor Momentum
* Over 60 new technologies under development for numerous markets
* Strong bipartisan support in Congress
* Tangible movement to multiple demonstrations in 2020s
  - DOE funding 12 different designs, >$5B over 7 years
* Federal and state policies evolving in right direction
* U.S. utilities evaluating advanced reactor nuclear energy in their resource plans NRC must enable innovation so that nuclear can play a key role in carbon reduction 21                      ©2021 Nuclear Energy Institute
 
Advanced Nuclear Versatility Spectrum of Sizes/Options            Variety of Outputs    Multitude of Uses Micro      Mini          Small                            Homes      Businesses (Few MW)  (10s of MW)  (100s of MW)
Electricity H2          Vehicles  Rail    Shipping Hydrogen Steel  Water Process Large    (1,000+ MW)                Heat      Concrete            Factories 22                    ©2021 Nuclear Energy Institute
 
Types of Advanced Reactors Range of sizes and features to meet diverse market needs High Temp Micro Reactors          LWR SMRs Gas Reactors
(< 20MW)              <300MW                          Liquid Metal Reactors        Molten Salt Reactors TerraPower Natrium (shown)
Several in development Oklo (shown)        NuScale (shown)                                                    Terrestrial (shown)
Approximately a dozen in    GEH X-300      X-energy (shown)                              Several in development development        Holtec SMR-160 Several in development Non-Water Cooled 23 Most <300MW, some as large as 1,000 MW
                                                                                      &#xa9;2021 Nuclear Energy Institute
 
NRC Applications and Pre-Application
* NuScale - Light-water SMR
* Oklo Aurora - micro-reactor
* GEH BWRX-300 - Light-water SMR
* General Atomics EM2 - gas cooled fast reactor
* Holtec SMR-160 - Light-water SMR
* Kairos Power - salt cooled with TRISO fuel
* Terrestrial Energy - molten salt reactor
* TerraPower - Natrium
* TerraPower - molten chloride fast reactor
* Westinghouse - micro-reactor
* X-energy XE-100 - high-temperature gas reactor Information above from NRC as of Aug 16, 2021  24 &#xa9;2021 Nuclear Energy Institute
 
Regulatory Priorities Streamlining the regulatory process
* Timely and efficient NRC safety reviews
* Environmental reviews Resolving key technical and policy issues
* Emergency planning zones
* Physical security
* Population criteria for siting Modern and efficient regulatory framework
* Risk-informed licensing approaches
* Technology-inclusive rulemaking 25      &#xa9;2021 Nuclear Energy Institute
 
NEI Activities 26        &#xa9;2021 Nuclear Energy Institute
 
ASME/ANS Joint Proposal to Create a U.S. Nuclear Standards Advisory Committee
 
===Background===
* Advanced reactor (AR) developers moving forward rapidly with initial licensing and design activities
* Recognition by SDOs, NEI, AR Developers, NRC and DOE that prioritization and coordination of C&S development is necessary to support timely development and deployment of ARs Actions
* Compile list of AR needs using resources such as NEI 19-03, independent ANS assessment and forums and workshops
* Develop roadmap for AR standards needs from SDOs 27                &#xa9;2021 Nuclear Energy Institute
 
Quality Assurance Guidance for 10 CFR Part 53 Plants licensed under Part 53 able to purchase components under a commercial quality program without commercial grade dedication New approaches to QA that are not anchored by Part 50 and App B Prefer use of ISO 9001 versus ISO 19443, the nuclear specific version of ISO 9001 - may limit the number of possible suppliers QA requirement related to providing reasonable assurance of adequate protection. Adequate protection equivalent to safety-related in Part 50 Allows more flexibility in how ISO-9001 can meet the requirement Current action is identifying deltas between Appendix B and ISO 9001, and special requirements needed to buttress 9001 Potential applicability to operating fleet, as Part 53 continues development 28                    &#xa9;2021 Nuclear Energy Institute
 
Questions?
29
 
NEI Codes and Standards Task Force Thomas Basso Sr. Director Eng & Risk September 15, 2021
&#xa9;2021 Nuclear Energy Institute 30
 
NEI Codes and Standards Task Force Mission Ensure licensee and regulatory activities implemented through codes and standards committees are consistent with nuclear industry policies and interests, and consistent with the Principles of Good Regulation.
31 &#xa9;2021 Nuclear Energy Institute
 
Codes & Standards Task Force Scope Advocate for utilities representation on code and standards committees to improve industry engagement.
Engage utility representatives on changes to codes and standards by ensuring the best interest of the industry is known and understood.
Facilitate member collaboration and support on code and standards activities, review of regulatory changes, and application of risk-informed approaches.
Communicate proposed or approved code and regulation changes that significantly benefit or impact the industry to garner requisite support or challenge.
Primary task force interface with NRC on code items including emergent issues from inspections to ensure industry alignment.
Promote retention and understanding C&S knowledge.
32                        &#xa9;2021 Nuclear Energy Institute
 
NEI Codes and Standards Task Force Update ASME Section XI Regulatory Initiatives ASME ASME              Section OM                III 33            &#xa9;2021 Nuclear Energy Institute
 
ASME Section XI Code Activities Code Case to Extend In-service Inspection Interval to 12 Years TG Repair/Replacement Optimization
* Clarification on Repair/Replacement Plans Options
* Code Case on Repairs of Routine Nature
* Pressure Testing Alternative Cast Austinetic Stainless Steel UT Examination Requirements (CC N-824) 34                      &#xa9;2021 Nuclear Energy Institute
 
ASME Section III Code Activities Task Group on Section III/XI Interface Code Case on Alternate Requirements Regulatory Strategy Support
* Risk-informed Code Initiative Alignment 35  &#xa9;2021 Nuclear Energy Institute
 
ASME OM Code Activities Valve Supplemental Position Indication Testing
* Code Case OMN-28 Relief Request and Implementation
* Code Case on Alternative to ISTC-3700 Valve Manual Exercising Frequency Extension Exploring Potential Risk-informed Applications OM Subcommittee on New Reactors 36              &#xa9;2021 Nuclear Energy Institute
 
Regulatory Initiatives Reg Guides 1.147, 1.84, and 1.192 Review and Comment 10 CFR 50.55a Proposed Rule Review and Comment Extension of 10 CFR 50.55a Requirements to Update ISI/IST Programs
* SECY-21-0029 Commission Review
* Pilot Exemption Request RIS (in process) on Treatment of Operational Leakage 37                    &#xa9;2021 Nuclear Energy Institute
 
Questions 38 &#xa9;2021 Nuclear Energy Institute
 
NRC Standards Forum Rulemaking Plan on Revision of Inservice Testing and Inservice Inspection Program Update Frequencies Required in 10 CFR 50.55a September 15, 2021 39
 
NRC Staff
* Presenters:
  - David Rudland, NRR: Technical Lead
* Working Group Members:
  - Sheldon Clark, OGC: Attorney
  - Victoria Huckabay, NMSS: Rulemaking PM
  - Thomas Scarbrough, NRR: Technical Staff
  - Ian Tseng, NRR: Technical Staff
  - Mark Yoo, RES: Technical Staff 40
 
Agenda
* Purpose of the SECY Paper
* Rulemaking Impact
* Background
* Regulatory Issue
* Proposed Rulemaking
  - Scope
  - Schedule
* Staffs Recommendation
* ACRS Recommendation 41
 
Purpose of the SECY Paper
* Request Commission approval to initiate a rulemaking to amend 10 CFR Part 50.55a to extend the interval of inservice testing (IST) and inservice inspection (ISI) program updates.
  - Current 120-month update interval would be extended to 240 months, after updating to the most recent Codes and addenda incorporated by reference in&sect;50.55a.
  - Requests Commission to delegate signature authority to the EDO.
* Request Commission approval and delegations for a potential subsequent rulemaking to extend update interval from 240 months to 288 months.
42
 
Rulemaking Impact What will change?
* The frequency licensees are required to update their IST/ISI programs to use the most recent version of the ASME Code incorporated by reference in 10 CFR 50.55a, after updating to 2019/2020 or later editions of ASME Codes o IST/ISI programs include processes and procedures for plants to conform to ASME OM Code and BPV Section XI requirements What wont change?
* Level of safety afforded by the currently mandated Code Editions
* Required inspections, testing, analysis, and reporting
* NRC ability to impose requirements for emergent safety issues
* Licensee ability to update IST/ISI programs early (i.e., prior to required update) 43
 
===Background===
* Effort began as an NRR EMBARK Venture Studios (EVS) project (ML20153A752)
* Identified 3 recommendations to pursue:
: 1. Relax the requirement to update IST and ISI programs every 120 months following the next update to the 2019/2020 ASME Codes.
: 2. Institute direct final rules for unconditionally approved code cases.
: 3. Decrease frequency of ASME Code editions rulemakings.
* SECY requests rulemaking for Recommendation 1.
  - Would provide improved flexibility and burden reduction to licensees while maintaining safety
  - Recommendation is outside the scope of delegation for routine ASME Code updates and requires Commission approval.
* Staff will implement Recommendations 2 and 3.
  - Recommendations are within the staffs delegated authority for rulemaking.
44
 
Regulatory Issue
* 10 CFR 50.55a requires that every 120 months licensees must update IST and ISI programs to the latest edition and addenda of the ASME OM and BPV Section XI Codes incorporated by reference within 18 months of the start of 120-month interval.
  - Major modifications to ASME Codes typically take more than a decade.
  - Discovery of new degradation mechanisms has slowed greatly in recent years.
* Discovery of new degradation mechanisms or performance issues are typically first addressed by ASME using Code Cases before incorporating into an edition.
  - NRC would continue reviewing new or revised Code Cases for incorporation into the regulations on a biannual basis.
  - Extending the IST and ISI program update interval does not inhibit NRCs ability to specify requirements if required for safety.
45
 
Rulemaking Scope
* The proposed rulemaking would double the time between updates for the licensees Codes of record for IST and ISI programs from 120 months to 240 months for licensees that update to the most recent edition and addenda of the ASME OM Code and BPV Code, Section XI, incorporated by reference
  - Current 120-month ISI program update interval corresponds to the current 10-year ISI interval in ASME BPV Code, Section XI.
* Potential future rulemaking to extend the update requirement from 240 months to 288 months.
  - ASME is considering extending current ISI interval to 12 years.
  - Staff is not currently proposing to conduct this rulemaking and ASME has not yet extended the interval.
46
 
Rulemaking Schedule
* Deliver proposed rule to NRR OD - 12 months after receipt of Commissions SRM.
* Deliver final rule to NRR OD - 12 months after comment period for proposed rule closes.
* This rulemaking may be combined with the next routine ASME Code Edition or Code Case rulemaking.
47
 
Staffs Recommendation
* Staff recommends that the Commission:
  - Approve initiation of a rulemaking to extend the interval for the IST and ISI program updates from 120 months to 240 months, after updating to the most recent Codes incorporated by reference in &sect; 50.55a.
  - Approve a future rulemaking to extend the interval from 240 months to 288 months if ASME increases the ISI interval to 12 years.
  - Approve the staffs request not to develop a regulatory basis for these rulemakings.
  - Delegate signature authority for these actions to the EDO.
48
 
ACRS Recommendation
* Staff briefed the ACRS on July 7, 2021
* By {{letter dated|date=July 26, 2021|text=letter dated July 26, 2021}}, the ACRS:
  - Concurred with the staffs recommendation to extend the IST/ISI update interval from 120 months to 240 months, with a potential future extension to 288 months.
  - Noted the minimal impact on safety once licensees have implemented recent ASME Code editions (2019/2020 or later).
  - Recommended that the staff move expeditiously to implement the two additional recommendations in the EMBARK Venture Studio report.
49
 
QUESTIONS?
50
 
Regulatory Guidance Framework for IEEE Electrical Standards Sheila Ray, P.E.
NRR/DEX/EEEB September 15, 2021 51
 
Standards Association (SA)
Standards Board Power & Energy Society (PES)
Nuclear Power Engineering      Energy Storage &      Power System    Insulated Committee (NPEC)          Stationary Battery      Relaying &  Conductors Committee (ESSB)          Control  Committee (ICC)
Committee SC2  SC3    SC4    SC5    SC6                              (PSRC) 52
 
Status of Significant Regulatory Guides
* Environmental Qualification: RG 1.89
  - To endorse IEC/IEEE Std. 60780-323-2016
  - Received public comments
  - Addressing public comments currently
  - Publication expected first quarter 2022
* Environmental Qualification of Connection Assemblies:
RG 1.156
  - To endorse IEEE Std. 572-2019
  - Draft for public comment expected before end of Dec 2021
* Environmental Qualification of Actuators: RG 1.73
  - To endorse IEEE Std. 382-2019
  - Draft in development 53
 
Status of Significant Regulatory Guides
* Onsite Emergency AC Power Sources: RG 1.9
  - To endorse IEEE Stds. 387-2017 (EDG) and 2420-2019 (CTG)
  - Adds Design and Testing Considerations for AC Power sources other than EDGs and CTGs
  - Received & addressed public comments
  - ACRS meetings held in July 2021
  - Public meeting conducted in Aug 2021
  - Republish revised draft guide for public comment by end of Dec. 2021
* Protection of Class 1E Power Systems: new RG
  - To endorse IEEE Std. 741-2021/2022 (upcoming revision)
  - Expected to have draft out for public comment mid-2022 54
 
Status of Significant Regulatory Guides
* Assessing, Monitoring, and Mitigating Aging Effects: new RG
  - To endorse IEEE Std. 1205-2014
  - Expected to have draft out for public comment by the end of Dec. 2021
* Risk-Informed Categorization of Electrical and Electronic Equipment
  - To endorse IEEE Std. 1819-2016
  - Determining path forward of endorsing in a new RG or an existing RG 1.201 on categorization of SSCs 55
 
Status of Significant Regulatory Guides
* Qualification of battery chargers, inverters & UPS:
RG 1.210
  - To endorse IEEE Std. 650-2017
  - Draft in development
* Sizing lead-acid batteries: RG 1.212
  - To endorse IEEE Std. 485-2020
  - Draft in development
* Installation Design & Installation of Vented Lead-Acid Batteries: RG 1.128
  - To endorse IEEE Std. 484-2019
  - Draft in development 56
 
Acronyms AC - Alternating Current ACRS - Advisory Committee on Reactor Safeguards IEC - International Electrotechnical Commission IEEE - Institute of Electrical and Electronics Engineers RG - Regulatory Guide SSC - system, structure, and component Std. - Standard UPS - uninterruptible power supply 57
 
Questions?
58
 
Vision & Strategy of IEEE Electrical Standards - ROADMAP
* Focus on the agency mission and regulatory requirements when determining a RG is needed or requires updating.
* Represents a technically viable approach for allowing licensees, manufacturers, vendors, and NRC staff to effectively navigate and use regulatory guidance.
* Prevents the ad hoc approach of generating additional regulatory guidance documents.
* Combine related standards on a technical topic into one RG.
    - Reduced staff hours as compared to updating and maintaining several RGs
    - Reduced costs as compared to updating and maintaining several RGs
    - Technical Efficacy - Generates efficiencies such that industry/users have a one-stop shop on NRC positions on a particular topic
    - Process Efficiency - review process is streamlined for one RG on a technical topic (i.e. one public comment period on a technical topic)
    - Updates to a combined RG endorsing several standards would only be considered when there are significant changes that impact the staffs position or provide additional clarifications
    - Examples:
* RG. 1.100 (seismic qualification) includes both 60980-344 & C37.98
* One RG on the design of DC systems to include 946 (design), 1189 (selection of batteries),
1375 (protection), & 2405 (battery chargers), all of which are critical to a DC system design.
* For standards in the early stages of development, NRC action will be determined once early drafts are available to ascertain how the standard fulfills the agencys mission and provides methods to meet regulatory requirements.
59}}

Revision as of 13:09, 11 October 2021

Session 1 - Overview of Recent Codes and Standards Initiatives
ML21256A297
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Issue date: 09/13/2021
From: Ronaldo Jenkins, Robert Roche-Rivera
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Text

Overview of Recent Codes and Standards Initiatives Moderator: Ronaldo Jenkins, Senior Project Manager, RES/DE/RGPMB Panelists/Speakers:

Donald Eggett (ANS) and Thomas Vogan (ASME)

Mark Richter (NEI)

Thomas Basso (NEI)

David Rudland (NRC)

Sheila Ray (NRC) 1

ANS/ASME Nuclear Standards Collaborative to Support Advanced Reactor Standards Needs NRC Standards Forum September 15, 2021 Donald R. Eggett Chair, ANS Standards Board Thomas J. Vogan Chair, Board on Nuclear Codes & Standards 2

=

Background===

Over the past few years, multiple reports have been issued and workshops held identifying standards needs for the advanced reactor community. Some of these include:

NEI 19-03 (Rev. 1), Advanced Reactor Codes and Standards Needs Assessment (March 2020)

ANS/NEI Advanced Reactor Codes and Standards Workshop (June 2020)

NRC Standards Forum emphasizing the need for better industry coordination (October 2020)

ASME High-Temperature Reactor Workshop (November 2020)

ANS Special Report Setting the Right Bar: How Consensus Standards Help Advanced Reactor Development (November 2019)

ANS/NRC Workshop to Develop a Strategic Vision for Advanced Reactor Standards (May 2018)

NRC Standards Forum on advanced reactors (September 2017)

ORNL/SR-2017/520, Assessment of Applicability of Standards Endorsed by Regulatory Guides to Sodium Fast Reactors (September 2017) 3

ANS/ASME Joint Nuclear Standards Collaborative Proposal ANS and ASME approved a proposal to jointly create a Nuclear Standards Collaborativea centralized industry led teamto ensure there is coordination and collaboration among standards development organizations (SDOs) to support the reactor designers, regulators, and other interested stakeholders to develop industry standards and/or guidelines in support of the designers advanced reactor designs.

This proposal parallels the focus of NRCs Forums:

aims to identify standards needs for the nuclear industry that are not currently being addressed by standards development organizations (SDOs) such as ASTM, ASME, ACI, ANS, IEEE, etc.

4

Focus The primary focus is on the integration and harmonization among all SDOs to support advanced reactor designers on the needs for developing such standards. Although the focus will be on advanced reactors, nonreactor nuclear facilities and current operating reactors may be given some consideration relative to their prioritized needs for consensus standards or industry guidelines.

5

Objectives Develop appropriate interrogatories, agendas, and other actions necessary to facilitate strategies and action plans that support the development of codes, standards, and other guidance that foster licensing, design, construction, and operation of advanced reactors. Specific actions include:

  • Establish a list of advanced reactor needs using existing industry resources.
  • Solicit additional standards needed from Nuclear Standards Collaborative members based on users prioritization.
  • Compile a list of all standards currently being developed or revised and planned by SDOs and other stakeholders that will support advanced reactor initiatives.

6

Objectives (Contd)

  • Develop a roadmap for advanced reactor standards needs across all participative SDOs based on above gathered information.
  • Develop a recommended list of standards development priorities with associated targeted milestones from this roadmap.

Develop plans that are optimal in meeting the needs of developers/designers and stakeholder organizations. Formats may include virtual, face-to-face, or hybrid meetings and the structuring of semi-annual international forums with the mission of assembling stakeholders to obtain their input, comments, priorities, and challenges.

7

Organization The Nuclear Standards Collaborative will be governed by a steering committee. The ANS Standards Board Chair and the ASME Board on Nuclear Codes and Standards Chair have been assigned to lead the steering committee.

The membership of the steering committee will be comprised of a core group of industry members, working independently but with support of the full Nuclear Standards Collaborative, ANS and ASME leadership, and other stakeholders to drive achievement of timely needed prioritized standards.

ANS and ASME organization staffs will administratively support the Nuclear Standards Collaborative as needed.

8

Membership Makeup Full membership should include stakeholders from several constituencies, for example: SDOs (ANS, ASME, IEEE, ASTM, ASCE, ACI, etc.), NEI, NRC, DOE (incl. labs), EPRI, reactor developers/vendors (e.g., BWXT, Holtec, GEH, Westinghouse, NuScale, Kairos Power, Terra Power, X-Energy, etc.) architect engineers & constructors (e.g., Bechtel, Fluor, Sargent & Lundy, etc.), equipment and technical service suppliers, and owners/licensees.

Consideration will be given to including members from international organizations to gain their input and engagement.

9

Benefits to Participation Improve the identification and prioritization of needed standards through engagement, input and collaboration with industry stakeholders.

Determine which subject matter is best covered by standards vs.

other industry documents (guidelines).

Incentivize the harmonization of integrated codes & standards and collaborative SDO activities.

Expedite standards development through an industry process for funding and possible trial use.

Standards that better meet design goals, challenges and development timelines, and provide a path to efficient regulatory approval.

10

Benefits to Participation (Contd)

SDOs will realize benefits as follows:

  • Utilize recommendations to ensure prioritization of timely needed standards to better plan for and allocate limited supporting resources.
  • Ensure standards are relevant and support industry objectives.
  • Increase participation of advanced reactor developers/vendors standards development.
  • Develop more harmonized and better-quality standards through collaboration.
  • Establish better collaboration with industry.
  • Elevate awareness of OMB Circular A-119 and the National Technology Transfer and Advancement Act which establishes and clarifies U.S. policy to elevate and increase Federal reliance on voluntary consensus standards.

11

Milestones: Initial Phase (3-12 months)

ANS and ASME have appointed co-chairs to lead activities.

ANS and ASME to perform initial outreach and solicit participation from SDOs and key industry stakeholders to support the steering committee.

Establish the Nuclear Standards Collaborative committee membership; hold working meeting(s) to initiate the committee.

Establish the process to obtain needed financial support for the development of prioritized, near-term advanced reactor codes and standards.

12

Milestones: Initial Phase (3-12 months)

(Contd)

Determine Nuclear Standards Collaborative meeting structure (i.e., full committee meetings vs. steering committee plus industry workshops and periodicity).

Develop and issue full committee and steering committee charters, meeting frequencies, committee protocols, required logistics, decision making processes, etc.

13

Milestones: Near Term (1-2 yrs.)

Establish a list of the next advanced reactor needs.

Compile list of the next advanced reactor standards under development/revision or planned.

Develop roadmap of the next needed advanced reactor standards.

Prioritize list of the next needed advanced reactor standards.

Develop proposals for funding and resource development for the next highest priority standards.

14

Milestones: Long Term (3-5 yrs.)

Update list of needed advanced reactor standards.

Update list of standards under development/revision or planned.

Revise roadmap if needed for advanced reactor standards.

Update prioritized list of needed advanced reactor standards.

Develop additional proposals for funding development of advanced reactor priority standards.

15

Closing Remarks The Nuclear Standards Collaborative A multi-organization campaign dedicated to accelerating the development of industry consensus standards for advanced nuclear energy systems.

This approved proposal /initiative parallels the focus of NRCs Forums.

Guiding principle: Greater use of industry consensus standards in the NRC licensing and regulatory processes.

Main objectives:

1. Identify high priority consensus standards in need of development/updates.
2. Seek and obtain funding to accelerate development of high priority standards, using inter-SDO partnerships where applicable.
3. Ensure the timely adoption of new/updated standards into NRC regulations.

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Closing Remarks (Contd)

The Nuclear Standards Collaborative Other Considerations:

1. An aggressive initiative requiring everyones engagement.
2. Harmonization of technical and management decision-making.
3. A living exercise i.e., roadmap can change at any time, if needed.

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18 Recent Codes and Standards Initiatives NRC Standards Forum Mark Richter Nuclear Energy Institute September 15, 2021

©2021 Nuclear Energy Institute 19

Advanced Reactors Energy markets are evolving and carbon-free options drive forward planning Large reactor competitive position challenged-plants shutting down U.S. utilities evaluating different options for new nuclear Growing interest in conversion of coal power sites to nuclear Carbon-free energy portfolios not possible without nuclear Continued strong support in Congress 20 ©2021 Nuclear Energy Institute

Advanced Reactor Momentum

  • Over 60 new technologies under development for numerous markets
  • Strong bipartisan support in Congress
  • Tangible movement to multiple demonstrations in 2020s

- DOE funding 12 different designs, >$5B over 7 years

  • Federal and state policies evolving in right direction
  • U.S. utilities evaluating advanced reactor nuclear energy in their resource plans NRC must enable innovation so that nuclear can play a key role in carbon reduction 21 ©2021 Nuclear Energy Institute

Advanced Nuclear Versatility Spectrum of Sizes/Options Variety of Outputs Multitude of Uses Micro Mini Small Homes Businesses (Few MW) (10s of MW) (100s of MW)

Electricity H2 Vehicles Rail Shipping Hydrogen Steel Water Process Large (1,000+ MW) Heat Concrete Factories 22 ©2021 Nuclear Energy Institute

Types of Advanced Reactors Range of sizes and features to meet diverse market needs High Temp Micro Reactors LWR SMRs Gas Reactors

(< 20MW) <300MW Liquid Metal Reactors Molten Salt Reactors TerraPower Natrium (shown)

Several in development Oklo (shown) NuScale (shown) Terrestrial (shown)

Approximately a dozen in GEH X-300 X-energy (shown) Several in development development Holtec SMR-160 Several in development Non-Water Cooled 23 Most <300MW, some as large as 1,000 MW

©2021 Nuclear Energy Institute

NRC Applications and Pre-Application

  • NuScale - Light-water SMR
  • Oklo Aurora - micro-reactor
  • GEH BWRX-300 - Light-water SMR
  • General Atomics EM2 - gas cooled fast reactor
  • Holtec SMR-160 - Light-water SMR
  • Kairos Power - salt cooled with TRISO fuel
  • Terrestrial Energy - molten salt reactor
  • TerraPower - Natrium
  • TerraPower - molten chloride fast reactor
  • Westinghouse - micro-reactor
  • X-energy XE-100 - high-temperature gas reactor Information above from NRC as of Aug 16, 2021 24 ©2021 Nuclear Energy Institute

Regulatory Priorities Streamlining the regulatory process

  • Timely and efficient NRC safety reviews
  • Environmental reviews Resolving key technical and policy issues
  • Emergency planning zones
  • Physical security
  • Population criteria for siting Modern and efficient regulatory framework
  • Risk-informed licensing approaches
  • Technology-inclusive rulemaking 25 ©2021 Nuclear Energy Institute

NEI Activities 26 ©2021 Nuclear Energy Institute

ASME/ANS Joint Proposal to Create a U.S. Nuclear Standards Advisory Committee

Background

  • Advanced reactor (AR) developers moving forward rapidly with initial licensing and design activities
  • Recognition by SDOs, NEI, AR Developers, NRC and DOE that prioritization and coordination of C&S development is necessary to support timely development and deployment of ARs Actions
  • Compile list of AR needs using resources such as NEI 19-03, independent ANS assessment and forums and workshops
  • Develop roadmap for AR standards needs from SDOs 27 ©2021 Nuclear Energy Institute

Quality Assurance Guidance for 10 CFR Part 53 Plants licensed under Part 53 able to purchase components under a commercial quality program without commercial grade dedication New approaches to QA that are not anchored by Part 50 and App B Prefer use of ISO 9001 versus ISO 19443, the nuclear specific version of ISO 9001 - may limit the number of possible suppliers QA requirement related to providing reasonable assurance of adequate protection. Adequate protection equivalent to safety-related in Part 50 Allows more flexibility in how ISO-9001 can meet the requirement Current action is identifying deltas between Appendix B and ISO 9001, and special requirements needed to buttress 9001 Potential applicability to operating fleet, as Part 53 continues development 28 ©2021 Nuclear Energy Institute

Questions?

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NEI Codes and Standards Task Force Thomas Basso Sr. Director Eng & Risk September 15, 2021

©2021 Nuclear Energy Institute 30

NEI Codes and Standards Task Force Mission Ensure licensee and regulatory activities implemented through codes and standards committees are consistent with nuclear industry policies and interests, and consistent with the Principles of Good Regulation.

31 ©2021 Nuclear Energy Institute

Codes & Standards Task Force Scope Advocate for utilities representation on code and standards committees to improve industry engagement.

Engage utility representatives on changes to codes and standards by ensuring the best interest of the industry is known and understood.

Facilitate member collaboration and support on code and standards activities, review of regulatory changes, and application of risk-informed approaches.

Communicate proposed or approved code and regulation changes that significantly benefit or impact the industry to garner requisite support or challenge.

Primary task force interface with NRC on code items including emergent issues from inspections to ensure industry alignment.

Promote retention and understanding C&S knowledge.

32 ©2021 Nuclear Energy Institute

NEI Codes and Standards Task Force Update ASME Section XI Regulatory Initiatives ASME ASME Section OM III 33 ©2021 Nuclear Energy Institute

ASME Section XI Code Activities Code Case to Extend In-service Inspection Interval to 12 Years TG Repair/Replacement Optimization

  • Clarification on Repair/Replacement Plans Options
  • Code Case on Repairs of Routine Nature
  • Pressure Testing Alternative Cast Austinetic Stainless Steel UT Examination Requirements (CC N-824) 34 ©2021 Nuclear Energy Institute

ASME Section III Code Activities Task Group on Section III/XI Interface Code Case on Alternate Requirements Regulatory Strategy Support

  • Risk-informed Code Initiative Alignment 35 ©2021 Nuclear Energy Institute

ASME OM Code Activities Valve Supplemental Position Indication Testing

  • Code Case on Alternative to ISTC-3700 Valve Manual Exercising Frequency Extension Exploring Potential Risk-informed Applications OM Subcommittee on New Reactors 36 ©2021 Nuclear Energy Institute

Regulatory Initiatives Reg Guides 1.147, 1.84, and 1.192 Review and Comment 10 CFR 50.55a Proposed Rule Review and Comment Extension of 10 CFR 50.55a Requirements to Update ISI/IST Programs

Questions 38 ©2021 Nuclear Energy Institute

NRC Standards Forum Rulemaking Plan on Revision of Inservice Testing and Inservice Inspection Program Update Frequencies Required in 10 CFR 50.55a September 15, 2021 39

NRC Staff

  • Presenters:

- David Rudland, NRR: Technical Lead

  • Working Group Members:

- Sheldon Clark, OGC: Attorney

- Victoria Huckabay, NMSS: Rulemaking PM

- Thomas Scarbrough, NRR: Technical Staff

- Ian Tseng, NRR: Technical Staff

- Mark Yoo, RES: Technical Staff 40

Agenda

  • Purpose of the SECY Paper
  • Rulemaking Impact
  • Background
  • Regulatory Issue
  • Proposed Rulemaking

- Scope

- Schedule

  • Staffs Recommendation
  • ACRS Recommendation 41

Purpose of the SECY Paper

  • Request Commission approval to initiate a rulemaking to amend 10 CFR Part 50.55a to extend the interval of inservice testing (IST) and inservice inspection (ISI) program updates.

- Current 120-month update interval would be extended to 240 months, after updating to the most recent Codes and addenda incorporated by reference in§50.55a.

- Requests Commission to delegate signature authority to the EDO.

  • Request Commission approval and delegations for a potential subsequent rulemaking to extend update interval from 240 months to 288 months.

42

Rulemaking Impact What will change?

  • The frequency licensees are required to update their IST/ISI programs to use the most recent version of the ASME Code incorporated by reference in 10 CFR 50.55a, after updating to 2019/2020 or later editions of ASME Codes o IST/ISI programs include processes and procedures for plants to conform to ASME OM Code and BPV Section XI requirements What wont change?
  • Level of safety afforded by the currently mandated Code Editions
  • Required inspections, testing, analysis, and reporting
  • NRC ability to impose requirements for emergent safety issues
  • Licensee ability to update IST/ISI programs early (i.e., prior to required update) 43

Background

  • Effort began as an NRR EMBARK Venture Studios (EVS) project (ML20153A752)
  • Identified 3 recommendations to pursue:
1. Relax the requirement to update IST and ISI programs every 120 months following the next update to the 2019/2020 ASME Codes.
2. Institute direct final rules for unconditionally approved code cases.
3. Decrease frequency of ASME Code editions rulemakings.
  • SECY requests rulemaking for Recommendation 1.

- Would provide improved flexibility and burden reduction to licensees while maintaining safety

- Recommendation is outside the scope of delegation for routine ASME Code updates and requires Commission approval.

  • Staff will implement Recommendations 2 and 3.

- Recommendations are within the staffs delegated authority for rulemaking.

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Regulatory Issue

- Major modifications to ASME Codes typically take more than a decade.

- Discovery of new degradation mechanisms has slowed greatly in recent years.

  • Discovery of new degradation mechanisms or performance issues are typically first addressed by ASME using Code Cases before incorporating into an edition.

- NRC would continue reviewing new or revised Code Cases for incorporation into the regulations on a biannual basis.

- Extending the IST and ISI program update interval does not inhibit NRCs ability to specify requirements if required for safety.

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Rulemaking Scope

  • The proposed rulemaking would double the time between updates for the licensees Codes of record for IST and ISI programs from 120 months to 240 months for licensees that update to the most recent edition and addenda of the ASME OM Code and BPV Code,Section XI, incorporated by reference

- Current 120-month ISI program update interval corresponds to the current 10-year ISI interval in ASME BPV Code,Section XI.

  • Potential future rulemaking to extend the update requirement from 240 months to 288 months.

- ASME is considering extending current ISI interval to 12 years.

- Staff is not currently proposing to conduct this rulemaking and ASME has not yet extended the interval.

46

Rulemaking Schedule

  • Deliver proposed rule to NRR OD - 12 months after receipt of Commissions SRM.
  • Deliver final rule to NRR OD - 12 months after comment period for proposed rule closes.
  • This rulemaking may be combined with the next routine ASME Code Edition or Code Case rulemaking.

47

Staffs Recommendation

  • Staff recommends that the Commission:

- Approve initiation of a rulemaking to extend the interval for the IST and ISI program updates from 120 months to 240 months, after updating to the most recent Codes incorporated by reference in § 50.55a.

- Approve a future rulemaking to extend the interval from 240 months to 288 months if ASME increases the ISI interval to 12 years.

- Approve the staffs request not to develop a regulatory basis for these rulemakings.

- Delegate signature authority for these actions to the EDO.

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ACRS Recommendation

  • Staff briefed the ACRS on July 7, 2021
  • By letter dated July 26, 2021, the ACRS:

- Concurred with the staffs recommendation to extend the IST/ISI update interval from 120 months to 240 months, with a potential future extension to 288 months.

- Noted the minimal impact on safety once licensees have implemented recent ASME Code editions (2019/2020 or later).

- Recommended that the staff move expeditiously to implement the two additional recommendations in the EMBARK Venture Studio report.

49

QUESTIONS?

50

Regulatory Guidance Framework for IEEE Electrical Standards Sheila Ray, P.E.

NRR/DEX/EEEB September 15, 2021 51

Standards Association (SA)

Standards Board Power & Energy Society (PES)

Nuclear Power Engineering Energy Storage & Power System Insulated Committee (NPEC) Stationary Battery Relaying & Conductors Committee (ESSB) Control Committee (ICC)

Committee SC2 SC3 SC4 SC5 SC6 (PSRC) 52

Status of Significant Regulatory Guides

  • Environmental Qualification: RG 1.89

- To endorse IEC/IEEE Std. 60780-323-2016

- Received public comments

- Addressing public comments currently

- Publication expected first quarter 2022

  • Environmental Qualification of Connection Assemblies:

RG 1.156

- To endorse IEEE Std. 572-2019

- Draft for public comment expected before end of Dec 2021

  • Environmental Qualification of Actuators: RG 1.73

- To endorse IEEE Std. 382-2019

- Draft in development 53

Status of Significant Regulatory Guides

  • Onsite Emergency AC Power Sources: RG 1.9

- To endorse IEEE Stds. 387-2017 (EDG) and 2420-2019 (CTG)

- Adds Design and Testing Considerations for AC Power sources other than EDGs and CTGs

- Received & addressed public comments

- ACRS meetings held in July 2021

- Public meeting conducted in Aug 2021

- Republish revised draft guide for public comment by end of Dec. 2021

  • Protection of Class 1E Power Systems: new RG

- To endorse IEEE Std. 741-2021/2022 (upcoming revision)

- Expected to have draft out for public comment mid-2022 54

Status of Significant Regulatory Guides

  • Assessing, Monitoring, and Mitigating Aging Effects: new RG

- To endorse IEEE Std. 1205-2014

- Expected to have draft out for public comment by the end of Dec. 2021

  • Risk-Informed Categorization of Electrical and Electronic Equipment

- To endorse IEEE Std. 1819-2016

- Determining path forward of endorsing in a new RG or an existing RG 1.201 on categorization of SSCs 55

Status of Significant Regulatory Guides

  • Qualification of battery chargers, inverters & UPS:

RG 1.210

- To endorse IEEE Std. 650-2017

- Draft in development

- To endorse IEEE Std. 485-2020

- Draft in development

  • Installation Design & Installation of Vented Lead-Acid Batteries: RG 1.128

- To endorse IEEE Std. 484-2019

- Draft in development 56

Acronyms AC - Alternating Current ACRS - Advisory Committee on Reactor Safeguards IEC - International Electrotechnical Commission IEEE - Institute of Electrical and Electronics Engineers RG - Regulatory Guide SSC - system, structure, and component Std. - Standard UPS - uninterruptible power supply 57

Questions?

58

Vision & Strategy of IEEE Electrical Standards - ROADMAP

  • Focus on the agency mission and regulatory requirements when determining a RG is needed or requires updating.
  • Represents a technically viable approach for allowing licensees, manufacturers, vendors, and NRC staff to effectively navigate and use regulatory guidance.
  • Prevents the ad hoc approach of generating additional regulatory guidance documents.
  • Combine related standards on a technical topic into one RG.

- Reduced staff hours as compared to updating and maintaining several RGs

- Reduced costs as compared to updating and maintaining several RGs

- Technical Efficacy - Generates efficiencies such that industry/users have a one-stop shop on NRC positions on a particular topic

- Process Efficiency - review process is streamlined for one RG on a technical topic (i.e. one public comment period on a technical topic)

- Updates to a combined RG endorsing several standards would only be considered when there are significant changes that impact the staffs position or provide additional clarifications

- Examples:

  • RG. 1.100 (seismic qualification) includes both 60980-344 & C37.98
  • One RG on the design of DC systems to include 946 (design), 1189 (selection of batteries),

1375 (protection), & 2405 (battery chargers), all of which are critical to a DC system design.

  • For standards in the early stages of development, NRC action will be determined once early drafts are available to ascertain how the standard fulfills the agencys mission and provides methods to meet regulatory requirements.

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