ML21055A541: Difference between revisions
StriderTol (talk | contribs) (StriderTol Bot change) |
StriderTol (talk | contribs) (StriderTol Bot change) |
||
Line 15: | Line 15: | ||
=Text= | =Text= | ||
{{#Wiki_filter:}} | {{#Wiki_filter:Advanced Reactor Stakeholder and Construction Permit Guidance Public Meeting February 25, 2021 Microsoft Teams Meeting Bridgeline: 301-576-2978 Conference ID: # 157 353 886 1 of 121 | ||
Agenda Time Topic Presenter 10:00 - 10:10 am Introduction NRC 10:10 - 12:00pm Construction Permit Guidance NRC | |||
* Discussion of NRC Draft Staff White Paper Safety Review of Power NEI Reactor Construction Permit Applications USNIC | |||
* Nuclear Energy Institute (NEI) Construction Permit (CP) topics Other stakeholders | |||
* U.S. Nuclear Industry Council (USNIC) CP topics | |||
* Stakeholder comments 12 to 1:30 pm Applicability of Regulations NRC/other stakeholders 1:30 to 2:00 pm Break All 2:00 to 3:45 pm Technology Inclusive Content of Application Project (TICAP) and NRC/Southern and Advanced Reactor Content of Application Project (ARCAP). Potential other stakeholders as topics include: appropriate | |||
* Status of TICAP guidance documents (Industry and NRC staff) | |||
* ARCAP roadmap draft guidance document considerations | |||
* Discussion of Draft ARCAP Chapter 11, Organization, and Chapter 12, Initial Startup Program. | |||
3:45 to 4:00 pm Discussion of Possible Dates and Topics for Future Meetings and All Wrapup 2 of 121 | |||
Advanced Reactor Integrated Schedule of Activities https://www.nrc.gov/reactors/new-reactors/advanced/ | |||
details.html#advSumISRA 3 of 121 | |||
Construction Permit Guidance 4 of 121 | |||
Construction Permit (CP) Guidance | |||
===Background=== | |||
* June 12, 2020, ARCAP public meeting - Industry commented on the need to develop near-term CP guidance for small light-water reactors (LWR). | |||
* July 31, 2020, ARCAP public meeting - Industry feedback: | |||
- Guidance options (Interim Staff Guidance (ISG), Draft Strategy and Office Instruction) are viable for further consideration. | |||
- ISG option considered most efficient and provides regulatory stability and durability. | |||
- CP guidance development challenges recognized: | |||
* May take 6-9 months to receive needed industry input due to on-going activities supporting DOEs ARDP program. | |||
* First CP application submittals possible by end CY2021/early CY2022. | |||
* Draft CP guidance with application content guidance for critical areas available by Spring 2021 could support possible CP submittal schedule. | |||
5 of 121 | |||
CP Guidance Background (continued) | |||
* August 27, 2020, ARCAP public meeting - NRC staff stated it is developing an ISG to clarify: | |||
- CP regulatory requirements and findings necessary for NRC to issue permit. | |||
- Information and level of detail needed in a CP application for NRC to review and issue a construction permit. | |||
- Specific topics; e.g., siting. | |||
* Subsequent to August 27, 2020, ARCAP public meeting: | |||
- NEI indicated it was developing a technology inclusive CP white paper. | |||
- NRC expanded scope of CP guidance to consider LWR and advanced reactor designs based on: | |||
* Scope of NEI white paper, and | |||
* Possible near-term need for CP guidance for non-LWRs. | |||
6 of 121 | |||
CP Guidance | |||
* Staff issued Draft White Paper, Safety Review of Power Reactor Construction Permit Applications, (ADAMS Accession No. ML21043A339) | |||
* Draft White Paper Highlights | |||
- Focuses on the safety review of CP applications. | |||
- Tentative plan is to develop further into an ISG. | |||
- CP Guidance consists of three sections: | |||
o Common guidance for both LWR CP applications following NUREG-0800 standard review plan (SRP) structure and advanced reactor CP applications o Guidance applicable to LWR CP applications following NUREG-0800 SRP approach o Guidance applicable to advanced reactor CP applications (i.e., | |||
Appendix C) 7 of 121 | |||
CP Guidance Applicable to both LWRs following NUREG-0800 and Advanced Reactors | |||
* Common Section includes: | |||
- Requirements applicable to CPs o Includes discussion regarding finality | |||
- Lessons Learned from recently issued CPs o Stresses need for preapplication engagement with NRC to optimize application reviews o Early interaction to support common understanding of level of information needed in preliminary safety assessment report (PSAR) to support NRC review o Early interaction to identify areas where only limited descriptions may be provided by applicant along with regulatory commitments to provide the complete information in the operating license application o Staffs CP review is focused on ensuring appropriate use of methodologies for analyses needed to demonstrate that requirements in the regulations are met 8 of 121 | |||
CP Guidance Applicable to both LWRs following NUREG-0800 and Advanced Reactors | |||
* Common Section includes: | |||
- Special Topics o Concurrent applications o CP application incorporating prior NRC approvals o Discussion of potential impact of ongoing rulemaking activities on CP reviews o Caution - does not include guidance for obtaining licenses for receipt, possession and use of Source, Byproduct and Special Nuclear Material (10 CFR 40, 30 and 70, respectively) 9 of 121 | |||
CP Guidance Applicable to LWRs following NUREG-0800 | |||
* Guidance refers to NUREG-0800 with clarifications for a subset of areas for a CP application including: | |||
- Siting | |||
- Radiological consequence analyses | |||
- Transient and accident analyses | |||
- Structures, systems and components (SSC categorization including codes used to design and build the plant) | |||
- Instrumentation and control | |||
- Electrical Systems | |||
- Radiological Waste Management | |||
* The clarifications address a subset of topics that are reviewed in the CP application and not intended to be inclusive of all topics expected in a CP application. | |||
* Regulatory Guides 1.70 and 1.206 provide insights on the level of detail for an LWR CP application consistent with the NUREG-0800 SRP structure. | |||
10 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* References Advanced Reactor Content of Application Project (ARCAP) guidance instead of NUREG-0800 | |||
- ARCAP guidance is broad and addresses complete application | |||
- ARCAP guidance references technology inclusive content of application project (TICAP) guidance under development | |||
* Uses italics to identify ARCAP/TICAP guidance and industry codes currently under development | |||
* Consistent with: | |||
- Non-Light Water Reactor Review Strategy Staff White Paper, dated September 2019 (ADAMS Accession No. ML19275F299) | |||
- Preapplication Engagement to Optimize Application Reviews January 12, 2021, version (ADAMS Accession No. ML21014A267) 11 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* This guidance addresses the minimum information necessary in a CP application for the staff to issue a CP under 10 CFR 50.35(a) when the applicant has not supplied all of the technical information required to complete the application (i.e., 50.34(a)) and support the issuance of a CP which approves all proposed design features (i.e., | |||
obtains finality for the design). | |||
* Where an applicant desires design finality regarding a specific topic, the application should provide sufficient information about the topic at a level of detail that is expected at the operating license (OL) stage. | |||
12 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* Built on ARCAP/TICAP structure | |||
- Alternate approaches to TICAP (which is based on the licensing modernization project (LMP) process) are recognized | |||
* Preapplication engagement with NRC is highly encouraged if applicant chooses an alternate approach to LMP | |||
* Several topical areas identified in Appendix C provide guidance applicable to approaches following NRC RG 1.233 guidance and to alternate approaches, such as: | |||
- Safety and Accident Analysis Methodologies and Associated Validation | |||
- Site Information | |||
- Licensing Basis Event/Design Basis Accident selection 13 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* Highlights/Discussion Topics | |||
- 10 CFR 50.35(a)(1) states in part that the Commission may issue a construction permit if it finds that the applicant has identified the major features or components incorporated therein for the protection of the health and safety of the public. | |||
* Confirmation or discussion that this statement applies to safety-related and non-safety related SSC with special treatment following the LMP approach | |||
- Guidance follows the ARCAP/TICAP structure and references industry TICAP CP guidance under development | |||
* Staff would like to have a better understanding of topics to be included in industry guidance and timing for providing this guidance 14 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* Highlights/Discussion Topics | |||
- Structure/Content of Appendix C minimizes duplication of guidance | |||
* Points to ARCAP/TICAP guidance and industry codes under development | |||
* How best to ensure that as guidance is developed expectations are clear? Examples include: | |||
- SSC capabilities section follows the TICAP process. | |||
>> Staff considers Design Review Guide for instrumentation and control (I&C) would be useful if applicant using LMP identifies need for I&C that is safety related or non-safety related with special treatment | |||
- Expectation that the application will include consensus design codes and standards (ASME, ANSI, IEEE, etc.) used for the design along with applicability to design of specific SSCs | |||
>> Staff consider ASME Section III Division 5 under development would be included in the CP application as appropriate. | |||
15 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* Highlights/Discussion Topics | |||
- How best to ensure that as guidance is developed expectations are clear. Examples include (continued): | |||
* 10 CFR 50.35(a) provides minimum requirements for the PSAR including the following: | |||
Special attention should be directed to the site evaluation factors identified in 10 CFR Part 100: | |||
- References to 100.21(f): Site characteristics must be such that adequate security plans and measures can be developed | |||
- 100.21(g): Physical characteristics unique to the proposed site that could pose a significant impediment to the development of emergency plans must be identified | |||
- 10 CFR Part 50 appendix E requirement that PSAR include preliminary plans for coping with emergencies 16 of 121 | |||
CP Guidance for Advanced Reactors (Appendix C) | |||
* Highlights/Discussion Topics | |||
- For emergency planning, guidance uses content requirements similar to an ESP application and includes references to new 10 CFR 50.160 rule: | |||
* Describe any physical characteristics of the proposed site, such as egress limitations from the area surrounding the site, that could pose a significant impediment to the development of emergency plans | |||
* Describe the major features of the emergency plans which are aspects of the plan necessary to: | |||
- Address in whole or part either one or more of the 16 standards in 10 CFR 50.47(b) or the proposed requirements of 10 CFR 50.160(b) , as applicable; or | |||
- Describe the emergency planning zones as required in 10 CFR 50.33(g). | |||
17 of 121 | |||
Next Steps | |||
* Consider stakeholder feedback and further develop guidance | |||
* Issue Draft LWR CP ISG for public comment in Summer 2021 | |||
* Appendix C - may be issued separately when the draft guidance is more developed 18 of 121 | |||
Industry Construction Permit Guidance Task Force initial observations and feedback on NRC Draft CP Guidance February 25, 2021 | |||
©2020 Nuclear Energy Institute 19 of 121 | |||
NEI CP GUIDANCE TASK FORCE Task Force Observations concerning NRC Draft CP Guidance 20 of 121 | |||
Advanced Reactor Design Completeness and Maturity 21 of 121 | |||
General Observations on NRC Draft Guidance The guidance for various topics is inconsistent concerning the completeness of design information and analyses necessary at the CP application stage. | |||
Some portions of draft NRC guidance recognize that CP application may include preliminary design information in other parts the guidance seems to specify a more complete set of design information that appears to be more appropriate for the OL stage. | |||
The rationale for the specific topic areas covered in the guidance is unclear vs the use of a comprehensive/methodical review of topics on a chapter by chapter basis. | |||
Appendix C (sections applicable to use of NEI 18-04 methodology) requires more information than appropriate when using the LMP safety case approach in a CP application. | |||
NRC expectations for the PRA for a CP application go beyond what is feasible for a preliminary design. | |||
Appendix C is structured around the use of NEI 18-04 methodology for NLWR applicants and does not provide CP application guidance for NLWR applicants that do not intend to use the licensing approach in NEI 18-04. 22 of 121 ©2020 Nuclear Energy Institute 4 | |||
General Observations on NRC Draft Guidance Appendix C has numerous sections that include the following statement: | |||
for applications using the LMP approach, the staff should refer to draft TICAP ISG-XXX, Section 3.1.X for additional information regarding expected CP application content in this area.. | |||
These topics will be discussed separately at a later date as a part of ongoing TICAP/NRC interactions on the development of draft TICAP guidance for Section 3 of the guidance document. | |||
23 of 121 ©2020 Nuclear Energy Institute 5 | |||
Initial observations divided into 3 categories | |||
: 1. Topics where NRC Draft Guidance provides the appropriate level of detail and flexibility for a CP application; | |||
: 2. Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility for content of a CP application; and | |||
: 3. Topics where NRC Draft Guidance would benefit from additional detail to establish a common understanding of CP application content. | |||
24 of 121 ©2020 Nuclear Energy Institute 6 | |||
Examples of Topics where NRC Draft Guidance provides the appropriate level of detail and flexibility Lessons Learned from Recently Issued CPs | |||
* If the PSAR includes preliminary or limited descriptions of the facilitys programs, structures, systems, or components, the staff may accept and approve the application with regulatory commitments from the applicant to provide complete information in its OL application. | |||
* The staff should review the description of plans to perform safety and accident analyses that include testing of applicable SSCs and validation and verification of associated engineering computer programs. | |||
* The staffs construction permit safety review is focused on ensuring appropriate use of analysis methodologies to meet the requirements in the regulations. | |||
App C Security - note that no Physical Security Plan, Security Training and Qualifications Plan, or Safeguards Contingency Plan information is required at the CP stage. | |||
25 of 121 ©2020 Nuclear Energy Institute 7 | |||
Examples of Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility | |||
* Fuel qualification - The fuel procurement specification should describe the characteristics the fuel must have to be acceptable. The reviewer should determine how the applicant intends to ensure the as fabricated fuel complies with the procurement specification. | |||
Is it necessary or appropriate to require fuel procurement specifications in a CP application? | |||
* Radiological Consequence Analyses It should be acceptable for a CP application to qualitatively demonstrate that the radiological consequences to the public during a dba are very low (e.g., | |||
bounding calculations) | |||
If analyses demonstrates that all of the barriers are not damaged in any DBA, is it necessary to provide detailed dose results? | |||
26 of 121 ©2020 Nuclear Energy Institute 8 | |||
Examples of Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility | |||
* Transient and Accident Analyses The NRC is expecting more detail/degree of completion in the safety analyses than considered necessary for a CP application. | |||
Discussion of the analysis methods, assumptions and results for the total calculated radiological consequence dose at the exclusion area boundary (EAB), low population zone (LPZ) and control room (if operators are relied upon for safety-significant functions) from the DBAs. | |||
The guidance should allow for qualitative arguments for why certain transients or accidents are bounding. | |||
There are inconsistencies in the allowances for the use of bounding events as providing acceptable detail for the evaluation for credible accidents. | |||
Discussion of the characteristics of fission product releases from the proposed site to the environment including the rates of fission product release, the isotopic quantities and the chemical forms of fission products released to the environment. | |||
27 of 121 ©2020 Nuclear Energy Institute 9 | |||
Examples of Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility Integrated Evaluations (Evaluation of Integrated Plant Risk) | |||
* It seems unreasonable to expect these results be available at the CP stage. | |||
* It would be more appropriate to include the approach/methodology and initial, preliminary, results and the remaining actions to get to final level of detail/completion. | |||
* The completion of a comprehensive and detailed PRA may not be achievable in the absence of essentially complete and final detailed design information. | |||
PRA | |||
* The Policy Statement on Severe Reactor Accidents Regarding Future Designs and Existing Plants does not specify when a PRA needs to be complete and what level of completion is required. | |||
* The Pedigree of PRA for a CP application as specified is not realistic. It is not reasonable to require that a peer review be performed at the CP stage. | |||
* The description of the PRA methodology is not needed in the application as it is reviewed for acceptability during the peer review. The PRA methodology documents are available for NRC audit. | |||
* NRC seems to specify that the PRA requirements for a CP are the same as for a COL. | |||
28 of 121 ©2020 Nuclear Energy Institute 10 | |||
Figure 1. Evolution of the PRA as the Plant is Designed, Constructed, and Operated (Excerpt from NRC Staff Draft White Paper: Demonstrating the Acceptability of Probabilistic Risk Assessment Results Used to Support Advanced Non-Light Water Reactor Plant Licensing) | |||
CP application stage: The site has been selected; the PRA represents the conceptual design. | |||
PRAs that support custom COL or CP applications: 29 A offull-scope 121 peer review should be conducted. | |||
Examples of Topics where NRC Draft Guidance would benefit from additional detail | |||
* Include NRCs approach for addressing Aircraft Impact for micro-reactors. | |||
* Confirm NRC views concerning CP applicant programs needed to be in place for construction. | |||
* Provide for additional flexibility in CP application format for NLWR non-LMP applicants. | |||
An option should be provided that moves away from fixed Chapter topics that were created for an LWR applicant. The content of CP application should be focused on methods and approaches with level of detail to support 10 CFR 50.34(a) requirements and applicant-provided acceptance criteria as applicable. | |||
* Allow the complexity of a quality assurance program to be reflective of the complexity and inherent safety of a design. | |||
The intended outcome is to allow simpler designs to implement a quality assurance program that are not overly prescriptive for features that are not relied upon to ensure safe operation. | |||
It is beneficial for an advanced reactor designer to have a QAPD that covers design activities that is flexible enough to be used for any prospective applicant and NRC licensing pathway, as well as any design-specific activities like Part 52 DC or SDAs. | |||
30 of 121 ©2020 Nuclear Energy Institute 12 | |||
QUESTIONS? | |||
31 of 121 By Third Way, GENSLER | |||
U.S. Nuclear Industry Council Comments for NRC Stakeholders meeting: | |||
Construction Permit Guidance Cyril Draffin Jeff Hawkins Senior Fellow, Advanced Nuclear EPIC - Energy Production & Infrastructure Center U.S. Nuclear Industry Council University of North Carolina, Charlotte Jeff Merrifield Travis Chapman Chairman, Advanced Nuclear Working Group X- Energy U.S. Nuclear Industry Council 25 February 2021 32 of 121 | |||
Construction Permit - Introduction USNIC appreciates NRC providing draft white paper (SAFETY REVIEW OF POWER REACTOR CONSTRUCTION PERMIT APPLICATIONS) to facilitate discussion of the safety review of LWRs and non-LWR construction permit (CP) applications- as precursor to interim staff guidance. | |||
Important because U.S. DOE Advanced Reactor Demo program CP applications expected in next few years Following are some preliminary ideas for consideration 2 l U.S. Nuclear Industry Council February 2021 33 of 121 | |||
Construction Permit - Response to NRC Staff - | |||
Major features or Components NRC: How best to ensure that as guidance is developed expectations are clear | |||
* 10 CFR 50.35(a)(1) states in part that the Commission may issue a construction permit if it finds that the applicant has identified the major features or components incorporated therein for the protection of the health and safety of the public. | |||
* Confirmation or discussion that this statement applies to safety- related and non-safety related SSC with special treatment following the LMP approach | |||
===Response=== | |||
o Requires understanding of what constitutes a major feature or component to protect public health and safety. Includes building structures that house, process or store radionuclides o Could identify each system that is present to control reactivity, control heat removal, and retain radionuclides both for normal and off normal events o Next level would be the materials and components that comprise those systems (tanks, vessels, fluids, etc.). Question is where does the detail stop? | |||
o A perspective is the classification of the system or component does not matter much, but what is important is what the system or component does. This raises question about how much of the balance of plant would need to be provided 3 l U.S. Nuclear Industry Council February 2021 34 of 121 | |||
Construction Permit - Response to NRC Staff - PSAR | |||
===Response=== | |||
* The PSAR should enable the public to understand how the design is expected to work and the major features that support the facility in safely performing the expected work. | |||
* While the classification of systems is important and will likely be a requirement for the content in a PSAR, it should not be used as a singular selection criteria for content in a PSAR. | |||
Question: | |||
* How much detail would be needed for each system or structure and how close to final design maturity will be needed to pass the review test, and what areas could still permit additional research or refinement while the plant is under construction? | |||
4 l U.S. Nuclear Industry Council February 2021 35 of 121 | |||
Construction Permit - Response to NRC Staff - | |||
Guidance NRC: How best to ensure that as guidance is developed the expectations are clear? | |||
Examples include: - SSC capabilities section follows the TICAP process. Staff considers Design Review Guide for instrumentation and control (I&C) would be useful if applicant using LMP identifies need for I&C that is safety related or non-safety related with special treatment Question: | |||
o Would the staff accept anything less than what is in the current Standard Review Plan for I&C systems? | |||
5 l U.S. Nuclear Industry Council February 2021 36 of 121 | |||
Construction Permit - Response to NRC Staff - | |||
Emergency Planning (EP) | |||
NRC: For emergency planning, guidance uses content requirements similar to an ESP application and includes references to new 10 CFR 50.160 rule Question: | |||
o Will CP contents require that only impediments to preparing an emergency plan need to be identified, and it would not require the development of any EP at the time of CP application? | |||
===Response=== | |||
o Assume the EP would be developed during construction and final plans would be submitted with the Operating License. | |||
o Discussion of emergency preparedness seems muddled. The cross-referencing of the various regulations does not lead to a fulsome understanding of the requirements for EP. | |||
The most complete discussion presented in Appendix E Part II. Added discussions in the guidance seem to sometimes contradict Appendix E . References to ESP in 50.47 do not provide any better clarity. There is little discussion of how this EP guidance would affect content of a PSAR for a CP. | |||
o This area would benefit from a more cohesive presentation in the next iteration. | |||
6 l U.S. Nuclear Industry Council February 2021 37 of 121 | |||
Construction Permit - Comments & Questions Comments: | |||
* TICAP/ARCAP can solve many near-term challenges, but the draft guidance communicates too strong a reliance on those efforts. | |||
* Several types of information are described in a way that suggests near-final level of maturity/detail will be expected, which made it challenging to understand what an acceptable definition of preliminary will be. (PRA results, some transient analyses, aircraft impact?) | |||
* Want consistency of interpretation by field inspectors, and by all stakeholders Questions: | |||
* Do applicants need to meet the 10 CFR 50.55a LWR-centric Codes and Standards? | |||
* Will a preliminary security plan be required? | |||
* How will manufacturing (e.g. for microreactors) be addressed? | |||
7 l U.S. Nuclear Industry Council February 2021 38 of 121 | |||
Construction Permit - Discussion of Completeness and Maturity Image shows conceptual thinking to discuss how compliance will be assessed (i.e. What size box of possible information (which will vary in completeness and maturity for different advanced reactor technologies) will be acceptable for CP? | |||
Conceptual Preliminary Final What we may be debating: | |||
where to move these single lines Degree of completeness Conceptual Preliminary Final (how much information is provided) | |||
Degree of maturity (how final is the information provided) | |||
What we desire: this spectrum of 8 l U.S. Nuclear Industry Council February 2021 completeness/maturity 39 of 121 could all be acceptable | |||
Lessons Learned topics that require focus - | |||
Communication & Teaming (consistent interpretation, compliance & execution) | |||
: 1) High-quality Construction Permit applications, with sufficient level of design detail and environmental information, are significant contributor to overall project planning & performance. | |||
: 2) Timely development and maintenance of regulatory guidance and clear acceptance criteria are important to support development of high-quality application as well as contribute to efficient regulatory reviews. | |||
: 3) Strong design standardization contributes to efficient regulatory review while on-going design changes have the opposite effect. | |||
: 4) Early identification and timely resolution of complex technical issues minimize negative impacts on review schedules and project planning. | |||
: 5) Improvements to NRCs management system for requests for additional information (RAIs) can further enhance project knowledge management and contribute to more efficient review. | |||
: 6) Coordinated, consistent reviews of construction permit applications, design certifications and combined license applications contribute to maximizing standardization. | |||
: 7) Evaluation and Integration of Lessons Learned early in the guidance development will contribute to enhancement of licensing process while mitigating potential for change 9 l U.S. Nuclear Industry Council February 2021 40 of 121 | |||
Comments/observations to NRC white paper - | |||
non-safety related | |||
* Evaluate and implement a formal guidance to separate (bifurcate) safety related from non-safety related scopes and specifically areas (islands) of the facility and plant boundaries with associated guidance for each. This will have a positive impact on construction permit and project execution. | |||
o NRC charter is public health and safety focus. Primary focus and guidance on safety-related construction will lessen stringent requirements for construction of non-safety related facilities-- | |||
providing for more efficient project execution, schedule and realized cost savings. Focusing on safety-related construction will result in less impact on FOAK (First of as Kind) execution, thus providing cost and schedule certainty. | |||
o For example, If turbine or isolated related secondary systems (non safety related) can shut down unexpectedly and not put the public in jeopardy, why is there a need to continue to have the same strict regulations as the primary systems (safety related)? | |||
* Impacts schedule and cost, productivity, resources and supply chain cost and procedures | |||
( Logistics, receipt inspections, etc.) | |||
10 l U.S. Nuclear Industry Council February 2021 41 of 121 | |||
Comments/observations to NRC white paper - | |||
specific disciplines | |||
* For all the specific disciplines listed in the white paper (e.g. Instrumentation & | |||
controls, protective coatings, structure system components), separately consider requirements for safety related and non safety characteristics related to scope and materials and components o A graded approach by specific attributes and scope. | |||
o Set guidance to categories each within each discipline. | |||
o Consider to commercial grade dedication acceptance criteria (e.g. EPRI guidance) and incorporate/align in NRC guidance o Review requirements of conditions when fuel declared on site. Provide for acceptance without restricting or impacting construction execution. | |||
11 l U.S. Nuclear Industry Council February 2021 42 of 121 | |||
Comments/observations to NRC white paper - ITAAC | |||
* ITAAC (Inspections, Test, Analyses, Acceptance Criteria) process needs to be addressed as it is cumbersome as it integrates into many aspects of turnover. | |||
NRC approves a set of ITAAC at the time of initial licensing, which is intended to provide greater stability and predictability in making the decision whether the plant conformed to the accepted design and could commence operation. (1989 White paper by Steven G Burns, Previous Deputy General Counsel USNRC) o Consideration needed for the ITAAC process to provide for a less taxing and less expensive way to validate compliance without slowing the back end of the project. | |||
o Evaluate streamlining of the ITAAC turnover process o Consideration for collaborative planning of how all or most ITAAC could be incorporated into design and work packages and signed off by NRC along the way. | |||
12 l U.S. Nuclear Industry Council February 2021 43 of 121 | |||
Comments/Response to NRC white paper - Codes NRC: Expectation that the application will include consensus design codes and standards (ASME, ANSI, IEEE, etc.) used for the design along with applicability to design of specific SSCs o Staff consider ASME Section III Division 5 under development would be included in the CP application as appropriate. | |||
===Response=== | |||
* Separate Quality Program requirements based upon safety and non-safety components. Bifurcation capability is supported with this approach from construction permitting to project completion. | |||
o Assume NRC will expect to see design codes in the CP PSAR. This gets to the foundation of how the facility will be constructed with the necessary quality to assure the safety | |||
* Appendix B and NQA-1 Program should be considered for application of this approach as well as acceptance of ISO 9000 series, IAEA, and efficient commercial dedication programs that should become an accepted practice and a part of the NRC requirements and acceptance. | |||
o This should not be a duplication of regulations/guidance but compliment/alternative to the existing requirements, while taking advantage of benefits to efficiently achieve the same compliance. | |||
13 l U.S. Nuclear Industry Council February 2021 44 of 121 | |||
Comments/observations to NRC white paper - | |||
Digital Twin Utilization | |||
* Evaluate/align/implement and address in the guidance the utilization of Digital Twins modeling platforms and virtual reality systems. These may provide a compliance verification tool from initial permitting to design to construction commissioning and project closeout. Becomes a part of Document Control retention to turnover of basis of maintenance and operations in the future while providing live, Source of Truth utilized by NRC for verbatim compliance verification. | |||
o Will enhance collaboration between the NRC and constructor for pre-planning, design review, execution process and schedule, commissioning and document control, change management, and configuration management and ultimately verbatim compliance with real time processes. | |||
o Will provide simulation for verification and validation of design compliance while addressing change. Providing for a risk informed Regulator with a potential encompassing Source of Truth o Need to resolve response time or requirements associated with design changes under Part 52 (e.g. process similar to 50.59 allowing proceed at risk prior to NRC approval). Digital Twin approach can assist in this. | |||
14 l U.S. Nuclear Industry Council February 2021 45 of 121 | |||
Contacts Jeffery P. Hawkins Cyril W. Draffin, Jr. | |||
Energy Production & Infrastructure Center (EPIC), | |||
Senior Fellow, Advanced Nuclear, University of North Carolina, Charlottes (UNCC) | |||
U.S. Nuclear Industry Council Staff Resident Nuclear Industry Expert Cyril.Draffin@usnic.org Retired, Vice President Fluors Nuclear business line; Prior: key management roles in Bechtel and Raytheon JeffHawkins@JHawkconsulting.com Jerey S. Merri"eld Chairman, Advanced Nuclear Working Group, U.S. Nuclear Industry Council Partner, Pillsbury Winthrop Shaw Pittman LLP 15 l U.S. Nuclear Industry Council February 2021 Je.Merri"eld@pillsburylaw.com 46 of 121 | |||
NRC Staff Draft White Paper Analysis of Applicability of NRC Regulations for Non-Light Water Reactors - Followup February 2021 47 of 121 | |||
===Background=== | |||
* NRC Staff Draft White Paper - Analysis of Applicability of NRC Regulations for Non-Light Water Reactors, issued in 9/2020 (ML20241A017) | |||
* NEI provided feedback regarding the NRC draft white paper in a letter to the NRC on October 30, 2020 (ML20308A662) and at a stakeholder meeting in 12/10/2020 (ML21006A414) | |||
* NRC proposed changes to the Draft White paper at the 12/2020 stakeholder meeting and issued a Draft Appendix providing examples demonstrating compliance and exemptions on 2/18/21 (ML21049A098) 2 48 of 121 | |||
Purpose | |||
* Share staff feedback on NEI letter and 12/2020 presentation | |||
* Discuss draft Appendix to NRC Staff Draft White Paper - | |||
Analysis of Applicability of NRC Regulations for Non-Light Water Reactors | |||
* Suggested use of Tables in NRC Staff Draft White Paper 3 | |||
49 of 121 | |||
Feedback | |||
* We will determine regulatory applicability from a plain language reading of the rule. | |||
* Regulatory applicability in this context was determined for non-LWRs as a group, rather than on a design-specific basis | |||
* We are taking steps to clarify expectations and minimize unnecessary burden for non-LWR applicants. | |||
4 50 of 121 | |||
10 CFR Part 52 | |||
* Seven regulations in 10 CFR Part 52 apply to all power reactors but reference a 10 CFR Part 50 regulation that refers specifically to Light Water Reactors | |||
* The NRC staff will document these exemptions based on design information provided in the application 5 | |||
51 of 121 | |||
Expectations for Documentation | |||
* For regulations that are assessed as not applicable (N) in the tables of the white paper by the NRC, no further action within the application is necessary for non-LWR applications. | |||
* For regulations that are assessed as applicable in the white paper, applicants will have to demonstrate compliance with the regulation or justify an exemption from the regulation. | |||
* For regulations that are assessed as applicable in the white paper, where the specific design does not meet entry conditions specified in the regulation, no further action is necessary beyond providing information in the application | |||
- E.g., For regulations related to multi-unit sites, no action to meet the regulation beyond specifying the reactor is a single unit somewhere in the application | |||
* For providing information related to regulatory compliance or drafting an exemption from a regulation, staff has provided high level examples of what might be expected for certain regulations. | |||
6 52 of 121 | |||
Regulatory Compliance | |||
* As a first step, applicants should consider whether the design already complies with existing regulations. | |||
* To provide additional context on how to comply with and what might be expected for regulations, staff has provided examples as part of the draft appendix: | |||
- 10 CFR 50.46a | |||
- 10 CFR 50.44 | |||
- 10 CFR 52.79(a)(4)(i) | |||
- 10 CFR 52.79(a)(6) 7 53 of 121 | |||
Exemptions | |||
* At this time, NRC expects to prepare exemptions for the items in Table 2 of the white paper | |||
* Exemptions will vary both in content and complexity, and the level of effort and length will vary accordingly. All exemptions (provided by an applicant) should contain: | |||
- A statement identifying the need for NRC approval or need for an exemption. | |||
- The scope and summary of the requested exemption, including identification of the specific portion(s) of the regulation that the exemption is requested from and the relevant design feature(s); | |||
- Relevant justification for the exemption, with references to regulatory guidance and/or requirements (as applicable); | |||
- A technical and regulatory evaluation relative to the regulatory acceptance criteria associated with the request (e.g., Section 50.12); and | |||
- An evaluation against the applicable exemption criteria. | |||
8 54 of 121 | |||
Exemptions | |||
* Two examples of expected exemptions are provided in the draft Appendix: | |||
- For emergency response, emergency preparedness, and emergency planning zone regulations (e.g., those in 10 CFR 50.33(g), 50.47(b), | |||
50.47(c)(2), and Appendix E) - applicants can use the proposed rule as part of their justification in conjunction with a technically supported basis that aligns with the proposed rule and regulatory basis | |||
- For the definition of safety-related as it pertains to part (1), the integrity of the reactor coolant pressure boundary - applicants can either comply and use the process laid out in 10 CFR 50.69 for classification, or request a single exemption from all related regulations. In doing so, a technical and regulatory basis considering the specific design would be required, and applicants should consider how changing the definition affects regulatory requirements that apply to the design. | |||
9 55 of 121 | |||
Using the Draft White Paper | |||
* Start with Table 3 (Part 50) or Table 5 (Part 52) | |||
- If N no action required | |||
- If Y but regulation does not impose a requirement, no action required | |||
- If Y but specific application does not meet entry condition, application should clearly show why it doesnt meet entry conditions | |||
- If Y with Ref to Table 2, NRC will document these exemptions based on design information provided in the application | |||
- If Y with Ref to Table 1, determine if design needs an exemption in this area | |||
- If Y and design complies with plain language reading of regulation, application should clearly show how this regulation is met | |||
- If "Y" otherwise, request exemption 10 56 of 121 | |||
Using the Draft White Paper | |||
* Review Table 4 - Three Mile Island Requirements | |||
- If Y but specific design does not meet entry condition, application should clearly show the design doesnt meet the entry conditions | |||
- If Y but not technically relevant, application should clearly show why this requirement is not technically relevant (as directed in 50.34(f)) | |||
- If Y and design complies with plain language reading of regulation, application should clearly show how this regulation is met | |||
- If "Y" otherwise, request exemption | |||
* Review Table 6 - Other Regulations that may apply | |||
- These regulations are listed at a higher level than the previous tables, and the table provides general applicability. Regulations designated as "Y" should be considered, as applicable to the specific application. | |||
11 57 of 121 | |||
Questions/Discussion 12 58 of 121 | |||
Example: | |||
Applicability of NRC Regulations for Non-LWRs February 25, 2021 | |||
©2021 Nuclear Energy Institute 59 of 121 | |||
Sept. 2020 NRC Staff Draft White Paper Analysis of Applicability for non-LWRs NRC Table 2 Topical Area Regulation Discussion These provisions reference 10 CFR 10 CFR 52.47(a)(16) | |||
Station Blackout 50.63, which is only applicable to LWRs. | |||
10 CFR 52.79(a)(9) | |||
(SBO) Therefore, non-LWR applicants will need 10 CFR 52.137(a)(16) an exemption from these regulations. | |||
NRC further states, in part: | |||
When a non-LWR design, by virtue of its unique attributes, need not comply with one or more of the requirements of a regulation listed in Table 2, the applicant should request an exemption or exemptions from the specific subsection or subsections 60 of 121 of each such regulation. | |||
©2021 Nuclear Energy Institute 2 | |||
Applicability determined by underlying safety purpose & technical des. aspects | |||
==Purpose:== | |||
to ensure that LWRs can withstand a total loss of AC electric power for a specified duration and can maintain core cooling and appropriate containment integrity during that period. | |||
Technical design: Non-LWR A does not need AC electric power for safety functions, including heat removal. | |||
Neither changes based on the use of 10 CFR Part 50 or 10 CFR Part 52 plain language yields an odd and unintended result, because the purpose of the regulation relates to design features that are not present in non-LWR designs 61 of 121 ©2021 Nuclear Energy Institute 3 | |||
Maybe Station Blackout is a concern for Non-LWR B AC electric power is needed for some safety functions | |||
* 10 CFR 52.79(a)(9) and 10 CFR 50.63 still may not apply or require an exemption (given LWR focus) | |||
Three possible paths to address Station Blackout | |||
: 1. 10 CFR 52.79(a)(2) and (a)(4) require thorough descriptions and analyses of SSCs, principal design criteria, design bases, etc. | |||
: 2. 10 CFR 52.79(a)(9) compliance by alternative means exemption | |||
: 3. Use entry conditions for the applicability of 10 CFR 52.79(a)(9) exemption 62 of 121 ©2021 Nuclear Energy Institute 4 | |||
Option 1 for Non-LWR B 10 CFR 52.79(a)(2) and (a)(4) will address SBO These regulations require applications to include, for example: | |||
* evaluations required to show that safety functions will be accomplished and | |||
* the design bases and its relation to the principal design criteria 10 CFR 52.79(a)(9) will be listed as not applicable Because this regulation references 10 CFR 50.63 which is specific to LWRs, non-LWR B does not need to address it in their application. | |||
63 of 121 ©2021 Nuclear Energy Institute 5 | |||
Option 2 for Non-LWR B 10 CFR 52.79(a)(9) compliance by alternative means NRC has noted in previous correspondence to applicants: | |||
* a novel means to perform a required function or include a required design attribute does not necessarily trigger a need for an exemption 10 CFR 52.79(a)(9) will be included in application content Non-LWR B would describe how they meet the underlying safety purpose of 10 CFR 50.63 with non-LWR B technical design characteristics. | |||
64 of 121 ©2021 Nuclear Energy Institute 6 | |||
Option 3 using entry conditions Establish entry conditions for 10 CFR 52.79(a)(9) | |||
When a regulation cannot unequivocally be determined not applicable: | |||
* Use clear acceptance criteria for new designs to provide adequate protection of public health & safety | |||
* Extend the logic and experience with recent applicants and the development of RG 1.232 (ARDC), e.g., with respect to offsite power 10 CFR 52.79(a)(9) applicability based on technical design Technology-inclusive, risk-informed, performance-based entry conditions would identify applicability: | |||
* Non-LWR B does need to address SBO. | |||
* Non-LWR A does not need to address 65 of 121 SBO. ©2021 Nuclear Energy Institute 7 | |||
Desire more efficient path to disposition regulations that are N/A to non-LWRs Issue Regulations in Part 50 and Part 52 were established around large LWR technology with prescriptive requirements that are specific to features of these designs. | |||
A timely alternative to the exemption process is prudent. | |||
Preferred alternative should Acknowledge technical aspects of non-LWR designs Clearly convey safety focus Consistently treat non-LWR applicants under Pt 50 and Pt 52 licensing processes 66 of 121 ©2021 Nuclear Energy Institute 8 | |||
Break Meeting/Webinar will resume shortly Microsoft Teams Meeting Bridgeline: 301-576-2978 Conference ID: 644 910 374# | |||
67 of 121 | |||
Technology Inclusive Content of Application Project (TICAP) Presentations Steve Nesbit, LMNT Consulting Ed Wallace, GNBC Associates Brandon Chisholm, Southern Company TICAP - Nuclear Regulatory Commission (NRC) Working Meeting February 25, 2021 68 of 121 1 | |||
Outline of Todays TICAP Presentations | |||
* Introduction and Overview (Steve) | |||
* TICAP / Advanced Reactor Content of Application Project (ARCAP) | |||
Integration (Steve) | |||
* Level of Detail (LoD) Task (Ed) | |||
* Tabletop Exercises (Brandon) | |||
Please note that we will be discussing work in progress, not a finished product. We request your indulgence and welcome your feedback. | |||
Also, we have included a list of acronyms at the end of the presentation. | |||
69 of 121 2 | |||
TICAP Overview | |||
* Product: Develop an endorsable Guidance Document that proposes an optional formulation of advanced reactor application content that | |||
- Benefits from the insights and knowledge gained through licensing and safely operating the current US-based nuclear fleet for over 40 years to ensure adequacy of proposed content requirements | |||
- Is based on describing a technology-inclusive affirmative safety case that meets the underlying intent of the current requirements | |||
>> To optimize application content (add where additional content is needed and reduce where current content requirements are not commensurate with the contribution to risk) | |||
>> To provide the needed regulatory agility to accommodate review of spectrum of designs that are expected to submit licensing application | |||
- Is risk-informed, performance-based (RIPB) to right size the required information in an application (based on the complexity of the safety case) to increase efficiency of generating and reviewing an application | |||
- Its scope is governed by the Licensing Modernization Project (LMP)-based safety case to facilitate a systematic, technically acceptable, and predictable process for developing a designs affirmative safety case | |||
- Provides similar information as is currently required from a light water reactor (LWR) applicant 70 of 121 3 | |||
LMP-Based Safety Case Output- Simplified Diagram When? How? | |||
Required Required Safety Functional SR SSC Design Functions (RSFs) Design Criteria Criteria (SRDC) | |||
(RFDC) | |||
Functions Safety SR SSC SR SSC Special Provided in the Related Performance Treatment Design (SR) SSCs Targets Requirements LBEs from LMP Design Basis Design Basis PRA Safety (AOOs, DBEs, Accidents External Hazard Functions (PSFs) and BDBEs) (DBAs) Levels (DBEHLs) | |||
Input to Design and Frequency- Other Risk Fundamental Consequence Significant Safety Functions and Cumulative Safety Functions Non-SR NSRST SSC (FSFs) NSRST SSC Risk Targets with ST Special Performance Content of Application (NSRST) Treatment Targets SSCs Requirements Other Safety Functions for Adequate DID What? Non-SR Other Safety How Well? | |||
With No ST Functions SSCs (NST) 71 of 121 4 | |||
PDC and CDC are answers to How? | |||
Principal Design Criteria (PDC) | |||
Required Required Safety Functional SR SSC Design Functions (RSFs) Design Criteria Criteria (SRDC) | |||
(RFDC) | |||
Frequency-Fundamental Consequence Safety SR SSC SR SSC Special Safety Functions and Cumulative Related Performance Treatment (FSFs) | |||
Risk Targets (SR) SSCs Targets Requirements LBEs from LMP Design Basis Design Basis PRA Safety (AOOs, DBEs, Accidents External Hazard Functions (PSFs) and BDBEs) (DBAs) Levels (DBEHLs) | |||
Other Risk Input to Design and Significant Functions Safety Functions Provided in the Non-SR NSRST SSC NSRST SSC Design with ST Special Performance Content of Application (NSRST) Treatment Targets Other Safety SSCs Requirements Complementary Design Functions for Adequate DID Criteria (CDC) | |||
Non-SR Other Safety With No ST Functions SSCs (NST) 72 of 121 5 | |||
TICAP Key Benefits Key Attributes | |||
* Major step towards ofofTICAP industry goal having(continued) safety focused reviews which minimize the burden of generating and supplying non-safety significant information | |||
* Helps NRC and Industry (developers and utilities) establish a common understanding of how to document reasonable assurance of adequate protection for non-LWRs | |||
* Provides a means for submitting a right-sized Part 50 or Part 52 application | |||
- Also informs and supports ongoing efforts to develop a risk-informed, performance-based regulation for advanced reactors (Part 53) | |||
- Addresses important facets of the Nuclear Energy Innovation and Modernization Act | |||
* Reducing regulatory uncertainty by having an endorsed NRC guidance document for evaluating and demonstrating the safety case. | |||
73 of 121 6 | |||
Technology-Inclusive Content of Application Project (TICAP) | |||
TICAP / ARCAP Integration Steve Nesbit TICAP - NRC Working Meeting February 25, 2020 74 of 121 7 | |||
Visual Depiction of TICAP Guidance in the Context of an Advanced Reactor Application 75 of 121 8 | |||
TICAP Schedule | |||
* Tabletop exercises - ongoing (first NRC-observed exercise 2/3) | |||
* 4/15/21: Draft NEI Guidance Document to NRC | |||
- Will factor in lessons-learned from tabletop exercises as available | |||
- Will not include for information appendices | |||
* May 2021: Workshops with NRC on draft guidance document | |||
- To be scheduled | |||
* 6/1/21: Written NRC comments to TICAP team | |||
* 7/28/21: NEI Guidance Document Rev. 0 to NRC | |||
* Fall 2021: NRC/TICAP briefing to the Advisory Committee on Reactor Safeguards | |||
* Dec 2021: NEI Guidance Document Rev. 1 to NRC (if needed) 76 of 121 9 | |||
Technology Inclusive Content of Application Project (TICAP) | |||
SAR Level of Detail Ed Wallace TICAP - NRC Working Meeting February 25, 2021 77 of 121 10 | |||
SAR Level of Detail Objectives A TICAP objective is to right-size the Level of Detail (LoD) by: | |||
* Using a graded approach, facilitated by the LMP-based safety case | |||
* Using a performance-based approach by stating the performance outcomes and supporting programmatic requirements commensurate with the safety significance of the topic | |||
* The detailed design and programs are part of the design-phase records, available for audit and inspection 78 of 121 11 | |||
Probabilistic Risk Assessment (PRA) Guidance | |||
* The SAR is to include A description of the design-specific probabilistic risk assessment (PRA) and its results [10 CFR 52.47(a)(27)] | |||
* Guidance for the PRA description is provided in TICAP Guidance Section 2.1.1 | |||
- Summary description | |||
- Includes statement of conformance with non-LWR PRA Standard ASME/ANS-RA-S-1.4-2021 | |||
- Supporting PRA detailed calculations, models etc. will be maintained in plant design records and available for inspection and audit like other design records 79 of 121 12 | |||
PRA Results | |||
* Compared to recent LWR applications, PRA plays a more central role in the LMP-based safety case | |||
* As a result, the outcomes and products derived from the PRA are used in a number of ways to define, describe and manage an affirmative safety case | |||
- Radionuclide hazards | |||
- Quantification of essential input parameters and assumptions | |||
- Identification of PRA Safety Functions and Required Safety Functions | |||
- Quantification of LBE results represented on F-C Target | |||
- Quantification of cumulative risk evaluation | |||
- Identification of risk-significant uncertainties | |||
* TICAP Guidance Section 2.1.2 points to specific PRA results in: | |||
- Ch 3 Licensing Basis Events | |||
- Ch 4 Defense in Depth 80 of 121 13 | |||
PRA Level of Detail | |||
* PRA LoD is an active topic in tabletop exercises | |||
* LoD guidance is intended to satisfy initial licensing needs and provide only that information needed for life of plant change control | |||
* Continuing discussions on: | |||
- LoD for LMP products derived from PRA results that are expected to change throughout lifetime | |||
- Addressing LBEs with low safety-significance or DID relevance | |||
- Intent is to convey SAR content without unduly restricting flexibility needed for technology-inclusive guidance 81 of 121 14 | |||
LoD for Reliability / Capability Requirements | |||
* Choosing the appropriate level of performance targets that reflects the right mix of effectiveness and flexibility and reduces overall burden is the TICAP intention | |||
* The LoD for addressing safety significant SSC reliability and capability targets needs to be established | |||
- Performance-based statements should be sufficient for performance monitoring and regulatory control and provide some operational flexibility during operational phases 82 of 121 15 | |||
Technology Inclusive Content of Application Project (TICAP) | |||
Tabletop Exercises - Update and Status Brandon Chisholm TICAP - NRC Working Meeting February 25, 2021 83 of 121 16 | |||
Tabletop Exercises Refresher | |||
* Objectives of Tabletop Exercises: | |||
- Technically improve TICAP guidance by obtaining input | |||
- Maximize the usefulness of the guidance by providing examples | |||
- Improve the endorsability of the Guidance Document | |||
* Exercises include meetings between developers and the TICAP team supporting the development of example SAR content by developers | |||
* NRC/Idaho National Laboratory (INL) observation of some meetings to provide an opportunity to look at example SAR content developed using TICAP approach | |||
* TICAP team will document the Tabletop Exercises in reports (i.e., | |||
final deliverables) that will be publicly available 84 of 121 17 | |||
Summary of Tabletop Exercises Developer/ Portions of TICAP Guidance Explored Exercise Focuses NRC-Observed Design Tabletop Meeting X-energy - | |||
* Chapter 2 (Generic Analyses) | |||
* PRA and Risk Insights Held on Feb 3, 2021 Xe-100 | |||
* Chapter 8 (Plant Programs) | |||
* Special Treatments | |||
[HTGR, moving and Plant Programs fuel] | |||
GE Hitachi - VTR | |||
* Section 4.2 (DID) | |||
* Defense in Depth Scheduled for March (w/ INL) | |||
* Chapter 5 (Safety Functions, PDC, and SSC | |||
* External Hazards 5, 2021 | |||
[solid fueled SFR, Categorization) pool-type] | |||
* Chapter 6 (SR SSC Criteria and Capabilities) | |||
* Chapter 7 (NSRST SSC Criteria and Capabilities) | |||
Westinghouse - | |||
* Chapter 5 (Safety Functions, PDC, and SSC | |||
* Design Criteria Mid March 2021 eVinci Categorization) (PDC/CDC) | |||
[micro reactor] | |||
* Section 5.1 (RIPB PDC vs. ARDC) | |||
TerraPower - | |||
* Chapter 3 (LBEs) | |||
* LBE Narrative(s) March 2021 MCRE | |||
* Chapter 5 (Safety Functions, PDC, and SSC | |||
* Design Criteria | |||
[liquid fueled Categorization) (PDC/CDC) | |||
MSR, pool-type] | |||
85 of 121 18 | |||
Early Lessons Learned | |||
* Tabletop exercise work to date has given valuable feedback to TICAP guidance development team | |||
* Some key concepts requiring clear guidance have been highlighted by multiple developers, for example: | |||
- Identification of PDC (and CDC) | |||
- How PDC developed using a RIPB approach differ from PDC identified using a pre-selected approach | |||
- Level of detail for discussion(s) of PRA and reliability/capability requirements 86 of 121 19 | |||
Acronyms Acronym Definition ANS American Nuclear Society AOO Anticipated Operational Occurrence ARCAP Advanced Reactor Content of Application Project ARDC Advanced Reactor Design Criteria ASME American Society of Mechanical Engineers BDBE Beyond Design Basis Event CDC Complementary Design Criteria CFR Code of Federal Regulations DBA Design Basis Accident DBE Design Basis Event DBEHL Design Basis External Hazard Level 87 of 121 20 | |||
Acronyms (cont.) | |||
Acronym Definition DID Defense in Depth F-C Frequency - Consequence FSF Fundamental Safety Function HTGR High Temperature Gas Reactor INL Idaho National Laboratory LBE Licensing Basis Event LMP Licensing Modernization Project LoD Level of Detail LWR Light Water Reactor MCRE Molten Chloride Reactor Experiment MSR Molten Salt Reactor 88 of 121 21 | |||
Acronyms (cont.) | |||
Acronym Definition NEI Nuclear Energy Institute NRC Nuclear Regulatory Commission NSRST Non-Safety-Related with Special Treatment PDC Principal Design Criteria PRA Probabilistic Risk Assessment PSF PRA Safety Function QA Quality Assurance RFDC Required Functional Design Criteria RIPB Risk-Informed, Performance-Based RSF Required Safety Function SAR Safety Analysis Report 89 of 121 22 | |||
Acronyms (cont.) | |||
Acronym Definition SFR Sodium Fast Reactor SR Safety-Related SRDC Safety-Related Design Criteria SSC Structure, System, or Component ST Special Treatment TICAP Technology-Inclusive Content of Application Project VTR Versatile Test Reactor 90 of 121 23 | |||
Status of Technology Inclusive Content of Application Project (TICAP) and Advanced Reactor Content of Application Project (ARCAP) 91 of 121 | |||
===Background=== | |||
* High-level ARCAP proposal discussed during August 2020 and October 2020 TICAP/ARCAP public meetings. Proposal included: | |||
* ARCAP proposed guidance document would provide a roadmap for developing an application | |||
* Roadmap leverages existing guidance or guidance that is under development | |||
* Examples include: | |||
* TICAP developing guidance for portions of application using LMP process | |||
* Emergency planning and security rulemaking will provide insights to this portion of the application | |||
* Roadmap also identifies areas where additional guidance is needed (Technical Specifications). | |||
* ARCAP guidance document not intended to replicate NUREG-0800, Standard Review Plan for LWRs 92 of 121 | |||
Status of TICAP and ARCAP Guidance Documents | |||
* Industry-led TICAP guidance document continues to be developed and refined | |||
* Series of tabletops exercises scheduled to provide feedback for TICAP guidance document development effort. | |||
* February 3, 2021 - First TICAP tabletop exercise (X-Energy) observed by NRC | |||
* Additional TICAP tabletop exercises - three more being scheduled (see December 10, 2020, public meeting slides for details regarding tabletop exercise scope and purpose at ADAMS Accession No. ML20344A057) | |||
* Per recent discussions with Southern, the TICAP guidance document schedule has been revised to reflect: | |||
* Interim Southern-developed TICAP documents that will be provided | |||
* NEI proposed plans for providing industry TICAP guidance document, Revision 0 93 of 121 | |||
Status of TICAP and ARCAP Guidance Documents | |||
* Plans for staff-developed ARCAP guidance documents continue to evolve | |||
* Staff-developed ARCAP sections to be discussed during this meeting: | |||
* ARCAP Roadmap interim staff guidance (ISG) (to be discussed later) | |||
* ARCAP Chapter 11, Organization | |||
* ARCAP Chapter 12, Initial Startup Program | |||
* Previous ARCAP Sections that have been developed include: | |||
* ARCAP Chapter 2, Site Information | |||
* ARCAP Chapter 9, Control of Routine Plant Radioactive Effluents, Plant Contamination, and Solid Waste | |||
* ARCAP Chapter 10, Control of Occupational Dose 94 of 121 | |||
Status of TICAP and ARCAP Guidance Documents | |||
* Timeline from October 22, 2020, public meeting updated to reflect status of ARCAP/TICAP guidance documents | |||
* Changes include timing of industry-developed TICAP guidance documents | |||
* Integration of TICAP and ARCAP guidance documents | |||
* Overall impact is a slip of approximately 3 months for issuance of TICAP and ARCAP guidance documents 95 of 121 | |||
Status of TICAP and ARCAP Guidance Documents | |||
* Assumptions/Discussion Topics Outline (FSAR) | |||
* Industry-developed TICAP guidance document will not include guidance for the 1. General Plant Information, Site Description, and Overview of the Safety specific-portions of the first 8 SAR Case chapters that are outside the scope of the 2. Generic Analyses licensing modernization project (LMP) 3. Licensing Basis Event (LBE) Analysis | |||
: 4. Integrated Plant Analysis | |||
* Examples where guidance is being 5. Safety Functions, Design Criteria, and developed outside the scope of LMP SSC Categorization | |||
: 6. Safety Related SSC Criteria and that could affect the first 8 chapters of Capabilities a SAR are: 7. Non-safety related with special treatment | |||
* Site information - ARCAP SSC Criteria and Capabilities | |||
: 8. Plant Programs chapter 2 9. Control of Routine Plant Radioactive | |||
* ASME Section III, Division 5 high Effluents, Plant Contamination, and Solid Waste temperature design guidance 10. Control of Occupational Doses | |||
* Fuel qualification guidance 11. Organization | |||
: 12. Initial Startup Programs 96 of 121 | |||
Status of TICAP and ARCAP Guidance Documents | |||
* Questions | |||
* How will NRC TICAP RG acknowledge the guidance that is being developed to supplement the industry-led TICAP guidance for the first 8 chapters of the SAR? | |||
* Preliminary thinking is to limit NRC TICAP RG scope to SAR Chapters 1 through 8 associated with the LMP. For areas outside of the LMP for the first 8 chapters the NRC RG would provide supplemental guidance (e.g., ASME Section III, Fuel Qualification). | |||
* ARCAP guidance will include guidance for application areas outside of the first 8 chapters of the SAR that are non-LMP based. | |||
* NRC TICAP RG acknowledges approaches for an applicant not using the LMP. How best to update this guidance as Part 53 addresses this issue? | |||
* How will the NRC issue ARCAP guidance that references guidance still under development that has long lead times (e.g., security and EP rulemaking)? | |||
* Preliminary thinking is that ARCAP roadmap ISG will stay in draft form until guidance under development is finalized 97 of 121 | |||
Timeline for Technology Inclusive Content of Application Project (TICAP) | |||
Guidance and Advanced Reactor Content of Application Project (ARCAP) | |||
Guidance (rev 2/23/2021) | |||
Notes: | |||
* TICAP portion of the application based on applying licensing modernization project process to appropriate portions of an application. | |||
TICAP milestones shown above the timeline | |||
* ARCAP broader than TICAP. Provides roadmap for all portions of an application and encompasses TICAP | |||
* Timeline does not reflect TICAP and ARCAP efforts that started in December of 2019. These early efforts led to the development of the industry-led TICAP Annotated Outline discussed in an October 22, 2020, public meeting and the NRC-led ARCAP outline plan discussed in an August 27, 2020, public meeting NEI Revision 1 of TICAP Guidance Legend Document 12/19/2021 Industry Action NRC/Industry brief ACRS Subcommittee on final TICAP NRC Comments based on TICAP Workshops NRC Staff Action 6/1/2021 guidance NEI Revision 0 of TICAP Guidance 1/12/2022 Industry/NRC Document 7/28/2021 NRC/Industry brief ACRS Joint Action Full Committee on final TICAP Tabletop Exercises 4/2/2021 NRC TICAP Regulatory Guide (Draft) TICAP guidance TICAP Workshops 8/6/2021 2/3/2022 5/2/2021 5/21/2021 NRC/Industry brief ACRS Subcommittee on NRC TICAP TICAP guidance documents (NEI, Rev0 and Regulatory Industry TICAP Annotated Outline Draft NEI TICAP Guidance Document Staff Draft RG) Guide 10/22/2020 4/15/2021 9/8/2021 3/25/2022 Aug Oct Dec Feb Apr Jun Aug Oct Dec Feb 2022 8/27/2020 1/30/2021 8/6/2021 NRC ARCAP entire application outline ARCAP Application Outline Updated to be Draft ARCAP Roadmap ISG, ARCAP ISG for Consistent with TICAP outline "Site Information," and ARCAP Chapters 9, 10, 11, and 12 issued 98 of 121 | |||
Advanced Reactor Content of Application Project (ARCAP) Draft Roadmap Interim Staff Guidance (ISG) Considerations 99 of 121 | |||
Draft ARCAP Roadmap ISG Considerations | |||
* Developed based on ARCAP plan discussed in past public meetings | |||
* Updated ARCAP spreadsheet available at ADAMS Accession No. ML21049A277 | |||
* Spreadsheet provides pointers to various guidance being considered or under development including: | |||
* Pointers to Industry-developed TICAP guidance document (safety analysis report (SAR) Chapters 1 through 8) o As needed, Staff-developed TICAP Reg Guide provides supplemental guidance for these chapters (e.g., | |||
site information, ASME Section III, Division 5, etc.) | |||
* SAR Chapters outside of TICAP scope including: | |||
o ARCAP chapters 9, 10, 11, and 12 | |||
* Portions of the application outside the SAR 100 of 121 | |||
Draft Roadmap ARCAP Roadmap ISG with Performance Based Approach Additional Portions of Application Outline (FSAR) | |||
* Technical Specifications | |||
* Technical Requirements Manual* | |||
: 1. General Plant Information, Site | |||
* Quality Assurance Plan (design) | |||
Description, and Overview of the Safety | |||
* Fire Protection Program (design) | |||
Case | |||
* PRA* | |||
: 2. Generic Analyses | |||
* Quality Assurance Plan (construction | |||
: 3. Licensing Basis Event (LBE) Analysis and operations) | |||
: 4. Integrated Plant Analysis Audit/inspection of Applicant Records | |||
* Emergency Plan | |||
: 5. Safety Functions, Design Criteria, and | |||
* Calculations | |||
* Physical Security Plan SSC Categorization | |||
* Analyses | |||
* SNM physical protection program | |||
* P&IDs | |||
: 6. Safety Related SSC Criteria and | |||
* SNM material control and accounting | |||
* System Descriptions Capabilities | |||
* Design Drawings plan | |||
: 7. Non-safety related with special treatment | |||
* Design Specs | |||
* Cyber Security Plan | |||
* Procurement Specs | |||
* Fire Protection Program SSC Criteria and Capabilities (operational) | |||
: 8. Plant Programs | |||
* Radiation Protection Program | |||
: 9. Control of Routine Plant Radioactive | |||
* Offsite Dose Calculation Manual Effluents, Plant Contamination, and Solid | |||
* Inservice inspection/Inservice testing Waste (ISI/IST) Program | |||
: 10. Control of Occupational Doses | |||
* Environmental Report | |||
: 11. Organization | |||
* Site Redress Plan | |||
: 12. Initial Startup Programs | |||
* Exemptions, Departures, and Variances | |||
* Facility Safety Program (under consideration for Part 53 applications) | |||
Exemptions, departures and variations, new fuel shipping plan, and site redress plan not in ARCAP roadmap ISG at this time. May need to be considered for future applications | |||
* Denotes that expectations regarding the availability of the probabilistic risk assessment and the technical requirements manual as part of the application are a topic of future interactions. | |||
101 of 121 | |||
Draft ARCAP Roadmap ISG Considerations | |||
* Highlights/Topics of Discussion | |||
* ARCAP structure for SAR informed by: | |||
- industry led TICAP annotated outline discussed in October 2020, public meeting (see ADAMS Accession No. ML20294A382) and | |||
- Staff developed annotated outline discussed in an April 2020, public meeting (see ADAMS Accession No. ML20107J565) | |||
* First 8 chapters of Staff-developed TICAP Reg Guide structure: | |||
- Provides pointers to industry-developed TICAP guidance document | |||
- Will describe any additional clarifications/exceptions to TICAP document | |||
- Basis for additional reference section could consider guidance that is referenced in April 2020 annotated outline and fact of life changes since that time | |||
>> As indicated in above slides, industry-led TICAP guidance limited to LMP portions of application found in first 8 chapters of the SAR 102 of 121 | |||
Draft ARCAP Roadmap ISG Considerations | |||
* Highlights/Topics of Discussion | |||
* ARCAP SAR Chapters 9, 10, 11, and 12, are under development and have been discussed in public meetings | |||
- ARCAP Chapters 11 and 12 to be discussed later in this meeting | |||
* ARCAP ISG related to Site Information could be included in SAR Chapter 2 | |||
- Unsure if this will be part of Staff-developed TICAP guidance or Staff-developed ARCAP guidance | |||
* Placeholders for guidance outside of the SAR (e.g., | |||
technical specifications) 103 of 121 | |||
Draft ARCAP Roadmap ISG Considerations | |||
* Next Steps | |||
* As discussed in previous presentation on TICAP/ARCAP schedule there is a need to determine what will be within the scope of NRC RG associated with TICAP and what will be in ARCAP scope | |||
- That is, how will supplemental guidance for SAR Chapters 1 through 8 be captured | |||
* Determine the structure of the ARCAP guidance | |||
- If proposed structure is not workable, then alternate approach/structure needs to be developed | |||
* Need to determine if there are gaps in the TICAP/ARCAP SAR guidance under development | |||
* Need to consider feedback on advanced reactor construction permit guidance and impact it might have on TICAP or ARCAP guidance 104 of 121 | |||
Draft ARCAP Roadmap ISG Considerations | |||
* Next Steps | |||
* ARCAP guidance for portions of application outside of the SAR | |||
- Staff believes that there is a near-term need to develop risk-informed, technology inclusive and performance-based guidance for technical specifications and risk-informed inservice inspection and inservice testing programs | |||
>> Staff would like to understand if industry plans to develop guidance for these items | |||
- Need to determine if there are gaps in guidance for portions of an application outside of the SAR | |||
>> For example, facility safety program being considered for Part 53 is a known gap | |||
- The scope of ARCAP needs to be determined | |||
>> Staff considering whether it is appropriate to have an ARCAP roadmap ISG to support near-term Part 50/52 applications, and a separate ARCAP roadmap ISG for Part 53 applications 105 of 121 | |||
Advanced Reactor Content of Application Project (ARCAP) Chapter 11, Organization, and Chapter 12, Initial Startup Program. | |||
106 of 121 | |||
ARCAP ISG Chapter 11, Organization | |||
* Draft document available in ADAMS at Accession No. ML21049A277 | |||
* APPLICABILITY The following Part 50/52 applications for light water reactors (LWRs), non-LWRs, stationary micro reactors and small modular LWRs: | |||
o A construction permit (CP) or operating license (OL) under 10 CFR Part 50 o A combined license (COL), a design certification (DC), or a standard design approval (SDA) under 10 CFR Part 52 Applications for a power reactor construction permit and operating license under 10 CFR Part 53. | |||
o As the 10 CFR Part 53 requirements are finalized this ISG guidance will be supplemented, as necessary, to provide guidance in the organizational and training areas to reflect any differences in requirements between Part 50/52 and Part 53 107 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Design, Construction, Operating Organization - Key Management Positions For a CP/OL or COL applicant provide, in part: | |||
o Organizational charts of the applicant's corporate-level management, technical support, and operations organizations, including organizational and management structure responsible for direction and support of design and construction of the proposed plant o A general staffing plan for construction, startup testing o Plans (preliminary for CP applicants) for the applicant's operations organization, including a general staffing plan for operations (OL and COL) 108 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Design, Construction, Operating Organization - Key Management Positions (continued) | |||
For the design, construction and preoperational period (DC, SDA, CP/OL or COL), describe key management responsibilities in the following areas: | |||
o Principal site-related engineering studies o Design of safety-significant (i.e., safety-related and non-safety-related with special treatment) SSCs, including SSC design features o Development of probabilistic risk assessment (PRA), | |||
defense-in-depth, and license basis event analysis o Material and component specification review and approval o Procurement of materials and equipment o Management of construction activities o Quality assurance activities for design and construction 109 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Design, Construction, Operating Organization - Key Management Positions (continued) | |||
For the operational period (OL or COL), key management responsibilities in the following areas should be described: | |||
o Nuclear, PRA, mechanical, structural, electrical, thermal-hydraulic, metallurgy and materials, and instrumentation and controls engineering (design and technical support) o Plant chemistry and health physics o Fueling and refueling operations support o Maintenance support o Operations support o Fire protection o Quality assurance o Training o Safety review o Startup testing o Emergency planning o Security 110 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Educational and Experience Requirements for Key Management Personnel The application should describe the educational and experience requirements for each key management position described on previous slides For a CP or COL application, the information should describe the applicants past experience in the design and construction of nuclear power plants The CP or COL applications should include information that demonstrates the ability of the technical staff to support or perform the safety-related activities specified in the application, as applicable, including the level of risk analysis experience available to perform necessary probabilistic risk assessments 111 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Training for Plant Staff Licensed Operator Training o OL and COL application should provide a description and schedule of the training programs for reactor operators and senior reactor operators including the use of a simulator Non-licensed Personnel Training o For OL and COL applicants, describe the training program for non-licensed nuclear plant personnel that meets the requirements of 10 CFR 50.120(b)(2) and (b)(3) | |||
An applicant may provide a commitment to meet the guidelines of Nuclear Energy Institute (NEI) 06-13A, Template for an Industry Training Program Description, for its licensed operator and non-licensed personnel training programs CP applicants should provide commitments to provide the information requested for the OL application 112 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Basis/number of operating shift crews, their staffing and responsibilities Describe the functions, responsibilities, and authorities of the following plant positions (OL or COL): | |||
o operations supervisors o operating shift supervisors/managers o shift technical advisors o reactor operators and senior operators o non-licensed operators The application should describe the shift position titles, applicable operator licensing requirements for each, and the minimum numbers of personnel planned for each shift for all combinations of modules/units proposed to be at the station in either operating or safe shutdown mode 113 of 121 | |||
ARCAP ISG Chapter 11, Organization (cont.) | |||
* Guidance - | |||
Basis/number of operating shift crews, their staffing and responsibilities (continued) | |||
If an exemption is necessary from the licensed operator staffing requirements described in 10 CFR 50.54(m), the applicant should provide a basis for this exemption utilizing the guidance contained in NUREG-1791, Guidance for Assessing Exemption Requests from the Nuclear Power Plant Licensed Operator Staffing Requirements Specified in 10 CFR 50.54(m) | |||
For CP applicants, these plans are not required to be fully developed, provided that the applicant makes commitments to ensure that the staffing plans are included in the OL application 114 of 121 | |||
ARCAP ISG-Chapter 12 | |||
* Applicability: | |||
- ISG-12 (see ADAMS Accession No. ML21049A277) provides guidance for the Initial Startup Program (ISP) for CP, OL, COL, DC, SDA and ML applications. | |||
- ISG-12 has been developed as part of ARCAP, since TICAP does not address this area. | |||
- ISG-12 is written to describe what the NRC reviewer is expected to look for in the review. | |||
- ISG-12 is subject to future revision to be compatible with Part 53. | |||
115 of 121 | |||
ARCAP ISG-Chapter 12 | |||
* Guidance: | |||
- The purpose of the ISP is to demonstrate, to the extent possible, that the safety-related and safety-significant SSCs operate in accordance with the design and as described in the safety analysis report (SAR). | |||
- ISG-12 allows all, or part, of the ISP to be documented in a report separate from the SAR, provided the document is referenced and summarized in the SAR. | |||
116 of 121 | |||
ISG-12: Scope | |||
* Guidance (continued): | |||
- Testing and analysis should be sufficient to demonstrate SSC performance over the full range of operating conditions. | |||
- Risk insights should be used to help focus the testing on the most safety significant conditions. | |||
- Retesting should be done if plant modifications are made. | |||
- Parallels the scope contained in RG 1.68, Initial Test Programs for Water-Cooled Nuclear Power Plants, but expressed in technology inclusive terms in a less prescriptive fashion. | |||
117 of 121 | |||
ARCAP ISG-Chapter 12 | |||
* Guidance (continued): | |||
- The ISP is organized into two phases: | |||
Phase 1 - Preoperational Testing (prior to fuel load) | |||
Phase 2 - Initial Startup (fuel load to power ascension) | |||
- Phase 1 is applicable to all applications. | |||
- Phase 2 is not applicable to CP applications. | |||
- Programmatic items (applicable to all applications) include: | |||
Test descriptions Responsibilities and conduct of the ISP Test sequencing, prerequisites and schedule Use of procedures and qualified personnel Use of plant procedures and Tech Specs ITAAC, if applicable 118 of 121 | |||
ARCAP ISG-Chapter 12 | |||
* Phase 1 Testing: | |||
- Reactivity control features. | |||
- Heat removal system operation and integrity. | |||
- Integrity and operation of functional containment. | |||
- Radioactive waste handling, processing and storage systems | |||
- Radiation and criticality monitoring systems | |||
- Testing required by Codes and Standards. | |||
- Flow induced vibration and thermal expansion. | |||
- I & C and electrical systems. | |||
- Fuel handling and storage systems. | |||
- Support systems. | |||
119 of 121 | |||
ARCAP ISG-Chapter 12 | |||
* Phase 2 Testing: | |||
- Initial fuel loading and reactor physics tests. | |||
- Low power testing. | |||
- Power ascension testing. | |||
- Residual heat removal system testing. | |||
- Gaseous and liquid waste system testing. | |||
- Flow induced vibration and thermal expansion. | |||
- First-of-a-kind, inherent and passive safety feature testing. | |||
120 of 121 | |||
Next Steps - Future Meeting Planning and Open Discussion - Tentative Near-Term Advanced Reactor Public Stakeholder Meetings March 4, 2021 (Part 53) | |||
April 8, 2021 (Part 53) | |||
April 15, 2021 (Periodic) | |||
April 22, 2021 (Part 53 - ACRS Subcommittee) | |||
May 6, 2021 (Part 53) | |||
Next TICAP/ARCAP Meeting? | |||
121 of 121}} |
Latest revision as of 17:44, 20 January 2022
ML21055A541 | |
Person / Time | |
---|---|
Issue date: | 02/25/2021 |
From: | Jordan Hoellman NRC/NRR/DANU/UARP |
To: | |
Hoellman J | |
References | |
Download: ML21055A541 (121) | |
Text
Advanced Reactor Stakeholder and Construction Permit Guidance Public Meeting February 25, 2021 Microsoft Teams Meeting Bridgeline: 301-576-2978 Conference ID: # 157 353 886 1 of 121
Agenda Time Topic Presenter 10:00 - 10:10 am Introduction NRC 10:10 - 12:00pm Construction Permit Guidance NRC
- Discussion of NRC Draft Staff White Paper Safety Review of Power NEI Reactor Construction Permit Applications USNIC
- Nuclear Energy Institute (NEI) Construction Permit (CP) topics Other stakeholders
- U.S. Nuclear Industry Council (USNIC) CP topics
- Stakeholder comments 12 to 1:30 pm Applicability of Regulations NRC/other stakeholders 1:30 to 2:00 pm Break All 2:00 to 3:45 pm Technology Inclusive Content of Application Project (TICAP) and NRC/Southern and Advanced Reactor Content of Application Project (ARCAP). Potential other stakeholders as topics include: appropriate
- Status of TICAP guidance documents (Industry and NRC staff)
- ARCAP roadmap draft guidance document considerations
- Discussion of Draft ARCAP Chapter 11, Organization, and Chapter 12, Initial Startup Program.
3:45 to 4:00 pm Discussion of Possible Dates and Topics for Future Meetings and All Wrapup 2 of 121
Advanced Reactor Integrated Schedule of Activities https://www.nrc.gov/reactors/new-reactors/advanced/
details.html#advSumISRA 3 of 121
Construction Permit Guidance 4 of 121
Construction Permit (CP) Guidance
Background
- June 12, 2020, ARCAP public meeting - Industry commented on the need to develop near-term CP guidance for small light-water reactors (LWR).
- July 31, 2020, ARCAP public meeting - Industry feedback:
- Guidance options (Interim Staff Guidance (ISG), Draft Strategy and Office Instruction) are viable for further consideration.
- ISG option considered most efficient and provides regulatory stability and durability.
- CP guidance development challenges recognized:
- May take 6-9 months to receive needed industry input due to on-going activities supporting DOEs ARDP program.
- First CP application submittals possible by end CY2021/early CY2022.
- Draft CP guidance with application content guidance for critical areas available by Spring 2021 could support possible CP submittal schedule.
5 of 121
CP Guidance Background (continued)
- August 27, 2020, ARCAP public meeting - NRC staff stated it is developing an ISG to clarify:
- CP regulatory requirements and findings necessary for NRC to issue permit.
- Information and level of detail needed in a CP application for NRC to review and issue a construction permit.
- Specific topics; e.g., siting.
- Subsequent to August 27, 2020, ARCAP public meeting:
- NEI indicated it was developing a technology inclusive CP white paper.
- NRC expanded scope of CP guidance to consider LWR and advanced reactor designs based on:
- Scope of NEI white paper, and
- Possible near-term need for CP guidance for non-LWRs.
6 of 121
CP Guidance
- Staff issued Draft White Paper, Safety Review of Power Reactor Construction Permit Applications, (ADAMS Accession No. ML21043A339)
- Draft White Paper Highlights
- Focuses on the safety review of CP applications.
- Tentative plan is to develop further into an ISG.
- CP Guidance consists of three sections:
o Common guidance for both LWR CP applications following NUREG-0800 standard review plan (SRP) structure and advanced reactor CP applications o Guidance applicable to LWR CP applications following NUREG-0800 SRP approach o Guidance applicable to advanced reactor CP applications (i.e.,
Appendix C) 7 of 121
CP Guidance Applicable to both LWRs following NUREG-0800 and Advanced Reactors
- Common Section includes:
- Requirements applicable to CPs o Includes discussion regarding finality
- Lessons Learned from recently issued CPs o Stresses need for preapplication engagement with NRC to optimize application reviews o Early interaction to support common understanding of level of information needed in preliminary safety assessment report (PSAR) to support NRC review o Early interaction to identify areas where only limited descriptions may be provided by applicant along with regulatory commitments to provide the complete information in the operating license application o Staffs CP review is focused on ensuring appropriate use of methodologies for analyses needed to demonstrate that requirements in the regulations are met 8 of 121
CP Guidance Applicable to both LWRs following NUREG-0800 and Advanced Reactors
- Common Section includes:
- Special Topics o Concurrent applications o CP application incorporating prior NRC approvals o Discussion of potential impact of ongoing rulemaking activities on CP reviews o Caution - does not include guidance for obtaining licenses for receipt, possession and use of Source, Byproduct and Special Nuclear Material (10 CFR 40, 30 and 70, respectively) 9 of 121
CP Guidance Applicable to LWRs following NUREG-0800
- Guidance refers to NUREG-0800 with clarifications for a subset of areas for a CP application including:
- Siting
- Radiological consequence analyses
- Transient and accident analyses
- Structures, systems and components (SSC categorization including codes used to design and build the plant)
- Instrumentation and control
- Electrical Systems
- Radiological Waste Management
- The clarifications address a subset of topics that are reviewed in the CP application and not intended to be inclusive of all topics expected in a CP application.
- Regulatory Guides 1.70 and 1.206 provide insights on the level of detail for an LWR CP application consistent with the NUREG-0800 SRP structure.
10 of 121
CP Guidance for Advanced Reactors (Appendix C)
- References Advanced Reactor Content of Application Project (ARCAP) guidance instead of NUREG-0800
- ARCAP guidance is broad and addresses complete application
- ARCAP guidance references technology inclusive content of application project (TICAP) guidance under development
- Uses italics to identify ARCAP/TICAP guidance and industry codes currently under development
- Consistent with:
- Non-Light Water Reactor Review Strategy Staff White Paper, dated September 2019 (ADAMS Accession No. ML19275F299)
- Preapplication Engagement to Optimize Application Reviews January 12, 2021, version (ADAMS Accession No. ML21014A267) 11 of 121
CP Guidance for Advanced Reactors (Appendix C)
- This guidance addresses the minimum information necessary in a CP application for the staff to issue a CP under 10 CFR 50.35(a) when the applicant has not supplied all of the technical information required to complete the application (i.e., 50.34(a)) and support the issuance of a CP which approves all proposed design features (i.e.,
obtains finality for the design).
- Where an applicant desires design finality regarding a specific topic, the application should provide sufficient information about the topic at a level of detail that is expected at the operating license (OL) stage.
12 of 121
CP Guidance for Advanced Reactors (Appendix C)
- Built on ARCAP/TICAP structure
- Alternate approaches to TICAP (which is based on the licensing modernization project (LMP) process) are recognized
- Preapplication engagement with NRC is highly encouraged if applicant chooses an alternate approach to LMP
- Several topical areas identified in Appendix C provide guidance applicable to approaches following NRC RG 1.233 guidance and to alternate approaches, such as:
- Safety and Accident Analysis Methodologies and Associated Validation
- Site Information
- Licensing Basis Event/Design Basis Accident selection 13 of 121
CP Guidance for Advanced Reactors (Appendix C)
- Highlights/Discussion Topics
- 10 CFR 50.35(a)(1) states in part that the Commission may issue a construction permit if it finds that the applicant has identified the major features or components incorporated therein for the protection of the health and safety of the public.
- Confirmation or discussion that this statement applies to safety-related and non-safety related SSC with special treatment following the LMP approach
- Guidance follows the ARCAP/TICAP structure and references industry TICAP CP guidance under development
- Staff would like to have a better understanding of topics to be included in industry guidance and timing for providing this guidance 14 of 121
CP Guidance for Advanced Reactors (Appendix C)
- Highlights/Discussion Topics
- Structure/Content of Appendix C minimizes duplication of guidance
- Points to ARCAP/TICAP guidance and industry codes under development
- How best to ensure that as guidance is developed expectations are clear? Examples include:
- SSC capabilities section follows the TICAP process.
>> Staff considers Design Review Guide for instrumentation and control (I&C) would be useful if applicant using LMP identifies need for I&C that is safety related or non-safety related with special treatment
- Expectation that the application will include consensus design codes and standards (ASME, ANSI, IEEE, etc.) used for the design along with applicability to design of specific SSCs
>> Staff consider ASME Section III Division 5 under development would be included in the CP application as appropriate.
15 of 121
CP Guidance for Advanced Reactors (Appendix C)
- Highlights/Discussion Topics
- How best to ensure that as guidance is developed expectations are clear. Examples include (continued):
- 10 CFR 50.35(a) provides minimum requirements for the PSAR including the following:
Special attention should be directed to the site evaluation factors identified in 10 CFR Part 100:
- References to 100.21(f): Site characteristics must be such that adequate security plans and measures can be developed
- 100.21(g): Physical characteristics unique to the proposed site that could pose a significant impediment to the development of emergency plans must be identified
- 10 CFR Part 50 appendix E requirement that PSAR include preliminary plans for coping with emergencies 16 of 121
CP Guidance for Advanced Reactors (Appendix C)
- Highlights/Discussion Topics
- For emergency planning, guidance uses content requirements similar to an ESP application and includes references to new 10 CFR 50.160 rule:
- Describe any physical characteristics of the proposed site, such as egress limitations from the area surrounding the site, that could pose a significant impediment to the development of emergency plans
- Describe the major features of the emergency plans which are aspects of the plan necessary to:
- Address in whole or part either one or more of the 16 standards in 10 CFR 50.47(b) or the proposed requirements of 10 CFR 50.160(b) , as applicable; or
- Describe the emergency planning zones as required in 10 CFR 50.33(g).
17 of 121
Next Steps
- Consider stakeholder feedback and further develop guidance
- Appendix C - may be issued separately when the draft guidance is more developed 18 of 121
Industry Construction Permit Guidance Task Force initial observations and feedback on NRC Draft CP Guidance February 25, 2021
©2020 Nuclear Energy Institute 19 of 121
NEI CP GUIDANCE TASK FORCE Task Force Observations concerning NRC Draft CP Guidance 20 of 121
Advanced Reactor Design Completeness and Maturity 21 of 121
General Observations on NRC Draft Guidance The guidance for various topics is inconsistent concerning the completeness of design information and analyses necessary at the CP application stage.
Some portions of draft NRC guidance recognize that CP application may include preliminary design information in other parts the guidance seems to specify a more complete set of design information that appears to be more appropriate for the OL stage.
The rationale for the specific topic areas covered in the guidance is unclear vs the use of a comprehensive/methodical review of topics on a chapter by chapter basis.
Appendix C (sections applicable to use of NEI 18-04 methodology) requires more information than appropriate when using the LMP safety case approach in a CP application.
NRC expectations for the PRA for a CP application go beyond what is feasible for a preliminary design.
Appendix C is structured around the use of NEI 18-04 methodology for NLWR applicants and does not provide CP application guidance for NLWR applicants that do not intend to use the licensing approach in NEI 18-04. 22 of 121 ©2020 Nuclear Energy Institute 4
General Observations on NRC Draft Guidance Appendix C has numerous sections that include the following statement:
for applications using the LMP approach, the staff should refer to draft TICAP ISG-XXX, Section 3.1.X for additional information regarding expected CP application content in this area..
These topics will be discussed separately at a later date as a part of ongoing TICAP/NRC interactions on the development of draft TICAP guidance for Section 3 of the guidance document.
23 of 121 ©2020 Nuclear Energy Institute 5
Initial observations divided into 3 categories
- 1. Topics where NRC Draft Guidance provides the appropriate level of detail and flexibility for a CP application;
- 2. Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility for content of a CP application; and
- 3. Topics where NRC Draft Guidance would benefit from additional detail to establish a common understanding of CP application content.
24 of 121 ©2020 Nuclear Energy Institute 6
Examples of Topics where NRC Draft Guidance provides the appropriate level of detail and flexibility Lessons Learned from Recently Issued CPs
- If the PSAR includes preliminary or limited descriptions of the facilitys programs, structures, systems, or components, the staff may accept and approve the application with regulatory commitments from the applicant to provide complete information in its OL application.
- The staff should review the description of plans to perform safety and accident analyses that include testing of applicable SSCs and validation and verification of associated engineering computer programs.
- The staffs construction permit safety review is focused on ensuring appropriate use of analysis methodologies to meet the requirements in the regulations.
App C Security - note that no Physical Security Plan, Security Training and Qualifications Plan, or Safeguards Contingency Plan information is required at the CP stage.
25 of 121 ©2020 Nuclear Energy Institute 7
Examples of Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility
- Fuel qualification - The fuel procurement specification should describe the characteristics the fuel must have to be acceptable. The reviewer should determine how the applicant intends to ensure the as fabricated fuel complies with the procurement specification.
Is it necessary or appropriate to require fuel procurement specifications in a CP application?
- Radiological Consequence Analyses It should be acceptable for a CP application to qualitatively demonstrate that the radiological consequences to the public during a dba are very low (e.g.,
bounding calculations)
If analyses demonstrates that all of the barriers are not damaged in any DBA, is it necessary to provide detailed dose results?
26 of 121 ©2020 Nuclear Energy Institute 8
Examples of Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility
- Transient and Accident Analyses The NRC is expecting more detail/degree of completion in the safety analyses than considered necessary for a CP application.
Discussion of the analysis methods, assumptions and results for the total calculated radiological consequence dose at the exclusion area boundary (EAB), low population zone (LPZ) and control room (if operators are relied upon for safety-significant functions) from the DBAs.
The guidance should allow for qualitative arguments for why certain transients or accidents are bounding.
There are inconsistencies in the allowances for the use of bounding events as providing acceptable detail for the evaluation for credible accidents.
Discussion of the characteristics of fission product releases from the proposed site to the environment including the rates of fission product release, the isotopic quantities and the chemical forms of fission products released to the environment.
27 of 121 ©2020 Nuclear Energy Institute 9
Examples of Topics where NRC Draft Guidance is too prescriptive and does not provide adequate flexibility Integrated Evaluations (Evaluation of Integrated Plant Risk)
- It seems unreasonable to expect these results be available at the CP stage.
- It would be more appropriate to include the approach/methodology and initial, preliminary, results and the remaining actions to get to final level of detail/completion.
- The completion of a comprehensive and detailed PRA may not be achievable in the absence of essentially complete and final detailed design information.
- The Policy Statement on Severe Reactor Accidents Regarding Future Designs and Existing Plants does not specify when a PRA needs to be complete and what level of completion is required.
- The Pedigree of PRA for a CP application as specified is not realistic. It is not reasonable to require that a peer review be performed at the CP stage.
- The description of the PRA methodology is not needed in the application as it is reviewed for acceptability during the peer review. The PRA methodology documents are available for NRC audit.
28 of 121 ©2020 Nuclear Energy Institute 10
Figure 1. Evolution of the PRA as the Plant is Designed, Constructed, and Operated (Excerpt from NRC Staff Draft White Paper: Demonstrating the Acceptability of Probabilistic Risk Assessment Results Used to Support Advanced Non-Light Water Reactor Plant Licensing)
CP application stage: The site has been selected; the PRA represents the conceptual design.
PRAs that support custom COL or CP applications: 29 A offull-scope 121 peer review should be conducted.
Examples of Topics where NRC Draft Guidance would benefit from additional detail
- Include NRCs approach for addressing Aircraft Impact for micro-reactors.
- Confirm NRC views concerning CP applicant programs needed to be in place for construction.
- Provide for additional flexibility in CP application format for NLWR non-LMP applicants.
An option should be provided that moves away from fixed Chapter topics that were created for an LWR applicant. The content of CP application should be focused on methods and approaches with level of detail to support 10 CFR 50.34(a) requirements and applicant-provided acceptance criteria as applicable.
- Allow the complexity of a quality assurance program to be reflective of the complexity and inherent safety of a design.
The intended outcome is to allow simpler designs to implement a quality assurance program that are not overly prescriptive for features that are not relied upon to ensure safe operation.
It is beneficial for an advanced reactor designer to have a QAPD that covers design activities that is flexible enough to be used for any prospective applicant and NRC licensing pathway, as well as any design-specific activities like Part 52 DC or SDAs.
30 of 121 ©2020 Nuclear Energy Institute 12
QUESTIONS?
31 of 121 By Third Way, GENSLER
U.S. Nuclear Industry Council Comments for NRC Stakeholders meeting:
Construction Permit Guidance Cyril Draffin Jeff Hawkins Senior Fellow, Advanced Nuclear EPIC - Energy Production & Infrastructure Center U.S. Nuclear Industry Council University of North Carolina, Charlotte Jeff Merrifield Travis Chapman Chairman, Advanced Nuclear Working Group X- Energy U.S. Nuclear Industry Council 25 February 2021 32 of 121
Construction Permit - Introduction USNIC appreciates NRC providing draft white paper (SAFETY REVIEW OF POWER REACTOR CONSTRUCTION PERMIT APPLICATIONS) to facilitate discussion of the safety review of LWRs and non-LWR construction permit (CP) applications- as precursor to interim staff guidance.
Important because U.S. DOE Advanced Reactor Demo program CP applications expected in next few years Following are some preliminary ideas for consideration 2 l U.S. Nuclear Industry Council February 2021 33 of 121
Construction Permit - Response to NRC Staff -
Major features or Components NRC: How best to ensure that as guidance is developed expectations are clear
- 10 CFR 50.35(a)(1) states in part that the Commission may issue a construction permit if it finds that the applicant has identified the major features or components incorporated therein for the protection of the health and safety of the public.
- Confirmation or discussion that this statement applies to safety- related and non-safety related SSC with special treatment following the LMP approach
Response
o Requires understanding of what constitutes a major feature or component to protect public health and safety. Includes building structures that house, process or store radionuclides o Could identify each system that is present to control reactivity, control heat removal, and retain radionuclides both for normal and off normal events o Next level would be the materials and components that comprise those systems (tanks, vessels, fluids, etc.). Question is where does the detail stop?
o A perspective is the classification of the system or component does not matter much, but what is important is what the system or component does. This raises question about how much of the balance of plant would need to be provided 3 l U.S. Nuclear Industry Council February 2021 34 of 121
Construction Permit - Response to NRC Staff - PSAR
Response
- The PSAR should enable the public to understand how the design is expected to work and the major features that support the facility in safely performing the expected work.
- While the classification of systems is important and will likely be a requirement for the content in a PSAR, it should not be used as a singular selection criteria for content in a PSAR.
Question:
- How much detail would be needed for each system or structure and how close to final design maturity will be needed to pass the review test, and what areas could still permit additional research or refinement while the plant is under construction?
4 l U.S. Nuclear Industry Council February 2021 35 of 121
Construction Permit - Response to NRC Staff -
Guidance NRC: How best to ensure that as guidance is developed the expectations are clear?
Examples include: - SSC capabilities section follows the TICAP process. Staff considers Design Review Guide for instrumentation and control (I&C) would be useful if applicant using LMP identifies need for I&C that is safety related or non-safety related with special treatment Question:
o Would the staff accept anything less than what is in the current Standard Review Plan for I&C systems?
5 l U.S. Nuclear Industry Council February 2021 36 of 121
Construction Permit - Response to NRC Staff -
Emergency Planning (EP)
NRC: For emergency planning, guidance uses content requirements similar to an ESP application and includes references to new 10 CFR 50.160 rule Question:
o Will CP contents require that only impediments to preparing an emergency plan need to be identified, and it would not require the development of any EP at the time of CP application?
Response
o Assume the EP would be developed during construction and final plans would be submitted with the Operating License.
o Discussion of emergency preparedness seems muddled. The cross-referencing of the various regulations does not lead to a fulsome understanding of the requirements for EP.
The most complete discussion presented in Appendix E Part II. Added discussions in the guidance seem to sometimes contradict Appendix E . References to ESP in 50.47 do not provide any better clarity. There is little discussion of how this EP guidance would affect content of a PSAR for a CP.
o This area would benefit from a more cohesive presentation in the next iteration.
6 l U.S. Nuclear Industry Council February 2021 37 of 121
Construction Permit - Comments & Questions Comments:
- TICAP/ARCAP can solve many near-term challenges, but the draft guidance communicates too strong a reliance on those efforts.
- Several types of information are described in a way that suggests near-final level of maturity/detail will be expected, which made it challenging to understand what an acceptable definition of preliminary will be. (PRA results, some transient analyses, aircraft impact?)
- Want consistency of interpretation by field inspectors, and by all stakeholders Questions:
- Do applicants need to meet the 10 CFR 50.55a LWR-centric Codes and Standards?
- Will a preliminary security plan be required?
- How will manufacturing (e.g. for microreactors) be addressed?
7 l U.S. Nuclear Industry Council February 2021 38 of 121
Construction Permit - Discussion of Completeness and Maturity Image shows conceptual thinking to discuss how compliance will be assessed (i.e. What size box of possible information (which will vary in completeness and maturity for different advanced reactor technologies) will be acceptable for CP?
Conceptual Preliminary Final What we may be debating:
where to move these single lines Degree of completeness Conceptual Preliminary Final (how much information is provided)
Degree of maturity (how final is the information provided)
What we desire: this spectrum of 8 l U.S. Nuclear Industry Council February 2021 completeness/maturity 39 of 121 could all be acceptable
Lessons Learned topics that require focus -
Communication & Teaming (consistent interpretation, compliance & execution)
- 1) High-quality Construction Permit applications, with sufficient level of design detail and environmental information, are significant contributor to overall project planning & performance.
- 2) Timely development and maintenance of regulatory guidance and clear acceptance criteria are important to support development of high-quality application as well as contribute to efficient regulatory reviews.
- 3) Strong design standardization contributes to efficient regulatory review while on-going design changes have the opposite effect.
- 4) Early identification and timely resolution of complex technical issues minimize negative impacts on review schedules and project planning.
- 5) Improvements to NRCs management system for requests for additional information (RAIs) can further enhance project knowledge management and contribute to more efficient review.
- 6) Coordinated, consistent reviews of construction permit applications, design certifications and combined license applications contribute to maximizing standardization.
- 7) Evaluation and Integration of Lessons Learned early in the guidance development will contribute to enhancement of licensing process while mitigating potential for change 9 l U.S. Nuclear Industry Council February 2021 40 of 121
Comments/observations to NRC white paper -
non-safety related
- Evaluate and implement a formal guidance to separate (bifurcate) safety related from non-safety related scopes and specifically areas (islands) of the facility and plant boundaries with associated guidance for each. This will have a positive impact on construction permit and project execution.
o NRC charter is public health and safety focus. Primary focus and guidance on safety-related construction will lessen stringent requirements for construction of non-safety related facilities--
providing for more efficient project execution, schedule and realized cost savings. Focusing on safety-related construction will result in less impact on FOAK (First of as Kind) execution, thus providing cost and schedule certainty.
o For example, If turbine or isolated related secondary systems (non safety related) can shut down unexpectedly and not put the public in jeopardy, why is there a need to continue to have the same strict regulations as the primary systems (safety related)?
- Impacts schedule and cost, productivity, resources and supply chain cost and procedures
( Logistics, receipt inspections, etc.)
10 l U.S. Nuclear Industry Council February 2021 41 of 121
Comments/observations to NRC white paper -
specific disciplines
- For all the specific disciplines listed in the white paper (e.g. Instrumentation &
controls, protective coatings, structure system components), separately consider requirements for safety related and non safety characteristics related to scope and materials and components o A graded approach by specific attributes and scope.
o Set guidance to categories each within each discipline.
o Consider to commercial grade dedication acceptance criteria (e.g. EPRI guidance) and incorporate/align in NRC guidance o Review requirements of conditions when fuel declared on site. Provide for acceptance without restricting or impacting construction execution.
11 l U.S. Nuclear Industry Council February 2021 42 of 121
Comments/observations to NRC white paper - ITAAC
- ITAAC (Inspections, Test, Analyses, Acceptance Criteria) process needs to be addressed as it is cumbersome as it integrates into many aspects of turnover.
NRC approves a set of ITAAC at the time of initial licensing, which is intended to provide greater stability and predictability in making the decision whether the plant conformed to the accepted design and could commence operation. (1989 White paper by Steven G Burns, Previous Deputy General Counsel USNRC) o Consideration needed for the ITAAC process to provide for a less taxing and less expensive way to validate compliance without slowing the back end of the project.
o Evaluate streamlining of the ITAAC turnover process o Consideration for collaborative planning of how all or most ITAAC could be incorporated into design and work packages and signed off by NRC along the way.
12 l U.S. Nuclear Industry Council February 2021 43 of 121
Comments/Response to NRC white paper - Codes NRC: Expectation that the application will include consensus design codes and standards (ASME, ANSI, IEEE, etc.) used for the design along with applicability to design of specific SSCs o Staff consider ASME Section III Division 5 under development would be included in the CP application as appropriate.
Response
- Separate Quality Program requirements based upon safety and non-safety components. Bifurcation capability is supported with this approach from construction permitting to project completion.
o Assume NRC will expect to see design codes in the CP PSAR. This gets to the foundation of how the facility will be constructed with the necessary quality to assure the safety
- Appendix B and NQA-1 Program should be considered for application of this approach as well as acceptance of ISO 9000 series, IAEA, and efficient commercial dedication programs that should become an accepted practice and a part of the NRC requirements and acceptance.
o This should not be a duplication of regulations/guidance but compliment/alternative to the existing requirements, while taking advantage of benefits to efficiently achieve the same compliance.
13 l U.S. Nuclear Industry Council February 2021 44 of 121
Comments/observations to NRC white paper -
Digital Twin Utilization
- Evaluate/align/implement and address in the guidance the utilization of Digital Twins modeling platforms and virtual reality systems. These may provide a compliance verification tool from initial permitting to design to construction commissioning and project closeout. Becomes a part of Document Control retention to turnover of basis of maintenance and operations in the future while providing live, Source of Truth utilized by NRC for verbatim compliance verification.
o Will enhance collaboration between the NRC and constructor for pre-planning, design review, execution process and schedule, commissioning and document control, change management, and configuration management and ultimately verbatim compliance with real time processes.
o Will provide simulation for verification and validation of design compliance while addressing change. Providing for a risk informed Regulator with a potential encompassing Source of Truth o Need to resolve response time or requirements associated with design changes under Part 52 (e.g. process similar to 50.59 allowing proceed at risk prior to NRC approval). Digital Twin approach can assist in this.
14 l U.S. Nuclear Industry Council February 2021 45 of 121
Contacts Jeffery P. Hawkins Cyril W. Draffin, Jr.
Energy Production & Infrastructure Center (EPIC),
Senior Fellow, Advanced Nuclear, University of North Carolina, Charlottes (UNCC)
U.S. Nuclear Industry Council Staff Resident Nuclear Industry Expert Cyril.Draffin@usnic.org Retired, Vice President Fluors Nuclear business line; Prior: key management roles in Bechtel and Raytheon JeffHawkins@JHawkconsulting.com Jerey S. Merri"eld Chairman, Advanced Nuclear Working Group, U.S. Nuclear Industry Council Partner, Pillsbury Winthrop Shaw Pittman LLP 15 l U.S. Nuclear Industry Council February 2021 Je.Merri"eld@pillsburylaw.com 46 of 121
NRC Staff Draft White Paper Analysis of Applicability of NRC Regulations for Non-Light Water Reactors - Followup February 2021 47 of 121
Background
- NRC Staff Draft White Paper - Analysis of Applicability of NRC Regulations for Non-Light Water Reactors, issued in 9/2020 (ML20241A017)
- NEI provided feedback regarding the NRC draft white paper in a letter to the NRC on October 30, 2020 (ML20308A662) and at a stakeholder meeting in 12/10/2020 (ML21006A414)
- NRC proposed changes to the Draft White paper at the 12/2020 stakeholder meeting and issued a Draft Appendix providing examples demonstrating compliance and exemptions on 2/18/21 (ML21049A098) 2 48 of 121
Purpose
- Share staff feedback on NEI letter and 12/2020 presentation
- Discuss draft Appendix to NRC Staff Draft White Paper -
Analysis of Applicability of NRC Regulations for Non-Light Water Reactors
- Suggested use of Tables in NRC Staff Draft White Paper 3
49 of 121
Feedback
- We will determine regulatory applicability from a plain language reading of the rule.
- Regulatory applicability in this context was determined for non-LWRs as a group, rather than on a design-specific basis
- We are taking steps to clarify expectations and minimize unnecessary burden for non-LWR applicants.
4 50 of 121
- Seven regulations in 10 CFR Part 52 apply to all power reactors but reference a 10 CFR Part 50 regulation that refers specifically to Light Water Reactors
- The NRC staff will document these exemptions based on design information provided in the application 5
51 of 121
Expectations for Documentation
- For regulations that are assessed as not applicable (N) in the tables of the white paper by the NRC, no further action within the application is necessary for non-LWR applications.
- For regulations that are assessed as applicable in the white paper, applicants will have to demonstrate compliance with the regulation or justify an exemption from the regulation.
- For regulations that are assessed as applicable in the white paper, where the specific design does not meet entry conditions specified in the regulation, no further action is necessary beyond providing information in the application
- E.g., For regulations related to multi-unit sites, no action to meet the regulation beyond specifying the reactor is a single unit somewhere in the application
- For providing information related to regulatory compliance or drafting an exemption from a regulation, staff has provided high level examples of what might be expected for certain regulations.
6 52 of 121
Regulatory Compliance
- As a first step, applicants should consider whether the design already complies with existing regulations.
- To provide additional context on how to comply with and what might be expected for regulations, staff has provided examples as part of the draft appendix:
- 10 CFR 52.79(a)(6) 7 53 of 121
Exemptions
- At this time, NRC expects to prepare exemptions for the items in Table 2 of the white paper
- Exemptions will vary both in content and complexity, and the level of effort and length will vary accordingly. All exemptions (provided by an applicant) should contain:
- A statement identifying the need for NRC approval or need for an exemption.
- The scope and summary of the requested exemption, including identification of the specific portion(s) of the regulation that the exemption is requested from and the relevant design feature(s);
- Relevant justification for the exemption, with references to regulatory guidance and/or requirements (as applicable);
- A technical and regulatory evaluation relative to the regulatory acceptance criteria associated with the request (e.g., Section 50.12); and
- An evaluation against the applicable exemption criteria.
8 54 of 121
Exemptions
- Two examples of expected exemptions are provided in the draft Appendix:
- For emergency response, emergency preparedness, and emergency planning zone regulations (e.g., those in 10 CFR 50.33(g), 50.47(b),
50.47(c)(2), and Appendix E) - applicants can use the proposed rule as part of their justification in conjunction with a technically supported basis that aligns with the proposed rule and regulatory basis
- For the definition of safety-related as it pertains to part (1), the integrity of the reactor coolant pressure boundary - applicants can either comply and use the process laid out in 10 CFR 50.69 for classification, or request a single exemption from all related regulations. In doing so, a technical and regulatory basis considering the specific design would be required, and applicants should consider how changing the definition affects regulatory requirements that apply to the design.
9 55 of 121
Using the Draft White Paper
- Start with Table 3 (Part 50) or Table 5 (Part 52)
- If N no action required
- If Y but regulation does not impose a requirement, no action required
- If Y but specific application does not meet entry condition, application should clearly show why it doesnt meet entry conditions
- If Y with Ref to Table 2, NRC will document these exemptions based on design information provided in the application
- If Y with Ref to Table 1, determine if design needs an exemption in this area
- If Y and design complies with plain language reading of regulation, application should clearly show how this regulation is met
- If "Y" otherwise, request exemption 10 56 of 121
Using the Draft White Paper
- Review Table 4 - Three Mile Island Requirements
- If Y but specific design does not meet entry condition, application should clearly show the design doesnt meet the entry conditions
- If Y but not technically relevant, application should clearly show why this requirement is not technically relevant (as directed in 50.34(f))
- If Y and design complies with plain language reading of regulation, application should clearly show how this regulation is met
- If "Y" otherwise, request exemption
- Review Table 6 - Other Regulations that may apply
- These regulations are listed at a higher level than the previous tables, and the table provides general applicability. Regulations designated as "Y" should be considered, as applicable to the specific application.
11 57 of 121
Questions/Discussion 12 58 of 121
Example:
Applicability of NRC Regulations for Non-LWRs February 25, 2021
©2021 Nuclear Energy Institute 59 of 121
Sept. 2020 NRC Staff Draft White Paper Analysis of Applicability for non-LWRs NRC Table 2 Topical Area Regulation Discussion These provisions reference 10 CFR 10 CFR 52.47(a)(16)
Station Blackout 50.63, which is only applicable to LWRs.
(SBO) Therefore, non-LWR applicants will need 10 CFR 52.137(a)(16) an exemption from these regulations.
NRC further states, in part:
When a non-LWR design, by virtue of its unique attributes, need not comply with one or more of the requirements of a regulation listed in Table 2, the applicant should request an exemption or exemptions from the specific subsection or subsections 60 of 121 of each such regulation.
©2021 Nuclear Energy Institute 2
Applicability determined by underlying safety purpose & technical des. aspects
Purpose:
to ensure that LWRs can withstand a total loss of AC electric power for a specified duration and can maintain core cooling and appropriate containment integrity during that period.
Technical design: Non-LWR A does not need AC electric power for safety functions, including heat removal.
Neither changes based on the use of 10 CFR Part 50 or 10 CFR Part 52 plain language yields an odd and unintended result, because the purpose of the regulation relates to design features that are not present in non-LWR designs 61 of 121 ©2021 Nuclear Energy Institute 3
Maybe Station Blackout is a concern for Non-LWR B AC electric power is needed for some safety functions
- 10 CFR 52.79(a)(9) and 10 CFR 50.63 still may not apply or require an exemption (given LWR focus)
Three possible paths to address Station Blackout
- 1. 10 CFR 52.79(a)(2) and (a)(4) require thorough descriptions and analyses of SSCs, principal design criteria, design bases, etc.
- 2. 10 CFR 52.79(a)(9) compliance by alternative means exemption
- 3. Use entry conditions for the applicability of 10 CFR 52.79(a)(9) exemption 62 of 121 ©2021 Nuclear Energy Institute 4
Option 1 for Non-LWR B 10 CFR 52.79(a)(2) and (a)(4) will address SBO These regulations require applications to include, for example:
- evaluations required to show that safety functions will be accomplished and
- the design bases and its relation to the principal design criteria 10 CFR 52.79(a)(9) will be listed as not applicable Because this regulation references 10 CFR 50.63 which is specific to LWRs, non-LWR B does not need to address it in their application.
63 of 121 ©2021 Nuclear Energy Institute 5
Option 2 for Non-LWR B 10 CFR 52.79(a)(9) compliance by alternative means NRC has noted in previous correspondence to applicants:
- a novel means to perform a required function or include a required design attribute does not necessarily trigger a need for an exemption 10 CFR 52.79(a)(9) will be included in application content Non-LWR B would describe how they meet the underlying safety purpose of 10 CFR 50.63 with non-LWR B technical design characteristics.
64 of 121 ©2021 Nuclear Energy Institute 6
Option 3 using entry conditions Establish entry conditions for 10 CFR 52.79(a)(9)
When a regulation cannot unequivocally be determined not applicable:
- Use clear acceptance criteria for new designs to provide adequate protection of public health & safety
- Extend the logic and experience with recent applicants and the development of RG 1.232 (ARDC), e.g., with respect to offsite power 10 CFR 52.79(a)(9) applicability based on technical design Technology-inclusive, risk-informed, performance-based entry conditions would identify applicability:
- Non-LWR B does need to address SBO.
- Non-LWR A does not need to address 65 of 121 SBO. ©2021 Nuclear Energy Institute 7
Desire more efficient path to disposition regulations that are N/A to non-LWRs Issue Regulations in Part 50 and Part 52 were established around large LWR technology with prescriptive requirements that are specific to features of these designs.
A timely alternative to the exemption process is prudent.
Preferred alternative should Acknowledge technical aspects of non-LWR designs Clearly convey safety focus Consistently treat non-LWR applicants under Pt 50 and Pt 52 licensing processes 66 of 121 ©2021 Nuclear Energy Institute 8
Break Meeting/Webinar will resume shortly Microsoft Teams Meeting Bridgeline: 301-576-2978 Conference ID: 644 910 374#
67 of 121
Technology Inclusive Content of Application Project (TICAP) Presentations Steve Nesbit, LMNT Consulting Ed Wallace, GNBC Associates Brandon Chisholm, Southern Company TICAP - Nuclear Regulatory Commission (NRC) Working Meeting February 25, 2021 68 of 121 1
Outline of Todays TICAP Presentations
- Introduction and Overview (Steve)
- TICAP / Advanced Reactor Content of Application Project (ARCAP)
Integration (Steve)
- Level of Detail (LoD) Task (Ed)
- Tabletop Exercises (Brandon)
Please note that we will be discussing work in progress, not a finished product. We request your indulgence and welcome your feedback.
Also, we have included a list of acronyms at the end of the presentation.
69 of 121 2
TICAP Overview
- Product: Develop an endorsable Guidance Document that proposes an optional formulation of advanced reactor application content that
- Benefits from the insights and knowledge gained through licensing and safely operating the current US-based nuclear fleet for over 40 years to ensure adequacy of proposed content requirements
- Is based on describing a technology-inclusive affirmative safety case that meets the underlying intent of the current requirements
>> To optimize application content (add where additional content is needed and reduce where current content requirements are not commensurate with the contribution to risk)
>> To provide the needed regulatory agility to accommodate review of spectrum of designs that are expected to submit licensing application
- Is risk-informed, performance-based (RIPB) to right size the required information in an application (based on the complexity of the safety case) to increase efficiency of generating and reviewing an application
- Its scope is governed by the Licensing Modernization Project (LMP)-based safety case to facilitate a systematic, technically acceptable, and predictable process for developing a designs affirmative safety case
- Provides similar information as is currently required from a light water reactor (LWR) applicant 70 of 121 3
LMP-Based Safety Case Output- Simplified Diagram When? How?
Required Required Safety Functional SR SSC Design Functions (RSFs) Design Criteria Criteria (SRDC)
(RFDC)
Functions Safety SR SSC SR SSC Special Provided in the Related Performance Treatment Design (SR) SSCs Targets Requirements LBEs from LMP Design Basis Design Basis PRA Safety (AOOs, DBEs, Accidents External Hazard Functions (PSFs) and BDBEs) (DBAs) Levels (DBEHLs)
Input to Design and Frequency- Other Risk Fundamental Consequence Significant Safety Functions and Cumulative Safety Functions Non-SR NSRST SSC (FSFs) NSRST SSC Risk Targets with ST Special Performance Content of Application (NSRST) Treatment Targets SSCs Requirements Other Safety Functions for Adequate DID What? Non-SR Other Safety How Well?
With No ST Functions SSCs (NST) 71 of 121 4
PDC and CDC are answers to How?
Principal Design Criteria (PDC)
Required Required Safety Functional SR SSC Design Functions (RSFs) Design Criteria Criteria (SRDC)
(RFDC)
Frequency-Fundamental Consequence Safety SR SSC SR SSC Special Safety Functions and Cumulative Related Performance Treatment (FSFs)
Risk Targets (SR) SSCs Targets Requirements LBEs from LMP Design Basis Design Basis PRA Safety (AOOs, DBEs, Accidents External Hazard Functions (PSFs) and BDBEs) (DBAs) Levels (DBEHLs)
Other Risk Input to Design and Significant Functions Safety Functions Provided in the Non-SR NSRST SSC NSRST SSC Design with ST Special Performance Content of Application (NSRST) Treatment Targets Other Safety SSCs Requirements Complementary Design Functions for Adequate DID Criteria (CDC)
Non-SR Other Safety With No ST Functions SSCs (NST) 72 of 121 5
TICAP Key Benefits Key Attributes
- Major step towards ofofTICAP industry goal having(continued) safety focused reviews which minimize the burden of generating and supplying non-safety significant information
- Helps NRC and Industry (developers and utilities) establish a common understanding of how to document reasonable assurance of adequate protection for non-LWRs
- Provides a means for submitting a right-sized Part 50 or Part 52 application
- Also informs and supports ongoing efforts to develop a risk-informed, performance-based regulation for advanced reactors (Part 53)
- Addresses important facets of the Nuclear Energy Innovation and Modernization Act
- Reducing regulatory uncertainty by having an endorsed NRC guidance document for evaluating and demonstrating the safety case.
73 of 121 6
Technology-Inclusive Content of Application Project (TICAP)
TICAP / ARCAP Integration Steve Nesbit TICAP - NRC Working Meeting February 25, 2020 74 of 121 7
Visual Depiction of TICAP Guidance in the Context of an Advanced Reactor Application 75 of 121 8
TICAP Schedule
- Tabletop exercises - ongoing (first NRC-observed exercise 2/3)
- 4/15/21: Draft NEI Guidance Document to NRC
- Will factor in lessons-learned from tabletop exercises as available
- Will not include for information appendices
- May 2021: Workshops with NRC on draft guidance document
- To be scheduled
- 6/1/21: Written NRC comments to TICAP team
- 7/28/21: NEI Guidance Document Rev. 0 to NRC
- Fall 2021: NRC/TICAP briefing to the Advisory Committee on Reactor Safeguards
- Dec 2021: NEI Guidance Document Rev. 1 to NRC (if needed) 76 of 121 9
Technology Inclusive Content of Application Project (TICAP)
SAR Level of Detail Ed Wallace TICAP - NRC Working Meeting February 25, 2021 77 of 121 10
SAR Level of Detail Objectives A TICAP objective is to right-size the Level of Detail (LoD) by:
- Using a graded approach, facilitated by the LMP-based safety case
- Using a performance-based approach by stating the performance outcomes and supporting programmatic requirements commensurate with the safety significance of the topic
- The detailed design and programs are part of the design-phase records, available for audit and inspection 78 of 121 11
Probabilistic Risk Assessment (PRA) Guidance
- The SAR is to include A description of the design-specific probabilistic risk assessment (PRA) and its results [10 CFR 52.47(a)(27)]
- Guidance for the PRA description is provided in TICAP Guidance Section 2.1.1
- Summary description
- Includes statement of conformance with non-LWR PRA Standard ASME/ANS-RA-S-1.4-2021
- Supporting PRA detailed calculations, models etc. will be maintained in plant design records and available for inspection and audit like other design records 79 of 121 12
PRA Results
- As a result, the outcomes and products derived from the PRA are used in a number of ways to define, describe and manage an affirmative safety case
- Radionuclide hazards
- Quantification of essential input parameters and assumptions
- Identification of PRA Safety Functions and Required Safety Functions
- Quantification of LBE results represented on F-C Target
- Quantification of cumulative risk evaluation
- Identification of risk-significant uncertainties
- TICAP Guidance Section 2.1.2 points to specific PRA results in:
- Ch 3 Licensing Basis Events
- Ch 4 Defense in Depth 80 of 121 13
PRA Level of Detail
- PRA LoD is an active topic in tabletop exercises
- LoD guidance is intended to satisfy initial licensing needs and provide only that information needed for life of plant change control
- Continuing discussions on:
- LoD for LMP products derived from PRA results that are expected to change throughout lifetime
- Addressing LBEs with low safety-significance or DID relevance
- Intent is to convey SAR content without unduly restricting flexibility needed for technology-inclusive guidance 81 of 121 14
LoD for Reliability / Capability Requirements
- Choosing the appropriate level of performance targets that reflects the right mix of effectiveness and flexibility and reduces overall burden is the TICAP intention
- The LoD for addressing safety significant SSC reliability and capability targets needs to be established
- Performance-based statements should be sufficient for performance monitoring and regulatory control and provide some operational flexibility during operational phases 82 of 121 15
Technology Inclusive Content of Application Project (TICAP)
Tabletop Exercises - Update and Status Brandon Chisholm TICAP - NRC Working Meeting February 25, 2021 83 of 121 16
Tabletop Exercises Refresher
- Objectives of Tabletop Exercises:
- Technically improve TICAP guidance by obtaining input
- Maximize the usefulness of the guidance by providing examples
- Improve the endorsability of the Guidance Document
- Exercises include meetings between developers and the TICAP team supporting the development of example SAR content by developers
- NRC/Idaho National Laboratory (INL) observation of some meetings to provide an opportunity to look at example SAR content developed using TICAP approach
- TICAP team will document the Tabletop Exercises in reports (i.e.,
final deliverables) that will be publicly available 84 of 121 17
Summary of Tabletop Exercises Developer/ Portions of TICAP Guidance Explored Exercise Focuses NRC-Observed Design Tabletop Meeting X-energy -
- Chapter 2 (Generic Analyses)
- Chapter 8 (Plant Programs)
- Special Treatments
[HTGR, moving and Plant Programs fuel]
GE Hitachi - VTR
- Section 4.2 (DID)
- Defense in Depth Scheduled for March (w/ INL)
- External Hazards 5, 2021
[solid fueled SFR, Categorization) pool-type]
- Chapter 6 (SR SSC Criteria and Capabilities)
- Chapter 7 (NSRST SSC Criteria and Capabilities)
- Design Criteria Mid March 2021 eVinci Categorization) (PDC/CDC)
[micro reactor]
TerraPower -
- Chapter 3 (LBEs)
- LBE Narrative(s) March 2021 MCRE
- Design Criteria
[liquid fueled Categorization) (PDC/CDC)
MSR, pool-type]
85 of 121 18
Early Lessons Learned
- Tabletop exercise work to date has given valuable feedback to TICAP guidance development team
- Some key concepts requiring clear guidance have been highlighted by multiple developers, for example:
- Identification of PDC (and CDC)
- How PDC developed using a RIPB approach differ from PDC identified using a pre-selected approach
- Level of detail for discussion(s) of PRA and reliability/capability requirements 86 of 121 19
Acronyms Acronym Definition ANS American Nuclear Society AOO Anticipated Operational Occurrence ARCAP Advanced Reactor Content of Application Project ARDC Advanced Reactor Design Criteria ASME American Society of Mechanical Engineers BDBE Beyond Design Basis Event CDC Complementary Design Criteria CFR Code of Federal Regulations DBA Design Basis Accident DBE Design Basis Event DBEHL Design Basis External Hazard Level 87 of 121 20
Acronyms (cont.)
Acronym Definition DID Defense in Depth F-C Frequency - Consequence FSF Fundamental Safety Function HTGR High Temperature Gas Reactor INL Idaho National Laboratory LBE Licensing Basis Event LMP Licensing Modernization Project LoD Level of Detail LWR Light Water Reactor MCRE Molten Chloride Reactor Experiment MSR Molten Salt Reactor 88 of 121 21
Acronyms (cont.)
Acronym Definition NEI Nuclear Energy Institute NRC Nuclear Regulatory Commission NSRST Non-Safety-Related with Special Treatment PDC Principal Design Criteria PRA Probabilistic Risk Assessment PSF PRA Safety Function QA Quality Assurance RFDC Required Functional Design Criteria RIPB Risk-Informed, Performance-Based RSF Required Safety Function SAR Safety Analysis Report 89 of 121 22
Acronyms (cont.)
Acronym Definition SFR Sodium Fast Reactor SR Safety-Related SRDC Safety-Related Design Criteria SSC Structure, System, or Component ST Special Treatment TICAP Technology-Inclusive Content of Application Project VTR Versatile Test Reactor 90 of 121 23
Status of Technology Inclusive Content of Application Project (TICAP) and Advanced Reactor Content of Application Project (ARCAP) 91 of 121
Background
- High-level ARCAP proposal discussed during August 2020 and October 2020 TICAP/ARCAP public meetings. Proposal included:
- ARCAP proposed guidance document would provide a roadmap for developing an application
- Roadmap leverages existing guidance or guidance that is under development
- Examples include:
- TICAP developing guidance for portions of application using LMP process
- Emergency planning and security rulemaking will provide insights to this portion of the application
- Roadmap also identifies areas where additional guidance is needed (Technical Specifications).
- ARCAP guidance document not intended to replicate NUREG-0800, Standard Review Plan for LWRs 92 of 121
Status of TICAP and ARCAP Guidance Documents
- Industry-led TICAP guidance document continues to be developed and refined
- Series of tabletops exercises scheduled to provide feedback for TICAP guidance document development effort.
- February 3, 2021 - First TICAP tabletop exercise (X-Energy) observed by NRC
- Additional TICAP tabletop exercises - three more being scheduled (see December 10, 2020, public meeting slides for details regarding tabletop exercise scope and purpose at ADAMS Accession No. ML20344A057)
- Per recent discussions with Southern, the TICAP guidance document schedule has been revised to reflect:
- Interim Southern-developed TICAP documents that will be provided
- NEI proposed plans for providing industry TICAP guidance document, Revision 0 93 of 121
Status of TICAP and ARCAP Guidance Documents
- Plans for staff-developed ARCAP guidance documents continue to evolve
- Staff-developed ARCAP sections to be discussed during this meeting:
- ARCAP Roadmap interim staff guidance (ISG) (to be discussed later)
- ARCAP Chapter 11, Organization
- ARCAP Chapter 12, Initial Startup Program
- Previous ARCAP Sections that have been developed include:
- ARCAP Chapter 2, Site Information
- ARCAP Chapter 9, Control of Routine Plant Radioactive Effluents, Plant Contamination, and Solid Waste
- ARCAP Chapter 10, Control of Occupational Dose 94 of 121
Status of TICAP and ARCAP Guidance Documents
- Timeline from October 22, 2020, public meeting updated to reflect status of ARCAP/TICAP guidance documents
- Changes include timing of industry-developed TICAP guidance documents
- Integration of TICAP and ARCAP guidance documents
- Overall impact is a slip of approximately 3 months for issuance of TICAP and ARCAP guidance documents 95 of 121
Status of TICAP and ARCAP Guidance Documents
- Assumptions/Discussion Topics Outline (FSAR)
- Industry-developed TICAP guidance document will not include guidance for the 1. General Plant Information, Site Description, and Overview of the Safety specific-portions of the first 8 SAR Case chapters that are outside the scope of the 2. Generic Analyses licensing modernization project (LMP) 3. Licensing Basis Event (LBE) Analysis
- 4. Integrated Plant Analysis
- Examples where guidance is being 5. Safety Functions, Design Criteria, and developed outside the scope of LMP SSC Categorization
- 6. Safety Related SSC Criteria and that could affect the first 8 chapters of Capabilities a SAR are: 7. Non-safety related with special treatment
- Site information - ARCAP SSC Criteria and Capabilities
- 8. Plant Programs chapter 2 9. Control of Routine Plant Radioactive
- ASME Section III, Division 5 high Effluents, Plant Contamination, and Solid Waste temperature design guidance 10. Control of Occupational Doses
- Fuel qualification guidance 11. Organization
- 12. Initial Startup Programs 96 of 121
Status of TICAP and ARCAP Guidance Documents
- Questions
- How will NRC TICAP RG acknowledge the guidance that is being developed to supplement the industry-led TICAP guidance for the first 8 chapters of the SAR?
- Preliminary thinking is to limit NRC TICAP RG scope to SAR Chapters 1 through 8 associated with the LMP. For areas outside of the LMP for the first 8 chapters the NRC RG would provide supplemental guidance (e.g., ASME Section III, Fuel Qualification).
- ARCAP guidance will include guidance for application areas outside of the first 8 chapters of the SAR that are non-LMP based.
- NRC TICAP RG acknowledges approaches for an applicant not using the LMP. How best to update this guidance as Part 53 addresses this issue?
- How will the NRC issue ARCAP guidance that references guidance still under development that has long lead times (e.g., security and EP rulemaking)?
- Preliminary thinking is that ARCAP roadmap ISG will stay in draft form until guidance under development is finalized 97 of 121
Timeline for Technology Inclusive Content of Application Project (TICAP)
Guidance and Advanced Reactor Content of Application Project (ARCAP)
Guidance (rev 2/23/2021)
Notes:
- TICAP portion of the application based on applying licensing modernization project process to appropriate portions of an application.
TICAP milestones shown above the timeline
- ARCAP broader than TICAP. Provides roadmap for all portions of an application and encompasses TICAP
- Timeline does not reflect TICAP and ARCAP efforts that started in December of 2019. These early efforts led to the development of the industry-led TICAP Annotated Outline discussed in an October 22, 2020, public meeting and the NRC-led ARCAP outline plan discussed in an August 27, 2020, public meeting NEI Revision 1 of TICAP Guidance Legend Document 12/19/2021 Industry Action NRC/Industry brief ACRS Subcommittee on final TICAP NRC Comments based on TICAP Workshops NRC Staff Action 6/1/2021 guidance NEI Revision 0 of TICAP Guidance 1/12/2022 Industry/NRC Document 7/28/2021 NRC/Industry brief ACRS Joint Action Full Committee on final TICAP Tabletop Exercises 4/2/2021 NRC TICAP Regulatory Guide (Draft) TICAP guidance TICAP Workshops 8/6/2021 2/3/2022 5/2/2021 5/21/2021 NRC/Industry brief ACRS Subcommittee on NRC TICAP TICAP guidance documents (NEI, Rev0 and Regulatory Industry TICAP Annotated Outline Draft NEI TICAP Guidance Document Staff Draft RG) Guide 10/22/2020 4/15/2021 9/8/2021 3/25/2022 Aug Oct Dec Feb Apr Jun Aug Oct Dec Feb 2022 8/27/2020 1/30/2021 8/6/2021 NRC ARCAP entire application outline ARCAP Application Outline Updated to be Draft ARCAP Roadmap ISG, ARCAP ISG for Consistent with TICAP outline "Site Information," and ARCAP Chapters 9, 10, 11, and 12 issued 98 of 121
Advanced Reactor Content of Application Project (ARCAP) Draft Roadmap Interim Staff Guidance (ISG) Considerations 99 of 121
Draft ARCAP Roadmap ISG Considerations
- Developed based on ARCAP plan discussed in past public meetings
- Updated ARCAP spreadsheet available at ADAMS Accession No. ML21049A277
- Spreadsheet provides pointers to various guidance being considered or under development including:
- Pointers to Industry-developed TICAP guidance document (safety analysis report (SAR) Chapters 1 through 8) o As needed, Staff-developed TICAP Reg Guide provides supplemental guidance for these chapters (e.g.,
site information, ASME Section III, Division 5, etc.)
- SAR Chapters outside of TICAP scope including:
o ARCAP chapters 9, 10, 11, and 12
- Portions of the application outside the SAR 100 of 121
Draft Roadmap ARCAP Roadmap ISG with Performance Based Approach Additional Portions of Application Outline (FSAR)
- Technical Specifications
- Technical Requirements Manual*
- 1. General Plant Information, Site
- Quality Assurance Plan (design)
Description, and Overview of the Safety
- Fire Protection Program (design)
Case
- PRA*
- 2. Generic Analyses
- Quality Assurance Plan (construction
- 3. Licensing Basis Event (LBE) Analysis and operations)
- 4. Integrated Plant Analysis Audit/inspection of Applicant Records
- 5. Safety Functions, Design Criteria, and
- Calculations
- Physical Security Plan SSC Categorization
- Analyses
- SNM physical protection program
- 6. Safety Related SSC Criteria and
- SNM material control and accounting
- System Descriptions Capabilities
- Design Drawings plan
- 7. Non-safety related with special treatment
- Design Specs
- Cyber Security Plan
- Procurement Specs
- Fire Protection Program SSC Criteria and Capabilities (operational)
- 8. Plant Programs
- Radiation Protection Program
- 9. Control of Routine Plant Radioactive
- Offsite Dose Calculation Manual Effluents, Plant Contamination, and Solid
- Inservice inspection/Inservice testing Waste (ISI/IST) Program
- 10. Control of Occupational Doses
- Environmental Report
- 11. Organization
- Site Redress Plan
- 12. Initial Startup Programs
- Exemptions, Departures, and Variances
- Facility Safety Program (under consideration for Part 53 applications)
Exemptions, departures and variations, new fuel shipping plan, and site redress plan not in ARCAP roadmap ISG at this time. May need to be considered for future applications
- Denotes that expectations regarding the availability of the probabilistic risk assessment and the technical requirements manual as part of the application are a topic of future interactions.
101 of 121
Draft ARCAP Roadmap ISG Considerations
- Highlights/Topics of Discussion
- ARCAP structure for SAR informed by:
- industry led TICAP annotated outline discussed in October 2020, public meeting (see ADAMS Accession No. ML20294A382) and
- Staff developed annotated outline discussed in an April 2020, public meeting (see ADAMS Accession No. ML20107J565)
- First 8 chapters of Staff-developed TICAP Reg Guide structure:
- Provides pointers to industry-developed TICAP guidance document
- Will describe any additional clarifications/exceptions to TICAP document
- Basis for additional reference section could consider guidance that is referenced in April 2020 annotated outline and fact of life changes since that time
>> As indicated in above slides, industry-led TICAP guidance limited to LMP portions of application found in first 8 chapters of the SAR 102 of 121
Draft ARCAP Roadmap ISG Considerations
- Highlights/Topics of Discussion
- ARCAP SAR Chapters 9, 10, 11, and 12, are under development and have been discussed in public meetings
- ARCAP Chapters 11 and 12 to be discussed later in this meeting
- Unsure if this will be part of Staff-developed TICAP guidance or Staff-developed ARCAP guidance
- Placeholders for guidance outside of the SAR (e.g.,
technical specifications) 103 of 121
Draft ARCAP Roadmap ISG Considerations
- Next Steps
- As discussed in previous presentation on TICAP/ARCAP schedule there is a need to determine what will be within the scope of NRC RG associated with TICAP and what will be in ARCAP scope
- That is, how will supplemental guidance for SAR Chapters 1 through 8 be captured
- Determine the structure of the ARCAP guidance
- If proposed structure is not workable, then alternate approach/structure needs to be developed
- Need to determine if there are gaps in the TICAP/ARCAP SAR guidance under development
- Need to consider feedback on advanced reactor construction permit guidance and impact it might have on TICAP or ARCAP guidance 104 of 121
Draft ARCAP Roadmap ISG Considerations
- Next Steps
- ARCAP guidance for portions of application outside of the SAR
- Staff believes that there is a near-term need to develop risk-informed, technology inclusive and performance-based guidance for technical specifications and risk-informed inservice inspection and inservice testing programs
>> Staff would like to understand if industry plans to develop guidance for these items
- Need to determine if there are gaps in guidance for portions of an application outside of the SAR
>> For example, facility safety program being considered for Part 53 is a known gap
- The scope of ARCAP needs to be determined
>> Staff considering whether it is appropriate to have an ARCAP roadmap ISG to support near-term Part 50/52 applications, and a separate ARCAP roadmap ISG for Part 53 applications 105 of 121
Advanced Reactor Content of Application Project (ARCAP) Chapter 11, Organization, and Chapter 12, Initial Startup Program.
106 of 121
ARCAP ISG Chapter 11, Organization
- Draft document available in ADAMS at Accession No. ML21049A277
- APPLICABILITY The following Part 50/52 applications for light water reactors (LWRs), non-LWRs, stationary micro reactors and small modular LWRs:
o A construction permit (CP) or operating license (OL) under 10 CFR Part 50 o A combined license (COL), a design certification (DC), or a standard design approval (SDA) under 10 CFR Part 52 Applications for a power reactor construction permit and operating license under 10 CFR Part 53.
o As the 10 CFR Part 53 requirements are finalized this ISG guidance will be supplemented, as necessary, to provide guidance in the organizational and training areas to reflect any differences in requirements between Part 50/52 and Part 53 107 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Design, Construction, Operating Organization - Key Management Positions For a CP/OL or COL applicant provide, in part:
o Organizational charts of the applicant's corporate-level management, technical support, and operations organizations, including organizational and management structure responsible for direction and support of design and construction of the proposed plant o A general staffing plan for construction, startup testing o Plans (preliminary for CP applicants) for the applicant's operations organization, including a general staffing plan for operations (OL and COL) 108 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Design, Construction, Operating Organization - Key Management Positions (continued)
For the design, construction and preoperational period (DC, SDA, CP/OL or COL), describe key management responsibilities in the following areas:
o Principal site-related engineering studies o Design of safety-significant (i.e., safety-related and non-safety-related with special treatment) SSCs, including SSC design features o Development of probabilistic risk assessment (PRA),
defense-in-depth, and license basis event analysis o Material and component specification review and approval o Procurement of materials and equipment o Management of construction activities o Quality assurance activities for design and construction 109 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Design, Construction, Operating Organization - Key Management Positions (continued)
For the operational period (OL or COL), key management responsibilities in the following areas should be described:
o Nuclear, PRA, mechanical, structural, electrical, thermal-hydraulic, metallurgy and materials, and instrumentation and controls engineering (design and technical support) o Plant chemistry and health physics o Fueling and refueling operations support o Maintenance support o Operations support o Fire protection o Quality assurance o Training o Safety review o Startup testing o Emergency planning o Security 110 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Educational and Experience Requirements for Key Management Personnel The application should describe the educational and experience requirements for each key management position described on previous slides For a CP or COL application, the information should describe the applicants past experience in the design and construction of nuclear power plants The CP or COL applications should include information that demonstrates the ability of the technical staff to support or perform the safety-related activities specified in the application, as applicable, including the level of risk analysis experience available to perform necessary probabilistic risk assessments 111 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Training for Plant Staff Licensed Operator Training o OL and COL application should provide a description and schedule of the training programs for reactor operators and senior reactor operators including the use of a simulator Non-licensed Personnel Training o For OL and COL applicants, describe the training program for non-licensed nuclear plant personnel that meets the requirements of 10 CFR 50.120(b)(2) and (b)(3)
An applicant may provide a commitment to meet the guidelines of Nuclear Energy Institute (NEI)06-13A, Template for an Industry Training Program Description, for its licensed operator and non-licensed personnel training programs CP applicants should provide commitments to provide the information requested for the OL application 112 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Basis/number of operating shift crews, their staffing and responsibilities Describe the functions, responsibilities, and authorities of the following plant positions (OL or COL):
o operations supervisors o operating shift supervisors/managers o shift technical advisors o reactor operators and senior operators o non-licensed operators The application should describe the shift position titles, applicable operator licensing requirements for each, and the minimum numbers of personnel planned for each shift for all combinations of modules/units proposed to be at the station in either operating or safe shutdown mode 113 of 121
ARCAP ISG Chapter 11, Organization (cont.)
- Guidance -
Basis/number of operating shift crews, their staffing and responsibilities (continued)
If an exemption is necessary from the licensed operator staffing requirements described in 10 CFR 50.54(m), the applicant should provide a basis for this exemption utilizing the guidance contained in NUREG-1791, Guidance for Assessing Exemption Requests from the Nuclear Power Plant Licensed Operator Staffing Requirements Specified in 10 CFR 50.54(m)
For CP applicants, these plans are not required to be fully developed, provided that the applicant makes commitments to ensure that the staffing plans are included in the OL application 114 of 121
ARCAP ISG-Chapter 12
- Applicability:
- ISG-12 (see ADAMS Accession No. ML21049A277) provides guidance for the Initial Startup Program (ISP) for CP, OL, COL, DC, SDA and ML applications.
- ISG-12 has been developed as part of ARCAP, since TICAP does not address this area.
- ISG-12 is written to describe what the NRC reviewer is expected to look for in the review.
- ISG-12 is subject to future revision to be compatible with Part 53.
115 of 121
ARCAP ISG-Chapter 12
- Guidance:
- The purpose of the ISP is to demonstrate, to the extent possible, that the safety-related and safety-significant SSCs operate in accordance with the design and as described in the safety analysis report (SAR).
- ISG-12 allows all, or part, of the ISP to be documented in a report separate from the SAR, provided the document is referenced and summarized in the SAR.
116 of 121
ISG-12: Scope
- Guidance (continued):
- Testing and analysis should be sufficient to demonstrate SSC performance over the full range of operating conditions.
- Risk insights should be used to help focus the testing on the most safety significant conditions.
- Retesting should be done if plant modifications are made.
- Parallels the scope contained in RG 1.68, Initial Test Programs for Water-Cooled Nuclear Power Plants, but expressed in technology inclusive terms in a less prescriptive fashion.
117 of 121
ARCAP ISG-Chapter 12
- Guidance (continued):
- The ISP is organized into two phases:
Phase 1 - Preoperational Testing (prior to fuel load)
Phase 2 - Initial Startup (fuel load to power ascension)
- Phase 1 is applicable to all applications.
- Phase 2 is not applicable to CP applications.
- Programmatic items (applicable to all applications) include:
Test descriptions Responsibilities and conduct of the ISP Test sequencing, prerequisites and schedule Use of procedures and qualified personnel Use of plant procedures and Tech Specs ITAAC, if applicable 118 of 121
ARCAP ISG-Chapter 12
- Phase 1 Testing:
- Reactivity control features.
- Heat removal system operation and integrity.
- Integrity and operation of functional containment.
- Radioactive waste handling, processing and storage systems
- Radiation and criticality monitoring systems
- Testing required by Codes and Standards.
- Flow induced vibration and thermal expansion.
- I & C and electrical systems.
- Fuel handling and storage systems.
- Support systems.
119 of 121
ARCAP ISG-Chapter 12
- Phase 2 Testing:
- Initial fuel loading and reactor physics tests.
- Low power testing.
- Power ascension testing.
- Residual heat removal system testing.
- Gaseous and liquid waste system testing.
- Flow induced vibration and thermal expansion.
- First-of-a-kind, inherent and passive safety feature testing.
120 of 121
Next Steps - Future Meeting Planning and Open Discussion - Tentative Near-Term Advanced Reactor Public Stakeholder Meetings March 4, 2021 (Part 53)
April 8, 2021 (Part 53)
April 15, 2021 (Periodic)
April 22, 2021 (Part 53 - ACRS Subcommittee)
May 6, 2021 (Part 53)
Next TICAP/ARCAP Meeting?
121 of 121