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U.S. Nuclear Regulatory Commission Staff Report of Regulatory Audit for Nuscale Power, LLC; Follow-Up Audit of Component Design Specifications
	ML19018A140
Person / Time
Site:	NuScale
Issue date:	02/11/2019
From:	Amadiz Marieliz Vera; NRC/NRO/DLSE/LB1
To:	Samson Lee; NRC/NRO/DLSE/LB1
	Vera A M/nro/5861
References
	Download: ML19018A140 (55)
	v • d • e

February 11, 2019 MEMORANDUM TO:

Samuel S. Lee, Chief Licensing Branch 1 Division of Licensing, Siting, and Environmental Assessment Office of New Reactors FROM:

Marieliz Vera, Project Manager

/RA/

Licensing Branch 1 Division of Licensing, Siting, and Environmental Assessment Office of New Reactors

SUBJECT:

U.S. NUCLEAR REGULATORY COMMISSION STAFFS REPORT OF REGULATORY AUDIT FOR NUSCALE POWER, LLC; FOLLOW-UP AUDIT OF COMPONENT DESIGN SPECIFICATIONS On January 6, 2017, NuScale Power, LLC (NuScale) submitted a design certification (DC) application, for a Small Modular Reactor, to the U.S. Nuclear Regulatory Commission (NRC)

(Agencywide Documents Access and Management System (ADAMS) Accession Number ML17013A229). The NRC staff started its detailed technical review of NuScales DC application on March 15, 2017.

The NRC staff conducted an audit of component design specifications associated with the NuScale DC application, Final Safety Analysis Report (FSAR), Sections 3.2, 3.8.2, 3.9.5, 3.9.6, 3.10, and 3.11. The audit was initiated on May 14, 2018, and ran through October 8, 2018, in accordance with the audit plan in ADAMS (ML18114A055).

The purpose of the audit was to: (1) gain a better understanding of the NuScale design; (2) verify information; (3) identify information that may require docketing to support the basis of the licensing or regulatory decision; and (4) review related documentation and non-docketed information to evaluate conformance with regulatory guidance and compliance with NRC regulations.

The audit was performed to gain a better understanding of the component design, qualification and classification in support of the NuScale Standard Plant DC application are being performed in accordance with the methodology and criteria described in the NuScale FSAR.

CONTACT: Marieliz Vera, NRO/DNRL 301-415-5861

The NRC staff conducted the audit via access to NuScales electronic reading room. The audit was conducted in accordance with the NRC Office of New Reactors (NRO) Office Instruction NRO-REG-108, Regulatory Audits.

The publicly available version of the audit report is provided as Enclosure 1. The List of Attendees is provided as Enclosure 2 and a List of RAI Questions for the audit is attached.

Docket No.52-048

Enclosures:

As stated cc: NuScale DC ListServ

SUBJECT:

U.S. NUCLEAR REGULATORY COMMISSION STAFF REPORT OF REGULATORY AUDIT FOR NUSCALE POWER, LLC; FOLLOW-UP AUDIT OF COMPONENT DESIGN SPECIFICATIONS DATED: February 11, 2019 DISTRIBUTION:

PUBLIC LB1 R/F SLee, NRO MVera, NRO CSmith, NRO TLupold, NRO TLe, NRO CWu, NRO TScarbrough, NRO JHuang, NRO YLaw, NRO MBreach, NRR SLu, NRO RidsNroDnrlLB1 RidsOgcMailCenter RidsOpaMailCenter RidsAcrsAcnwMailCenter ADAMS Accession No.: ML19018A140

via email NRO-002 OFFICE NRO/DLSE/LB1: PM NRO/DNRL/LB1: LA NRO/DEI/MEB: BC NRO/DLSE/LB1: PM NAME MVera CSmith TLupold MVera DATE 01/18/2019 02/06/2019 12/21/2018 02/11/2019 OFFICIAL RECORD

U.S. NUCLEAR REGULATORY COMMISSION STAFF REPORT OF REGULATORY AUDIT FOR NUSCALE POWER, LLC; FOLLOW-UP AUDIT OF COMPONENT DESIGN SPECIFICATIONS May 14, 2018 - October 8, 2018 NRC Audit Team:

Tuan Le, NRO Mechanical Engineer (U.S. Nuclear Regulatory Commission (NRC), Audit Lead Cheng-Ih (John) Wu, Mechanical Engineer (NRC)

Thomas G. Scarbrough, Senior Mechanical Engineer (NRC)

James Strnisha, Mechanical Engineer (NRC)

Jason Huang, Mechanical Engineer (NRC)

Yiu Law, Mechanical Engineer (NRC)

Michael Breach, Mechanical Engineer (NRC)

Marieliz Vera Amadiz, Project Manager (NRC)

1.0 BACKGROUND

Title 10 of the Code of Federal Regulations (10 CFR) Part 52, Section 47, Contents of applications; technical information, states that:

The application must contain a level of design information sufficient to enable the Commission to judge the applicant's proposed means of assuring that construction conforms to the design and to reach a final conclusion on all safety questions associated with the design before the certification is granted. The information submitted for a design certification must include performance requirements and design information sufficiently detailed to permit the preparation of acceptance and inspection requirements by the [U. S. Nuclear Regulatory Commission] NRC, and procurement specifications and construction and installation specifications by an applicant. The Commission will require, before design certification, that information normally contained in certain procurement specifications and construction and installation specifications be completed and available for audit if the information is necessary for the Commission to make its safety determination.

In conducting the review of the NuScale Power, LLC (NuScale) design certification (DC) application, the NRC staff requested that the applicant make available the design specifications, as well as design documentation for equipment seismic qualification, environment qualification and component quality group classification (e.g., piping and instrumentation and equipment classification documents) for the NRC staff to confirm the implementation of the provisions in the NuScale Final Safety Analysis Report (FSAR) for the design and qualification of these components.

This information supported the NRC staffs review of the following Standard Review Plan (SRP) sections:

Section 3.2.1, Seismic Classification, Section 3.2.2, System Quality Group Classification, Section 3.8.2, Steel Containment, Section 3.9.5, Reactor Pressure Vessel Internals, Section 3.9.6, Functional Design, Qualification, and Inservice Testing Programs for Pumps, Valves, and Dynamic Restraints, Section 3.10, Seismic and Dynamic Qualification of Mechanical and Electrical Equipment, and Section 3.11, Environmental Qualification of Mechanical and Electrical Equipment.

At the NRC office in Rockville, Maryland, from June 1, 2017, through August 29, 2017, staff members from the Mechanical Engineering Branch (MEB) of the Division of Engineering and Infrastructure in the Office of New Reactors (NRO) conducted an initial regulatory audit (Phase

1) of the NuScale design documentation in the NuScale electronic reading room (eRR) for American Society of Mechanical Engineers (ASME) Boiler & Pressure Vessel Code (BPV Code) components, including valves, component supports, equipment seismic qualifications, and component classifications. On January 25, 2018, the NRC staff issued a report describing its audit of the NuScale design specifications including audit observations and findings as listed in Table 1 of that audit report. See Agencywide Documents Access and Management System (ADAMS) Accession Number ML18018A234.

On April 24, 2018, the NRC staff provided NuScale with a plan to facilitate the Phase 2 follow-up audit of the design specifications to resolve the initial audit findings (ML18114A055). The staff performed the follow-up audit from May 14, 2018, through October 11, 2018, at the NRC office in Rockville, Maryland, by the review of NuScale design documentation available in the eRR.

The staff followed the NRO Office Instruction, NRO-REG-108 (Revision 0), Regulatory Audits, in performing the follow-up audit of the NuScale design specifications.

2.0 AUDIT RESULTS During the Phase 1 initial audit, the NRC staff reviewed the design specifications for several types of components to be used in the NuScale nuclear power plant. The staff reviewed the design specifications to determine whether they incorporated the provisions specified in the NuScale FSAR. Table 1 of the initial audit report specified the NRC staffs findings on the NuScale design specifications.

During this Phase 2 follow-up audit, the NRC staff reviewed the design specifications for the components to be used in the NuScale nuclear power plant to confirm that the findings from the initial audit had been addressed. Based on its review of the updated design specifications, the staff found that most of the findings from the initial audit have been resolved. A total of 112 audit observation items were reviewed in this Phase 2 of the audit, 3 remain open, 30 are confirmatory, and the remainder are closed, as summarized in Table 1 of this report. RAI 9619 Question 03.02.02-7, was generated to address the class break information (Table 1 audit items1, 109 and 110). The staff closed numerous audit items based on: (1) acceptable responses by NuScale that resolved the issue, (2) NuScale having provided an ancillary RAI response that addressed the issue raised in Phase 1 of the audit, (3) the issue was reviewed in another audit, or (4) the NRC staff generated an RAI to formally track the resolution of the item.

For the items identified as confirmatory, NuScale will implement changes to design specifications or FSAR. After these changes are completed, the staff will confirm, as appropriate, that the issue has been properly addressed. The staff also identified certain items that will remain open for a future audit, because the technical information and analyses were not available for review during this audit. The Table 1 audit items 4B, 103 and 104 are open since the stress and fatigue evaluations were not available for review and will need to be reviewed in a future audit. Table 1 (Attachment) indicates the resolution of the audit findings and those items that remain open or confirmatory.

NuScale is to complete the planned changes to the applicable documents for the confirmatory items prior to completion of the NRC staffs review of the NuScale design certification application. The NRC staff will review the revised documents to confirm that the issue has been appropriately addressed once NuScale notifies the NRC, by letter, that the changes to the applicable documents have been implemented. For other documents, NuScale may incorporate appropriate changes in response to this audit in accordance with its Quality Assurance (QA) program. The NRC staff accepted the NuScale QA program by a letter dated September 22, 2016 (ML16196A391).

The NRC staff will arrange a future audit to address the technical information and analyses that were not available for review during this audit.

3.0 DOCUMENTS REVIEWED

1.

NuScale Design Specification, EQ-A010-2224, ASME Design Specification for Secondary Side Containment Isolation Valves, Revision 1, dated December 20, 2017.

2.

NuScale Design Specification, EQ-A010-2235, ASME Design Specification for Primary Systems Containment Isolation Valves, Revision 2, dated December 19, 2017.

3.

NuScale Design Specification, EQ-A011-2179, ASME Design Specification for Reactor Safety Valves, Revision 0, dated May 24, 2016.

4.

NuScale Design Specification, EQ-A014-4255, ASME Design Specification for Thermal Relief Valves, Revision 0, dated August 18, 2016.

5.

NuScale Design Specification, EQ-B010-3227, ASME Design Specification for CVCS Class 3 Valves, Revision 0, dated June 1, 2017.

6.

NuScale Design Specification, EQ-B020-2140, ASME Design Specification for Emergency Core Cooling System Valves, Revision 3, dated February 14, 2018.

7.

NuScale Design Specification, EQ-B030-2258, ASME Design Specification for Decay Heat Removal System Actuation Valves, Revision 1, dated January 29, 2018.

Attachment ATTACHMENT Table 1: NuScale Design Specification Audit Question Status Item #

Design Spec/Dwg NRC Reviewer Summary NuScale Response Status Open or Closed NRC Response 1

Various Le Piping and Instrument Drawings (P&IDs) did not have class break information. The U.S.

Nuclear Regulatory Commission (NRC) staff (hereafter referred to as the staff), requests the applicant to identify the class breaks in the following P&IDs and provide the staff with the updated P&IDs for review:

NuScale P&IDs do not specifically identify class breaks in design drawings; however, ASME Class is identified in pipe classification. In each P&ID.

Closed The staff requests to have uploaded P&IDs that have class break information.

The staff finds that the applicant provided the information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, and is acceptable.

RAI 9619 addresses this item. This item is closed.

1a Dwg. NP12 A013-M-PD-3450, CNT Rev.0.

Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

1b Dwg. NP12 A014-M-PD-3451, SG Rev.0.

Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

1c Dwg. NP12 A030-M-PD-1504, RCS Rev.0 Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

1d Dwg. NP12 B010-M-PD-1021 R0 V7 FINAL Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

1e Dwg. NP12 B020-M-PD-1027-S01-Rev2 Signed Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

1f Dwg. NP12 B030-M-PD-1028-S01 Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

1g Dwg. NP12-6A-B200-M-PD-1685-Rev 2 Le P&IDs no class break info.

See answer above Closed The staff requests to have uploaded P&IDs with class break information. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

2 Various Le The staff requests the applicant to confirm that RG 1.26, RG 1.29, and Standard ANSI/ANS-58.14 are used in the classification process, if that is the case, reference RG 1.26, RG 1.29, and standard ANSI/ANS-58.14 into P&IDs.

Yes. RG 1.26, RG 1.29 used. Procedure 0303-2109.

Closed The response is acceptable.

3 ER-A014-4036 SSC Classification Report for SG Le Doc. ER-A014-4036, SSC Classification Report for the Steam Generator, Revision 2, Table 3-2, lists SG tube supports and flow restrictions to be N/A quality group. The staff requests that the applicant provide a clarification of why the SG tube supports and flow restrictions are classified with N/A quality group.

The classifications of SG supports and flow restrictors are to be addressed by RAI 8901, Question 3.9.5-2, and to be included in the DCA Part 2 Tier 2, Table 3.2-1.

Closed RAI 8901 Question 3.9.5.-2 is issued to address the classification of SG tube supports and flow restrictors.

4 EQ-A013-1826 Containment Vessel Huang DCD Section 3.8.2.4.1, Containment Vessel Stress Analysis, states: evaluation of the stress levels and fatigue usage for the CNV pressure boundary is calculated for the specified loading conditions discussed in Section 3.8.2.3 and demonstrates that the values are less than the allowable limits.

In searching the ASME Design Specification for Containment Vessel, EQ-A013-1826, the staff was not able to locate any demonstration that the stress levels and fatigue usage are less than the allowable limits.

Is the document demonstrating this available?

Design specs provide loading conditions and analysis requirements, but do not provide analysis results. Results for stress analysis of CNV (not including fatigue),

performed in accordance with design spec are provided in Primary Stress CNV doc. Additional stress analysis for CNV support skirt and bolting in separate docs.

Closed Response acceptable 4a EC-A013-3377 CNV Primary Stress Analysis Huang In 6.0 of EC-A013-3377, CNV Primary Stress analysis, controlling stresses are discussed and ratios in excess of 0.95 were specifically mentioned, (Z31, NuScale response - ASME Code is primarily concerned with ratios in excess of allowable 1.0 limit and chose not to include path 72, but there Closed Response acceptable.

X32, X10, X12 and Path 34 and 36. However, according to the Appendix F table, 6-38 Membrane Stress results for cylinder model, Path 72 has a stress ratio of 0.95 and is not mentioned in Section 6.0. Is there a reason for excluding Path 72?

was no specific reason for this.

4b EC-A013-3377 CNV Primary Stress Analysis Huang In Section 1.1, Purpose of EC-A013-3377, CNV Primary Stress analysis, it states that fatigue was evaluated in a separate calculation. Please make that calculation document available.

Notify the NRC when the fatigue analyses is completed for the design of the reactor vessel and the containment.

NuScale response - The subject separate calculation for fatigue evaluation of the CNV is preliminary at this time. NuScale recognizes that certified design reports will be required for all of the Seismic Category I components. However, as discussed with the staff, stress analysis (including fatigue) is completed using a graded approach. For the DCA, NuScale has performed selected stress analysis (including fatigue) for the most critical components. But all of the analysis of even the most critical components (RPV and CNV) has not been finalized at this time.

Open DSRS 3.8.2 I.3.H requires a fatigue evaluation of the CNV under ASME BPV Code Section III, NB fatigue evaluation rules.

The fatigue evaluation was not available for review and will need to be reviewed in a future audit.

5 EQ-B020-2140 ECCS Valves Scarbroug h

Is Design Specification EQ-B020-2140 intended to establish the specific requirements for the ECCS valves that must be satisfied by the valve supplier?

Yes, intended to specify design requirements Closed Response acceptable.

6 EQ-B020-2140 ECCS Valves Scarbroug h

Is the ECCS Functional Specification referenced FS-B020-517 in Section 1.4.2.14 ECCS Functional Specification in eRR Closed ECCS functional information acceptable for this audit. Therefore, of Design Specification EQ-B020-2140 available for review?

Item 6 is closed for this audit.

7 EQ-B020-2140 ECCS Valves Scarbroug h

What is the status of the Open Items for mechanical loads and containment vessel transients indicated in Section 1.5 of Design Specification EQ-B020-2140?

ODI-16-0221on Reactor Vessel Nozzle Loading remains open Closed Will address issue in ECCS Valve Follow-up Audit, including design specification confirmation.

8 EQ-B020-2140 ECCS Valves Scarbroug h

What is the status of Design Specification EQ-B020-2140 that has not been certified by a Professional Engineer in Section 1.6?

Certification will occur when COL applicant is determined Closed Response acceptable.

9 EQ-B020-2140 ECCS Valves Scarbroug h

What is the basis for re-categorizing the ECCS valves which are actuated by solenoid components to a self-actuated (Category C) valve with inconsequential leakage limitations (Category B)? Also, is the ASME Operations and Maintenance Code Assessment Report ECN-B020-5225 that is referenced in ECN-B020-5225 available for review?

ECCS valves have no specific leakage criteria Closed Review OM Code Assessment during ECCS Valve Follow-up Audit.

10 EQ-B020-2140 ECCS Valves Scarbroug h

Section 3.4.3 of Design Specification EQ-B020-2140 states that the supplier shall evaluate the potential for and effects of water hammer.

What are the requirements for the supplier if water hammer will be evaluated through testing?

Screening or analysis will evaluate for water hammer Closed Response acceptable.

11 EQ-B020-2140 ECCS Valves Scarbroug h

Table 3-3 in Design Specification EQ-B020-2140 specifies that leak-before-break (LBB) considerations FSAR Section 3.6.3 referenced.

Closed NRO Materials and Chemical Branch (MCB) is evaluating LBB are allowed for a potential main steam pipe break (MSPB) and feedwater pipe break (FWPB). What is the justification for leak-before-break considerations for MSPB and FWPB?

proposal. Therefore, closed for this audit.

12 EQ-B020-2140 ECCS Valves Scarbroug h

Section 3.6 of Design Specification EQ-B020-2140 specifies that the RRVs must be qualified for radiation effects while the RVVs are sufficiently remote to not require radiation qualification.

What are the requirements for the qualification of the RRVs for radiation effects? What is the justification for not requiring radiation qualification for the RVVs?

Section 3.6.3 of Design Specification addresses radiation effects Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

13 EQ-B020-2140 ECCS Valves Scarbroug h

Section 3.6 of Design Specification EQ-B020-2140 specifies that nonmetallic components be evaluated for radiation effects. Does Design Specification EQ-B020-2140 require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the ECCS valves and their subcomponents for radiation and other environmental effects? Table 3-4 (RRV) and Table 3-5 (RVV) in Design Specification EQ-B020-2140 allow a range for the Cv flow coefficient, valve seat area, and pressure drop ratio factor Design Specification references QME-1 Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

XT, as applicable. What is the basis for allowing a range for these valve parameters in the design specification?

14 EQ-B020-2140 ECCS Valves Scarbroug h

Table 3-4 (RRV) and Table 3-5 (RVV) in Design Specification EQ-B020-2140 allow a range for the Cv flow coefficient, valve seat area, and pressure drop ratio factor XT, as applicable. What is the basis for allowing a range for these valve parameters in the design specification?

Range of permissible parameters specified in Design Specification Closed Response acceptable.

15 EQ-B020-2140 ECCS Valves Scarbroug h

Section 3.11.4 of Design Specification EQ-B020-2140 states that the RRV will be oriented vertically with the discharge port opening downward. Section 3.11.5 specifies that the RVV will be oriented horizontally with the port pointed radially outward.

What design features and qualification requirements are necessary to account for this difference in valve orientation?

Equipment Qualification Specification will address.

Closed Response acceptable.

16 EQ-B020-2140 ECCS Valves Scarbroug h

Section 3.12.2 of Design Specification EQ-B020-2140 states that the ECCS valves and their actuators shall be designed such that leakage does not result in boric acid buildup or transport that impacts the ability of the valves to perform their safety function. What design features and qualification requirements are required to Equipment Qualification Specification will address.

Closed Response acceptable.

satisfy this provision in the design specification?

17 EQ-B020-2140 ECCS Valves Scarbroug h

Section 6.2 of Design Specification EQ-B020-2140 specifies the QA requirements for the ECCS valves. Does Design Specification EQ-B020-2140 require the application of Appendix B to 10 CFR Part 50 for the QA requirements for the ECCS valves?

Revision 3 to Design Specification requires Appendix B.

Closed Response acceptable.

18 EQ-B020-2140 ECCS Valves Scarbroug h

Section 8.0 of Design Specification EQ-B020-2140 states that the ECCS valves and their actuators shall be qualified in accordance with ASME QME-1-2007 as accepted in RG 1.100 (Revision 3). How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design (including the four ECCS subcomponents),

extrapolation of the design following adjustments during the qualification process, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves?

Revision 3 to Design Specification requires QME-1 without individual tests.

Closed Response acceptable.

19 EQ-B020-2140 ECCS Valves Scarbroug h

Table 8-2 in Design Specification EQ-B020-2140 states that the inservice Revision 3 of Design Specification classifies Closed Review during ECCS Valve Follow-up Audit.

leakage limits are reserved.

When will the leakage limits be available for review?

Section 8.0 of Design Specification EQ-B020-2140 states that the ECCS valves and their actuators shall be qualified in accordance with ASME QME-1-2007 as accepted in RG 1.100 (Revision 3). How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design (including the four ECCS subcomponents),

extrapolation of the design following adjustments during the qualification process, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves?

ECCS valves as OM Category B/C.

Therefore, closed for this audit.

20 EQ-B020-2140 ECCS Valves Scarbroug h

Where are the following aspects of the design and qualification requirements for the ECCS valves and their subcomponents addressed in Design Specification EQ-B020-2140?

20a EQ-B020-2140 ECCS Valves Scarbroug h

Specific first-of-a-kind (FOAK) valve attributes, such as valve internal and disc design.

Design Specification includes critical parameters.

Closed Response acceptable.

20b EQ-B020-2140 ECCS Valves Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

FMEA addresses separately.

Closed Response acceptable.

20c EQ-B020-2140 ECCS Valves Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require analysis of the valve internals for the opening and closing forces applied during operation.

Confirma tory 20d EQ-B020-2140 ECCS Valves Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

Design Specification references QME-1 for static side load testing.

Closed Response acceptable.

20e EQ-B020-2140 ECCS Valves Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

Stand-alone calculation or ASME Design Report will address.

Closed Response acceptable.

20f EQ-B020-2140 ECCS Valves Scarbroug h

Capacity certification for the ECCS valves over their full range of fluid flow and applicable conditions.

ECCS valves will not be capacity certified, but flow tested during qualification.

Closed Response acceptable.

20g EQ-B020-2140 ECCS Valves Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

Vibration will be addressed during qualification.

Closed Response acceptable.

20h EQ-B020-2140 ECCS Valves Scarbroug h

Evaluation of potential pressure locking and thermal binding.

Revision 3 to Design Specification indicates design will avoid pressure locking and thermal binding.

Closed Response acceptable.

20i EQ-B020-2140 ECCS Valves Scarbroug h

Sizing and setting of the individual springs in each of the four ECCS valve subcomponents, including pressure and flow load, seating and unseating load, uncertainties, and margin requirements.

Differential pressure requirement used to specify spring size with combined license (COL) holder responsible for evaluating.

Closed Response acceptable.

20j EQ-B020-2140 ECCS Valves Scarbroug h

Preparation of an operating experience report related to the specific valve design to be provided by the supplier.

No design requirement for suppliers to address operating experience.

NuScale will rely on Part 21 requirements.

Closed Response acceptable.

20k EQ-B020-2140 ECCS Valves Scarbroug h

Documentation in accordance with ASME QME-1-2007.

Design Specification requires QME-1 including documentation.

Closed Response acceptable.

20 Addition al EQ-B020-2140 Revision 3 Scarbroug h

Specific comments on Revision 3 provided during ECCS valve audit Closed Review during ECCS Valve Follow-up Audit.

21 EQ-A010-2235 PSCIVs Section 1.1 of Design Specification EQ-A010-2235 states that the purpose of the document is to provide the ASME design specification for the primary systems containment isolation valves (PSCIVs), such as used for the reactor coolant system (RCS) injection and discharge lines, pressurizer spray supply line, and reactor pressure vessel degasification line. Design Specification EQ-A010-2235 is also said to apply to isolation valves in other lines. Is Design Specification EQ-A010-2235 intended to establish the specific requirements for the PSCIVs that must be satisfied by the valve supplier, such as the types and sizes of the tandem PSCIVs for their various applications?

Design Specification does not address size or type.

Closed Review during CIV Audit. Therefore, closed for this audit.

22 EQ-A010-2235 PSCIVs Scarbroug h

Is the Containment System Functional Specification FS-A013-509 referenced in Section 1.5.1.1 of Design Specification EQ-A010-2235 available for review?

Containment System Functional Specification in eRR.

Closed Containment information acceptable for this audit.

Therefore, Item 22 closed for this audit.

23 EQ-A010-2235 PSCIVs Scarbroug h

What is the status of the Open Items for high energy line break conditions, lowest ODI 16-0221 remains open.

Closed Review during CIV Audit. Therefore, closed for this audit.

service temperature, mechanical design loads, and containment vessel combustible gas control indicated in Section 1.6 of Design Specification EQ-A010-2235?

24 EQ-A010-2235 PSCIVs Scarbroug h

What is the status of Design Specification EQ-A010-2235 that has not been certified by a Professional Engineer in Section 1.7?

See Item 8 Closed Response acceptable.

25 EQ-A010-2235 PSCIVs Scarbroug h

Note (3) in Table 3-2 in ECN-A010-4613 for Design Specification EQ-A010-2235 states that leak-before-break (LBB) considerations are allowed for a potential main steam pipe break (MSPB) and feedwater pipe break (FWPB). What is the justification for leak-before-break considerations for an MSPB and FWPB?

LBB used.

Closed MCB reviewing LBB.

Therefore, closed for this audit.

26 EQ-A010-2235 PSCIVs Scarbroug h

Table 3-1 and Section 3.6.2 of Design Specification EQ-A010-2235 discuss the radiation conditions for the PSCIVs, including a zero 1-hour accident dose. What is the justification for the radiation qualification requirements for the PSCIVs?

Revision 2 to Design Specification includes radiation requirements.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

27 EQ-A010-2235 PSCIVs Scarbroug h

Does Design Specification EQ-A010-2235 require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the PSCIVs Design Specification requires QME-1 and QR-B may be used.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

for radiation and other environmental effects?

28 EQ-A010-2235 PSCIVs Scarbroug h

Section 3.11 of Design Specification EQ-A010-2235 states that the PSCIVs will be oriented with the flow axis vertical. What design features and qualification requirements are necessary to account for this valve orientation?

Equipment Qualification Specification will address orientation.

Closed Response acceptable.

29 EQ-A010-2235 PSCIVs Scarbroug h

Section 8.0 of Design Specification EQ-A010-2235 states that the PSCIVs shall be qualified in accordance with ASME QME-1-2007.

How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design, extrapolation of the valve assembly qualification, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves?

Revision 2 to Design Specification removes conflicting requirements and requires QME-1.

Closed Response acceptable.

30 EQ-A010-2235 PSCIVs Scarbroug h

Section 11.2 of Design Specification EQ-A010-2235 specifies the QA requirements for the PSCIVs. Does Design Specification EQ-A010-2235 require the application of Appendix B of 10 CFR Part 50 for the QA requirements for the PSCIVs?

NuScale to revised Design Specification to require Appendix B.

Confirma tory 31 EQ-A010-2235 PSCIVs Scarbroug h

Where are the following aspects of the design and qualification requirements for the PSCIVs addressed in Design Specification EQ-A010-2235?

31a EQ-A010-2235 PSCIVs Scarbroug h

Specific first-of-a-kind (FOAK) valve attributes, such as valve internal and disc design.

See Item 20.a Closed Response acceptable.

31b EQ-A010-2235 PSCIVs Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

See Item 20.b Closed Response acceptable.

31c EQ-A010-2235 PSCIVs Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require weak link analysis by supplier.

Confirma tory 31d EQ-A010-2235 PSCIVs Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

See Item 20.d Closed Response acceptable.

31e EQ-A010-2235 PSCIVs Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

See Item 20.e Closed Response acceptable.

31f EQ-A010-2235 PSCIVs Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

See Item 20.g Closed Response acceptable.

31g EQ-A010-2235 PSCIVs Scarbroug h

Evaluation of potential pressure locking and thermal binding.

TBD Closed Review during CIV Audit. Therefore, closed for this audit.

31h EQ-A010-2235 PSCIVs Scarbroug h

Sizing and setting of the hydraulic actuators for the PSCIVs, including pressure and flow load (including friction coefficient assumptions), seating and unseating load, packing load, actuator output assumptions, uncertainties, and margin requirements.

Sizing not included in Design Specification.

Closed Review during CIV Audit. Therefore, closed for this audit.

31i EQ-A010-2235 PSCIVs Scarbroug h

Preparation of an operating experience report related to See Item 20.j Closed Response acceptable.

the specific valve design to be provided by the supplier.

31j EQ-A010-2235 PSCIVs Scarbroug h

Documentation in accordance with ASME QME-1-2007.

See Item 20.k Closed Response acceptable.

32 EQ-A010-2224 SSCIVs Scarbroug h

Section 1.1 of Design Specification EQ-A010-2224 states that the purpose of the document is to provide the ASME design specification for the secondary side containment isolation valves (SSCIVs). Is Design Specification EQ-A010-2224 intended to establish the specific requirements for the SSCIVs that must be satisfied by the valve supplier, such as the types and sizes of the main steam isolation valves (MSIVs) with their bypass valves, and the feedwater isolation valves (FWIVs) with their combined nozzle check valve?

See Item 21 Closed Review during CIV Audit. Therefore, closed for this audit.

33 EQ-A010-2224 SSCIVs Scarbroug h

Is the Containment System Functional Specification FS-A013-509 referenced in Section 1.5.1.1 of Design Specification EQ-A010-2224 available for review?

See Item 22 Closed Containment information acceptable for this audit.

Therefore, Item 33 closed for this audit.

34 EQ-A010-2224 SSCIVs Scarbroug h

What is the status of the Open Items for normal operating conditions, lowest service temperature, mechanical loads, and containment piping connections to the MSIVs and FWIVs indicated in Section 1.6 of Design Specification EQ-A010-2224?

ODI-16-0221 remains open.

Closed Review during CIV Audit. Therefore, closed for this audit.

35 EQ-A010-2224 SSCIVs Scarbroug h

What is the status of Design Specification EQ-A010-2224 that has not been certified by a Professional Engineer in Section 1.7?

See Item 8 Closed Response acceptable.

36 EQ-A010-2224 SSCIVs Scarbroug h

Note (3) in Table 3-A in ECN-A010-4614 for Design Specification EQ-A010-2224 states that leak-before-break (LBB) considerations are allowed for a potential main steam pipe break (MSPB) and feedwater pipe break (FWPB). What is the justification for leak-before-break considerations for an MSPB and FWPB?

LBB used.

Closed MCB reviewing LBB.

Therefore, closed for this audit.

37 EQ-A010-2224 SSCIVs Scarbroug h

Section 2.1 of Design Specification EQ-A010-2224 states that the MSIV will be oriented for vertical flow upward through the valve, and that the FWIV will be oriented for vertical flow downward through the valve.

What design features and qualification requirements are necessary to account for this difference in valve orientation?

Orientation addressed in qualification.

Closed Response acceptable.

38 EQ-A010-2224 SSCIVs Scarbroug h

Table 3-1 of Design Specification EQ-A010-2224 indicates that the external design pressures for the MSIV and FWIV are reserved.

When will the external design pressures for these valves be available for review?

Revision 1 to Design Specification revised Table 3-1 Closed Response acceptable.

39 EQ-A010-2224 SSCIVs Scarbroug h

Section 3.8 of Design Specification EQ-A010-2224 Radiation effects addressed in Section 3.8 Closed Item 92 in the list below addresses EQ issues.

states that the SSCIVs are sufficiently remote to not require qualification for radiation effects. What is the justification for not requiring radiation qualification of the SSCIVs?

Therefore, this item is closed.

40 EQ-A010-2224 SSCIVs Scarbroug h

Section 3.8 of Design Specification EQ-A010-2224 states that nonmetallic components will be evaluated for radiation effects. Does Design Specification EQ-A010-2224 require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the SSCIVs for radiation and other environmental effects?

Design Specification requires QME-1 and QR-B may be used.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

41 EQ-A010-2224 SSCIVs Scarbroug h

Section 8.0 of Design Specification EQ-A010-2224 states that the SSCIVs shall be qualified in accordance with ASME QME-1-2007 as accepted in RG 1.100 (Revision 3). How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design, extrapolation of the valve assembly qualification, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the Revision 1 to Design Spec clarifies QME-1 requirement.

Closed Response acceptable.

capability of the as-installed valves?

42 EQ-A010-2224 SSCIVs Scarbroug h

Section 11.2 of Design Specification EQ-A010-2224 specifies the QA requirements for the SSCIVs. Does Design Specification EQ-A010-2224 require the application of Appendix B of 10 CFR Part 50 for the QA requirements for the SSCIVs?

NuScale to include Appendix B requirement.

Confirma tory 43 EQ-A010-2224 SSCIVs Scarbroug h

Where are the following aspects of the design and qualification requirements for the SSCIVs addressed in Design Specification EQ-A010-2224?

43a EQ-A010-2224 SSCIVs Scarbroug h

Specific first-of-a-kind (FOAK) valve attributes, such as valve internal and disc design.

See Item 20.a Closed Response acceptable.

43b EQ-A010-2224 SSCIVs Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

See Item 20.b Closed Response acceptable.

43c EQ-A010-2224 SSCIVs Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require weak link analysis by supplier.

Confirma tory 43d EQ-A010-2224 SSCIVs Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

See Item 20.d Closed Response acceptable.

43e EQ-A010-2224 SSCIVs Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

See Item 20.e Closed Response acceptable.

43f EQ-A010-2224 SSCIVs Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

See Item 20.g Closed Response acceptable.

43g EQ-A010-2224 SSCIVs Scarbroug h

Evaluation of potential pressure locking and thermal binding.

Design to allow actuator to open.

Closed Review during CIV Audit. Therefore, closed for this audit.

43h EQ-A010-2224 SSCIVs Scarbroug h

Sizing and setting of the hydraulic actuators for the PSCIVs, including pressure and flow load (including friction coefficient assumptions), seating and unseating load, packing load, actuator output assumptions, uncertainties, and margin requirements.

Vendor documents will size actuators.

Closed Review during CIV Audit. Therefore, closed for this audit.

43i EQ-A010-2224 SSCIVs Scarbroug h

Preparation of an operating experience report related to the specific valve design to be provided by the supplier.

See Item 20.j Closed Response acceptable.

43j EQ-A010-2224 SSCIVs Scarbroug h

Documentation in accordance with ASME QME-1-2007.

See Item 20.k Closed Response acceptable.

44 EQ-A011-2179 RSVs Scarbroug h

Section 1.1 of Design Specification EQ-A011-2179 states that the purpose of the document is to provide the ASME Design Specification for the reactor coolant system (RCS) reactor safety valves (RSVs). Is Design Specification EQ-A011-2179 intended to establish the specific requirements for the RSVs that must be satisfied by the valve supplier, such as their specific design?

Design Specification does not include size or type.

Closed Review during RSV Audit. Therefore, closed for this audit.

45 EQ-A011-2179 RSVs Scarbroug h

Is the RCS Functional Specification referenced in Section 1.5.1.1 of Design Specification EQ-A011-2179 available for review?

RCS Functional Specification in eRR Closed Response acceptable.

46 EQ-A011-2179 RSVs Scarbroug h

What is the status of the Open Items for inservice examination requirements, service temperature, mechanical design loads, Several ODIs remain open Closed ODIs will be evaluated as part of RSV audit.

See CIV-RSV Audit Plan Accession No. ML18229A114.

containment vessel pneumatic and hydraulic testing, and containment transients for prototype testing indicated in Section 1.6 of Design Specification EQ-A011-2179?

Therefore, Item 46 closed for this audit.

47 EQ-A011-2179 RSVs Scarbroug h

What is the status of Design Specification EQ-A011-2179 that has not been certified by a Professional Engineer in Section 1.7?

See Item 8 Closed Response acceptable.

48 EQ-A011-2179 RSVs Scarbroug h

Section 2.3 of Design Specification EQ-A011-2179 provides the ASME BPV Code classification of the RSVs. What is the ASME OM Code category for the RSVs?

RSVs are OM Category B/C because no specific leakage criteria.

Closed Response acceptable.

49 EQ-A011-2179 RSVs Scarbroug h

Table 3-2 in Design Specification EQ-A011-2179 was modified in ECN-A011-4845 to specify that leak-before-break (LBB) considerations are allowed for a potential main steam pipe break (MSPB) and feedwater pipe break (FWPB). What is the justification for leak-before-break considerations for an MSPB and FWPB?

LBB used.

Closed MCB reviewing LBB.

Therefore, closed for this audit.

50 EQ-A011-2179 RSVs Scarbroug h

Section 3.5 of Design Specification EQ-A011-2179 states that the RSVs are sufficiently remote to not require radiation qualification.

What is the justification for not requiring radiation qualification for the RSVs?

Radiation requirements in Design Specification.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

51 EQ-A011-2179 RSVs Scarbroug h

Section 3.5 of Design Specification EQ-A011-2179 states that nonmetallic components will be evaluated for radiation effects. Does Design Specification EQ-A011-2179 require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the RSVs for radiation and other environmental effects?

Design Specification requires QME-1 and QR-B may be used.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

52 EQ-A011-2179 RSVs Scarbroug h

Section 3.6 of Design Specification EQ-A011-2179 states that only the reactor pressure vessel (RPV) connection of the RSV needs to be evaluated for thermal effects. What is the justification for this assumption over the full range of safety functions for the RSVs?

NuScale will include thermal binding precluded by design.

Confirma tory 53 EQ-A011-2179 RSVs Scarbroug h

Section 3.7 of Design Specification EQ-A011-2179 specifies the flow capacity requirement for the RSVs for saturated steam. What are the flow requirements with respect to the full range of steam, steam/water mixture, and liquid conditions for the RSV safety functions?

RSVs must not be damaged by water.

NuScale indicated that RSV might need to accommodate water flow for some ATWS transients.

Section 3.8 in the design specification requires that RSV not be damaged under normal, accident, shutdown, and maintenance conditions.

Closed Response acceptable.

54 EQ-A011-2179 RSVs Scarbroug h

Section 3.9 of Design Specification EQ-A011-2179 specifies the valve settings for the RSVs. Are the planned Settings consistent with NB-7311(b)

Closed Response acceptable.

settings consistent with the ASME BPV Code requirements as incorporated by reference in 10 CFR 50.55a? If not, what is the plan to obtain NRC acceptance of the differences from the Code requirements?

55 EQ-A011-2179 RSVs Scarbroug h

Section 6.2 of Design Specification EQ-A011-2179 specifies the QA requirements for the RSVs. Does Design Specification EQ-A011-2179 require the application of Appendix B to 10 CFR Part 50 for the QA requirements for the RSVs?

NuScale to require 10 CFR Part 50, Appendix B in Design Specification Confirma tory 56 EQ-A011-2179 RSVs Scarbroug h

Section 8.0 of Design Specification EQ-A011-2179 states that the RSVs shall be functionally qualified in accordance with ASME QME-

1. How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design, extrapolation of the valve assembly qualification following design adjustments during the qualification process, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves for the RSVs?

Section 8.0 references QME-1 Closed Review during RSV Audit. See CIV-RSV Audit Plan Accession Number ML18229A114.

Therefore, closed for this audit.

57 EQ-A011-2179 RSVs Scarbroug h

Where are the following aspects of the design and qualification requirements for the RSVs addressed in Design Specification EQ-A011-2179?

57a EQ-A011-2179 RSVs Scarbroug h

Specific first-of-a-kind (FOAK) valve attributes for the RSVs.

See Item 20.a Closed Response acceptable.

57b EQ-A011-2179 RSVs Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

See Item 20.b Closed Response acceptable.

57c EQ-A011-2179 RSVs Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require analysis of the valve internals for the opening and closing forces applied during operation.

Confirma tory 57d EQ-A011-2179 RSVs Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

See Item 20.d Closed Response acceptable.

57e EQ-A011-2179 RSVs Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

Capacity certification for the RSVs over their full range of fluid flow and applicable conditions.

See Item 20.e Closed Response acceptable.

57ee EQ-A011-2179 RSVs Scarbroug h

Capacity certification for the RSVs over their full range of fluid flow and applicable conditions.

Design Specification provides capacity requirements. Sections 6.8.3 and 8.8 of the design specification includes capacity certification requirements for the RSVs per ASME BPV Code.

Closed Response acceptable.

57f EQ-A011-2179 RSVs Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

See Item 20.g Closed Response acceptable.

57g EQ-A011-2179 RSVs Scarbroug h

Evaluation of potential pressure locking and thermal binding.

Spring to be capable of opening.

Closed Review during RSV Audit. See CIV-RSV Audit Plan Accession Number ML18229A114.

Therefore, closed for this audit.

57h EQ-A011-2179 RSVs Scarbroug h

Sizing and setting of the RSVs.

Design Specification provides setpoint and capacity requirements.

Closed Review during RSV Audit. See CIV-RSV Audit Plan Accession Number ML18229A114.

Therefore, closed for this audit.

57i EQ-A011-2179 RSVs Scarbroug h

Preparation of an operating experience report related to the specific valve design to be provided by the supplier.

See Item 20.j Closed Response acceptable.

57j EQ-A011-2179 RSVs Scarbroug h

Documentation in accordance with ASME QME-1-2007.

See Item 20.k Closed Response acceptable.

58 EQ-B030-2258 DHR Valves Scarbroug h

Section 1.1 of Design Specification EQ-B030-2258 states that the purpose of the document is to provide the ASME design specification for the decay heat removal system (DHRS) actuation valves. Is Design Specification EQ-B030-2258 intended to establish the specific requirements for the DHRS actuation valves that must be satisfied by the valve supplier, such as the actuator types of hydraulic or pneumatic for the DHRS actuation valves?

Section 13.0, Valve Data Sheet, in the design specification includes the valve type (wedge-ball) and size (6 inch) and actuator type (gas-hydraulic).

Closed Response acceptable.

59 EQ-B030-2258 DHR Valves Scarbroug h

Is the Decay Heat Removal Functional Specification FS-B030-508 referenced in Section 1.5.1.1 of Design Specification EQ-B030-2258 available for review?

DHR Functional Specification in eRR.

Closed Response acceptable.

60 EQ-B030-2258 DHR Valves Scarbroug h

What is the status of the Open Items for DHRS flow Several ODIs remain open.

Confirma tory rate during transients, and valve loads and piping specific acceleration values indicated in Section 1.6 of Design Specification EQ-B030-2258?

61 EQ-B030-2258 DHR Valves Scarbroug h

What is the status of Design Specification EQ-B030-2258 that has not been certified by a Professional Engineer in Section 1.7?

See Item 8 Closed Response acceptable.

62 EQ-B030-2258 DHR Valves Scarbroug h

Section 3.2 of Design Specification EQ-B030-2258 states that the supplier will provide the means to address leakage. Is Design Specification EQ-B030-2258 intended to specify the specific design features and qualification requirements for the DHRS actuation valves?

Revision 1 to Design Specification includes design pressure requirement.

Closed Response acceptable.

63 EQ-B030-2258 DHR Valves Scarbroug h

Table 3-1 of Design Specification EQ-B030-2258 states that the external design pressure for the DHRS actuation valves is reserved.

When will the external design pressure for these valves be available for review?

Revision 1 to Design Specification includes external design pressure references.

Closed Response acceptable.

64 EQ-B030-2258 DHR Valves Scarbroug h

Section 3.7.2 of Design Specification EQ-B030-2258 states that the DHRS actuation valves are sufficiently remote to not require qualification for radiation effects. What is the justification for not requiring radiation qualification of these valves?

Design Specification includes radiation requirements.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

65 EQ-B030-2258 DHR Valves Scarbroug h

Does Design Specification require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the DHRS actuation valves for radiation and other environmental effects?

Design Specification requires QME-1 and QR-B may be used.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

66 EQ-B030-2258 DHR Valves Scarbroug h

Section 8.0 of Design Specification EQ-B030-2258 states that the DHRS actuation valves shall be qualified in accordance with ASME QME-1-2007. How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design, extrapolation of the valve assembly qualification to account for design adjustments, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves?

Section 8.0 revised to clarify QME-1 requirement.

Confirma tory Section 8.1.1 needs to be corrected to include analysis, testing, or combination language.

67 EQ-B030-2258 DHR Valves Scarbroug h

Does Design Specification EQ-B030-2258 require the application of Appendix B of 10 CFR Part 50 for the QA requirements for the DHRS actuation valves?

NuScale to include Appendix B requirement.

(Question 17, 30, 42, 55, 67, 77, 88)

Confirma tory 68 EQ-B030-2258 DHR Valves Scarbroug h

Where are the following aspects of the design and qualification requirements for the DHRS actuation valves (Question 20, 31, 43, 57, 68, 78, 90)

See below addressed in Design Specification EQ-B030-2258?

68a EQ-B030-2258 DHR Valves Scarbroug h

Specific first-of-a-kind (FOAK) valve attributes.

See Item 20.a Closed Response acceptable.

68b EQ-B030-2258 DHR Valves Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

See Item 20.b Closed Response acceptable.

68c EQ-B030-2258 DHR Valves Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require weak link analysis by supplier.

Confirma tory 68d EQ-B030-2258 DHR Valves Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

See Item 20.d Closed Response acceptable.

68e EQ-B030-2258 DHR Valves Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

See Item 20.e Closed Response acceptable.

68f EQ-B030-2258 DHR Valves Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

See Item 20.g Closed Response acceptable.

68g EQ-B030-2258 DHR Valves Scarbroug h

Evaluation of potential thermal binding.

Qualification to address.

Closed Response acceptable.

68h EQ-B030-2258 DHR Valves Scarbroug h

Sizing and setting of the DHRS actuation valves, including pressure and flow load (including friction coefficient assumptions),

seating and unseating load, packing load, actuator output assumptions, uncertainties, and margin requirements.

Vendor documentation will include design details.

Closed Response acceptable.

68i EQ-B030-2258 DHR Valves Scarbroug h

Preparation of an operating experience report related to the specific valve design to be provided by the supplier.

See Item 20.j Closed Response acceptable.

68j EQ-B030-2258 DHR Valves Scarbroug h

Documentation in accordance with ASME QME-1-2007.

See Item 20.k Closed Response acceptable.

69 EQ-B010-3227 CVCS Class 3 Scarbroug h

Section 1.1 of Design Specification EQ-B010-3227 states that the purpose of the document is to provide the Appendix A, Valve Data Sheets, in the design specification includes the specific valve and actuator Closed Response acceptable.

ASME design specification for the ASME BPV Code Class 3 valves in the chemical and volume control system (CVCS). Is Design Specification EQ-B010-3227 intended to establish the specific requirements for the CVCS Class 3 valves that include multiple valve types, such as air-operated isolation valves, check valves, manual drain valves, and solenoid valves?

information for the various CVCS valves.

70 EQ-B010-3227 CVCS Class 3 Scarbroug h

What is the status of the Open Items for the valve locations in the reactor building indicated in Section 1.6 of Design Specification EQ-B010-3227?

ODI remains open.

Confirma tory 71 EQ-B010-3227 CVCS Class 3 Scarbroug h

What is the status of Design Specification EQ-B010-3227 that has not been certified by a Professional Engineer in Section 1.7?

See Item 8 Closed Response acceptable.

72 EQ-B010-3227 CVCS Class 3 Scarbroug h

Sections 2.3.2 and 2.3.3.1 of Design Specification EQ-B010-3227 specifies that Quality Group C and ASME BPV Code Class 3 applies to specific CVCS Class 3 valves.

Is this applicable to all CVCS Class 3 valves within the scope of this design specification?

Components specified in Scope section.

Closed Response acceptable.

73 EQ-B010-3227 CVCS Class 3 Scarbroug h

Section 3.6.2.2 of Design Specification EQ-B010-3227 states that the CVCS demineralized water isolation valves are sufficiently remote NuScale will revise Design Specification to require FSAR Section 3.11 process.

Confirma tory to not require qualification for radiation effects. What is the justification for not requiring radiation qualification of these valves?

74 EQ-B010-3227 CVCS Class 3 Scarbroug h

Does Design Specification EQ-B010-3227 require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the CVCS Class 3 valves for radiation and other environmental effects?

Design Spec requires QME-1 and QR-B may be used.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

75 EQ-B010-3227 CVCS Class 3 Scarbroug h

Table 3-2 of Design Specification EQ-B010-3227 specifies the flow characteristics of various CVCS Class 3 valves. What is the basis for the greater-than values for Cv flow coefficients for various valves? What is the intent for the table not specifying the flow coefficient for the degasification line isolation valve?

Greater than Cv intended to indicate minimum Cv.

Closed Response acceptable.

76 EQ-B010-3227 CVCS Class 3 Scarbroug h

Section 7.0 of Design Specification EQ-B010-3227 addresses the testing and qualification requirements for the CVCS Class 3 valves.

Does Design Specification EQ-B010-3227 require that the CVCS Class 3 valves be qualified in accordance with ASME QME-1-2007 as accepted in RG 1.100 (Revision 3)? If so, how do the tests and their sequence Section 8.0 requires QME-

1.

Closed Response acceptable.

listed in Section 7.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design, extrapolation of the valve assembly qualification, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves?

77 EQ-B010-3227 CVCS Class 3 Scarbroug h

Section 10.2 of Design Specification EQ-B010-3227 specifies the QA requirements for the CVCS Class 3 valves.

Does Design Specification EQ-B010-3227 require the application of Appendix B of 10 CFR Part 50 for the QA requirements for these valves?

NuScale will revise Design Specification to require Appendix B.

Confirma tory 78 EQ-B010-3227 CVCS Class 3 Scarbroug h

Where are the following aspects of the design and qualification requirements for the CVCS Class 3 valves addressed in Design Specification EQ-B010-3227?

(Question 20, 31, 43, 57, 68, 78, 90)

See below 78a EQ-B010-3227 CVCS Class 3 Scarbroug h

Specific first-of-a-kind (FOAK) valve attributes.

See Item 20.a Closed Response acceptable.

78b EQ-B010-3227 CVCS Class 3 Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

See Item 20.b Closed Response acceptable.

78c EQ-B010-3227 CVCS Class 3 Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require weak link analysis by supplier.

Confirma tory 78d EQ-B010-3227 CVCS Class 3 Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

See Item 20.d Closed Response acceptable.

78e EQ-B010-3227 CVCS Class 3 Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

See Item 20.e Closed Response acceptable.

78f EQ-B010-3227 CVCS Class 3 Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

See Item 20.g Closed Response acceptable.

78g EQ-B010-3227 CVCS Class 3 Scarbroug h

Evaluation of potential pressure locking (PL) and thermal binding (TB).

Design will avoid PL/TB.

Closed Response acceptable.

78h EQ-B010-3227 CVCS Class 3 Scarbroug h

Sizing and setting of the actuators for the CVCS Class 3 valves, including pressure and flow load (including friction coefficient assumptions), seating and unseating load, packing load, actuator output assumptions, uncertainties, and margin requirements.

Supplier responsible for sizing and setting of actuators.

Closed Response acceptable.

78i EQ-B010-3227 CVCS Class 3 Scarbroug h

Preparation of an operating experience report related to the specific valve design to be provided by the supplier.

See Item 20.j Closed Response acceptable.

78j EQ-B010-3227 CVCS Class 3 Scarbroug h

Documentation in accordance with ASME QME-1-2007.

See Item 20.k Closed Response acceptable.

79 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Section 1.1 of Design Specification EQ-A014-4255 states that the purpose of the document is to provide the ASME Design Specification of the thermal relief valves (TRVs), including two TRVs in the feedwater piping in the steam generator system (SGS) and one TRV in the control rod drive system (CRDS) cooling piping. Is Design Specification EQ-A014-4255 intended to establish the specific See Item 21 Confirma tory NuScale will add valve data sheet.

requirements for the TRVs that must be satisfied by the valve supplier?

80 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Is the NuScale Reactor Module (RXM) Thermal Transient Load Definition Specification ER-A010-2529 referenced in Section 1.5.1.1 of Design Specification EQ-A014-4255 available for review?

RXM Thermal Transient Load Definition in eRR.

Closed RXM information acceptable for this audit.

Therefore, Item 80 closed for this audit.

81 EQ-A014-4255 Thermal Relief Valves Scarbroug h

What is the status of Design Specification EQ-A014-4255 that has not been certified by a Professional Engineer in Section 1.6?

See Item 8 Closed Response acceptable.

82 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Section 2.3 of Design Specification EQ-A014-4255 provides the ASME BPV Code classification of the TRVs. What is the ASME OM Code category for the TRVs?

NuScale will revise Design Specification to require Category AC for SGS Thermal Reliefs.

Confirma tory 83 EQ-A014-4255 Thermal Relief Valves (TRVs)

Scarbroug h

Table 3-1 of Design Specification EQ-A014-4255 states that the relieving capacities of the SGS and CRDS TRVs are reserved.

When will the relieving capacities for the full range of steam, steam/water mixture, and liquid conditions for the safety functions of these valves be available for review?

NuScale will verify values based on ODI 17-18.

Confirma tory 84 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Table 3-3 in Design Specification EQ-A014-4255 was modified in ECN-A014-4850 to specify that leak-before-break (LBB) considerations are allowed for LBB supported by calculations.

Closed MCB reviewing LBB.

Therefore, closed for this audit.

a potential main steam pipe break (MSPB) and feedwater pipe break (FWPB). What is the justification for leak-before-break considerations for an MSPB and FWPB?

85 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Section 4.5 of Design Specification EQ-A014-4255 states that the TRVs are sufficiently remote to not require radiation qualification.

What is the justification for not requiring radiation qualification for the TRVs?

NuScale will revise Design Specification to require radiation requirements in accordance with process in FSAR Section 3.11.

Confirma tory 86 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Does Design Specification EQ-A014-4255 require application of Appendix QR-B in ASME QME-1-2007 for environmental qualification of nonmetallics in the TRVs for radiation and other environmental effects?

Design Specification requires QME-1 and QR-B may be used.

Closed Item 92 in the list below addresses EQ issues.

Therefore, this item is closed.

87 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Section 3.9 of Design Specification EQ-A014-4255 states that the valve settings for the TRVs are provided in Table 3-1 of the specification.

Are the planned settings consistent with the ASME BPV Code requirements as incorporated by reference in 10 CFR 50.55a? If not, what is the plan to obtain NRC acceptance of the differences from the Code requirements?

NuScale will update design specification to require ASME BPV Code.

Confirma tory 88 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Section 6.2 of Design Specification EQ-A014-4255 specifies the QA requirements for the TRVs. Does Design Specification EQ-A014-4255 NuScale will revise Design Specification to include Appendix B requirement.

Confirma tory require the application of Appendix B to 10 CFR Part 50 for the QA requirements for the TRVs?

89 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Section 8.0 of Design Specification EQ-A014-4255 states that the TRVs shall be functionally qualified in accordance with ASME QME-

1. How do the tests and their sequence listed in Section 8.0 satisfy the provisions of ASME QME-1-2007 for qualification of the valve assembly design, extrapolation of the valve assembly qualification, demonstration of the capability of production valves consistent with the qualified valve design, and demonstration of the capability of the as-installed valves?

Section 8.0 requires QME-1 Closed Response acceptable.

90 EQ-A014-4255 Thermal Relief Valves Scarbroug h

Where are the following aspects of the design and qualification requirements for the TRVs addressed in Design Specification EQ-A014-4255?

90a EQ-A014-4255 Thermal Relief Valves Scarbroug h

Any first-of-a-kind (FOAK) valve attributes for the TRVs.

See Item 20.a Closed Response acceptable.

90b EQ-A014-4255 Thermal Relief Valves Scarbroug h

Preparation of a failure modes and effects analysis (FMEA).

See Item 20.b Closed Response acceptable.

90c EQ-A014-4255 Thermal Relief Valves Scarbroug h

Performance of a weak link analysis.

NuScale will update design specification to require weak link analysis by supplier.

Confirma tory 90d EQ-A014-4255 Thermal Relief Valves Scarbroug h

Seismic qualification testing with static side load testing along the least rigid axis.

See Item 20.d Closed Response acceptable.

90e EQ-A014-4255 Thermal Relief Valves Scarbroug h

Thermal stress analysis in accordance with the ASME BPV Code.

See Item 20.e Closed Response acceptable.

90f EQ-A014-4255 Thermal Relief Valves Scarbroug h

Capacity certification for the TRVs over their full range of fluid flow and applicable conditions Design Specification provides capacity requirement.

Closed Response acceptable.

90g EQ-A014-4255 Thermal Relief Valves Scarbroug h

Evaluation of potential flow-induced vibration and its effects.

See Item 20.g Closed Response acceptable.

90h EQ-A014-4255 Thermal Relief Valves Scarbroug h

Evaluation of potential pressure locking and thermal binding.

Spring capable of opening with qualification requirements.

Closed Response acceptable.

90i EQ-A014-4255 Thermal Relief Valves Scarbroug h

Sizing and setting of the TRVs.

NuScale will revise design specification.

Confirma tory NuScale will add Valve Data Sheet as acceptable response.

90j EQ-A014-4255 Thermal Relief Valves Scarbroug h

Preparation of an operating experience report related to the specific valve design to be provided by the supplier.

See Item 20.j Closed Response acceptable.

90k EQ-A014-4255 Thermal Relief Valves Scarbroug h

Documentation in accordance with ASME QME-1-2007.

See Item 20.k Closed Response acceptable.

91 EQ-B020-2140 ECCS Valves Strnisha Does the design specification identify LOCA-generated debris, latent debris, and chemical products During Telecom on June, 20, 2018, NuScale stated that LOCA-generated debris, latent debris, and chemical products are identified in NuScale Document ER-B020-4364 revision 0, GSI-191, Assessment of Debris Accumulation on Pressurized Water Reactor

[PWR] Sump Performance

- Evaluation of Ex-Vessel and In-Vessel Effects.

Closed The staff verified that NuScale Document ER-B020-4364 identifies the LOCA-generated debris, latent debris, and chemical products and that NuScale Design Specification EQ-B020-2140, ASME Design Specification for Emergency Core Cooling System Valves, Revision 3, references NuScale Document ER-B020-4364. This item is closed.

92 EQ-B020-2140 ECCS Valves Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times NuScale proposed to revise FSAR Revision 3 to incorporate ASME QME 2007, Appendix QR-B with exceptions as stated in NuScale Letter dated October 17, 2018 (ML18290A557) and to revise the applicable specifications.

Confirma tory Acceptable 93 EQ-A010-2235 PSCIVs Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times Same as item 92 Confirma tory Same as item 92 94 EQ-A010-2224 SSCIVs Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times Same as item 92 Confirma tory Acceptable 95 EQ-B030-2258 RMX Check Valves Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times Same as item 92 Confirma tory Acceptable 96 EQ-B010-3227 CVCS Class 3 Valves Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the Same as item 92 Confirma tory Acceptable qualification environments and post-accident operating times 97 EQ-B030-2258 DHR Actuation Valves Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times Same as item 92 Confirma tory Acceptable 98 EQ-A014-4255 Thermal Relief Valves Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times Same as item 92 Confirma tory Acceptable 99 EQ-A011-2179 RSVs Strnisha Does the design specification require the application of Appendix QR-B in ASME QME-1-2007 and are the qualification environments and post-accident operating times Same as item 92 Confirma tory Acceptable 100 EQ-A023-1943 Reactor Internals Law In Table 3-1, where is the maximum design pressure difference of 10 psid from?

10 psid is a convenient and bounding value established for design conditions. (EC-A010-3204, Revision 1).

Pressure differentials as a result of thermal transients, including blowdown conditions are provided in respective loading specification that apply to various service level (A, B, C, D) conditions.

Closed Response acceptable.

101 EQ-A023-1943 Reactor Internals Law When will deflection limit in Table 3-3 be available?

Deflection limits in Table 3-3 are dependent on several factors. Deflection limits for the upper riser section and Closed This issue was assessed and closed via the control rod drive system control rod drive shaft supports are dependent on the results of control rod drop alignment testing (testing is currently in progress). Final determination of all deflection limits depend both on established manufacturing tolerances as well as critical review of component functions, both of which are being performed as part of design for lifecycle (DFL) efforts which are currently in progress.

audit in September 2018 (ML18235A509).

102 EQ-A023-1943 Reactor Internals Law Explain the use of OBE loads in Table 4-1. Is OBE load included in Level A, B and C analyses?

An OBE event is established as 1/3 of SSE.

OBE is only included in fatigue analysis conducted to satisfy service level B loading conditions and is not considered as part of satisfying service level A or C loading conditions. This approach is consistent with guidance in Appendix S of 10 CFR Part 50, as well as NUREG-0800, Section 3.7.3 Closed Response acceptable.

103 EQ-A023-1943 Reactor Internals Law When will mechanical loads in Appendix A be available?

What about other loads such as thermal and seismic?

This question applies to EQ-A023-1943, Revision 1 (ASME Design Specification for Reactor Vessel Internals). The scope of Appendix A includes mechanical loads due to support/restraint of the RVI within the reactor Open The staff considers the mechanical loads for RVI, which is information required to have a completed design specification, to be necessary information for a safety finding, and should not be addressed pressure vessel (RPV).

The necessary analysis required to develop these loads has not yet been performed, but will be required to be completed to develop a certified ASME design report for the RVI.

See ITAAC Items 02.01.01 and 02.01.03 for inspection commitments which provided verification that certified design reports (inclusive of all ASME code analysis) are provided.

Thermal (transient) loads are available in ER-A010-2529, Revision 0 (RXM Thermal Transient Load Definition Specification).

Seismic loads are available in EC-A010-3559, Revision 4 (Reactor Module Seismic Calculation).

solely using ITAAC.

This issue remains open and will need to be reviewed in a future audit 104 EQ-A023-1943 Reactor Internals Wu In ASME Design Specifications: EQ-A010-2235, for Primary System CIV (PSCIV), EQ-A023-1775 for Reactor Pressure Vessel, EQ-A023-1943 for Reactor Vessel Internals, it is not clear as to how the stress analyses were performed for loads to be considered for the design in compliance with service Level A, B, C and D limits.

Please list and upload the stress analysis reports for staff review for thermal and mechanical transients related Stress analysis result for the RPV (conducted in accordance with analysis requirements of EQ-A011-1775) are provided in EC-A011-2278, Revision 0.

EC-A011-2278 presents the stress analysis for applicable Service level A, B, C and D conditions, including evaluation of thermal and mechanical transient events.

Generically, thermal and mechanical transients are covered under Service level Open The staff requested NuScale to provide preliminary stress analysis for RVI and PSCIVs.

No CUF and Fen were calculated for reactor vessel as required by the design specification EQ-A011-1775.

No stress and fatigue analysis for RVIs and PSCIV was available for review and will need to to DBPB (CVCS injection and discharging line breaks, MSPB and FWPB), and actuations of RVVs, RSVs, RRVs and inadvertent MSIV closure, if they become available.

A and B conditions.

Inadvertent main steam isolation valve closure is a Service level B event as defined in FSAR Section 3.9 and Table 3.9-1.

Opening of the ECCS RRV and RVV and RSVs are defined as Service Level C events and DBPB are defined as Service level D (Section 3.9 of the FSAR and Table 3.9-1). All of the indicated transient events are addressed in the analysis documented in EC-A011-2278. There are no other stress calculations applicable to the RPV.

Final stress analysis results from the RVI and PSCIVs conducted in accordance with EQ-A010-2235, EQ-A023-1943 are not currently available.

NuScale does not consider these analyses to be part of the DCA review. Design analysis required for these components has been defined within the applicable ASME design specifications (provided for review) and will be completed in support of providing certified design reports for these ASME components. See ITAAC items 02.01.01 and be reviewed in a future audit 02.01.03 for inspection commitments which provide verification that certified design reports (inclusive of all ASME code analysis) are provided.

105 EQ-A023-1943 Reactor Internals Wu Open items are listed in Section 1.6 of EQ-A023-1775.

It appears that RXM Nozzle loads are either preliminary or not available. The staff asked NuScale when these open Items will be closed. Section 4.4.1 of ASME Design Specification, EQ-A023-1775 for Reactor Pressure Vessel, states that Dynamic load factors of 15 percent (1.15 times the expected DW load) shall be applied at all lifting and transportation support points. The staff requests the basis for using a 1.15 factor in lieu of 2.0 standard dynamic load factor.

A factor of 2.0 is not a standard dynamic loading factor, it is a theoretical maximum value. There are no specific regulatory or industry standards or requirements which require use of a factor of 2.0. A factor of 2.0 represents a worst case scenario and may be unnecessarily limiting to apply to all design situations. The factor of 1.15 selected by NuScale applies to controlled lifts. This factor is selected consistent with guidance provided in NUREG-0612. NUREG-0612, Section 1.2 defines a handling system as All load bearing components used to lift the load, including the crane or hoist, the lifting device, and interfacing load lift points.

Based on this definition, the interfacing load points are part of the components (e.g., CNV, RPV, RXM, etc.) and guidance for the handling system applies to Closed Response acceptable.

interfacing points on the component being lifted.

NUREG-0612 (paragraph 5.1.1(7)) indicates the crane should be design to meet applicable requirements of criteria or CMAA-70. CMAA-70 (Section 3.3.2.1.1.4.2) indicates a minimum hoist load factor (i.e. dynamic loading factor) of 15 percent. The NuScale requirement of a factor of 1.15 is consistent with CMAA-70.

As discussed in DCA Tier 2, Section 9.1.5.1, the NuScale reactor building crane is designed in accordance with NOG-1 and therefore no safety related SSCs (e.g. the RXM) are affected by load drops. In lieu of application of the guidance in NUREG-0612, as supplemented by NOG-1, there does not appear to be any other regulatory guidance related to the selection of dynamic load factors for lifting and handling of safety related SSCs. The full, practical implementation of the factor of 1.15 is not necessarily fully defined by a design specification. In order to verify/enforce this design dynamic loading factor, measures such as accelerometers may be employed during shipping and/or other controls may be applied during controlled lifts. These additional measures and controls for shipping and conduct of controlled lifts have not been developed at this time and may or may not be implemented through the ASME design specification.

106 EQ-A023-1943 Reactor Internals Wu Section 2.2 of EC-A011-3428 and EC-A013-3036-01, stated that the maximum allowable gap between flanges at the center of the outer o-ring is assumed to be 0.03 inches.

Therefore, the pressure capacity is determined when the flange gap of 0.03 begins to form. It appears that the opening of the flange joint is a result of deformation from the opening in the shell deforming resulting from the vessel shell expansion. The opening will allow mass to escape from RPV to CNV and from CNV to the surrounding pool water.

The applicant stated that since actual seal/o-ring specifications are not available, the severity of the failure is uncertain. Was a thermal hydraulic analysis performed for the blowdown The evaluations performed in EC-A011-3428 and EC-A013-3036 are very conservative analyses to provide a bounding (lowest possible) maximum ultimate pressure at which the vessel is considered to fail. Failure criteria established that no leakage would occur with a 0.03 inch gap or less at the o-ring. It is not until the gap exceeds a 0.03 inch gap that leakage would be expected to occur. The gap at the reported pressure is just prior to the seal being lost and therefore there is no leakage to calculate.

Neither the RPV nor CNV vessels are expected to reach accident conditions at these higher pressures.

Closed NuScales response is acceptable as the case was for the loading beyond the design condition.

to the CNV during the RPV depressurization?

106a EQ-A023-1943 Reactor Internals Wu Also, what are the consequences of 1240 psi steam escaping from the CNV to the pool water? It might cause a RXB vibration similar to the suppression pool loading in the BWR plants.

The evaluation performed in EC-A013-3036 is a very conservative analysis to provide a bounding (lowest possible) maximum ultimate pressure at which containment is considered to fail. Failure criteria was established that no leakage would occur at a 0.03 inch gap or less at the o-ring. It is not until the gap exceeds 0.03 inch that leakage would be expected to occur. The containment is not expected to reach any accident conditions at this pressure or higher. The 1240 psi pressure is a bounding condition when containment has been considered to fail so no leakage is calculated. It is expected that a more realistic ultimate pressure will be at a significantly higher pressure.

Closed The response is acceptable for the reason as stated in Question 106.

107 EQ-A023-1943 Reactor Internals Wu In Section Lifting, handling, and transportation loads are not required to meet ASME stress limits specified in Section 4.1. However, the ASME Service Level B primary limits shall be used as the allowable limits for the lifting, handling and transportation loads. The lifting points shall be analyzed All handling loads are covered by requirement 4.4.3. In a future revision we may choose to clarify this and explicitly break out maintenance loads as a separate requirement but the current requirement is intended to cover all handling loads.

Closed Response acceptable.

to ensure minimum safety factors of five, (5) for material ultimate strength and three (3) for material yield strength are maintained for all lifting and handling conditions including consideration of the dynamic load factor, specified in Section 4.4.1. Are the lifting, handling and transportation loads shall be considered during the refueling operation for the plant life of 60 years.

108 EP-0303-21019 Classification of SSCs Le In the Procedure section (page 13 of 35), the applicant states NuAQ = NuScale augmented quality. This sub-classification includes the functions that are identified by NuScale that require augmented requirements.

These B1 and B2 function, due to their importance to safety, would not be treated as commercial grade and require augmentation. The staff finds this procedure is not clear. If B1 and B2 function are not be treated as commercial grade and require augmentation, will, DCD Tier 2, Table 3.2-1, reflect that these B1 and B2 components require NuScale augmented quality?

Revision 6 of EP-0303-2109 removed to NuAQ as it is no longer applicable.

All B1 and B2 items that require augmented quality requirements are reflected in DCD Tier 2, Table 3.2-1.

See Note 2 and Note 3 of Table 3.2-1.

Closed Response acceptable.

109 Dwg. NP12 B010-M-PD-1021-S02 Le On Sheet 2 of 3, class break of SRW and CVC indicates that the break occurs on the pipe line. Provide the NuScale design basis does not use class break in design drawings. ASME Class is identified in piping classification in each P&ID.

Closed The staff requests that the applicant provide the class break information in this drawing. The information of class clarification of this class break location.

breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

110 Dwg. NP12 B010-M-PD-1021-S02 Le On Sheet 3 of 3, CNT line to CVC line indicates there is a class break at the isolation valve. However, the isolation valve location is not clearly defined. Provide the clarification that the class break location is on the second isolation valve.

NuScale design basis does not use class break in design drawings. ASME Class is identified in piping classification in each P&ID.

Closed The staff requests the applicant provides the class break information in this drawing. The information of class breaks in ER-A013-4785 Rev. 0 - Figure 7.1, is acceptable.

RAI 9619 addresses this item. This item is closed.

111 COL Item 3.10-2 COL Item 3.10-2 states, A COL applicant that references the NuScale Power Plant design certification will develop the equipment qualification database and ensure equipment qualification record files are created for the structures, systems, and components that require seismic qualification. However, the following requirement stated in the SRP is omitted:

Identification of all design (functional) specifications and qualification reports and their locations. Functional specifications for active valve assemblies should conform to RG 1.148, Functional Regulatory Guide 1.148 has been withdrawn as documented in ML13066A552. As stated in RG 1.100, Revision 3, The NRC is revising this RG (i.e., Revision 3 of RG 1.100) to endorse with exceptions and clarifications, IEEE Std. 344-2004 and ASME QME-1-2007. (This is the first time the NRC has endorsed ASME QME-1). This revision of the RG will also subsume RG 1.148.

Specifically, Sections B.1 and C1 of this RG endorse, with exceptions and clarifications, the entire IEEE Std. 344-2004 and Closed Specification for Active Valve Assemblies in Systems Important to Safety in Nuclear Power Plants. Please explain how the design functional specifications and qualification reports and valve locations are specified in the design document.

Section QR General Requirements and Non-mandatory Appendix QR-A Seismic Qualification of Active Mechanical Equipment, to ASME QME-1 2007 for the seismic qualification of electrical and active mechanical equipment Note: NUREG 0800, Revision 4, still references RG 1.148 even though it has been withdrawn.

Recommend withdrawal of this question as it does not apply.

112 EC-A013-3377 Huang Document EC-A013-3377 on page 64 of 128 states, Due to poor quality mesh on the CNV26 cover, results from CNV27 and CNV30 are considered instead. This is acceptable due to similar geometry under similar loading.

Explain the reason for the poor quality mesh on CNV26.

Will it be rerun at a later time with a better quality mesh?

Was it due to a software issue, or is it due to assumptions made in the analysis?

NuScales response stated that poor quality is not factual and needs to be updated (document not currently in eRR to verify).

State that this model is similar to CNV27 and CNV30 and per result tables of Appendix F results are inline.

Closed Closed to NuScale corrective action program, tracking number CR-0918-61768.

U.S. NUCLEAR REGULATORY COMMISSION STAFF REPORT OF REGULATORY AUDIT FOR NUSCALE POWER, LLC; FOLLOW-UP AUDIT OF COMPONENT DESIGN SPECIFICATIONS May 14, 2018 - October 8, 2018 List of Attendees Name Organization Marieliz Vera Amadiz NRC Michael Breach NRC Jason Huang NRC Yiu Law NRC Tuan Le NRC Shanlai Lu NRC Thomas G. Scarbrough NRC James Strnisha NRC Cheng-Ih (John) Wu NRC JJ Arthur NuScale Marty Bryan NuScale Patrick Conley NuScale Scott Harris NuScale Dan Lassiter NuScale Wayne Massie NuScale Gary McGee NuScale

ML19018A140: Difference between revisions

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