Request for Additional Information Traveler TSTF-564, Safety Limit MCPR

ML18095A229
Person / Time
Site:	Technical Specifications Task Force
Issue date:	04/12/2018
From:	Michelle Honcharik NRC/NRR/DSS/STSB
To:	Technical Specifications Task Force
Honcharik, M, NRR/DSS
References
EPID L-2017-PMP-0007, TSTF-564
Download: ML18095A229 (8)
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Text

April 12, 2018 Technical Specifications Task Force 11921 Rockville Pike, Suite 100 Rockville, MD 20852

SUBJECT:

REQUEST FOR ADDITIONAL INFORMATION RE: TECHNICAL SPECIFICATIONS TASK FORCE TRAVELER TSTF-564, SAFETY LIMIT MCPR (EPID: L-2017-PMP-0007)

Dear Members of the Technical Specifications Task Force:

By letter dated August 28, 2017 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML17240A265), you submitted to the U.S. Nuclear Regulatory Commission (NRC) for review Technical Specifications Task Force (TSTF) Traveler TSTF-564, Safety Limit MCPR [Minimum Critical Power Ratio]. Upon review of the information provided, the NRC staff has determined that additional information is needed to complete the review. On April 5, 2018, Mr. Brian Mann, Vice President of Industry Programs, EXCEL Services Corporation, agreed that the NRC staff will receive your response to the enclosed request for additional information (RAI) questions within 30 calendar days of the date of this letter (or the next business day if 30 days falls on a weekend).

During the RAI clarity call on April 5, 2018, it was agreed that the references to the D5 critical power correlation for Westinghouses Optima3 fuel product will be removed from the traveler, because it is currently under review by the NRC staff.

The review schedule that was provided in the acceptance letter dated November 28, 2017 (ADAMS Accession No. ML17325B672), has been revised as follows.

ORIGINAL REVISED MILESTONE SCHEDULE DATE SCHEDULE DATE Issue Draft Safety Evaluation May 30, 2018 June 29, 2018 Issue Final Safety Evaluation July 31, 2018 August 31, 2018

If you have any questions, please contact me at (301) 415-1774 or via e-mail to Michelle.Honcharik@nrc.gov.

Sincerely,

/RA/

Michelle C. Honcharik, Senior Project Manager Technical Specifications Branch Division of Safety Systems Office of Nuclear Reactor Regulation Project No. 753

Enclosure:

Request for Additional Information cc: See next page

ML18095A229; *concurred via e-mail NRR-106 OFFICE NRR/DSS/STSB/PM NRR/DORL/LSPB/LA* NRR/DSS/SNPB/PM* NRR/DSS/STSB*

NAME MHoncharik JBurkhardt SAnderson VCusumano DATE 04/12/2018 4/10/2018 3/15/2018 4/5/2018 Technical Specifications Task Force Project No. 753 cc:

Technical Specifications Task Force c/o EXCEL Services Corporation 11921 Rockville Pike, Suite 100 Rockville, MD 20852 Attention: Brian D. Mann E-mail: brian.mann@excelservices.com James P. Miksa Entergy Nuclear Operations, Inc.

Palisades Nuclear Power Plant 27780 Blue Star Memorial Highway Covert, MI 49043 Email: jmiksa@entergy.com Jordan L. Vaughan Duke Energy EC2ZF / P.O. Box 1006 Charlotte, NC 28202 Email: jordan.vaughan@duke-energy.com Lisa L. Williams Energy Northwest Columbia Generating Station PO Box 968 Mail Drop PE20 Richland, WA 99352-0968 E-mail: llwilliams@energy-northwest.com David M. Gullott Exelon Generation 4300 Winfield Road Warrenville IL 60555 Email: David.Gullott@exeloncorp.com Wesley Sparkman Southern Nuclear Operating Company 42 Inverness Center Parkway / Bin B237 Birmingham, AL 35242 Email: wasparkm@southernco.com

REQUEST FOR ADDITIONAL INFORMATION TECHNICAL SPECIFICATIONS TASK FORCE TRAVELER TSTF-564, SAFETY LIMIT MCPR (EPID: L-2017-PMP-007)

By letter dated August 28, 2017 (Agencywide Documents Access and Management System (ADAMS) Accession No. ML17240A265), the Technical Specifications Task Force (TSTF) submitted to the U.S. Nuclear Regulatory Commission (NRC) for review Traveler TSTF-564, Safety Limit MCPR [Minimum Critical Power Ratio].

1. Section 1 of TSTF-564 states that the proposed change to the MCPR safety limit (SL) is not applicable to plants using AREVA fuel. This is clarified in Section 2.4 of the traveler where it is specifically stated that the proposed change is not applicable to BWR

[boiling-water reactor] plants using AREVA fuel due to differences in core reload design methodology. It is not acceptable to the NRC staff to categorically exclude fuel from a specific vendor in the manner proposed, because methodologies may be changed and brought into compliance with the intent of the traveler. Instead, please provide the attributes of a core reload design methodology that are necessary for the proposed change to be applicable.

2. As discussed in paragraph 50.36(c)(1) of Title 10 of the Code of Federal Regulations (10 CFR), plant SLs are limits upon important process variables that are found necessary to reasonably protect the integrity of certain of the physical barriers that guard against the uncontrolled release of radioactivity. When the SLs are exceeded, the reactor must be shut down to protect the integrity of these barriers and prevent uncontrolled radioactive release.

The pressurized-water reactor (PWR) departure from nucleate boiling ratio (DNBR) SL1 has essentially the same basis as the proposed MCPR95/95, in that it represents a 95/95 upper tolerance limit on the correlation used to evaluate the DNBR on the fuel in the core. This translates into a 95 percent probability at a 95 percent confidence level that the fuel will not experience departure from nucleate boiling (DNB) if the SL is not exceeded. The traditional BWR fuel analysis basis is different and requires that 99.9 percent of the fuel rods in the core are not susceptible to boiling transition.

a. In PWR safety analyses, DNB (and, accordingly, fuel failure) is presumed if the minimum DNBR drops below the DNBR SL. Will exceedance of the MCPR95/95 SL be similarly used as a criterion for boiling transition? If not, please discuss why it is an appropriate SL. Also, please justify why the MCPR operating limits based on the MCPR99.9% SL are compatible with the redefined SL.

b. The NRC staff reviewed current BWR MCPR SLs and found that the SL MCPR95/95 examples provided in Table 1 of TSTF-564 are consistently lower (i.e., less conservative) than the current SLMCPR99.9%. Please justify why the basis for these 1

Included as SL 2.1.1.1 in the Westinghouse Standard Technical Specifications, NUREG-1431, Volume 1 (ADAMS Accession No. ML12100A222).

Enclosure

two limits is equivalent or provide a discussion of the unnecessary conservatism included in the MCPR99.9% that is not included in the MCPR95/95.

3. The changes proposed in TSTF-564 revise the basis of the SL on critical power ratio such that it ensures there is a 95% probability at a 95% confidence level that no rods will be susceptible to transition boiling. The critical power ratio is not a measurable quantity in a plant, and must be calculated using a critical power correlation. In effect, the limit is not on the critical power ratio but on the critical power ratio calculated using a particular correlation; the limit is linked to the correlation used to generate it, and is not meaningful without it. Please revise TSTF-564 to include both the value of the revised MCPR SL and the correlation used to generate it in the technical specification (TS), or provide additional justification that this is not necessary.

4. Section 2.4 of TSTF-564 discusses how to determine the SLMCPR95/95 for cores where a mix of applicable fuel designs reside in the core, but does not provide an approach for determining the SLMCPR95/95 for cores that contain a mix of applicable and non-applicable fuel designs. Is TSTF-564 only applicable when the core is completely loaded with applicable assemblies? If not, how is the SLMCPR95/95 determined for cores transitioning to or from applicable fuel designs?

5. The concept presented in TSTF-564 for redefining the MCPR SL relies heavily on the experimental critical power ratio (ECPR), which is not mathematically defined in the traveler. Please provide a mathematical definition for ECPR so consistency can be ensured in future licensing actions.

6. The NRC staff may find the need to impose safety evaluation penalties on the correlation to ensure appropriate conservatism. As discussed in Information Notice (IN) 2014-01, Fuel Safety Limit Calculation Inputs Were Inconsistent with NRC-Approved Correlation Limit Values, dated February 21, 2014,2 the NRC staff found instances where the DNBR 95/95 correlation limit was penalized but the penalty was not appropriately fed into plant safety and operating limits. The approach used in the instances found by the NRC staff was similar to that proposed in the traveler, which uses an equation that defines the MCPR95/95 from the ECPR mean, standard deviation, and a statistical factor that is based on the number of data points used to determine the ECPR statistics. How are the penalties imposed on the correlation by the NRC staff (IN 2014-01) reflected in the determination of the MCPR95/95, the MCPR99.9%, and the MCPR operating limit?

7. The TSTF-564 traveler proposes that twice-burnt (or more) fuel is non-limiting with respect to MCPR. Please provide additional justification for this statement, based on theory and/or operating experience, especially for plants operating with short (i.e.,

1 year) operating cycles or non-standard operating conditions. Please also discuss whether and how the MCPR95/95 will be updated if a bundle assumed to be non-limiting is found to be limiting during the evaluation of the MCPR99.9% in the development of the MCPR operating limit.

8. The TSTF-564 traveler proposes to report the SLMCPR95/95 in the TS to a precision of two digits past the decimal point using standard rounding practices. In the NRC staffs experience, the standard practice for SLs has always been to round up due to the potential for non-conservatism in the SL introduced by rounding down. Is this the 2

ADAMS Accession No. ML13325A966.

standard rounding practice intended in the traveler? If not, please justify.

9. The model application requests that licensees discuss the fuels that are or will be in use in the reactor, and discuss which fuel type is limiting with respect to the SLMCPR consistent with the discussion in Section 2.4 of the traveler. The model application then states that SL 2.1.1.2 should be updated with values consistent with Table 1 of TSTF-564. However, this appears to be inconsistent with the language from the text of Section 2.4 of the traveler, which states, in part, that:

When new fuel types are developed, the fuel vendor will describe to the NRC the derivation of the MCPR95/95 value for that fuel type. This description may be referenced by a licensee requesting a change to SLMCPR95/95.

Such new fuel types would not be referenced in Table 1 of the traveler and thus would constitute a variance from the model application. Please clarify if it is intended that the model application would only be applicable for the fuel types referenced in Table 1.

10. In the TSTF-564 proposed changes, the second paragraph of the Background section of the TS 2.1.1 Bases specifies General Electric and Advanced Nuclear Fuel Corporation (ANF) fuel types. In other sections of the TS Bases, revisions are made to include Westinghouse fuel. Please clarify the discrepancy.

11. TSTF-564 proposes a language change to the Background section of the TS 2.1.1 Bases that defines the SL as ensuring that at least 99.9% of the fuel rods in the core are not susceptible to boiling transition rather than at least 99.9% of the fuel rods in the core do not experience transition boiling. What is the intent of this change, and what is the substance of the difference between these two phrases?

Additionally, an equivalent change to similar language in the Applicable Safety Analysis section of the TS 2.1.1 Bases was not made. Please clarify the discrepancy.

12. In NUREG-1434, Volume 2,3 TS 3.2.2 Bases Reference 2 is to the current cycle safety analysis. This is appropriate for the discussion in the bases and is applicable regardless of the fuel vendor. In NUREG-1433, Volume 2,4 TS 3.2.2 Bases Reference 2 is to NEDO-24011-P-A, General Electric Standard Application for Reactor Fuel. Since discussion elsewhere in the TS Bases has been expanded to include Westinghouse fuel, it is not clear that the reference is appropriate. Please clarify.

13. Why is it appropriate to remove SL after MCPR in the Applicability section of the TS 3.2.2 Bases? With this change, when the [99.9%] is not included, the sentence becomes:

Surveillance of thermal limits below 25% RTP is unnecessary due to the large inherent margin that ensures that the MCPR is not exceeded even if a limiting transient occurs.

3 Standard Technical Specifications - General Electric Plants (BWR/6): Bases (Revision 4), April 2012 (ADAMS Accession No. ML12104A196).

4 Standard Technical Specifications - General Electric Plants (BWR/4): Bases (Revision 4), April 2012 (ADAMS Accession No. ML12104A193).

This sentence does not make sense for the MCPR in general, only for a limit placed on the MCPR. Please clarify.

14. Per Generic Letter (GL) 88-16, Removal of Cycle-Specific Parameter Limits from Technical Specifications, dated October 4, 1988,5 which established the Core Operating Limits Report (COLR), along with subsequent NRC precedent, the methodologies for determining cycle-specific parameter limits must be included in the list of COLR references contained in TS 5.6.3.b. Given that the MCPR99.9% will now be included in the COLR along with the MCPR operating limit, licensees adopting TSTF-564 must reference appropriate methodologies for the critical power ratio correlation and MCPR99.9% calculation in TS 5.6.3.b. However, this is not discussed in the traveler or model application. Why?

5 ADAMS Accession No. ML031130447.