Response to Request for Additional Information Regarding Relief Request RR-ENG-3-09 for the Essential Cooling Water System

ML13045A309
Person / Time
Site:	South Texas
Issue date:	01/31/2013
From:	Gerry Powell South Texas
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
NOC-AE-12002956, TAC ME9806
Download: ML13045A309 (5)
v • d • e

Text

Nuclear Operating Company South Texas Proect Electric Generating Station PO. Box289 Wadsworth, Texas 77483 January 31, 2013 NOC-AE-12002956 File No.: G25 10 CFR 50.55a U. S. Nuclear Regulatory Commission Attention: Document Control Desk Washington, DC 20555-0001 South Texas Project Unit 2 Docket No. STN 50-499 Response to Request for Additional Information Regarding Relief Request RR-ENG-3-09 for the Essential Cooling Water System (TAC No. ME9806)

References:

1. Letter, D. W. Rencurrel to NRC Document Control Desk, "Request for Relief from ASME Boiler and Pressure Vessel Code,Section XI Requirements for the Essential Cooling Water System (Relief Request RR-ENG-3-09)," NOC-AE-12002898, dated October 16, 2012 (ML12299A287)

2. Letter, D. W. Rencurrel to NRC Document Control Desk, "Supplement to Relief Request RR-ENG-3-09 for the Essential Cooling Water System (TAC No.

ME9806)," NOC-AE-12002928, dated November 14, 2012 (ML12341A229)

3. E-Mail, B. K. Singal, NRC, to Jamie Paul, STPNOC, "South Texas Project, Unit 2 - Email, Request for Additional Information, Relief Request RR-ENG-3-09 from ASME Code Requirements; Deferral of Code Repair of Essential Cooling Water System Piping until April 2013 Refueling Outage (TAC No. ME9806), dated January 2, 2013 (ML13003A072)

By Reference 1, as supplemented by Reference 2, the STP Nuclear Operating Company (STPNOC) requested relief from the requirements of the American Society of Mechanical Engineers Boiler and Pressure Vessel Code (ASME Code) to defer repairs to a degraded flange in the Essential Cooling Water System (ECWS). By Reference 3, the NRC staff requested additional information regarding the review of RR-ENG-3-09. STPNOC's response to Reference 3 is provided in the attachment to this letter.

There are no commitments in this letter.

STI: 33650093

NOC-AE-12002956 Page 2 of 3 If there are any questions, please contact Coley Chappell at 361-972-4745, or me at 361-972-7566.

I declare under penalty of perjury that the foregoing is true and correct.

Executed on ,o , Zo13.

G. T. Powell Vice President, Generation ccc

Attachment:

Response to Request for Additional Information Regarding Relief Request RR-ENG-3-09 (TAC No. ME9806)

NOC-AE-12002956 Page 3 of 3 cc:

(paper copy) (electronic copy)

Regional Administrator, Region IV A. H. Gutterman, Esquire U. S. Nuclear Regulatory Commission Morgan, Lewis & Bockius LLP 1600 East Lamar Boulevard Arlington, TX 76011-4511 Balwant K. Singal U. S. Nuclear Regulatory Commission Balwant K. Singal John Ragan Senior Project Manager Chris O-Hara U.S. Nuclear Regulatory Commission Jim von Suskil One White Flint North (MS 8 B1) NRG South Texas LP 11555 Rockville Pike Rockville, MD 20852 NRC Resident Inspector Kevin Polio U. S. Nuclear Regulatory Commission Richard Peha P. O. Box 289, Mail Code: MN116 City Public Service Wadsworth, TX 77483 C. M. Canady Peter Nemeth City of Austin Crain Caton & James, P.C.

Electric Utility Department 721 Barton Springs Road C. Mele Austin, TX 78704 City of Austin Richard A. Ratliff Texas Department of State Health Services Alice Rogers Texas Department of State Health Services

Attachment NOC-AE-12002956 Page 1 of 2 Response to Request for Additional Information Regarding Relief Request RR-ENG-3-09 (TAC No. ME9806)

By letter dated [October] 16, 2012 (Agencywide Document Access and Management System (ADAMS) Accession No. ML12299A287), as supplemented by letter dated November 14, 2012 (ADAMS Accession Number ML12341A229), STP Nuclear Operating Company (STPNOC, the licensee), requested relief from the requirements of the American Society of Mechanical Engineers Boiler and Pressure Vessel Code (ASME Code) to defer repairs to a degraded flange in the essential cooling water system (ECWS). In order to complete its review, the U.S.

Nuclear Regulatory Commission (NRC) staff requests the following additional information.

REQUEST:

1. The NRC staff does not concur with the results of the analysis used in the relief request to demonstrate structural integrity of the piping under consideration. The NRC staff believes that the analysis uses "as received" material properties. Selective leaching, the degradation mechanism of interest in this request, is known to degrade material properties ahead of advancing cracks. At the time of the request, neither the degree to which the material properties are degraded nor the area over which this degradation occurs is known or can be determined without destructively examining the flange under consideration. Given that the appropriate material properties for use in the structural integrity evaluation are not known, the NRC staffs evaluation is based on a worst case scenario, i.e., that the strength of the material from which the flange is constructed is completely degraded, i.e., zero tensile strength.

Given that zero tensile strength in the degraded material is assumed, the NRC believes that, in the event of an earthquake, a guillotine break is likely to occur at the degraded pipe location.

Such a break would encompass the full 360 degree circumference of the flange and result in complete separation of the ECWS A train piping from the ECWS B train and cross-tie piping.

While the NRC staff acknowledges that the piping system, as designed, i.e., piping from trains A and Band the cross-tie piping function as a single unit, are seismically qualified, based on the information provided, it is not clear that this piping system remains seismically qualified when severed at the degraded flange.

Please demonstrate that the Trains A and B and Cross-tie piping of the ECWS remain seismically qualified when severed by a guillotine break at the degraded location on the flange in the cross-tie piping.

RESPONSE

In order to demonstrate that the South Texas Project (STP) Unit 2 ECWS Trains A and B and associated cross-tie piping remain seismically qualified, STPNOC pipe stress (ME 101) analytical model was modified to introduce a guillotine break (separation) at the location of the existing flaw and then re-analyzed using design basis approach and stress limits. 'The results of this evaluation show that this piping system meets the ASME Code requirements and therefore remains seismically qualified.

Attachment NOC-AE-12002956 Page 2 of 2 Additional Discussion:

A guillotine break is considered to occur at the location where the 10-inch pipe adjoins the de-alloyed flange before being bolted to valve EW0274, corresponding to the location of the flaw as shown in Figures S-1 and S-2 in the supplement to the relief request.

The ME101 analytical model was established to simulate a separation at the location as described above. As such, this flange element will not be able to sustain or transmit any mechanical forces and moments in the piping system analytical model. The ME101 piping analysis analyzes all of the defined load cases as outlined in the current design basis analysis.

Functional capability is assured as shown by Equation (Eqn.) 9D (Occasional Loads, Safe Shutdown Earthquake) for maximum computed stress 6385 psi being less than the allowable stress 25,500 psi (1. 2 XSh) for Eqn. 9B (Occasional Loads, Operating Basis Earthquake), where "Sh" is the hot allowable stress for system operation in a prescribed thermal mode with elevated temperature, usually greater than an ambient temperature of 70 0 F.

Below is a summary of the maximum computed stresses with the guillotine break modeled, as documented in STPNOC Condition Report Engineering Evaluation (CREE) No. 12-22876-25, for Code Stress Equations 8, 9B, 9D, and 10.

Maximum Allowable Stress Design Condition Level Computed Stress (psi) Ratio (psi)

Eqn. 8, Sustained Loads -- 4930 21,250 (Sh) 0.232 Eqn. 9, Occasional Loads B 5592 25,500 (1.2 XSh) 0.219 Eqn. 9, Occasional Loads D 6385 51,000 (2 .4 XSh) 0.125 Eqn. 10, Thermal Expansion -- 24,833 27,000 (Sa) 0.920