RAI, Request for Additional Information Regarding Request for Extended Power Uprate

ML071240411
Person / Time
Site:	Hope Creek
Issue date:	05/14/2007
From:	James Shea NRC/NRR/ADRO/DORL/LPLI-2
To:	Levis W Public Service Electric & Gas Co
SHea J, NRR/DORL, 415-1388
References
TAC MD3002
Download: ML071240411 (8)
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Text

May 14, 2007Mr. William LevisSenior Vice President & Chief Nuclear Officer PSEG Nuclear LLC-X04 Post Office Box 236 Hancocks Bridge, NJ 08038

SUBJECT:

HOPE CREEK GENERATING STATION - REQUEST FOR ADDITIONALINFORMATION REGARDING REQUEST FOR EXTENDED POWER UPRATE (TAC NO. MD3002)

Dear Mr. Levis:

By letter dated September 18, 2006, as supplemented by letters dated October 10, 2006,October 20, 2006, February 14, February 16, February 28, March 13, and April 18, 2007, PSEG Nuclear, LLC (PSEG or licensee) submitted an amendment request for an extended power uprate (EPU) for Hope Creek Nuclear Generating Station (Hope Creek). The proposed amendment would increase the authorized maximum power level by approximately 15%, from 3339 megawatts thermal (MWt) to 3840 MWt. The Nuclear Regulatory Commission (NRC) staff has been reviewing the submittal and hasdetermined that additional information is needed to complete its review. The specific questions are found in the enclosed request for additional information. The questions were sent by e-mail to you to ensure that the questions were understandable, the regulatory basis was clear and to determine if the information was previously docketed. In subsequent discussions with your staff, questions were revised for further clarification. In order to maintain the current review schedule the NRC staff requested a response to all questions by May 18, 2007. Your staff stated that they could respond to the enclosed questions by May 22, 2007, except for questions 3.67 and 8.21, for which responses would be provided by May 25, 2007.Please note that if you cannot respond to all questions by May 18, 2007, as NRC staffrequested, then the schedule may be adversely impacted. If you have any questions, I can be reached at (301) 415-1388. Sincerely,/ra/ (R.B. Ennis for)James J. Shea, Project ManagerProject Directorate I-2 Division of Operating Reactor Licensing Office of Nuclear Reactor RegulationDocket No. 50-354

Enclosure:

As Stated cc w/encl: See next page

ML071240411OFFICEPDI-2/PMPDI-1/LAEEEBCVIB/BCSBWB/BCIOLB/BC SBPB/BCPD1-2/BCNAMEJSheaSLittleGWilsonMMitchellGCranstonNSalgadoJSegalaHChernoffDATE5/7/075/9/07 5/4/075/3/07 5/3/07 5/3/07 5/4/07 5/14/07 Hope Creek Generating Station cc:

Mr. Dennis WinchesterVice President - Nuclear Assessments PSEG Nuclear P.O. Box 236 Hancocks Bridge, NJ 08038Mr. George P. BarnesSite Vice President - Hope Creek PSEG Nuclear P.O. Box 236 Hancocks Bridge, NJ 08038Mr. George H. GellrichPlant Support Manager PSEG Nuclear P.O. Box 236 Hancocks Bridge, NJ 08038Mr. Michael J. MassaroPlant Manager - Hope Creek PSEG Nuclear P.O. Box 236 Hancocks Bridge, NJ 08038Mr. James MallonManager - Licensing 200 Exelon Way - KSA 3-E Kennett Square, PA 19348Jeffrie J. Keenan, EsquirePSEG Nuclear - N21 P.O. Box 236 Hancocks Bridge, NJ 08038Mr. Michael JesseManager - Regulatory Assurance P.O. Box 236 Hancocks Bridge, NJ 08038Township ClerkLower Alloways Creek Township Municipal Building, P.O. Box 157 Hancocks Bridge, NJ 08038Mr. Paul Bauldauf, P.E., Asst. DirectorRadiation Protection Programs NJ Department of Environmental Protection and Energy

CN 415 Trenton, NJ 08625-0415Mr. Brian BeamBoard of Public Utilities 2 Gateway Center, Tenth Floor Newark, NJ 07102Regional Administrator, Region IU.S. Nuclear Regulatory Commission

475 Allendale Road King of Prussia, PA 19406Senior Resident InspectorHope Creek Generating Station U.S. Nuclear Regulatory Commission Drawer 0509 Hancocks Bridge, NJ 08038 REQUEST FOR ADDITIONAL INFORMATIONREGARDING TECHNICAL SPECIFICATION CHANGES FORENCLOSUREEXTENDED POWER UPRATEHOPE CREEK GENERATING STATIONDOCKET NO. 50-354By letter dated September 18, 2006 (Agencywide Documents and Management System(ADAMS) Accession No. ML062680451), as supplemented on October 10, 2006 (Accession No.

ML062920092), October 20, 2006 (Accession No. ML063110163), February 14, (Accession No.

ML070530099), February 16, (Accession No. ML070590178), February 28, (Accession No.

ML070680314), March 13 (Accession No. ML071140157), and April 18, 2007 (Accession No.

ML071160121), PSEG Nuclear, LLC (PSEG or licensee) submitted an amendment request for an extended power uprate (EPU) for Hope Creek Nuclear Generating Station (Hope Creek).

The proposed amendment would increase the authorized maximum power level by approximately 15%, from 3339 megawatts thermal (MWt) to 3840 MWt. The Nuclear Regulatory Commission (NRC) staff has been reviewing the submittal and hasdetermined that additional information is needed to complete its review. 1)Vessels & Internals Integrity Branch (CVIB) (additional question) 1.6In response to the request for additional information (RAI) 1.4(b), you stated that for thetop guide whose fluence exceeds the irradiated assisted stress corrosion cracking (IASCC) threshold (5 x10 20 n/cm 2) (E > 1 MeV), the grid beams are not required to beinspected. The licensee further states that this is based on the Boiling Water Reactor Vessel and Internals Project (BWRVIP)-26-A, which states that there is no safety consequences resulting from a failure at a single beam intersection, and that a large number of complete separations would need to occur before control rod insertion would be affected. In order to exclude the top guide grid beams from inspection when their fluence exceedsthe IASCC threshold value, it must be demonstrated that failure of multiple beams that exceed the IASCC threshold fluence will not impact the safe shutdown of the reactor during normal, upset, emergency, and faulted conditions. If this cannot be demonstrated, then an inspection program to manage this aging effect to preclude loss of component intended function is required. Previous inspection programs found acceptable by the NRC include those documented in Vermont Yankee's EPU Safety Evaluation (ADAMS Accession Number ML060050028), Section 2.1.3.

2)Electrical Engineering Branch (EEEB) (additional questions) 2.6Please provide the existing and the proposed Hope Creek EPU, expected uprated power level in MWe.

2.7Please provide the existing and uprated ratings for the main generator (MVA and powerfactor and include any effect of the power uprate).

2.8Was the delta portion of the iso-phase bus duct modified for the EPU? Povide theexisting and, if necessary, uprated rating (in Amperes).

2.9Were any modifications made to the unit auxiliary (UAT)/start-up transformers (SAT)? Provide the existing MVA ratings for the UAT/SAT. Is the total calculated loading on the UAT/SAT within the design ratings? 3)Reactor Systems Branch (SRXB) (additional question) 3.66Please provide the evaluation models (computer codes and version) used for eachtransient and accident analyzed in the Hope Creek EPU application according to the order of Review Standard for EPU (RS001) Section 2.8.5. If multiple codes were used, please specify all the codes and version used for each event.3.67Provide a demonstration analysis using the Statistical Method for Analysis of AnticipatedOperational Occurrences (TRACG) to determine the Delta CPR/Initial CPR Vs.

Oscillation Magnitude (DIVOM) slope based on a limiting SVEA 96+ legacy fuel bundle in order to demonstrate that any uncertainties in the void reactivity feedback for these legacy bundles would not impact the DIVOM curve determination for fuel Cycle 15.4)Operator Lic & Human Perf. Br (IOLB) (additional questions) 4.6Please Clarify that the available times credited in the Hope Creek Updated Final SafetyAnalysis Report (UFSAR) for manual actions remains the same. In your response to RAI 4.1.C, you stated that the times remain the same for manual actions but did not explicitly state that the available times remain unchanged as well.4.7In the response to RAI 4.2.c, you stated that "The greater amount of decay heat due toEPU will affect the operator time associated with decay heat removal results only."

Please provide further clarification on how the operator times will be affected.4.8PSEG has committed to training licensed operators prior to the EPU implementation,however there were no statements concerning the training of non-licensed personnel.

Pleas describe your training plans and commitments for the Hope Creek non-licensed personnel. 4.9Is the verification of successful completion of operator training required as a part of theHope Creek Design Change Process?7) Balance-of-Plant Branch (SBPB) (additional questions) 7.11Section 10.3.2 of the Hope Creek UFSAR states that the main steam insolation valves(MSIV) and main turbine stop valves (MSVs) can close against maximum steam flow.

This licensing basis is partially addressed in of the Hope Creek Power Uprate Safetyanalysis Report (PUSAR), Attachment 4 of the Hope Creek EPU submittal, Section 3.8 which states that an increase in flow rate assists MSIV closure. However, the PUSAR does not address the capability of the MSVs to close against the new maximum steamflow of CPPU. Evaluate the effect of the increased steam flow conditions of the proposed ConstantPressure Power Uprate (CPPU) upon the MSVs to close against maximum steam flow.7.12Section 7.4.2 of the PUSAR states that two independent hydraulic analyses wereperformed to account for feedwater demand transients in a 3 primary condensate pump (PCP), 3 secondary condensate pump (SCP), 3 reactor feedwater pump (RFP) lineup.

The purpose of the analyses is to ensure that adequate margin above the CPPU FW flow is available. The PUSAR stated that the predicted operating parameters from the two hydraulic analyses were acceptable.a)For the two independent analyses, please state in more specific terms whattransients were analyzed, what were the results, and what are the conclusions. b)Describe the impact of the loss of a PCP and/or SCP upon the RFPs at CPPU. How are the margins to RFP trips affected? Are any changes required to achieve acceptable performance?c)Describe the impact of the loss of a RFP upon the remaining RFPs at CPPU. How are the margins to RFP trips affected? Are any changes required to achieve acceptable performance?7.13Section 10.4.7.2 of the Hope Creek UFSAR for the Condensate and Feedwater Systemsdescribes each primary condensate pump (PCP), secondary condensate pump (SCP),

and reactor feedwater pump (RFP) as one-third capacity pumps for operation at the current licensed power level.Section 10.4.7.1 of the UFSAR states that:

"The condensate and feedwater systems are designed to permit continued operation ofthe plant at reduced power without reactor trip on loss of one of the three primary condensate pumps, one of the three secondary condensate pumps, one of the three reactor feed pumps, or one of the three strings of feedwater heaters."Section 7.4 of the PUSAR does not describe any modifications to these pumps for CPPUthat would suggest a decrease in the marginal performance for EPU operation.a)For EPU operating conditions, describe how the PCP, SCP, and RFP normaloperating parameters will change as compared to plant operation at the current licensed power level, including a comparison of pump suction pressures, discharge pressures, and margin to pump run out. Also, identify what the minimum allowable pump suction pressures are, what the pump suction pressure trip set points are, and how these trip set points will change for EPU operation.b)Describe in detail the modeling that was used, analytical methods, assumptions,and analyses that have been completed (including results) that conclusively demonstrate that the plant design basis as described in Section 10.4.7.1 of the UFSAR will continue to be satisfied for the transient plant response that will occurfollowing EPU implementation, including a bounding estimate of the total amount of uncertainty that exists and specifically what the uncertainties are and how they were determined. Also, describe how the accuracy of this analytical approach was validated for use at the uprated power level, along with the results of an analysis that examines the sensitivity of parameters to scaling effects when extrapolating the analytical methods for use at the uprated power level. c)For a postulated trip of a PCP, SCP, and RFP (each taken individually), providethe following information for each of the pump trip scenarios:1.a description of the most limiting case scenario that will result in thelowest RFP suction pressure, either as a direct consequence of the postulated pump trip or as a consequence of other PCP or SCP trips that occur as a result of the transient, and identify what minimum RCP suction pressure will be reached (corrected to account for the total amount of uncertainty that exists);2.compare the minimum transient RFP suction pressure to the RFPsuction pressure trip set point (corrected to compensate for allowable tolerances) and determine the minimum margin that will exist to RFP trip for the transient, and compare this margin to the minimum margin that exists for the current licensed power level.d) Describe any transient testing that will be completed to confirm that the analyticalresults are sufficiently conservative and representative of transient EPU operation.Note that as an alternative to the information referred to above, transient testing thatadequately demonstrates that the plant design basis as described in UFSAR Section 10.4.7.1 will be maintained for EPU operation, similar to the pump trip testing that was specified for the Browns Ferry EPU (Accession No: ML062360160) and for the Vermont Yankee EPU (Accession No: ML060050028), is considered to be acceptable.7.14UFSAR Section 10.2.6.6., "Overspeed Protection," states that the turbine has twoelectrical trips, specifically : 1) A primary electrical overspeed trip that is initiated if theturbine speed reaches approximately 8 percent above rated speed, and 2) An emergency electrical overspeed trip that serves as a backup to the primary trip that is initiated at approximately 10 percent above rated speed. UFSAR Table 10.2-1 states that the overspeed trip is 110% and the backup is 112% ofrated speed. The table refers to the overspeed trip as a mechanical trip. The description of the overspeed trip devices in Table 10.2-1 does not appear to be consistent with the description of the overspeed devices in UFSAR Section 10.2.6.6.Additionally, Attachment 10 of the CPPU submittal, in the notes of Matrix 5, refers only toa mechanical trip that is set at 109.9% - 110.4% with a "normal overspeed" of 109.2% and an "emergency overspeed" value of 119.35%.

Please explain these apparent inconsistencies, and describe how the main turbines will beprotected from overspeed conditions following CPPU implementation such that design limitations will not be exceeded. Also, please describe testing that will be completed to assure acceptable performance of the main turbine overspeed protective features.7.15Please clarify your RAI response to RAI 7.5 regarding Post EPU spent fuel pool (SFP)Heat Load. The values in the table of your respose specify a normal fuel off load.

Whereas, the PUSAR on page 6-7, bottom paragragh, says the Safety Auxiliaries Cooling System Loss of Coolant Accident heat load calculation used a full fuel offload. Should yoube considering the full off load condition?13)Containment and Ventilation Branch (SCVB)

(additional question) 13.17Pleased provide a reference to NRC staff approval of hydrodynamic loads issues for HopeCreek.13.18 Explain why the drywell head region have to be reanalyzed for subcompartmentanalyses?13.19Explain why the MELLA 66% power/40% flow is the most limiting point on the power flowmap for subcompartment analysis.13.20The Hope Creek response to GL 97-04 shows that although adequate available netpositive suction head (NPSH) existed, the NPSH margin was less than 1 foot for both the core spray and the residual heat removal (RHR) pumps (December 30, 1997 letter to NRC Page 4/5). Was there any change to the NPSH methods described in the Hope Creek response to GL 97-04 for the EPU? If not, how was the increase in suppression pool temperature accommodated?13.21Please confirm: The peak bulk pool temperature in Table 4-1 of the PUSAR of 201 F iscalculated at 2% above 3339 MWt. The peak bulk pool temperature of 212.3 F is calculated at 2% above 3840 MWt. The peak wetwell air space pressure of 27.6 psig is calculated at 2% above 3339 MWt and the peak wetwell airspace pressure of 27.7 psig is calculated at 2% above 3840 psig. 13.22The response to RAI 13.9 listed the maximum temperatures for various systems attachedto the torus. It is not clear from the response what the temperature limit is for the attached piping to demonstrate that the calculated temperatures at EPU conditions are acceptable, please clarify this temperature limit.