Letter Sequence Response to RAI |
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MONTHYEARML0215602982002-06-0505 June 2002
Request for Additional Information Weld KC-32 on High Pressure Core Spray Nozzle (Tac No. MB4869)
Project stage: RAI
ML0307704442003-03-0606 March 2003
Response to Request for Additional Information Regarding High Pressure Core Spray Nozzle Safe-End Extension Weld (KC-32)
Project stage: Response to RAI
2002-06-05
[Table View] |
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Category:Letter
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[Table view] |
Text
P.O. Box 63 Lycoming, New York 13093 Constellation Energy Group Nine Mile Point Nuclear Station March 6, 2003 NMP2L 2086 U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555
SUBJECT:
Nine Mile Point Unit 2 Docket No. 50-410 Facility Operating License NPF-69 Response to NRC Request for Additional Information Regarding High Pressure Core Spray Nozzle Safe-End Extension Weld (KC-32)
TAC No. MB4869 Gentlemen:
On May 21, 2002, the NRC staff transmitted by e-mail a list of questions regarding the High Pressure Core Spray (HPCS) nozzle safe-end extension weld (KC-32). A subsequent telephone conference was held on May 29, 2002 between NRC and Nine Mile Point Nuclear Station, LLC (NMPNS) staff representatives to discuss the questions and disposition the corresponding issues and responses. Following the telephone conference, the NRC staff issued a Request for Additional Information (RAI) by letter dated June 5, 2002. The Attachment to this letter contains the NRC questions and the NMPNS responses.
Sincerely, jBruc~ Mo gomnery M ayger Engineerin Services BSM/DEV/jmr Attachment I"Vl
Page 2 NMP2L 2086 cc: Mr. H. J. Miller, NRC Regional Administrator, Region I Mr. G. K. Hunegs, NRC Senior Resident Inspector Mr. P. S. Tam, Senior Project Manager, NRR (2 copies)
ATTACHMENT NINE MILE POINT UNIT 2 RESPONSE TO NRC REQUEST FOR ADDITIONAL INFORMATION (RAI)
REGARDING HIGH PRESSURE CORE SPRAY (HPCS)
NOZZLE SAFE-END EXTENSION WELD (KC-32)
Reference:
NRC Letter to Nine Mile Point Nuclear Station, LLC (NMPNS) dated June 5, 2002 RAI (1)
Provide the results of ultrasonictesting (UT)performed in the spring2002 refueling outage on weld KC-32, and compare the results with those of the previouspost-MSIP [mechanicalstress improvement process]inspections.
Response
Table 1 provides the results of UT performed during refueling outage number 8 (RFO-8) in the spring of 2002, as well as the results of UT performed during previous post-MSIP inspections.
The inspection results obtained during RFO-8 are consistent with the evaluation contained in the NRC letter to Mr. K. S. Grewal dated May 5, 2000; i.e., that there have been no significant changes or trends in the UT measurements of the flaw size that would indicate a developing problem.
RAI (2)
Describe the UT equipment andproceduresused in the inspection ofweld KC-32 in the 2002 refueling outage, and identify the differences with those used in previous inspections.If different equipment andprocedureswere used, discuss their impact on the results offlaw size measurements.
Response
The RFO-8 inspection (April 2002) was performed utilizing different inspection tooling than was used in previous inspections. Westinghouse personnel, equipment, and procedures were used for the RFO-8 inspection, whereas General Electric personnel, equipment, and procedures were used for the inspections performed prior to RFO-8. As noted in the response to RAI (1) above, the RFO-8 inspection results are consistent with the evaluation contained in the NRC letter to Mr. K.
S. Grewal dated May 5, 2000; i.e., that there have been no significant changes or trends in the UT measurements of the flaw size that would indicate a developing problem.
Page 1 of5
Forcomparisonpurposes,provide information on the following items pertainingto the UT inspectionsperformedon weld K-32 after implementation ofMSIP.
(a) UT measurement uncertaintiesassociatedwith the reportedflaw length and depth during eachpost-MSIP inspection.
Response
See the response to Question 3 in the Attachment to Niagara Mohawk Power Corporation (NMPC) letter NMP2L 1951 dated April 7, 2000. Since the inspection techniques utilized for the RFO-8 inspections were similarly qualified (as discussed in the response to Item (b) below), the discussion provided in the referenced letter remains applicable.
(b) UT qualificationrequirementsof the procedures/equipment/personnelthat were used in the inspection of weld KC-32 duringeach post-MSIP inspection.
Response
Through RFO-4, the inspections were performed using Electric Power Research Institute (EPRI)-qualified procedures, equipment, and personnel. The RFO-6 and RFO-8 inspection procedures, equipment, and personnel were qualified to the EPRI Performance Demonstration Initiative (PDI) standard.
(c) During eachpost-MSIP UT inspection, clarifywhether the spring hangerforpipe supportnear weld KC-32 waspinned anddescribe the weight of shielding lead that were placedon the HPCSpiping.
Response
Spring Hanger Pinning: Since application of the MSIP, with the exception of the 1992 inspection, direction was given to not pin the spring hanger near weld KC-32 during installation of the lead shielding and performance of the UT inspections.
Weight of Shielding: The weight of shielding lead placed on the HPCS piping during each UT inspection cannot be determined with certainty; however, similar amounts have been used during the various examinations. The HPCS piping has been analytically qualified for a shielding lead weight of 90 lbs/ft applied to the piping and inline valves from the reactor pressure vessel nozzle to 4 feet upstream of containment isolation valve 2CSH*AOV108 (a total shielding weight of approximately 2,200 lbs). Administrative controls assure that the weight of shielding lead installed does not exceed the analytically qualified weight.
Page 2 of 5
RAI (3) (Cont'd)
(d) An estimation of upper bound compressive stresses on theflaw in weld KC-32 resulting from the weight of shielding leadwith unpinnedspringhangers,and the potentialimpact to the results of UT inspection due to these compressive stresses.Specifically, discuss the differences in resulting compressive stresses between pinnedand un-pinnedspring hanger configurations.
Response
The stress at the nozzle-to-pipe connection due to the application of shielding lead (in the amount identified in the response to RAI (3), Item (c) above) is as follows:
- Deadweight with spring hanger pinned: 1,155 psi
- Deadweight with spring hanger unpinned: 1,395 psi These results demonstrate that the difference in the deadweight stress due to the shielding lead with the spring hanger pinned versus unpinned is small. In both cases, the flaw area will be in compression. For comparison, the calculated stress for the American Society of Mechanical Engineers (ASME)Section III, Equation 9 load combination (normal/upset, including pressure, deadweight, and earthquake inertia loads, with the spring hanger unpinned) is 9,642 psi, versus the allowable value of 30,000 psi (1.5 Sm).
NMIPNS concludes that the weight of shielding lead will not have a significant effect on the flaw size or the ability to detect and size the flaw using UT techniques, since:
- 1. The additional compressive forces imposed at the flaw location by the weight of shielding lead are of low magnitude (with the spring hanger either pinned or unpinned);
- 2. The flaw has remained detectable using techniques and tooling that have been qualified to a common standard; and
- 3. There have been no significant changes or trends in the UT measurements of the flaw size that would indicate a developing problem.
RA 1(4)
Describe the design basisfatigue usagefactor limitfor the HPCS system. In addition,provide informationpertainingto the thermalstratfcationstress of the HPCSpiping adjoiningthe reactorpressure vessel nozzle, if any. Furthermore,describehow this thermalstratification stress is consideredin the crack evaluation.
Page 3 of 5
Response
Fatigue Usage Factor: The design basis cumulative usage factor (CUF) limit for the HPCS piping and nozzle is 1.0, in accordance with the ASME Code, Section I[I, Division 1, Subsection NB.
Thermal Stratification: Thermal stratification is caused by cold water flowing at the bottom of the pipe while the top of the pipe is exposed to hot temperatures. The HPCS system design criteria did not anticipate or require that thermal stratification be considered. NMPNS has confirmed by analysis that the differential water temperature between the top and bottom of the piping adjoining the reactor pressure vessel nozzle is small (a few degrees). Thus, thermal stratification stresses need not be considered in the fatigue evaluation.
Page 4 of 5
TABLE 1 WELD KC-32 INSPECTION (UT) RESULTS Length (% of Depth (% of Inspection Internal Circumference) Wall Thickness)
Post-MSIP (RFO-1, 3.40" 1) 0.35"141 December 1990) (11.3%) (41%)
Midcycle (August 1991) 3.3" (1) 0.32'")
(10.9%) (38%)
RFO-2 (April 1992) 2.6" Automated o 3.3" Manual 0.25" k" (8.6%) (10.9%) (29%)
RFO-3 (October 1993) 2.5" Automated co 3.0" Manual 0.25"1(4)
(8.3%) (9.9%) (29%)
RFO-4 (May 1995) 2.5" Automated o 3.0" Manual 0.30" (4)
(8.3%) (9.9%) (35%)
RFO-6 (May 1998) 3.2" Automated (2) N/A 0.30" c2)
(10.6%) (35%)
RFO-8 (April 2002) 2.7" Automated (3) N/A 0.25" k-)
(8.9%) (29%)
(1) General Electric (GE) Smart automated 450 shear wave with manual "re-looks" to determine length (2) GE "Smart 2000" automated system (3) Westinghouse "Intraspect" automated system (4) Depth sizing performed manually Page 5 of 5
