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Category:SAFETY EVALUATION REPORT--LICENSING & RELATED ISSUES
MONTHYEARML20217G0191999-10-15015 October 1999
Safety Evaluation Concluding That Licensee Followed Analytical Methods Provided in GL 90-05.Grants Relief Until Next Refueling Outage,Scheduled to Start on 991001.Temporary non-Code Repair Must Then Be Replaced with Code Repair
ML20212L0881999-10-0404 October 1999
SER Accepting Licensee Requests for Relief 98-012 to 98-018 Related to Implementation of Subsections IWE & Iwl of ASME Section XI for Containment Insp for Crystal River Unit 3
ML20212J8631999-10-0101 October 1999
Safety Evaluation Supporting Licensee Proposed Alternatives to Provide Reasonable Assurance of Structural Integrity of Subject Welds & Provide Acceptable Level of Quality & Safety.Relief Granted Per 10CFR50.55a(g)(6)(i)
ML20212E6911999-09-21021 September 1999
Safety Evaluation Supporting Proposed EALs Changes for Plant Unit 3.Changes Meet Requirements of 10CFR50.47(b)(4) & App E to 10CFR50
ML20210P1111999-08-0505 August 1999
SER Accepting Evaluation of Third 10-year Interval Inservice Insp Program Requests for Relief for Plant,Unit 3
ML20203A4381999-02-0303 February 1999
Safety Evaluation Supporting EAL Changes for License DPR-72, Per 10CFR50.47(b)(4) & App E to 10CFR50
ML20236Q4611998-06-30030 June 1998
SER for Crystal River Power Station,Unit 3,individual Plant Exam (Ipe).Concludes That Plant IPE Complete Re Info Requested by GL 88-20 & IPE Results Reasonable Given Plant Design,Operation & History
ML20216G8091998-04-10010 April 1998
Safety Evaluation Accepting Resolution of Crystal River Restart Issues Related to USI A-46 Program
ML20199A1441998-01-0909 January 1998
Safety Evaluation Accepting Relief Request for Delayed Implementation of 10CFR50.55a,until 971231 or Plant Restart, Whichever Occurs First
ML20199D0561997-11-14014 November 1997
Safety Evaluation Approving Ampacity Derating Test Results for Crystal River,Unit 3 Related to GL 92-08, Thermo-Lag 330-1 Fire Barriers
ML20212C3751997-10-16016 October 1997
SER Accepting Licensee Response to GL 95-07, Pressure Locking & Thermal Binding of Safety-Related Power-Operated Gate Valves
ML20217D7561997-10-0101 October 1997
Safety Evaluation Concluding That Testing of Ingersoll-Dresser Pump Model 8HN194 at Test Facility Demonstrates That Crystal River Decay Heat Pumps of Same Model Can Operate at Flows of 100 Gpm for 30 Days
ML20138J0151997-05-0505 May 1997
Safety Evaluation Approving Request for Relief 95-050,Rev 1, for Plant,Unit 3
ML20138E4411997-04-30030 April 1997
Safety Evaluation on ASME Code Case N-509 for Crystal River Nuclear Plant,Unit 3
ML20140F3771997-04-28028 April 1997
Safety Evaluation Supporting Staff Evaluation of Plant, Unit 3 Nuclear Generating Plant IPE
ML20134B7091997-01-29029 January 1997
SER Accepting Fire Barrier Sys Relied by Licensee to Meet NRC Fire Protection Requirements for Following Raceway Types & Sizes
ML20133N6511997-01-22022 January 1997
Safety Evaluation Accepting Licensee Request to Use Code Case N-524 as Alternative to ASME Code Section XI for Plant
ML20149M6801997-01-17017 January 1997
Safety Evaluation Accepting Licensee 960807 Results of Analyses Re Operability Evaluation of Main Steam Sys W/Bent Rod Hangers at Plant
ML20133D3471997-01-0606 January 1997
Safety Evaluation Supporting Amend 155 to License DPR-72
ML20058P1981993-12-16016 December 1993
Safety Evaluation Accepting Ground Response Spectra Utilized & Approaches Used in Development of Floor Response Spectra for Resolution of USI A-46
ML20138D5941993-02-0909 February 1993
Safety Evaluation Granting Relief from Repair Requirements of ASME Code Section XI in Order to Perform Temporary Noncode Repair to 18 Inch Portion of Nuclear Closed Cycle Cooling Sys
ML20126F7811992-12-22022 December 1992
Safety Evaluation to Confirm Granting of Request for Relief from ASME Code Repair Requirements Nuclear Closed Cycle Cooling Sys
ML20056B5341990-08-23023 August 1990
Safety Evaluation Re Station Blackout.Recommends That Util Reevaluate Areas of Nonconformance W/Station Blackout Guidance Identified in Evaluation.Subj to Acceptable Resolution of NRC Recommendations,Issue Remains Open
ML20055E5141990-07-0202 July 1990
Safety Evaluation Re Util 831104 & 840731 Responses to Generic Ltr 83-28,Item 2.2.1 Re Equipment Classification Programs for All safety-related Components
ML20245F6561989-06-22022 June 1989
Safety Evaluation Supporting Amend 118 to License DPR-72
ML20245D3001989-06-14014 June 1989
Safety Evaluation Concluding That Licensee Meets NRC Position on Item 4.5.2 of Generic Ltr 83-28,based on Finding That Facility Will Be Designed to Permit on-line Functional Testing of Reactor Trip Sys,Including Stated Testing
ML20247D4951989-05-19019 May 1989
Safety Evaluation Re TMI Action Item II.K.3.31 Concerning plant-specific Calculations to Show Compliance w/10CFR50.46
ML20245A6161989-04-19019 April 1989
Safety Evaluation Supporting Util 890210 Final ATWS Design Description
ML20155F2641988-10-0606 October 1988
Safety Evaluation Supporting Relief from Inservice Testing Program
ML20154A7421988-04-29029 April 1988
Evaluation of Auxiliary Feedwater Sys Reliability (Generic Issue 124).Licensee Should Consider Listed Addl Recommendations for Improved Plant Performance & Auxiliary Feedwater Sys Challenge Rate Reduction
ML20234D5221987-06-16016 June 1987
Safety Evaluation Re Conformance to Reg Guide 1.97
ML20214Q7731987-05-29029 May 1987
Ser:Pump & Valve Inservice Testing Program,Crystal River Nuclear Power Station,Unit 3,for Remainder of First 10-Yr Interval
ML20214M1781987-05-26026 May 1987
Safety Evaluation Granting Util 860324 & 870114 Requests for Relief from Certain Requirements of ASME Code Section XI & to Use ANSI N45.2.6-1978 in Lieu of ASME Code Requirement of ANSI N45.2.6-1973
ML20211N2661987-02-19019 February 1987
Evaluation of Licensee Response to Insp Rept 50-302/86-12. Procedure AI-401 Found to Be Inadequate & Resulted in Restatement of Violation 2.Design Error Could Cause Loss of RHR Ability
ML20211Q2971987-02-18018 February 1987
Safety Evaluation Re Auxiliary Feedwater Sys Reliability (Generic Issue 124) for Prairie Island Units 1 & 2
ML20211B5521987-02-0909 February 1987
Safety Evaluation Re Rev 7 to Offsite Dose Calculation Manual (ODCM) & Rev 0 to Process Control Program (Pcp).Odcm & PCP Acceptable Refs for Use W/Tech Specs for Assuring Compliance w/10CFR20 & 50,App a & I
ML20209H7051987-01-16016 January 1987
Safety Evaluation of Util 831104,840116 & 0731 Responses to Generic Ltr 83-28,Item 4.4 Re safety-related Maint & Test Procedures for Diverse Reactor Trip Feature.Responses Acceptable
ML20207Q6451987-01-0909 January 1987
Safety Evaluation Supporting Util 831104,840116 & 0731 Responses to Generic Ltr 83-28,Item 4.4 Re Maint & Test Procedures for Silicon Controlled Rectifiers
ML20214N1941986-09-0404 September 1986
Safety Evaluation Supporting Licensee 860117 Response to 10CFR50.61 Re Projected Values of Matl Properties for Fracture Toughness Requirements for Protection Against Pressurized Thermal Shock Events
ML20205T5301986-06-0909 June 1986
SER Supporting Responses to Generic Ltr 83-28,Items 4.2.1 & 4.2.2 Re Reactor Trip Sys Reliability
ML20211D6251986-06-0909 June 1986
SER Supporting Responses to Generic Ltr 81-21 Re Natural Circulation Cooldown
ML20210R9531986-05-0202 May 1986
SER Supporting Util Response to IE Bulletin 80-11 Re Masonry Wall design.Safety-related Masonry Walls Will Withstand Specified Design Load Conditions W/O Impairment of Wall Integrity.Technical Evaluation Rept Encl
ML20133Q1271985-10-24024 October 1985
SER Re Generic Ltr 83-28,Item 1.1 Post-Trip Review Program Description & Procedure. Util 831104 Response to Generic Ltr 83-28 Does Not Meet Guidelines for post-trip Review. Acceptable Responses Required
ML20135F8871985-09-11011 September 1985
SER Re Control Complex Dedicated Cooling Sys for post-fire Alternate Shutdown Capability.Design of Control Complex Dedicated Cooling Sys Meets Requirements of Section III.G.3 & Iii.L of 10CFR50 App R & Acceptable
ML20135G1051985-09-0909 September 1985
SER Supporting Licensee Response to Items 3.1.1,3.1.2,3.2.1, 3.2.2,4.1 & 4.5.1 of Generic Ltr 83-28, Required Actions Based on Generic Implications of Salem ATWS Events
ML20135E6131985-09-0606 September 1985
SER Re Licensee Response to Generic Ltr 83-28,Item 1.2 Re post-trip Review (Data & Info Capability).Licensee Program for Data Retention Conforms to Guidelines of Section Ii.D & Acceptable
ML20214J2911979-12-20020 December 1979
Safety Evaluation Re Preliminary Design for safety-grade Anticipatory Reactor Trips on Loss of Main Feedwater &/Or Turbine Trip
1999-09-21
[Table view]
Category:TEXT-SAFETY REPORT
MONTHYEARML20217G0191999-10-15015 October 1999
Safety Evaluation Concluding That Licensee Followed Analytical Methods Provided in GL 90-05.Grants Relief Until Next Refueling Outage,Scheduled to Start on 991001.Temporary non-Code Repair Must Then Be Replaced with Code Repair
3F1099-19, Part 21 Rept Re Damage on safety-grade Cable Provided to FPC by Bicc Brand-Rex Co.Damage Was Created During Cabling Process While Combining Three Conducters.Corrective Action Program Precursor Card PC99-2868 Was Initiated1999-10-13013 October 1999
Part 21 Rept Re Damage on safety-grade Cable Provided to FPC by Bicc Brand-Rex Co.Damage Was Created During Cabling Process While Combining Three Conducters.Corrective Action Program Precursor Card PC99-2868 Was Initiated
ML20217B0931999-10-0606 October 1999
Part 21 Rept Re Damaged Safety Grade Electrical Cabling Found in Supply on 990831.Damage Created During Cabling Process While Combining Three Conductors Just Prior to Closing.Vendor Notified of Reporting of Issue
ML20212L0881999-10-0404 October 1999
SER Accepting Licensee Requests for Relief 98-012 to 98-018 Related to Implementation of Subsections IWE & Iwl of ASME Section XI for Containment Insp for Crystal River Unit 3
ML20212J8631999-10-0101 October 1999
Safety Evaluation Supporting Licensee Proposed Alternatives to Provide Reasonable Assurance of Structural Integrity of Subject Welds & Provide Acceptable Level of Quality & Safety.Relief Granted Per 10CFR50.55a(g)(6)(i)
ML20212E9031999-09-30030 September 1999
FPC Crystal River Unit 3 Plant Reference Simulator Four Year Simulator Certification Rept Sept 1995-Sept 1999
3F1099-02, Monthly Operating Rept for Sept 1999 for Crystal River,Unit 3.With1999-09-30030 September 1999
Monthly Operating Rept for Sept 1999 for Crystal River,Unit 3.With
ML20212E6911999-09-21021 September 1999
Safety Evaluation Supporting Proposed EALs Changes for Plant Unit 3.Changes Meet Requirements of 10CFR50.47(b)(4) & App E to 10CFR50
ML20211L1321999-08-31031 August 1999
EAL Basis Document
3F0999-02, Monthly Operating Rept for Aug 1999 for Crystal River,Unit 3.With1999-08-31031 August 1999
Monthly Operating Rept for Aug 1999 for Crystal River,Unit 3.With
ML20212C1501999-08-31031 August 1999
Non-proprietary Version of Rev 0 to Crystal River Unit 3 Enhanced Spent Fuel Storage Engineering Input to LAR Number 239
ML20211B7291999-08-16016 August 1999
Rev 2 to Cycle 11 Colr
ML20210P1111999-08-0505 August 1999
SER Accepting Evaluation of Third 10-year Interval Inservice Insp Program Requests for Relief for Plant,Unit 3
ML20210U5341999-07-31031 July 1999
Monthly Operating Rept for July 1999 for Crystal River,Unit 3
ML20209F5601999-07-31031 July 1999
EAL Basis Document, for Jul 1999
3F0799-01, Monthly Operating Rept for June 1999 for Crystal River,Unit 3.With1999-06-30030 June 1999
Monthly Operating Rept for June 1999 for Crystal River,Unit 3.With
ML20210U5411999-06-30030 June 1999
Revised Monthly Operating Rept for June 1999 for Crystal River,Unit 3
3F0699-07, Monthly Operating Rept for May 1999 for Crystal River,Unit 3.With1999-05-31031 May 1999
Monthly Operating Rept for May 1999 for Crystal River,Unit 3.With
ML20210U5601999-05-31031 May 1999
Revised Monthly Operating Rept for May 1999 for Crystal River,Unit 3
ML20195C6271999-05-28028 May 1999
Non-proprietary Rev 0 to Addendum to Topical Rept BAW-2346P, CR-3 Plant Specific MSLB Leak Rates
ML20196L2031999-05-19019 May 1999
Non-proprietary Rev 0 to BAW-2346NP, Alternate Repair Criteria for Tube End Cracking in Tube-to-Tubesheet Roll Joint of Once-Through Sgs
3F0599-04, Monthly Operating Rept for Apr 1999 for Crystal River Unit 3.With1999-04-30030 April 1999
Monthly Operating Rept for Apr 1999 for Crystal River Unit 3.With
ML20210U5631999-04-30030 April 1999
Revised Monthly Operating Rept for Apr 1999 for Crystal River,Unit 3
3F0499-04, Monthly Operating Rept for Mar 1999 for Crystal River Unit 3.With1999-03-31031 March 1999
Monthly Operating Rept for Mar 1999 for Crystal River Unit 3.With
ML20204D9661999-03-31031 March 1999
Non-proprietary Rev 1,Addendum a to BAW-2342, OTSG Repair Roll Qualification Rept
3F0399-04, Special Rept 99-01:on 990310,discovered Containment Tendons That Required Grease Addition in Excess of Prescribed Limits During Recent Insp Activites.Six Tendons Were Refilled with Appropriate Amount of Grease1999-03-10010 March 1999
Special Rept 99-01:on 990310,discovered Containment Tendons That Required Grease Addition in Excess of Prescribed Limits During Recent Insp Activites.Six Tendons Were Refilled with Appropriate Amount of Grease
3F0399-03, Monthly Operating Rept for Feb 1999 for Crystal River Unit 3.With1999-02-28028 February 1999
Monthly Operating Rept for Feb 1999 for Crystal River Unit 3.With
ML20203A4381999-02-0303 February 1999
Safety Evaluation Supporting EAL Changes for License DPR-72, Per 10CFR50.47(b)(4) & App E to 10CFR50
ML20206E9891998-12-31031 December 1998
Kissimmee Utility Authority 1998 Annual Rept
ML20206E9021998-12-31031 December 1998
Florida Progress Corp 1998 Annual Rept
ML20206E9701998-12-31031 December 1998
Ouc 1998 Annual Rept. with Financial Statements from Seminole Electric Cooperative,Inc
3F0199-05, Monthly Operating Rept for Dec 1998 for Crystal River Unit 3.With1998-12-31031 December 1998
Monthly Operating Rept for Dec 1998 for Crystal River Unit 3.With
ML20206E9261998-12-31031 December 1998
Gainesville Regional Utilities 1998 Annual Rept
3F1298-13, Monthly Operating Rept for Nov 1998 for Crystal River,Unit 3.With1998-11-30030 November 1998
Monthly Operating Rept for Nov 1998 for Crystal River,Unit 3.With
3F1198-05, Monthly Operating Rept for Oct 1998 for Crystal River,Unit 3.With1998-10-31031 October 1998
Monthly Operating Rept for Oct 1998 for Crystal River,Unit 3.With
ML20155F4071998-10-31031 October 1998
Rev 2 to Pressure/Temp Limits Rept
ML20155J2701998-10-28028 October 1998
Second Ten-Year Insp Interval Closeout Summary Rept
3F1098-06, Monthly Operating Rept for Sept 1998 for Crystal River Unit 3.With1998-09-30030 September 1998
Monthly Operating Rept for Sept 1998 for Crystal River Unit 3.With
ML20206E9461998-09-30030 September 1998
Utilities Commission City of New Smyrna Beach,Fl Comprehensive Annual Financial Rept Sept 30,1998 & 1997
ML20206E9561998-09-30030 September 1998
City of Ocala Comprehensive Annual Financial Rept for Yr Ended 980930
ML20206E9101998-09-30030 September 1998
City of Bushnell Fl Comprehensive Annual Financial Rept for Fiscal Yr Ended 980930
ML20206E9811998-09-30030 September 1998
City of Tallahassee,Fl Comprehensive Annual Financial Rept for Yr Ended 980930
ML20195E3121998-09-30030 September 1998
Comprehensive Annual Financial Rept for City of Leesburg,Fl Fiscal Yr Ended 980930
3F0998-07, Monthly Operating Rept for Aug 1998 for Crystal River Unit 3.With1998-08-31031 August 1998
Monthly Operating Rept for Aug 1998 for Crystal River Unit 3.With
ML20236W6501998-07-31031 July 1998
Emergency Action Level Basis Document
3F0898-02, Monthly Operating Rept for Jul 1998 for Crystal River,Unit 11998-07-31031 July 1998
Monthly Operating Rept for Jul 1998 for Crystal River,Unit 1
ML20236V8801998-07-30030 July 1998
Control Room Habitability Rept
3F0798-01, Monthly Operating Rept for June 1998 for Crystal River Unit 31998-06-30030 June 1998
Monthly Operating Rept for June 1998 for Crystal River Unit 3
ML20236Q4611998-06-30030 June 1998
SER for Crystal River Power Station,Unit 3,individual Plant Exam (Ipe).Concludes That Plant IPE Complete Re Info Requested by GL 88-20 & IPE Results Reasonable Given Plant Design,Operation & History
3F0698-02, Monthly Operating Rept for May 1998 for Crystal River Unit 31998-05-31031 May 1998
Monthly Operating Rept for May 1998 for Crystal River Unit 3
1999-09-30
[Table view] |
Text
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UNITED STATES E o NUCLEAR REGULATORY COMMISSION
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ENCLOSURE SAFETY EVALUATION BY THE OFFICE OF NUCLEAR REACTOR REGULATION RELATED TO THE INSERVICE TESTING PROGRAM FLORIDA POWER CORPORATION CRYSTAL RIVER 3 00CKET NO.: 50-302 INTRODUCTION The Code of Federal Regulations, 10 CFR 50.55a(g), requires that inservice testing (IST) of ASME Code Class 1, 2, and 3 pumps and valves be performed i
in accordance with Section XI of the ASME Boiler and Pressure Vessel Code and applicable addenda, except where specific written relief has been requested by the licensee and granted by the Commission. The regulations, 10 CFR 50.55a(a)(3)(i), (a)(2)(ii), and (g)(6)(i), authorize the Commission to grant relief from these raquirements. In requesting relief, the licensee must demonstrate that (1) the proposed alternatives provide an acceptable level of quality and safety, (2) compliance would result in hardship or unusual difficulties with m t a compensating increase in the level of quality and safety, or (3) conformance with certain requirements of the applicable Code edition and addenda is impractical for its facility.
In a letter to the staff dated July 13, 1988, Florida Power Corporation (the licensee) submitted three relief requests which proposed alternatives to certain pump and valve IST requirements of the ASME Boiler and Pressure Vessel Code,Section XI, 1983 Edition through Summer 1983 Addenda. The relief requests addressed in this report are applicable to the second ten year inspection interval from March 13, 1987 to March 13, 1997.
EVALUATION The staff, with assistane.e from its contractor EG&G, Idaho, evaluated the l licensee's July 13, 1988 submittal. This review was performed using the >
ar.ceptance criteria of the Standard Review Plan, NUREG-0800, Section 3.9.6, and the Draft Regulatory Guide and Value/ Impact Statement titled "Identi-fication of Valves for Inclusion in Inservice Testing Program."
- 1. Relief Request V-113:
The licensee requested relief from the IWP-3100 requirements of Section XI for measurement of bearing temperature and vibration amplitude for all pumps.
j 1
1 8810130204 881006 l PDR ADOCK 05000302 P PDC t
V
.g.
1.1 Licensee's Basis for Requesting Relief:
The licensee stated: "Pumps vibration and bearing temperature measurements are used to detect changes in the mechanical characteristics of a pump.
Regular testing should detect develcpiag problems, thus repairs can be initiated prior to a pump becoming inoperable. The ASME Section XI minimum standards require measurements of the vibration amplitude in displacement (mils, peak to peak, composite) every three months and bearing temperatures once per year."
"Our proposed program is based on vibration readings in velocity (in/sec, peak, unfiltered) units rather than the mils displacement. This technique is an industry accepted method which is more sensitive to small changes at high frequencies which are indicative of developing mechanical problems and hence more meaningful. Velocity measurements detect not only high amplitude low frequency vibrations that indicate a major mechanical problem, but also the equally harmful lower amplitude high frequency vibrations due bearing wear and pump operational problems that usually go undetected by a simple displacement measurements."
"In addition, these readings go far beyond the capabilities of a bearing temperature monitoring program. A bearing will be seriously degraded .
prior to the detection of increased heat at the bearing housing. Quarterly vibration velocity readings should achieve a much higher probability of ,
detecting developing problems than the once per year reading of bearing ,
temperatures."
"Bearing temperature tests present problems which include the following:
- 1. Certain systems have no recirculation test loops and a limited source of water. An enforced thirty minute run tine would deplete the source.
- 2. The lubrication fluid for some pumps is taker, from the process water, which can change temperature depending on ambient conditions. Data trending for these cases is not meaningful."
"Therefore, the detection of pnssible bearing failure by a yearly temperature i
measurement is extremely unlikely. The smail probability of detection of a bearing failure by temperature measurement does not justify the additional .
pump operating time required to obtain the measurements. In addition, it is impractical to measure bearing temperatures on many pumps."
1
- "Alternate Examination
- Pump vibration measurements will be taken in i vibration velocity (in/sec, peak, unfiltered). The evaluation of the
! readings will be per table 6100-1. For more information, see An American i
National Standard, Inservice Testing of Pumps, ANSI /ASME OM-6-July 1987, draft II."
l l
l l
i s
Table 6100-1 Ranges of Test Parameters PUMP PUMP TEST ACCEPTANCE ALERT ACTION TYPE SPEED PARAMETER RANGE RANGE RANGE Centrifugal <600 RPM V(d) 12.5V(r) >2.5V(r) to 6V(r) >6V(r) and Vertical But Not >10,5 mils But not Line Shaft (2) >22 mils
>600 RPM $2.5V(r) >2.5V(r) to 6V(r) >6V(r)
V(v) But Not >.325 But not in/sec >.70 in/sec Reciprocating V(d) OR 52.5V(r) >2.5V(r) to 6V(r) >6V(r)
V(v)
NOTE: (1) Vibration parameter per Table 5200-1 (ANSI /ASME CM-6-July 1987, draft 11).
(2) Vibration displacement [V(d)] measurements shall be ,1eak-to-peak. Vibration velocity (V(v)] measurements shall be peak.
All vibration measurements are to be broadband (unfiltered).
V(r) is vibration reference value in selected units."
1.2 Evaluation Using vibration velocity measurements rather than vibration displacement measurements has been demonstrated to provide a better indication of pump degradation. The velocity measurements are more sensitive to small changes in pump performance which can be indicative of developing mechanical problems.
These measurements detect the high amplitude vibration that can indicate major mechanical problems such as imbalance or misalignment. They alsu detect the low amplitude, high frequency vibration caused by bearing wear that usually goes undetected by simple displacement measurements. The ANSI /ASME OH-6 draft guidelines for measuring vibration velocity and determining the allowable ranges and action levels are acceptable to the NRC as an alternative to the requirements of Section XI (for vibration measurements in units of displacement) provided that the licensee complies with all of the OM-6 vibration measurement requirements except for those for which specific relief has been requested and granted.
Since the licensee has elected to use the more predictive measurement of vibration velocity on a quarterly basis, the deletion of annual bearing temperature measurements will not adversely affect the determination of pump operational readiness and provides a reasonable alternative to the Code requirements. Annual bearing temperature measurement for some pumps would present a hardship for the licensee.
s.
a 1.3 Conclusion Based on the determination that the licensee's proposed alternative testing method is equivalent or superior to the Code requirements and therefore that it provides an acceptable level of quality and safety, the rzquested relief is granted pursuant to 10 CFR 50.55a(a)(3)(i) for all pumps in the IST program.
- 2. Relief Request V-191:
The licensee requested relief from the requirement IWV-3522 of Section XI to full stroke exercise valves MUV-1, -7 and -11 during each cold shutdown. ,
! 2.1 Licensee's Basis for Requesting Relief:
The licensee stated: "These valves are located on the discharge of the
, makeup pumps, and are downstream of where the pump discharpe tees with the l pump recirculation line back to the makeup tank (MUT-1). During normal operation one of these three lines is used to provide RCS makeup and reactor coolant pump seal injection. Flow through MUV-1, MUV-7 and MUV-11, is limited by letdown capacity and seal injection flow requirements. This flow provides a partial stroke of these valves. Any remaining makeup pump flow is through the recirculation line and does not pass through MUV-1, 7 and 11."
"These valves can not be full st.*oke tested during cold shutdowns because of low temperature overpressure (LTOP) concerns."
"Alternate Examination: These valves will be full stroke tested each refueling outage." l 2.2 Evaluation It is impractical to demonstrate the full-stroke capability of valves MUV-1, -7 and -11 during cold shutdowns using flow since this could pose the risk of low temperature overpressurizatien of the reactor coolant system. These valves receive their flow from high pressure sources and should only be full-stroke exercised using flow when a sufficient surge volume is available (i.e., when the reactor vessel head is removed). Cool-down and depressurization of the reactor coolant system and removal of the reactor vessel head solely to facilitate /ull-stoke exercising these valves at cold shutdown (due to low temperature overpressurization concerns) would be extremely time consuming, difficult, and burdensome to the licensee. The
! licensee's proposal to full-stoke exercise these valves during refueling outages with the reactor vessel head removed should provide a reasonable l assurance of operational readiness. However, these valves must also be partially stroked and individually back-seat tested quarterly.
l 2.3 Conclusion Based on the determination that the Code requirements are impractical and that the granting of the reliefs is authorized by law and will not endanger life or property or the common defense and security and is otherwise in the public interest, giving due consideration to the burden upon the licensee that could result if the requirements were imposed on the facility, the requested relief is granted pursuant to 10 CFR 50.55a(g)(6)(i).
i
- 3. Relief Request V-192:
The licensee requested relief from the requirement IWV-3522 of Section XI to full stroke exercise valves MUV-2, MUV-6, and MVV-10.
3.1 Licensee's Basis for Requesting Relief:
The licensee stated: "These valves are located on the discharge of the makeup pumps and are downstream of where the pump discharge tees with the pump recirculation line back to the makeup tank (MUT-1). During normal operation one of these three lines is used to provide RCS makeup and reactor coolant pump seal injection. Flow through MVV-2, MVV-6 and MUV-10, is limited by letdown capacity and seal injection flow requirements. This flow provides a partial stroke of these valves. Any remaining makeup pump flow is through the recirculation line and does not pass through MUV-2,
-6, and -10."
"These valves can not be full stroke tested during cold shutdowns because of low temperature overpressure (LTDP) concerns."
"Alternate Examination: These valves will be full stroke tested each refueling outage."
3.2 Evaluation It is impractical to demonstrate the full-stroke capability of valves MUV-2, -6 and -10 during cold shutdowns using flow since this could pose the risk of low temperature overpressurization of the reactor coolant system. These valves receive their flow from high pressure sources and should only be full-stroke exercised using flow when a sufficient surge volume is available (i.e., when the reactor vessel head is removed). Cooldown and depressurization of the reactor coolant system and renoval of the reactor vessel head solely to facilitate full-stroke exercising these valvos at cold shutdown (due to low temperature i overpressurization concerns) would be extremely time consuming, difficult, and burdensome to the licensee. The licensee's proposal to full-stroke exercise these valves during refueling outages with the reactor vessel head removed should provide e reasonable assurance of operational readiness. However, these valves must also be partially stroked and individually back-seat tested quarterly.
i 3.3 Conclusion Based on the determination that the Code requirements are impractical and that the granting of the reliefs is authorized by law and will not endanger life or property or the common defense and security and is otherwise in the public interest, giving due consideration to the burden upon the licensee that could result if the requirements were imposed on the facility, the requested relief is granted pursuant to 10 CFR 50.55a(g)(6)(i).
Principal Contributor:
l K. Dempsey
- Dated
- October 6, 1988 k
