ML20053A958

From kanterella
Jump to navigation Jump to search
Ser,Inservice Testing Program,Wh Zimmer Nuclear Station, Unit 1, Review of Pump & Valve Inservice Testing Programs for OL Plants,Interim Rept
ML20053A958
Person / Time
Site: Zimmer
Issue date: 03/31/1982
From: Hubble W, Rockhold H
EG&G, INC.
To: Cappucci A
Office of Nuclear Reactor Regulation
References
CON-FIN-A-6430 EGG-EA-5764, NUDOCS 8205270506
Download: ML20053A958 (25)
v  d  e


Text

-

EGG-EA-5764, Rev. 1 March 1982 A)SI(

SAFETY EVALUATION REPORT, INSERVICE TESTING PROGRAM, 41ft 6 WILLIAM H. ZIMMER NUCLEAR STATION, UNIT 1 4.#vg.

fGA Y

y),te decearch anolloe Mc/n. cal kSSishnte !\\ P"b W. H. Hubble c,

H. C. Rockhold 8

' ?.A G'

/s IiC c...

GT{

A;y, m, b cu i.

/

F U.S. Department of Energy c,

Idaho Operations Office

  • Idaho National Engineering Laboratory A

9 N:

- ' 'h$k dy M

-.r.

ij.,

azw um.

M, 's, rI

~. X W v.'. M 3 " L_-lim. E M -=========="

Q,wU~9,

'~

liS Q ta Q-r:

e-lJe.

m cri.wie'T

- Oi.

T -$

r--

~-

-.-.n M.,Q(

. ggg

~

0 N

N' This is an informal report intended for use as a preliminary or working document I

Prepared for the U.S. Nuclear Regulatory Conunission Under DOE Contract No. DE-AC07-761001570 FIN No. A6430 0

E G n G,a n.

g P 7- 05 za OfOG

[ EGcG,a.,-

FObM (G4G 398 (Rev 0384 INTERIM REPORT Accession No.

Report No.

EGG-EA-5764. Rev. 1 Contract Program or Project

Title:

Review of Pump and Valve Inservice Testing Programs for Operating License Plants s

Subject of this Document:

Safety Evaluation Report, Inservice Testing Program, William H. Zimmer Nuclear Station, Unit 1 Type of Document:

Safety Evaluation Report Author (s):

W. H. Hubble H. C. Rockhold Date of Document:

March 1982 Responsible NRC Individual and NRC Office or Division:

A. J. Cappucci, Division of Engineering This document was prepared pnmarily for preliminary orinternal use. it has not received full review and approval. Since there may be substantive changes, this document should not be considered final.

EG&G Idaho, Inc.

Idaho Falls, Idaho 83415 Prepared for the U.S. Nuclear Regulatory Corr. mission Washington, D.C.

Under DOE Contract No. DE-AC07 761D01570 NRC FIN No. A6430 INTERIM REPORT j

l l

820527o56G l

000lj u

9 SAFETY EVALUATION REPORT, INSERVICE TESTING PROGRAM, WILLIAM H. ZIMMER NUCLEAR STATION, UNIT I March 1982 W. H. Hubble H. C. Rockhold Reliability and Statistics Branch Engineering Analysis Division EG&G Idaho, Inc.

O S

Docket No. 50-358

i k

e ABSTRACT This EG&G Idaho, Inc. report presents the results of our evaluation of the William H. Zimmer Nuclear Station, Unit 1 Inservice Testing Program for safety-related pumps and valves.

FOREWORD This report is supplied as part of the " Review of Pump and Valve Inservice Testing Programs for Operating License Plants" being conducted for the U.S. Nuclear Regulatory Commission, Office of Nuclear Reactor Regulation, Division of Engineering, by EG&G Idaho, Inc., Reliability and Statistics Branch.

The U.S. Nuclear Regulatory Commission funded the work under the authorization B&R 20 19 04 09, FIN No. A6430.

s e

ii

t CONTENTS I.

INTRODUCTION..................................................

1 II.

P U MP T E ST I N G P R OG R A M..........................................

2 1.

S a f e ty-R e l a t ed P ump s......................................

2 III.

VALVE TESTING PROGRAM EVALUATION..............................

4 l.

Genera l C on s idera t i ons....................................

4 1.1 Strok e Tes ting of Check Valves.......................

4 i

1.2 Licensee Request for Relief to Test Valves at Cold Shutdowns.......................................

4 1.3 Safety-Related Valves................................

4 1.4 Va lve Test ing at Cold Shutdowns......................

5 1.5 Category A Valve Leak Check Requirements for Conta inment I solation Valves (CIVs)..................

5 1.6 Application of Appendix J Testing to the IST Program..........................................

5 2.

Gener ic Rel ief Reques ts...................................

5 2.1 Category A and B Valves..............................

5 l

3.

Main Steam /Feedwater Systems..............................

6 3.1 Category A/C Valves..................................

6 3.2 Category B/C Valves..................................

7 4.

Service Water System......................................

7 4.1 Category B Valves....................................

7 5.

Reac tor Rec i rc ula t ion Sys tem..............................

8 l

l 5.1 Category A/C Valves..................................

8 6.

Reactor Core Isolation Cooling System.....................

8 6.1 C a t e g o ry A / C V a l v e s..................................

8 6.2 Category C Valves....................................

9 7.

Contro l R od Dr i ve Hydra ul ic Sys tem........................

10 i

7.1 Category B Valves....................................

10 l

7.2 C a tego ry C V a l v e s....................................

10 8.

Standby Liquid Control System.............................

11 8.1 Category A/C Valves..................................

11 iii

e 9.

Primary Containment Ventilation Chilled Water System......

11 9.1 Category A/C Valves..................................

11 IV.

APPENDIX A....................................................

12 1.

C ode R eq u i remen t--V a l v e s..................................

12 l

V.

ATTACHMENT I..................................................

13 VI.

ATTACHMENT II.................................................

14 e

1.

Feedwater System..........................................

14 1.1 Category A Valves....................................

14 2.

Service Water System......................................

14 2.1 Category B Valves....................................

14 3.

D rywe l l P n e uma t i c Sys t em..................................

14 3.1 Category A Valves....................................

14 4.

R es i dua l Hea t R emova l Sys tem..............................

15 4.1 Category A and A/C Valves............................

15 5.

Rear cor Building C losed Cooling Water System..............

15 5.1 Category A Valves....................................

15 5.2 Category B Valves....................................

15 VII.

ATTA C H ME N T I I I................................................

17 VIII. ATTACHMENT IV.................................................

19 IX.

ATT AC H FE NT V..................................................

21 i

e iv

i I.

INTRODUCTION Contained herein is a safety evaluation of the pump and valve inservice testing (IST) program submitted by the Cincinnati Gas and Electric Company (CG&E) for its William H. Zimmer Nuclear Station, Unit 1.

The working session with CG&E and William H. Zimmer, Unit I represent-atives was conducted on July 14 and 15,1981. The licensee resubmittal was received by EG&G Idaho, Inc., on November 6, 1981, and reviewed to verify compliance of proposed tests of safety-related Class 1, 2, and 3 pumps and valves with requirements of the ASME Boiler and Pressure Vessel Code, Sec-e tiun XI,1977 Edition, through the Summer of 1978 Addenda. CG&E has also requested relief from the ASME Code from testing specified pumps and valves because of practical reasons. These requests have been evaluated individu-ally to determine whether they have significant risk implications and whether the tests, as required, are indeed impractical.

l The evaluation of the pump testing program and associated relief requests is contained in Section II; the evaluation of the valve testing program and associated relief requests is contained in Section III. All evaluations for Section II and III are the recommendations of EG&G Idaho, Inc.

A summary of valve testing requirements is provided in Appendix A.

3 Appendix J exemption requests for Category A valves that should be reviewed by the NRC are contained in Attachment I.

Category A, B, and C valves that meet the requirements of the ASME Code Section XI and are not exercised every three months are contained in Attachment II.

A listing of P&lDs used for this review are contained in Attachment III.

Valves that are not included in the IST program, which we feel should be further reviewed to see if they perform a safety related function, and a discussion on the Spent Fuel Pool Cooling System are contained in Attach-ment IV.

Items discussed via telephone after the IST meeting with the licensee that result in changes to their program and may appear as differences between their IST program and this report are detailed in Attachment V, o

O 1

i II. PUMP TESTING PROGRAM The IST program submitted by Wm. H. Zimmer, Unit I was examined to verify that Class 1, 2, and 3' safety-related pumps were included in the pro-gram and that those pumps are subjected to the periodic tests as required by the ASME Code,Section XI. Our review found that all Class 1, 2, and 3 safety-related pumps were included in the IST program and, except for those pumps identified below for which specific relief from testing has been requested, the pump tests and frequency of testing comply with the code.

Each Wm. H. Zimmer, Unit I basis for requesting relief from testing pumps and the EG&G evaluation of that request is summarized below.

t 1.

Safety-Related Pumps 4'

l.1 Relief Request.

Relief is requested from the Section XI requirements of measuring bearing temperatures on the standby liquid control pumps.

1.1.1 Code Requirement.

IWP-4310 states, "The temperature of all centrifugal pump bearings outside the main flow path and of the main shaft bearings of reciprocating pumps shall be measured at points selected to be responsive to changes in the temperature of the bearing. Lubricant temper-ature, when measured af ter passing through the bearing, and prior to enter-ing a cooler, shall be considered the bearing temperature."

1.1.2 Licensee's Basis for Requesting Relief. Tne standby liquid control pump bearings have no installed temperature instrumentation avail-able to measure temperature and the bearings are inaccessable for using j

hand held pyrometers.

1.1.3 Evaluation.

The licensee has demonstrated that the standby liquid control pump bearings do not have installed instrumentation and are inaccessable for using portable instrumentation to measure bearing temper-ature. Therefore, we feel relief should be granted from the reouirements I

of Section XI for measurement of pump bearing temperatures.

1.2 Relief Request. Relief is requested from the Section XI requirements of measuring inlet and differential pressure for the standby liquid control pumps.

1.2.1 Code Requirement.

IWP-3300 states, "Each inservice test shall i

include the measurement and observation of all quantities in Table IWP-3100-1 i

except bearing tcmperatures, which shall be measured during at least one inservice test each year." Table IWP-3100-1 requires measurement of both

{

inlet and differential pressure.

g 1.2.2 Licensee's Basis for Requesting Relief.

Inlet pressure is not available for these pumps when in test lineup for measurement of flow by change of test tank level.

Instead of measured value, adequate suction supply shall be verified.

Since inlet pressure is not available, the para-meter aP (ditferential pressure) shall be replaced with discharge pressure.

The evaluation required on AP by ASME code shall he applied to discharge pressure. Since these pumps are positive displacement pumps, pumping water, 2

~

the monitoring of discharge pressure instead of AP is just as effective for pump performance evaluation.

1.2.3 Evaluation. The licensee has demonstrated that the standby liquid control pumps do not have installed instrumentation for measuring j

inlet pressure when in the test lineup for measurement of flow by change of test tank level. Without inlet pressure, they are also unable to obtain a j

value for differential pressure. Therefore, we feel relief should be granted from the requirements of Section XI for measurement of pump inlet and differential pressure. We feel that the proposed alternate method of verifying adequate suction supply and monitoring discharge pressure instead e

of differential pressure will adequately demonstrate proper pump operability of these positive displacement pumps.

l o

l 4

1 1

3

III.

VALVE TESTING PROGRAM EVALUATION The IST program submitted by Wm. H. Zimmer, Unit I was examined to verify that Class 1, 2, and 3 safety-related valves were included in the program and that those valves are subjected to the periodic tests required by the ASME Code,Section XI, and the NRC positions and guidelines. Our review found that all Class 1, 2, and 3 safety-related valves were included in the IST program and, except for those valves identified below for which specific relief from testing has been requested, the valve tests and fre-Quency of testing comply with the code requirements and the NRC positions and guidelines listed in Section 1.

Each Wm. H. Zimmer, Unit 1 basis for requesting specific relief from testing valves and the EG&G evaluation of g

that request is summarized below and grouped according to each specific system.

1.

General Considerations 1.1 Stroke Testing of Check Valves The NRC stated its position to the licensee that check valves whose safety function is to open are expected to be full stroked.

If only limited operation is possible (and it has been demonstrated by the licensee and agreed to by the NRC), the check valve shall be partial stroked. Since disk position is not always observable, the NRC staff stated that verifica-tion of the plant's safety analysis design flow rate through the check valve would be an adequate demonstration of the full stroke requirement.

Any flow rate less than design will be considered part stroke exercising unless it can be shown that the check valve's disk position at the lower flow rate would be equivalent to or greater than the design flow rate through the valve. The licensee agreed to conduct flow tests to satisfy the above position.

1.2 Licensee Request for Relief to Test Valves at Cold Shutdowns The Code permits valves to be tested at cold shutdowns, and the condi-tions under which this is permitted are noted in Appendix A.

These valves are specifically identified by the licensee and are full stroke exercised during cold shutdowns; therefore, the licensee is meeting the requirments of the ASME Code. Since the licensee is meeting the requirements of the ASME Code, it will not be necessary to grant relief; however, during our review of the licensee's IST nrogram, we have verified that it was not practical to exercise these valves during power operation and that we agree with the licensee's basis.

It should be noted that the NRC differentiates, for valve testing purposes, between the cold-shutdown mode and the refuel-ing mode. That is, for testing purposes, the refueling mode is not con-sider ed as a cold shutdown.

1.3 yafety-RelatedValves This review was limited to safety-related valves.

Safety-related J

valves are defined as those valves that are needed to mitigate the con-sequences of an accident and/or to shut down the reactor and to maintain 4

a 1

I the reactor in a shutdown condition. Valves in this category would typi-cally include certain ASME Code Class 1, 2, and 3 valves and could include some non-code class valves.

It should be noted that the licensee may have included non-safety-related valves in their IST program as a decision on the licensee's part to expand the scope of their program.

J 1.4 Valve Testing at Cold Shutdowns Inservice valve testing at cold shutdowns is acceptable when the fol-o i

lowing conditions are met:

l g

1.

It is understood that the licensee is to commence testing as soon as the cold-shutdown condition is achieved, but not later than 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> after shutdown, and continue until complete or the plant is ready to return to power.

2.

Completion of all valve testing is not a prerequisite to return to power 4

3.

Any testing not completed at one cold shutdown should be per-formed during any subsequent cold shutdowns that may occur before refueling to meet the code-specified testing frequency.

i 4.

For planned cold shutdowns, where the licensee will complete all l

the valves identified in this IST program for testing in the cold-shutdown mode, exceptions to the 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> may be taken.

1.5 Category A Valve Leak Check Requirements for Containment Isolation Valves (CIVs)

All CIVs shall be classified as Category A valves. The Category A valve-leak-rate test requirements of IWV-3420 have been superseded by Appendix J requirements for CIVs. The NRC has concluded that the appli-cable leak-test procedures and requirements for CIVs are determined by 10 CFR 50, Appendix J.

Relief from Paragraph IWV-3420 for CIVs presents no safety probelm since the intent of IWV-3420 is met by Appendix J requirements.

1.6 Application of Appendix J Testing to the IST Program The Appendix J review for this plant is a completely separate review

  • from the IST program review. However, the determinations made by that review are directly applicable to the IST program. Our review has determined that the current IST program as submitted by the licensee cor-rectly reflects the NRC's interpretation of Section XI vis-a-vis Appendix J.

The licensee has agreed that, should the Appendix J program be amended, they will amend their IST program accordingly.

2.

Generic Relief Request 2.1 Category A and B Valves 2.1.1 Relief Request. Relief is requested from the requirements of Section XI, Article IWV-3413(c), for power-operated valves with stroke 5

I times of less than 5 seconds and from using previous test stroke time values for power-operated valves with stroke times greater than 5 seconds.

2.1.1.1 Code Reautrement.

IWV-3413(c) states, "If an increase in stroke time of 25% or more from the previous test for valves with stroke times greater than 10 sec, or 50% or more for valves with stroke times less than or eaual to 10 sec,=is observed, test frequency shall be increased to once each month until corrective action is taken, at which time the original test frequency shall be resumed.

In any case, any abnormality or erratic action shall he reported."

2.1.1.2 Licensee's Basis for Requesting Relief. For valves with 4

baseline stroke times of less than 5 seconds trend analysis shall not be performed. For valves with baseline stroke times of greater than 5 seconds trend analysis shall be performed using baseline stroke time as reference value rather than previous test stroke time values as required by Sec-i.)on IWV-3413(c).

2.1.1.3 Evaluation.

Stroke timing of rapid-acting, power-operated valves whose stroke times are less than 5 seconds, would produce no meaningful data since these stroke times are extremely rapid and subject to considerable variation. For power-operated valves with stroke times of 5 seconds or more, the use of the baseline stroke time rather than the pre-vious test stroke time gives a more representative analysis of the actual I

component degradation. Therefore, we feel relief should be granted from the stroke timing requirements of Section XI for these valves.

3.

Main Steam /Feedeater Systems 3.1 Category A/C Valves 3.1.1 Relief Request. Relief is requested from the exercising reouirements of Section XI for valves B21F010A and B, inside containment isolation feed water check valves.

3.1.1.1 Code Requirement. Refer to Appendix A.

3.1.1.2 Licensee's Basis for Reauesting Relief. Exercising these valves would require interruption of reactor f eedwater flow. Also adequate indication of valve position is not available to verify closure during shutdown conditions. An indication of adequate operability of the valves will be provided by the leak rate testing performed to meet the requirements of 10 CFR 50 Appendix J.

3.1.1.3 Evaluation. The licensee has demonstrated that valve closure during power operations would result in interruption of reactor feedwater flow. This, in turn, could result in a reactor trip. Addition-(

ally, during cold shutdown, the only practical way to verify valve closure (the safety-related position) would be to perform a leak rate test.

Since leak rate testing is required to be performed during refueling outages by 10 CFR 50 Appendix J, we feel relief should be granted from the exercising requirements of Section XI for these valves. We feel the licensee's pro-posed alternate test of verifying valve closure by leak rate testing in 6

accordance with 10 CFR 50 Appendix J during refueling outages will ade-quately demonstrate proper valve operability.

3.2 Category B/C Valves 3.2.1 Relief Request. Relief is requested from the exercising requirement of Section XI for valves 1821F013B, C, F, G, K, and L, ADS / Relief Valves.

r 3.2.1.1 Code Requirement. Refer to Appendix A.

3.2.1.2 Licensee's Basis for Requesting Relief. These valves are not to be cycled during power operation to preclude the possiblity of a LOCA if the valves were to fail open.

In addition, cycle time is a func-tion of reactor pressure and therefore shall not be measured during exer-cise testing. These relief valves shall be full stroke exercised during cold shutdown or at conditions required by Technical Specification 3/4.5.1.

Full stroke exercising shall be on a frequency determined by the following intervals between shutdowns as follows: For intervals of 3 months or longer exercise during shutdown; for intervals of less than 3 months, exercising is not required unless 3 months have passed since previous test completion.

3.2.1.3 Evaluation. The licensee has demonstrated that these valves cannot be full stroke exercised during power operation since a fail-ure of any of these valves in the open position could result in a LOCA.

Additionally, since cycle time is dependent on reactor pressure, no mean-ingful data would be obtained by measuring cycle times. Therefore, we feel relief should be granted from the exercising requirements of Section XI for these valves. We feel the licensee's proposed alternate test of full stroke exercising during cold shutdown or at conditions required by Technical Specification 3/4.5.1 will adequately demonstrate proper valve operability.

4.

Service Water System 4.1 Category B Valves 4.1.1 Relief P.equest. Relief is requested from the stroke-time requirements of Section XI for valves WS020, 025, and 030, service water temperature control valves on the outlet of the RBCCW heat exchangers.

4.1.1.1 Code Requirement. Refer to Appendix A.

4.1.1.2 Licensee's Basis for Requesting Relief. These, valves are temperature control valves and therefore cycle times are meaningless, and full cycle testing is impractical, since valves are never in the closed position during any plant mode of operation. During accident conditions the function of these valves would be to fail open. Therefore adequate operability can be shown by fail safe testing. These valves shall be fail safe tested per section IWV-3515 of Section XI of the ASME Code. The test frequency shall be quarterly.

7

i 1

4.1.1.3 Evaluation. These valves are modulating control valves on the outlet side of the RBCCW heat exchangers. Since these valves are required to be in various positions during operation, depending on system temperature, a meaningful cycle time cannot be obtained. Therefore, we feel relief should be granted from the cycle time requirements of Sec-tion XI for these valves. We feel the licensee's proposed alternate test of fail safe testing the valves in accordance with Section IWV-3515 of Section XI of the ASME Code will adequately demonstrate proper valve oper-ability.

5.

Reactor Recirculation System 5.1 Category A/C Valves 5.1.1 Relief Request. Relief is requested from the exercising i

requirements of Section XI for valves 1833F013A & B and IB33F017A & B, inside and outside containment isolation check valves in the seal purge lines for the Reactor Recirculation Pump Seals.

5.1.1.1 Code Requirement. Refer to Appendix A.

5.1.1.2 Licensee's Basis for Requesting Relief. Closing these valves isolates ccoling flow to Reactor Recirculation Pump Seal which could cause seal degradation. Also, adequate indication is not available to show that the valve is closed during shutdown conditions. Adequate indication of operability will be provided by leak rate testing performed to meet the requirements of 10 CFR 50 Appendix J.

5.1.1.3 Evaluation. The licensee has demonstrated that closure of these valves during power operation could result in damage to the reac-tor recirculation pumps which could result in a reactor trip. Addition-ally, during cold shutdown, the only prac'ical way to verify valve closure (the safety-related position) would be to farform a leak rate test. Since leak rate testing is required to be performed during refueling outages by 10 CFR 50 Appendix J, we feel relief should be granted from the exercising requirements of Section XI for these valves. We feel the licensee's pro-posed alternate test of verifying valve closure by leak rate testing in accordance with 10 CFR 50 Appendix J during refueling outages will ade-quately demonstrate proper valve operability.

6.

Reactor Core Isolation Cooling System 1

1 6.1 Category A/C Valves 6.1.1 Relief Request. Relief is requested from the exercising requirements of Section XI for valve E51F065, RCIC system check valve to the reactor vessel.

6.1.1.1 Code Requirement. Refer to Appendix A.

6.1.1.2 Licensee's Basis for Requesting Relief.

Injection of water through this valve quarterly during power operation increases the 8

n thermal stress cycles on this piping and would increase failure probability.

Injection cannot be performed during shutdown conditions since the pump is not operable.

This valve shall be cycled open when reactor pressure is greater than 150 PSIG but less than 165 PSIG. Exercise testing shall be done during the above condition at a frequency determined by the following intervals:

1.

For intervals >3 months, exercise prior to power operation.

2.

For intervals <3 months, exercise prior to power operation only if 3 months have passed since last exercise performance.

6.1.1.3 Evaluation. The licensee has demonstrated that this valve cannot be exercised quarterly during power operations since injection of water through this valve increases the thermal stress cycles on the injection nozzle and piping, possibly resulting in premature failure. Also, exercising cannot be performed during cold shutdown conditions since the RCIC pump / turbine is not operable. Therefore, we feel relief should be granted from the exercising requirements of Section XI for this valve. We feel the licensee's proposed alternate test of exercising the valve when reactor pressure is greater than 150 PSIG but less than 165 PSIG (i.e. when approaching cold shutdown condition or during startup from a cold shutdown),

will adequately demonstrate proper valve operability.

6.2 Category C Valves 6.2.1 Relief Reauest. Relief is requested from the exercising requirements of Section XI for valve E51F030, RCIC pump suction check from the Suppression Pool.

6.2.1.1 Code Requirement. Refer to Appendix A.

6.2.1.2 Licensee's Basis for Reauesting Relief. Full-stroke exercising of this valve would require injection of high contaminated water (suppression pool) into low contaminated systems (reactor vessel or conden-sate storage tanks). Also, this system is only operable when reactor pres-sure is greater than 150 PSIG. This valve shall be partial-stroke exercised every 3 months when reactor pressure is greater than 150 PSIG and shall be physically inspected every refueling outage.

6.2.1.3 Evaluation. The licensee has oemonstrated that this valve cannot be full-stroke exercised quarterly during power operations or during cold shutdowns, since full flow injection of water through this valve would result in introducing possibly contaminated water to either the l

reactor vessel or the condensate storage tanks. Therefore, we feel relief should be granted from the exercising requirements of Section XI for this valve. We feel the licensee's proposed alternate test of partial-stroke exercising the valve cuarterly with flow and disassembling the valve for inspection during refueling outages will adequately demonstrate valve operability.

9

7.

Control Rod Drive Hydraulic System 7.1 Category B Valves 7.1.1 Relief Request. Relief is requested from the exercising reauirements of Section XI for valves C110001-126 and 127 (137 valves each), individual control rod scram supply and discharge header control valves.

s 7.1.1.1 Code Requirement. Refer to Appendix A.

7.1.1.2 Licensee's Basis for Requesting Relief. The operability of the control rods which requires the operability of these valves is ade-quately tested by performance of Technical Specification Surveilance Require-ment 3/4.1.3.2.

This Technical Specification Surveillance requires testing

  • of at least 10% of the control rods, on a rotating basis, at least once per 120 days, all rods after core alteration or when the reactor is shutdown greater than 120 days, and whenever maintenance is performed on a control rod.

7.1.1.3 Evaluation. The licensee has demonstrated that the operabilty of these valves is verified when the individual control rod scram times are verified by the~ performance of Technical Specification Surveillance Requirement 3/4.1.3.2.

Therefore, we feel relief should b'e granted from the exercising requirements of Section XI for these valves.

We feel the licensee's alternate test of exercising these valves when control rod operability is verified per Technical Specifications will adequately demonstrate proper valve operability.

7.2 Category C Valves 7.2.1 Relief Request. Relief is requested from the exercising requirements of Section XI for valves C110001-114 (137 valves), individual control rod scram discharge header check valves.

7.2.1.1 Code Requirement. Refer to Appendix A.

7.2.1.2 Licensee's Basis for Requesting Relief.

The operability of the control rods which requires the operability of these valves is adequately tested by performance of Technical Specification Sur-veilance Requirement 3/4.1.3.2.

This Technical Specification Surveillance requires testing of at least 10% of the control rods, on a rotating basis, at least once per 120 days, all rods after core alteration or when the reactor is shutdown greater than 120 days, and whenever maintenance is

=

performed on a control rod.

7.2.1.3 Evaluation. The licensee has demonstrated that the operabilty of these valves is verified when the individual control rod scram times are verified by the performance of Technical Specification Surveillance Requirement 3/4.1.3.2.

Therefore, we feel relief should be granted from the exercising requirements of Section XI for these valves.

We feel the licensee's alternate test of exercising these valves when control rod operability is verified will adequately demonstrate proper valve operability.

10

8. Standby Liquid Control System 8.1 Category A/C Valves 8.1.1 Relief Request. Relief is requested from the exercising requirements of section XI for valves C41F006 and 007, SBLC system check valve isolations to the nuclear boiler system.

8.1.1.1 Code Requirement. Refer to Appendix A.

8.1.1.2 Licensee's Basis for Requesting Relief.

Sufficient flow to indicate correct valve operation can only be obtained by system initia-tion which requires actuation of an explosive valve and injection to the reactor vessel. This valve shall be exercised once every eighteen months during the Standby Liquid Control System flow test as required by plant Technical Specifications.

8.1.1.3 Evaluation. The licensee has demonstrated that these valves cannot be full stroke exercised during power operation or cold shut-down since this would require SBLC system in tation, which would include 4

actuation of the explosive valves and injection of concentrated boric acid into the reactor vessel. Therefore, we feel relief should be granted from the exercising requirements of Section XI for these valves. We feel the licensee's alternate test of full stroke exercising once every eighteen months during +.he SBLC system flow test will adequately demonstrate proper valve operabi.ity.

9.

Primary Containment Ventilation Chilled Water System 9.1 Category A/C Valves 9.1.1 Relief Request. Relief is requested from the exercising requirements of Section XI for valves IVP068A and B, inside containment isolation check valves.

9.1.1.1 C_ ode Requirement. Refer to Appendix A.

9.1.1.2 Licensee's Basis for Requesting Relief. The system as designed does not provide a method to verify valve closure. Adequate indi-cation of operability will be provided by leak rate testing performed every 18 months to meet the requirements of 10 CFR 50 Appendix J.

9.1.1.3 Evaluation. The licensee has demonstrated that during power operation and cold shutdowns, the only practical way to verify valve closure (the safety-related position) would be to perform a leak rate test.

Since leak rate testing is required to be performed during refueling outages i

3 by 10 CFR 50 Appendix J, we feel relief should be granted from the exercis-ing requirements of Section XI for these valves. We feel the licensee's proposed alternate test of verifying valve closure by leak rate testing in accordance with 10 CFR 50 Appendix J will adequately demonstrate valve operability.

11

IV. APPENDIX A 1.

Code Requirement--Valves Subsection IWV-3411 of the 1977 Edition of the Section XI ASME Code (which discusses full stroke and partial stroke requirements) requires that Code Category A and B valves be exercised once every three months, with exceptions as defined in IWV-3412(a), IWV-3415, and IWV-3416.

IWV-3521 (which discusses full stroke and partial stroke requirements) requires that Code Category C valves be exercised once every three months, with exceptions as defined in IWV-3522. In the above cases of exceptions, the Code permits the valves to be tested at cold shutdown where:

1.

It is not practical to exercise the valves to the position required to fulfill their function or to the partial position during power operation.

2.

It is not practical to observe the operation of the valves (with fail safe actuators) upon loss of actuator power.

Subsection IWV-3413(c) requires all Category A and B power-operated valves to be stroke-time tested to the nearest second or 10% of the maximum allowable owner-specified time.

1

(

(

1 12

V.

ATTACHMENT,1 During the course of our review of the Wm. H. Zimer, Unit 1 IST pro-gram we found no valves that need further review by the NRC Appendix J review committee.

O J

i i

13

2 VI. ATTACHMENT II The following are Category A, B, and C valves that meet the require-

)

ments of the ASME Code,Section XI, and are not full stroke exercised every three months during plant operation. These valves are specifically identi-fled by the owner and are full stroke exercised during cold shatdowns and refueling outages. EG&G has reviewed all valves in this attacnment and agrees with the licensee that testing these valves during power operation is not possible, due to the valve type and location, system design, or because this action could place the plant in an unsafe condition. We feel i

these valves should not be exercised during power operation, These valves are listed below and grouped according to the system in which they are located.

1.

Feedwater System l

1.1 Cateogry A Valves B21F065A and B, feedwater isolation valves to the reactor pressure vessel, cannot be exercised during power operation since closure of a valve would result in interruption of reactor feedwater flow, which could result in a reactor trip. These valves will be full stroke exercised during cold shutdowns and refueling outages.

2.

Service Water System 2.1 Category B Valves W5033A, 338, 34A, and 348, non-essential service water headers isola-l tion valves, cannot be exercised during power operation.

Isolation of one

]

of the non-essential service water headers could result in either reduced capabilities or damage to the following equipment, which might result in a reactor trip:

Turbine oil coolers lA and IB Turbine Building Component Cooling Water Heat Exchangers Generator Hydrogen Coolers.

These valves will be full stroke exercised during cold shutdowns and refueling outages.

3.

Drywell Pneumatic System s

3.1 Category A Valves t

IN061, air supply line isolation to containment, cannot be exercised during power operation since the closure of this valve would result in isolation of the air supply to the valves supplying cooling flow to the reactor recirculation pump motor cooler and seal cavity number 2 leak-off.

The loss of the reactor recirculation pump could result in a reactor trip.

This valve will be full stroke exercised during cold shutdowns and refuel-ing outages.

1 14

. ~,,. _

,._,y,

- - _,,_.~., _.-. -.

,-,4

4.

Residual Heat Removal System 4.1 Category A and A/C Valves E12F050A and B, RHR injection to reactor recirculation check valves, cannot be exercised during power operation because the RHR pumps cannot overcome reactor system pressure. Additionally, the operators for these valves have a safety interlock which does not permit the valves to open when the reactor is at normal operating pressure. These valves will be full stroke exercised during cold shutdowns and refueling outages.

E12F053A and B, RHR injection isolations to the reactor recirculation s

system, cannot be exercised during power operation because these valves have a safety interlock which does not permit the valves to open when the reactor is at normal operating pressure. These valves will be full stroke exercised during cold shutdowns and refueling outages.

E12F008 and 9, RHR suction isolations from the reactor recirculation system, cannot be exercised during power operation because these valves have a safety interlock which does not permit the valves to open when the reactor is at normal operating pressure. These valves will be full stroke exercised during cold shutdowns and refueling outages.

5.

Reactor Building Closed Cooling Water System 5.1 Category A Valves WR054 and WR055, Reactor Building Closed Cooling Water inlet and out-let containment isolation valves for the cooling water to the reactor recir-culation pumps, cannot he exercised during power operation since closure of these valves could result in damage to the reactor recirculation pumps. The loss of the reactor recirculation pumps could result in a reactor trip.

These valves will be full stroke exerr.ised during cold shutdowns and refueling outages.

5.2 Category B Valves WR009, WR010, WR0ll, and WR012, RBCCW non-essential loop isolations, cannot be exercised during power operation since closure of these valves l

could result in damage to the equipment cooled by the following:

l Primary Containment Vent Watar Chiller Reactor Water Clean-up System Non-regenerative Heat Exchangers Reacter Water Cleanup Pump Seal and Bearing Coolers Control Rod Drive Pump Seal and Bearing Coolers Fuel Pool Heat Exchangers Reactor Building Equipment Drain Tank 15 i

Drywell Pneumatic Compressor Intercoolers.

These valves will be full stroke exercised during cold shutdowns and refuel-ing outages.

t J

e P

16

VII. ATTACHMENT III Following is a listing of P& ids utilized during the course of this review.

System P&ID Number Revision C

Main Steam, Sheet 1 M-21 M

Feed Water M-23 M

I Cycled Condensate, Sheet 2 M-27 V

Service Water, Sheet 1 M-30 P

l Service Water, Sheet 2 M-30 W

l Drywell Pneumatic, Sheet 1 M-40 G

)

Drywell Pneumatic, Sheet 2 M-40 H

f Reactor Recirculation, Sheet 1 M-47 N

l Pressure Suppression M-48 G

High Pressure Core Spray M-49 N

Low Pressure Core Spray M-50 R

Residual Heat Removal, Sheet 1 M-51 AB i

Residual Heat Removal, Sheet 2 M-51 Y

Residual Heat Removal, Sheet 3 M-51 P

Residual Heat Removal, Sheet 4 M-51 T

i Reactor Core Isolation Cooling, Sheet 1 M-52 R

l Reactor Core Isolation Cooling, Sheet 2 M-52 S

l Fuel Pool Cooling and Cleanup, Sheet 1 M-53 N

Fuel Pool Cooling and Cleanup, Sheet 2 M-53 M

I Reactor Water Cleanup, Sheet 1 M-55 M

l Control Rod Drive Hydraulic, Sheet 2 M-56 H

l Control Rod Drive Hydraulic, Sheet 3 M-56 U

Standby Liquid Control M-57 K

J Reactor Building Closed Cooling Water, Sheet 1 M-58 U

Reactor Building Closed Cooling Water, Sheet 2 M-58 R

i

.)

Reactor Building Closed Cooling Water, Sheet 4 M-58 L

Liquid Radwaste Equipment Drain Collection, Sheet 1 M-62 M

MSIV Leakage Control M-73 H

Primary Containment Combustible Gas Control M-74 N

Containment Monitoring, Sheet 1 M-81 J

17

fluclear Boiler System, Sheet 1 M-83 P

Standby Gas Treatment M-87 E

Primary Containment Ventilation Chilled Water M-88 F

Piping, Sheet 1 Reactor Building Ventilation, Sheet 1 M-92 B

Reactor Building Ventilation, Sheet 2 M-92 G

Primary Containment & Suppression Pool Purge M-103 L

L 18

i i

VIII. ATTACHMENT IV 1.

We feel the following valves, which are not included in the IST pro-gram, need further review to determine if they perform a safety related function. Wm. H. Zimmer, Unit I has taken the stand that these valves are non-safety relate 1 and has not included them in their IST program.

O I

P&ID and Valve No.

Location Description lW5012A M-30-2(B-6)

Cross connect isolation valves between the Service IWS012B M-30-2(A-6)

Water and Residual Heat Removal Systems.

lWS013A M-30-2(B-6)

IW50138 M-30-2(A-6)

I i

lWS014A M-30-2(B-6)

Drain valve isolations on Service Water to IW5014B M-30-2(A-6)

Residual Heat Removal System cross connects.

I lE12F089 M-51-4(B-2)

Check valve in Service Water to Residual Heat Removal System cross connect.

\\

CllD001-138 M-56-3(D-7)

Check valves from cooling water header and C110001-115 M-56-3(E-6) charging water header to the control rod drive hy('. oulic control unit.

l 2.

In a letter from Anthony J. Cappucci (Mechanical Engineering Branch) to Robert J. Bosnak (Chief of Mechanical Engineering Branch) l addressing the trip report for the review of the Zimmer, Unit 1 IST program, the spent fuel pool cooling system was discussed as follows:

"The applicant stated that the spent fuel pool cooling system is not safety related. However, ASB requested CG&E to perform a seismic analysis on the piping to and from the fuel pool heat exchanger and provide the necessary supports to withstand the forces associated with the SSE. Also, this system is recuired to assure safe handling of j

fuel. Therefore, we should require that the pumps and valves associated with this system (seismically analyzed) be considered l

safety related for IST purposis and included in the program. We should obtain concurrence on c is position with ASB."

y We contacted the Auxiliary Systems Branch (ASB) to determine which portions of the spent fuel pool cooling system were seismically qualified. On January 20, 1982, Norman Wagner of the ASB contacted us concerning our inquiry. He stated that the William H. Zimmer, Unit 1 Final Safety Analysis Report (FSAR) indicated that the spent fuel pool 19

cooling system is not seismically qualified. Table 3.2-1 on page 3.P-9 of the Zimmer FSAR shows not applicable for the seismic category for the spent fuel pool cooling system. Page 9.1-7 of the FSAR states that the spent fuel pool cooling system pumps are supplied by AC offsite power and do not have any automatic switching capabilities to an emergency power source. Therefore, we feel the spent fuel pool cooling system is non-safety related, and should not be included in the Wm. H. Zimmer IST program.

9 4

c f

20

.s T

IX. ATTACHMENT V The following items were discussed via telephone with the licensee, (Charles N. Alm) on November 30, 1981'and the licensee agreed to send revised pages to the NRC to modify their IST program dated October 22, 1981 to reflect these changes.

1.

Relief request RD-2 will be modified to reflect the contents of Sections 7.~1.1 and 7.2.1 of this report.

2.

Relief request;RI-l will be modified to reflect the contents of Section 6.1.1 of this report.

3.

Relief request RI-2 will be added to the Wm. H. Zimmer Unit 1, IST program to request. relief from Yull-stroke exercising valve E51F030, RCIC check valje fran the suppression pool to the RCIC pump. See Section 6.2,'of this report for the evaluation of this relief request.

[

4.

Footnotes 6 and 7 wil) be added to Table A-1 (List of Pumps for Inservice Testing) to1 reflect the contents of Section 1.2 of this report.

g, 7

=

6

's l

3 ls

=

s

+

3

/

s

,L r

21 i',t I.

Retrieved from "https://kanterella.com/w/index.php?title=ML20053A958&oldid=4505193"