Forwards Rev 3A to Unit 2 Inservice Testing Program.Revised Program Being Submitted as Info in Accordance W/Guidance Provided in Generic Ltr 89-04.Summary of Program Changes Also Encl

ML20248B792
Person / Time
Site:	Beaver Valley
Issue date:	09/19/1989
From:	Sieber J DUQUESNE LIGHT CO.
To:	NRC OFFICE OF INFORMATION RESOURCES MANAGEMENT (IRM)
References
GL-89-04, GL-89-4, NUDOCS 8910030291
Download: ML20248B792 (42)
v • d • e

Text

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er W ley Power Station Shippingport, PA 150770XW V:

Pr s nt Nuchar (doup W12) 6G52t.6 September 19,- 1989 U. S. Nuclear Regulatory: Commission Attn:

Document Control Desk Washington, DC 20555

Reference:

Beaver Valley Power Station, Unit No. 2 Docket No. 50-412, License No. NPF-73 IST Program; Revision 3A Gentlemen:

Attached as. Enclosure 1 is Revision 3A to the Beaver Valley Power Station Unit No.

2 Inservice Testing (IST) Program.

This. revised-program is being submitted to the NRC as information in accordance with the guidance provided in Generic Letter 89-04, paragraphs B and D,

and as discussed at the regicnal meetings on implementation of Generic Letter 89-04.

This submittal contains specific revised pages which are intended to-be a

page for page replacement.

Please replace those pages contained in revision 3 with those identified on the " Approval Sheet" in Enclosure 1.

The Unit No. 2 IST Program is currently implemented as revision 3 as modified by. revision 3A (a partial issue of the Program).

The NRC issued their SER on the original version and revision 1 of the IST Program on March 18, 1988.

Subsequently, we submitted information detailing revisions 2

and 3 on January 31, 1989.

This subsequent submittal contained relief requests requiring NRC approval.

As a result of Generic Letter 89-04, we are reviewing that submittal against the positions delineated in Attachment 1 of the Generic Letter.

The results of that review will be discussed in our response to the Generic Letter.

However, with the issuance of Generic Letter 89-04 and discussions with the NRC, we have determined that revisions 3

and 3A may be implemented without prior NRC approval.

Enclosed as Attachment 1

is a

summary of Program changes incorporated with revision 3A.

.ma nge

a P

I 4

Bedv0r Vallcy Pow:r Station, Unit No. 2 L

y Dodket No. 50-412, License No. NPF-73 IST Program; Revision 3A Page 2 L

If you have any questions, please contact me or members of my staff.

Very truly yours, I

fAk J.

D. Sieber Vice President Nuclear Group cc:

Mr. J.

Beall, Sr. Resident Inspector Mr. W. T. Russell, NRC Region I Administrator Mr. P. Tam, Sr. Project Manager Mr. R. Saunders (VEPCO) i I

f 1

i

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co 1

ATTACHMENT 1 LIST OF EDITORIAL CHANGES 1

1) Under the " Pump Testing Requirements" Section:

a) The third paragraph on page 3 discusses performance of OST's, but changed to "BVPS-2 Surveillance Tests" to encompass both OST's was and BVT's for testing pumps in the IST Program.

b) On page 5, "BVT - Beaver Valley Test" was added to Item No. 2.

2) On pages 13 and 14 for RHR Pumps [2RHS*P21A,B], the nomenclature for-Flow Indicators

[2RHS-FI605A,B) was co.irected to " Return Line Flow Indicator to Cold Leg 22."

3) The Pump Testing Outline Sheets (pages 21-24) for the Recirculation Spray Pumps [2RSS*P21A,B,C D] were revised as follows:

a) The Surveillance Test used to test the RSS Pumps on a refueling.

frequency was changed from OST 2.13.7 to 2BVT 1.13.5.

Pump Relief Request No. 4 (page 43) was also revised to reflect this change.

b) The motor outboard bearing for each RSS Pump does not have a computer point for indicating bearing temperature and was deleted from the bearing temperature (Tb) section.

4).On page 27 under the Comments column for the "C" Component Cooling.

Water Pump [2CCP*P21C), Containment Cooling Water Supply Header Flow Indicator [2CCP* Fill 7A2] was also added as part of the test flow path.

5) On _page 28 for the Steam Driven Auxiliary Feed Pump [2FRE*P22), the Comments section for speed (N) was revised to include "or portable monitoring equipment."

The installed tachometer is not always operable and sometimes a stobotac is needed to obtain pump speed.

6) On page 45 for Pump Relief Request No. 7 under Basis for Relief, the minimum technical specification level permitted in the Diesel Cenerator Fuel Oil Storage Tank was changed to 91.2%.

7) Under the " Valve Testing Requirements" Section:

a) The second paragraph under Section A on page 47 was revised to state that stroke times would be measured "at least" to the nearest second...

Stroke time are typically measured to the nearest tenth or hundreth of a second.

b) The first paragraph on page 48 was revised to say, " Exception is taken to part-stroke timing motor-operated valves..."

c) The third paragraph on page 48 was deleted since all valves with l-failsafe actuators are now tasted by actually venting air off of I

the valve actuator instead of just positioning the control switch.

PAGE 1 0F 4

v n.

l LIST OF EDITORIAL CHANGES (Continued) l L

7) d) Section 1 under Corrective Actions on page 48 was revised to specify a limiting value "of 2 seconds" for rapid-acting valves.

e) Section 2.c under Corrective Actions on page 49 deleted "for the valve's repair or replacement" because corrective actions may involve a lot more than just the valve's repair or replacemnet.

l f) On paga 49, Item

6. "The design time listed in the UFSAR", was added as another basis for determining ASSE limiting valve stroke times.

g) Section C on page 51 was revised to read, "There are no ASME Class 1,

2, or 3 Category D valves..."

There are Category D valves at Unit 2, but they are not safety related and not in the IST Program.

h) Item 2 under the last paragraph on page 51 was revised to include as an example, " flow control valves."

i) On page 53 under Item 3, "LC - Locked Closed" was deleted. The term "LS - Locked Shut" is used in its place.

j) On page 53, " CMP - Corrective Maintenance Procedure" was added to Item 7.

8)

On page 57, deleted reference to IWV-3414 for Blender to VCT Check valve

[2CHS*84] because the check valve is " full stroked" open only at cold shutdown per CSJ No. 7.

9)

On page 59 under the Comments column, the forward direction (FD) stroke was deleted from RCP Seal Water Supply Check Valves [2CHS*474,

475, and 476) because ther.e weighted arm check valves only require testing in the closed direction per CSJ No. 15.

10) On page 65, the frequency for OST 2.47.3A was corrected to (Q) instead of (CSD) for High Head to Cold Leg Injection Isolation Valve

[2 SIS *MOV840] on the Valve Testing Outline Sheet.

11) On page 69, the NSA positions for CNMT EJ Suction CNMT Isol Valves

[2CVS*151 and 151-1) were changed from LC to LS.

12) Quench Spray Header Check Valves [2QSS*3 and 4) are tested in both directions per CSJ No. 28.

The Comments column on the Valve Testing Outline Sheet (page 71) was revised to reflect this by adding "RD" also.

The description for Alternate Test on CSJ No. 28 (page 119) was also revised to say,

" Full stroked in both directions per OST 2.1.10."

13) On page 81, the Valve Testing Outline Sheet for Steam Generator Main Steam Isolation Valves [2 MSS *A0V101A,B,C) was revised to reflect that the valves are tested quarterly (Q), not monthly (M).

PAGE 2 0F 4

LIST OF EDITORI AL CHANCES (Continued)

14) On page 87, the NSA position for TD Aux Feedwater Pump Discharge Check and Recirculating Valve [2FWE*FCV122] was deleted because it does not have an NSA position.

15) on page 91, the internal inspections per CMP every 5 years for Diesel Generator Heat Exchanger Supply Header Check Valves [2SWS*110, 111,

112, 113) were noted "not required by ASME."

IE Bulletin 83-03 requires an inspection of these check valves to ensure valve integrity.

Check valves [25WS*110 and 113] are passive valves and do not have any testing requirements so "QS" was changed to "NA" for these valves.

16)

Inst'. ment Air Header Inside CNMT Check Valve [2IAC*22] is stroked in the

1osed direction per CSJ No. 50.

The Valve Testing Outline Sheet (page 96) was revised to reflect this by adding "RD" The Alternate Test description for CSJ No. 50 (page 130) was revised to read, " Full stroked closed per OST 2.1.10."

17) on page 112, the Function for CFJ No. 15 was revised to read, " Seal Water Peturn Containment penetration X-19 thermal relief check valve (Bypasses 2CHS*MOV378),"

18) On page 112, the Basis for CSJ No. 16 was revised to identify RCP Seal Water Supply Check Valves.[2CHS*474,475,476] as " weight loaded arm check valves" stroked "in the closed direction."

19) On page

119, the Alternate Test description for CSJ No. 28 was revised to read. " Full stroked in both directions per OST 2.1.10."

20) On page 122, the Alternate Test description for CSJ No. 34 was revised to read. " Partial stroke open monthlv and full stroke open at cold shutcown per OST 2.24.4."

21) On pahd' 122, the Alternate Test de cription for CSJ No. 35 was revised to read, " Partial stroke per OST 2.21.1(2)(3) quarterly", and

" Full stroked and timed closed per OST 2.21.7 at shutdwon with TAVG A 515F."

22) on page 131 under css._. 32, the Basis for CSJ was revised to state that the plant would be placed in a "six" hour action instead of a one hour action per Tech Specs. 3.4.6.1 and 3.0.3.

PAGE 3 0F 4

~

LIST OF EDITORI AL p1ANGES (Continued)

14) On page 87, the NSA position for TD Aux Feedwater Pump Discharge Check and Recirculating Valve

[2FWE*FCV122) wcs deleted because it does not have an NSA position,

15) On page 91, the internal inspections per CMP every 5 years for Diesel Generator Heat Exchanger Supply Header Check Valves [2SWS*110, 111, l

112, 113]

were noted "not required by ASME."

IE Bulletin 83-03 requires an inspection of these check valves to ensure valve integrity.

Check valves [25WS*110 and 113] are passive valves and do not have any testing requirements so "QS" was changed to "NA" for these valves.

16)

Instrument Air Meader Inside'CNMT Check Valve [21AC*22] is stroked in the closed direccion per CSJ No. 50.

The Valve Testing Outline Sheet (page 96) was revised to reflect this by adding "RD" The Alternate Test description for CSJ No. 50 (page 130) was revised to read, " Full stroked closed per OST 2.1.10."

e,

17) On page 112, the Function for CSJ No. 15 was revised to read, " Seal Water Return Containment penetration X-19 thermal relief check valve (Bypasses 2CHS*MOV378)."

18) On page 112, the Basis for CSJ No. 16 was revised to identify RCP Seal Water Supply Check Valves [2CHS*474,475,476] as " weight loaded arm check valves" stroked "in the closed direction."

19) On page

119, the Alternate Test description for CSJ No. 28 was revised to read, " Full stroked in both directions per OST 2.1.10."

20) on page 122, the Alternate Test description for CSJ No. 34 was revised to read, " Partial stroke open monthly and full stroke open at cold shutdown per OST 2.24.4."

21) on page 122, the Alternate Test description for CSJ No. 35 was revised to read, " Partial stroke per OST 2.21.1(2)(3) quarterly", and

" Full stroked and timed closed per OST 2.21.7 at shutdwon with TAVG h 515F."

22) On page 131 under CSJ No. 52, the Basis for CSJ was revised to state that the plant would be placed in a "six" hour action instead of a one hour action per Tech Specs. 3.4.6.1 and 3.0.3.

l PAGE 3 0F 4

7.

.9i

- e-LIST OF TECHNICAL CHANCES l

1) Engineering' has determined that RSS: Pump ' Discharge Line to LHSI Discharge Weighted-Arm Check Valves (2 SIS *46 and 47] should no longer be exercised in the open' direction during normal operation because

. excessive forces 'are~

needed to overcome the head of water created by L

the Refueling Water Storage Tank level against the check valve disks.

Cold Shutdwon Justification No.

53 (page 131) was added to the IST Program to permit full stroking these check valves at Cold Shutdown per OST 2.1.10.

The Valve Testing Outline Sheet (page 63) was also revised to reflect this change.

2) On page 90, Recire Spray Heat Exchanger ~ Cooling Water Supply and Discharge Valves (2SWS*MOV104A-D and 105A-D) were chcnged from passive back to active. valves and will continue to be tested in OST 2.47.3A.

UFSAR Section 9.2.1.1.3 states that the: capability for isolating the inlet and outlet 'sidea of the RSS Heat Exchangers in the event of a tube leak in the heat exchanger must exist.

These valves are one of several ways to isolate a tube leak in the RSS Heat'Exchangers and are being. returned to active status in the IST Program as a preference and not as a requirement.

e PAGE 4 0F 4

8 t-i l

k i-I ENCLOSURE 1 e

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DUQLisNE LICHT COMPANY Leaver Valley Powr Station INSERVICE TESTING PROGRAM 70R PUMPS AND YALTES APPROVAL SHEET Unic 2 - IST Program ISSUE 1 Unit Nuclear Oper. Supvr.

OSC Approval Rev.

Revier Review Effective Ilo.

Pages Icew ~

Inicial/Date Data Signature Date Date N

hw BV2-0SC-4 3

Pages 1 - 158 (NOTE: Sidebars in the 38-88

(

left margin mark 12/1/88 editorial changes, and sidebars in the right margin mark te.chnical changes. Sidebars include Revision 2 and 3 per NRC instructions) x c

^

S O![I 3A Pages 3,5,13,14,21.22, G /[

BV-OSC,

23,24,27,28,43,45,47,48, 14 89 f[

49,51,53,57,59,63,65,69, 6/23/89 71,81,87,90,91,96,112, 119,122,130,131

l I'

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BVPS-2 IST PUMP TESTING REQUIREMENTS The Inservice Test (IST) Program for pumps at ' Beaver Valley Power Station (BVPS), Unit 2, is based on subsection IWP - Inservice Testing of Pumps of the ASME Boiler and Pressure Vessel Code,Section XI, 1983 edition through the summer 1983 addenda (the code). The pumps included in this program are all ASME " class 1, 2 or 3 centrifugal or displacement type pumps that are required to perform a specific function in shutting down the reactor or in mitigating the consequences of an accident, and that are provided with an emergency power source" at BVPS, Unit 2.

The requirements of the code will be followed at all times unless specific relief has been granted by the NRC. An inservice test, run quarterly, to measure or observe the test quantities listed in Table IWP-3100-1, below, is required for all pumps in the IST Program by the code.

TABLE IWP 31001 INSERVICE TEST QUANTITIES (hiantity Weeswe Observe Speed N Uf variable speed)

/

Inlet preenwe P,

/ (1)

Differential preenwe AP

/

Flow rate Q

/

vibr con amedituen v

/

Proper lubricant level or pressure

/

Bearing temocratwe Te

/

NOTE:

(1) Mesmare before pump startup and chartag test.

Table IWP-3100-2 shows the allowable ranges for test results that will be used to determine if corrective action is required following performance of BVPS-2 Surveillance Tests.

The test data will be compared to the ranges applied to the reference values for each parameter. If these ranges cannot be met, reduced range limits that allow the pump to fulfill its function will'be used in lieu of the ranges given in Table IWP-3100-2.

1 TABLE IWP 3100 2 ALLOWABLE RANGES OF TEST QUANTITIES Alert Range Regiered Accon Range

[ Note (1))

[ Note (1)]

Test (kaant!ty Acceptab6e Range Low Values High Values Low Values High Values P,

[ Note (2)]

[ Note (2)]

[ Note (2p]

[ Note (2)l

[ Note (2)]

AP 0 93-1.02 AP, 0.90-0.93 AP, 1.02-1.03 AP,

<0 90 AP,

> 1.03 AP, O

0.94-1.02 Q, 0.90-0.9a Q, 1.02 - 1.03 Q,

< 0 90Q,

> 1.03 Q, V when 0 s V, s 0.5 mits 0-1 nut None 1-1.5 mils None

> 1.5 mits V when 0.5 mils < V, s 2.0 mils 0-2V, mils None 2V,-3V, mils None

> 3 V, mils V when 2.0 mils < V, 5 5.0 mils 0-(2 + V,) mils None (2 + V,1-(4 + V,) mais None

> (4 + V,I mits V when V, > 5.0 mils 0-1.4V, mils None 1.4 V,-1.8V, mits None

> 1.8V, mits I

l Note (31)

[ Note (3)]

[ Note (3)]

[ Note (31)

[ Note (3)l a

NOTES:

(1) See IWP 3230.

(2) P, shall be withm the limits specified by the Owner in the record of tests (Iwp4000).

(3) T small te withm the limits specified by the Owner in the record of tests (!wP4000).

e 3

ISSUE 1 REV 3A

b-F 1-i f. = :-

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.BVPS-2 IST' P

The following two sections of this document are the " Pump Testing Outlines" and " Pump Relief Requests" sections. The " Pump Testing Outlines" section-is a listing.of all the, pumps Lin the.IST Program, their testing requirements,'and their specific relief request-reference numbers.

The y

pumps.are arranged according.to system and pump mark number. The following

[

abbreviations and~ designations are used on the Pump Testing Outlines and throughout the IST Program for pumps:

1.

Under Parameter column a.

(N)

- Speed b.

.(Pi) - Inlet Pressure c.

(AP) - Differential Pressure d.

(Q)

- Flowrate

/hh e..

(V)

- Vibration-f.

(Tb) - Bearing Temperature g.

-(L)

- Lubricant Level or Pressure 2.

Under OE column a.

(OST) - Operating Surveillance Test-b.

(BVT) - Beaver Valley Test jhg c.

(M)-

- Monthly Test Frequency d.

(Q)

- Quarterly Test Frequency e.

(A)

- Annual Test Frequency-A f.

(R)

- Refueling Test Frequency g.

(NA) - Not Applicable 3.

Under Reg'd column a.

(RR) - Relief Request b.

(X) - Meets or exceeds ASHE requirements c.

(E) - Exempt d.

(NA) - Not App.icable 5

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RELIEF REQUEST 4

5 Pump Mark No(s).:

2RSS*P21A-2RSS*P21C

[

2RSS*P21B 2RSS*P21D Code Test Requirement: Quarterly pump tests.

Basis'for Relief:

The function of these pumps is to take suction on the containment sump and discharga to the spray

~ rings on the containment ceiling during a DBA. In order to test these pumps, a temporary dike must be-installed in the containment around the safeguards

. sump to ensure adequate NPSH for each ' pump.

Quarterly testing at power in this manner is a safety concern since it would block off the sump from the containment in the event of an accident.

Pump testing during cold shutdowns, while not involving the same safety concern, would increase personnel radiation exposure, create additional radioactive liquid waste, divert maintenance from higher priority. items, and could extend th-

?ength of a

plant shutdown due to the extensive i

preparatory work required to properly install the dike.

Alternate Test:

-Dry run quarterly per OST 2.13.3, 2.13.4, 2.13.5, and 2.13.6 for not more than 60 seconds and stopped i

as soon as pump start is verified. Also, run on ljhk.

.l test line recirculation per 2BVT 1.13.5 during Refueling Outages.

l 1

l s

i I

i i

l 43 ISSUE 1 j

REV 3A l

<i:

f;j P*.

BVPS-2 IST RELIEF REQUEST-7

-Pump Mark No(s).:

2EGF*P21A 2EGF*P21B-2EGF*P21C 2EGF*P21D

Code Test Requirement:. Measurement of pump suction pressure (before pump startup and during test) and delta-P.

Basis for Relief:

There is no installed instrumentation provided to b-measure suction pressure:for these pumps.

Suction pressure. is dependent on the' level in the diesel generator fuel oil storage tank.

Due to the1 minimum. technical specification level permitted in l

the tank (91.2%), suction pressure' will remain-almost constant (within 1/2 psig).

The pump performance is dependent on flowrate and delta-P.

Since suction pressure will remain almost constant, any pump degradation due to changes in delta-P would solely be dependent on discharge pressure.

Alternate Test:

Discharge pressure will be recorded and trended as an indication of pump performance in OST 2.36.1 and OST 2.36.2.

1 l

1

-l l

i I

45 ISSUE 1 REV 3A m

>j W""

BVPS-2 IST VALVE TESTING REQUIREMENTS The. Inservice Test (IST) Program for valves at Beaver Valley Power Station (BVPS), Unit 2, is based on subsection IWV - Inservice Testing of \\alves of the ASME Boiler and Pressure Vessel Code,Section XI, 1983 edition through the summer 1983 addenda (the code). The valves included in this section are all -ASME " Class 1, 2, or 3 valves (and their actuating and position indicating' systems) which are' required to perform a specific function in i

shutting down the. reactor to cold shutdown or in. mitigating the consequences of an accident" at BVPS, Unit 2.

The requirements of the code will be followed at all times unless specific relief has been granted by the NRC.

A.

Category A valves are valves for which seat leakage in the closed position is limited to a specific maximum amount for fulfillment of their function. Category B valves are valves for which seat leakage in the closed position is inconsequential for fulfillment of their d

function.

Category A and B valves will be exercised at least once every three months to the position required to-fulfill their function unless such operation is not practical during plant operation. If only limited operation is practical during plant operation, the valves will be part-stroke exercised at power and full-stroke exercised during cold shutdowns. Valves that cannot be stroked at power will be full-stroked during cold shutdowns. In the case of frequent cold shutdowns, these valves need not be tested more often than once every three months. For a valve in a system declared inoperable or not required to be operable, the exercising test schedule need not be followed.

Within 30 days prior to return of the system to operable status, the valves shall be exercised and the schedule resumed.

The time to full-stroke exercise each power operated valve will also be measured and compared to a limiting stroke time. Full-stroke, time is that time interval from initiation of the actuating signal to the end of the actuating cycle. The stroke time of all power operated valves shall be measured to at least the nearest second, for stroke times 10 l

1 see or less, or 10% of the specified limiting stroke time for full-stroke times longer than 10 sec, whenever such a valve is full-stroke tested. Position indication lights on the Control Board are used for valve stroke indication for all testing of power operated valves with remote position indicators.

In addition, valves with j

remote position indicators will be observed at least once every 2 years to verify that valve operation is accurately indicated.

l l

4 47 ISSUE 1 REV 3A j

~

~

BVPS-2 IST Exception is taken to part-stroke timing motor-operated valves, unless l2hk specifically stated. This is necessary because the motor-operated valve circuitry prevents throttling of these valves. Under normal operation, the valves must travel to either the full open or shut position prior to reversing direction.

The necessary valve disk movement shall be determined by exercising the valve while observing an appropriate indicator, which signals the required change of disk position, or observing indirect evidence (such as changes in system pressure, flow rate, level, or temperature), which reflect stem or disk position.

lA Corrective action shall be taken if necessary, using the following:

1.

If the stroke time of a power-operated valve exceeds its previous stroke time by 25% for valves with full-stroke times greater than 10 seconds, or 50% for valves with full-stroke times less than or equal to 10 seconds, the test frequency will be increased to monthly.

Corrective action on a valve identified as rapid-acting per Relief Request No. 30 is not required unless its stroke time exceeds the limiting value of 2 seconds established for the valve.

l Stroke times of the valves will be examined for trends.

During the trend review, it will be determined if corrective action is necessary for any valve based on its stroke time history.

When either the corrective action is complete or the review determines it is unnecessary, the original test frequency will be resumed.

2.

If a valve fails to exhibit the required change ci valve stem or disk position or exceeds its specified ASME limiting value of full-stroke time, then the valve shall be declared inoperable immediately and an evaluation of the valve's condition with respect to system operability and technical specifications shall be made as follows:

a.

If the inoperable valve is specifically identified in the technical specifications, then the applicable technical specification action statements must be followed.

b.

If the inoperable valve is in a system covered by a technical specification, an assessment of its condition must be made to determine if it makes the system inoperable.

If the condition of the valve renders the system inoperable, then the applicable system technical specification action statements must be followed, c.

Corrective action (ie., MWR) shall be initiated immediately.

A 48 ISSUE 1 REV 3L

-_ -_____ _ D

BVPS-2 IST d.

Nothing in the ASME Boiler and Pressure Vessel Code shall be construed to supercede the requirements of any technical specification.

e.

If the valve is not covered by any technical specifications and the condition of the valve cannot be corrected within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, then the valve ; hall be declared inoperable per ASME.

3.

When a valve or its control system has been replaced or repaired or has undergone maintenance that could affect its performance, and prior to the time it is returned to service, it shall be tested to demonstrate that the performance parameters, which could be affected by the replacement, repair, or maintenance, are within acceptable limits. Examples of maintenance that could affect valve performance parameters are:

adjustment of stem packing; removal of the bonnet, stem

assembly, or actuator; and disconnection of hydraulic or electrical lines.

The ASME limiting valve stroke time is based on the following criteria:

1.

The Technical Specification value.

2.

ESF Response Time requirements.

3.

Establishing a two (2) second limit for valves with stroke times under one (1) second. (rapid-acting valves) 4.

The average of past stroke times plus 100% for valves with stroke times less than or equal to ten (10) seconds.

S.

The average of past stroke times plus 50% for valves with stroke times greater than ten (10) seconds.

6.

The design time listed in the UFSAR.

d In addition, Category A valves are leak rate tested at the same (or greater) frequency as scheduled refueling outages, not to exceed every two years.

If the leak rate exceeds the allowable limit, the valve will be repaired or replaced.

49 ISSUE 1 REV 3A

9 BVPS-2 IST 4.

If the check valve is not covered by any technical specifications and the condition of the check valve cannot be corrected within 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br />, then the check valve shall be declared inoperable per ASME.

Before returning the check valve te service after corrective action, a retest showing acceptable operation will be run.

C.

Category D valves are valves which are actuated by an energy source capable of only one operation, such as rupture disks or explosively actuated valves. There are no ASME Class 1, 2, or 3 Category D valves at Beaver Valley Power Station, Unit 2.

All the inservice testing requirements for each different category of valve in the IST Program are summarized in Table IWV-3700-1.

This table lists the subarticles of the code that apply to each different type of valve.

TABLE IWV 37001 INSERVICE TEST REQUIREMENTS' Valve Ene cise Special Function Leak Test Test Test Category (IWV-2100) Procedure Procedure Procedure A

Active IWV 3420 IWV 3410 None A

Passive IWV-3420 None None B

Active N one IWV 3410 None C Safety

& Rehef Active None IWV 3510 None C-Check Active None IWV-3520 None D

Active None N one IWV 3600 NOTE:

(1) No tests.'equired for Category B, c, W D passive valves.

Passive valves are valves which are not required to change position to accomplish a specific function. As stated in the table, passive valves are not required to be exercised.

Therefore, relief is not required from exercising any passive valve and no testing requirement is listed in the outline section.

Certain exemptions from the valve testing requirements of the ASME code defined by subsection IWV-1200 are listed below:

1.

Valves used only for operating convenience (ie., manual vent, drain, instrument and test valves);

2.

Valves used only for system control (ie., pressure regulating valves, flow control valves);

l[

3.

Valves used only for maintenance; and 4.

External control and protection systems responsible for sensing plant conditions and providing signals for valve operation.

51 ISSUE 1 REV 3A

1

~

BVPS-2 IST 3.

The normal system arrangement will be listed using the abbreviations below:

NSA - Nermal System Arrangement 0

- Open S

- Shut A

- Automatic T

- Throttled ADC - Administrative 1y Controlled (ie, locked, sealed)

LO Locked Open LS - Locked Shut l

SS - Sealed Shut i

4.

The drawing number and coordinates will be the ones used in the Operating Manual.

5.

The test requirements will be listed using the abb_eviations below:

QS - Quarterly Stroke QST - Quarterly Stroke & Time LT - Leak Rate Test SPT - Set Point Test LM - Leakage Monitoring POS - Position Verificarica NA - Not Applicable 6.

The spscific Cold Shutdown Justification (CSJ) reference number or the re:ief request (RR) reference number will be listed.

7.

The s}ecific test procedure number, frequency, type of testing, and any comments will be listed using the abbreviations below:

OM

- Operating Manual 2BVT - Beaver Valley Test (Unit 2)

OST - Operating Surveillance Test CMP - Corrective Maintenance Procedure l jg(

CSD - Cold Shutdown R

- Refueling Q

- Quarterly M

- honthly FS

- Full Stroke PS

- Partial Stroke FD

- Forward Direction RD

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BVPS-2 IST COLD SHUTDOWN JUSTIFICATION 15 Valve No.:

2CHS*473 Category A/C Class 2

Function:

Seal Water Return Containment penetration X-19 thermal relief check valve (Bypasses 2CHS*MOV378) l Test Requirement: Quarterly full stroke Basis for CSJ:

This valve is closed during normal plant operation and is to remain closed for containment isolation. However, it will momentarily open if required to relieve pressure due to thermal expansion. Full stroke testing can only be performed by manually cycling the weight loaded arm.

I Since this valve is located inside containment, it is i

not accessible during normal operation.

Alternate Test:

Full stroked in both directions per OST 2.1.10 COLD SHUTDOWN JUSTIFICATION 16 Valve No.:

2CHS*474 2CHS*475 2CHS*476 Category A/C Class 2

Function:

Reactor Coolant Pumps Seal water supply inside containment isolation check valves Test Requirement: Quarterly full stroke Basis for CSJ:

These valves are open during normal plant operation, but are required to be closed for containment isolation.

Exercising these weight loaded arm check valves in the 1

closed direction at power would secure RCP seal injection which would result in seal damage.

, Alternate Test:

Full stroked closed per OST 2.1.10 112 ISSUE 1 REV 3A

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BVPS-2 IST COLD SHUTDOWN JUSTIFICATION 28 L

Valve No.:

'2QSS*3

.d 2QSS*4 Category A/C Class 2

l Function:

Quench spray header inside containment isolation check 1-valves.

d Test Requirement: Quarterly full stroke Basis for CSJ:

Valves are normally. closed. Safety position is open for QSS flow and closed for containment isolation.

Exercising can only be performed by manually cycling the weight loaded arm on the check valve.

Since these valves are located inside reactor containment, they are not accessible during normal operation.

Alternate Test:

Full stroked in both directions per OST 2.1.10 COLD SHUTDOWN JUSTIFICATION 29

' Valve No.:

2QSS*SOV100A 2QSS*SOV100B Category A

Class 2

Function:

Chemical injection to containment sump outside containment isolation valves,

& Test Requirement: Quarterly full stroke and time Basis for:CSJ:

Failure of these valves in the open position would cause loss of NaOH injection for the Quench Spray System.

Also since these valves are~ located at the containment penetration, failure ir. the open position would require closing both chemical injection pump discharge valves to comply with technical specifications rendering chemical injection inoperable.

This would require plant shutdown.

d Alternate Test:

-Full stroked and timed per OST 2.1.10 119 ISSUE 1 REV 3A

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1 BVPS-2 IST COLD SHUTDOWN JUSTIFICATION 34 Valve No.:

2 MSS *18 2 MSS *199 2 MSS *19 2 MSS *352 2 MSS *20 2 MSS *196 Category C

Class 3

Function:

Main Steam to Auxiliary Feed Pump Check Valves Test Requirement: Quarterly full stroke Basis for CSJ:

Full stroking these valves cannot be performed during normal operation because this would require injecting relatively cold auxiliary feedwater to the steam generators at the design flowrate. This would result in a thermal shock to the auxiliary feedwater piping which could lead to premature failure.

Alternate Test:

Partial stroke open monthly and Full stroke open at cold shutdown per OST 2.24.4.

COLD SHUTDOWN JUSTIFICATION 35 Valva No.:

2 MSS *A0V101A 2 MSS *A0V101B 2 MSS *A0V101C Category B

Class 2

Function:

Main Steam isolation valves for Steam Generators Test Requirement: Quarterly full stroke and time Basis for CSJ:

Valves are normally open; safety position is closed for High Energy Line Break isolation.

Closure of these valves during normal operation would result in plant shutdown.

l Alternate Test:

Partial stroked per OST 2.21.1(2)(3) quarterly.

Full stroked and timed closed per OST 2.21.7 at shutdown with TAVG 2515F.

122 ISSUE 1 REV 3A

h 48

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BVPS-2 IST COLD SHUTDOWN JUSTIFICATION 50 l

Valve No.:

2IAC*22 Category A/C Class 2

Function:

Instrument Air header inside containment isolation check l

valve l

l Test Requirement: Quarterly full stroke Basis for CSJ:

This valve is normally closed and is opened as required to supply instrument air to the containment. The safety position is closed for containment isoL. tion. Full stroke testing can only be performed by cycling the weignt loaded arm or leak testing. Since this valve is located inside containment, it is not accessible during normal operation.

hAlternateTest:

Full stroked closed per OST 2.1.10 COLD SHUTDOV9 JUSTIFICATION 51 Valve No.:

2HVR* MOD 23A 2HVR* MOD 23B 2HVR* MOD 25A 2HVR* MOD 25B Category A

Class 2

Function:

Containment purge discharge and supply outside and inside isolation dampers Test Requirement: Quarterly full stroke and time Basis for CSJ:

These dampers are closed during power operation and opened for refueling operation.

Safety functions are during power operation to remain closed for containment isolation and during refueling to close in the event of a refueling accident.

These dampers cannot be cycled during normal operation because Technical Specifications require the dampers to be locked shut during normal operations.

Alternate Test:

Full stroked and timed per OST 2.1.10 130 ISSLT 1 REV 3A

se a,*:

BVPS-2 IST COLD SHUTDOWN' JUSTIFICATION' 52 Valve No.:

2CVS*SOV102 2CVS*SOV153A 2CVS*S0V153B Category A

Class 2

Function:

Containment Airborne Activity Radiation Monitor [2RMR*RQ303]

Containment Isolation Valves Test Requirement: Quarterly full stroke and time-ghg Basis for CSJ:

During. performance of OST 2.47.3A (Quarterly Stroke Testing of Containment Isolation and ASME XI Valves), Containment Airborne Activity Radiation Monitor. [2RMR*RQ303]

is shutdown to stroke associated containment isolation valves. When this occurs, both the containment gaseous and particulate airborne activity monitors-are temporarily inoperable. This situation is less conservative 1 than the action statement of Tech. Spec. 3.4.6.1, and places the plant in'a six hour action per Tech. Spec. 3.0.3.

Alternate Test:

Full stroked and timed per OST 2.1.10 COLD SHUTDOWN JUSTIFICATION 53 Valve No.:

2 SIS *46 2 SIS *47 Category C

Class 2

Function:

Recirculation Spray Puap discharge to LHSI Pump discharge weighted arm check valves Test Requirement: Quarterly full stroke Basis for CSJ:

These check valves are normally closed. Their safety function is

'to open during the Recirculation Phase. Full stroke testing can only be done by cycling the weight loaded arm of'each check valve.

Exercising these weighted arm check valves in the open direction during normal operation requires excessive forces due to the head of water from the Refueling Water Storage Tank (RWST) against the check valve disk.

Engineering does not recommend applying the excessive forces required to cycle the check va.' ves open.

The pressure created by the head of water from the RW8T could be bled off by isolating one LHSI System train at a time and draining radioactive water from a drain valve into a sump. However, isolating one train of an Emergency Core Cooling System during plant operation would place the plant into a Technical Specification Action Statement. If tested quarterly, the amount of radioactive water drained from the system to bleed off pressure would create additional liquid waste for disposal.

Alternate Test:

Full stroked in both directions per OST 2.1.10.

1 131 ISSUE 1 REV 3A h.h___-___

-