Issue 1,Rev 9 to Inservice Testing Program for Pump & Valves

ML20094S157
Person / Time
Site:	Beaver Valley
Issue date:	03/08/1992
From:	Noonan T DUQUESNE LIGHT CO.
To:
Shared Package
ML20094S152	List: ML20094S149 ML20094S157
References
PROC-920308, NUDOCS 9204140183
Download: ML20094S157 (196)
v • d • e

Text

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i DUQUESNE LIGHT COMPANY Beaver Valley Power Station Unit 2 i

1 i

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INSERVICE TESTING (IST) PROGRAM FOR PUMP AND VAL.VES

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i Deaver Valley Power Station Unit 3 issue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page i LLsLoUllect!vtbau Page Revislon Page Revision i

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Beaver Valley Power Station Unit 2 issue 1 Revision 9 If4 SERVICE TESTING (IST) PROGRAM FOR PUfAPS Af40 VALVES Page H LLsLoLEMnt!ntPageLtcontinued)

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Beaver Valley Power Station Unit 3 issue i j

Revmon 9 INSERVICE TESTING flST) PROGRAM FOR PUMPS AND VALVES Page ni INLOLfEP%llY?EnDes_lContinued) i

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Beaver Valley Power Station Unit 2 issue t Revision 9 i

INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Pageav TABLE OF CONTENTS t

SECTION I PUMP TESTING REQUIREMENTS 1

SECTION ll PUMP TESTING OUTLINEb 5.

SECTION 111 PUMP TESTING RELIEF REQUESTS 36 SECTION IV VALVE TESTING REOUIREMENTS 41 SECTION V VALVE TESTING OUTLINES 48 i

SECTION VI VALVE TESTING COLD SHUTDOWN JUSTlFICATIONS 120 SECTION Vll VALVE TESTING RELIEF REQUESTS 155 1

8 i

.,.. _ ~ - -

Beaver Valley Power Station Unit 2 tssue i j

Revision 9 lNSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Page i of 191 SECTION 1:

PUMP TESTING REQUIREMENTS i

l Beaver Valley Power Station Unit a lstae 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Pa00 2 of 191 The inservice Test (IST) Program for pumps at Beaver Valley Power Station (BVPS). Um! 2.

is based on subsection IWP Inservice Testing of Pumps of the ASME Boiler and Pressure Vessel Code,Section XI,1983 edition through the summe

• 1983 addenda (the code) and Generic Letter 89-04. ' Guidance on Developing Acceptable Inservice Testing Pro 0 rams

• The pumps included in this program are all ASME class 1. 2. or 3 centrifugal or displacement type pumps that are required to perform c specific function in shutting down the reactor or in mitigating the consequenccs of an accident, and that are provided with an emergency power source' at 8VPS, 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 rqared for all pumps in the IST Program by the code.

Tab _le IWP-3J_0_0-ji LNSERVICE TEST QUANTITIES Quantary Measure Observe

$ peed N (if variatde speed) s inlel pressure P, s(1)

Differential pressure AP i

How rate Q i

Vibration amplitude V d

Proper hibricant levet or pressure Bearmg temperature 7 y

3 NofE; (1) Weasure before pump startup and ckJring test Table IWP-3100-2 shows the a!!cwable 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.

lable IWP-3100 2 ALLOWABLE RANGES OF TEST QUA_NTITIEjS Test A.ceptable Alert Range Required Action Hange Quantary Range (Note (1))

(Note (1))

kow Values Hsgh Values Low Values l High Values P,

(Note (2))

(Note (2))

(Note (2))

(Note (2))

(Note p))

AP O 93102 AP, 0 904 93AP, 1021034 P,

< 0 90AP,

> 1 OJ A P.

Q 0 94102Q, 0 904 SaQ,

102103Q,

< 0 90Q,

> 103Q, V when 0$V,$0 5 msis 01 mit None 115 mits None

> 15 mits V when 0 5 mds <V,2 0 mus 0-2V,mits None 2V,-3Vpies None

> 3V,msis V when 2 0 mds < V,55 0 mits 0-(2 + V,) msts None p t V,)-(4 + V,) mils None

> (4 + V,)mits V when V, > $ 0 mds 014V,mits None 14V,.1 SV,mits home

> 1 BV.mels Te (Note (3))

, (Note (3))

(Note (3))

(Note (3))

(Note (3))

NOTES (1) See twp 3230.

(2) P, shall be withm the limits specinced by Owner in the record of tests (fWP-6000)

(3) Te, shall be within the Ismits specinced by Owner in the record of tests (tWP-6000)

-~

l Deaver Valley Power Stahon Unit a lu.ue [

1 Revision 0 INSERvtCE TESTING tlST) PRP3 RAM FOR PUMPS AND VALVES Pa0e 3 of 191 Corrective action sSaU be taken if necessary using the following:

1.

If deviations fall within the "Aler1 Range

• of Table IWP 3100 2, the frequency of testing shall be doubled until the cause of the deviation its determmed and corrected and mther the existing reference values reverified or a new tel established.

2.

If the deviations fall within the

• Required Action Range

• of Tablo IWP 3100 2. the pump shall be declared inoperative immediately and an evaluation of the pump's condition with respect to system operabihty and technical specifications shall be made as follows:

If the inoperable pump is specifically identified in the technical specifications, a.

then the apphcable technical specification action statements tnust be followed.

b.

If the inoperable pump is in a system covered by a technical f,pocification, an assessment of its condition ruust be rnade to determine if it inakes the system inoperable. If the condition of the pump renderti the system inoperable, then the apphcable system technical tspecihcahon action statements must be followed, c,

Corrective action shall be either replacement or repair per IWP 3111, or shall be an analysis to demonstrate that the condition does not impair pump operabihty and thA the pump will still fulfill its function, A new set of reference values shall be estabhshed after such analysis, d.

Nothing in the A$ME Boiler and Pressure Vessel Code shall be construed to e

supercede the requirements of any technical specification.

3.

When tests show deviations Dreater than allowed (see Table IWP 3100 2), the instruments involved may be recabbrated and the test rerun. This is an i

alternative to replacement or repair not an adostional action that can be taken before declaring the pump inoperable.

4 The pump shall not be returned to service until the condition has been corrected.

The corrective action shall be considered completed when a satisf actory inservice test has been conducted in accc,rdance with IWP 3111.

Per IWP-3500 each pump shall run at least 5 minutes under conditions as stable as the system permits prior to measurernent of the specihed parameters (when bearing temperature measurements are not required). When bearing temperature measurernents are required, each pump shall be run until the bearing temperatures stabilize prior to rnaking the specified measurements, A bearing temperature is considered stablo when three successive readings taken at 10 minute intervals do not vary by more than 3%.

Bearing temperature measurements are required annually (normally in August),

At certain times plant conditions may preclude returning a pump to the same reference condition for its normally scheduled surveillance, Since IWP 3112 permits the establishment of additional sets of reference values, a pump curve which is merely a graphical representation of these reference values will be used.

Records of the results of inservice tests and corrective actions as required by subsection IWP 6000 are trended in tabular form. Pump performanco characteristics will be examined i

for trends.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page J of 191 The following two sections of this document are the " Pump Testing Outlines" and " Pump Relief Requests" sections. The " Pump Testing Outlines" section is a hsting of all the pumps in the IST Program, their testing requirements, and their specific tehel request reference numbers. The pumps are arranged accoroing to systern 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 Egtaf1LeLei column a.

(N)

Speed b.

(Pi' Inlet Pressure c.

(JP)

Differer tial Pretsure d.

(Q Flovrate e

e.

(V)

- Vibration f.

(Tb)

- Bearing Temperature t

g. (L)

Lubricant Level or Pressure 2.

Under FOST coNmn a.

(2BVT)

- Unit 2 Beaver Valley Test b.

(2OST)

- Unit 2 Operating Surveillance Test c.

(Q)

- Quarterly Test Frequency d.

(A)

Annual Test Frequency t

e.

(CSD)

- Cold Shutdown Frequency f.

(R)

- Refueling Test Frequency g.

(NA)

- Not Applicable 3.

Under R.ea'd column a.

(RR)

- Relief Request l

b.

(X)

- Meets or exceeds ASME requirements

c. (E)

- Exempt d.

(NA)

- Not Applicable The " Pump Relief Requests

• section contains the detailed technical description of particular conditions and equiprnent installations prohibiting the testing of some'of the characteristics of safety-related pump's. An alternate test method und the frequency of revised testing is also included to meet the intent of 10CFR50.55a. The relief request (s) for a specific pump is referenced by the number (s) listed on the pump's testing outline sheet.

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

l r Beaver Valley Power Station Unit 2 issue i Revision 9 l INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 5 of 191 SECTION 11:

PUMP TESTING OUTLINES l

l

b BVPS-2 IST G

ID PUMP TESTING OUTUNE Oi i

m Pump Pump Code Dwg. OM No.: 7-1 System-7 CWJ and Vdume Corttrot 5

D n

Name: 21 A Chargmg Pump Number-2CHS*P21A Class: 2 Dwg Coorda D4 Function: To provide normal RCS inventory makeup. Seat Type: Centntugal Remarks: Pump is tested quarterly on teorculation flow and a

e Injectm and High Head Ssfety injection at futt flow during Refue4mg outages y

o Parameter 2OST l

Req'd Comments O

4 (Frequency) i m

N NA NA Constant speed inducteon motor.

-4 rs

~

7o mn Pi 7.4 (O)

X Pump Suction Pressure ind,cator [2CHS-P1151 A] local h

i 11.14 (R)

X Pump Suction Pressure indecator [2HCS-Pl151A] local i

C m

i AP 74(O)

X Calculated using Pump Discharge Pressure ind.cator [2CHS-P1151B] and Pumo Suction Om Pressure, local.

y 11.14 (R)

X Calculated usmg Pump Descharge Pressure indacator [2CHS-F11512] and Pump Sucten

]

Pressure, local.

y I

m C

Q 7.4 (0) -

X Summation of flow rates from Flow indicators [2CHS-F1122A,12dA 127A.130A 160].

Control Room, and [2CHS-Fi1T0]. local O

11.14 (R)

.X Summat. m of flow rates from Flow indecators [2CHS-F1122A 124A 127A.130A]

p I

and f 2 SIS-Ft9431 Control Room g

V 7.4 (O)

X Portable moritaring equipment - Fixed vibraten probe 11.14 (R)

X Portable monstoring equipment - Feued vibration probe j

Tb 7.4 (A)

X Control Room computer address pomts for thermocouples provided for exh

{

pump end and thrust bearing Inboard Pump Bearmg (T0110AL Outboard Pump Bearing (T0111 A). Pump Thrust Bearmg (T0102A) r NA NA Not required ducir:q refueimg test. Bearmg temperaturer are obtamed in quarterfy test annually -

L 74(O)

X Seght g! ass on o+1 reservoir, local 2

11.14 (R)

X

' Sight glass on oil reservoir, local eo,I

}

• 5-OOf et C

3 o

- u, -

4

'e--.+.

N BVPS-2 IST E

E PUMP TESTING OUTLINE Er x

o Pump Pump Code Dwg. OM *)o 7-1 System: 7 Cha; and Volume Control 5

Name: 21B Charging Pump

. Number: 2CHS*P21B Class 2 Dwg. Coord: D-9 o

Function: To provide normal RCS inventory makeup. Seal Type: Centrifugal.

Remarks: Pump is tested quarterly on rec 2rculation flow and A

m Injection and High Head Safety inject on at full flow during Refueleng outages 8

Parameter 2OST

' Req'd Comments O

j (Frequency) g N

NA NA Constant speed induction motor.

~~4 u

yO y

m 3

Pi 7.5 (O)

X Pump Suct.on Pressure Indicator [2CHS-P1152A] local hx>

11.14 (R)

X Pump Sucteon Pressure Ind,cator [2HCS-Ft152AJ tocal g

w, O

AP 7.5 (O)

X Calculated usmg Pump Discharge Pressure Indicator [2CHS Pf152B] and Pump Suctwm x

Pressure local.

m C

11.14 (R)

X Calculated using Pump Discharge Pressure indicator [2CHS-P1152B] and Pump suction C

Pressure, local.

C 2

Q 7.5 (O)

X Surnmateon of flow rates from Flow Indicators [2CHS-Fil22A 124A.127A.130A 160].

Control Room, and {2CHS-Ft170]. local.

O 11.14 (R)

X Summation of flow rates from Flos indecators [2CHS-Ft122A.124A.127A.130A]

and [2 SIS-Ft943]. Control Room f

m V

7.5 (O)

X Portable monstoring equipment - Fired vibrat.on probe.

i 11.14 (R)

X Portable monitoreng equepment - Fined vibrat.on probe s'

1 Tb 7.5 ( A)

X Control Room computer address poents for thermotoup.es prov+ded fcr each pump end and thrust bearing inboard Pump Bearing (T0120AL Outboard Pump Bearing (TD121 A). Pump Thrust Beanng (TG104A) i NA NA Not requrred durmg refuel ng test. Bearing temperatures are obtamed en quarterly test annually.

L l

7.5 (O)

X Sight glass on o.1 reservoer. tocal 1

m a:

o 11.14 f R)

X

' Sight grass on oil., m ervoir. locat.

om

~

N2_

oE:

_. 3 %

=-n-

.s

a.

SVPS-2 IST E

s' PtJMP TESTINC OUTLINE 2

Pump Pw1p Code

' Dwg. OM No.: 7-1 Oyste o: 7 Chem

• cal and Votum Control 5

D o

Name: 21C Charging Pump humW 2CHS'P21C Cia.s-2 Dwg. Coord.: D-13 w

Function: To provide normal RC3 inver. tory maheep. Sea! ' Type: CeMrituga4 81emarks: Pump is tested quarterly w recirculeton flow ar.d "n

• njection and High Head Safety Ir.jeceon at %dl Bow durmg Refueting uutaget y

h g

Parameter I 2OST Req'd Coneents G

2 e

(Frequency) -

3 9

N NA NA Constant speed ir:Juct+on notor.

-~<

u 7o m

n 3

Pi

/6 (O) *;

X Pump Suetron Pressure indecator [2CHS-P1153A]. local h

I y

1 L14 (R)

X Pump Suction Fressure ind.cator [2CHS-P1153A}. local

ll m

AP 76(C)

X Calculated usmg Pump Descharge Pressure ind.cator [2CHS-Pi1539] and Pump Suct.on O

! :c Pressure. local

. C7 11.14 (R)

'X Calcttated usmg Pump Descharge Pressure Indmator [2CHSJit$33) and Pun'p Suc. tion E

Pressure local r3 C

Q.

76(O)

X Sumrr,aten of flow rates from Flow Indrcators [2CHS-Ft122A,124A.127A,130A.18*,].

Control Room, and [?CHS F1170} tocal O

1114 (R)

X Sumenaton of Dow rates from Flo-ladicators [2CHS-Ft122A.124A.127A 130A}

g and [25tS-Fi943]. Contrer Room V

7.6 (Q)

X PortaNe moratormg equspment - Fned vibraten probe 11.14 (R)

X Portable mon.tormg equrpment - Fired vibratw.m probe.

Tb 7.6 ( A)

X-Control Room ctrnputer address pcnnts for thermocouples provided for each pump end and thrust bearmg inboard Pump Beanng (T0130A). Outboard Pu np Bearmg (TQ131 A), Pump Thrust Bearmg (70106A)

$4A NA Not requared dunng refue4tr.g test Bearmg temperatwes are obtamed m i

quarter 1y test annuany.

L 7 6 (C)

X Seght glass on of reservoir, local-7 11 14 (R)

X Sight glass on of reservor tocat c

• 2

= 2 __

C E$

'bC

-. e -

-r ee

BVPS-2 IST 4

(D PUMP TESTING OtJYLRIE M'

o Pump Pump Code Dwg DM do 7-2 System: 7 Cbemical and Votumet Controt -

3 s

'E Name: 22A Boric Acid TransA Pump Number-2CHS*P22A Class: 3

~

Dwg. Coordr C-3 im Function: Chemica! Stum and Emergency Boration Sopply Type: Centrifugal Remeests-Phne

~

e m

Parameter '

20ST I

R eq'd g

h

".ms (Frequency) o e

lO 4

g N

NA HA Constant speed enduction rnotor.

m-

, tn Id E

i y O

P1 7.1(O)

X Pump Suction Precsure Inorcator [2CHS-PI123A), local 1, 7 C

O

{

3 D

AP 7.1 (O)

X Calesdsted using Pomp.%Wge Pressure ind.cator [2CHS-P1105] and Pr.p Strinn

(

Pressuru,.krat.

y Q

7.1(O)

X Flow Indicator [2CHS-Ft12Aj. Ic:st.

27 V

7.1 (O)

'X Pwtable tJorntor;rg Eqwpmert - Fired wbraten probe.

y 5

7 Tb 7.1 ( A)

X Portable monitoring equipment regurred (i e, Contact Pyrorneter) m g

=

~

=

v i

L 7.1 (O)

X Level indicata prov*ded at the constant level oder (locali on bear +ng hw j

l-r-

I m

U3 i

t l

f i

4 m

4

a D

e2_

O 5 i

-- 6 0c i

a :2 S j

,a

{

a gg3 a Y

l I

i i

l BVPS-2 IST e

?

S PUMP TESTING OUTUNE t

l$

I e

Pump Pump jCode

' Durg OM No; 7 2 l System.

• Chemcal and Volorm Controf Name: 228 Borac Acid TranMer Pump Number: 2CH S'F220 Class: 3 Dwg. Ocord : F-3 l

Function: Chemical Shem and Emergency Borate Supply Type: Centrifugal Remern s: Nece IG Q

2-0 4

z y

Parameter 2OST R eq'd Comments o

e r) 1 (Fregs ency)

=

f a

m 3

7 N

NA AIA Constant speed induct:cn rnotor l

y o

1 x

3 Pi 7.2 (O)

X Pump Suctn>n Fressues, tnomator [2CHS-Ft1238). local O

-O AP 72(O)

X Cettutated usmg Fump Discharge *ressure trwkator [2CHS-F1110} and Fur :o Sucte h

{

l Pressure, local O

Q 72(O)

X Fio* Ind,cator [2CHS-F1123B}. local I

~3 c

V

7240, X

Portable ?>orwtormg Ecwpment - Feved wbrarm prebe 1c

. 'U w

C Tb 7 2 (A)

X Fortable monatmng eqwpment rego. red (i e, Ccetact Pyromater k gg b

b L

7 2 (Os X

Level enc <shon provioed at the constant 4+v. oder ($oca4 on twarmg housang l

g I

J g

W i

l l

i i

1 1

I ii, t;

l5 i _. 5 Ice _i:

fC b$

4 ~5-l$cabj

-.= 0 t

e

i BVPS2 IST tu e

PUMP TESTING OUTLINE Pump Pump Code Dwg. OM No2 10-1 System: to Resadual Heat Removal M

e Nrme. 21A Residual Heat Removal Pump Number

• 2RHS*F2f A Class: 2

.3---

Dwg. Coord B-3 Function: Long term decay beat removal

' Type: Ventcal Remarks: See RR1 Pump is tested quarterly dunng Cold j

n t

Shutcewns and Refuete@ outages.

d 8

i Z

E l

Parameter 2OST Req'd.

Comments O

C (Frequency) m N

NA NA Constant speed ind.Jctron motcar.

e

~

=

m O

M.

'I Pi 101 (CSD.R)

X Pump Suction Pressure indicator (2RHS-P1603A]. Control Room.

j i

, 2 i

AP 10.1 (CSD R)

X Calcuuted useg Pump Discharge Pressure ind cator [2FHS-P1602A] and Pump Suctros p

I 1

Pressure. Control Room m

O Q

10.1 (CSD.R)

X Summahon of flow rates from Recercutation Une flow Indicator (2RH$FE7Al Retrarn 3

tme Flour Indmata to Cond Leg 22 [2RHS-F3605AL and Letdown 1.me Flow [2CHS-Fits 3].

[

Control Room C

)

V 101 (CSD.R) '

X Mvor equipped with vibration sensors wired to a remote locas-on outs de centarnment m

M t

Tb to1(A)

X Pemp bearbas in the dnver. Contrc* Room r.omputer address poents for b

tt arenocouples provided for motor beanngs. Upper motor beamg (T0687A).

j lower motor bearmg (T0686A)

Q L

10.1 (CSD.R)

X A4otor beanngs upper and lower - oet segM gfass -local (pump and dnver S

j bearings entegraf in swoto-).

i 4

e C

N k

• ab 7 O f 18

~oc

+2 O

c-c-

li

)ll 1

,i!l1lI

4lljjll!I g $e' h=a*

& 2r:03 Cb "

c -

z_

2 e

t<Eo -

E$x5@ <$ g Q~i

'm09m>EmO3 ]E7o Db $ Qmt 7s a 3 n

• e e O *N o $-

J t

s ta vo meR d

t lo ae C

H g

m la r

u u

d d

)

a O

s n

nS n

t P

ly o

e s

i ut e

r 1 r e eg t

eJ m

c t

t 0

r a u

1 at S

R S m

u u H

a qo p

}C t

m e

d g m

82 ne L

t e n u

7{

c A

s4 P

0 r

s t

s 6 w e

7 y

r o

d r9 S

eu d

2 o6 e

n Jl i

t f F

s v

s e a

S f

]

H e u

sT n

0 t

iR d

tm (g pd B

R m o

1 mn 2

2 L n

on nd

-0 3

ua 0

[

6 n

o pe 1

m r

r a

E P s s

r w t

sa t

t P

o o ca se p

.n n

t w e

t o

S ad o

eb m

N Ro m

R r

H

c. te d r u

t M

R d m

lo 9

oL e

d o p

t t

(

O C

e u o

r 2

n t

a o ta d

o i

eh t

m

.(

n m

g g

S S C

n r

b]a c

e o

e t r c

c w

w C

ue I

r t

a pp a

E D

D s

c eB e p s

k

}

N l

+]

r B

d n5 o

r i

oU s

0 t

I a

3 n

L6 c

fg a

a L

2 m

0 i

U e

6 i

d T

e nJ e

ms S

O es R

1. 1 r

g t

T eS r

o w

om h

s u

t d

a S

s aH g

ll

(

G ol R r i

2 H

n uR s

t a

s S

I CC M

R n

c [2 o

lob n

r e

t r

s r

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T 2

P o2 n

S 8

(

t r

V n o e

e2 e

ot r

E 1

ro g

D g Co e

B T

P a

o r

2 i

r s

t c

a a

e n

ml w

S s

d P

c h

mL o

t A

o M

H e

e c

r d a

eo9 r

r h

c o

r r

t r6 l

U R

V n

n s.

)

f l

r 6

n o vf d r P

2 c

D s o E

b nd9 ato r

g pm eC i

d eT e

t v

f r

o m

u u

mo uo r

p c

d(

r t

h eig e

e y

s r

h v d

uR p

oin pm pb t

r mm lT s

P wo t

t n

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r r l

go lot mpa ul l

i a

a uu d

nt f

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r c

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? r PN e

i n f

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p geb gg o

uo odrno pr ine C

nio ip inl p

r d

t uto r n s

t r

ot u

a t

ai uR q

e uo e s t

u e e.

r n

t t

a S

ar s lol e

b hm b g u

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p us mF t

l m

r r

r o

p ar o

n m

cs met mr e r

n t

t ew o a o

u la er u n o o

uh e

l}.g CP SbC U

Pt o Mb C

P f

p j(

m as u

P v

d l

'q A

a m

X X

X X

X X

e N

v r

R

.o ta m

e e

h R

y L

)

)

)

)

)

)

t a

y R

R.

R.

R.

R, a

c c

e e

T n D

O D

D A

D

)

H d

S e A

S S

S S

S

(

u a

m Oq N

C C

C C

2 C

l

(

(

(

(

(

u r

2 e 0

2 2

2 2

2 d

e r

1 i

t s

F 0

0 0

0 0

e g

(

1 1

1 1

1 R

no B

L re 1

2 t

n e

P pe io m

N Pi A

Q V

b L

t a

T c

r mm n

a ua u

P PN F

4 1

]

1 l<;

4 si 1ii!'

i BVPS-2 IST c,

i PUMP TESTING OUTLINE k

i Pump Pump-Code Dwg. OM No: 11-1 System-11 Safety injecte 5

27 o

{

Name: 21 A inw Head Safety injection Pump Number. 2 SIS *P21 A Class: 2 Dwg Cooeda E-2 4

Function: Low Pressure - ngh Volume Safety injection Type: Ce*drifegal Remarks: Pump is tested qua-tarty on recWata flow and E

w at fuit flow durmg Refuel ng outaoes y

8 3

Parameter 20S7 Reg'd Comments O

C

)

E s

l (Frequency)

.9 N

NA NA Constar-t speed induction motor _

-4 ca

~

r I

y o

x i

Pi 11.1to)

X Pump Suction Pressure indecator [25tS_Pt9381 local O

0x T

I 1114 4.R)

X Pump Suction Pretsure 3rdcator [258S-P!938) local.

l C

[

AP 11.1 (O)

X Calculated using Pump Discharge Pressure indecator [2$15-PG43) and Pun p Sucte O

x t

Pressure socal

'J 11.14 ;R)

X Caletalated trsmg Pump Descharge Pressure ind+cator [25tS-FtS43] and Pump Sucta E

Pressure k) cal g

i tn C

Q 11.1 (O)

X Flow trecator Switch [2 SIS-FIS70A] local i

O L

11.14 (R)

X

. Flo. Indcato, Smtch [2 SIS-FI945). Control Room 1

V 11.1 (C)

X

, Portable monitormg eqtmpment - Fned vsbrate probe f

11.14 R)

X Portable morutonng equepment - Fired vibrarson probe 1

1 t

]

Th 11 1 (A)

X Control Room computer address pomts for thermocouples provided for pump bearmgs inboard bearing (T2676AL outboard bearmg (T2677A)

NA NA Not requered durmg refueleng test-Beareng temperatures are obtamed m quarterty test armualty

.I L

11.1 (O)

X Leval ind.catron prowded at the constant sever aler (b. alt on each bearmg hous ng i

j i

7 11 14 (R)

X Level indication provided at the constant level oler (locali on each bearmg hous,ng

[

1 e

a i

"5-t O CE i

O C O O o

-m-i i

)

i I

i

~

~..

i SVPS-2 IST

=

03 o

PUMP TESTING OUTLINE Pump Pump Code Dwg. OM No; 11-1 System-11 Safety leyecten 5

I x

Name 218 Low Head Safety trq+ction Pump

Number; 2$1S-P21B Class 2 Dwg. Coord.: G-2 i-Function: Low pressure - Hegh Volume Safety snjection l Type: Centrifugal Remarks Pump is tested quaterly on ree'+culation flow and Q

d j

at futt flow durang Refuelefig ostages o

1 Parameter 20ST Req'd Commuts O

k (Frequency)'

g i

N NA NA Constant speed enduction motor.

w ra "7.)

mn 3

P4 11 2 (0)

X Pump Sucten Pressure Indicator [2StS-Pt9391 local.

O 1

x 11.14 (R)

X Pump Sucteon Pressure todmator [25tS-Ft939]. local

>g m

AP 112 (C)

X Calculated ustng Pung Discharge Pressure Indicator [25tS-F1944] and Pump Suct.on Om j

Pressure, local

]

l 11.14 (R)

X Calculated us.ng Pump D.titarge Pressure ind+cator {2StS-Pt944] and Purnp Soc.te Pressure, local.

{

to C

Q 11 2 (0)

X Flow Indicator Switch [2 SIS-Ft97081 locat I

O 11 14 (R)

X Flow Indicator Switch {25tS-Fi946). Control Roum h

i E

V t 1.2 (O)

X Portable moratormg eqwpment - F eed vabration probe S

11.14 (R)

X Portabte monitoreng equaprwrtt - Fined vibraton probe Tb 112 ( A)

X Control Room computer address pc nts for thermocouples prennded for pump 1

. bearings inboard bearmg (T2676A). outboard bearing (T2679A)

NA NA Not requered during refuelevJ test. Bearing temperatures are obtaarvA in quarterty tett annually

~

L

!? 2(0)

X Level indicate provided at the constant tevel oiler (loca4 on each bearmg hous-ng 4,

11.14 (R)

X t

Level irdcat.on provided at the constant level osier (locay on each bearing tomng

$o e

h g

O-E$_

~6C 3 3

^

-e-i i

i.

~ -.- - -

i 4

BVPS-2 IST

=

tr PUMS 'ESTING OUTLINE E

rei Pump Pump Code Dwg.OM No: 13-2 Systent 13 Contamment Deprenurerat on "i

R n

Narne: 21 A Quench Spray Pump Number-20$$-P21 A Class: 2 Dwg Coord.: A-3 6g

-4 Function: To provide borated water from the RWST to the Type: Cer.trifugal Remarks: None Contaemmmt Spray Header for contamment o

8

~*

depressurization fotlowmg a DBA.

8 Parameter I 2OST R eq'd Comments (Frequency) 3d N

NA NA Constant speed mduct.on motor.

3 O

O Pi 13.1 (O)

X Pump Suction Pressure Indicator (2OSS Pt102Al Control Room O

2>C AP t 31 (0)

X Calculated usmg Pump Discharge Pressure indeator (20SS F1101 A] and Pump Suction m

Pressure. Control Room O

m Q

13.1 (O)

X Flow in6cator [2OSS-F15101 AL locat.

2 i

g V

13.1 (O)

X Portable Morwto-eng Equepment - Feseu vibration probe r3 C

t t

=

Tb 131 ( A)

X

' Foriable mocitormg gusoment requeed (i e, Contact Pyrometer)

O L

13.1 (O)

X j tevet inecatecn provided at the constant sevel o fers tiocar) en each bearmg hous,og Q

(

s mm i

k i

(

'O

?

m C

m a=2-Q 5h t

'6c i

a 3 C

^

1 sea I

i l

i i

1

BVPS-2 IST E

?

PUMP TESTING OUTLINE x

8 Pump Pump Code Darg. OM No; 13 2 Systevrt 13 Contamment Depressurtratton 5

Name: 218 Ouench Spray Pump Number: 20SS P218 Class 2 Q

I Dwg. Coord; G-9 o

Function: To provide borated water from the RWST to the Type: Centrifugal Remark s: None.

q'",

Containment Spray Header for contaenment d

8 depressurizatron following a DBA.

[

Parameter 2OST Req'd Comments 3

h (Frequency)

-*. s.,

p N

NA NA Constant speed enduct,on motor.

3 3

O O

Pi 13 2 (O)

X' Pump Sucta Pressure Ind:cator [2 CSS-P11028}. Control Koom x>

C AP 13 2 (O)

X Calculated us.ng Pump Distarge P essure Ind<, tor [2OSS-P1101B] and Pump Suctm Pressure, Control Root.

O Q

13.2 (O)

X Flow indecator [2OSS-F45101 Bj. locat.

C V

13 2 (O)

X Por able Monetermg Equipamt - Fined vibration prets 3

C l Portable monetoring equipment requered 4 e. Contxt Pyrometer)

' b Tb 13.2 (A)

X L

13 2 (O)

X Levet endgat on p.ew at the constant sevel oders (locat) on each bearrog housng us R

e?

s __

, o_ Ct; l_a C

3 o

f r

SVPS-2 IST

=

m PUMP TESTING OUTUNE t$

?

m Pump Pump Code Dwg OM No; 13-2 System: 13 Contamment Ovessunzaten 5 -

m 6l Came: 2# Chemical hjection Pump N umber: 20SS-P24A Class. 2

'g g CM C4 Q

Function: Ch... cal infecteon to the Os,ernt. Spray Systm Type: Positive Remerta-See PR6 4

5 l

Q during Contamment depressurizatiort Displacemeet w

I o

Parameter '

20ST R eq'd Co m m ents G

z a.

i (Frequency)

^G 9,

4 N

NA MA Constant sg mducte motor.

w n

l r

i m

O

{

2 PA 13.tOA (O)

' RRs Positrve displacement rump. Suebon pressure not requwed O

i om AP 1310A (O)

RR6 Based on Pump Descharge Pressure indicator {2OSS-Fit t:AJ 64

>g i

j Q

1310A 10)

X-Flow Indicator [2OSS-FIS105A] toca!

O i

m "o

1-V 1310A (O)

X Port:51e Morwtormg Equepment.

C C

3 C

Tb 13.10A (A)

X Portable rims tormg equepment required (i e Comact Pyrometer)

r 1

R

=

1 O

j L

NA MA

' Pump beanag es grease lubricated via grease f:ttmg - rio observable iubricate tevei i

e i

m A

l l

4 l

l 1

i:'

i 1

I T

3 f

C o

.e~<

O E#_.

p 1

6C

~

a 3 o ca a

3

.n,-

g

~v-,

.w r

n

,,mr-

,---n-+-

~,

v-

~

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

BVPS-2 IST E

W PUMP TESTING OUTUNE h

2 o

Pump Pump Code Dwg, OM fts; 11-2 System. 13 Containment Depressurization 5

Name: 24B Chemical injection Pump Number: 2OSS*P248 Class: ?

Dwo. Coord; E-6

• =

-4 e

Function: Chemical injection to the Ouench Spray System l Type: Positive Remarks: See RRS.

during Containment depressurizauen.

Despiacement G ' *8

{

d z

ic Paramater 20ST Req'd Comments G

(Freq sency) m N

NA NA Constant speed irmioction motor.

-A c:

.q g

x

=

Pi 1310B (O)

RR6 Pos tive displacement pump Suction pressure not required N

1

o.

2 AP 13.108 (O)

RR6 Based on Pumo Discharge Pressure ledcator [20SS-Pt111B]. tocet

.K O

Q 1310B (O)

X Flow Indicator [20SS-FIS1058). tocal

U g

m C

V 13108(O)

X Portable Monitoring Eqwpment.

E C

t Tb 13.108 ( A)

X Portable mon:toring equipment required (i e, Contau Pyrometer).

g x

0 L

NA NA Pump bearing is grease tubricated via grease fitting - no observable tut:rication level j

8 k

I m=

?

c

^ s_

2EE 3E

BVPS-2 IST E

U)

PUMP TESTING OUTLINE h

x es Pump Pump Code Dag. OM No.: 13-1

. System: 13 Contamment Depressu statson 5

i Name: 21 A Re circulation Spray Pump Number: 2RSS-P21A Cicss: 2 Dwg. Coord.: F-2 e

a Function: Circulate containment sump water for long Type: Vert cal Remarks: See RR2. Pump is normally tested dry in Modes Q

term containment depressurization 1 through 4. and with flow durmg Refuehng outages onty, f

o Z

E Param ite r 2OST R eq'd Comments O

C (Frequency) h g

es N

NA NA Constant speed induction motor.

t O

D 3

\\

Pi 13 3 (0)

RR2 Pump run dry and stopped as soon as pump start is venfied. pump not run more h

than 60 seconds I>

20'/T 113 5 x

No permanently mstatied suction pressure gauge. Test connecnon for tocat C

(R) temporary test gauge.

]

AP 13 0 (O)

RR2 Pump run dry and stopped as soon as pump start is verified, pump not run more than 60 seconds c

2BVT 1.13 5 X

Calculated usmg Pump Discharge Pressure Ind,cator [2RSS-P1156A). Control Room.

(R) and local pressure test gauge.

Q 13 3 (O)

RR2 Pumo run dry and stopped as soon as purr.p start is verified, pump not run more h

n than 60 seconds 2BVT 1.13.5 X

Flow Indicator [2RSS-Fits 7A] Control Room r-<

(R) y)

rn V

13 3 (O)

RR2 Pump run cry and stopped as soon as pump start is verified, pumo not run more tnan 60 seconds.

2BVT ~ 13.5 X

Portable monitoring equepment Fised vibration probes on pump 75 aft (R)

Tb 13 3 (A)

RR2 Pump run dry and stopped as soon as pumo start is vertiard pump not run more than 60 seconds.

2BVT 1.13 S y

Pump and snator integral umt All pur~) beannos are esempt since located (R) in the mam flow path Control Room computer adiess pomts for thermocouples provided for motor beanng - outboard beannq fT0701 AL m

L NA NA Motor bear.ngs grease tubncated no observable level Pump has self-!ubncawf bearing - internal pump fiuid porting not observable x

^o O<

o@$

cc 3 C

_. o _.

[

g

M\\

.c e

8VPS-2 IST E

?

I PUMP TESTING OUTLINE N

en Pump Pump Code Owg. OM No.: 13-1 System: 13 Contamment Depressuratition 5

Nnme: 21B Recirculation Spray Pump Number: 2RSS*P218 Class: 2 Dwg. Coord.: E-8

-4 cc f

Function: Circulate containmerd surnp water for icng Type: Vertical Remae ks: See RR2. Pump is normally tested dry in Modes l

term containment depressurizatton 1 through 4. and with flow during Refuelmg outages only d

[

Z

E Parameter 20ST H eq'd Comments O

(Frequency) g cn j

N NA NA Constant speed induction motor.

--4 Cp j

T 1

1 n

o I

l D

3 l

o Pi 13 4 (O)

RR2 Pump run dry and stopped as soon as pump start is verified, pump not run more g

than 60 seconds I>.

2BVT 1.13 5 X

No permanently installed suction pressure ga ge. Test connection for local C

(R) temporary test gauge.

]

l AP 13 4 (O)

RR2 Pump run dry and stopped as soon as pump start is verified, pump not run more I

than 60 seconds c

P-2BVT 1.13 5 X

Calculated using Pump Discharge Pressure fndicator (2RSS-P11%B]. Control Room.

'6 (R) and local pressure test gasge.

Z Q

13 4 (O)

RR2 Pump run dry and stopr A as soon as pump start is verified, pump not run more g

u than 60 seconds.

2BVT 1J3 5 X

Flow Indicator [2RSS-Ft1578). Control F.uom g

(R) m to V

13 4 (0)

RR2 Pump run dry and stopped as soon as pump start is verified. pump not run more than 60 seconds.

2BVT 1 13.5 X

Portable twmitoring eva$.nent - Fired vibration probes on pump shaft (R)

Tb 13 4 (A)

RR2 Pump run dry and stopped as soon as pump start is verified. pump not rua more than 60 seconds 2BVT 1.13 5 X

Pump and motor integraf unit Alt pump bearings are exempt smce located (R) in the mam flow path. Control Room computer address prwnts for thermocouples provtded for moter bearing - outboard bearing (T0711 A)

L NA NA Motor bearings grease tubricated no observable level / ump has self-lubricated beare:;; - mternal pump fluid portmg not observable 2

O <o _

oe$

O C

'O g3

.o n i

c _ _ _

m l

l BVPS-2 IST PUMP TESTING OUTLINE E

5' Pump Pump Code Dwg. OM No.: 13-1 System: 13 Contamment Depressurization-1 x n

Name: 21C Recirculation Spray Pump Number: 2RSS'P21C Class: 2 5

Dwg. Coord,: E-5 0m Function: Circulate containment sump water for long Type: Vertical Remark s: See RR2. Pump is normally tested dry in Modes Q

-4 o

ferm containment depress".orization and long term core recircutation 1 through 4. and with flow dureng Refueling outages only.

d 8

Z Parameter 20ST Reg'd g

{

(Frequency)

Comments g

4 o

N NA NA Constant speed induction motor.

1 Pt 13 5 (O) l RR2 O

Pump run dry and stopped as soon as pump start es verified, pump not run more O

than 60 secor$ds x

2BVT 1 13 5 X

No permanently instaHed suction pressure gauge Test connection for tocat (R) temporary test gauge.

3 AP 13 5 (0)

RR2 m

Pump run dry and stopped as soon as pump start is verifred, pump not run more 2

than 60 seconds

?

2BVT 113 5 X

Calculated using Pump Discharge Pressure indicator [2RSS-P1156C]. Centrol Room.

m h

(R) and local pressure test gauge.

Q 13 5 (O)

RR2 Pump run dry and stopped as soon as pump start is verified, pump not run more C

than 60 seconds.

2BVT 1 13.5 X

Flow Indicator [2RSS-Fil57CJ, Control Room.

p

'(R) m" l

V 13 5 (O)

RR2 Pump run dry and stopped as soon as pump start is verified, pump not run more than 60 seconds 28VT 1.13 5 X

Portable monitoring equipment - Fixed vibration probes on pump shaft (R)

Tb 13 5 (A)

RR2 Pump run dry and stopped as soon as pump start is ver f.ed, pump not run more than 60 seconds 2BVT 1 13 5 X

Pump and motor entegraf unet. All pump bearings are exempt S 9te located (R) in the main flow path Control Rnnm computer address pants for thermocouples provided for motor bearing - outboard bearing (T0721 A) 2 L

NA fJA Motor bearmgs grease lubricated no observable level Pump has self fubricated c*

bearing - internal pump fluid porting not observable.

x M$_

O~5$

-O C

3 o

_. e _.

g m,

l DVPS.2 IST E

2' PUMP TESTING OUTLINE

D o

Pump Pump Code Dwg. OM No.: 13-1 System: 13 Containment Depressunration 5

Name: 21D Recirculation Spray Pemp Number: 2RSS P21D Class: 2 Dwg. Coord.: E-6

-4 o

Function: Circulate contamment sump water for long Type: Vertical Remarks: See RR2. Pump is normally tested dry in Modes term containment depressurization and long 1 through 4. and with flow durmg Refuehng outages only d

8

[

term core recirct:lat6on Pararneter 2OST Req'd Comment s 3

g l

(Frequency) y

-i N

NA NA Constant speed induction motor.

3 3

O O

PI 13 6 (O)

RR2 Pump run dry and stopped as soon as pump start is venfied. oump not run more m

k than 60 seconds i

2BVT 1 13.5 X

No permanently insta: led suction pressure gauge Test connection for local y

(R) temporary test gauge.

m AP 13 6 (O)

RR2 Pump run dry and stepped as soon as pump start is venf.ed. pump cot run more 2

than 60 seconds.

Em h

2BVT 1 13 5 X

Calculated usmg Pump Discharge Pressure inddator [2RSS-P1156D], Control Room.

(R) and local pressure test gauge O

Q 13 6 (O)

RR2 Pump run dry and stopped as soon as pernp start #s verified, pump not run more g

than 60 seconds.

r-28VT 1 13 5 X

Ficw indicator [2RSS-Ft157D]. Control Room M

M (R) l V

13 6 (O)

RR2 Pump run dry and stopped as soon as pu rp start is verified. pump not run enore than 60 seconds.

28VT 113 5 X

Portabfe monitoring equipment - Fned vetxat on prebes on gximp shaft (R)

Tb

' 13 6 ( A)

RR2 Pump run dry and stopped as soon as pump start is venfied. pump not run more than 60 seconds' 28VT 1 13 5 X

Pemp and motor integraf unit. Afi pump bearmgs are esempt since located (R) in the main flow path. Control Room computer address points for thermocoupies provided for motor bearing - outboard bearing (T07'1 A).

8 o*

L NA NA Motor beanngs grease lubricated no observat9e le,M Pump has self-lubricased x

bearing - internal pump fiuid portmg not obser ible UQ_

~ @O.$

C C

"2 o

_. e.

I

- a

BVPS-2 IST 2

W PUMP TESTING OUTLINE h

x n

Pump Pump Code Dwg OM No.: 15-1 System: 15 Premary Component Cooteng 5

Name: 21 A Component Coohnq Water Pump Number-2CCP P21 A Class: 3 Dwg Coord: B-4 o

Function: Provide Cooling Water to Residual Heat Type: Centrifuga!

Remarks: Hone.

8

-4 Removal Heat Exchangers and Rx Plant Components

[

^

Parameter 2OST Req'd Comments

73 g

(Frequency) d m.

)

N NA NA Constant speed induction motor.

0 I

O O

Pi 15 1 (O)

X Suction Pressure indicator {2CCP-P1150A]. local.

E>

E AP 15 1 (O)

X Calculated using Discharge Pressure todicator {2CCP-Pt145A]. Control Room, and n

Pump Suction Pressure, local h

Q t 51 (On X

Containment Coohng Water Copply Header Flow indicator {2CCP-Fit 17At(A2)]. Control Rm

[?

V 15 1 (O)

X PortatAe Monitoring Equipment - Femed vibration probe C

=

b Tb 151(A)

X Control room computer address points for thermocouples provided for Pump Bearing Oil (T0638A)

L 15 1 (O)

X Level indication provided at the cons, tant level o4!er (local) on beanng houseng Q

m (f) l l

I l

co

• J e m 3._

0190 oc

3 o

- o.

BVPS-2 IST E;

(D PUMP TESTING OUTUNE M

h x

a Pump Pump Code Dwg. OM No.: 15-1 System: 15 primary Component Cooling 5

Name: 21B Cornponent Cooling Water Pump Number: 2CCP'P21B Class: 3 d

Dwg. Coord.: F-4

-4 o

Function: Provide Cooieng Water to Residual Heat Type: Centnfugal Remarks: None.

'," ~

• i Removat Heat Exchangers and Rx Plant d

8 Components P>rameter 2OST Req'd Comments 3

c (Frequency) d c_

N NA NA Constant speed mduction motor.

3

.O_

I O O

Pi 15 2 (O)

.X.

Suction Pressure Indecator [2CCP-P1150B]. local.

' x.

2I AP 15 2 (O)

X

' Calculated using Discharge Pressure secator [2CCP-P1145B]. Control Room and

.m Pump Suction Pressure, local.

h Q

15 2 (O)

X Summation of flow rates from Contairsment Cooting Water Supply Header Flow indicator

[

3

[2CCP-Ft117Bt(B2)]. Control Room Nonregenerative Heat Exchanger Branch Flow Indicator

[2CCP-Ft103] and Seat Water Heat Exchanger Branch Flow indsator [2CCP-F1102). local 3

C V

15.2 (O)

X.

Portable Monitoring Equiprnent - Foed vibration probe.

{,

s 2

c'

_i Tb 15.2 (A)

X Control room competer address points fo-thermocouples proveded for Pump Beaeing Oss (TG648A).

r-<

L 15 2 (Oi X

Level indicat.on provided at the constant level oiler (locat) on bearing housmg m

to h

y m i'

~s-

c. E E 8E s e __

BVPS-2 IST E

m PUMP TESTING OUTLit4E E

h Pump Pump Code-Dwg. OM No.: 15-!

' System: 15 Primary Component Cooteng 5

-o I

Name: 21C Component Cooling Water Pump Numt,er: 2CCP-P21C. Class: 3 Dwg. Coord.: D4 E._

Function: Provide Cooling Water to Residual Heat Type: Centrifugal Remarks: None

-4 o

Removal Heat Exchangers and Rx Ptsnt Components d

8 j: $,

Parameter 20ST R eq'd Comments i

(Frequency)

$ g d

E N

NA NA Constant speed induction motor.

O 1

Pi 15.3 (0)

X Suction Pressure indicator [2CCP-P1150C]. local.

O m><

AP 15 3 (O)

X Calculmed using Discharge Pressure Ind cator {2F? P1145C1 Contro$ Room, and

't Pump Suction Pressure. local.

O Q

15 3 (O)

X Containment Cooiing Water Supply Header Flow Indicator [2CCP-Fi117A1(A2)]. Control Room,

[

JO summaten of flow rates from Containment Cootmg Water Supply Header Flow I

indecator [2CCP-F111781(B2)]. Control Room Nonregenerat)ve Heat Ex% anger Branch Flow 3

C

~

Indicator [2CCP-F1103] and Seal Water Heat Exchanger Branch Flow ind;cator [2CCP-F1102]. local.

V 15.3 (O)

X Portable Monetoring Equipment - Texed vibration probe zo M

Tb 15.3 ( A)

X Control room computer address points for thermocouples provided for Pump Bearmg Oil (T0658 A),

Q.

m L

15.3 (O)

X Level indication provided at the constant level ci!er (local) on bearing hous ng I

7

- 1

~iP i

s_

o. O5E C

3 o V

e-r e

. BVPS-2 IST E

?

PUMP TESTING OtJTLINE Pump Pump Code Dwg. OM No.: 24,3 System: 24 Auxiliary Feedwater.

5 2

o Name Turbine Driven Auriliary Feed Pump Number: 2FWE"P22 Class: 3 Dwg. t;oord.: E-4 Function: Provide emergency makeup to Steam Generator Type: Centrifugal Remarks: Pump is tested monthly on recirculation flow and at futt flow

-4 o

during loss of normal feedwater when in Mode 3 during startup from cold shutdowns and retuef+ng outages 8

Parameter 20ST R eq'd Comments O

Z

E (Frequer cy)

$. u)

N 24 4 (0)

X Tachometer may be provided with steam turbine depending on governor installed, loca!,

-4 u

or use portable monitoring equipment - Stroboscope-Q. g x

s 24 4 (CSD.R)

X Tachometer may be provided with steam turbine dependm; on governor instarted. locat.

Oo or use portable monitoring equipment - Stroboscope.

y Pi 24 4 (O)

X Pump Suction Pressure Indicator [2FWE-P1156], localf E

I.

m O

24 4 (CSD.R)

X

. Pump Suction Pressure Indicaior [2FWE-Pits 6). locat l

S 24 4 (O)

X l Ca!culated using Pump Discharge Pressure Indicator [2FWE-Pt155] and Pump Sucteon k

Pressure. local.

5 M

24 4 (CSD.R)

X Calculated using Pump Discharge Pressure Ind.cator [2FWE-P1155] and Pump Suct on

>. x Pressure local.

g y

Q 24 4 (O)

X Flow Indicator [2FWE-F1155] local.

24 4 CSD.R)

X m

Summation of flow rates from SG Aux FW Un; Flow Indicators [2FWE-F1100A.B.C]. Control Room t

V 24 4 (O)

X Portable morutoring equiprnent - Fim.d Cbration probe.

24 4 (CSD.R)

X Portable monitoring equipment - Fixed vibration probe.

Tb 24 4 ( A)

X Control Room computer address points for triermocouples provided for each pump end and r5 rust bearing Inbcard Pump Pearing (T2652A). Outboard Pump Bearing (T2653A). Thrust Bearing (T2404A)

NA NA Not requaed du-ing cold shutdown or refuesing test Bearing temperatures are a eta.ned m quarter!y test annually.

L 24 4 (O)

X G.ght g' ass or, oil reservoir, local.

p' n?

24 4 (CSD.R)

X Sight glass on oil reservoir, local.

• 5 ;;;-

O ?e

~-.O.c 3 o

~-

BVPS-2 IST

,E G7 PUMP TESTING OUTLINE E.. h.

Pump Pump Code Dwg. OM No : 24-3 System: 24 Auxiliary Feed a'er 5

x Name: 23A Motor Driven Auxiliary Feed Pump Number: 2FWE'P23A Class: 3 Dwg. Coord.: F-4 Function: Provide emergency makeup to Steam Generator Type Centnfugal Remarks: Pump is tested monthly on recirculation flow and

-4 o

during loss of normal feedwater at full flow during cold shutdowns and refucfmg outages d

8 Parameter 2OST Req'd Comments O

z 2

(Frequency)

$. g N

NA NA Ccnstant speed induction motor.

-e n,

~

7O ox 3

Pi 24 2 (O)

X Pump Suction Pressure indicator [2FWE-Pil56A}, local.

h x.

24 6 (CSD.R)

X Pump Suction Pressure ind!cator [2FWE-P1156A]. local 2

'I wi AP 24 2 (0)

X Calcuiated using Pump Discharge Pressere Indicator [2FWE-Pl15SA) and Pump Suction Ox Pressure, local TC 24 6 (CSD.R)

X Calculated using Pump Descharge Pressure indicator [2FWE-P1155A] and Pump Suction C

Pressure, local.

C Q

24 2 (O)

X Flow Indicator [2FWE-Ft15SAJ. locat.

o 24 6 (CSD.R)

X Sumrnation of flow raies from SG Aur FW Une Flow tr:dicatrers [2FWE-Ft100A.B.C]. Control Room h

f r-V 24 2 (0)

X Pcetable monitoring equipment - Fized vibration probe.

g i

u) 24 6 (CSD.R)

X Portable monitoring equspment - Fixed vibrahon probe Tb 24.2 (A)

X Control Room computer address points for thermocouples provided for each pump end and thrust bearing in' oard Pump Bearing (T2332A), Outboard o

Pump Be3 ring (T2333A). Thrust Bearing (T2402A)

NA NA Not required during cold shutdown or refueleng test Bearing temperatures are obtained m quarterly test annually.

1.

24 2 (O)

X Sight glass on ovi reservcir, local.

?

o 24 6 (CSD,R)

X Sight glass on oil reservoir, local

• x Mo N

• C, E$

O, 0 C -

Q3

BVPS-2 IST 3

(D PUMP TESTING OUTLINE Os m

Pump Pump Code Dwg. OM No: 24-3 System: 24 Auxiliary Feedwater 5

2 o

Hame: 23B Motor Driven Auuliary Feed Pump Number: 2fWE'P238 Clau: 3 Dw Coord: M Q'

w 2i Function: Provide emergency makeup to Steam Generator Type: Centrifugal Remarks-Pump is tested monthly on recirculation tiow and during loss of normal feedwater '

at full flow during cold shutdowns and refueling outages d

8 Z

E Parameter 2OST Req'd Comments O

.R (Frequency) g N

NA NA Constant speed induction motor.

w, c, C[.

mx Pi 24 3 (O)

X Pump Suction Pressure indicator [2FWE P11568), local O.

x 24 6 (CSD.R)

X Pump Suctico Pressure Indicator [2FWE-Pil56B] local.

h m

AP 24 3 (O)

X Calculated using Pump Discharge Pressure indacator [2FWE-P!1558] and Pump Suction Oa Pressure, local.

g 24 6 (CSD.R)

X Calculated using Pump Discharge Pressure indicater [2FWE-P1155B] and Pump Suction E

Pressure, local.

3 C

Q 24 3 (O)

X Flow Indicator [2FWE-Ft155B]. local O

M 24 6 (CSD.R)

X Summation of flow rates from SG Aux FW Une Flow Indicators [2FWE-F1100A.B.C]. Control Room.

Nk V

24 3 (O)

X Portable monitoring equipment - Fined vibration probe.

24 6 (CSD.R)

X Portable monitoring equipment - Fixed vibra.on prots Tb 24 3 (A)

X Control Room computer address pomis for thermorcupies provided for each pump end and thrust bearing inboard Pump Bearing (T2392AI. Outboard Pump Bearing (T2393A). Thrust Bearing (T2403A)

NA NA Not required during ccid shutdown or refuehng test. Bearing temperatures are obtained in quarterly test annually.

L 24 3 (O)

X Sight glass on oil reservoir, local n?

e 24 6 (CSD.R)

X Sight glass on oil reservoir, local.

o 3

i M C 1

C" $. _

R*5 SE

=. _.

BVPS-2 IST E

m h

PUMP TESTING OUTLINE m

M o

Pump Pump Code Dwg. OM No.: 30-1 System: 30 Service Wate-5 Name: 21 A Service Water Pump Number: 2SWS*P21 A Class: 3 Dwg. Coord : C-2

-4 e)

Function: Provide cooling w_:.w to Recirculation Type: Vertical Remarks: See RR3 8

Spray Heat Exchangers and Reactor Plant components under normal and

[

emergency conditions

-Gi

$2 Parameter 20ST Req'd Comments

.-4 Si 6'

(Fe equency) mx 3

O N

NA NA Constant speed induction motor.

O D

Pi 30 2 (O)

RR3 No installed instrumentation to measure suction pressure Calculate Pa using Urut h

f No.1 Ohio River intake Water Level Indicator [LR-1CW-101]. local.

l y

O AP 30 2 (O)

X Calculated using Pump Discharge Pressure Indicator [2SWS-P1101 A] focal, and intake x

j Water Level.

7C I

Q 30.2 (O)

X Portable Flow indicator [2SWS-FIT 100]. locat.

K I

3 C

I n

l V

30 2 (O)

X Portable Monitoring Equipment.

2 l

6 Tb 30 2 ( A)

X Pump and motor vertically mounted unit Pump shaft bearings enern" since located r

withsn main flow path. Control Room computer address poi.its for th..nocouples provided for rnofor upper guide bearing (T0751 A). thrust bearing (T0752A) g L

30 2 (O)

X Upper motor bearing ont level sight glass. bottom motor bearing grease lubricated, bottom pump bearir g grease lubricated and seated at factory Shaft bearing

' freshwater lubricated and can be observed with Supply Dressure Indicator [25WS-Pit 05A]. local.

t:a C

G N oIy OOfw C

3 o

-a-

)

BVPS 2 IST O

c)

PUMP TESTING OUTLINE Oi rn Pump l Number:

x e

Pump Code Dwg. OM No.: 30-1 System:. 30 Service Water 5

Name: 218 Service Wat.3r Pump 2SWS*P210 Class: 3 Dwg. Coord.: D-2 m.

. k

~4 m-Function: Provid3 cooling water to Recirculation

- Type: Vertical Remarks: See RR3.

Spray Heat Exchangers and Reactor d

8 Plant cornponents under normal and Z

-k amergency conditions g

-05 9

Parameter i 20ST R=q'd Comments (Frequency) d y

o N

NA NA Constant speed induction motor.

O Ox Pi 30.3 (0)

RR3 N9 installed mstrumentabon to measure suction pressure Calculate Pi using Unit No. ' Oheo River intake Water Level indicator [LR tCW-101]. local AP 30.3 (O)

X Calculated using Pump Discharge Pressure indicator [2SWS-P1101B]. locat, and intake O-

.x Water Level "O

C Q

30 3 (O)

X Portable Flow indicator [2SWS-FITt00S}. tccal K

3 C

V 30310)

X Portable Monitoring Equipment y

o Tb 30 3 (A)

X Pump and motor vertically mounted urut Pump shaft twarings exempt since located within main flew path. Control Room computer address points for thermocouples provided for motor, upper guide bearing (T076tA). thrust bearing (T0762A)

Q m

L 30.3 (O)

X Upper motor bearing oil level sight glass, bottom motor bearing grease lubricated.

bottom pump bearing grease lubricated and sealed at factory. Shaft bearing freshwater lubricated and can be observed with Supply Pressure Indicator [2SWS-P11058), local

?

'8m#

a S.-

O r$

oc a :3 O

- c3.

r

BVPS-2 IST 2

m h

PUMP TESTING OUTLINE m

D

'o Pump Pump Code Dwg. OM No.: 30-1 lF stem: 30 Service Water 5

1 Name: - 21C Service Water Pump Number: 2SWS*P2?C Class: 3

]

Dwg. Coord.: G2 Function: Provide cooling water to Recirculation j'hpe: Vertical Renwks: Se RR3, a

o Spray Heat Exchangers and Reactor d

8 Plant components under normal and Z

emergency conditions g

2 Parameter 20ST R eq'd Comments

-4..

• vs (Frequency) m o

x 3

N NA NA Constant speed induction motor.

O O

R Pi 30 6 (O)

RR3 No installed instrumentation to measure suction pressure Calculate Pi using Unit No.1 Ohio River intake Water Level Indicator (LR-1CW-101]. local.

[

AP 30 6 (O)

X Calculated using Pump Discharge Pressure indecato- [2SWS-P1101C). local. and intake O'

x

' Water Level

'J C

Q 30 6 (O)

X Portable Flow indicator [2SWS-F(T100(S)]. local E

C V

30 6 (0)

X Portable Monitortng Equipment.

2 7o m

Tb 30 6 (A)

X Pump and motor vertically mounted unit. Pump shaft bearings enempt since located

[

withm main flow pa!h Control Room computer address poents for thermocouples provided for motor, upper guide bearing 60771 A), thrust bearing (T0772A)

Q m

tn L

30.6 (0)

'X Upper motor bearing osi level sight glass. bottom motor bearing grease tubricated.

bottom pump bearing grease lubricated and seaied at factory. Shaft bearing freshwater lubricated and can be observed with Supply Pressure indicator [25WS-P1105C]. locat e.:

tt2 S-O ?E oc

'3 f3

-e-4

BVPS-2 IST

,~

tn PUMP TESTING OUTLINE M'-

o D

o Pump Pump Code Dwg. OM No.: 36-1 System: 36 Diesci Fuel Oil System 5.

Name: 21 A Fuei Oil Transfer Pump Number: 2EGF*P21A Class: 3 Dwg. Coord.: F-3 m

o Function: Transfer Fuel from underground storage Type: Vertical Remarks: See RR4 and RRS Pump is normally tested be-monthly..

tank to the day tank d

8 Z

lE Parameter 2OST Req'd Comments O

(Frequency) co N

NA NA Constant speed induction motor.

-4 su 2

0 2'

Pi 36.1 (O)

RRS No suction pressure indscation provided Suction pressure will remain almost constant h

22 AP 36.1 (O)

RR5 Based on pump Discharge Pressure indicator [2ECF-Pt201 A]. local K

nO Q

36.1 (O)

RR4 No instrumentation provided for flow - Level change over time in the day tank will be measured a

using Level Gauge [2ECF*LC201), local. and converted to flowrate y

V 36 1 (O)

X Portable Monitoring Equipment Fixed vibration probe.

(

9

=

Tb NA E

Pump bearings located within main flow path (IWP-4310).

O L

NA NA Self-lubricated bearings, internal pumped fluid lubrication hk m

M Os e

W o M $~

Q?$

38 s e _.

I BVPS.2 IST E

?

PUMP TESTING OUTUNE D

o Pump Pump Code Dwg. OM No.: 36-1 System: 36 Diesef Fuel Oil System 5

Pdame: 218 Fuel Oil Transfer Pump Number: 2EGF P218 Class: 3 Q

m Dwg. Coord.: E-3

=

-4 o

Function: Transfer Fuel from underground storage Type: Ver tical Remarks: See RR4 and RR5 Pump is normally tested bi-monthly.

tank to the day tank d

A Z

E Parameter 2OST Req'd Comments O

(Frequency) g N

NA NA Constant speed induction motor.

~-A w

r o

O m

3 Pi 36 1 (O)

RR5 No suction pressure ind cation provided Suctton pressure will remain almost e.onstant hx p

AP 36.1 (O)

RR5 Based on pump Discharge Pressure indicator [2EGF-Pt201B] focal s

m O

Q 36.1 (O)

RR4 No instrumentation provided for flow - Level change over time an the day tank wi!I t*.e measured I

using Level Guage [2EGF LC201]. local, and converted to flowrate y

V 36.1 (O)

X Portable Monitoring Equipment - Fixed vibration probe

(

v>

C 3

Tb NA E

Pump bearings located within main flow path (IWP-4310)

O L

NA NA Self-lubricated bearengs, internal pomped fluid lubrication h

r-<m CD h

ao Ww3_

O_ * $

O Co 33.o

BVPS-2 IST E

W PUMP TESTING OUTLINE h

Pump Pump Code Dwg OM No.: 36-1 System: 36 Diesel Fuel Oil System 5x o

Name: 21C fuel Oil Transfer Pump Number: 2EGF* P21C Class: 3 Dwg. Coord.: F-8 Function: Transfer Fuel from underground storage Type: Vertical Remark s: See RR4 and RR5 Pump is normally tested bi-roonthly.

-4 o

tank to the day tank d

8 Parameter 2OST Req'd Comments O,

Z 4

(Frequency) us N

NA NA Constant speed induction motor.

--4 n,=

7 O

x 3

Pi 36 2 (O)

RRS No suction pressure indication provided Suction pressure will remain atmost constant h'

x AP 36 2 (O)

RR5 Based on pump Discharge Pressure indicator [2EGF-P!201C]. loca!.

>s'.

n Q

38.2(O)

RR4 No Instrumentation provided for flow - Level change over time in the day tank will be measured Ox using Level Gauge {2EGF*LG202]. local, and converted to flowrate g

y V

36.2 (O)

X Portab!e Monitoring Equipment - Fixed vibration probe

(

?

w Tb NA E

Pump bearings located within rnain flow path (IWP-4310) 5 O

L NA

'NA S*ff-lubricated bearmgs, internal pumped fluid lubrication h

s-rT1 m

2 u"

4 u<

O_ 0

$ c

-s 3 o

- m-

DVPS 2 IST O

(D PUMP TESTING OUTLINE.

Oi m

Pump Pump Code Dwg. OM No 36-1 System: 3S Diesel Fuel Ott System 5

m o.

Name: 21D Fuel Oil Transfer Pump Number: 2EGF P210 Class: 3 Dwg. Coord.: E-8 Function: Transfer Fuel fiom underground storage Type:. Vertecal Remarks: See RR4 and RRS Pumo is normativ tested bs-monthly.

~4 -. o

$. *8 tank to the day tank

~$

Parameter 20ST Req'd Commeris Z

E (Frequency)

O

^

Gi

$2 N

NA NA Constant speed induction motor.

-4 es

~

'[

O s

a 1

2 3

Pi 36 2 (O)

RR5 No suction pressure indication provided Suction pressure will remain aimost constar t h

m AP 56 2 (0)

RR5 Based on pump Discharge Pressure Indicator [2EGF-P12010), local.

K n

Q 36 2 (O)

RR4 No instrumentation provided for flow - Level r.hange over time in the day tank will be measured O

W using Level Gauge [2EGF LG202]. local, and convertG.o i.owrate.

y V

36 2 (O)

X Portable Monitoring Equepment - Fixed vibration probe.

E' S>

C Tb NA E

Fump bearings located with n main flow path (fWP 4310).

s

• g:

oc n L

NA NA Self-lubricated bearings, internal pumped fluid lubrication.

I r-mm 4

O -

b CJ s-o?$

._ 8 8 s s _.

1 v -. - - - - -

Boaver Valley Power Station Unit 2 Issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 36 of 191 SECTION lil:

PUMP TESTING RELIEF REQUESTS 1

1 I

Beaver Valley Power Station -

Unit 2

-issue 1 Revision 9

-lNSERVICE TESTING (!ST) PROGRAM FOR PUMPS AND VALVES Page 37 of 191 RELIEF REQUEST 1

Pump Mark No(s).:

2RHS'P21 A 2RHS* P21i3 Code Test Requirement:

Quarterly pump lasting.

Basis for Relief:

These pumps are rot required to be run at power or fulfill aity safety function to mitigate a design basis accident, Possible overheating of the pumps could occur during pump testing on recirculation only and could' compromise the system integrity. The system has no associated surge tank and the only available expansion protection is the system relief valve. Test personnel would have to make a containment entry to properly rnonitor pump operation.

Alternate Test:

These pumps wi'l be tested quarterly during cold shutdownt, and refueling outages per 20ST 10.1 and 10.2.

l Beaver Valley Power St6 tion Unit 2 issue 1 Revision 9 INSERVICE TESitNG (IST) PROGRANt FOR PUMPS AND VALVES Page 38 of 191 RELIEF REQUEST 2

Pump Mark No(s),:

2RSS* P21 A 2RSS*P21C 2RSS

• P218 2RSS*P210 Code Test Requirement:

Quarterly pump tests.

Basis for Relief:

The function of these pumps is to take suction on the containment sump and discharge 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 sateguards 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 front 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 the length of a plant shutdown due to the extensive preparatory work required to properly install the dike, Alternate Test:

Dry run quarterly per 20ST-13.3,13.4,13.5, and 13.6 for not more than 60 seconds and stopped as soon as pump start is verified. Also, run on test line recirculation per 2BVT L13.5 riurinD Refueling Outages.

D

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE T; STING (IST) PROGRAM FOR PUMPS AND VALVES Page 39 of 191 RELIEF REQUEST 3

Pump Mark No(s).:

2SWS' P21 A 25WS'P210 2SWS* P21C Code Test Requirement:

Measurement of pump suction pressure before pump startup End during test.

Basis for Relief:

No i.. stalled instrumentation exists to measure suction pressure for these pumps, therefore, relief is requested from this requirement.

Alternate Test:

The static head of the Ohio River water level will be used to calculate suction pressure, once per test per 20ST-30.2, 30.3 and 30.6.

RELIEF REQUEST

-4 Pump Mark No(s).:

2EGF*P21 A 2EGF'P218 2EGF* P21C 2EGF'P21D Code Test Requirement:

Flow rate shall be measured using a rate or quantity meter installed in the pump test circuit.

Basis for Relief:

There is no instatied instrumentation providea to measure flow rate for these pumps, therefore, relief is requested from this requirement.

Alterrtate Test:

Flow rate will be calculated by measuring the level change over time of the diesel fuel oil day tank and converting this data to die ci fuel oil transfer pump flow rate per 20ST-2.36.1 and 36.2.

Beaver Valley Power Station Unit a issue i Pevision 9

. INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVEN Page 40 of 191

- RELIEF REQUEST -

5 Pump Mark No(s).:

2EGF' P21 A -

2EGF'P21B 2EG F'P21C 2EG F'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 measure suction pressure for these pumps. Suction pressure is dependent on the level in the diesel generator fuel oil storage tank. Due to the minimum technical specification level permitted in 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 rernain 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 20ST 36.1 and 36.2.

RELIEF REQUEST 6

Pump Mark No(s).:

2OSS'P24 A 2OSS

• P24B Code Test Requirement:

Measure pump suction pressure, AP and flow, Basis for Relief:

The function of these pumps is to provide a NaOH water so!ution to the suction of the quench spray pumps during an accident. Since these pumps are rotary positive displacement pumps, flow rate and differential pressure are independent variables.

Unlike centrifugal style pumps, it is not necessary to measure both parameters to assess the hydraulic performance of these pumps.

Alternate Test:

Pump discharge pressure (at greater than or equal to the pressure at which the pumps are required to perform their safety function and flow rate will be utilized for evaluating pump performance in 2OST-13.10A and 20ST-13.108.

Beaver VaHey Power Station.

Unit 2 issue 9 Revision 9 INSERVICE 1ESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 41 of 191 SECTION IV:

'/ALVE TESTING REQUIREMENTS

-- -- - -. ~. - -.

Beaver Valley Power Station Unit 2 Issue t Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page.Q of 101 The Inservice Test (IST) Program for valves at Beaver Valley Power Station (BVPS), Umt 2, is based on subsection IWV Inservice Testing of Valves of the ASME Boiler and Pressure Vessei Code,Section XI,1983 edition through the summer 1983 addenda (the code) and Generic Letter No. 89-04, " Guidance on Developing Acceptable Inservice Testing Programs" 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 shutting down the reactor to cold shutdown or in mitigatmg the consequences of an accident" at BVPS, Umt 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 mconsequential for fulfillment cf their 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. 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.

Tne time to full-stroke exercise each power operated valve will also be measured and compared to a limiting s.troke time. Full-stroke time is that time interval from initiation of the actuating signal to the end of the actuating cycle. The stroke Mme of all power-operated valves shall be measured to at least the nearest second, for stroke times 10 seconds or less, or 10% of the specified limiting stroke time for full-stroke times longer than 10 seconds, 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 mdicators, in addition, valves with remote position indicators will be observed at lesst once every 2 years (normally at refueti_ngs) to verify that valve operation is accurately indicated.

Exception is taken to part stroke timing motor operated valves, unless specifically stated. This is necessary because the (notor-operated valve ekcuitry 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, E

or temperature), which reflect stem or disk position.

All valves with fail-safe actuators (ie. Air-Operated Valves) that are applicable to this program are tested from the Control Room by the remote operating switch. By placing the control switch to the closed position, or de-energizing the control power, air is vented off of the valve actuator thus positioning the valve m the fail-Safe position.

4

~. -

Beaver Valley Power Station Unit -2 issue 1 Revision 9

-lNSERVICE TESTING (IST) PROGRAM FOR PUMPS'AND VALVES Page 43 of 191 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. 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 of valve stem or disk position or exceeds its specif#ed ASME limiting value of fulbstroke 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 t?e applicable system technical specification action statements must be followed.

c.

Corrective action (ie., MWR) shall be initiated immediately for the valve's repair or replacement.

d.

Nothing in the ASME Soiler 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 shall be declared inoperabie per ASME.

3.

When a valve or its control system has been repixed 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 replacements repair, or rnaintenance, are within acceptable limits. Examples of maintenance that could affect valve performance parameters are adjustment of stem packing, removal of the bonnet, Ltem 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.

Beaver Valley Power Station Unit 2 issue t Revision 9 INSERvlCE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Page 44 of -191

5. 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.

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 wiH be repaired or replaced.

B. Category C valves are valves which are self actuating in response to some system characteristic, such as pressure (relief valves) or flow direction (check valves).

Category C valves are divided into two groups; safety or relief valves and check valves.

Safety and relief valves are setpoint tested in accordance with ASME PTC 25.3-1976 at least once every five (5) years, with a portion of the valves from each system included in the IST Program tested durmg each refueling outage, if any valves fail the setpoint test, additional valves from that system must be tested in accordance with Table IWV-3510-1. If a safety or relief valve fails to function properly during a test, it will be repaired or replace <1.

Check valves will be exercised to the position required to fulfill their function every three nionths, unluss such operation is not practical during plant operation 11 only limited operation is practical during plant operation, the check valve will be part stroke exercised at power and full-stroke exercised overy cold shutdown, not to exceed more than once every three months. Check valves that are normally open during plant operation and whose function is to prevent reversed flow shall be tested in a manner that proves that the disk travels to the seat promptly on cessation or reversal of flow.

Check valves that are normally closed during plant operation and whose function is to open on reversal of pressure differential shall be tested by proving that ; a disk moves promptly away from the seat when the closing pressure differential is removed and flow through the valve is initiated, or when a mechanical opening force is applied to the disk.

If a check valve fails to exhibit the required change c' sk position by this testing, then the check valve shall be declared inoperable immediately and an evaluation of the check valve's condition with recpect to system operability and technical specifications shall be made as fc! ows:

1.

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

2-If the inoperable check valve is in a system covered by a technical scecification, an assessment of its condition must be made to determine if it makes the system inoperable, if the condition of the check valve renders the system inoperable, then the applicable system technical specification action statements must be followed.

3.

Corrective action (ie., MWR) shall be initiated immediately for the check valve's repair or replacement.

4.

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

Beaver Valtcy Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 15 of 191 5.

If the check valve is not covered by any technical specific ans ano 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 to service after corrective action, a retest showing acceptable operati]n 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 L

'0-1' INSERVICE TEST Qb MTITIES (1)

.l Category velve Leak Tert Exercase Special Function Procedure Test Test (IWV4100)

Procedure procedure A

Active IWv4470 IWV4413 kone A

Pass,ve IWV4420 None None B

Actsve None IWV44 80 None C $afety Active None IWV4510 None

& Relief C-Check Active None IWV4520 None O

Active None None IWV4600 NO7E:

(1)140 tests required for Category B. C and D pamve vatves 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 except where remote position verification is required.

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, temperature or flow regulating valves);

3.

Valves used only for maintenance; and 4.

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

Records of the results of inservice tests and corrective actions as required by subsection j

IWV-6000 are maintained in tabular form. Stroke times of valves will be reviewed for developing trends,

Beaver Valley Power Station Unit 2 luue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VAlds Page 46 of 191 if a question on valve testabil ty exists, the IST program should be the cont'olhng document since each component is individually assessed f ar testatuhty and mclusion m the IST Progrant if a valve is specifically ca, led out m the Tech Specs (ie-, specibe valve

(

mark number or uniquely bperihed b/ salve nomenclature) to be testeJ at one frequenc y j

and the IST Program enc' des another aequency, then the more reurictive test troquency a

would be applicable.

P 2

The following three sections of this document are the " Valve Testmg Outhnes", " Cold f

Shutdown Justehrahens' and " Valve Rehef Requests" sec tions.

A The " Valve Testing OutImes" sechon is a hsting of all the valves in the IST Program,

(

sheir class category, site, type, NS A, drawing number and coordmates, testmo requirements, specific cold bhutdown justification ref arence numbers, rehef request reference nutubuts, and test procedure numbers and comments.

1 Tha valve class will be 1,2 or 3 corresponding to the safety classihcahons.

P '

2, The category of the valve w611 be A, B, C or D in accordance with the guidehnes of subsection IWV-2200. In addition, combinahons of categorms may be utihred If i

i the valve is not required to change position during an actident or brmg the i

reactor down to a cold shutdown condition, the f act that it is Passive (P) wiil also be indicated For example, a containment isolation e, heck valve that does not change position would be a category A/C/P valve From the valve mark number given, the valve actuator can be determined from the hst of abbreviabons below.

AOV - Air Operated valve FCV Flow Control Valve HCV Hand Control Valve HYV Hydrauhc Valve LCV - Levei Control Valve MOD - Motor Operated Damper MOV - Motor Operated Valve PCV Pressure Control Valve E,

RV. r pijef yajyo SOV Solenoid Operatc>d Valve SV - Rafety Valve OMP Damper (Manual) 3.

ThIt normal systera vtangement will be 1".ted using the abbreviations below:

NSA Normal System Arrangement l~

0 Open S Shut A Automatic T Throttled LO - Locked Open LS - Locked Shut SS - Sealed Shut 4.

The drawing number and coordinates will ne the ones used in the Operating

Manual,

' ' ~ ' ' ' ~ ~ " " ~

Geaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE TESTING (IST) PROC 4AM FOR PUMPS AND VALVES Page 47 of 191

5. The test requirements will be listed using the abbreviations below:

OS - Quarterly Stroke QST - Quarterly Stroke & Time LT Leak Rate Test SPT 2 Set Point Test LM Leakage Monitoring POS Position Verification NA Not Applicable

6. The specific Cold Shutdown Justification (CSJ) reference number or the Relief Request (PR) reference number will be listed.

7.

The specific test procedure number. frequency, type of testing, and any comments will be listed using tho abbreviations below:

20M Operating Manual (Unit 2) 2BVT - Deaver Valley Test (Unit 2) 20ST Operating Surveillance Test (Unit 2)

CMP Corrective Maintenance Procedure i

CSD Cold Shutdown Frequency R Refueling frequency SA Somiannually Frequency O - Quarterly Frequency M Monthly Frequency FS Full Stroko PS Partial Stroke FD Forward Direction RD Reverso Direction RPV Remote Position Verification normally at Refueling

[

B. The " Cold Shutdown Justification" section contains the detailed technical description of conditions prohibiting the required testing of safety related valves and in alternate test method to be performed during cold shutdowns, Cold Shutdown valve testing will commence within 48 hours5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> of reaching cold shutdown conditions, but need not be completed more often than once every 92 days. Attempts will b0 made to complete

- testing prior to entering Mode 4. However. completion will not be a Mode t

~

requirement, The testing will resume where left off when next entering Mode S. For

(

planned cold shutdowns, where amplo time is available to complete testing on all valves identified for the cold shutdown test frequency, exceptions to the 48 hour5.555556e-4 days <br />0.0133 hours <br />7.936508e-5 weeks <br />1.8264e-5 months <br /> requirement can be taken, Beaver Valley Unit 2 reactor containment is maintained subatmospheric as required by_

technical specifications, The subatmospheric condition presents a hazardous working environment for station personnel and is considered inaccessible for surveillance i

testing. Surveillance testing that requires reactor containment entry will be performed at cold shutdown and refueling.

C. The " Valve Relief Requests

• section contains the detailed technical description of-conditions prohibiting the required testing of safety related valves, an alternate test method and frequency of revised testing.

. ~ _ _ _ _. -,

Deaver Valley Power Stat!on Unit 2 It,$ue 1 Revision 9 INSERVICE TESTING (IST) FROGRAM FOR PUMPS AND VALVES Page 48 of 191 SECTION V:

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SYSTEM NAME: Pnmary Component Cootmg Water U)

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Deaver Vatity Power Station Unit 2 issue i R evassori 9 INSERVICE TESTING (IST) PROGR AM FOR PUMPS AND VALVES Page 120 of 131 SECTION VI:

VALVE TESTING COLD SHUTDOWH JUSTIFICATIONS

Beaver Valley Power StMon Unit 2 issue i Revision 9 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VALVES Pa0e 121 of 191 COLD SHUTDOWN JUSTlFICATION 1

Valve No.:

2RCS *CB Category A/C Class _2 Function:

Insido containment isolation check valve on the nitrogen supply to the Pressurizer Relief Tank (2RCS TK22].

Test Requirement:

Quarterly full stroke Basis for CSJ:

Valve is normally closed and is opened during nitrogen snakeup to the Pressurizer Relief Tank..c rSty position is closed for containment isolation. Full strow,ng can only be verified by cycling the weight loaded arm or by leak testing. Because this valve is located inside containment, it is not accessible during norrml operation.

Alternate Test:

Full stroke exercised closed by mechanical i

exerciser during cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTIFICATION 2

Valve No.:

2RCS*72 Category A/C Class 2

Function:

Inside containment isolation check valve on the primary Orade water supply to the Pressurizer Relief Tank

[2RCS TK22]

Test Requirement:

Quarterly full stroko Basis for CSJ:

Valve is normally closed and is opened during primary grade water makeup to the Pressurizer Reliel Tank, Safety position is closed for containtncnt isolation. Full stroking can only be verified by cycling th9 weight loaded arm or by leak testing. Because this valve is located inside containment, it is not accessible during normal operation.

Alternate Test:

Full stroke exercised closed by mechanical exerciser during cold shutdown per 20ST 1.10.

Deaver Valley Power Stabon Unit 2 tssue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVEF Page 122 of 191 COLD SHUTDOWN JUSTlFICATION d_

Valve No.:

2SWS*57 2SWS*50 2SWS'59 2SWS* 106 2SWS

• 107 Category C

Class 3__

Function:

Service water pumps discharge and header check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

These valves are open during normal plant operation, but full stroke excerising them in the forward direction cannot be performed because normal plant operalmg loads do not always support enough service water system flow to develop the required accident flowrate needed to full stroke exercise the check valves m the open direction. Full stroking of these check valves can only be accomphshed by aligning the service water system through additional flowpaths which are only used for accident conditions and through additional heat exchan0ers not normally in service. The additional flowpaths and heat exchangers are maintained isolated for biota control to prevent fouling, Placing flow throu0h these additional flowpaths and heat exchangers during quarterly testing could increase the potential for fouling thereby degrading this part of the service water system and reducing its reliability in meeting the required flowrates during an accident, Alternate Test:

Partial stroke exercised open quarterly per 20ST 30.2(3)(6).

Full stroke exercised open at cold shutdown per 20ST 30.2(3)t6).

If cold shutdown coincides with refueling, then full stroke exercised at refueling per 20ST 30.13.

l Beaver Valley Power Station Unit 2 hsue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 123 of 191 J

COLD SHUTDOWN JUSTlFICATION 4

Valve No.:

2RCS*PCV455C 2RCS*PCV455D 2RCS'PCV456 Category,_J Class i

Function:

Pressurizer Power Operated Relief Valves Test Requirement:

Ouarterly fu!! :;troke and tima Basin for CSJ:

Valves are normally closed. The safety function is to -

provide ovmpressure protection for the Reactor Coolant System Since these valves have shown a high probability of failing open, cycling during normal operation is not practical. In addition, safety Orada over pressure protection at power is provided by the pressurizer code safety valves Alternate Test:

Full stroke exercised and timod open at cold shutdown per 20ST-6.8.

COLD SHUTDOWN JUSTIFICATION 5

Valve No.:

2CHS*31 Category A/C Class 2

Function:

Charging header inside containment isolation check valve Test Requirement:

Quarterly full stroke Basis for CSJ:

This valve is normally open, but is required to be closed for containment isolation. Full stroking can only be verified by cycling the weight loaded arm, Since the valve is located inside containment, it is not accessible during normal operation.

Alternate Test:

Full stroke exercised closed by n'echanical exerciser during cold shutdown per 20ST 1.10.

D

. - - - -- ~

Beaver Valley Power Station Unit 2 ist.ue i Revision 9 i INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 121 of 191 COLD SHUTDOWN JUSTlFICATION ___6_,,

Valve No.:

2CHS

• LCV115C 2CHS*LCV115E Category.

O_

Class 2

)

Function:

Volume Control Tank [?CHS'TK22] outlet isolation valves 1

Ter.t Requirement:

Quarterly ful! stroke and (ime Basis for CSJ:

These valvos are normally open during power operation, Safety function is to isolato the VCT from the High Head Safety injection Systern. Closin0 this valve during normal operation would isolato the suction the char 0ing purnps.

- causin0 pump damage and loss of,sessuriter level control.

Alternate Test:

Futt stroko exercised and timed closed at cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTlFICATION 7

Valve No.:

2CHS

• 84 2CHS* 136 2CHS* 141 Category C

Class _J.3

)

i Function:

Emergency and alternate boration line check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

These valves are normally closed during power operation, and -

are required to open for emergency and alternate emergency boration. Exercising these valves during normal operation would result in concentrated Doric Acid being injected into the RCS. causing an undesired negativo reactivity addition resulting in a reduction in plant power.

Alternate Test:

Full stroke exercised open during cold shutdown per 20ST-7.13.

~v r,,-

w

Beaver Valley Power Station Unit 2

($ sue 1 Revn,lon 9 INSERVICE TESTING (ISTi PROGRAM FGR PUMPS AND VALVES Page 125 of 191 COLD SHUTDOWN JUSTIFICAT10N 8

Valve No.:

2CHS*AOV204 Category A

Class _?

Function:

Letdown isolation outside containment isoletion valve Test Requirement:

Quarterly full ritroke and tirne Dasis for CSJ:

Valvo is nornully open Safety function is to close for containment isolation on a receipt of a CIA signal. Strokin0 this valve at power will result in a thermal shock to the Regenerative Heat ExchanDer and associated component pipino resulting in an increased prObabihty of system and component failure, in addition, failure of this valve in the closed position will cause loss of pressurtter level control which will result in plant shutdown.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTIFICATION 9

Valve No.:

2CHS*MOV289 Category A

Class 2

Function:

Normal charging systern makeup outside containment isolation valve Test Require t:

Quarterly full stroke and timo Basis for CSJ:

Valve is normally open. Safety function is to close on l

receipt of an Si signal.- Stroking this valve at power will result in a thermal shock to the Re0enerative Heat Exchanger and associated component piping resulting in an increased probability of system and component failure, in addition, 7

failure of this valve in the closed position will cause loss of pressurizer level control which will result in plant shutdown.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 20ST-1.10.

Bc,ver Valley Power Station Unit 2 Issue i Rowseon 9 INSERVICE TESTING (Ish PROGRAM FOR PUMPS AND VALVES Paga 120 of 191 COLD 5HUTDOWN JUSTIFICATION 10,,_

Valve No.:

2CHS* MOV30S A 2CHS*MOV308B 2CHS*MOV308C Category

'A Class _L Function:

Reactor Coolant Pumps seal water supply outside containment isolation vanes Test Requirement:

Quarterly full stroke and time Basis for CSJ:

These valveu are open during normal plant operation but are required to be closed for containment penotration isolation. Exercising these valvoA at power would secure RCP seal injection and cause sea! damage. Failure in the closeo position durmy testing will ter. ult in plant shutdown Afternate Test:

Full stroke exercised and timod closed a' cold shutdown por 20ST 1.10.

COLD SHUTDOWN JUSTIFICATt0N._ 11 Valve No.:

2CHS'MOV310 Category B._,

Class _.]

Function:

Regenerativo Heat Exchanger outlet isolatior, valve Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Valvo is normally open. Safety function is to close on receipt of an S! signal, Stroking this valve during normal operation will result in a thermal shock to the Regenerative _ Heat Exchanger and associated pipin0 resulting in an mcreased probability of system and component failutt.

In addition, failure of this valve in ;ho closed position will cause less of pressurizer level control which will result in plant shutdown.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 205T-1.10.

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Beaver Valley Power Station Unit i Issue 1 Revapon 9 INSERVICE TESTING (107) PROGRAM FOR PUMPS AND VALVES Page 127 of 191 COLD SHUTDOWN JUSTIFICATlON 12.,_

Valve No.:

2CHS*MOV373 Category 0

Class

_ 2_ _.

Function:

CharginD Pump recirculation isolation valvo Test Requirement:

Quarterly full stroke and timo l

Basir for CSJ:

Valvo is normally open. Safety function is to close on l

a safety injection signal. This valve cannot be full stroked during normal oper ation because failure in the closed position would isolate charging purnp minimum flew to the VCT, which could result m damage to the charging pump.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTIFICATION 13 _

Valve No.:

2CHS*MOV378 2CHS*MOV381 Category A

Class _2 Function:

Reactor Coolant Pumps seal water return inside and outside containment isolshon valves Test Requiremnrit:

Quarterly full stroke and time Basis for C2J:

Valves are normally cpen. Safety function is to close for containment isolation on receipt of a CIA signal, Exercising these valves at power would secure RCP seal return which could cause seal damage. Failure of these valves in the closed position will result in plant shutdown.

Alternate Teet:

Full stroke exercised and timari closed at cold shutdown per 20ST ',10.

l-

Beaver Valley Power Station Urit 2 Inue 1 Revnaon 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Page 128 of 191

~4 COLD SHUTDOWN JUSTlFICATION 14 _

Valve No.:

2CHS*LCV460A 2CHS'LCV4608 Category,_R__

Class 1

Function:

Letdown inside containment isolation valves Test Requirement:

Quarterly fuli stroke and time Basis for CSJ:

Valves are normally open. Strokmg these valves during normal operation will result in a thermal shock to the Regenerative Heat Exchan0er and associated pipmg resultmg in an increased probability of system and component failure.

In addition, failure of these valves in the closed position will cause loss of pressuriter level control wiuch will resull in plant shutdown, Alternate Ter,t:

Full stroke exercised and timed closed at cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTIFICATION 15 Valve No.:

2CHS*473 Category.

A/C_ _

Class

?

Function:

Seal water return containment penetration X 19 therma:

relief check valve (By;' asses 2CHS'MOV378)

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. Since this valve is located insido containment, it is not accessible during normal operation.

Alternate Test:

Full stroke exercised in both directions by mechanical exerciser during cold shutdown per 20ST 1.10.

Beaver Vstley Power Station ttil 2 155ue 1 Revision 9 INSERVICE TESTING llST) PROGRAl.1 FOR PUMPS AND VALVES Page 129 of 191 COLD SHUTDOWN JUS 11FICATION 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 stroko Basis for CSJ:

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

Exercisin0 these weight loaded arm chock valves ;0 the closed direction at power would secure RCP seal injection which would result in seat damage.

Alternate Test:

Full stroke exercised closed by mechanical exerciser during cold shutdown per 2GST 1.10.

x N

Seaier Vai!cy Power Station Unit 3 issue 1 Revision 9

.NSERVICE TESTING (IST) PROGRAM COR PUMPS AND VALVES Page 130 of 191 I

COLD SHUTDOWN JUSTIFICATION 17 Valve No.:

2CHS*MOV8130A 2CHS* MOV81300 2CHS* MOV8131 A 2CHS*MOV8131B 2CHS* MOV8132A 2CHS*MOV8132B 2CHS*MOV8133A 2CHS*MOV81338 Category B

Class 2

Function:

Charging pumps suction and discharge cross connect valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

The function _of these valves is for Safety. Injection train separation during c'old leg recirculation. One valve in suction and discharge is required to close for train separatiori. Full stroking of the discharge cross connects cannot be performed during no mal operation because these valves are required to be open and de-energized by technical specifications. Failuro in the closed position under certain pump operating configurations would re%er the HHSI system inoperable. In addition BV-2 has committed to de-energizing the power supply to the char jing pump suction cross connects to prevent loss of charging pump suction in certain fire scenarios. The potential risk in damage to a HHS1 pump does not justify the gain in cycling these valves during normal operation.

Alternate Test:

Fall stroke exercised and timed closed at cold shutdown per POST-1.10.

]

Baaver Valley Power Statton Unit 2 Issue 1 Revision 9 -

INSERV4E TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 131 ot 191 COLD _ SHUTDOWN JUSTlFICATION 18 _

Valve No.: -

2RHS*3 2RHS*4 Category C

Class _, 2 Function:

Residual Heat Removal Pumps check valves Test Requirement:

Quarterly full stroke Dasis for CSJ:

Valves open for Residual Heat Removal system operation and close to prevent reverse flow through the stanoby pump.

During normal power operation, RHS is isolated from the RCS and Residual Heat Removal pumps are not required for operation. Verification of forward and reverse struking requires pump operation and non-rotation of the idle pump respectively, Checking reverse stroke requires local observation. Since these valves are in containment they are inaccessible during normal operation.

Alternate Test:

Fall stroke exercised open during cold shutdown per 20ST 10.1(2)

Full stroke exercised closed during cold shutdown per 20ST-10.3(4)

COLD SHUTDOWN JUSTiriCATION 19 Valve No.:

2RHS* FCV605A 2RHS*FCV6058 Category B

Class 2

Function:

Residual Heat Removal Heat Exchangers bypass flow control valves.

Test Requirement:

Quarterly full stroke, time, and fail safe Basis for CSJ:

The safety related function of these valves is to fail closed on loss of power. Local observation is required to determine valve stroking. Valves are located inside reactor containment and are inaccessible during power operation.

Alternate Test:

Full stroke exercised, timed and failed closed at cold shutdown per 2OST-10.3(4)

~

O Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 132 of 191 COLD SHUTDOWN JUSTIFICATION 20 Valve No.:

2R HS'MOV701 A 2RHS'MOV7018 2RHS*MOV702A 2RHS*MOV702B 2RHS*MOV720A 2RHS*MOV7208 Category A

Class 1

Function:

Reactor Coolant System to Residual Heat Removal system isolation valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

These valves are normally closed. The safety function is to open for initiation of the RHR system to attain cold shutdown and closed to isolate the RCS from tne RHR system

'during normal operation. Full stroking these valves during normal operation cannot be pr* formed because they are interlocked closed during normal operation to prevent overpressurization of RHR system piping.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 20ST 10.3(4).

COLD GhuTDOWN JUSTIFICATION 21 Valve No.:

2RHS*HCV758A 2RHS*HCV7588 Category B

Class 2

Function:

Residual Heat Removal Heat Exchangers flow control valves.

Test Requiremord:

Quarterly full stroke, time, and fail safe lL Basis for CSJ:

The safety related function of these valves is to fail I

open on loss of power. Local observation is required to l

determine valve stroking. Valves are located inside reactor containment and are inaccessible during power operathn.

L Alternate Test:

Full stroke exercised, timed and failed open at cold shutdown per OST-10.3(4).

l

Beaver Valley Power Station Unit 2 1ssue i Revisico 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 133 of 191 COLD SHUTDOWN JUSTIFICATION _22 Valve No.:

2 SIS *42 Category A/C Class 2_

/

Function:

Safety injection Accumulator fill inside containment isolation check valve Test R.quirement.

Quarterly full stroke Pasis for CSJ:

Valve is normally ciesed during power operation. Safety function is to be closed for containment isolation. Valve is opened during accumulator fill operation. Full stroke testing is verified by observing weight loaded arm movement.

Since this valve is located inside containment, it is not accessible during normal operation.

Alternate Test:

Full stroke exercised closed by mechanical exerciser during cold shutdown per 20ST-1.10.

COLD SHUTDOWN JUSTIFICATION 23 Valve No.:

2 SIS *83 25tS*84 2 SIS *94 2 SIS

• 95 Category _ A/C Class 2

Function:

HHSI to hot ano cold legs inside containment isolation check valves Test Requirement:

Quarterly full stroke Basis for CSh Normal position for these valves is closed. These valves are to remain closed for contamment isolation and are opened for hot leg recirculation. Full stroking requires use of the weighted arm on the valves. Since these valves are located inside the containment they are not accessible during normal operation.

Alternate Test:

Full stroke exercised in both directions by mechanical exerciser durmg cold shutdown per 20ST-1.10.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 134 of 191 COLD SHUTDOWN JUSTIFICATION 24 Valve No.:

2 SIS *130 2 SIS *132 2 SIS *133 Category A/C Class 2

Function:

LHSI to hot and cold legs inside containment isolation valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Normal position is closed. These valve ce to remain closed for containment isolation and teaJ0 coolant pressure boundary isolation, and open for LHSI. Valves I

cannot be cycled during power operation because the LHSI pump can not develop enough head to overcome reactor coolant system pressure, in addition, cycling using the weighted arms is not possible since these valves are located inside containment ar" s not accessible during normal operation.

Alternate Test:

Full stroke exercised in both directions by mechanical exerciser during cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTIFICATION 25 Valve No.:

2 SIS

• MOV836 Category A

Class 2

Function:

HHSI to cold leg header isolation valve Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Valve is normally closed and is opened by the operator to achieve a redundant flowpath to the told legs duritig the recirculation mode. Full stroking during normal operation would inject relatively cold water into the RCS cold leg resulting in thermal shock to system piping and components which can lead to their prematore hilure.

Alternate Test:

Full stroke exercised and timed open at cold shutdown per 20ST-1.10.

Beaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE TESTING (!ST) PROGRAM FOR PUMPS AND VALVES Page 135 of 191 COLD SHUTDOWN JUSTIFICATl?N 26 Valve No.:

2 SIS'MOV869A 2 SIS *MOV8698 Category A

Class

?

Function:

HHSI to hot leg header isolation valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:-

Valves are normally closed and are opened by the operator for hot leg recirculation. Full stroking these valves during normal operation would inject relatively cold Aater into the RCS hot legs resulting in thermal shock to system piping and components which can lead to their premature failure.

Alternate Test:

Full stroke exercised and timed open at cold shutdown per 20ST-1.10.

COLD SHUTDOWN JUSTIFICATION 27 Va;ve No.:

2 SIS *MOV8889 Category A

Class 2

Function:

LHSI to RCS hot leg outside containment isolation valve Test Requirement:

Quarterly full stoke and time Basis for CSJ:

Valve is normally closed. Valve is required to be opened during hot leg recirculation mode. This valve is required to be closed and deenergized during normal operation in -

accordance with technical specifications. Full stroking during normal operation could result in overpressurization of the low pressure portion of LHSI piping if simultaneous check valve failure occurred.

Alternate Test:

Full stroke exercised and timed open at cold shutdown per 2OST-1.10.

i l.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PF OGRAM FOR PUMPS AND VALVES Page 136 of 191 COLD SHUTDOWN J'JSTIFICATION 28 Valve No.:

2QSS* 3 2QSS *4 Category A/C _

Class 2

Punction:

Quench spray header inside containment isolation check valves.

Test Requiremt nt:

Quarterly ful; stroke Basis for CSJ:

Valves are normally closed. Safety position is open for OSS 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 durin0 normal operation.

Alternate Test:

Full stroke exercised in both directions by mechanical exerciser during cold shutdown per 2OST-1.10.

COLC, SHUTDOWN JUSTIFICATION 29 Valve No.:

2QSS*SOV100A 20SS*SOV100B

(

Category A

Class 2

Function:

Chemis al injection to containment sump outsh e 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 tocated at the containment penetration, failure in the open position would require closing both chemical injection pump discharge valves to comply with technical specifications rendering chemicalinjection inoperable. This would require plant shutdown, Alternate Test:

Full stroke exercised and timed open and closed at cold shutdown per 2OST-1.10.

Beaver Valley Power Station Unit 2 Issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 137 of 191 COLD SHUTDOWN JUSTIFICATION 30 Valve No.:

l i'QSS

• 267 Category A/C Class __2 Function:

QSS chemicalinjection inside containment isolation check valve.

i Test Requirement:

Quarterly full stroke Basit, for CSJ:

Valve is normally closed. Safety function is open durin0 chemicalinjection to containment sump and closed for containment isolation. Exercising can only be performed by cycling weight loaded arm. Since the valve is located inside the reactor containment, exercising cannot be performed during normal operation.

Alternate Test:

Full stroke exercised in both directions by mechanical exerciser during cold shutdown per 20ST 1.10.

COLD SHUTDOWN JUSTlFICATION 31 Valve No.:

2RSS*29 2RSS*30 2RSS *31 2RSS*32 Category C

Class 2

Function:

RSS discharge headers to spray nozzle inside containment isolation ;alves Test Requirement:

Quarterly full stroke Basis for CSJ:

Valves are normally closed. Safety function is open for RSS operation. Because RSS is normally maintained dry cycling can only be done using the weighted arm on the valve. These valves are located in the containment and are inaccessible during normal operation.

Alternate Test:

Full stroke exercised open by mechanical exerciser during cold shutdown per 20ST-1.10.

Beaver Valley. Power Station Unit 3 -

Issue i Revis;on 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 138 of 191 COLD SHUTDOWN JUSTIFICATION 32 Valve No.:

2CCP' AOV107A 2CC P' AOV1078 2CC P* AOV107C Category B

Class 3

Function:

Reactor Coolant Pump Thermal Barrier Heat Exchanger CCP outlet isolation valves.

Test Requirement:

Quarterly full stroke, time, and fait safe.

Basis for CSJ:

Valves are normally open, and are required to close in the event of a primary loop to CCP leak in the reactor coolant pump seal thermal barrier. Closing the valves during normal operation would interrupt flow of cooling water to the reactor coolant pump seals. This could result in damage to the reactor coolant pump seals. Failure in the closed position would result in plant shutdown.

Alternate Test:

Full stroke exercised, timed and failed closed at cold shutdown per 2OST-1.10.

Beaver Valley Power Station Unit 3 Issue 1 Revision 9 (NSERvlCE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 139 of 191 COLD SHUTDOWN JUSTlFICATION 33 Valve No.:

2CC P'M OV150-1

- 2CCP'MOV150-2 2CCP'MOV151-1 2CCP*MOV1512 2CCP'MOV156-1 2CCP'MOV156-2 2CCP'MOV1571 2CCP'MOV157 2 Category A

Class 2

Function:

CCP supply and return headers to reactor containment outside and inside isolation valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Valves are normally open: Safety position is closed for containment isolation Closing the valves during normal operation would interrupt flow of cooling water to the reactor coolant pump sems. This could result in damage to the reactor coolant pump seals. Failure in the closed position would result in plant shutdown.

Alternate Test:

Full stroke exercised and timed closed al cold shutdown per 20ST-1.10.

COLD SHUTDOWN JUSTIFICATION _34 DELETED i

I

_.=

Beaver Valley Power Station Unit 8 issue 1

- Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 140 of 191 J COLD SHUTDOWN JUSTlFICATION 35 Valve No.:

2 MSS

• AOV101 A 2 MSS

• AOV1018 2 MSS

• AOV101C Category 8

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.

Alternate Test:

Partial stroke exercised closed quarterly per 20ST 21.1(2)(3).

Full stroke exercised and timed closed per 2OST-21.7 at shutdown with TAVG 2515F.

COLD SHUTDOWN JUSTIFICATION 36 Valve No.:

2SVS *80 OSVS *81 2SVS*82 Category C

Class 2

Function:

Steam Generators residual heat release check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Full stroking open these valves during normal operation cannot be performed because a reduction in plant power would be required m order to prevent exceeding full power limitations.

Alternate Test:

Full stroke exercised open during unit shutdown per 20M 51.4.C.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val VES Page 111 of 191 COLD SHUTDOWN JUSTIFICATION 37 Valve No.:

2SVS

• PCV101 A 2SVS* PCV 1018 2SVS* PCV101C Category B

Class 2

Function:

Steam Generators atmospheric dump valves Test Requirement:

Quarterly full stroke, time, and fail safe Basis for CSJ:

These valves are normally closed. The sufety function is to open to control S/G pressure af ter a reactor trip.

Full or partial stroking open these valves during normal operation cannot be performed because a reduction in plant power would be required in order to prevent exceeding full power limitations. Closing the manual isolation valves so that these valves can be cycled presents an unacceptacle risk to plant personnes due to their location in the plant.

Alternate Test:

Full stroke exercised and timed open and failed closed per 20ST-1.10 at cold shutdown.

COLD SHUTDOWN JUSTIFICATION 38 Valve No.:

2SVS'HCV104 Category B

Class 2

Function:

Combined Main Steam atmospheric dump valve Test Requirement:

Quarterly full stroke, time, and fail safe Basis for CSJ:

Valve is normally closed. Opened as necessary by operator during cooldown from the control room or Emergency Shutdown Panel. Full or partial stroking open this valve during normal operation cannot be performed because a reduction in plant power would be required in order to prevent exceeding full power limitations. Closing the manual isolation valve so that this valve can be cycled presents an unacceptable risk to plant personnel due to its location in plant.

Alternate Test:

Full stroke exercised and timed open and failed closed per 20ST-1.10 at cold shutdown.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 1.12 of 191 COLD SHUTDOWN JUSTIFICATION 39 Valve No.:

2PNS'HYV157 A 2FWS" 4YV157B 2FWS

• HYV157C Category B

Class 2

Function:

Main Feedwater Headers Isolation Valves to Steam Generators Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Valves are normally oper.. Sclety position is closed for Feedwater isolation in the event of a high energy line break or Safety injection Systern actuation. Full stroking closed during normal operation cat. at be performed since this would stop feedwater flow to the steam generators resulting in plant shutdown.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 20ST-1.10.

Beaver Valley Fowy Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 143 of 191 COLD SHUTDOWN JUSTIFICATION 40 _

Valve No.;

2FWE'42A 2FWE*428 2FWE*43A 2FWE'43B 2I WE'44 A 2FWE*44 B Category C

Class 2

Function:

Auxiliary Feedwater headers check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Valves are normally closed Safety position is opened for Auxiliary Feed System injection and closed to provide header separation in the event of a line break. Full stroking these valves during normal operation cannot be performed because the test method requires design flow to the steam generator for both forward and reverse stroking, injection of reiatively cold auxiliary feedwater would result in a thermal shock to the auxiliary feedwater piping which could lead to premature failure.

Alternate Test:

Full stroke exercised in both directions during cold shutdown per 20ST-24.6.

i

Beaver Valley Power Station Unit 2 lssue 1

- Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Page 144 of 191 COLD SHUTDOWN JUSTlFICATION 41

- Valve No.:

2FWE*99 2FWE

• 100 2FWE

• 101 Category C

Class 2

Function:

Auxiliary Feedwater header check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Full stroking these valves open during normal operation cannot be performed because the test method requires design flow to the steam generator, injection of relatively cold auxiliary feedwater would result in a thermal shock to the auxiliary feedwater piping which could lead to premature failure.

Alternate Test:

Full stroke exercised open during cold shutdown per 2OST-24.6.

COLD SHUTDOWN JUSTIFICATION 42 Valve No.:

2FWE* FCV122 2FWE* FCV123A 2FWE* FCV1238 Category B/C Class 3

Function:

Auxiliary Feed Pumps discharge flow control / check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

These valves function as a purnp discharge check valve (normally closed) and as an Auxiliary feed pump mini-flow-control valve (normally open). Exercising of the check valves in the open position (and the mini-flow control valve closed) requires design flow to the steam generators, that would result in a thermal shock to the auxiliary feedwater piping which could lead to premature failure.

Alternate Test:

Full stroke exercised open and closed at cold shutdown per 20ST-24.4 and 24.6.

Beaver Valley Power Station

'.' nit 8

. Issue 1 Revision 9

. INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND val.VES Page 145 of 191 COLD SHUTDOWN JUSTIFICATION 43 Valve No.:

2SWS* 57 2SWS *58 2SWS'59 Category C

Class 3

Function:

Service water pumps discharge check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Due to system design flow requirements at power, exercising of these valves in the closed direction l

requires use of the idle SWS pump. Relief is requested in the event the idle SWS pump is out of service for maintenance. Exercising can be accomplished upon return of the idle SWS pump to service.

Alternate Test:

Full stroke exercised closed per 20ST-30.6 quarterly l

or when the idle SWS pump is returned to service or at least at cold shutdown.

COLD SHUTDOWN JUSTIFICATION 44 Valve No.:

2SWS*MOV102A 2SWS*MOV102B 2SWS*MOV102C1 PSWS* MOV102C2 Category B

Class 3

Function:

Service water pumps discharge valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Due to system design flow requirements at power, exercising of these valves requires use of the idle SWS pump. Relief is requested in the event the idle SWS pump is out of service for maintenance. Exercising can be accomplished upon return of the idle SWS pump to service.

Alternate Test:

Full stroke exercised and timed open per 20ST-30.6 quarterly or when the idle SWS pump is returned to service or at least at cold shutdown.

Beaver Valley Power Station Unit 2 tssue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 146 of 191 COLD SHUTDOWN JUSTIFICATION NO.

45 _

Valve No.:

2SWS

• 106

- 2SWS

• 107 Category C

Class 3

Function:

Service water header check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Full stroking these valves in the reverse direction is accomplished using a stan"_fby service water pump and cannot be performed during normal operation. Testing requires all SW pumps to be shutdown and the headers cross connected at the pumps in order to provide an upstream vent path of sufficient capacity.tn identify valve deterioration.

Alternate Test:

Full stroke exarcised closed during cold shutdown per 20ST 30.8.

COLD SHUTDOWN JUSTIFICATION 46 Valve No.:

2SWS

• MOV106A 2SWS*MOV106B Category B

Class 3

Function:

Service Water headers isolation valves Test Requirement:

CNortedy full stroke and time Basis for CSJ:

These vi,1ves are normally open. The safety function is to clcse to ensure sufficient SWS supply to the RSS Heat exchangers. Closing these valves during normal oper.9 tion would reduce service water supply to Turbine Buitumg and CCP heat exchangers below acceptable limits for full power operation. Failure of the valves to reopen after closure could lead to equipment damage and plant shutdown.

l l

Alternate Test:

Full stroke exercised and timed closed per 20ST-1.10 at cold shutdown and per 20ST-30.13 at refueling.

Beaver Valley Power Station Unit 2 issue 1 evision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Pap 147 of 191 COLD SHUTDOWN JUSTIFICATION 47 Valve No.:

2SWS' MOV107 A 2SWS*MOV1078 2SWS'MOV107C 2SWS*MOV107D Category B_

Class 3

Function:

CCS HX from service water headers isolation valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

These valves are normally open. The safety function is to close to isolate the NNS portion of the service water system. Full stroking during normal operatior, cannot be performed because testing requires c oss connection of the service water system in order to maintain the required SW flow for support of full power operation. Failure of the valve to reopen would require operation of the SW system cross connected resulting in loss of SW train separation.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 20ST-1.10.

COLD SHUTDOWN JUSTIFICATION 48 Valve No.:

2SWS*486 2SWS*487 2SWS *488 Category C

Class 3

Function:

Service water pumps vacuum breaker check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

Due to system design flow requirements at power, exercising of these valves requires use of the idle SWS pump. Relief is requested in the event the idle SWS pump is out of service for maintenance. Exercising can be accomplished upon return of the idle SWS pump to service.

Alternate Test:

Full stroke exercised closed per 20ST-30.2(3)(6) and full stroke exercised open per 20ST-30.6 quarterly or when the idle SWS pump is returned to service cr at least cold shutdown.

Beaver Valley Power Station Un;t 2 issue 1 l

Revision 9 j

INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Pagt 148 of 191 COLD SHUTDOWN JUSTIFICATION 49 Valve No.:

2FPW'382 2FPW'388 2FPW'753 2FPW'761 Category A/C Class 2

Function:

Fire protection headers inside containment isolation check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

These valves are normally closed. They would be opened in the event of a fire in containment. The safety position is closed for containment isolation. Full stroke testing can only be performed by cycling the weight loaded arm or leak testing. Since these valves are located inside containment, they are not accessible during normal operation.

Alternate Test:

Full stroke exercised in both directions by mechanical exerciser during cold shutdown per 20ST-1.10, COLD SHUTDOWN JUSTIFICATION 50 Valve No.:

2lAC'22 Category A/C Class 2

i Function:

Instrument Air header inside containment isolation check valve 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 isolation. Full stroke testing can only be performed by cycling the weight loaded arm or leak testing. Since this valve is located inside containment, it is not accessible during normal operation.

Alternate Test:

Full stroke exercised closed by mechanical exerciser during cold shutdown per 20ST-1.10.

k Beaver Valley Power Station Unit 3 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 1,19 of 191

- COLD SHUTDOWN JUSTIFICATION 51 Valve No.:

2HVR* MOD 23A 2HVR* MOD 23B 2HVR

• MOD 25A 2HVR' MOD 258 Category -

A Class 2

Function:

Containment purge discharge and supply outside and inside isolation dampers Test Requirement:

Quarterly full stroke and time Br. sis 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 durin0 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 stroke exercised and timed closed at cold shutdown per 20ST-1.10,

Beaver Valley Power Station Unit 8 issue 1 Revapon 9 tilSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 150 of 19*

COLD SHUTDOWN JUSTIFICATION 52 Valve No.:

2CVS'SOV102 2CVS'SOV153A 2CVS*SOV153B Category A

Class

'2 Function:

Containment Airborne Activity Radiation Monitor [2RMR'RQ303).

containment isolation valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

In order to stroke and time these valves, the Containment Airborne Activity Radiation Monitor

[2RMR*RQ303] must be shutdown. When this occurs, both the containment gaseous and particulate airborne activity monitors are temporarily inoperable and places the plant in a twelve hour action per Tech. Spec. 3.4.6.1 with adoitional requirements to verify the containment sump discharge flow measurement system operable and to perform a RCS water inventory balance in four hours, Withcut these additicnal provisions a forced shutdown is required in six hours.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown per 2OST-1.10.

l-Beaver Valley Povver Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 151 of 191 COLD SHUTDOWN JUSTIFICATION

.53 Valve No.:

2 SIS *46 2 SIS *47 Category C

Class 2

Function:

Recirculation Spray Pump discharge to LHSI Pump dischar00 weighted arm check valves Test Requirement:

Quarterly full stroke Basis for CSJ:

These check valves are riormally closed. Their safety function is to open during the Recirculation Phase.

Full str(Ae testing can only be done by cycling the weight loaded arm of each check valve. Eurcising tuese weighted arm check valves in the open #echon docing normal operation requires excessive forces d te to the hearj of water from the Refueling Water Storage ~ar.F (RWST) against the check valve disk. Engineering does not mcommera *:pplying the excessive forces required to cycle the ch?ck valves open. The pressure created by the head of waiar from the RWST could be blod off by isolating one LHSi Sus!em ' fait at a time anct draining radioactive water frorn a ciain v:lve into a sump. However, isolating one t ain of an Emergency Core Cooling System during plant opt ston would pir.ce the plant into a Technical Specificahon A.

3n sta'.amoni, if tested quarterly, the amount of radioactise water drained from the system to bleed off. pressure wouM crea,e additional liquid waste for disposal.

Alternate Test:

Full stroke exercised in both directions by meahanical exerciser during cold shutdown per 20ST-1.10.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING tiST) PROGRAM FOR PUMPS AND val.VES Page 152 of 191 COLD SHUT 00WN JUSTIFICATION _54 Valve No.:

2CCP'27A 2CCP'27B 2CCP'354 2CCP'355 Category B

Class 3 _

Function:

Component Cooling discharge header cross-connect manual isolation valves.

Test Requirement:

Quarterly full stroke Basis for CSJ:

The Component Cooling System operates in a cross-connected condition with all the above manuel valves open and any two of three Component Cooling Pumps supplying any two of three Component Cooling Heat Exchangers through a Train A or Train B flow path. With one of the heat exchangers out of service for cleaning, closuie of these manual valves during normal operation would interrupt flow of cooling water to Train A or Train B cooling loads resulting in a thermal transient and potential plant trip. In addition, the idle heat exchanger is normally held in reserve following cleaning to improve plant reliability u itil one of the inservice heat exchangers becomes fouled.

Exercising of these valves in conjunction with the quarterly pump tests with the "C" Heat Exchanger in service would require placing the clean heat exchanger into service prematurely in order to prevent isolation of the Train A or Train B cooling loads.

Alternate Test:

Full stroke exercised closed during cold shutdown per 20ST-1.10.-

l I

=

f -. f :.

Beaver valley Power Station' Unit - 3 luue 1 i Revision 9 INSERvlCE _ TESTING (IST) PROGRAM FOR DUMPS AND VALVES Pago' 153 of 191 COLD SHUTDOWN JUSTIFICATION 55 Valve No.:

2FWS* FCV478 2FWS* FCV488 2FWS* FCV498 l

l Category B

Class 2

Function:

Steam generator main feedwater regulating valves.

Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Valves are'normally open during power operation Their -

safety position is closed for feedwater isolation in the event of a high energy line break or Safety injection System actuation. Full stroking closed during normal operation cannot be performed since this would isolate feedwater flow to the steam generators resulting in a plant trip and shutdown.

Alternate Test:

Full stroke exercised and timed closed at cold shutdown por 2OST-1.10.

COLD SHUTDOWN JUSTlFICATION 56 Valve No.:

2FWS* FCV479 2FWS

• FCV489

2FWS* FCV499 Category B

Class 2

Function:

Steam generator bypass feedwater control valves Test Requirement:

Quarterly full stroke and time Basis for CSJ:

Valves are normally set at approximately 10% open during power operation. Their safety position is closed for feedwater isolation in the event of a high energy line break or Safety injection System actuation. Full stroking closed may cause an unnecessary challenge to the plant during normal operation since this will cause the main feed regulating valves to reposition to compensate for the loss of flow. The resulting transient on the steam generators may result in a plant trip and shutdown.

Alternate Test:

Full stroke exercised and timed clased at cold shutdown per 2OST-1.10.

1 Beaver Valley Power Station Unit 2 tssue 1 i

Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 154 of 191 COLD SHUTDOWN JUSTIFICATION 57 Valve No.:

20SS*MOV102A 20SS'MOV1028 Category B

Class 2

Function:

Quench Spray Chemica: Addition Tank discharge isolation valves to Chemical injection Pumps Test Requirement:

Quarterly full stre and time Basis for CSJ:

Stroking these valves introduces 23Po NaOH from the Chemical Addition Tank into the piping downstream of these valves. Attempts to.ourge the downstream piping using a backflush of RWST water to the Safeguards sump after valve stroking has proven it' effective. Subsequent testing of the Chemicalinjection Pumps on recirculation with the RWST results in sodium contamination of the RWST.

During refueling outages the RCS, fuel pool and RWST are all in direct comrr i.tication, therefore any sodium intrusion into the RWST will eventually spread to the RCS, a highly undesirable situation.

Removal of sodium from the RWST is a difficult process which involves recirculation of the RWST through the Fuel Poollon Exchangers. This process can degrade RWST cooling (RWST temperature is limited by Technical Specifications),

and can take months to reduce the concentration to the desired level. In order to prevent any sodium introduction into the RWST, a more effective flush after valve stroking could be ll' performed, but it involves a much longer period of system l

inoperability. Performance at Cold Shutdown would allow a' l

more thorough backflush while in a Mode where the system is not required by Technical Specifications.

Alternate Test:

Full stroke exercised and timed open at cold shutdown per 20ST 1.10.

I

' Beaver Valley Power Station _

Unit 2 Issue Revision 9 -

INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES -

Page 155 of 191 SECTION Vil:

VALVE TESTING RELIEF REQUESTS f

q

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+

e W

b

^

.~

f l

I I

i i -

l

+

Beaver Valley Power Station Unit 2 issue 1 I

Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Pagn '56 of 191 RELIEF REQUEST 1

Valve No.:

See next page Category A and A/C Class 2

Function:

Containment Isolation Test Requirement:

Leak tested per IWV 3420 at least once every 2 years.

Basis for Relief:

These containment isolation valves are leak tested in accordance with 10CFR50, Appandix J. Type C. Since the acceptance criteria for Appendix J. Type C testing is more limiting than ASME Section XI, additional leak testing in accordance with ASME Section XI would be redundant.

Alternate Test:

Leak test at refueling in accordance with 10CFR50. Appendix J, IWV-3426, and IWV-3427(a) per 2BVT 1.47.5. As a special test, after maintenance has been performed on any Type C relief valves,2BVT 2.47.2 may be performed to leak test the applicable relief valves in lieu of 2BVT 1.47.5.

5

Beaver Valley Power Station Unit 2 1ssue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 157 of 191 RELIEF REQUEST 1

CON 6 AINMENT ISOLATION VALVES 2RCS'68 2CVS*151 1 2SSR'SOV129A2 2FPW'AOV205 2RCS

• 72 2CVS'SOV151 A 2SSR'SOV130A1 2FPW'AOV206 2RCS* RV100 2CVS'SOV151 B 2SSR'SOV130A2 2FPW' AOV221 2 RCS*AOV101 2CVS SOV152A 2 PAS *SOV105A1 2FPW'382 2RCS* AOV519 2CVS'SOV152 B 2 PAS'SOV105A2 2FPW'388 2CHS* HCV142 2CVS'SOV153A 2CCP'Rv102 2FPW'753 2CHS*AOV200A 2CVS'SOV153 B 2CCP'RV103 2 F PW'761 2CHS*AOV2008 2LMS'51 2CCP'RV104 25 A S' 14 2rHS' AOV200C 2LMS'52 2CCP'RV105 2SAS* 15 2CHS* RV203 2OSS'3 2CCP'MOV150-1 2lAC'22 2CHS*AOV204 20SS 4 2CCP'MOV150 2 2iAC'MOV130 2CHS MOV378 2OSS'SOV100A 2CCP'MOV151-1 2l AC'MOV133 2CHS'MOV381 20SS SOV1008 2CCP'MOV151-2 2l AC'MOV134 2CHS*473 20SS*MOV101 A 2CCP MOV1561 2HVR' MOD 23A 2DAS* AOV100A 20SS'MOV1010 2CC P' M OV156-2 2HVR* MOD 23B 2DAS'AOV1008 20SS* RV101 A 2CCP'MOV1571 2HVR' MOD 25A 2DAS'RV110 2OSS'RV101 B 2CCP MOV157-2 2HVR* MOD 256 2DGS* AOV108 A 2OSS*267 2FNC'9 2HVR'DMP206 2DCS* AOV108B 2SSR*AOV;00A1 2FNC'38 2HCS'110 2DGS'RV115 2SSR' AOV100A2 2FNC*121 2HCS*111 2VRS* AOV109 A1 2SSR *AOV102 A1 2FNC'122 2HCS*SOV114A 2VRS* AOV109A2 2SSR'AOV102A2 2SWS'RV152 2HCS'SOV114B 2RHS'15 2SSR*AOV109A1 2SWS* MOV152 1 2HCS*SOV115A 2RHS* RV100 2SSR'AOV109A2 2SWS*MOV152 2 2HCS'SOV1158 2RHS*107 2SSR'AOV112A1 2SWS*RV153 2 HCS* MOV116 2 SIS *41 2SSR*AOV112A2 2SWS*MOV153-1 2HCS*MOV117 2 SIS *42 2SSR'RV117 2SWS*MOV153 2 2HCS'SOV133 A 2 SIS'RV130 2SSR*RV116 2SWS* RV154 2HCS'SOV133B 2 SIS'RV175 2SSR'RV119 2SWS* MOV1541 2HCS'SOv134 A 2 SIS

• MOVd42 2SSR'RV120 2SWS* MOV154-2 2HCS'SOV134B 2 SIS *AOV889 2SSR'RV121 2SWS*RV155 2HCS'SOV135A 2GNS* AOV101 1 2SSR*RV122 2SWS* MOV155-1 2HCS'SOV135B 2GNS*AOV101 2 2SSR'SOV128 A1 2SWS*MOV155-2 2HCS'SOV136A 2CVS*93 2SSR'SOV128A2 2FPW'AOV204 2HCS'SOV136B 2CVS* SOV102 2SSR'SOV129A1 2CVS* 151

1 Deaver Vriley Power $1ation Unit 2 issue i Revision 9 i

INSERVICE TESTINF 1ST) PROGRAM 'OR PUMPS AND VALVES Page 158 of 191 l

1 RELIEF REQUI.ST 2

i Valve No.t See below Category _Am1E.

Class _ _f Function:

Contamment Isolation Test Requlternent:

Corrective action following leak testing per IWV 342'(b)

Basis for Relief:

IWV 3427(b) specifies additional requirernents on increased test frequencies for valve slies of P x inches and lar0er and i

repairs or replacement over the requirernents of IWV 3427(a).

The usefulness of IWV 3427(b) does not justify the burden of complying with this requirernent. Unnecessary repair or replacement of a valve or additional leak testing, if attempted at cold shutdown. could d) lay plant startup Per 10CFR50.55a(a)(3)(ii). complianco with the specified requirements of IWV 3427(b) would result in hardship or unusual difficulties without a compensating increase in the level of quality and safety.

Alternet 'est:

For valves (6 inch diamoter or larger) in 28VT 1 A7.S. if the measured leak rato excrteds; the rato dolormined, the valve shall be replaced or repaired.

QONT Al.tiMENT ISOMTION VALVES 2CHS'AOV200A 20S$* MOV101 A

?CCP'MOV151 1 2FNC*122 2$WS*MOV154 2 2CHS*AOV200B 20SS'MOV1010

'.CC P'MOV151 2 2SWS* RV152 25WS*RV155 2C HS' AOV200C 20SS'T:V101 A 1CCP'MOV1561 2SWS* MOVl 52 1 2SWS*MOV1551 2RHS*15 20SS'RV101E 2CCP'MOVtS6 2 2SWS*MOV152 2 25WS'MOV155 2 2RHS*RVlu0 2CCP'RV102 2CCP'MOV1571 25WS*RV153 2FPW'AOV200 2RHS*107 2CCP'RV103 2CCP'MOV157 2 25WS'MOV1531 2FPW'761 2CVS* 151 2CCP'RV104 2FNC'9 2SWS*MOV153 2 2HVR* MOD 23 A 2CVS'151 1 2CCP'RV105 2FNC'38 25WS*RV154 2HVR* MOD 23B 20SS*3 2CCP'MOV1501 2FNC'121 25WS'MOV1541 2HVR* MOD 25A 20SS'4 2CCP'MOV150 2 2HVR* MOD 258 2HVR*0M P206

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J Deaver Valley Power Station Unit 2 issue 1 Rev uon 9 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VALVES Page 1$9 of 191 RELIEF REQUEST 3

Valve No.:

2CH5*22 TCHS' 3 2CHS'24 Category C

Class 2_

Function:

Charging pumps discharge check valves Test Requirement:

Quarterly full stroke i

Basis for Relief:

When the RCS is at normal ope >ating pressure, full stroking the discharge check valves cannot be performed because the charging pump will not develop the required flow. In addition. injestion of relatively cold water will cause a thermal cycle or shock resulting in an increased probability of system failure. At cold shutdown full stroking cannot be performed because full flow testing could result in low terceraturo overpressuritation of the RCS.

Alternate Test:

Partial stroke exercised open quarterly per 20ST 7.4(5)(c).

Full stroke exercised open at refueling per 20ST 11.14.

RELIEF REQUEST 4

Valve No.:

2 SIS'S 2 SIS'7 Category C

Class 2

Function:

LHSl pumps discharge check valves Test Requirement:

Quarterly full stroke Basis for Relief:

Normal rosition is closed. Safety function is to open for LHSt. When the RCS is at normal operating pressure, full svoking the discharge check valves cannot be performed because the LHsl pump will not develop the required flow to l.

open the valve. Al cold shutdown full stroking cannot be-l performed because testing would require full flow injection to l

the RCS where there is not sufficient volume to receive the additional inventory.

i Alternate Test:

Full stroke exercised open at refueling por 20ST 11.14.

l 4

i

,de,ia

,,,-g m nuia

-es.g

, - + - -

.e7y W'7-v

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e-----

w-,--'T wm N--e-,*

--v y-

---+-w y-wy-

l Beaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE testing pST) PROGRAtA FOR PUMPS AND VALVES Page 100 of 191 RELIEF REQUEST 5___

Valve No.:

2 SIS *27 Category _C__

Uass _?_

Function:

RWST to HHSI pump suction check valve Test Requirement:

Quarterly full str,ke Basis for Relief:

When the RCS is at normal operating pressure, full stroking the suction check valve cannot be performed because the charging pump will not develop the required flow, in addition, injection of relallvely cold water wil! wause a thermal cycle or shock resulting in an increased probabliity of system f;A t Al cold shutdown ful' stroking cannot be performed because ftil flow testing enu;d result in low temperature overpressuritation of the RCS Alternate Test:

Full stroke exercised open at refuelmg 20ST 11,14.

RELIEF REQUEST 6

Valve No.:

2 SIS

• 107 2 SIS

• 108 2 SIS'iOD Category A / C_

Class i

Function:

LHSI header check valves to RCS cold legs Test Requiremint:

Quarterly full stroke Basis for Rel cf; Normal position is closed. Safety function 6s to open for LHSi and closed to isolete the LHS1 system piping from the RCS during normal operation. When the RCS is at normal operating pressure, full stroking the header check valves cannot be performed because the LHSI pump will not develop the required flow to open the valve. At cold shutdown full stroking cannot be performed because testmg would require full flow injection to the RCS where there is not sufficient volum9 to receive the additional inventory.

Alternate Test:

Full stroke exercised open at refueling per 20ST-11.14.

i Beaver Valley Power Station Unit 2 15 sue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 101 of 191 RELIEF REQUEST 7

i Valve No.1 2SlS*122 l

2 SIS *123 2 SIS'124 2 SIS

• 125 2 SIS *126 2 SIS'127 Category C

Class 1

[

Function:

HHSI header check valvos to RCS hot legs Test Requirement:

Quarterly _ full stroko Basis for Relief; Normal position is closed. Safety function its to open for HHSI. When the RCS is at normal operating pressure, full stroking the header check valves cannot be performed because tha char 0 ng pump will not develop the required i

flow. In addition, injection of relatively cold water will cause a thermal cycle or shock tesulting in an increased probabihty of system failure. At cold shutdown full stroking cannot be perfortnod because full flow testing could result in' tow temperaturo everpressurization of the RCS.

Alternate Test:

Full stroko exercised open at refueling per 20ST 11.14.

.......-._.. _ _... _ _.. _. _.._ _ _.. _.. _ ~ _.. _.. _... _ _. ___ _

f Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 102 of 191 l

RELIEF REQUEST 8

Valve No.:

2 SIS

• 128 -

2 SIS

• 129 Category _ A/C Class i

Function:

LHSI header check valves to RCS hot legs Test Requirement:

Quarterly full stroke -

Basis for Rollef:

Normal position is closed. Safety function is to open for LHSI t

and closed to isolate the LHSI system piping from the RCS during normal operation. When the RCS is at normal operating pressure, full stroking the header check valves cannot be performed because the LHSi pump will not develop the required flow to open the valve. At cold shutdown full stroking cannot be performed because testing would require full flow injection to the RCS where there is not sufficient volurno to receive the additionalinventory.

Alternate Test:

Full atroke exercised open at refueling per 20ST 11.14.

ur.,.

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y

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.,w

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Beaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 163 of 191 g RELIEF REQUEST _1_

Valve No.:

2S15'134 2 SIS *135 2 SIS *136 2 SIS'137 2 SIS'138 7

2S15'139 Category C

Class 1-Function:

HHS) header check valves to RCS cold legs 1

Test Requirement:

Quarterly full stroke Basis for Relief:

When the RCS is at normal operating pressure, full stroking the header check valves cannot be performed because tho charging pump will not develop the required flow, in addition injection of relatively cold water will causo a thermal cycle or shock resulting in an increased probabihty of system failure. Al cold shutdown full stroking cannot be performed because full tiow testing could result in low-temperature overpressurization of the RCS.

Alternate Test:

Full stroke exercised open at refueling per 20ST 11.14.

Geaver Valley Power Station Unit 2 inue 1 Revmon 9 INSERVICE TESilNG CST) PROGRAM FOR PUMPS AND VALVES Page 104 of 19' RELIEF REQUEST 10 Valve No.:

2 SIS *141 2 SIS

• 142 2S!S'145 2 SIS'147 2 SIS'148 2 SIS'151 Category A/C_ _ _

Class 1

Function:

Safety injection Accumulators discharge check valves Test Requirement:

Quarterly full stroke Basir, for Relief:

Normal position is closed. Safety function is to open for passive low pressure injection to the RCS. When the RCS is at normal operathig pressure, full stroking accumulator discharge check valves cannot be performed because the RCS is at a higher pressure than the accumulators. Full stroking may not be performed during cold shutdown because the reduced pressure which is required to perform this test may not be obtainabfe, in addition, stroke testing if attempted at cold shutdown could extend the length of a plaat shutdown due to extensive preparatory worA in establishing the proper reactor coolant system conJilions.

Alternate Test:

Full stroke exercised open at refueling per 2BVT 1,11.3. As a special test, after maintenance has been performed on any of these valves,20ST-11.15 may be performed to partial stroke exercise the applicable check valve, i

)

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,-e m-9 yg.,.-,4.y y.pg.e enn.,

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u

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y 87 e

l Beaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE TESTING (IST) PROGRAt.1 FOR PUf.iPS AND VALVES Page if>$ of 191 l

RELIEF REQUEST.

11 Valve No.:

2 SIS' 545 2 SIS'546 2 SIS *547 Category C

Class 1

Function

• HHSI/LHSt header to RCS hot legs check valves Test Requirement:

Quarterly full stroke Basis for Relief:

When the RCS is at normal operating pressure, full stroking the header check valves cannot bo performed because the charging pump will not develop the required flow, in addition, injection of relat!vely cold water will cause a i

thermal cycle or shock resulting in an increased probability of system failure. Al cold shutdown full stroking cannot be performed for (2 SIS *547] because full flow testing could result in low-temperature ovatpressurization of the RCS, Additionally, full stroking of [2 SIS *S45 and 546] cannot be performed because testing would require full flow injection from LHSl to the RCS where there is not sufficient volume to receive the additional inventory.

Alternate Test:

Full stroke exercised open at refueling per 20ST-11.14.

Beaver Valley Power Station Unit 2 issue 1 Revision 9

-INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 106 of 191 i

RELIEF REQUEST 12 Valve No.:

1 2 SIS

• 54B 2 SIS *550 2 SIS *552 Category C

- Class 1 _,

Function:

HHSI/LHSI header to RCS cold legs check valves Test Requirement:

Quarterly full stroko Basis for Relief:

Normal position is closed. Safety function is to open for HHSI/LHSI When the RCS is at normal operating pressure, full stroking the header check valves cannot be performed because the LHSI pumps will not develop the required flow, At cold shutdown full stroking cannot be performed because testing would require full flow injection to the RCS where thoto is not sufficient volume to receive the addstional inventory.

Alternate Test:

Full stroke exercised open at refueling per 20ST 11.14.

h r

i L

l

,.. ~,..,.

,~--.

, ~,

- - ~ + - - -

- - -- --------- ~ - - -

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Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 167 of 191 RELIEF REQUEST 13 Valve No.:

j 2CVS'93 l

\\

Category A/C Class 2

Function:

Containment Vacuem Radiation Monitor Pump discharge header.nside containment isolation check valve Test Requirement:

Quarterly full stroke Basis for Relief:

Valve is normally open. Safety function is closed for containment isolation. Full stroking closed cannot be performed during normal operation because this valve is located inside containment and is inaccessible. In addition, leak testing is required to verify closure 01 this valve, and if attempted at cold shutdown could delay plant startup.

Altarnate Test:

Valvo closure is verified by a taak test at refueling per 2BVi 1.47.5.-

RELIEF REQUEST 14 Valve No.:

2CCP'289 2CC P'290 2CCP'291 Category A/C Class 3

l Function:

CCP to Reactor Coolant Pump Thermal Larrier Heat Exchanger supply check valves.

Test Requirement:

Quarterly full stroke Basis for Relief:

Valves are normally open. Safety function is to close to isolate CCP from reactor coolant if a leak develops in the RCP thermal barrier hed exchanger. Valves cannot be full stroked during normal operation because the valveu are located inside the containmeni and leak testing is required to verify closure. In addition, leak testing if attempted at cold l

shutdown could result in a delayed plant startup, I

Alternate Test:

Valve closure is verified by a leak test at refueling per 2BVT 1.60.6.

l.

l

-~

~ _

Beaver Va!!ey Power Stat on Unit [

issue i Revision 9 INSERVICE TESTifJG (IST) PROGRAM FOR PUMPS AND vat.VES Page 108 of 191 RELIEF REQUEST 15 Valve No.:

2CCP'352 Category C

Class 3

Function:

SC 3 to NNS boundary isolation valve Test Requirement:

Quarterly full stroke Basis for Relief:

Valve is normally open. Safety function is closed to isolate NNS frorn SC-3 component cooling piping Testing during j

normal operation cannot be performed because leak testing is required to verify valve closure, which would cause i

extended interruption of cooling water to the instrument air compressors. In addition, leak testing if attempted at cold shutdown could result in a delayed plant startup.

Alternate Test:

Valve closure is verified by a leak test at refueling per 2BVT 1.60.6.

RELIEF REQUEST 16 Valve No.:

2 MSS

• 18 2 MSS'19 2 MSS *20 2 MSS

• 196 2 MSS

• 199 2 MSS'352 Category C

Class 3

Function:

Main Steam to Auxiliary Feed Pumps check valves Test Requirement:

Quarterly full stroke Basis for Relief:

Valves are normally closed. Safety function is to open for operation of the steam driven auxiliary feed pump and closed to prevent steam generator cross-connection during a hi0h energy line break. Full stroking closed for these valves cannot be performed during normal operation because leak testing is required to verify full closure, in addition, leak testing if attempted at cold shutdown could result in a delayed plant startup.

Alternate Test:

Valve closure is verified by a leak test at refueling per 2BVT 1.60.6.

--a a

--..mv.-, e v

e-

= -.

y

-t,4 me<g m

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VALVES Page 169 of 191 RELIEF REQUEST 17 Valve No.:

2SVS'80 2SVS*81 2SVS'82 i

Category C

Class.

2 Function:

Steam Generators residual heat release reverse flow check valves Test Requirement:

Quarterly full stroke Basis for Relief:

Valves are normally closed. Safety position is closed to prevent crosa-connection of steam generators during a high energy line break. Full stroking closed for theso valves cannot be performed during normal operation because leak -

testing is required to /crify full closure. In addition, leak testing if attempted at cold shutdown could result in a delayed plant startup.

Alternate Test:

Valve closure is verified by a leak test at refueling per 2BVT 1.60.6.

,_._.,4_,.

r w

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS Af4D VALVES Page 170 of 191 RELIEF REQUEST.

18 Valve No.:

2FWS'28 2FWS*29 2FWS'30 1

Category C

Class 2

Function:

Main Feodwater header isolallon check valves Test Requirement:

Quarterly full stroko Basis for Rolle!;

Valves are normally open. Safoty position is closed for

[

Feedwater isolation in the ovr'nt of a high energy line break.

Exercising during power operation is not possible since this would require stopping feedwater flow to the Steam Generators, resulting in a plant shutdown. Leak test ng to bo perfortned with steam generator lovel 2 85% is required to verify the valves are full closed because they have no position indication or weighted arms. Leak testing if attempted at cold shutdown could result in delayed plant startup.

Alternate Test:

Valve closure is verified by a leak test at refueling per 20ST-24.8.

D

.,,,:y w

v.

.- ~., -. -,

w y

.,-.r.--.,y_

4-

Leaver Valley Power Station Unit 2 Issue 1 Revision 9 INSERVICE TESTING (IST) FROGRAM FOR PUMPS AND VALVES Page 171 of 191 RELIEF REQUEST 19 Valve No.:

2FWE*99 2FWE* 100 2FWE'101 Category C,_

Class 2

Function:

Auxiliary Feedwater header to Steam Generators check valves Test Requirement:

Quarterly full stroke Basis for Relief:

Valves are normally closect. Safety function is.to open during Auxiliary Feed System operation. Veri 4 cation of full stroke closed is not possible during power operation because this involves a leak test to be performed with steam generator level 2: 85% Leak testing if attempted at cold shutdown could result in a delayed plant startup.

Alternate Test:

Valve closure is verified by a leak test at refueling per 20ST-24.8A. In addition, reverso direction testing will be performed by monitoring upstream pipe temperatures at least monthly by 20ST 24.1.

RELIEF REQUEST,_ 20 Valve No.:

25WS*MOV103A 2SWS'MOV103D i

Categor>'

B Class 3

Function:

RSS heat exchangers servico water supply isolation valves.

Test Requirement:

Quarterly full stroke and time Basis for Relief:

Valves are normally closed. Safety function is to open to supply cooling water to the RSS heat exchan0ers Valvo is-not cycled during plant operation as failure of the valvo in the open position would require plant shutdown. Failuro of the valve in the an position at cold shutdown would delay l

plant startup.

. Service Water System cannot simultaneously support normal plant operation and the RSS heat exchangers) l Alternate Test:

Full stroke exorcised and timed open at refueling per L

20ST-30.13.

Beaver Valley Power Station Unit 3 issue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 172 of 191 RELIEF REQUEST 21 Valva No.:

25WS* 1103 25WS* 1104 Category C

Class 3

i Function:

Service water to main steam valve house cooling headers check valves Test Requiremont:

Quarterly full stroke Basis for Relief:

Valves are normally open. Safety position is open to supply cooling water to main steam valve house coolin0 coils and closed to prevent draining the inlet lines to the MSVH cooling coils during a service water purnp trip on a loss of power. Full stroking in the closed pos) hon cannot be performed durin0 normal operation because isolation of the service water supply header in conjunction with a leak test is required to verify full closure. Isolation of the header is not s

r feptable because both SW headers are normally in u.vice, in addition, leak testing if attempted al cold shutdown could result in a delayed plant startup.

Alternate Test:

Valve closure is verified by a leak test at refuelin0 per 2BVT 1.60.6.

o E

u-be+

ff--

M m-g a

v

-e-d.e--P a.4.w--h r-d wi 4

m a

emp,+e w

w m

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ery*

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- Beaver Valley Power Station Unit 2 issue i Revmon 9

- INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 173 of 191 RELtEF REQUEST -

22 Valve No.:

2EGF'SOV2021 PMF'SOV202 2 2EGF'SOV2031 2EGF*SOV203-2 Category B_

Class _,3

~

Function:

Emer0ency Diesel Generator Air Starting Solenoid Valves Test Requirement:

Quarterly stroke and time / verify remoto position indication bi annually.

Basis for Relief:

These valves are quick sating and do not have position indication. Cperation of these valves will be monitored by liming the starting time to rated speed for each EDG.

Individual valves will be tested by isolating one t;ank of air prior to starting on an alternating frequency. This will insure cach bank is capable of starting the EDG in the required time and that the air starting Folonoids are not degrading, Alternate Test:

Stroked and Indirectly -.ned on an alternating frequency in conjunction with monthly diesel generator 20ST 36.1 and 36.2 to ensure compliance with ASME XI requirement for stroke testing on a quarterly frequency, Assign a limiting stroke time based on EDG starting requiremonts for ESF response time. (EDG ready to accept load $ 10 sec.),

1 p

-,w,.

,.n, y.

Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESilNG (IST) PROGRAM FOR PUMPS AND VAtXFS Page 174 of 191 ]

RELIEF REQUEST Ja._

Valve No.:

PCHS'MOV378 2CHS'473 C a t eg o r y _A_a_n d_. / Q_,

Class

?

A Function:

RCP seal water return line inside containment isolation valves Test Flequirement:

IWV-3426 and 3427(a) require Owner specified rnaximum perrnissable leakage ratos for bpecific valves as a function of valve size and type and provide the correctivo action to be followed when theso liinits are exceeded.

Dasis for Relief:

As shown on tha attached figuro for Penetration h19, the configuration of this containment penetration (i.e, two inside containtnent isolation valves in parallel) is such tha' individual leakage rates for each specific valvo cannot be determined using the test rnethod of 10CFR50, Appendix J.

In this case, assigning maximum permishable leakage rates for each valve would not be practical.

Alternate Test:

Assign a maximum permissable leakago rate for the entire barrier to then be used as the criteria for initiating corte;tive action in accordance with IWV 3427(a).

l

. _ _. - _ _ _ _ _. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - ' - - - ^ - - - - - - - - ~ ^ ^

^~ ^

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Beaver Valley Power Etation Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGR Al,4 FOR PUMPS AtJD VALVES Page 175 of 191 RELIEF REQUEST 23

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Beaver Valley Power Station Unit 2 lssue i l Revision 9 IfJSERVICF.1ESTitJG (IST) PROGRAM FOR PUMPS AtJD VAWES Pa0e 176 of 191 RELIEF REQUEST __L4___

Valve No.:

2CHS' AOV200A 2C HS' AOV2000 2CHS' AOV200C Category,

A_

Class 2

Function:

Reactor coolant letdown orifice inside (ontainment isolation valves Test Requirement:

IWV 3426 and 3427(a) reauire Owner specified maximum permissable leakage rates for specific valves as a function of valve site and type and provide the corrective action to be followed when these limits are exceeded, Basis for Relief:

As shown on the attached figure for Penetration ft28, the configuration of this containtnant penetration (i.e., three insido containment isolation valves in parallel) is such that individualleakage rates for each specific valve cannot be determined usino the test method of 10CFR50, Appendix J.

In this case, assigning maximum permissable leakago ratos for each valve would not be practical.

Alternate Test:

Assi0n a maximum permissable leaka00 rate for the entire barrier to then be used as the criteria for imtlaung corrective action in accordance with IWV 3427(a).

^

.. -. _ _. _ -.. _. _ _ _ _ _ _ - - - - - - - - - - - - _ - - - - - - - - - - - - - - - - - - - - - - - - - - " - - - - " " - ' - - - ' ' - " - - " ' - ' " - - ' - ' ' - " ' " - - " ' " - " - ' " " - - - - - - ~ ~ ~ " - - ' - ^ ^ - ' ' -

- Beavet Valley Power Station Unit 2 issue i Revmon 9 INSERvlCE TESTING (IST) PROGRAM FOR PUMPS AND vat.VES Page 177 of 191 DEL.lEF REQUEST 2L_,,

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i Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 178 of 191 RELIEF REQUEST 25 i

Valve No.:

2HVR* MOD 23A 2HVR' MOD 23D Category A_

Class 2

Function:

Containment purge exhaust fan containment isolation dampers Test Requirement:

IWV 3426 and 3427(a) requite Owner specified maximum permissable letkage rates for spucific valves as a function of valve size and typo and provide the corrective action to be followed when these limits are exceeded.

Basis for Relief:

As shown on the attached figure for Penetration #90. the confi uration of this containment penetration (i.e., a single 0

test connection located between two containment isolation dampers in series) is such that Individual leakage rates for each specific damper cannot be determined using the test method of 10CFR50. Appendix J. In this case, assigning maximum permissable leakage rates for each damper would not be practical.

Alternate Test:

Assion a maximum permissable leakage rate for the entire i

barrier to then be used as the criteria for inillatin0 corrective action in accordance with IWV 3427(a).

g l

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N

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w m

4 m

5 C

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n o

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PENETRATION

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Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERV'CE TESTING (IST) PROGRAM FOR PUMPS Af40 VALVES Page 180 of 191 RELIEF REQUEST 26 Valve No.:

2HVR' MOD 25A 2HVR

• MOD 25B 2HVR'OM P206 Category A

Class 2

Function:

Containment purgo supply fan containment isolation dampers Test Requirement:

lWV 3426 and 3427(a) requiro owner specified maximum permissable leakage rates for specific valves as a function of-valve sito and type and provide the corrective action to be followed when these limits are exceeded.

Basis for Relief:

As shown on the attached figure for Penetration / 91, the configuration of this containment penetration (i.e., a single test connection located between the three penetration isolation dampers) is such that individual leakago rates for -

each specific damper cannot bo determined using the test method of 10CFR50, Appendix J. In this case, assigning maximum parmissable leakage rates for each damper would not be practical.

Alternate Test:

Assign a maximum permissablo leakage rate for the entire barrier to then be used as the criteria for initiating corrective action in accordance with IWV 3427(a).

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Beaver Valley Power Stahon Unit 2 issue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 181 of 191.a REUEF REQUEST 26 i

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Beaver Valley Power Station Unit 2 issue 1 Revision 9 If4 SERVICE TESTING (IST) PROGRAM FOR PUMPS Af40 vat VES Page 182 of 191 RELIEF REQUEST 27 I

Valve No.:

20SS*SOV100A 20SS*SOV1006 Category A

Class __ 2 Function:

Chemicalinjection Pump discharge to containment sump isolation valves Test Requirement:

IWV 3426 and 3427(a) require Owner specified maximum permissable leakage rates for specific valves as a lunction of valve size and type and provide the corrective action to be followed when these limits are exceeded.

Basis for Relief:

As shown on the attached figure for Penetration #118 the confl uration of this containment penetration (i.e., two 0

outside containment isolation valves in parallel) is such that individual leakage rates for each specific valve cannot be determined using the test method of 10CFR50, Appendix J.

In this case, assigning maximum permissable leakage rates for each valve would t'ot be practical.

Alternate Test:

Assign a maximum permissable leakage rate for the entire barrier to then be used as the criteria for initiating corrective action in accordance with IWV 3427(a),

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l Deaver Valley Power Station Unit 2 issue 1' Revision 9 r_

INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 183 of 191 RELIEF REQUEST 27 l

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Ocaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 154 of 191 RELIEF REQUEST,_18 Valve No.:

See next page Category A and _A/C Class 2

Function:

Containment Isolation Test Requirement:

IWV-3426 and 0427(a) require Owner specified maximum pernussable leakage rates for specific valves as a function of valve site and type and provide the corrective action to be followed when these limits are exceeded, Basis for Relief:

As shown on the attached figure for the penetrations listed on the next page, the configuration of these containment penetrations (Le, two outside or two insido containment isolation valves in parallel, one valve being a relief valve) is such that individualleakage rates for each specific valvo cannot be deterrnined usin0 the test method of 100FR50, Appendix J. In this case, assigning maximum p3rmissable leakage rates for each valve would not be pri : cal.

Alternate Test:

Assign a maximum permissable leakage rate for the entire barrier to then be used as the criteria for initiating corrective action in accordance with IWV 3427(a).

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Deaver Valley Power Station Unit 2 issue i Revision 9 INSERVICE TESTING UST) PROGRAM FOR PUMPS AND VALVES Page 185 of 191 i

RELIEF REQUEST 28 _

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Penetration No.1 Valms 2CCP'MOV1571 & 2CCP'RV105 Penetration No. 2 Valves 2CCP'MOV1501 & 2CCP'RV102 Penetration No. 4 Valves 2CCP'MOViS1 1 & 2CCP'RV103 Penetration No. 5 Valves 2CCP'MOV156-1 & 2CCP'RV104 Penetration No.14 Valves OSWS'MOV153-1 & 2SWS'RV153 Penetration No. 20 Valves 2 SIS *41

& 2 SIS'RV130 Penetration No. 21 Valves 25WS'MOV1551 & 2SWS'RV155 Penetration No. 24 Valves 2RHS*15

& 2RHS'RV100 Penetration No. 25 Valves 2SWS'MOV1541 & 2SWS'RV154 Penetration No. 27 Valves 2SWS'MOV1521 & 2SWS*RV152 Penetration No. 29 Valves 2DGS* AOV108B

& 2DGS"RV115 Penetration No. 38 Valves 2DAS'AOV1008

& 2DAS*RV110 Penetration No. 45 Valves 2RCS*AOV519

& 2RCS'RV100 Penetration No. 55-1 Valves 2SSR'AOV109A2 & 2SSR'RV117 Penetration No. 56-1 Valves 2SSR' AOV102A2 & 2SSR*RV118 Penetration No. 56-2 Valves 2SSR' AOV128A2 & 2SSR'RV120 Penetration No. 56 3 Valves 2SSR'AOV100A2 & 2SSR'RV119 Penetrat'on No. 571 Valves 2SSR*AOV112A2 & 2SSR*RV121 Penetration No. 63 Valves 20SS*MOV101 A

& 20SS'RV101 A Penetration No. 64 Valves 2QSS*MOV1018 8 20SS*RV1010 Penetration No. 97-1 Valves 2SSR'SOV129A2 & 2SSR*RV122 Penetration No.106 Valves 2 SIS

• AOV889

& 2 SIS *RV175

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Ber.vur Vaitsy Power Station Unit 2

-Issue 1-Revision 9 p.

INSERVICE TESTING (ISTI PROGGAM FOR PUMPS AND VALVES' Page 186 of 191 RELIEF REQUEST 29 Valve No.:

2RCS'SOV200A 2RCS'SOV2008 2RCS'SOV201 A 2RCS'SOV201B 2RCS*HCV250A 2RCS*HCV250B s

Category B-Class

1.2 Function

Reactor Vessel Head Vent Valves Test Requirement:

Quarterly full stroke and time Basis for Relief:

Valves are normally closed and are only required to be opened during accident conditions. Westinghouse does not recommend these valver be tested at temperatures above 200F or pressures exceeding 300 psia. (Reference PSE SSA-4N3. dated February 8,1985. "Reac;or Head Vent / Cold Shutdown System Testing"). Degradation of the system can result from repeated strokes at greater than thase temperatures / pressures. Full stroking may not be per':,rmed during cold shutdown because ihe reouced pressure which is required to perform this test may not be.

obtainable. In addition, stroke testing if attempted at cold shutdown could extend the length of a plant shutdown due to extensive prepatory work in establishing the proper reactor coolant system conditions.

Alternate Test:

Full stroke exercised and timed open at refueling per 20ST-6.9.

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Beaver Valley Power 1,tation

. Unit 2 issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 187 of 191 P

RELIEF REQUEST 30 Valve No.:

See next page Category A.B Class... 1.2.l_

Function:

Various Test Requirement:

Stroke time trending, lWV-3417(a)

Basis for Relief:

Stroke times for rapid acting valves are affected by variations in the response time of personnel performing the test.

Therefore, trending stroke times for rapid acting valves is not practica! and relief from trending these valves is requested, Alternate Test:

Ascign a limiting stroke time of 2 seconds to these valves and delete trending requirements.

RAPID ACTING VALVES 2RCS*SOV200A 2CVS*SOV1518 2 PAS'SOV105A1 2RCS'SOV2006 2CVS*SOV152A 2 PAS *SOV105A2 2RCS'SOV201 A 2CVS*SOV152B 2 MSS *SOV105E 2RCS*SOV2018 2CVS *SOV153A 2 MSS *SOV105F 2RCS'PCV455C 2CVS'SOV153B 2HCS*SOV114A 2RCS*PCV455D O20SS*SOV100A 2HCS'SOV1148 2RCS *PCV456 02QSS'SOV1008 2HCS'SOV115A 2CHS*SOV206 020SS'SOV101A-2HCS'SOV1158 2GNS*SOV853A O2OSS'SOV101B 2HCS'SOV133A 2GNS'SOV8538 02QSS*SOV102A 2HCS'SOV1MB 2GNS*SOV853C O20SS'SOV102B 2HCS'SOV134 A 2GNS*SOV853D 2SSR' AOV112A2 2HCS'SOV134B 2GNS*SOV053E 2SSR*SOV128A1 2HCS'SOV135A 2GNS'SOV853F 2SSR'SOV128A2 2HCS*SOV135B 2GNS'SOV854A 2SSR'SOV129A1 2HCS'SOV136A 2GNS*SOV6548 2SSR'SOV129A2 -

2HCS'SOV1368 2CVS*SOV1(2 2SSR'SOV130A1

'2CVS*SOV151 A 2SSR'SOV130A2 OStroked in both directions, but rapid-acting in open direction only.

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Beaver Valley Power Station Unit 2 issue 1 Revision 9 INSERVCE TESTING (IST) PROGRAM FOR PUMPS AND VALVES PaDe 188 of 191 RELIEF REQUEST 31 Valve fJo.:

2PHS

• 100 2PHS

• 101 2PHS

• 110 2PHS*111

^PHS

• 112 2PHS* 113

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Class 2

h.

Containment Isolation (Personnel Air Lock) ement:

Leak tested per IWV-3420. In addition, IWV-3426 and 3427(a) require Owner specified maximum permissable leaka00 rates for specific valves as a function of valve size and type and provide the corrective action to be followed when these limits are exceeded.

Basis for Relief:

These containment isolation valves are leak tested in accordance with 10CFR50. Appendix J, Type B. Since the acceptance crtieria for Appendix J. Type B testing is more limiting than ASME Section XI, additional leak testing in

^ ordance with ASME Section XI would be redundant. In o

addition, as shown on the attached figure for the Personnel Air Lock, the configuration of this containment peaetration (ie., a single test connection located in the airlock between six airlock equalization valves) is such that individual leakage rates for each specific valve cannot be determined using the test method of 10CFR50, Appendix J. In this case, assigning maximum permissable leakage rates for each valve would not be practical.

Alternate Test:

Leak test semi-annually in accordance with Technical Specification 4.6.1.3.b.1.10CFR50, Appendix J and IWV-3426 per 2BVT 1.47.8. In addition, assign a maximum permissable leakage rate for the entire airlock to then be used as the criteria for initiating corrective action in accordance with IWV-3427(a).

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' Beaver Valley Power Station Unit 3 issue i Revision 9 ~

-lNSERviCE TESTING flST) PROGRAM FOR PUMPS AND VALVES Page 189 of 191.

RELIEF REQUEST 31

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Unit 8 Issue 1 Revision 9 INSERVICE TESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 190 of 191 relit!F HEQUEST 32 Valve No.:

2PHS'201 2PHS'202 Category A

Class 2

Function:

Containrnent Isolation (Emergency Air Lock)

Test Requirement:

Leak tested per IWV-3420. In addition, IWV-3426 and 3427(a) require Owner specified maximum permissable leakage rates for specific valves as a function of valve size and type and provide the corrective action to be followed when these hmits are exceeAd.

Basis for Relief:

These containment isolation valves are leak tested m accordance with 10CFR50, Appendix J, Type B. Since the acceptance crtieria for Appendix Ji Type B testing is more limiting than ASME Section XI, additional leak testing.in accordance with ASME Section XI would be redundant, in addition, as shown on the attached figure for the Emergency Air Lock, the configuration of this containment penetration (ie., a single test connection located in the airlock between two airlock equalization valves) is such that individual leakage rates for each specific valve cannot be determined using the test method of 10CFR50, Appendix J. In this case, assigning maximum permissable leakage rates for each valve would not be practical.

- Alternate Test:

Leak test semi-annually in accordance with Technical Specification 4.6,1.3.b.1,10CFR50, Appendix J and IWV-3426 per 2BVT 1.47.10. In addition, assign a maximum permissable leakage rate for the entire airlock to then be used as the criteria for initiatin; corrective action in accordance with IWV 3427(a).

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Beaver Valley Power Station Unit 3 Issue i Revision 9 l

INSERVICE 1ESTING (IST) PROGRAM FOR PUMPS AND VALVES Page 191 of 191 RELIEF REQUEST 32 I:t e,Yd z

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