Forwards Draft Revs to FSAR Tables 3.9.3-13 & 14,per Sser 3 (NUREG-1038),Section 3.10.1, Operability Qualification of Mechanical Equipment. Two New Columns (Methodology & Notes) Added to Tables

ML18019B016
Person / Time
Site:	Harris
Issue date:	06/12/1986
From:	Zimmerman S CAROLINA POWER & LIGHT CO.
To:	Harold Denton Office of Nuclear Reactor Regulation
References
RTR-NUREG-1038 NLS-86-220, NUDOCS 8606170104
Download: ML18019B016 (59)
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Text

REQUL TORY INFORNATIQN DISTRIBU N BYBTEl'l (R IDS)

ACCESSIQN NBR: 8606270204 DOC. DATE: 86/06/22 NOTARIZED: NQ DOCKET ¹ i

FACIL: 50-400 Sheav on Hav v s Nuclear Pojjjer Plant> Unit 1> Cav olina 05000400 AUTH. NAWE AUTHOR AFFILIATION ZXNNERNAN> S. R. Cav olina Pojjjer Zc Light Co.

REC IP. NANE REC IP X ENT AFFILl AT ION DENTQN> H. R. Office of Nuclear Reactov Regulation. Div ectov (post 851125

SUBJECT:

Fovjjjards dvaft revs to FSAR Tables 3. 9. 3 13 Zr 14> pev'BER 3 (NUREQ-2038) Section 3. 10. 1> "Qperabi li tg Qualification o f Nechanical Equipme'nt. " Tuo neu columns (methodology 8'c notes) added to tab I es ~ ~

DISTRIBUTION CODE: BOOID TXTLE: Li censing COPIEB RECEIVED: LTR I ENCL g SIZE:

Submit tal: PSAR/FSAR Amdt s 8c Re lated Corv es p ond en c e NOTES: Application fov pevmit v enejjjal filed. 05000400 REClP I ENT COPlES RECIPIENT COP IES XD CODE/NAI')E. LTTR ENCL ID CODE/NANE LTTR ENCL PWR-A EB 2 1 PWR-A EICSB 2 2 PWR-A FOB 1 PWR-A PD2 LA PWR-A PD2 PD 1 1 BUCKLEY> B 02 2 Z PWR-A PSB 1 1 PWR-A RSB 1 1 INTERNAL: ADN/LFNB 1 0 ELD/HDB1 1 0 XE FXLE 2 1 IE/DEPER/EPB 36 1 IE/DGAVT/GAB 21 NRR BWR ADTS 0 NRR PWR-B ADTS 2 0 NRR ROE> N. L 1 NRR/DHFT/HFIB NRR/DHFT/NTB 04 2 RQN2 3 3 RN/DDAf'lI/RIB 0 EXTERNAL; 24X BNL(ANDTB ONLY> 2 1 Dj18/DSB (Al'fDTS) 1 1 LPDR 03 1 NRC PDR 02 1 NSIC 05 1 PNL QRUEL.R 1 TOTAL NUj)BER OF COPIES REQUIRED'TTR 32 ENCL 27

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Carolina Power 8 Light Company SERIAL: NLS-86-220 JUN ~S ISSe Mr. Harold R. Denton, Director Office of Nuclear Reactor Regulation United States Nuclear Regulatory Commission Washington, DC 20555 SHEARON HARRIS NUCLEAR POWER PLANT UNIT NO. 1 DOCKET.-NO.50-000 PUMP AND VALVEOPERABILITY REVIEW

Dear Mr. Denton:

Carolina Power R Light Company hereby submits draft revisions to Shearon Harris FSAR Tables 3.9.3-13 and 10 (list of active valves). The staff requested this information in Safety Evaluation Report, NUREG-1038, Supplement No. 3, Section 3.10.1, Operability Qualification of Mechanical Equipment, as part of the pump and valve operability review. We will docket a final list prior to fuel load.

Two new columns (Methodology and Notes) have been added to the tables in response to the staff's request that safety-related NSSS and BOP valves qualified by analysis only be identified. These new columns provide specific information regarding the qualification of each valve. Also included are two pages with definitions of the notes used in the columns.

The two new columns are included in the attachment to this letter to assist the staff in resolving this confirmatory issue, but will not be included in the FSAR amendment.

If you have any questions, please contact Mr. Pedro Salas at (919) 836-8015.

Yours very truly, S.. Zi merman ager Nuclear Licensing Section PS/pgp (3971PSA)

Cct Mr. B. C. Buckley (NRC) Mr. 3ohn D. Runkle Mr. G. F. Maxwell (NRC-SHNPP) Dr. Richard D. Wilson Dr. 3. Nelson Grace (NRC-RII) Mr. G. O. Bright (ASLB)

Mr. Travis Payne (KUDZU) Dr. 3. H. Carpenter (ASLB)

Mr. Daniel F. Read (CHANGE/ELP) Mr. 3. L. Kelley (ASLB)

Wake County Public Library Mr. T. S. Moore (ASLAB)

Mr. Wells Eddleman Dr. R. L. Gotchy (ASLAB)

Mr. H. A. Wilber (ASLAB) 8606170104 860612 PDR ADOCK 05000400 E PDR 411 Fayettevilte Street o P. O. Box 1551 o Raleigh, N. C. 27602 8<o<

Notes to Tables 3.9.3-13 and 3.9.3-14

1) A+ indicates analysis of static conditions. A'esignates analyzed to tested valve. T designates tested.

2) The test valve is identical to the tested valve.

3) The subject and tested valves are identical except for body min wall.

The tested valve covers the subject valve because the difference in min wall is insignificant.

4) The subject and tested valves are identical except for body material.

The tested valve covers the subject valve because the difference in body materials has insignificant impact.

5) Subject and tested valves identical except body size which is addressed and justified in EQ report.

6) Based on material, size, and pressure class, the tested valve covers the subject valve.

7) Subject and tested valve are identical except for port size.

8) The only difference between the subject valve and the tested valves is the motor insulatio'n type.

'9) Operability testing is not required on check valve.

10) Valve analysis only. Justification accepted by NRC. See SER NUREG-1038, Supplement 3, Section 3.10.1.2.

ll) Seismic Deflections of the subject valve were also determined analytically and shown not to affect operability.

12) Combination test and analysis. Actuator and accessories qualified by test. Assembly analyzed.

13) Valve 1CS-L500SN, 3" globe valve, tested by Westinghouse.

14) Valve 2CS-V605SA, 4" gate valve, tested by Westinghouse.

'I

15) Crosby relief valve 1RC-528SN, 6" relief valve, actually tested by Westinghouse.

,i;iti,~~5

16) Valve 2CS-V600SB, 2" globe valve, tested by Westinghouse.

17) Natural frequency test of assembly performed.

18) Valve 2CS-V511SA, 2" globe valve, tested by Westinghouse.

19) Valve 3CC-B6SA, 18" butterfly valve tested by CPSL.

20) Valve 1RH-V503SB, 12" gate valve tested by Westinghouse.

21) Hand operated, NDT required to be tested.

22) Based on material, size, and pressure class, the tested valve covers the subject valve. I

t't)t, e tl'>>

TABLE 3,9,3-13 HSSS SISV'LIED ACTIVE CLASS I 2 AN) 3 VALVES Systea Systea Ebesco Westinghouse Envlronaentei Seiety Design Operating

~ttaa ~ttaa ~tt t tt a tttt tt ~t ttu t ta t t ct t~att a tttt tt* Function t~atat t t' tat 1~285M I 80IOA,B,C RC RCB Re I I el Se I I- Crosby I 1500 2485 ps I g 6 Pressurl 4 ed Set ety T 2 529 actuated 589 F 530 2RC-V52558 1-8046 RC RCB Check Nest lnghouse 2 150 3 pslg 3 Conte I naent H/A 120 F Isol sf lon 2RC&52558 I 8028 RC RAB 16) Diephrega Air Gr 1nne I I 150 3 pslg 3 Conte) naent 120 F I sol et ion Al 2RC&528SA I 1~7 RC RCB 0 I 4 phrega AI r Gr Irma I I 150 3 pslg I Confelnaen't 120 F I sol of loll 2RCM2958-I 1~33 RC RCB Dlephrega, Air Gr Irma I I 150 3 pslg I Conte I anent 120 F I so I et Ion 2CS-V516SA 1 &112 CS RCB il ) Globe Notor Ve I en 1500 150 ps)g 2 Cental naent 200 F lsol sf lon A'CS V51758 1-8100 CS RAB (6) Globe Notor Ve I en 1500 150 ps I g 2 Conte lnaent 200 F Isolef loll ICS-VSOSSN 1-8378 CS RCB Check Nest lnghouse I 1500 2435 ps lg 3 RCS Press. N/A 560 F Bound, Isol ~

ICS-V506SN 1-8379 CS RCB liest inghouse I 1500 2435 ps lg RCS Press. H/A 560 F BOund, ISOI ~

t TABLE 3,9,3-13 (Cont'd)

NSSS SLH'LIEO ACTIVE CLASS I 2 AN) 3 VALVES

'ystea Systea Wst lnghouse Envlronaenta Sat ety Operat lng

~T Ebasco

~T~ ~>>t l tl h ttfl tl I

~T>> ~rater Nanuf acturer Class Design R~at In Cond l t iona S I ze Function ICS V504SN 1 &347 Westinghouse I 1500 2435 pslg RCS Press, N/A 9 560 F Bo nd. Iso(.

I CS-V507SN 1 &346 Check Wst lnghouse I 1500 2435 pslg 3 RCS Press>> N/A 560 F Bound, Isol ~

I CS-L500SH I LCV-460 CS RCB (2) Globe Air Copes Vulcan I 2485 psig RCS Press.

589 F Bound. I sol ~

to ICS-L501SN I LCV 459 CS RCB (2) Globe Air Copes Vulcan I 2485 pslg RCS Press,

>>t>>

>>t>>

589 F Bound, I so I.

a 2CS V515SH )-8381 ilestlnghouse 2 1500 2340 pslg 3 Contalnaent N/A 130 F Isolation 2CS-V610SA I 8)07 (6) I(eat lnghouse 2 1500 2670 pslg 3 Conte I naent 170 F Isolatloll A'CS-VS IBSB 1-8152 (6) Globe Air Copes Vulcan 2 600 pslg 3 Conte lnaent 382 F I sol at Ion A'>>

2CS-V60958 1-8108 (6) Gate Wet inghouse 2 2670 pslg ECCS Operat ion 170 F ICS-V51058-I 1-8153 0 lobe Air Copes Vulcan I 2485 pslg ESF A~

589 F ICS-V509SB-I 1-8154 Gl obe Air Copes vulcan I 1500 2485 psig I ESF A' 589 F

k TABLE 3,9,3-13 (Cont>6)

HSSS $ (@PLIED ACTIVE CLASS I 2 A)4) 3 VALVES Systen Systen Vestlnghouse Envlroneental Salety Design Operating

~T Ehasco

~T~ ~ST I tl n I II l tl ~T Cu I II I CI I~>tl C dltl Sl* Function 2CS-V565$ A 1-8106 CS (6) Gate Nestlnghouse 2 2350 pslg 3 ECCS Operat Ion A' 130 F 2CS-V612$ A )-6926 Check Nest inghouse 2 220 pslg 8 ECCS Operation 2(N F 2CS-V605$ A I<133A>8 CS (6) Gate Westinghouse 2 2670 pslg 4 ECCS Oparat Ion V60658 170 F 2CS-V603$ A 1-8132A,B CS (6) Nest lnghouse 2 2670 pslg 4 ECCS Operation V604$ 8 170 F 2CS-V594$ A V596SB I I A>8>C CS Check 6)> Nest)chouse 2 1500 2670 ps) 9 3 ECCS Operation H/A V595$ AB 170 F 2CS-V600$ 8 V602SB l&109A>8>C CS (6) Globe Velan 1500 2350 ps I 0 2 ECCS Operet Ion V60)SAB 130 F 2CS-V569$ A I &13IA,B CS (6) Gate Notor Vest )nghouse 2 150 15 pslg 8 ECCS Operation V590$ 8 115 F (6) Notor Nest lnghousa 2 pslg 8 Oparat (on A>

A'CS-V587SA l&130A>8 CS Gate 150 15 ECCS V56658 115 F 2CS-L520$ A-I I-LCV-)15C,E CS (6) Gate Nest lnghouse 2 150 75 pslg 4 ECCS Operat lon L52158-I 250 F A'/A 2CS-V563$ H 1-6440 Check West ln9house 2 150 15 pslg ECCS Operat Ion 115 F 2CS-LS23SA-I L522$ 8 I I LCV-1158,0 P RAB (6) Westinghouse 2 150 15 pslg 115 F 8 ECCS Operat lon A'

-v w TABLE 3,9,3-13 ICont ld)

NSSS SIH'LIEO ACTIVE CLASS I 2 AIE) 3 VALVES Systee Systee Ebasco

~ttte ~l~

Westinghouse

~tt t tt Envlronaental A tttt tt ~t tttt t tv t t Safety ct Design t~ttt Operating t tttt St Function 2CS-V56658 1-6104 CS . RAB 16) Globo Notor Ve I an 2 1500 15 pslg 2 Safe Shutdown 150 F 2CS V511SA V512SA I-6149A>BtC CS RCB 12) GIObe Air COPaS VulCan 2 1500 600 PSlg 2 Conte lnnent V5)3SA 382 F Isol at loA IRH-V50358 I -6701A Nest lnghouse I 1500 2235 ps lg 12 CAAfalAeent 620 F I sol at ion IRH-V502SA I 8702A Gate liest lnghouse I 1500 2235 psig 12 Conte irma nt 620 F I sol at ion IRH-V50158 1-87018 Gate NeStlnghnuSA I 1500 2235 pslg 12 Conte ineent 620 F Isolation IRH-V50058 1-87028 Gate NeatinghOufe I 1500 2235 pslg 12 Conte lneent 620 F I sol af lon 2CS-R557SN I-8492A CS RAB Relief Selt- westinghouse 2 2500 2712 psig 2,'xll Systee Over acfuafed 130 F Pressure Protection 2CS-R558SN 1-849?8 CS RAB Relief Sel I- Nesfinghouse 2500 2712 psig 2)ttl ) Systee Over acfuafed 130 F Pressure Protection

TABLE 3,9,3-13 (Cont"d)

Hsss sUpp(IEQ AGTIYE cLAss I 2 Ard) 3 vALvfs Systen Systes Ebasco Westinghouse Enulronaanfsl Salary Design Operat>ng

~II>4 ~>t I tl h Ilti ti ~t >u I I tltl A'2,

~t N I >I ~l>tl c Function 2CS V 52258-I I -8102A CS RAB Globe Notor Vs(an 2 23iO pslg ii Contslnaent 7 130 F 1solsf lon 2CS V523SB I 1-81028 CS RAB Globe Nofor Valse 2340 psig I) Conte insant A' 12, 7

)30 F Isolsf Ion 2CS-VS2lSB-I I <102C CS RAB G I nba Notor Ve I sn 2340 pslg I/ Conte ineant ~

12, 7 130 F Isolst ion 2RH-V509SA I -8716A >8 'Nest inghousa 2 600 pslg 10 ECCS Operation H/A V50858 350 F 2RH-V50658 1-87068 Gate West lnghouse 2 600 pslg 350 F 8 Ace Ident Nl t l get ion A'2> 22 2RH-V507SA I 8706A RH RAB liest I nghouse 2 600 ps(

350 F g 8 Accident Nit(get(on A'2> 22 IS I-V507SA V508SB I-8998A>B>C Sl RCB Check Wast lnghouse I 1500 2i85 ps I g 6 ECCS Oparst ion H/A V509SA 350 F 2S I-V506SA I -8801A >8 5I RAB (6) Gate MaSt lnghnuSe 2 1500 2635 pslg 3 ECCS Operar ion V 50558 300 F A'SI V503SA I -8803A >8 5I RAB (6) Gare WeSt inghOuSe 2 1500 2635 psig ECCS Operat ion V50lSB 300 F 1-8885 Sl RAB (6) Gars Westinghouse 2 1500 2635 psig 3 ECCS Operation A' A'SI-V502SA 300 F

f n

1 TABLE 3,9.3-13 ICont>>I) f HSSS SLH'LIED ACTIVE CLASS I 2 AM) 3 VALVES Systee Systee Weat lnghnuSe Envlronaenta1 Salety Ebasco lk4 ~T~ ~st > tl ~llfi I ~T >u > K f t >I Design R~ll Operating

> dltl Function 25 I-V50158 1-8886 SI RAB 16) Gate NOtnr Weat I nghOuSe 2 2635 psig ECCS Operation A' 300 F 2S I V500SA 1-8884 5I RAB 16) Nntnt'eet In9heuSe 2 2635 psig 3 ECCS Operet lon 300 F 2S I-V55458 I 8860 SI RCB 0 aphragn 1 Alr Copes Vulcan 2 660 pslg I Conte I naent 120 F Isolation 2S I-VSS5SA )-8871 5I RCB Dl ephraga Alr Copes Vulcan 2 2485 pslg 3/4 Conte inaent Ala) F I so I e t Ion 2S I V 53058 1-8880 5I RCB 0 I aphraga AI r Copes Vulcan 2 700 pslg I Conte lneent I so at Ion A51-V512SA 120 F 1 I

V51358-I I 8993A>B,C SI Check Westinghouse I 1500 2485 pslg 6 ECCS Operation H/A V514SA-I $ 50 F 2SI-V537SA-I VS3658-I 1-8808A,B>C SI Gate Notor Westinghouse 2 1500 2485 pslg 12 ECCS Operation V535SA-I AIS 151-V544SA-I V54558-1 I 8956A,B,C Sl Check IP westlnghnuSe I 1500 2485 pslg 12 ECCS Operation H/A V546SA-I AI6)

ISI-V547SA-I V54858-I 1-8948A,B,C SI CheCk Ap WeStinghnuSe I 1500 2485 pal g 12 ECCS Operat I On H/A V549SA-I 704)

TABLE 3,9,3-13 ICont'd)

HSSS SUPPLIEO ACTIVE CLASS I 2 AIE) 3 VALVES Systen Systen Ebasco West lnghouse Envlronnental Saiety Design Operating

~tl>> ~tt>> ~lt l tl h tt f1 tl ~T tt>tt t Il I t >I >~tt T tltl Tl** Function 1$ 1-V584$ A-I V585$ 8-1 l&973A>B,C Sl RCB Check tp Westinghouse I 1500 2485 pslg 6 ECCS Operation H/A V586$ A-I 359 F 2Qbf 51258 FCV~AIS RH RAB F I o-Ctr I ~ Notor Ve I an 2 600 600 psl 9 Homal Operation'

>>> F513$ A 350 F

~ 0 2AH-V507$A I I 8706A RH RAB Gate N westinghouse 2 300 600 ps ig Accl tent I

~ 4 350 F Nit l get Ion A/A 2AH V506$ 8 1%7068 Gate N WeSt lnghOuSe 2 300 600 pal g 8 Acc I dent 350 F Hitlgation 2$ 1 V581SA 1%974A>8 $1 RCB Check West inghouse 2 1500 2485 pslg 10 ECCS Operat ion V 58058 350 F 2$ 1-VS79$ A I -8888A >8 5I RAB 16) Gate west lnghouse 2 1500 2485 psig 10 ECCS Oper4t ion V578$ 8 350 F 2$ 1-V577$ A 1-888)A,B 5I RAB 16) West lnghouse 2 600 535 psig IO ECCS Operation A/A V576$ 8 350 F 1$ 1-V510$ A 1-8988A,B SI RCB Check WeetingheuSe I 1500 2485 psig 6 ECCS Operation V511$ 8 350 F 2$ 1-V587SA I 8889 $1 RAB 16) Gate Hotor westinghouse 2 1500 2485 pslg 10 ECCS Operation 350 F A

2$ 1-V571SA I 881IA,B Si RCB 16) Gale Hot or Westinghouse 2 300 400 psig 14 ECCS Operation V 57058 350 F

TABLE 3.9,3-13 (Cont>d)

HSSS SLPPLIED ACtIVE CLASS I 2 AH) 3 VALVES Systen Systen Envlroneenta Salety DesIgn

~T Ebasco

~T~

Westinghouse

~>t > tl n IIII tl I

~>u ~

a> > II t > Ct >~tl Operating C >I>I Function 2SI V573SA I -8612A >8 SI (6) Gate Westinghouse 2 400 pslg 14 ECCS Operation VS)258 350 F 251-V575SA 1-6609A,B SI (6) Gate Westinghouse 2 400 psig 14 ECCS Operation V57458 350 F 251 V59ISA l&958A>B Sl Check Westinghouse 2 400 pslg 14 ECCS Operat Ion V 59058 350 F 2CS-V757SA 8490A >8 0 I obe Notor Ve I an 2 1500 2350 pslg 2 ECCS Operat Ion V)5958 130 F 2CS V)5658 8489A,B G lobe Notor Ve I an 2350 pslg 2 ECCS Operat (on 760SA 130 F 2S I-V55058 I ~I SI RAB Globe Alr Copes Vu I can 2 2485 pslg iVEI F 3/4 Conte lneent I sol at Ion 3CC&5SA I&370 (6) Butter( I y Notor Cont intel 150 108 pslg 18 ECCS Operation 112 F 1-9371 (6) But terl 1y Notor Cont intel 108 pslg 18 ECCS Operation 112 F (6) Butterlly Notor Contlntal 150 108 pslg 18 ECCS Operation 105 F 3CC~ I +365 (6) Butterfly Rotor Contlntal 150 108 pal g 18 ECCS Operation 105 F 2CC-V 169SA I+460A>8 CC RAB (6) Gate Notor Ve lan 150 106 pslg 6 I so let Ion V17058 105 F

v TABLE 3ogt3 13 ICont 4)

NSSS SUPPLIED ACTIVE CLASS I 2 AM) 3 VALVES Systea Systea Env ironaenI 4 I Safety Operating

~T~ ~T~

Ebasco Hestlnghouse

~St I tl a l Ill I ~Tp a t It I I Cl Design R~tl C dltl Sl* Function w~i 2CC V)7 I SH l&500 CC RAB O>>ok 8P Ve I an 2 150 108 ps ig 6 Conte l anent N/A 9 105 F I so I et Ion 2CC-V I 7258 1-9485 CC RAB 16) Gste Notor Ve I an 150 108 psig 6 Contelnaent 10 105 F I sol at ion 2CC-V18258 1 <486 CC RAB 16) Gate Hotor Ve I an 150 108 pslg 6 Conte I naent IO 125 F Isolation 2CC V I 73SH 1-9504 Check Velan 150 108 psl9 6 I so I at Ion H/A 105 F 2CC-V183SB I 9482 CC RAB (6) Gate Hotor Ve lan 150 108 ps ig 6 Conte inaent 10 115 F I sol et Ion 2CC-V184SA 1-9481 CC RCB ll ) Gate Notor Ve lan 150 108 pslg 6 Cont a inaent 10 115 F I sol et ion 2CC V19058 1-9484 CC RAB (6) Gate Notor Ve I an 1500 108 ps I g 4 Containaent'solation 10 122 F 3CC-V162SA-I V 1 6458-1 I 9390A,B,C CC RAB Check 6P Ve I en 2 150 108 psig 18 ECCS Operation N/A V I 63SAB-I 116 F 2VL-D65058-I 1-7136 HL RAB 16) Diaphrega Air Grinnei 2 150 125 pslg 3 Conte ineent A' 130 F IsoI et Ion

TABLE 3,9,3-13 (Cont'4)

NSSS S(%PLIED ACTIVE CLASS I 2 A)O 3 VALVES Staten Staten

~T Ebasco Nestlnghouse

~Y~ ~it t tl Envlronnentai h I l f1 tl ~1 ~t N I I Sa(ety CI Design R~ll Operating C dltl ~ I** Function Air A' A',

2VL L600SA I I-LCV-1003 (2) Globe Copes Vulcan 2 125 pslg Contalnnent 130 F I so I at Ion 2NS-VISAS CQL&VASV-I NS RAB (5) 0 lobe PI ston Roc kue I I 1091 pslg 34 N,S,I,VS II 557 F A',

2HS-V258 CQL-HSVASV-I HS RAB (5) Globe Piston Rockwe I I 1091 ps ig 34 NoS ~ I ~V ~ Ai 6I 11 557 F 2NS-V3SAB CQL&VASV-I NS RAB (5) Globe P I ston Rockwe I I 1091 psia N,S,I,V, 11 557 F 2CC+2SN I WCV~S CC RAB Gate Notor Ve I an 108 psig 4 ESF 122 F XC LISA I I LCV470 CC RAB Ol aphrage Air Gr Irma I 108 pslg 3/4 ESF 122 F XC-L2SA-I I-LCV<76 CC RAB 0 1aphrage Air Gr Irma I 150 108 pslg 3/4 ESF 122 F ACC-V 1 9 ISA I 9483 (I I Gate Notor Ve lan 2 1500 108 psig 4 Containnent 10 122 F I sol at Ion XC-V165SA I-9431A CC RAB (6) Gate Hotor Vs(an 150 108 ps( g 12 ECCS Operat lon IO 145 F XC-VI 6758 I 94318 CC RAB (6) Gate Hotor Ve lan 150 108 ps ig 12 ECCS Operat ion 10 145 F

TABLE 3.9.3-13 (Cont ~d)

NSSS SUPPLIED ACTIVE CLASS I 2 AIO 3 VALVES Systen Systen Ebasco Iiestlnghouse Envlroneental Salety Design Operating

~Y~ ~Y~ ~5t I tl n llfi tl ~t Operator Nanuiacturer Class R~atln Conditions Size Function st 2'-0590SA- I 1-7126 NG RCB 0l aphrage Air Gr Irma l 2 pslg 3/4 Conte I anent A' 100 F I so let ion 2IC429158-I 1-7150 Oi aphragn Air Gr lnne I 2 pslg 3/4 Conte 1neent 100 F I solat lon 3CC4547SA-I Olaphragn Air I TT~lnnel 150 108 psig ECCS Operation 13 105 F 3CC454656-1 Olaphragn Air I TT~Innel 150 108 psig ECCS Operation A' 150 F

TABLE 3,9,3-1 a NON~SS SIEVE.IED CLASS I 2 Aid) 3 ACTIVE VALVES Valve Design Systen Env, Salety Rating

~T~ ~tt l tl ~t ~T OEerator Nanulacturer C I ass (ANSI d)

Design Conditions Size (Inches-ID) Function m~t~ t RAB (3) f lou Globe Control Electro/

Hydraulic Nasone I I an 1600 ps(

g 125 F g ESF Operation A'2, 13 RAB L3) F lou Control 0 lobe Electro/

Hydraulic Natonal I an 1600 g 125F pslg ESF Operation A'2, 13 RAB L3) F lou Globe Control Electro/

Hydraulic Nasone I I an 1600 psig g 125F ESF Operation A'2, 13 4l 4l I

4l RAB (3) Floe Control Globe Electro/

Hydraulic I TT/Hence I Oahl 3 1600 pslg

~ 125 F ESF Operation A2, 13 a

RAB (3) f Ion Control Electro/ ITT/Haeeel Dahl 1600 pslg ESF Operation 12, 13 Globe Hydraulic g 125F RAB (3) f lou Globe Control Electro/

Hydraulic I TT/Haeee I Dab l 3 1600 pslg g '125 F ESF Operation A'2, 13 RAB LS) Press.

COntrOI GIObe Electro/

HydrauilC I TT/Haane I Dab l 3 1600 g 125f psig ESF Operation A'2, 13 RAB (3) Press, E lectro/ ITT/Haeeel Dahl 1600 pslg ESF Operation Al 12, 13 Control Globe Hydraulic g 125F 3AF-VISA AF RAB (3) Check Pacilic 1600 psig ESF Operation N/A 9 g 125 F 3AF -V258 AF RAB (3) Check Pac I I I c 1600 psig ESF Operation N/A 9 g 125F

TABLE 3,9,3-14 lcont lnued)

NON~SS SIN'LIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Design Systen

~t>~ ~dt I tt Env>

et ~t 0~crater Nanutacturer Safety Class Rat lng IANSI I)

Design Cone It lons Size I)nenes-ID) Function t~>I00 I t t > I 3AF-V3SAB RAB 13) Check Peel I lc 3 1600 ps ig ESF Operation N/A 9 8 125 F 3AF-VBSA AF RAB LS) Check Pacilic 1600 pslg ESF Operat ion N/A 9 8 450F 2AF-V I OSAB AF RAB 13) Gate Anchor~r I ing 2 1600 pslg Conte lnnent 12, 14 8450F I so I at Ion 2AF-V19SB AF RAB l3) Gate Anchor~r I lng 2 1600 pslg Conte lnnent 12> 14 8 450F Isolation 3AF-V I TEA AF RAB 13) Check Pac I I ic 1600 pslg ESF Operat Ion N/A 9

~ 450 F 3AF-V2 ISA AF RAB 13) Check Pac I I I c 1600 ps) g ESF Operation N/A 9

~ 450 F 2AF-V23SB AF RAB I3) Gate Anchor~r I lng 2 1600 pslg Containnent 12, 14 8 450 F I so I at Ion 2AF-V 1 56-SAB-I AF RAB L3) Gate Piston Anchor~r I I ng 2 1860 pslg Conte ineent 12> 14 8 450 F Isolation 2AF V 1 57-SAB-I AF RAB 13) Gate Piston Anchor-Dar I lng 2 1860 pslg f Con a I nee n t 12, 14 t 450F I so I at Ion 2AF-Vlyy-SAB-I AF RAB 13) Check Anchor~r I ing 2 1185 pslg ESF Operation N/A 9 t 450F 2AF-V158-SAB-I AF RAB I3) Gate P I ston Anchors I I ng 2 1860 ps ig Conta lnnent 12, 14 8 450F I so I at Ion

TABLE 3,9,3-14 (contlnuea) 189HISSS APL IEO CLASS I 2 AI4) 3 ACTIVE VALVES

~ t f v ~ Valve Design Systea

~t~ S~t I tI Env, n I ~Z ~oratory 'nterer Soloty Class Rating IANSI P)

Des Cond I go I tines Sire l Inches-ID) function Itttt 2AF-V 1 79-SAB-I AF RAB 13) Check - .g<;s~~rl lng 2 118S pslg ESF Operation N/A 9 "l ~ 450 F 2AF V166-SAB-I AF RAB 0) G I obe 0l aphraga ITT/Henna I Dab l 2 IXO pslg Conte lnaent 12, 18

~ 450 f I so I at Ion 2AF-V182-SAB-I AF RAB 0) Check Anchor-Dar I lng 2 1185 pslg ESF Operet lon N/A 9

~ 450 F 2AF-V)62-SAB-I AF RAB 0) 0 lobo 0laphraga ITT/Haaae I Bah l 2 IXO pslg Conte lnaent )20 18 8 450 F I so I at )on 2hf-V163 SAB I AF RAB 13) 0 lobe 0 I a phr ega I TT/Hanna I Dab I 2 IXO pslg Conte lnaent 124 18 8 450 f I sol ation 2AF-V I 6S-SAB AF RAB 0) Globo 01aphraga I TT/Heaee I Dab l 2 1300 pslg Conte lnaent 12, 18 8 450 F Isolation 2AF-V 1 67-SAB AF RAB 13) Globe Dlaphraga ITT/Hanna l Dahl 2 IXO pslg Conte lnaent A 12> 18 8 450F Isolation 2AF V164-SAB Af RAB 0) Globe D I aphraga I TT/Henna I Dab I 2 IXO pslg Conte lnaent A 12 ~ 18 8 450 F I so I at Ion

Y TABLE 3,9,3-14 (continued)

NON-NSSS SIH'LIED CLASS I 2 AIE) 3 ACTIVE VALVES Valve Design Systen Env, Safety Rating Design Size

~T~ et t tt et ~T OPer a for Nanufacturer Class (ANSI P) Cone I t lons (Inches-ID) function t~>t~t t' t>t 3AF-VS(58 RAB (3) Check dP Peel f Ic 1600 psig ESF Operation N/A 9 8 450 F 3AF-V3)SB AF RAB (3) Check Peel fIc 1600 pslg ESF Operation N/A 9 8 450 F 2AF-V116SA AF RAB (3) Gate Anchor-Dar I lng 2 1600 pslg Con f a Incan 1 A 12> 14 8 450F I solat loll 2AF Vl ITSA AF RAB (3) Gate Anchor ~r I lng 2 1600 ps I g Conte ineent A 12> 14

~ 450 F I so fat Ion 2AF-V I I BSA AF RAB (3) Gate Anchor-Dar I lng 2 1600 pslg Conte lnnent 12, 14 8 450F I sof at Ion 3AF -V3 I SB AF RAB (3) Check Peel I lc 1600 psig ESF Operation N/A 9 8 450 F 2AF V I 53SAB AF RCB (4 ) Check Anchor-Der I lng 2 1185 pslg ESF Operat lon N/A 9 8 600 F 2AF-Vl 54SAB AF RCB (4) Check Anchor~rllng 2 1185 pslg ESF Operation N/A 9 8 600 F 2AF V I5SSAB AF RCB (4) Check AnchorDar I lng 2 1185 psig ESF Operation N/A 9 8 600 F

TABLE 3,9,3-li lcontlnued)

NON~SS SIPPLIED CLASS I 2 A)d) 3 ACTIVE VALVES Valve Design Systen

~j~ at L LI Env, el ~Y ~crater Nanulacturer Sat ety Class Rating IANSI I)

Design Condltlons Size llnches-ID) F tl N~t~l ( ) Nl 3CE-Vl ISA CE RAB (3) Check TRN&l as lan 150 pslg 6 ESF Operation N/A 9 g liOF 3CE-Vl258 CE RAB 13) Check Tlht&I ss I on 150 pslg 6 ESF Operation N/A 9 B Iio F 3CE-Vi3SAB CE RAB LS) Check TRN&I as Ion 150 pslg 8 ESF Operation N/A 9 g liOF 2CT-V2SA CT RAB LS) Gate Anchors I lng 2 150 pslg 12 ECCS Operat Ion 12, 20

~ 300 F 2CT V358 CT RAB LS) Gate Anchor-Dar I lng 2 150 p519 12 ECCS Operat lon 12> 20 t MOF 2CT-ViSA CT RAB 13) Check 6P AnChor-Darling 2 150 pslg 12 ECCS Operation N/A 9 9 300F 2CT-VSSB CT RAB LS) Check Anchor~rling 2 150 pslg 12 ECCS Operat lon N/A 9 4 300 F

TABLE 3>9,3-li (continued)

NON~5 StlVLIEO CLASS I 2 Ale 3 ACTIVE VALVES Valve Oeslgn Systee Env, Safety Rat lng Design Size

~TI>> ~>t I tt h I ~T O(>ureter Nanulacturer Class (ANSI P) Cond I t I ons (InCheS-IO) FunCtlOn I~>t~ I I' t>t 2CT-VBSA CT RAB L3) Gate Anchor ~r I In g 2 45 pslg 12 ECCS Operation A 12> 20 8 300F 2CT-V7SB CT RAB (3) Gate Anchors I lng 2 150 4$ pslg 12 ECCS Operat lon A 12, 20 8 300 F 2CT-V I SSA CT RAB (3) Check Rock>>e I I 2 50 pslg 2 ECCS Operation N/A 9 8 200 F 2CT-V215A CT RAB LS) Gate Anchor~r I lng 2 300 pal g 8 ECCS Operat ion A 12, 20

~ 300 F 2CT-V2) SA CT RCB (a ) Check Anchor-Oar I I ng 2 300 pslg 8 ECCS Operation N/A 9

~ 300 F 2Cl'-V3 558 CT RAB LS) Check Rock>>e I I 1500 50 pslg 2 ECCS Operat Ion N/A 9 8 200 F 2CT-Vi)58 CT RAB LS) Gate Anchor~r I lng 2 300 pslg 8 ECCS Operation 12, 20 8 300 F 2CT-V5158 CT RCB (a ) Check Anchor-Oar I ing 2 300 pslg 8 ECCS Operat ion N/A 9 8 300 F 3CT-V85SA CT RAB (3) 0 I obe Notor yar>>ay 1500 15 psig 2 ECCS Operation 12, 16 8 200 F 3CT-RISAB CT RAB (3) Saiety 5 A Crosby 150 15 psig Inly Protect ECCS T 2 8 200F 3CT-V95SN Cf RA>I (3) Globe Nunc yar>>ay 1500 15 psig 2 ECCS Operat ion 12, 16 E 200 F

TABLE 3,9,3-14 (continued)

HOH~S SIH'LIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Design Systen Env, Safety Rating Design Size

~T>~ ~>t i ti n I ~T erator Hanulacturer Class (ANSI d) Cond I t I ons (inches-ID) Function 3CT X3SAB I CT (3) Vacuw Breaker- Anderson- 15 psig ECCS Operation A 12 Greenrood 8 200F 3CT X4SAB-I CT RAB (3) Vacuun Breaker- Anderson- 15 psig 2 ECCS Operation A 12 Greent>ood 8 200 F 3CT-V8858 CT RAB (3) Globe Yarray 1500 15 pslg 2 ECCS Operat ion A 12> 16 8 200 F 3F0-V23SA f0 fOST (5) Check Roc kre I I 100 pslg 2 ESF Operation N/A 9 8 125 F 3F0-V258SA f0 FOSl'5) G lobe Hand Yarray 1500 100 pslg ESF Operation N/A 21 8 '125 F 3f0-V2458 f0 FOST (5) Check Rockreli 100 pslg 2 ESF Operat Ion N/A 9 8 125 F rPlst 3FO-V25958 FO fOST (5) Globe Hand Yarray 1500 100 pslg ESF Operation H/A 21 8 125 F 2(O-V I I SA BD RAB (3) G lobe Alr- I TT/Hanna I Dab I 2 1185 pslg Conte lance't A 12, 13, 17 Plston ~ 600 F Isolation 2(O-V I 5SA BD RAB (3) Globe A l- I TT/Nanna I Dab l 2 1185 pslg Conte innent A 12, 13, ly 8 600 F Isolation 2IX)-VI9SA BD RAB (3) Globe Air I TT/Hanne I Oahl 2 1185 pslg Conte lnnent A 12, IS> ly Piston 8 600 F Isol at ion 2(XH'858-1 BD (4) Pressure Dlaphragn I TT/Haneel Dahl 2 1185 pslg Conte Irma nt A 12, 13, ly, 18 Control 8 600 F I so I at Ion

v t TABLE 3.9,3-14 lcontlnuod)

INNESS SISV'LIED CLASS I 2 AN) 3 ACTIVE VALVES Volvo Des I gn Systea Env, Safety Rot lng Site

~tl4a ~tt l<<tl at ~t 0Eerator Nanufocturer Close IANSI P)

Design Conditions I Inches-10) Function t~>t~ l 2IMH'758-1 RCB (6) Pressure Dlaphraga ITT/Hoaael Oahl 2 1185 pslg I so I of Ion A 12, 17 ~ '18 Control ~ 600 F 2M)SB I 80 RCB Ia ) Pressure Olaphraga ITT/Ifaeae I Dab l 2 1185 pslg I so I at Ion A 12, 17 ~ IS Control 8 600 F 280-V2SB-I 80 RCB Ia) G lobe Piston I TT/Haaee I Bah I 2 IIS5 psig 15olof lon A 12> 13, 17

~ 600 F 28D-V 558-I BD RCB la) Globe Piston I TT/Haase I Bah I 2 IISS pslg I so I at Ion A 12, 13, 17

~ 600 F 2EE)-VSSB- I 80 RCB I a) 0 lobe Piston I TT/Hoaae I Bah I 2 IISS pslg Conte lnaant 12, 13 ~ )7 8 600 F 15olof lon 2IA-V33SN IA RCB la ) Check Anchor&arl l fig 2 150 125 psig Conte I naent N/A 9 8125F 150 o I Ion 1

2 I A-V192SA IA RAB 13) Globe Oiaphraga Copes-Vulcan 125 psig Conte inaent A '12> '13 8 125 F Isof of loll 2NS&1 SSA NS RAB L)) Press. Efectro- Control Coops 1185 pslg Bx 1 0 ESF Operation A 12, 16 Control Globe Hyd, 8 600 F 2NS-PI 958 NS RAB 13) Press. E lect- Control Coops 1185 psig 8x 1 0 ESF Operation A 12, 16 Control Globe Hyd, 8 600 F

TABLE 3,8,3-14 lcontlnued)

HON~SS SIH LIEO CLASS I 2 AM) 3 ACTIVE VALVES Valve Design Systee Env, Safety Rating Size

~T~ at l<< tl u t. ~T Operator Nanufacturer Class IANSI I)

Design Cond I t I ons finches-IO) Function t~>t~ l l'l > t RAB l3) Press, Elect- Control Cceps 2 1185 psfg Bx l0 ESF Operation A 12, 16 Control Globe Hyd, 8 600 F 2NS& ISA NS RAB I 3) Relief 5-A Crosby 1185 pslg 6x10 ESF Operat ion 12> 15 Safety 8 600 F RAB 13) Re I I el 5-A Crosby 1185 pslg 6x10 ESF Oparat Ion 12> 15 Safety 8 600 F RAB 13) Re I I ~ t 5-A Crosby 1185 pslg 6xlO ESF Operation 12, 15 Safety 8 600 F RAB 13) Re I le I 5-A 1185 pslg 6x I 0 ESF Operat ion 12, 15 Safety 8 600 F RAB 13) Relief 5-A Crosby 1185 pslg 6x10 ESF Operation 12> 'IS Safety 8 600 F RAB I3) Re I I ~ I 5-A 1185 pslg 6xlO ESF Operat ion 12, 15 Safety 8 600 F RAB 13) Re I le f 5 A C>'osb'y 1185 pslg 6x1 0 ESF Operation 12> 15 Salety 8 600 F RAB 13) Re I l el 5-A Crosby 1185 psig 6x l0 ESF Operet ion 12, 15 Safety 8 600 F 2NS-R9SA NS RAB 13) Relief 5-A Crosby 1185 pslg 6x10 ESF Operat ion 12, 15 Safety 8 600 F

TABLE 3,9,3-la (continued)

NON~SS SlPPLIED CLASS I 2 AN) 3 AC'TIVE VALVES Valve Design Systea Safety Rating

~T~ et l tl Envx at. ~T 0(Terator Nanufacturer Class (ANSI d)

Design Cond I t I ons Size

( inches-IO) Function t~ttaa l 2NS&lOSA RAB (3) Relief 5-A Crosby 2 1185 pslg 6xl0 ESF Operat ion A 12, IS Safety 8 600 F 2NS&IISB NS RAB (3) Re I 1 el 5-A Crosby 1185 psig 6x10 ESF Operation A 12, 15 Safety 8 600 F RAB l3) Re I let 5-A Crosby 1185 pslg 6x10 ESF Operation 12, 15 Safety 8 600 F RAB (3) Re I let S-A Crosby 1185 pslg 6x10 ESF Operation A 12, 15 Safety 8 600 F 2NS&14SB NS RAB (3) Re I let 5-A Crosby 1185 psig 6xl0 ESF Operation 12, 15 Safety 8 600 F RAB (3) Relief S-A Crosby 1185 pslg 6x10 ESF Operat ion 12, 15 Safety 8 600 F 3NS VITSAB NS RAB (3) G lobe Diaphraga ITT/Haaael Dahl 3 1185 pslg I so lotion A 12, 16 8 600 F 3NS-V I BSAB NS RAB (3) G lobe Oi aphraga I TT/Naaae I Bah l 3 1185 psig I sot at ion 12, 16 8 600 F 2NS-VBSA NS RAB (3) Gate Anchor-Oar I ing 2 1185 psig ESF Operation 12, 20 8 600 F 2NS< I SAD NS RAB (3) F loTT Oi aphroga I TT/Hanna l Dab l 2 1185 psig Con I a inaen t 12, 13 Control 8 600 F I so let ion

77 I I TABLE 3,9,3-Ia lcontlnued)

NON~SS SIPPLIED CLASS I 2 Aid) 3 ACTIVE VALVES Valve Design Systen Env, Shinty Rating Design Size

~T~ I~t 7 tt ~t ~T 0)>crater "J

. Neeulacturer Class IANSI d) Cond I t I ons llnches-IO) Function RAB l3) Floe Control Olaphrags '. IT/~i Dahl 1185 8 600 pslg F

Conte l anent I so I at Ion A 12, 13 RAB L3) F lou Ol aphr age ITT/)Iaene I Dab l 1185 pslg Conte lnnent A 12, 13 Control ~ 600 F I so I at Ion 2NS-V59SAB NS RAB 13) 0 lobe O lapin agn ITT/Haeee I Oahl 2 1185 pslg Conte 1nnent A 12, 16 8 600 F I so I at I on 2NS-VEGSAB NS RAB LS) G I obe Olaphragn ITT/Hansel Oahl 2 118$ pslg Conte lnnent A 12, 16

~ 600 F I sol at ion 2NS-V61SAB NS RAB l3) Globe Ol aphr age I TT/Hanna I Bah l 2 1185 pslg Conte lnnent A 12> 16

~ 600 F I so ation 1

2NS-V 958 NS RAB I3) Gate Anchor-Dar I lng 2 1185 pslg ESF Dperat ion A 12, 20 8 600 F 3NS-V99SA NS RAB l3) Check Peel I ic 1185 pslg ESF Operat Ion N/A 9 8 600 F 3NS-V I OOSB NS RAB I3) Check Peel I ic 1185 pslg ESF Operation N/A 9 8 600 F 2NS V I 22SAB NS RAB (3) Globe Oi aphrage I TT/Hat>tee I Dani 2 1185 pslg Containeent A 12> 18 8 600 F Isolation 2NS-V124SAB NS RAB 13) Globe 01aphr age I TT/Hanna I DJ>hi 2 1185 pslg Containnent A 12, 18 8 600 F Isolation 2NS-V 126SAB NS RAB I)) Globe Diaphragn ITT/Hannei Dani 2 1185 pslg Con I o I nnen t 12, 18 8 600 F I so i at ion

TABLE 3,9,3-1i lcont lnued)

NON-NSSS SIH'LIED CLASS I 2 Aid) 3 ACTIVE VALVES Valve Design Systea Env> Salety Rating Des I gn Site

~fM~ ~St ti n Operator Manulacturer Class IANSI 4) " Conditions linches-ID) Funct lon RCB (d ) Gate Notor Anchor~r I ing 3 60 pslg 3 Conte innent t 150F I SO I at Ion 2)d)-V TTSB MD RAB LS) Gate Motor Anchor-Dar I lng 2 60 pslg Cont a Irma nt g 150F I so I a I Ion

TABLE 3.9,3-14 (continued)

HON~SS SUPPLIED CLASS I 2 AN) 3 ACTIVE VALVES Valve D55lgh Systen Env. Safety Rating

~T~ at t tt ~t ~t ~orator Hanulacturer CI 555 (ANSI d)

Design Cond l t lone Slee (Inches-ID) Function t~ataa t t' tat 3SC-V33SB SC ESMIS (5) Check Pacific 200 pslg ESF Operation H/A 9 8 95 F 3SC-V48SA SC SCRH (5) Globe EH I TT/Hansel Dahl 3 200 p519 ESF Operation 12, 13 STR ~ 9$ F 3SC-V I SSA SC ESMIS l5) Globe EH ITT/Haene I Dab l 3 200 pslg 3 ESF Operat Ion 12> 13 8 95 F 3SC-V26SA SC SCRH (5) Gl obe ITT/Hannel Dahl 200 pslg 3 ESF Operation 12> 13 STR 8 9S F ESIH5 (5) Globe EH I TT/Hanna I Dah I 3 200 pslg 3 ESF Operat Ion 12, 13

~ 95 F 3SC-V31SB SC SCRH (5) Globe EH ITT/Hanna I Bah l 150 200 psig 3 ESF Operation 12, 13 5'(R 8 95 F 3SC-V28SA SC ESIHS (5) Check Pacilic 200 pslg 3 ESF Operat ion H/A 9 8 95 F 2SP-V23SA-I SP RAB l3) Globe Solenoid Target Rock 2 2485 pslg Containnent T 2 8 650 f Isolat ion 2SP-VIISB-I SP RCB (4) Globe Solenoid Target Rock 2 2485 psig 3/8 Containnent 8 650 f Isolation 2SP-V 12SA-I SP RAB I3 ) G I obe Solenoid Target Rock 2 2485 pslg 3/8 Containnent T 2 8 650 F isolation 2SP-VIIISB-I SP RCB (4 ) 0 I obe Solenoid Target Rock 2 ,2485 pslg 3/8 Conte innent T 2 865OF Isolation

)s TABLE 3.9.3-14 lcont lnued)

NON~SS SIH LIES CLASS I 2 AM) 3 ACTIVE VALVES Valve Design Systee Site

~tlat ~tt t tt Env, et ~t Operator Nanutecturer Safety Class Rating IANSI f)

Design t

Cond I 1ons llnches-IO) Function 2SP V11358 I SP RCS 14) Globe Solenoid Target Rock 100 pslg 3/8 Conte Incan t P 300f I sol ati on 2SP V I I lSS-I SP RCS ll) Globe Solenoid Target Rock 1500 700 pslg 3/8 Cont a I nnent 8 300 F Isolation 2SP-V11558-I SP RCB ll) Globe Solenoid Target Rock TOO pslg 3/8 Conte lnnent 8 300F I so let Ion 2SP V116SA I SP RAB L3) G lobe SolenOid Target Rock TOO pslg 3/8 Conte lnnent 8 300 F I so let ion 2SP-V25A- I SP RAS 13) G lobe Solenoid Target Rock 2485 pslg 3/8 Cont a 1nuant 8 680 F Isolation 2SP-V I SB-I SP RCB ll) G lobe Solenoid Target Rock 2485 pslg 3/8 Conte lneent 8 680 f I so I at Ion 2SP-V2 ISA-I SP RCB 14) Globo Solenoid Target Rock 2485 pslg 3/8 Post Accident 8 650 F Saepllng 2SP-V2258-I SP RCS ll) Globe SOlenOid Target ROCk 2485 pslg 3/8 Post Accident 8 650 f Seep l lng 2SP-VSOSB- I SP RCB 14) Globe Solenoid Target Rock 1500 1185 pslg 3/4 Isolation 8 600 f 2SP-V9158-I SP RCB 14) Globe Solenoid Target Rock 1500 1185 pslg 3/4 I sol at ion 8 600 F

4>>

TABLE 3,9,3-14 (continued)

NON-NSSS SIPPLIED CLASS I 2 AIO 3 ACTIVE VALVES Valve Design Systen Env, Safety Rating Design Size

~T~ >~t 1 11 ~l ~T 0(Ierafor Nanufacturer Class (ANSI d) Cond I t Ions (Inches-ID) Function 2SP V120SA-I SP RAB (3) G lobe Solenoid Target Rock 2 1185 pslg 3/8 Conte I neent T 2 8 600 F Isola'lion 2SP V12 ISA-I SP RAB LS) 0 lobe Solenoid Target Rock 2 1185 pslg 3/8 Contalneent T 2 8 600 F I sol at Ion 2SP V86SB-I SP RCB (4) Globe Solenoid Target Rock 2 1185 pslg 3/4 I solsf lon T 2

~ 600 F

>>o 2SP-V85SB-I SP RCB (4) G lobe Solenoid Target Rock 2 1185 pslg 3/4 I sol af lou T 2 L>>>

I ~ 600 F a

os 2SP-VB I SB-I SP RCB (4) Globe Solenoid Target Rock 2 1185 pslg 3/4 lsola floe 2 8 600 F 2SP-VSOSB-I SP RCB (4) G I obe Solenoid Target Rock 2 1185 psig 3/4 I so let ion T 2 8 600 F 2SP-V122SA-I SP RAB (3) G lobe Solenoid Target Rock 2 1185 pslg 3/8 Conte l anent T 2

~ 600 F Isol at ion 3SN& ISA SII ESIIIS L3) Butterfly Jaeesbury 3 25 pslg 30 ESF Operation 12> 19 8 140 F 3SV~ S'N ESIIIS (3) Butterfly Jaeesbury 25 pslg ESF Operation 12, 19 8 140 F 3SW-B)SA SN ESNIS (5) Butter I ly Al I ls~a I eers 30 pslg 8>TTIO> ESF Operation 12, 19 8 140 F

F TABLE 3,9,3-14 lcontlnued)

NON~SS SIH'LIED CLASS I 2 AId) 3 ACTIVE VALVES Valve Design Systen Env@ Salety Rating Design Site TF> t>>>> ~>t l tl et ~T 0)Ierator Nanufacturer Class IANSI I) Cond I t I ons lincnes-I 0) tl ~t>FMd Notes SW ESNIS 15) Butterfly Al I I s~a lners 3 30 pslg B>xlO' ESF Operat ion A 12, 19 0 140F KlHUSA Sll RAB 13) Butterfly Jane sbury 150 pslg ESF Operation A 12, 19 B 140 F 3SN~ SN RAB I3) Butterfly Janesbury 150 pslg ESF Operation A 12, 19 B 140F 3SV~ Sif RAB 13) Butterfly Jane sbury 150 pslg ESF Operation A 12> 19 B 140F 3SW&1358 SN RAB 13) Butterfly Jane sbury 150 pslg ESF Operation A 12, 19

~ 140 F 3SW&14SB SN RAB 13) Butterfly Jaeesbury 150 pslg ESF Operation A 12, 19 0 140F 3SN&15SA SN RAB 13) Butterfly Jane sbury 150 pslg ESF Operation A 12, 19 g 140F 35ll&16SB SN RAB 13) Butterfly J ane s bury 150 psig ESF Operation 12> 19 d 140F

'ABLE L

3,9,3-14 (COntlnued)

NONWSSS SIH'LIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Oeslgn Systen

~TI>> T~l I II Env, n I ~T 0(>erator Nanutacturer Safety Class Rat lng (ANSI l)

Oesign t

Cond I 1ons II Size I -I>I I I '>I

~l>l~l (I) 3SV~(SA SV RAB (3) Butterfly Oiaphrage ITT/Haeeel Oahl 3 150 225 pslg ESF Operation A 12, 17> 19 8 195F 3SV~ 558 SV RAB l3) Butter ly 1 0l aphragn I TT/Haauas I Bah l 3 150 225 psl9 14 ESF Operat Ion A 12, )7, 19 8 195 F 3SV&TOSA SV RAB (3) Buttertly Jaeesbury 150 pslg ESF Operat ion A 12, 19 8 140 F 3SV&7 ISA SV RAS (3) Buttertly Jaeesbury 150 pslg ESF Operation A 12, 19

~ 140 F 3SV&7258 SV RAB (3) Butterfly Janesbury 150 pslg ESF Operation A 12, 19

~ 140 F 3SV&7358 SV RAB 13) Butterfly Janesbury 150 pslg ESF Operation A 12> 19

~ 140 F 3SVWTSSA SV RAB (3) Butterfly Janesbury 150 pslg ESF Operation 12, 19 8 140F 3SV&7758 SV RAB (3) Suttertly Jaeesbury 150 pslg ESF Operation 12> 19 8 140F

J I

,I

~ r TABLE 3,9,3-14 (continued)

NQN~SS SIH'LIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Design Systea

~T~ T~t I tl Env, at ~T ~erato Nenufecturer Selety Cless Rating (ANSI I)

Design Condl t lens Size (Inches-IO) T tl N~tMdl tt >t 3SW&74SA RAB (3) Butterlly J~sbury 150 pslg 6 ESF Operet Ion A 12, 19 P 140F 3SW&76SB SW RAB LS) Butterlly Jeaesbury 150 150 pslg 6 ESF Operation 12, 19 P 140F 2SW V I 42SN SW RCB (4 ) Check Anchor~rl lng 2 225 pslg 12 Conte lnaent N/A 9 P 140 F I so I et Ion 2SW~SAB S'W RAB (3) Butterlly O le phrega ITT/Heaael Oehl 2 225 pslg Conte Inane f 12> )7, 19 P 140F I so let ion 2SW~9SA SW RCB (4) Butterfly Olephrega ITT/Heaael Dehl 2 150 225 pslg 12 Conte lnaent 12, 17, 19 P 140F isolation 2SW-890SB SW RAB (3) Butter( ly Olephrega ITT/Heaael Oehl 2 150 225 pslg 12 Conte I naent 12, 17, 19 P 140F I so let toll 3SW-V39SA SW RAB (3) Check TRNA I ss I on 150 225 psig 14 ESF Operation N/A 9 P 140 F 3SW-V41SB SW RAB LS) Check TRW-Nission 150 225 pslg 14 ESF Operetion N/A 9 P 140F 3SW-V540SA SW RAB (3) Check Roc kre I I 3 1500 150 psig I I/2 ECCS Operetion N/A 9 P 140F

(cont lewd) weal~TABLE 3,9,3-14 NON~SS QPPLIED CLASS I 2 AM) 3 ACTIVE VALVES Vel ve Design Systea

~j~ ~St L tl Env, hl ~Y ~ h t Shinty Cless Retlng (ANSI I)

Design Cond( t I ons ll Size h -ID) F tl ~NtMd Hotes 3SM V543SB SW RAB (3) Check AP Rockw I I ~ 150 pslg I I/2 ECCS Operet (on N/A g 140 F 3SH V54ISB SH RAB (3) Check Ibckw I I 1500 150 pslg I I/2 ECCS Operet Ion N/A 9 g 140F 3SH V542SA SW RAB LS) Check Rockw I I 1500 150 pslg I I/2 ECCS Operet (on N/A 9

~ 140 F 3SW-V54458 Sll RAB (3) Check Roc kve I I 150 pslg I I/2 ECCS Operation N/A 9

~ 140 F 3SH-V$ 4SSA Sll RAB (3) Check Rockw I I 150 pslg I I/2 ECCS Operet (on H/A 9

~ 140 F

TABLE 3,9,3-14 (continued)

Hgfed(SSS S(PPLIED CLASS I 2 Afd) 3 ACTIVE VALVES Valve Design Systen Safety Rating Design Size

~T~ S~t i ii Env,

~l, ~t Operator Hanufacturer Class WISI I) Cond l t lens (Inches-ID) Function i~a~i 3SN-V23)SA RAB (3) Gate Piston Anchor~r I lng 3 150 psig ESF Operat ion A 14 8 140F 35)f V238SB SV RAB (3) Gate Piston Anchor-Der I lng 3 150 pslg 4 ESF Operation )4 8 140F 3SW-V266SA SN RAB (3) Gate Piston Anchor-Der I lng 3 150 pslg 4 ESF Operation 14

~ '140 F 3SN-V26)SB SN RAB (3) Gate P I ston Anchor~r I lng 3 150 150 pslg 4 ESF Operat ion 14 8 140 F 3SV-V36TSA Stf RAB (3) Check TlbfWI ss I on 150 pslg 30 ESF Operation N/A 9

~ 140 F 35)f-V368SB Stf RAB LS) Check Tibf& lesion 150 pslg 30 ESF Operat (on H/A 9 8 140F 35)f-V369SN SM RAB LS) Check TRNA I ss Ion 150 pslg 36 ESF Operation H/A 9 8 )40F 3SW-V652SB I SN DGB (5) Globe Solenoid Target Rock 150 150 pslg 2 ESF Operation

~ 140 F 3SV-V649SA-I Stf OGB (5) G I obe Solenoid Target Rock 150 pslg 2 ESF Operation 8 140 F 2F'W-V26SAB FM RAB (3) Gate EH Borg )famer 921 1860 pslg 16 Conte lnnent 12, 20 8 450 F I sol at Ion 2FII V2)SAB F tf RAB (3) Gate EH Borg )terner 921 1860 pslg 16 Conte Irma n t 12> 20 8450F lsol at ion

h TABLE 3,9,3-14 (continued)

LIED CLASS I 2 AIE) 3 ACTIVE VALVES Valve Design Systea

~T~ ~lt I tl Env,

~l ~T UI' I'ar Salety Class Rating

~(ANSI P Des I gn t

Cond l lans Size (Inches-ID) function I~>tkd I II I Ibt 2FW-V28SAB FN RAB (3) Gate EH 921 1860 pslg 16 Conte lnaent I

8 450F I so let lon 2FV-V23SN FW RAB (3) Check ner 921. 1860 pslg 16 I so I at Ion H/A 9 8 450F 2F W-V24SH fV RAB (3) Check Borg Warner 921 1860 pslg 16 I so i at Ion H/A 9 8 450 F I>>

TO 2FV-V25SN fW RAS L3) Check Borg Warner 921 1860 pal 9 16 Isolation H/A 9 8450F 2f W-VI23SAB FV RAB LS) Globe Oi aphraga I TT/Haaae I Dab l 2 1860 pslg Conte lnaent 12, 13, 17 8 450 F I so I at Ion 2FV VI24SAS FV RAB LS) 0 lobe Olaphraga ITT/Haaael Oahl 2 1860 pslg Conte lnaent A 12, 13, 17

~ 450 F I sol at Ion 2FV-V125SAB FW RAB LS) G I oba 0 I aphraga I TT/Haaae I Dah I 2 1860 pslg Conte lnaent A 12, 13, 17

~ 450 F I so I at ion 2f W-V93SAB- I fW RAB LS) G I abc Ol aphr age I TT/Haaae I Dab l 2 1500 1300 pslg CAAto I caen t A 12> 18 8 450 F Isolation 2FW-V94SAS-I fW RAB (3) 0 lobe Oiaphraga ITT/Haaael Dahl 2 1500 1300 pslg Conte I naent 12, 18 8 450 F I so i at Ion 2FW-V91SAS-I FW RAB (3) 0 lobe Dlaphraga ITT/Haaaal Dahl 2 1500 1300 psig Conte inacn t 12> IS 8 450 F I solat IOA

>>t

>>4-'>>

TABLE 3,9,3-li lcont inued)

NON~SS SIH'LIED CLASS I 2 Aid) 3 ACTIVE VALVES Valve Design Systen Env Saiety Rating Design Size

~T~ at t tt at ~T cantor Nanuiacturer Class (ANSI pl Condl t lans Ilnches-ID) Function t>>t 2FW V92SAB-I fN RAB ES) G lobe Oi aphragn ITT/)huaae I Oahl 2 1300 psig Conte lnnent A 12, 18 g a50F Isolation 2FW-V89SAB-I Fli RAB 13) G I obe Diaphragu ITT1Naeeel Dahl 2 1300 pslg Cont airmen t A 12, IB g 450F I so let loll 2FW-V90SAB-I FM RAB 13) G lobe Oiaphragn I TThlaTaael Oahl 2 IMO psig Conte ineent A 12> IB g 450 F I soiat lon 2fP&lSA FP RAB 13) Butteri ly Ol aphragu Jaeesdary 150 115 pslg Conte I nnent A 12, 19 I>>>

I B 125 F Isolation In IJI

TABLE 3,9,3-(i (continued)

KN~SS SNV'LIED CLASS I 2 A)d) 3 ACTIVE VALVES Valve Design Systea Env, Safety Rating

~T~ h I I tt ~l ~T Of>crater Nanufacturer Class (ANSI P)

Design Cond I t lens Slee I Inches- ID) I tl l~>t>> I I I I>t ESOIS RAB (3) Butterfly Dlaphraga ITT/Hansel Dahl 150 150 pslg I so I at Ion A 12, 19 Supply ~ 125 F ESCNS RAB (3) Butterfly Olaphraga ITT/Haaael Dahl 150 150 pslg I so I at Ion A 12> 19 Supply ~ 125 F ESDIS RAB (3) Butterfly Disparage ITT/Haaael Dahl 3 150 150 ps) g Isolation A 12,17,19 Return ~ 125 F ESCNS RAB (3) Butter! I y Disparage I TT/Haaae I Dahl 150 150 pal g Isolation 12, 17, 19 Return g 125 F 3SN-V62158 SM RAB (3) Ifafer Check AP Tlbf&lsalon 3 150 150 pal g Prevent Back(lou K/A 9 g Iso F 3cx-v2a)sB ESCNS RAB (3) G I obe Oiaphraga IT'f/Haaael Dahl 3 150 150 pslg 2 I/2 Teaperature A 12, 13 Return g 125F Control 3CX-N17SA ESCNS RAB (3) Three-Nay Electro- ITT/Ha>use l Oahl 3 150 150 psig I I/2 Teaparature A 12> 18 Return Gl obe Hydraulic g 125F Control

TABLE 3.9,3-la (continued)

NOt4NSSS Q$ PLIEO CLASS I 2 AN) 3 ACTIVE VALVES V4lve Oaslgn Systen Env, Salety Rating Design Size

~T~ ~tt t tt at ~T Operator Nsnu lecturer CI ass (ANSI P) Cond i t I ons (Inches-IO) Function w~t~ t ESCNS (3) Three-May EI ectro- ITTyNaeeel Oahl 150 pslg I I/2 Teeperatur4 A 12, 18 Return Hydraullc g '125 F Control 3AVW ISA Eaer ~ (3) Butter i ly 8 IF I pslg Open-CI ose A 12, 19 Exh, Sys, g 124 F 3AV~SA E44r ~ RAB (3) Butterfly Not or BIF I pslg 20 Open&lose A 12, 19 Exh, Sys, g )24 F 3AV&)SB E ear ~ RAB LS) Butterlly 8 IF I pslg Open& lose A 12, 19 Exh> ~ 12a F 5'Vs'44r

~ RAB (3) But ter 1 ly 8 IF 150 I pslg 20 Open-0 lose 12, 19 Exh, Sys, ~ I24 F Eeer, RAB LS) But tartly 8 IF I pslg 20 Open-Close A 12, 19 Exh, Sys, 8 l2(F E44r ~ RAB LS) Butterfly 8 IF I pslg 6 Open&lose 12, 19 Exh, Sys, 8 12IF 3CZW ISA CR O,A, (3) Butter I ly 8 IF 3 pslg 16 Isolation 12, 19 Intake ~ 95 F 3CZ-8258 CR O,A, LS) Butterlly 8 IF 3 pslg 16 Isolation 12, 19 Intake 895F 3CZW)SA CR Exh, LS) Butterlly 8 IF I pslg 12 I sol at ion 12> 19 Sys, 9y5F

TABLE 3,9,3-) i (continued)

NOtbkSSS SUPPLIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Design Systen

~TILU h > > tI Env,

~l ~T 0(>ureter Nanul acturar Salety Class Rating (ANSI d)

Design Cond( t iona Size (Inches-ID) Function w~t~

CR fxh RAB (3) Butter( I y BIF I pslg 12 I so I at Ion A 12, 19 Sys, 915F Equip, RAB (3) Butterlly BIF I p519 12 I so 1 at Ion A 12, 19 Protect Rn ~ 95 F OA Intake Equip. RAB LS) Butterfly BIF 150 I pslg 12 I so let Ion A 12> 19 Protect Rn ~ 95 F OA I atake o>

I ill )IVAC Equip, RAB (3) Butter( ly BIF 3 150 I pslg 12 I so I at Ion A 12> 19 cu IR fxh> ~ 90 F Systen IIVAC Equip, RAB (3) Butterlly 8 IF 150 I pslg 12 Isolation A 12, 19 Rn Exh ~ 90 F Systea CR Eeer RAB LS) Butter( ly 8 IF 150 3 pslg 12 Isolation A 12, 19 O,A, g 95 F Intake CR Ener, RAB (3) Butterlly BIF 3 150 3 pslg 12 I so I at I on A 12> 19 O,A, ~ 95 F Intake 3CZ-BI ISA CR facr, RAB (3) Butter( ly B IF 150 3 pslg 12 I sol at Ion A 12, 19 O,A, g 95 F Intake

TABLE 3,9.3-li (continued) let NON~S SIH'LIEO CLASS I 2 AId) 3 ACTIVE VALVES Valve Oeslgn Systen Eave Salety Rating Design Slee

~St i tI ~l ~T OEerator Nanufacturer Class (AHSI P) Cond l t lons ( Inches-IO) Funct Ion CR Ener, RAB (3) Butter I I y Notor 8(f 150 3 pslg 12 I so (on A 12> 19 O,A, ~ 9$ F Intake 3CK-V6358 ESCVS RAB (3) Globe Ol aphragn I TT/Haeee I Bah l 150 150 ps( g 2 I/2 Teeperature 12, 13 Return 9 125F Control 3CX-V83SA ESCMS RAB LS) G lobe Oiaphragn I TT/Hanna l Oahl 3 150 150 pslg 2 I/2 'Teeperature 12, 13 Return 8 125F Control

TABLE 3,9.3-14 (cont lnued)

NON~SS SIH'LIEO CLASS I 2 AM) 3 ACTIVE VALVES Valve Design Systen Env, -

Safety Rat lng Design Site I' I )

~TH~ ~St > tl ~erector Nanulacturer Class IANSI l) Cond l t fons h l>) > >t >~l>> I >t CR Ener, RAB I3) Butterfly Notor 8 IF 3 150 I pslg 20 Open-Close A 12> 19 Flltretlon ~ 62 F Systen CR Eeer, RAB 13) But ter f I y Hotor BIF 3 150 I pslg 20 Open&lose A 12> 19 Flltrotlon 6 62 F Systea CR Ener, RAB 13) Butter f I y Hotor B IF 150 I pslg 20 Open&lose 12> 19 FII trat Ion t62F Systen

(continued)

TABLE 3,9,3-la NESS SIH'LIED CLASS I 2 Ald) 3 ACTIVE VALVES Valve Oeslgn Systen Env, Safety Rating Design Site

~T~ ~St L tI ~l ~T Operator Nanu lecturer Class (ANSI I) Cond 1 t lens I Inches-ID) Funct (on CR Ener, RAB (3) Butterfly 8 IF 150 I pslg 20 Open& I ose A 12, 19 Flltratlon ~ 62 F Systen CR Eaer, RAB (3) Butterfly 8 IF I pslg 20 Open&lose 12, 19 Flltratlon g 62 F Systen CR Ener, RAB (3) Butterfly 8 IF 150 I pslg 20 Open& I ose 12, 19 Flltratlon g 62 F Systee CR Alr RAB (3) Butterfly BIF 150 I pslg Open-Close 12, 19 Hand l lng 860F Unit CR Alr RAB (3) Butterfly 8 IF 3 150 I pslg 36 Open& I ose 12> 19 Hand l lng ~ 80 F Un( t

TABLE 3,9,3-li lcontlnued)

NON-NSSS SLPPLIED CLASS I 2 hle 3 ACTIVE VALVES Valve Deslpn Systas Env, Safety Rating Design Sire

~T~ at L ti el ~T OEarator Neaufacturer Class IANSI I) Condl t lons I Inches-ID) Funct I on w~i~ i FIS Eser, FIS f3) But ter f ly Notor i 'IF 150 I pslg 2S Open&lose A 12, 19 Ex'ys ~ x ~ 120 F FIS Eser, FIS 13) Butterfly Notor BIF 150 I pslp 2i Open&lose A 12, 19 Exh, Sys, t 120F 3AV-VSSA RAB Eser, RAB 13) Chock Valve ILP Anderson/ 3 150 150 pal 9 Bleed alr for N/A 9 Exh, Sys, GreenuNxl Co, g 150F charcoal decay heat cooling 3AV-V458 RAB fear, RAB I3) Chock Va I vo AP Anderson/ 150 )50 pslg Bleed air for N/A 9 Exh, Sys, Grosnuood Co, ~ 150 F charcoal decay heat coollnp 3Cl-VISA CR Eser, RAB 13) Check Valve ILP An4arson/ 150 150 pal g Outs I do N/A 9 Flltratlon Greenxood Co, g 150 F hlr Intake Systos 3CZ-V258 CR Eeer, RAB 13) Check Va I ve ILP Anderson/ 3 150 150 ps lg 6 Outs I de N/A 9 fI l trot Ion Graenvood Co, ~ 150 F Alr Intake Systes

TABLE 5,9,5-) i (cont lnued)

HON~SS SIH'LIED CLASS I 2 fME) 5 ACTIVE VALVES Volvo Design Systee

~t~ ~tt I tl Env, h I ~T ~orator Nenufecturer Sefety Close Retlng (ANSI d)

Design Conditions II Size t -IDI I tl I~ttad I l l II t ICS-VT I IQI RCB (i) Check Rockwe I I 1521 2l85 pslg 2 RCPB Bound cry N/A 9 8 650 F ICS V)OSN CS RcB (i) Check Rockwe I I 1521 2l85 pslg 2 RCPB Boundery N/A 9 8 650 F 2CS-V129SN CS RAB (5) Check Rockwell 220 ps(9 2 Sefe Shutdown N/A 9 8 200 F 5CS-V222SN CS RAB (5) Check Rock we I I 1500 150 pslg 2 Sefe Shutdewn N/A 9 8 250 F

)CS-V22)Ql CS RAB (5) Check Rockwell 1500 150 pslg 2 Sefe Shutdown N/A 9

~ 250 F ISI-V59SA Vl558 Sl RCB (8 ) Check Rockwe I I I 1521 2l85 psig 2 RCPB Boundery H/A 9 VS ISA 8 650 F I 5 I -V6)SA V6958 SI RCB (e) Check Rook we II I 1521 2485 psig 2 RCPB Boundery N/A 9 V)5SA 8 650 F

TASLE 3,9D3-li (continued)

KN~SS St%PLIED CLASS I 2 Ale) 3 ACTIVE VALVES Valve Des I gn Systes Env, Setaty Rating Des I gn Size

~TIE@ ~ht I tI ~l ~T OPerator Nanutacturer Class (ANSI d) t Cond 1 tons ll h -Ihl T tl I~hthM I II)

' t I 5 I-vsasA V9058 Sl RCB (6) Check Rock w I I I 1521 2(65 ps I g 2 RCPB Boundary N/A 9 V96SA 8 650 F ISI VITSA V23SB Sl RCB (d) Check Rockue I I I 1521 2(85 pslg 2 RCPB Boundary N/A 9 V29SA 8 650 F CS RAB (3) Butterlly Pneuaet I c 8 IF 2 150 e5 psig 2e Open&I ose 12, 17 ~ 19 Conte I nsent 8 366 F Vecuus Re I I et CS RAB 0) Buttart ly Pneuaatlc BIF 2 150 a5 pslg 2e Open-Close 12D 17 ~ 19 Conte I naent ~ 366 F Vecuus Ra 1 let CS Norsel RCS (a) Buttertly Pneuast Ic 8 IF 2 150 45 pslg 8 Conte I nsent 12 ~ 17 ~ 19 Conteinaent 8 366 F Isolation Purge Nake-up 2CP-8258 CB Norse I RAB (3) But tert ly Pneuaat I c 8 IF 2 150 e5 psig Containaent 12, 17 ~ 19 Con I a I nae n 1 8 366 F I so let ton Purge Nake-up

(continued)

'fABLE 3,9,3-14 HOH-HSSS Sl&PLIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Design Systen Env, Safety Rat lng Design Size T>>~~ >~t i >i n> ~>T

• 0~crater Nanulacturer Class (ANSI I) Cond l t lans ( Inches-ID I Funct Ion >~I> I I i i CB RCB (4) Butterfly Pneueat I c 8 IF 150 45 pslg 42 Con tel nnent A 12, 17 ~ 19 Conte lnnent g 366F I sol at ion Pro-Entry Purge Nake-up CB Contalnnent RAB (3) Butterfly Pnewat ic 8 IF 2 150 45 pslg g 366F 42 Conte lnnent I so let ion 12> 17 '9 Pre<ntry Purge Nake-up CB RCB (4) Butterfly Pneunatlc BIF 2 150 45 pslg 6 Conte lnnent 12, 17 ~ 19 Horne I g 366 F I sol at Ion Conte(anent Purge CB RAB (3) But ter f ly Pnewat lc BIF 2 150 45 pslg B Contalneent 12, 17, 19 Horne( ~ 366 F iso(of Ion Conte I neent Purge CB RCB (4) Butterfly Pnewat lc BIF 2 150 45 pslg 42 Containnent 12> 'l7, 19 Canto Irma nt g 366 F I so 1 ation Pre<ntry Purge

TABLE 3,9,3-li (cont lnwd)

~SS SIPPLIED CLASS I 2 AM) 3 ACTIVE VALVES Valve Des I gn Systan

~T~ at I tl Env, hl ~T 0Eerator Hanutacturer Salaty Class Rat lng

~(ANS I Design Cond l t lans Size (Inches-ID) T. tl N~tad I "' t CB RAB (3) But ter t I y Pnawat I c B IF 45 pslg ~2 Conte lnnent A 12, 17 ~ 19 Conte lnnent ~ 366 F I sol at Ion Pre<ntry Purge 2CB-VISA Vacuw RCB (i) HVAC Check Anderson/ 150 pslg 2S Vacuw Rel let N/A 9 Ra I let Valves Greenuood Co, ~ 366 F Systen Vacuw RCB (a) HVAC Check Anderson/ 150 150 pslg 2S Vacuw Ra I let H/A 9 Rel I ~ I Valves Greenuood Co, g 366 F Systan

TABLE 3.9,3-)a (continued)

NON~SS SIH'LIEO CLASS I 2 AM) 3 ACTIVE VALVES Valve Design Systea Env, Safety Rating Oasign Size

~TH~ ~st L tl h I ~T h t Ih f L CI ass (ANSI d) Cond l t iona (Inches-IO) Function w~t~ t ICS V22SH CS RCB (a ) Check Roc kwe I I 152) 2465 pslg I I/2 Sale Shutdown H/A 9 6 650 F ICE-V23SH CS RCB (a) Check Rockwe I I 1521 2(65 pslg I I/2 Sale Shutdown H/A 9 6 650 F ICS V24SH CS RCB (a) Check Rockwe I I 1521 2i65 pslg I I/2 Sat ~ Shutdown N/A

~ 650 F 2CS V2558 CS RCB (a) Check Rock we I I 1500 2235 pslg I I/2 Sale Shutdown N/A 9 6 200 F

~,

h T'ABLE 3.9.3-14 icontlnued)

NOH~SS SNV'LIED CLASS I 2 AIO 3 ACTIVE VALVES Valve Design Systen Env, Safety Rating Design Sile

~ttt~ ~tt t tt h t ~T 0~crater Nanutacturer Class IANSI II Conditions finches-ID) Function tight~ttt t tt t 2CS-V2658 RCB 14) Check 6P Rockuel I 2735 psig I I/2 Sate Shutdoun N/A 9

~ 200 F 2CS-V 2758 CS RCB 14) Check Rockvell 2735 pslg I I/2 Sate Shutdcwn N/A 9 9 200 F I CS-V34SN CS RCB 14) Check Rocked I I 1521 2465 pslg >>/2 Sate Slut's N/A 9

~ 650 F thl I CS-V 35SN CS RCB 14) Check Rocked II 1521 2465 pslg I I/2 Sale Shutdcwn H/A 9 ftl 8 650 F I

Vl t ICS V36SN CS RCB 14 ) Check Rockvei I 1521 2465 pslg I I/2 Safe Shutdottn H/A 9

~ 650 F 2CS-V6758 CS RCB 14 ) Check Rockuel I 150 pslg Conte lneent N/A 9 8 500 F Isolation 251-VlbbSA S I RCB 14 ) Check Rockue I I 2 1500 700 ps lg I Conte lneent N/A 9 b 300F Isolation 251 V15058 SI RCB 14 ) Check Rocked I I 2 1500 2735 ps 1 9 I Conte lnaent H/A 9

~ 300 F I so tat Ion 2CC-V5ISN CC RCB 14) Check Roc kve I I 2 600 150 pslg 3/4 Cont airmen t N/A 9 b 200 F I so I at Ion

TABLE 3,9,3-14 lcontlnued)

NON-NSSS SISTPLIED CLASS I 2 Aid) 3 ACTIVE VALVES valve Design Systen Env, Safety Rating Design Size

~T~ ~tt I tl ht ~T Operator Naaufecturer Class IANSI d) Conditions l Inches-ID) F tl I~H~I Notes RCB 14 ) Check Roche ~ I I 248$ pslg 3/4 Contalneent N/A 8 650 F Isolation XC-V64SH CC RCB l4) Check Rocked l I 1500 248$ pslg RCS pressure N/A 9

~ 650 F boundary Isol.

XC-V65SH CC RCB l4) Check Rockue I I 2485 pslg RCS pressure N/A 9 8 650 F boundary Isola XC-V284SN CC RCB l4) Check Rockue I I 1500 2485 pslg RCS pressure H/A 9 8 650 F boundary isola RAB l3) Check Roc kue I I 150 pslg 3/4 CCHS pressure N/A 9

~ 200 F boundary isola XC-V210SH CC RAB 13) Check Roc kre I I 150 pslg 3/4 CCHS pressure H/A 9 8 200F boundary isola 3SV-V868SA-I SV RAB 13) G lobe Solenoid Target-Rock 3 150 150 pslg I ESF Operation 8 140 F 3SW-V869SB-I SH RAB I3) Globe Solenoid Target-Rock 150 150 pslg I ESF Operation 8 140 F

(continued)

TABLE 3,9,3-14 NON&SSS SIH'LIED CLASS I 2 Afd) 3 ACTIVE VALVES Valve Design Sysfen Envy Safety Rating Design Size

~T~ at 1 tt at ~T ~ ardtor Ndnufdcturar Class (ANSI I) Cond I t I ons (Inches-IO) Function 351f VSTOSA-I SM RAB LS) Check Rocked I I 150 pslg ESF Operation N/A 9 9 140F 3SN-V87158-I SN RAB LS) Check Rockuel I 150 pslg ESF Operation N/A 9 g 140F 2CS-V I 36SN CS RAB LS) Check Rockva I I 1500 2735 pslg ESF Operation N/A 9 g 200 F 2CS-V i37SN CS RAB L3) Check Rockue I I 2735 pslg ESF Operation N/A 9 9 200 F 2CS-V I SBSN CS RAB LS) Check Rockue I I 1500 2735 pslg ESF Operation N/A 9 g 200 F 2SP V30SSB I SP RCB (5) G lobe So I eno Id Target-Rock 90 pslg I H2 Analyzer g 400F 2SP-V314SB I SP RAB (3) Globe So I ano1 d Target~k 90 psig I IL Analyzer g 400F 2SP V30958 I SP RCB (5) Globe Solenoid Tdrget~k 90 pslg I H And I yzer

~ 400 F 2SP-V 31558-1 SP RAB (3) G I obe Solenoid Target~k 90 psig I H2 Analyzer g 400 F 3CH42SA I E SCNS RAB (3) Butterf iy DldPhragn I TT/Hdaae I Ddh I 3 150 pslg I so let lan 12, 17, 19 Supply g 125 F 3CH44SB-I ESQIS RAB (3) Butterfly Oldphrdga ITT/Hdaeal Ddhl 150 pslg I so let Ion 12> 17 ~ 19 Supply g 125 F

TABLE 3,9,3-14 (continued)

HOH-HSSS SLPPLIED CLASS I 2 AI4) 3 ACTIVE VALVES Valve Des I gn Systen 144 ~ ~>t L Env, tl .n I ~T Operator Hanufacturer Safety Class Rating (ANSI li Design Conditions Size (Inches-ID I Function 3CX42SA I ESCNS RAB (3) But ter f I y Oiaphraga ITT/Hanna l Oahl 3 150 psig Isolation- A 12> 17, 19 Return B 125 F 3CX 4%8-I ESCNS RAB (3) Butterfly Oiaphragn ITT/Hansel Dahl 150 150 pslg Isolation A 12, IT, 19 Return B 125F 3CXQISA-I ESCNS RAB (3) Re I I el S-A Crosby 150 pslg Pressure relief 1' Return 4 125 F 3CX42SA I ESCNS RAB (3) Rel lef S-A Crosby 150 150 psig Pressure relief T 2 Return ~ 125 F 3CXASB-I ESCNS RAB (3) Re I le f S-A Crosby 150 pslg Pressure relief T 2 Return ~ 125 F 3CX4(SB-I ESCNS RAB (3) Ral lef S-A Crosby 150 150 pslg Pressure relief T 2 Return B 125F 3CX-V121SA-I ESCNS RAB (3) Globe Diaphragn ITT/Hansel Oahl 3 150 psig Tenperature A 12> 12> IB Return 4 125F control

TABLE 3,0,3-li (continued)

NON~SS SIH'LIED CLASS I 2 AM) 3 ACTIVE VALVES Valve Design Systes Env, Safety Rating Design Slee

~TI>> ~>t I tt ST tI ~T S I ~Ml t IANSI P) Cond It lons I Inches-IO) Function 3CX VI22SA f.SCNS RAB 13) G I obe Oiophrogs Don I 150 pslg 1,5 Tasperoture A 12,17,1S Return / ~ 125 F control 3CX-V123SA ESCVS RAB I 3) Globe 0 I o phrogs I TT/)Ipwe I Dab I 3 150 pslg 1,5 Tesperoture 12, 17, IS Return ~ 125 F control 3CX-V2OOSB ESCNS RAB LS) G lobe Oiophrogs ITT/H~l Dohl 3 150 pslg Tesperoture 12, 17> IS Return ~ 125 F control Thruway 3CX-V2dSSS ESCI5 RAB 13 ) G I obo Ol ophrogn ITT/Hanna I Dohl 3 150 pslg I~5 Tasperoturo 12, 17> IS Return ~ 125 F control 3CX-V2i)SS ES05 AS LS) G I obe Ol ophrogs ITT/Hosse I Oohl 3 150 pslg Tasporature 12, 17 ~ IS Return g 125f coAtrol ESO5 RAS 13) Dlophrogs ITT/Hossel Dohl 150 150 pslg 2,5 Tesperoture 12, )7 ~ IS Return G lobo S 125F control ESO5 RAB I 3) Three&ay D I ophrogs I TT/Hosea I Don l 150 pslg 2,5 Tesperoture 12> 16 ~ 17 Return Globe S 125F coAtrol 3CX-V)SB ESCI5 RAB I 3) Three-Voy D1 ophrogs I TT/Hosea I Oohl 3 150 150 pslg 2,5 1'esperoture 12> 17, IS Return Globe ~ 125 F control 3CX-NSB- ESO5 RAB LS) Three-Woy Olophrogn ITT/Hansel Oohl 150 pslg 2,5 'lesperoture 12, 16, 17 Return Globe ~ 125 F control 3CX-VSSA ESCMS RAB LS) Throe-Voy Diophrogs ITT/Hossel Dohl 150 pslg 2,5 Tesparoture 12> 16, 17 Return Globe g 125F coA I I ol 3CX N)SA ESCVS RAB LS) Three-'Noy Olophrogs ITT/Housel Dohl 150 pslg Tesparoture 12, 16> 17 Return Globe g 125F coAtrol

r l>

3 TABLE 3,9,3-14 (continued)

NtN~SS QPPLIED CLASS I 2 AN) 3 ACTIVE VALVES Valve Design Systea Env, Saloty Rot lng Oes(gn Size

~>Mb ~>t t tt at ~t ~ 0Eerator Nanulacturor Class (ANSI P) f Cond I Iona (Inches-ID) Function ~t>t>> t ESCNS (3) Throe-Nay Oiaphroga llT/Hasae I Oshl 150 pslg 2,5 Teaperoture A 12> 16> 17 Return Globe t 125F control ESOIS 0) Three-Nay Ol aphrsga I TT/Haaae I Dab I 150 pslg Toaperaf ure 12, 13, 17 Return Globe 8 125F con fro I XX NIOS8 ESOIS 0) Three-Nay Dlophroga ITT/Haasal Dahl 150 pslg Teaperature 12, 13, IT Return Globe 8 125 F control ESCNS (3) Throe-Nay Dlsphroga ITT/Hoasel Oahl 150 pslg 2,5 Teaperature 12> 13 Return 8 I obe ~ 125 F conf t'ol XX-NI358 ESCNS 0) ThrooWsy D I ophrsga I TT/Haaae I Osh I 3 150 pslg 2,5 Teaperoture 12, 13 Return Globo t 125F control XX&1458 ESOIS 0) Throe-Nay Ol sphroga ITT/Hanna l Oahl 3 150 150 pslg Teaperature 12, 13, IT Return Globe 8 125 F control XX NISSA ESCNS (3) Three-Noy Oi aphroga ITT/Haaae I Dab l 150 150 pslg 2>S Teaperature 12> 13 Return Globo 8 125 F conf I'0 I XX-ltI 6SA ESO5 l3) Throe-Itsy 0 I sphrsga I TT/Hsaas I Oohl 3 150 psig Toaporaturo 12> 13 Return Globe 8 125F control XX-NISSA ESOIS (3) Three-Noy Oiaphraga ITT/Hsaaol Oahl 150 150 pslg I~5 Taapersture 12> 13 Return Globe 8 125 F control XX-N19SA ESCNS Flt8 (3) Three-Nay Ol sphraga I TT/Hansel Dahl 3 150 150 pslg 2.5 Taaparature 12> 13 Return Globe 8 125F control XX-N20SA ESOtS (3) Three-Nay Dlsphraga ITT/Haasel Dshl 150 pslg 2.5 Toaperoture 12> 13 Return Globe 8 125F COll I t'O I

TABLE 3,9.3-(4 (cont(hued)

MN~S Sl&PLIED CLASS I 2 Ne 3 ACTIVE VALVES Valve Design Systan

~tt>> ~>t 1<< tl Ehv>

~t ~T >u t 'l t~

Shinty Class Rating (ANSI P)

Design t

Cone I I ons S(ze (Inches-ID) Function t~>t>M 1 111 > t ESOIS LS) Three&ay oi aphraglL ITT/)(anna I Dab I 3 150 150 pslg 2,5 Teaparatura A 12, 13 Return Globe 0 125F conti'el ES(3IS LS) Three&ay Ol aphraga ITT/Hanna I Dab ) 3 150 150 pslg 2 5 Tanperature 12, 13 Return Globe g 125F control ESCI5 L3) Three&ay Ol aphragn I TT/Hanna I Dab l 3 150 150 pslg Tenperature 12, 13 Return Globe g 125F control ESCI5 L3) Three-Nay Di aphragn I TT/Hanna I Dshl 3 150 pslg 1,5 Taeperature 12, 13 Return Globe g 125 F control ESCNS LS) Three-Hay Dl aphragn ITT/Hanna I Dab l 150 pslg 2,5 Tenparature 12, 13 Return Globe ~ 125 F control ESCVS (3) Three&ay Dl aphrage I TT/Hanna I Dani 150 150 pslg 2,5 Tenperature 12, 13 Return Globe ~ 125 F Coh tl'0 I ESCA LS) Three-lfay Diaphragn I TT/Hasv>el Oahl 150 pslg 2,5 Tanperature 12, 13 Return Globe g 125 F colltrol 3CX N2SA ESCMS (3) Three-Nay Oiaphr age I TT/Hanna( Dab l 3 150 pslg 1,5 Tanperature 12, ly> 18 Return Globe g 125F control 3CX-l03SB ESCNS (3) Three-Nay Oiaphragn ITT/Ihunsel Dani 3 150 psig 1,5 Tenparature control 12> 1'0 Return Globe g 125 F 3CX-M3aSA ESCVS (3) Three-Nay Oi aphr age I TT/Hanna I Dani 150 psig 1,5 Tanperature 12> 18 Return Globe g 125F con(I'ol

) cP 1

TABLE 3,9,3-)a (continued)

NON-NSSS QPPLIED CLASS I 2 AM) 3 ACTIVE VALVES Valve Design Systen Shinty Rating Design

~T~ at L LI Env, h I ~t OEerator Nanu lecturer Class (ANSI I) Conditions Slee l Inches-IO) Function w~tea >

~'~ N t 3FP-VI2058 I FP RAB l3) Globe Solenoid Target~k 150 125 pslg I ESF A 12, 18 8 '125 F 3FP V)2)SA I FP RAB LS) Globe Solenoid Target-Rock 3 150 125 ps I g 12, 18 8 125 F 3FP-V)3258-I FP RAB LS) G lobe Solenoid Target-Rock 3 150 125 ps lg I ESF A 12, IB

~ 125 F 3FP-V)33SA-I FP RAB LS) 0 lobe Solenoid Targets 150 125 pal g I ESF A 12, 18 8 125 F 3SA-V)0 ISA-I SA RAB LS) Globe Solenoid Targat~k 150 125 ps lg I ESF T 2 8 125F 3SA-V30258-1 SA RAB I3) Globe Solenoid Targat~k 150 125 pslg ESF T 2 8 125 F 3SA-V30658 I SA RAB LS) G I obe Solenoid Target~k 3 150 125 ps )g I ESF T 2 8 125 F 3SA V307SA-I SA RAB LS) Globe Solenoid Target~k 3 150 125 pslg T 2 8 125 F 3SV&300SA I SV RAB LS) But ter l ly EI ectro- I TT/Haene I Dahl 3 150 150 pal g 10 Teep. Control )2I '19 Hydraulic 8 IiOF Nodulating 3SV&303SB-I SV RAB LS) 8 tearily E lectro- ITT/Hansel Oahl 3 150 150 pslg 10 Tanp, Control 12, 19 Hydraullc ~ Iso F Hodu I at In g

TABLE 3,9,3-14 (cont lnued)

NOhHSSS QH'LIED CLASS I 2 Nd) 3 ACTIVE VALVES Vol ve Design Systen Sefety Rating Design Size

~T~ et l tl Env>

et ~T 0)Ierntor Wnuf ncturer C less (ANSI W) Cond I t I ons finches-ID) F tI t~>t~ Notes 3CX~-I CSCNS RAB I3) Rel lef 5-A Crosby 150 150 pslg Pressure Relief 12, 15 Return g 125F 3CXASSB-I CSQIS RAB 13) Rel I el 5-A Crosby 150 150 pslg 3/4 Pressure Relief A 12, 15 Return 512$ F CSCNS RAB LS) Re I I e I 5-A Crosby 150 150 pslg 3/4 Pressure Relief A 12, 15 Supply 5 125F 3OHIISA-I CSCNS RAB 13) Ref lef 5-A Crosby 150 pslg Pressure Relief A 12> 15 Supply g 125F 35l&1SSA- I SV RAB 13) Re I I ~ f 5-A Crosby 150 150 pslg Pressure Relief A 12, 15 g 140F 3SN&I TSB I SN RAB 13) Re I let 5-A Crosby 150 150 pslg Pressure Relief A 12, 15 g 140F 3SN-V800SA-I SII RAB 13) Nnfer Check fp TwR/Hl ss 1 on 150 pslg Prevent Bnckflor N/A g 140F