ML20093C651

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Forwards Draft Changes to FSAR Table 6.2-17 Re Primary Containment Isolation Provisions to Ensure That Valve Isolation Signal Nomenclature in Agreement W/Proposed Tech Specs.Related Correspondence
ML20093C651
Person / Time
Site: Limerick  Constellation icon.png
Issue date: 09/14/1984
From: Kemper J
PECO ENERGY CO., (FORMERLY PHILADELPHIA ELECTRIC
To: Schwencer A
Office of Nuclear Reactor Regulation
References
CON-#484-988 OL, NUDOCS 8410100632
Download: ML20093C651 (38)
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Text

{{#Wiki_filter:r ... w Q t zc w onDENC5 .h PHILADELPHIA ELECTRIC COMPANY TSIC 2301 MARKET STREET W SEP 24 40:42 P.O. BOX 8699 PHILADELPHIA. PA.19101 ~ TE :p er rci ![* LC4ilt 0I 5El. 21si e4.4 so2 JOHN S. MEMPER 3 RANCH V 4C E*ft E SID E NT Docket Nos: 50-352 [ b 50-353 0 ), Mr. A. Schwencer, Otief Licensing Branch No. 2 SEP 141984 Division of Licensing U.S. Nuclear Regulatory Ccmmission Washington, DC 20555

Subject:

Limerick Generating Station, Uhits 1 & 2 Infonnation for Containment Systems Branch regarding Primary Contairrrent Isolation Valves, FSAR Table 6.2-17

Reference:

D. R. Helwig (PECo) Telecon with F. Eltawila (NRC) on Septaber 10, 1984

Dear Mr. Schwencer:

Attached are draft changes to ESAR Table 6.2-17 regarding primary contairment isolation provisions to ensure that valve isolation signal nmenclature is ir. ape==dit with the proposed Limerick Technical Specifications. 'Itus change was discussed in the referenced telecon. The information contained on these draft FSAR changes will be incorporated into the FSAR, exactly as it appears on the attachnents, in the revision scheduled for October,1984. Very truly yours, /7 7 WM/cuv/09128405 Jd8N-Attachment Copy to: See Attacled Service List 8410100632 840914 PDR ADOCK 05000352 A PDR l

7.- h 4# L cc: ' Judge Lawrence Brenner. (w/o enclosure) Judge Peter A. Morris (w/o enclosure) Judge Richard F. Cole (w/o enclosure) Judge Christine N. Kohl (w/o enclosure) l Judge Gary J. Edles (w/o enclosure) . Judge Reginald L. Gotchy (w/o enclosure). Troy B. Conner, Jr., Esq. (w/o enclosure) Ann P. Hodgdon, Esq. (w/o enclosure) Mr. Frank R. Romano (w/o enclosure) Mr. Robert L. Anthony (w/o enclosure) Ms. Maureen N111gan (w/o enclosure) Charles W. Elliot, Esq. (w/o enclosure) Zori G. Ferkin, Esq. (w/o enclosure) Mr. Thomas Gerusky (w/o enclosure) Director, Penna. Emergency (w/o enclosure) Management Agency Angus R. Love, Esq. (w/o enclosure) David Wersan, Esq. (w/o enclosure) Robert J. Sugarman, Esq. (w/o enclosure) Martha W. Bush, Esq. (w/o enclosure) Spence W. Perry, Esq. (w/o enclosure) Jay M. Gutierrez, Esq. (w/o enclosure) Atomic Safety & Licensing (w/o enclosure) Appeal Board Atomic Safety & Licensing (w/o enclosure) Board Panel Docket & Service Section .(w/o enclosure) Mr. James Wiggins (w/o enclosure) Mr. Timothy R. S. Campbell (w/o enclosure) \\' ,c L

l p Pg i o f-20 tGS FS. TABLE 6.2-17 ~ CONTAJISIENT PENETRATIO. A \\ I LE: CONTAINMENT} NRC GENERAL P!J CD, PENETRATION l LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE VALVE VALVE TYPE C OE NLmeER ISOLATED FLUID SIZE (in.) CRITERION SYSTEM SYSTEM NUMBER TYPE (1) LOCATIC3 ARRANGEMNT(2) TEST g X-3A-l Instrumen. Water / 1 55 F0700 XFC Outside (40), 10 0 tation-main steam F0730 XFC Outside I steam line D flow X-3A-7_ Instrimenta-Watar 1 55 F003A XFC Outside (40) leo tion-Recirc pump seal pressure f X-38 Instrument Gas 1 56 No No 10058 CK Inside (22) N Yes l l gas supply No leo 1298 GB. Outside X-3C -l Instrumen-Steam 1 55 ~ l tation-HPCI F024A XFC Outside (40) Ito steam flow X-3C -2 Instri.2en. Steam N 55 F024C XFC Outside (40) No tation-HPCI steam flow X 1 Instrumen. Steam / 1 55 F070A XFC Outside (40) No tation-main water F073A XFC Outside stems line A I flow X-30 -2. Instrument Gas 1 55 No Yes 1112 CK Inside (48) l Yes gas supply No Yes 1518 GB Outside J X-7A-3 Main Steam 26 55 llo leo F022A-D' GB ,Inside (1) Yes steam l Ito No F028A-D GB Outside Yes Yes F0018,F. GB Outside 4'- 58,F.KP XFC Outside No 45'- X-8 Main Stean/ 3 55 No Ito F016 GT Inside (33) Yes stems drain water No No F019 GT Outside six i l T1001550-01V l l l.j i

l hES FSM i.' - TABLE 6.2-17 (Page 1 of 20) CONTAINMENT PENETRATION DATA LENSTH OF -+ k i! PIPE FROM POWER / CONT. TO PRIMARY SECONDARY NORMAL SHUTDOWN POST-FAILURE DIVERSF Y.tLVE LYE f TYPE C OUTSIDE METHOD OF ETHOD OF VALVE VALVE ACCIDENT VALVE ISOLATION !!OLATION CLOSLRE POWER EENT(2) ' TEST VALVES ACTUATION (3) ACTUATION POSITION (4) POSITION MSITION POSITION SIGNAL (5)_ IGNAL(12) TIE (6) 500trE(7) REMIES S (40) No 12* Flow O O O 12" Flow 0 0 0 1 I (40) No 2'-3* Flow 0' 0 0 l { f (22) Yes Flow 0' O C 6* Camp Air Spring 0 0 C C C.H.S Yes-4.4 sec 8 f [40) No 12' Flow 0 0 0 l l40) No 12* Flow 0 0 h0

40) ~

No 12* Flow 0 0 0 12* Flow 0, 0 0 6 48) Yes Flow 0 0 C a 7' AC mtor Manual O' O C AS IS M MA 30 sec 0 i 1) l Yes Instr' gas Spring 0 C C C C.D.E,F,P,Q Yes 3 to ID* sec A/W O' Ccap air Spring 0 C C C C.D.E.F.P,Q Yes 3 to 10* sec 8/I 4'-6* AC motor Manual C C 0 AS IS EA NA 30 sec M (8 1 0 ' 0 0 No 45'-8" Flow o 1 53) Yes AC metor Manual C 0 C AS IS C.D.E,~F,P,Q Yes 30 sec A p O' AC motor Manual C 0 C AS IS C.D.E.F,P,0 Yes Standara 8 l M v i Rev. 33, 06/84 v -: :. ^ 1.' : i.i < V. * \\.i '* ' :; : -f2.:F^. lP : 1 ~.-:- - " Tl.' - i : : > - " '. '. e k, i F N". - y..p g '..

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W LGS FSAA L } I TABLE 6.2-17 (Cont'd) l Pg 2 o f-20 I ) gb fi4I h LENGTH OF PIPE FROM CONTAINMENT NRC GEhERAL CONT. TO PRINAAY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE VALVE VALVE TYPE C OUTSIDE NETWOO OFJ NUMBER ISar.ATED FLUID SIZE (in.) CRITERION SYSTEM SYSTEM NUNSER TYPE (1) LOCATION ARRANGEMENT (2) TEST VALVES ACTUATION. i A X-94,8 Feedwater Water 24. 55 Yes Yes F010A CK Inside (2) Yes ' Flow r No Yes F0108 ' CK Inside Flow Yes Yes F074A, =SLPACK Outside 0" Flow n No Yes F0748 JSLPACK Outside 0* Flow No No F032A,8 Ot Outside 22'-2" Flow No No 109A,8 GT Outside 31'-6". AC motsw No No F039 SLPACK Outside 29'-6" Flow h No Yes F013 , GT Outside 20'-1" OC motor No Yes 1036A,8 I CK Outside 2'-6" Flow T No Yes 130A,8 G8 Outside 124'-6" AC motor No Yes 133A,8 G8 Outside 70'-1" AC motor No No 1016 G8 Outside 83'-2* Manual Yes Yes F105 GT Outside 22'-8* AC Motor X-10 Steam to Steam 3 55 No Yes F007 G8 Inside (3) Yes AC motor RCIC turbine No Yes F008 G8 Outside. 0" AC motor No No F076 68 Outside-3'-3* AC motor I X-11 Steam to Steam 10 55 No Yes F002 G8 Inside (3) Yes AC motor HPCI turbine No Yes F003 . G8 Outside - 0" AC motor ) No No F100 G8 Outside 6'-9" ' AC meter X-12 RHR shutdown Water 20 55 No No F009 GT Inside (21) Yes AC motor cooling supply No No F008 GT Outside . 17* AC motor 155 PSV Inside Water pres No ~ X-13A&8 RHR shutdown Water 12 55 No No F050A,8 iTCK Inside (11) -Yes Flow cooling return No No 151A,8 G8 Outside [. 11". AC meter Inside Inst gas No No 'F0154,8 G8 1 X-14 RWCU Water 6 55 No Ko FOC1 G8 Inside (20)

Yes '

AC motor r supply No No F004 G8 Outside 0" -AC motor r X-16A CS discharge ~ Water 12 55 Yes Yes F006A TCK' Inside (11)

Yes Flow Yes Yes F039A

' G8 Inside Inst gas Yes Yes F005 GT Outside 0" AC motor E-X-168 CS discharge Water 12 55 Yes Yes F0068 'TCK. Inside (8) Yes' Flow E Yes Yes F0398 GB 'Inside s Inst gas E Yes Yes 108 'SLPACK-Outsi,de b __ T1001550-01Y a 1 I t A

LGS FSAR t TA8tE 6.2-17 (Cont'd) (Page2ef20) LENGTH OF PIPE FROM , POWER CONT. TO PRIMARY SECONDARY NORML SHUTDOW POST-FAILURE DIVERSE VALVE VALVE TYPE C OUTS DE METHOD OF METHOD OF VALVE VALVE ACCIDENT VALVE ISOLATION ISuLATION CLOSURE PGuER } ARRANGEMENT (2). TEST VALVES ACTUATION (3) ACTUATION POSITION ( i) POSITION POSITION POSITION SIGNAL (5) SIGNAL (12) TIst(6) SOURCE (7) RDensets (2) Yes Flow 0 C 0 Flow 0 C 0 0" Flow Spring 0 C C 0 (9) 0" Flow Spring 0 C 0 D (vJ 22'-2" Flow AC motor 0 C 0 AS IS A 31'-6" AC motor Manual C C C AS IS RM No Standard A (13) 29'-6" Flow Spring 0 0 C N (9) 20'-1" DC motor Manual C C 0 AS IS LFCC M 15 sec A 2'-6" Flow C C 0 124'-6" AC motor Manual C C C AS IS RM hA 30 sec A. 5 70'-1* AC motor Manual C C 0 AS IS lut NA 30 sec A 3-83'-2" Manual C C C C 22'-8" AC Motor Manual C C 0 AS IS RM M 20 sec s (3) Yes AC moto-Manual O C 0 AS IS K.KA NA 7.2* sec C 0" AC motor Manual O C 0 AS IS K.KA E 7.2* sec A' 3'-3* AC motor Manual C C C AS IS K.KA No 30 sec 'A (14) (3) Yes AC motor Manual O C 0 A3 IS L.LA E 12* sec D 0" AC motor Manual O C 0 .ALIS L.LA NA 12* see B 6'-9" AC motor Manual C C C AS IS L.LA No 30 sec 8 (14) - (21) Yes AC motor Manual C 0 C AS IS A.V Yes Standere A (15) 17" AC motor Manual C 0 C AS IS A.V Yes Standard 3 (16) C C C Water press. ~(11) Yes Flow Inst gas C 0 0 A.V A,3 Inst gas Spring C C C C A.V Yes 4 4 see A; 11" AC motor Manual C 0 C AS IS A.V Yes 29 sec N (20) Yes AC motor Manual 0 0 C AS IS B.J.Y Yes 10* sec A l l 0" AC motor Mancal 0 0 C AS IS 5.J.Y Yes 10* sec 8 l A (9) I (12) Yes Flow Inst gas C C 0 Inst gas Spring C C C C 4.4 see A 0" AC motor Mancal C C 0 AS IS RM M 12 see A (8) Yes Flow Inst gas C C 0 B (9) Inst gas Spring C C C C 4.4 sec 8 0* Flow Spring C C 0 C 5 (9) I I O I y Rev. 34 u?/ M YE V i

LES FSAlt DRAET e+ a TASLE6.2-17(Cont'd) / g Q ),a f [ LENGTH OF PIPE FR(M CONTAINMENT NRC GENERAL CONT. TO PRIMMtY FENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE: VALVE VALVE . TYPE C OUTSIDE MTH00 0F NUfeER ISOLATED FLUID S!ZE(in.) CRITERION SYSTEM SYSTEM NUleER TYPE (1) LOCATION ARRANGEENT(2) TEST VALVES . ACTUATION ( X-17 RPV head Water 6 55 No No F022 GT Inside (21) Yes ' AC meter 122 PSV Inside Water press WW 10 0 5 No No F023 GB Outsidei 0* . AC meter X-20A - l Instrumen-Water 1 55 F0458 XTC Outside. (37) No 14* ' Flow tation-RPV level X-20A -2 Instrumen-Water 1 55 102: XrC Outside (40) iso 14" rio. tation, LPCI

  • S' d P X-20A -3 Instrumen-Water 1

55 1038-XFC. Outside (40) les 14" Flow-tation 'O'd 9 LPCI tr X-208-( Instrumen-Water 1 55 F045C XFC. Outside. (37) les 2'-2* Flow tation-i 4 RPV level J ~ .. y 102C xrC. Outside - (40), X-208 -2 Instru.e,- Water 1 55 no 13.

ri :,.

tation ,d ' d f LPCI W 'e X-Serv ce air s 3 56 No No 1140 GT .Inside (C) Yes No No 1139 GT Outside . Manual 0*. Manual ^~ X-22 Instrimien-Gas 1 56 147C GB Outside' (41) no , 3" . AC meter ", tation - dry-O r well pressure 3 4 [ X-23 ,Rectre pump Water 4 56 No No 106 GT Outside~ (13) Yes O' i - AC meter' cooling watee No No 108 GT f0utside. 3'-11*

  • AC meter s

supply No No 109 GT,*, 0utside 5'-2*. ManualL ,f, X-24 Rectre p g Water 4 56 ' 10 0 No 107 GT.- Outside3 -(13) Yes - 0*... AC Meter-AC motor l cooling. water. No No 111 GT n Outside 3'-8*,,~ return 10 0 No 110 GT'; - Outside' 5'-0*- 3 Mensal. k,, ' i (, I 3 'DRAETi 1%m ~ .a _ 55 _ n ~ 1 q. ~ - O ; *, 4-..

z 4

t> ~- ~ m-wn-

LGS FSAR TA8$.E6.2-17(Coct'd) (Page3of20) \\l LENGTH OF PIPE FROM POWER CONT. TO PRIMARY SECONDARY NDEtNAL SHUTDOWN POST-FAILURE DIVERSE VALVE VALVE TYPE C OUTSIDE METHOD OF ETH00 0F VALVE VALVE ACCIDENT VALVE ISOLATION ISOLATION CLOSURE POWER UtANGEMENT(2) __ TEST VALVES ACTUATION (3) ACTUATION P0ilTION(4) POSITION POSITION POSITION SIGNAL (5) -SIGK4L(12) TINE (6) SOURCE (7) REMARKS (21) . ' Yes AC motor Manual iC 0 C ~ AS IS A.V Yes Standard A 'l Water press. C C C 0* AC motor Manual C 0 C AS IS A,V Yes 90 see B (15) (37) No 14" Flow 0 0 0 (40) No 14" Flow 0 0 0 Y (40) No 14" Flow 0 0 0 (37) No 2'-2* Flow 0 0 0 (40) No 13" Flow 0 0 0 (8) Yes Manual C C C O' Manual C C. C (41) No 8* AC motor Manual 0 0 0 AS IS RM 30 sec C (13) Yes 0* AC motor Manual 0 0 C AS IS RM No' Standard C 3'-11* AC motor Manual 0 0 C AS IS RM No Standard 0 q16)) 5'-2* Manual C C C Ll6 l (13) Yes 0* AC motor Manual 0 0 C AS IS RM 3'-8" AC m tor Manual 0 0 C AS IS EM No Standard 0 (16) No Standard C (16) 5'-0* Manual C C C g g 7-t M pR. 32, 05/84 [ ~ / .,w

LGS FSAR b [ N) 1"' % h. TASLE6.2-17(Cont'd)[ Qg % P 9 o41 i l 3 Q[tk4/E' LENGTH OF PIPE FRGIt CONTAINMENT NRC GENERAL CONT. TO PRIMARY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE . VALVE VALVE - VALVE TYPE C OUTSIDE lETH00 0F MuseER ISOLATED FLUID SIZE (in.) CaiTEA!0N SYSTEM SYSTEM M TYPE (1) LOCAYION ARAANIiO(NT(2) TEST V%VES _ ACTunTIONU l X-25 Drywell Gas 24 56 No No 135 SF Outside (5) Yes 16'-7* .ic motor - purge Yes Yes 121 SF ,Outside 3'-115- , Camp alr~ supply No No 123 2P Outside 3'-4*. , Camp air y-Camp air Yes Yes 131 SF Outside 60'-7* Yes Yes 163 8F Outside 3'-8* AC meter l lie No 109 BF Outside 42'-Z

AC meter i

X-26 Drywell Gas 24 56 No No 115 SF Outside (27) Yes 53'-7* AC meter. purge Yes Yes 145. GB. Outside 66' 9* a iAC ceti exhaust No No 111 GE Outside 6'-6* ~' AC motor lie No 114 BF Outside 49'-7*., - Camp air" Yes Yes 161 BF Outside 4'-5*

E meter No No 117 GB _

Outside-60'-3* w ' ' Camp air' 139 GS Outside n ta No 35'-5*, ' lAC Coll. X-27A Instrument Gas 1 56 No Yes 1128 CK. Instde (48) .~Yes ~ ~ ; ' Flow' gas supply No Yes 151A GB Outside 7" - AC motor: 3 ,e s \\. " 275 I F0248 XFC Qutside (40). No 12*Ia " Flow ' Instrimen-Steam 1 55 L tation-HPCI } X-278-2. Instrumen- .ste 1 55 F0240 XFC 'Outstde (40) ; c,. : lio. 12* c;<:rio. + 5 l tation-NPCI i 'O ,y'. ',,c; ,t Flow i, / j .g e . n <, X-28A - l Rectre Water 3/4 55 10 0 No F019 GB Inside (9),, '7;<Yes n-Ij k ; lestr' gas loop Iso No F020 W . Outside ,' f4'-3*4h-D Camp air,', . sample ?. M ' 3 4 i: .' ~ A.' / 4 X-28A - 2. Drywell Gas 1 56 Yes Yes-134., '. t. a t t, - - r~f.Yes '.. '4..,20* 2 AC cof1 i l 2 '(22)4 GB Outside

g '.. ~ f 3'-0*;,'ly((' AC ce1Q-H /03

.Yes Yes 144 ;. GB-y. Outside,* J . sampTe x i, _... .. n.., :, ..;v:g:p' x. 3% 7 y

  • ~ Gas 1

56 .Yes Yes 132 GB ?,,., Outsfde .(23) i7 Yes ^ M*$-iACcoil*L -4 X-284 -3 Drywell H /Op Yes Yes 142 -- GB. . Outside < ,s - X-288 Drywell Gas 1 56 Yes Yes 133 GB -l'Outside~ %.,'. (. N &. {, $.: f M Q : j:/ 2 ' 3'-0* J. VE cell: e sampTe W ' jf ; J,. 1 ' ~ 17" q,3-AC coll.. H /02 Yes Yes 143 GB'...,jy0.stside ' (23)' 't.a Yes 1. 2 -$..h,; '. ' ; 2'-11"[:]a AC. cell, '. _ , A 2'-11* ) 1AC cott ,, ;,:, 3 sample Yes Yes 195' GE-u.J. Outside, f,.. ' ~ 1, -. ),f' t.. ~ k* ,5S, ' \\ e'l g h [g T1001550-01V .m

TABLE 6.2 17 (Ccnt'd) ' DRAET (Page 4 of 20) l LENETH OF PIPE FROM POWER CONT. TO PRIMARY SECONDARY NORMAL -SHUTDOWN POST-FAI D! VERSE VALVE VALVE TYPE C OUTSIDE ETH00 0F, METHOD OF VALVE VALVE ACCIDENT VtVE ISOLATION ISOLATION CLOSURE PobER 9 PRANGEMNT(2) TEST VALVES ACTUAT!0N(3) ACTUATION P051 TION (4) FOSITION POSITION POSITI SIGNAL (5) SIGML(12) l M 50uRCg(1) RE maKS (5)' Yes 16'-7* AC motor Manual C ' O. C. AS 3 B,H),W,il U S Yes 6** sw 8 (IS) j 3'-11" Camp air Spring .C C C C 8,H ,W,7. uj5 NA i 5** sec A 3'-4" Camp air Spring C - 0 C C 8,H W,f u 5 Yes 5** sec A 60'-7" Camp air Spring C C C C 8,H,4W,Nu,f NA 5Sec A j 3'-8* AC motor Manual C C 0 AS IS B,H.Ry 5 NA sec 0 42'-2* AC motor Manual C C C AS I 8,H A W,5 U $ Yes f6**sec 8 (w) j (27) Yes 53'-7" AC motor Manual C 0 C AS 8,H A W X U,$ Yes 6** sec A (88) 66'-9* AC coil 0 0 0 C 8,H R, 6 NA 2 sec 0 6'-6" AC motor Manual C C C AS IS 8,H,5t,* U 5 Yes 15** sec 8 (ii) 8, HAW Ku,,5 Yes 49'-7* Coop air Spring C 0 C C 5** sw B (w) 4'-5" AC motor Manual C C 0 AS IS 5 NA 6 sec C 8,H.R,3 u S 60'-3* Camp air Spring C C C C 8,H,K, j Yes 5** sec A (13) No 35'-5" AC Coil 0 0 0 C RM 2 sec A (48) Yes Flow 0 0 C 7'

  1. 4 estor Manual 0

0 C AS S M MA 30 sec C l l l (40) No 12" Flow 0 0 0 -( (40) No 12" Flow 0 0 0 (9). Yes Instr gas Spring C C C C 8,D Yes 4.4 sec A 4'-3' Camp air Spring C C C C 8,0 Yes 4.4 sec 5 L (23) Yes' 20" AC coil 0 0 0 C B H,R, 7 ' NA 2 sec N 3'-0* AC coil 0 0

  • O C

8,H,R, $ NA k2sec D e.- l (23). Yes 20" AC coil 0 0 0 C 8,HR,8-NA 2 sec~ '8 3'-0" AC coil 0 0 0 C 8,H R,5 NA I 2 sec D I (23)- Yes 17" AC coil 0 0 0 C f 8,H.R3 i NA 2 see A 2'-11" AC coil 0 0 0 C l 8,H,R, 5 NA 2 sec D 2'-11" AC coil 0 0 0 C 8,H.R, 5 NA 2 see C .d Rev. 32. 05/84 h. 'T .. o? -9 ~ ~ " '

LGS FSAR ] ~ TABLE 6.2-17 (Cont'd) 7 5 oSM 9 )eh k.4 ~ PIPE FRON LENGTH OF CONTAINMENT NRC GENERAL CONT. TO -PRIMARY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE ' VALVE VALVE TYPE C OUTSIDE ' ETHOD OF NUMBER !$0 LATED - FLUID $1ZE(fn.) CRITERSON SYSTEM SYSTEM NupSER TYPE (1) .LOCATIO_N ARRANGEENT(2) TEST VALV55 ACTUATION (' .I X-29A Instrumen-Water 15 55. F009 XFC Outside (37) . No. 12".;cFlowL tation. RPV flange ?P -J' leakage c ,,,,_.4, F018A 1FC' b 109tside (40) ,, 9; No "k:[.12N, 31ow X-298 Instrumen. Water 1 55 tation. , a_.,7 d i y y q.U n,, A' 6 c5 np

p i*,

?.

o...+ x e..n v.

l(40) 6-lJ N No '.$ 12*SP Flow l '.. X-30A Ins trianen-Water 1 55 F071D XFC. Outside tation. F0720- .IFC w Outside. <;; V1 f . '.' ? g K _ f d.112 p' ': flow main steam

. T

':4

  • % y" ' j!';Tf.f,[siff((...1Qf line D flow i

f /^,, '.4 7 X-308-1 Instrumen-Gas 1 56 h *f f b '. 7" x ; p,AC actor ,-p,,. 147A CS .l Outside ~~1J6'~(41).. ...,...' yAJ - d. ? : No ,c tation - dry- - rE TlY.49.~.. l,V,~ '~ well pressure s... r4 : ,7 T N.J- , h.'f.W hA-o[4 ~I i:4 y' a . r,.,.. c; W b 4' f;,.. - + ".)g, e.. ~ 40) % c c..,:N.5'SNe E I, X-308 - 2 Ins trumen. Water 1 55 y 5.- F071C XFC.' ". Outside M '. -(/ ~ p ; y l'[! M.I'.,12*d if flo tatfon- '-? F072C

XFC -

Outside .,. ' f sain staan j , es 7 tf ~; .',,.v q, a;+..:r' d g..c6.,, Ifne C flow e J.j 3. ,1. ' %. j ...J a '. e y s e 4. s p; X-31A,8 Instrumen. Water 1 55 F0598,F,H XFC' " ' ' Outside *,. '. (37) 1:F ( - No" ' f/M 12 @ 'iFlow .F tation. F0590 'XFC . 0utsidel i" . p g a..., D,L 4'-7* W.. Flow ? i jet pump ~, F051B 1 ? XFC * '. Outside '. - O n,, M@.;;.",'n f[t. flow XFC41.fOutside'k[- F0538 'h .* y .c.,.- .s.; y e.c 3- .- _ : w.: 2 - X-3 8 Instrumen. Water 1 55' 'c 'f(37 qu, ; b.. No "'.E ' 9:512*i ' 1 Flow ' dE F059N,5'U XFC 1.l0utside p,1. ~ gg)f-/ c. fj )i.'e5 3'-4* '.;F [ F tat 1on-s

F051D, IFC 3,,,0utside,

jet pump XFC ' r Outside v% ; * ~ -! M ^.. ?.

  • m ', - N t 12* M Flow 7 p'. ~

F0530 flow F059P' XFC -

  • W

-~ ~ ..L W.r0utside,.'.i.-.. :Y 3*[ #.. '.O E4'4*$f;W Y:%';;G DM Flow ' i;; -Ri .X-33A -l nstrumen-Water 1 55 t F055 .'XFC 1 - Outside. ~ (37)'

No ' 2'35;, D ; Flow - R XFC i '~ Outside G,

-l ' '.i' tat 1on ~ F078 , f. 4',-2* W,% Flow : i,'. pressure g,, af-above core. ^ l plate 7 ~' s ;.5- ., ', f F, . g', ~ ~A^ ;., ; t . y SW l W ~ it ";p- ~ +, . ; 2,

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LES FSAR M f-b 4 f LENGTH OF PIPE FROM CONTAINMENT hRC GENERAL CONT.'TO PRIMARY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE VALV2 VALVE TYPE C OUTSID( E TH00 0F ME ISOLATED FLUID SIZE (in.) CRITERION SYSTEM SYSTEM NUISER TYPE (1)' LOCATI()N ARRANGEMNT(2) TEST VALVES-ACTUATION (3 V X-33A -2. Instrumen. Water 1 55' F061 XFC Outside (37)' No 12*. i Flow,' i' tation- , y'. w. s pressure ,/ below core o plate i ' +. ' s F044A.C J,. IFC Outside ; (40)..' n, ... t LR ; ;. 4 X-338 Instrumen-Water 1 55 c No'; D' ~ 121; t Flow 1:'- tation- ' i' 4-K j % RCIC staan 7 t flow -. yg -,,, j,tj, y: t c t

r

'. +,, if * .*c '?' l T '* ~

r..

Outside' ' (40)... .'NoL.. M;' 12". v Flow'. i X-34A Instrumen-Water 1 55 F070C XFC 4 p.,, Sepe=4 F073C O, ' XFC .F Outside }V i 7 'd ', *c't'3 9 ' ? r"12"3' 4 Flow c % p tation-main steam gg . c. , a, ,cn. line C flow m' n, cc.' - - ' ' ".O F,. o.U, ' N s m Q;< w X-348 - 1 Instrumen-Water 1 55 a .,,F009C ' CK f Outside 't-(40) i. D - No h.1 " 18" 4 F.] tatton - 'F0090 CK W'~~0utilde f.- '. - V 9 0 ^ -Flow a,? 9 gqoy e W rectre flow F010C CK .. ~ 28-9" T f' Finu Outside .~ ' + x -398-2. 18' *T'"",,a rw, t% rer i FS F010 F - a Outside 3'-6"." Flav 3 j reevs fl s. J. D-TIP purge - Gas / .1 56 No No 131 GB. .Inside '

  • U -Yesl Outside J(4E)'3 "20tM:;gCampair2 No No
1056, CK

^ .,;.a.. -] f s;, ficw,L L 3.. X-35C-G TIP drives Gas 3/8 56 No No 140A-E : 16 % N Emplosion" g No ' No 141A-E., . BL. .0utside.l ~ (6) " ;

7es '

E ' XP

' Outside A i y 1,S.,., e 8*d.h,,' " AC co11 %

l i '*m.. .s 5,; BLCK. Inside. d.,. ..e g..:,, m. X-37A-D CR0 hter 1 55. Yes. Yes d No ',' a,. . h.. ,,.,.,., J.i t '. (47). Outside 4'.;. - - h ' : p '!uc.; YW 6;. insert Yes Yes HCU k i.,'e eg x

  • g.

m.n; g, m, s ;- X-38A-D CRD Water 3/4 55 Yes Yes HCU. Outs 1de , ' (47) d.;"'iNo I, -

  • S. V-:

withdraw Yes' Yes F180 . GB. Outside .Yess.t.jLater'j,Campairl l

Q

' Outside Yes Yes F010

  • - 68 ",., OutsIde '.,-

M. -. ", * ',D %;'* Later M Camp air + l Yes .Yes-F181 m' GB, .Later: Camp air J g GB, Outside ? ', Yes Yes F011' Later $ Camp 41r. -. ' ' Y 4. .o g < ~, t X-39A,8 Containment Water 16 $ 56 .Yes Yes F021A',8 GT } ' 'Outside -(25) , Yes f', 112" t 8',-10", b AC motor i spray Yes. Yes F016A,8. - GT. , ' Outside. g AC motor g n... t. X-40A Instrumen-. Water 1 55 F059L,R -XFC, _ Outside ! / (37) ,' + No T. . 12"~.O'?F{ow,;. Fl i i tation - jet F059N XFC T1001550-01V D, RAET, Outside pump flow ..h (' 4'-79,t.; r D-I i e ? -4 4 coh $ > m ye

LGS FSAR TABLE 6.2-17 (Cont'd) ,.(Page 6 of 20) l LENGTH OF i - PIPE FROM POWER CONT. TO PRIMARY SECONDARY NORMAL ESHUTDOWN TOST-FAILUPE DIVERSE VALVE, VALVE TYPE C OUTSIDE ETH00 0F METHOD OF._ VALVE . VALVE MCIDENT VALVE IS3LATION - ISOLATION CLOSURE POWER. ) JtRANGEMENT(2) - TEST VALVES ACTUATION (3) ACTUAT10jpf0SITION(4) POSITION POSITION POSITION SIGNAL (5) $!GNAL(12),TJg), }Qygfg7_) REMARKS (37) ' No ,12" Flow-0 0 0 ,- ? ;"' c' ,, h

a. -'

L t i ~, e;.,, ~.. ~, 2-(40) No 12" Flow l0 0 0 ' i- ': ) g-s

(

m (40) No 12" Flow 0 0 0 q, 12" Flow 0 0 0 ~ - 4 F 2 ~ ' ; +; ;<. (40). No IR*_ Flow - 3 0 _ _0_ 0 t ~ '2 -9" Flow 0 0 - 0 f . ;,,.. C., w Flow 0 0 0 U,, y m. -i. 3 ' -6 ' ~ Flow 0 0 0 'd _v.. A.f..'4,-' .,.5. :.. (46) Yes O' Camp air- - Spring 'i. 0 C C' C. 8,H,5 x.Yes " 4.4 sac, O 8, ". ;t;, q. ,(.

  • s,;,w.

p. 4 -. +. i Flow 0 C C C-q ;- 'A, : 0 0 0 AS IS 'RM.,.. ;) j, ; d.W. 5. ! :.:. T T.~$ ct; %,' ; (6) Yes 16" Explosion Mi: p N..,f 10). N ; ,.*f (10) t [;N 8" AC coil Spring'. C C C C-8,H 'l Yes '

  • n ' '. ', i t (L

s' T'. (47) No ~ :#: , 1.f.:,,. -<.4 W I ,l' A, (11),, J " ] y (11 , V,, a, @j y .t a n. A *, L (47) No .4 s ?e

! 4..

! [11) Yes Later Camp air Spring 0 0 C C i NA Later: .N:

  • f ( J ' '. i ~-

Later Camp air Spring 0. O C C ' NA Later. 'N- ' 'L J Later Camp air Spring 0 0 C C g, i NA Later N *. j i. J Later Camp air Spring 0 0 C C NA Later.' N (11) (25) Yes 12" AC motor Manual C C C AS IS RM NA. Standard A,8 I 8'-10" AC motor Manual 0 C C AS IS RM EA Standard A,8 I (37)' No 12' Flow 0 0 0 l 4'-7" Flow 0 0 0 l Rev. 32, 05/84 Y l, .. m ---

j LES FSAR H DRAFT g;w-f 8f,)- band $/k s ) LENGTH OF PIPE FR(M i CONTAINMENT NRC GENERAL CONT. TO PRIMARY l PENETRATION 'LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE. VALVE VALVE TYPE C OUTSIDE-MTH00 0F y NUMBER ISOLATED FLUID,5IZE(in.) CRITERION SYSTEM SYSTEM NupeER . TYPE (1) ' LOCATION ARRANGEMNT(2) TEST VALVES ACTUAT!0N(3 F059G ' XFC Outside (37) No' 12" Flow X-40s Instrumen. Water 1 55 tation - jet F051A XFC Outside 3'-4* Flow pump flow F053A XFC Outside 12"' Flow I F059A.E XFC Outside '(37) No 12*I _ Flow X-40C 3nstrumen-Water 1 55 nation - jet F059C ' XFC 'Outside ; ', ( 4'-7* Flow lump flow X-400-l Jnstrumen-Water 1 55 F057 XFC ~ Outside (37) No', 12* _ Flow' atton - pres-f,. O

4 '4 sure below

+' g core plate i,- ~' + m, X-400 - 2. Instrumenta-Water 1 '55 No '. Later ' Flow 170 XFC Outside (37) (tion-RWCU 171 XFC Outside,' ' Later Flow l } flow i e.g. r .,t Outside .-(41). r X-40E Instrumen-Gas 1 56 -No; ' ^.'. 12$, *qAC. motor 1470 G8, i s. lwellpressure Jo S: tation - dry-e 1

1,' ? ' '

'e 1 X-40F - l Instrumen-Steam 1 55 [No ~ 12*?b Flow.: F0448,0 XFC ' Outside ' (40) ' a' } { tation - RCIC ' ~ <"e-stems flow ~ .,'s '.i..i. 4 X-40F d Instrument Gas 1 56 No No 101 G8" 4 .1 I nside (4): ' - : Yes +,; - 4 ' ' AC motor ' ( p,, ' ~,'. _f,; Q p v 4* p Camp Ai gas suction No No 102 G8 J'1 Outs,1de ' . a , Outside..[;.c(31) '1 rf 4,yes H 7' t I Manual i ,,.4 :.N,.,.. -

m. -

t X-40Ga-l ILRT data Gas 3/4 56 No No 1057 G8 acquisition. No No 1058 G8.,, Outside : p, . < ;,,'. 4, , 23', i c y4 Manual c l r X 40G - 2. ILRT data Gas 3/4 56 No No 1071 G8' . Outside ;i 5.(31), ),. i'C ' .'7* f p',2 ' Manual > Yes Manual 'h

  • '~

acquisition No No 1070 GB,' '. 0utside

  • Js

' N. ! < 12910*it

s..

X-40H 1 Instrument . Gas 1 56 No No 1005A -CK5,9 Outside 5 [ (',-);':[t @ l',t.., ,.-Inside.' 22 ' ', R'Yes

  1. N Flow gas supply No No 129A-.

GB 13'. 7 ' Coup air ' a ^., t, v: s ;m.'. g , _ g g, 1 .., es/ - q q* s .~ ~ .,, f o*. .e,1,, y s -a ,s

b

.i s '.,. E..

,.h
h c

b:* .? 'yt-r i e-i T1001550-0V r-j 5 t '~

LGS FSAR TAPLE 6.2-17 (Cont'd)

  • s (Page7of20)

~ l ', l LENGTH OF PIPE FROM PCidER 4 s' CONT. TO PRIMARY SECONDARY NORMAL '!JRITDOWN POST-FAILURE DIVERSE 5 VALVE , TYPE C OUTSIDE ETH00 OF METHOD OF VALVE , VALVE ACCIDENT. VALVE ISOLATION ISOLATION.. VALVE . CLOSURE POWER

i RRANGEMNT(2)

TEST VALVES ACTUATION (3) ACTUATION POSITION (4) POSITION POSITION POSITION $1GNAL(5) $1GNAL(12). T,jg]61,50uRCE(7) ggg. 6 (37)+ No 12" Flow. ~ 0 0, O ~-' a* ~ ', s' 3'-4" Flow 0. - 0 0 u 12" Flow 0 0 0 ' F. (37) No 12" Flow 0 0 0 4'-7" Flow 0 0 0 (37) No 12" Flow 0 0 0 f- ,q a t 3 a (37) No Later Flow 0 0 0 0 0 0 .-? d.' m Later Flow

O

. Q', (41) No 12" AC motor Manual 0 0 0 AS IS .RM '30.sec. 'l ' D ' .n. *.4 t ,.m', i $j. . itj { :;- l ' * .s :-. : q;

j (40)'

No 12" Flow E 0 0 . s g<. c ~,y.,- i .g,- (~4): Yes AC motor Manual 0 0, C AS IS C.H.S Yes ' 30 sec' s t A' s.. pa< '4.4 sec.. l ;, l ' 8.,3 *, ' ^ 8" Camp Air Spring 0 0 C C lC H,5 Yes .,;i e .,.; c~ '.. -W ;U :1, ';; T ' f, w (31) Yes 7" Manual C C C f 23" Manual C C C 1< 4 1 N g (~1) Yes 7" Manual C C C i g s y- ' l} 2'-10" Manual C C C (22) Yes Flow 0 0 C ~ ' 13" Camp s.r Spring 0 0 C C C.H,5 Yes 4.4 sec A (:>

r. ~~

vp .7' Rev. 32, 05/84 V .u l,,

LGS FSAA or ] g g [ g 6.2-17 (Cont'd) Iek-hall-LENGTH OF ~ PIPE FROM CONT. TO PRIMARY CONTAINMENT NRC GENERAL PENETRATION I LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE VALVE VALVE TYPE C OUTSIDE ETH00 0F NUfGER__ ISOLATED FLUID SIZE (in.) CRITERION SYSTEM SYSTEM NUMER TYPE (1).-LOCATION ARRANGEMNT(2) TEST VALVES ACTUATION (3 j 1565 XFC'. Outside (44) No 12" Flow + X-40H-2. nstrimen-Water 1 56 1575 XFC Outside 12." Flow ation-ecirc pump cooler 102A XFC ' Outside (40) No 2'-5" Flow X l 'Instrumen. Water 1 55 1028 XFC Outside 13" Flow tation - RWCU 103A XFC Outside ' (40) No 13" , Flow-X-41 -2_ I trumen-Wate 1 55 tion - ( PCI M T A

Flow l

St y Sod 2 55 Yes Yas F007 CK Inside-(10) 'Yes h 11 gut ta-Yes Yes F006A SCK - Outside 0", - Flow contro borate i solution t F040A.C XFC Outside ' (40) No,. 2 ' Flow X-43A Instrumen. Water 1 55 tation - i.- . i., 1+- I recirc loop A if ' ~ Inst gas' X-438 Main steam Stean 3/4 55 No No F084 GB ' Inside i(9). 'E~ ~ Yes + i sample No No F085 lGB Outside' ~ f 2'.4" Camp air t

i. -Yes f

' Manuel X-44 Alternate Water 4 55 No No 1017 GE Inside (14)*' '..i ' - 20" Manual RWCU No No 1016 G8 Outside +: ' if f;1 ' Water Pres - 7_' 6".l', 112. PSV -Outside,' return No -; Np r .E / + Yes lb 1 *.. Inst pas X-45A-D LPCI Water 12 55 Yes .Yes 142A,8,C,0,G6 - Inside ;~~ -(11)- A .,4'. . Fl ,,!>:.(T.',i'%,','owt Yes Yes F041A,B, TCKt. Inside. V s .' R.. .j C,0 Yes Yes F017A,B, GT" ;. ' Outside d-. ': V.1

a 0" c AC motor

', ~ ^ lf..C le -.Q.., x C,0

v. a.**;6

.p ; U :; n

7. 'h -; ',.

J (,, , 'm " ~ p;se v. ^ d T1001550 01V

LGS FSAA TABLE 6.2-17 (Coat'd) (Page8of20)- l LENGTH OF PIPE FROM ~ P0hlER CONT. TO ' PRIMARY SECONDARY NORML iSHUTDOWN POST-FAILURE DIVERSE. ' VALVE VALVE TYPE C OUTSIDE. METHOD OF METHOD OF ' VALVE VALVE ACCIDENT VALVE ISOLATION 110LATION -CLOSURE POWER' RRANGE8ENT(2) TEST VALVES ACTUATION (3) ACTUATION ' POSIT!0N(4 POSITION POSITION POSITION ~ SIGNAL (5) 516ML(12) M SuuRCE(7) REh4RES y (44) No 12" Flow" 'O 'O O 12* Flow 0 - 0 0 (40) No 2'-5" Flow. 0 0 0 13" Flow 0 0 0 t 4 (40) No 13' Flow 0 0 0 4 4 (10) Yes Flow C C C 0" ' Flow. AC motor. 0 0 0 RM. t E Stendard A. (40) No .2'-3* Flow t' 7 a s (9) Yes - Inst gas Spring C.i C C C 2'-6" Camp air Spring 'C C .C-C, . B,0 i es. 4 A: 5,0' i

Yes, B

(14) Yes Manual C 0 C 7'-6" blater Pressure ' C 0 C (, {'.j; 20" Manual C C C f. ^ ! g-(11) Yes Inst gas p Flow Spring C C C C . 4.4 see A,8,C,0 l.a Inst gas C C 0 A.B.C.D ~ 0* AC motor Manual C C 0 AS IS AM M '24 sec A.B.C,0 s m }g s v + a A 6i M k )s r _.D Rev. 32,05/84 w L m

h ,} Cont'd) TABLE 6 LENGTH OF-in. PIPE FR(Bt-CONTAINMENT NRC GEPERAL '? - CONT. TO PRIMARY PENETRATION LINE LINE DESICJ ESF ESSENTIAL VALVE ~ VALVE-VALVE VALVE - TYPE C OUTSIDEc MTH00 0F NUPSER ISOLATED FLUID SIZE (in.) CRITERICN. SYSTEM SYSTEM NUp6ER TYPE (I) LOCATION ARRANG(MENT (g) TEST VALVES ' 'ACTUAT!0N(3: X-47 Instrumen. Water 1 55 102D .XFC, Outside (40):' No 11") Flow ' ' f, tation - RWCU p~ -q g;n, y X-48A-f nstrumen. Water 1 55 F0658 XFC. Outside (37) No 2'-4" Flow tation - F0475 - -XFC Outside. 21" . Flow 4 V level X-48A-2. Instro en-Water 1 55 r018s Irc Outstee. (40) No 12"j. Fiou. i tation - V core spray f ~ } WP j a r F065A XFC. Outside. (37). No 21"' ~ Flow X-488 Instrumen. Water. 1 55 tation - F047A XFC Outside

  • 2'-6" -
  • Flow-c RPV level

},/' d X-49A,B Instrumen. Water / 1 55 F071A,8 XFC Outside,< d,-(40) C 'No .12" 5 Flow i t tation - main Steau F072A,8 IFC. Outside l 129 y ' Flow-staan line A&8 flow t P i X 50A-l Instrumen-Gas 1 56 1478 GEf Outside ' (41) - No '7" . 'Ac aotor; tation - dry-well pressure

(

bOI X-50A.-Q Instrumen. Water 1 55 fol jAc outside l laa '-9 pja,. tation - F0115-~ XFC Outside-(40) .N, 189.' Flow - 4 [* recirc flow F012A XFC Outside .2'-9" F1 K-goA -3 ,Iw neuvsenretwes h42 w e 1 55 r F012s xrc. uussioe ; ~. ' i ', i'[ .is".... Fion tem Clas l ' ' 1,y -[- I 'a X-508 Instrumen-Water 1 55 F004A XFC', Outside ', ^J (45) Nol1 l 4'-11" a. Flow tation - Q ',, :.,i

: 'S _,

- O ;;[ 3' ~,f; recirc pump (,, ry % 'Crs a seal pressure "?.. ; ' A s., e tt .? X-508 Instrumen. Water' 1 56 ' 156A XFC ' l ' Outside ' (44 O ^ No I22*- @ ' Flow ;, m irc pump h h. ' ) &,'13' ') tation - 157A XFC, Outside r ' 20* y q: Flow coo W flow ) m y .},]'," ,[ j. a.,,. y Sef*'M W i f-T1001550-01V r. N :

t . L. ^ 5 .Q.'. 5gh 3 ^2 3o t 'G wW-v 4 "7 ag,. 5 sc l gg l E-m l 5 c-b_ ]=$ 5' g IJ( "'g c rw s it e 3lb1 $m:yg g p I f' o oo o ao ao o ocoo o ao 3 8 b =c i l gg o'o o o o ao o oo ao o o ao .. r.. O 8 4 WN ) h0 0' o o.. oo o ao ao o g ao uBE _ C 2* g z, 3 ~ 1 ? .p 88 3 h s. b"lc 5 El 5 RE E8 E 5 55 5 88 1 e a. a= = =a

== u a cca =

== b5o L gE**m E .gggGW = am 2 Na 22 A L 2 k)2 N2 "sa8kd L L L L 3 g i ~ r a a a a a a af a a S n re = f 5 g / dy ~ = y yty = y = s = = a z = a = .g .(

P).' n o O % LES FSAR f b ] 7 4 TABLE 6.2-17(Cont'd) [ \\0-ga.E f.- l.' I LENGTH OF PIPE FROM 4.

  • 3 CONTAINMENT NRC GENERAL CONT. TO PRIMARY PENETRATION LINE LINE DESIGN ESF ESSENTIA1. VALVE VALVE. VALVE VALVE TYPE C OUTSIDE NETH00 0F NUPSER ISOLATED FLUID SIZE (in.) CRITERION SYSTEM SYSTEM NU8SER TYPE (1) LOCATION ARRANGEMNT(2)

TEST VALVES - ACTUATION (3h e. XFC ' Outside (40) ,, ' No 18* ' ~ Flow F0u9A,8- ' Outside X-51A Instrumen-Water 1 55 IS* Flow F010A,8 XfC.. tation - recirc t< line flow 1;.. a (37) No 12"- Flow F059T XTC Outside X-518 Instrumen. Water 1 55 + F051C XFC. Outside 3'-4" Flow tation - jet F053C XFC Outside 12" Flow pump flow i F3708 XFC Outside '(40) No 12":" " Flow X-52A Instrumen-Water 1 55 steam line 8 Floir ; F0738 XFC Outside 12",,. tatien - main e flow U w r X-528-d Instrumen. Water 1 55 F011C XFC: .Outside '(40) No .2'.-9" Flow F0110

XFC, Outside 18" Fl tation -

%p' XFC Outside c-r . now "Wu ""'* g g 55 4, FOI2c recirc F0120 XFC Outside 18" Flow X - y g -7 line f1 y; ;, ',,'. Yes-revre. Im fle S X-53 Chilled water Water 8 56 No No 128 GTI Outside (13) 0"~ .AC motor (%- supply "A" No No 120A GTy Outside 53'-10"t. AC motor No No 125A GT. Outside < 63'-10"? AC motor X-54 Chilled water Water 8 56 No No 129. d. 1 es 0" AC motor ' GT ' " Outside (13) :' Y return "A" No No 121A GT Out'.ide l 67'-0" AC enter -

;.I 67'-0"

- AC motor i No No 124A GT iOutside .Yes f - 0"! ACmotor'b X-55 Chilled water Water 8 56 No No 122 Outside .(13)(' ' ' ' 'N 46'-10"1.'i AC motor. supply "B" No No 1208-GTJ ' Outside* ~ i ... n,b i. : 46,'-10"J.p. f, AC motor, No No 1258: GC. t,,Outside ..;l 1.. v. o. >.,,- - GTif[,. . s Yesl 0".' NUAC motor " Outside .I GTQ.,y Outside * '. '(13) '5 'y).,.; G Q I-56 Chilled water Water 8 56 No No 123 37'-2*' AC motor 4 return "B" No No 1218 GTK ja,Outside No No 1248i .,I XFC V rl; Outside 1 1 (40).,, ' { No @y, liv f Flow :f ; w,. . e 102C: I-X-57 Instrumen-Water 1 55 q 'c.? ' A;q$' '.n g _;;1.,i'.i V *.i ' ' d' ' u ;' - v. tation - ',I ' ' ' ~ -

  • RWCU flow 1:

~ i 4,. 3 3. F0408 XFC D ' Outside. 1 No ' '14"i. . Flow '(40)i'.. 1r T w HM:Mi i;W. '

  • X-58A lastrumen-Water ~

1 55 ist: .; 9 tation -' ~ 7 3. It WP T1001550-01V e r ..t.+'.4 d a , tj I va-t ,5, [\\.[ ,[ ( ,*[ *[ ' h.. ' I ', [,,/ ' I,h,4k* -, i ' . -I [. .[ ' '*:p.'*

    • ' f 'D *t.

4- 'y Y, ,].I. t.,.

s?

~~

  • Cf%'y, I' b [ g '.

k-(. a, ~' 'E r

DRAF^T 4 TABLE 6.2-17 (Cont'd) (Page 10 of 20) l b

g. l l

LENGTH OF PIPE FROM POWER CONT. 70. PRIMARY SErmnamY NORMAL ,$HUTD0lNI POST- . FAILIRE DIVERSE VALVE VALVE TYPE C OUTSIDE'- M TH00 0F METHOD OF.-1ALVE -VALVE ACCIDENT VALVE ISOLATION; ISOLATION CLOSIRE PONER ^ /WtRANGEMENT(2) TEST. VALVES-ACTUATION (3) ACTUATION POSIT!0N(4) M ITION POSITION POSITION SIGNAL (5) : Sigas4(12) J,Legi!),,S,gm,,,C[ilj, M (40) No - ' 18*

  • Flow 0

Jo 0 18" Flow - 0 0 0 (37) No 12" Flow 0 0 0 3'-4" Flow 0 0 0 12" Flow 0 0 0 (40) No. 12* Flow 0 0 0 12" Flog 0 0 0 (40) No 2'-9" Flow 0 0 0 18" F.19W__ 0 0-0 2';3" Flow 0 0' 0 18* Flow 0 0 0 (13) Yes 0" AC actor Manual 0 0 C AS IS C.H Yes Standard 8 63'-10" AC motor Manual 0 0 C AS IS RM No Standard A 16 63'-10" AC motor Manual C C C AS IS M No Standard A , 16 (13) Yes 0" AC motor Manual 0 0 C AS IS C.H Yes . Standard 8 67'-0" 'AC motor Manual 0 0 C AS IS RM les Standard A (16l1 67'-0* AC actor Manual C C C AS IS RM No Standard A 4 .(16l-l (13) Yes 0" AC motor Manual C C C AS IS C.H Yes Standard 8 46'-10" AC actor Manual 0 0 C AS IS RM i No Standard A f161 46'-10" AC motor Manual C C C AS IS RM i No Standard A

(16ll

.(13) Yes 0" AC motor Manual C C C AS IS C.H Yes Standard 8 ..(16) l 37'-2" AC motor Manual 0 0 C AS IS HM Ito Standard A g. 37'-2" AC motor Manual C C C , AS IS RM do Standard A (16) (40)' No 11" Flow 1 0 0 0 l (40)' No 14" Flow 0 0 %) { 2E7J V 4 D. i .o Rev. 32. 05/84 e lt 4. 4

DR~ F~T L"O A 5t h ) - ~ ~ ~ T W.2 17 (Cont'd) b g},2 Rtorc p.mp Water l 56 hlo No IC*4 6 O I"

  • N

[* I"38

  1. I'"

0i'*A' H Sol NA ~

  1. 7E PIPE FRON CONTAINMENT MtC GENERAL

, CONT. TO PRINARY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE VALVE VALVE TYPE C OUTSIDE ETH000F NUMER ISOLATED FLUID SIZE (in.) CRITERION-SYSTEM SYSTEM NUMER TYPE (1) LOCATION-ARRANGEENT(2) TEST VALVES ACTUATIONC X l Recirc pump Water 1* 56 No No 1004A,% CK5 Inside (45) Yes . Flow seal purge 103AA XFC , Outsids 20* , Flow. H /02 sample Gas 1 56 Yes Yes 150 GB Outside (12) Yes

3'-3*.

AC coil X. 2return; drywell No No 116 G8 Outside 6'-4* AC motor purge makeup Yes Yes 159 GB. Outside. .15'-9* AC coil + y Yes Yes 190 GB Outside Later. 'AC cell Yes Yes 191 GB . Outside .Later AC cott X-63-J Instrumen-er 1 55 F0400 XFC Outside ' (40) No.

3'-4*

'" Flow 1 tation-i 4 recirc I' loop W 'S 9 f X 2. Instru en-Wat 1 55 r004 XrC Outside. (45) No 12*1' ' riou, tation- -]' F0038 XFC - Outside - 12*, ;, Flow - 't rectre - 'i pesp tea s i pressure J. "g 1 r.

2
'J b';;

n,.* X-65A,B Instrumen-Water 1 55 F0438 XFC Outside (37) No. 14" Flow' tation-F049A XFC Outside 14" Flow. l nav_ essure e- ,V.. s. a

3..

X-66A-l Instrumen. Water 1 55 4 F0450 XFC Outside.., tation - ~ (37) No 13*: ^ Flow RPV level .i, "i, A;

f ;y

' 'utside . 7, y,,, 13* 3;7 Flow. 1023 EFC X-66A - ) Instrumen-Water 1 55 4 No-t. 'O (40) i tation 's' a P 1030. XFC -Outside l .13*g, Flow.'i 3 LPCI Je y

9. j.
. Qs.", 4,.J.

,,;, g F045A XFC 3,.e ' Outside 3 J (37).*i.. X-664 -l Instrumen-Water 1 55 w 14*, ~ Flow y, No.- ,..#( ' e Jc tation - lJo L '?N ' S., f.j'.z '. ,' jh$.. y, s,,]Y7 {s g%e ' p $.. > ' RPV level ,,r' ,4 s. s y r l X-668-1 Instrumen-Water 1 55 95('Q';'. Outs 1de '(40)'l{, - ' No J 9 !**,.12*,'T ' ; Flow,,. 102A XFC tation - 103C s i' 'M LPCI M gN df ,I I l. '. / l .(37)~ I X-67AA Instrimon-TiA^ si.. ' C.,.d d;. * *' No. Y ' M " -' 7". ~ l tat 1on - TM".

T::
  • ^^^

^^ pa w im """ :-. A g-F0498 XFC - Outside .Y 13*' Flow essure ~ T1001550-01V N-hNSU[ ()& ft& V]~$~I N X $ ~$R from ATTJP*1ad I N. p

DRAFT TABLE 6.2-17 (Cor.t'd) (Page11of20) l -~ .,pg. btS) 1o gw a o .o ' o' ^ a o p4 c d LENGTH ~0F~ PIPE'FROM e POWER CONT. TO ' PRIMARY SECONDARY'/ NORMAL -$ HUT 00WN POST-FAILME-DIVERSE VALVE ,1 l VALVE TYPE C OUTSIDE-METHOD OF METHOD OF : VALVE VALVE ACCIDENT, VALVE ISOLATION ISOLATION CLOSURE POWER 1 3 [ MRANGEENT(2) TEST VALVES ACTUATION (3) ACTUATION POSITION (4

POSITION POSITION l?OSITION. SIGNAL (5)

SIGNAL (12) TIE (6).Sg gC{ Q) M q l-(45) Yes Flow C 'C ; t ~-' sq 0 4 20" Flow 0 0 0 (12) Yes 3'-3" AC coil 0 0 0 C 8,H R E 2 sec 5 6'-6" AC motor Manual C C C AS IS B.H R Yes .30** sec D I 15'-9" AC coil - 0 0 0 C-5,H R NA 2 see D l, Later AC coil 0 0 0 C B,H,R NA 2 see C Later AC coil 0 0 0 C 3,H R NA 2 sec A (40) No 3'-4" Flow 0 0 0 1 (45) No 12" Flow 0 0 0 12" Flow 0 0 0 I (37) No 14" - Flow 0 0 0 14" flow 0 0 0 (37) No 13" flow k 0 0 0 (40) No 13" Flow 0 0 0 13" Flow 0 0 0 (37) No 14" Flow 0 0 0 g,. DRAFeT-(40) No 12" Flow 0 0 0 (37) No Mew _ _ E_?W + e A A v 4 Fjow +__ w +s =,; r 0 0 u ]>- n e Rev. 32, 05/84 r I t rc y...---- 7

g mq p p, m --i,-.n agi .n-m e,i,a ii i n,,. pq g mm s- ,ya mm-i 'e 9 4 e $NPb

  • 4 4'*tateh$

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  • **'~;,"y~~~' v~ ~ ~~. --- - ~~..,,,,.}i g l

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  1. 3 i

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  • ^-k*"*

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  • qt s

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w.= =.

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    • "884' M uu.-+ gg eemage-_

p _.T..........:._':^... r:-'~ - - - - -- ^

TABLE 6.2-17 (Cont'd) CONTAINMENT LEN8TH OF NRC GENERAL PIPE FRel PENETRATION LINE LINE DESIGN' - ESF ESSEhTIAL VALVE WALVE VALVE VALVE TYPE C OUTSIDE ETH00 Or CONT. TO PRIMARY NupeER ISOLATED FLUID SIZE (in.) CRITERI0E,' SYSTEM SYSTEM NUpeER TYPE (1) LOCATI0II. ameamamigT(2) TEST VALVES ACTUAT10r X-102A Instrumen-Water 1 55 185A XFC Outside. (37) No Later Flow, tation - Jet Pop Flow X-107 Instruen-Wat er 1 55 1858 'XFC Outside-(37) No Later Flow tation - Jet Pap Flow X-116 Standby Sodius 2 55 Yes Yes F007 CK Insids (10) Yes 11guld penta-Yes Yes F0068 .SCK Outside Flow control borate 0" Flow solutio's X01178-l Oryweil Gas 1 56 No No 190:A,8 G8 Outside. (23) Yes 9'-4" AC coil _ i) N rte ss IU 70 supply X_in._t i u Dr3wth adunus *r X-201A Suppression Ges 20 56 No No 109 8F Outside (7) Yes 42'-9" AC motor pool purge .su No No 147 BF Outside supp;y Oy No No '124 8F Outsfde 17'-5" AC motor j' >d 13'-5" Camp air Yes Yes 131 SF Outside be 7'-9* Camp air i y Yes Yes 164 SF Outside Yes Yes 121 8F Outside 8'-2" AC motor 60'-11" Cany air-X-202 Suppression Gas 18 .56 Yes No 112 BF Outside (15) Yes 18'-8" ' AC cell pool purge Yes Yes 185 G8 Outside AC meter exhaust g 24'-8" Yes Yes. 162 8F Outside 3'-10" AC ester No No 105 G8 Outside 6'-10". s AC meter No No 104-SF. Outside 4'-0* No No 118 BF Outs 1de. Camp air 32'-11' Camp ate {; X 203A-D RHR pop Water 24 56 Yes Yes F004A,8 GT Outside-' (16)J Yes 0* AC ester A e suction C,0 - F030A,8 PSV. Yes Outside . ~.; 44'a6* Meter pre, Yes F030C,0 PSV. Outside. 36'-4* Weter pre X-204A,8 RHR pop Water 18 56 Yes Yes 125A,8 - GT':- Outside-(36) Yes, 0" AC motor test and min flow i 4 gl.. ^: X-205A,8 Suppresston Water 6 56 Yes Yes F027A,8 G80 Outsider. '.(43)- Yes 0" AC motor pool spray --" W 4 T1001550-01V i r- .p y.p t-* .P .Wj4x -w

LES FSAR TABLE 6.2-17(Cont'd) l ..a LEN6TH W PIPE:FRCH CONT. TO PRINARY SECONDARY NORMAL 'SHUTOOWN POST-FAILURE ~150LATION CLOSWE POWER POWER 4 VALVE TYPE C OUTS 10E .E TH00 0F E TH00 0F VALVE DIVERSE VALVE . VALVE ACCIDENT, VALVE ISCLATION tRANGEE NT(2) ' TEST VALVES ACTilAT!0Nf3) _ ACTUATION POSITION (4:,. POSITION POSITION' M 51GIIAL(6) SIGIAL(12) M,jg3EQ) M (37). No Later Flow 5 $5 0 ,0 0 (37) No Later Flow 0 0 0 (10) Yes Flow C C C 0* Flow AC Motor 0 0 0 _AS IS RH M Standard B (23) Yes g'-48 Af coil 10'-2* AC coil . O C C C 3.H Rj l' I Yes 2 see C. B 4 g J0 C 4 C C O.H. A y Tes 2 sec

c. 8 4 j

(7) Yes 42'-9" AC motor . Manual C .C C AS IS 8.H.% W.3Cu 5 Yesj

6** sec 8

17'-5* AC motor Manual C 0 0 AS If B.HAWA u,,5 Yes'

68* sec 8

13' 5" Camp air Spring C 0 C C B.HAWAu,5 Yes' 58* see A 7'-e* Camp air Spring C C C C B.HAWAD 98* sec A B.H.R, S*,5 M 8'-2* ' AC actor Manual C C 0 AS IS M 6 sec 0 49' 11" Camp air Spring C C C C. 8.HAWSU,$ M l98*sec A (lg ,4 (15) Yes 18'-6* AC motor Manual C 0 0 AS IS 8 HAW.E t

68* sec A

(IAJ j 3.H.R,5 i. y 24'-4" AC coil 0 0 0 C 2 sec C l; ' i 3'-10" AC motor Manual C C 0 AS I S.H I . B.HM.P. K. 'M$' es. 15** sec ' 8-(,id) 6.sec C 6'-10" AC motor Manual C C C AS IS 4'-0* , Camp air Spring .C 0 C C 5.H A W. s' 'es '5** see B pg 32'-11" , Camp air Spring C C C C B.H A R,.y,g fes .98* see A (16) Yes 0* AC motor Manual 0 0 0' L AS I 15$,. ). WL Standard A.G.C.3 l f 46'-6" Water press. C C C j 35'-6* Water press. C C 'C (36) Yes. 0* AC motor ' Manual 0 0 0 - AS IS AM

M Standard A.8 l

(43)- Yes 0* AC motor Manual C C C AS IS g, E 30 sec A.S l DEfA1 Rev. 32. 06/84 r- 'l ii;&, : c 4 i -~

LGS FSAR o Ieh $1CEh TA8LE6.2-17(Cont'd) LENGTH C1 PIPE FR(M CONTAINMENT NRC GENERAL CONT. TD-PRIMARY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE-. VALVE VALVE TYPE C OUTSIDE METHOD 0F NUMBER ISOLATED FLUID SIZE (in.) CRITERION SYSTEM SYSTEM NupSER TYPE (1) LOCATION ARRANGDENT(2) TEST VALVES ACTUATION ( X-206A-0 CS pop Water 16 4 56 Yes Yes F001A,B, bf Outside. (42) .Yes 0t AC motor . 3 4 suction C,0 M." ey ,s I" AC motor. X-207A,8 CS pump test Water 10 56 Yes No F015A,8 GB? Outside (24) Yes O and flush i: l X-2088 CS pump sin Water 4 56 Yes Yes F031B' GB. Outside (24)- Yes 0". AC motor flow X-209 HPCI Water 16 56 Yes Yes -F042 GT Outside-(42) Yes 0". DC motor pump F. s: /';' i suction X-210 HPCI Water 12 56 Yes Yes F072 GT : Datside (24) '. Yes. _ 0". DC motor turbine k-- exhaust X-212 HPCI Wate* 4 56 Yes No F071 GT l Outside ; (24) J Yes ' 0".. DC motor pump test kr; and flush j ', "'fi-X-214 RCIC pump Water 6 56 .Yes Yes F031 GT. Outside; ' (42) Yes 0". '. DC motor suction ~ .5', ,e' '(24)' " 4, s X-215 RCIC turbine Water 8 56 Yes Yes F060' ,GT. Outside ' 'OC motor ' 0" .:Yes exhaust ,t, J,l s'

1 4

4 X-216 RCIC min Water 2 56 Yes Yes 1 F019 GB f Outside: (24).i./ i. lYes ',0".' 1 JDC motor ~ sii~ Q0 .;.;j ' b y ?.~Flos I' 0* Outsidel.. .(34).g4' 7 Yes-0" X-217 RCIC vacuus Alr 2 56 - No No F002 - SCK, Outside.! ' R. ; "X ~ 80'.-6" * !. Flow r., pump disch No No .F028 CK.

D.'.

s' X-218 Instrument Air 1 56 No No 1001 ' CKE -.Inside (22) M 'i Yes e ~?'-i).y ~'lowf' Ai..... t e > ; ).. t - N s F 3*. ' gas. supply No ' No .135: GE:P) Outside<.', ~ .ii < a ': n ', ; I : Camp latr '. 'g. ' T .., i., L vt ~ 120: GtE : Outside,.:, (38)'r. ,:.i g',)No 0" C "'. AC motor X219A,8 Instrumen- ' Water 2 - 56 'N 121' GE..f a.-Outside. ,fc, .'0*L AC motor tation - t1 suppression 1;; ,L

)..g

_[,,, pool level y, i

w. 2r......A

.. yf ^ M' ' y*- d, i T1001550-01V E 4 y. +tn ->,f. r +.

LES FSAR TABLE 6.2-17 (Cont'd) (Page 13 of 20)- l l j LENETH OFr . PIPE FRM POWER ' CONT. 70 ' PRIMARY SECONDARY NOMAL

  • 5HUTDOWN POST.

FAILURE * - DIVERSE VALVE f VALVE TYPE C I OUTSIDE E TH00 0F METH00 0F' VALVE . VALVE ACCIDENT VALVE ISOLATION ISOLAi10N CLOSURE-POWER i ARRANGEENT(2) TEST VALVES ACTUATION (3) ACTUATION POSITION (4' POSITION POSITION POSITION SIGNAL (5) SIEML(12) TIE (6) MM (42) Yes . 0" ' ', AC motor Manual. O 0 0 AS 15 M M Standard .. A.B.C 0 ' is ' (24) Yes 0" AC motor Manual C C' C AS IS C.G Yes 15 sec A.B' 4I (24) Yes 0", AC motor Manual O C C AS IS LFCH' M 30 see B i (42) Yes 0" DC motor Manual 0 0 0 AS IS L' LA M Standard 8 I (24) Yes-0" DC motor Manual 0 0 0 AS IS M M Standard u (24) Yes 0" DC motor Manual C C C AS IS 8.H Yes Standard-5. l (42) Yes 0" DC motor Manual C C 0 AS IS M M Standard A j l (24) Yes 0" DC motor Manual 0 0 0 AS IS - M M Standard A (24) Yes 0" DC motor Manual C C C AS IS LFRC M 5 sec A l (34) Yes 0" Flow

  • OC motor 0

0 0 M No Standard. A: (14) -80'-6" Flow C C C 3 (22) Yes Flow .0 0 C 3" Camp air Manual _0 0 C C.H.S ' Yes 4.4 sec-8 . g (- ~ 1 l (38) No 0" AC motor Manual 0 0 0 AS IS M 30 sac 5 30 sec 5 dD l 0" AC motor Manual 0 0 0 AS IS RM l i Rev. 32. 05/84 ~ ' "

9 /4 of.20 9 LGS rSAn TABLE 6.2-17(Cont'd) LENGTH OF i PIPE FROM CONTAINMENT NRC GENERAL J CONT. T0. PRIMARY PENETRATION LINE LINE DESIGN ESF ESSENTIAL VALVE VALVE VALVE ' VALVE TYPE C.OUTSIDE. MTH00 0F NupeER ISOLATED FLUID SIZE (in.) CRITERION SYSTEM-SYSTEM NUM5ER TYPE (1) LOCATION AARANGEMNT(2) TEST . VALVES! ACTUATION (1; H /Op Air 2 56 Yes Yes 190 G82; Outside s. c(12)- Yes 10'-5"'!O.. AC coll' X-220A 2 sampTe return; Yes Yes 191 G&+ ! Outside 8'-E* "' ~AC coti wetwell purge Yes Yes 116 GB+ Outside - 14'-8" 'AC motor makeup Yes Yes 150 GE F .Outside i Later AC coil Yes Yes 159 , GIm Outside Later f - AC coil tation - ' 'h(39). No ' 0"' ! j AC call X-2208 Instrumen-Air 2 56-101 GB .0utside i suppression h pool pressure o X-221A Wetwell Air 1 56 Yes Yes 181 GB Outside '; '(29) Yes 2'-2". IAC call H/ Yes Yes 141 GE : Outside - 3'-11"': AC coil. 5 2 samp e Yes Yes 184 GB. Outside,' '3'-11";.5ACcoil l X-2213 netwell Air 1 ' 56 Yes Yes 183 G8 Outside ?' (23): Yes' '2'-5* e, I AC coil H /0 .Yes Yes 186 GB -,Outside. 2 ' 3'-5* ~..! AC coll ' samp e .V -j o <., 1- , ' y V:u.,, .e 1 X-223 RHR Air 6 56 Yes No 130 GI Outside (30) 'Yes-0" AC motor - i vacuus No No 131 GT. Outside 15'-8" AC motor 1 relief l ,' c' c n. X-226A,8 RHR min Water 4 56 Yes Yes 105A,B GT .Cotside (35)' Yes. 0". 'AC motori flow s '~ ' j' GBJ < :. Outsided a X-227 ILRT data Air 3/4 56 No No 1073.. C, ' Outside )F. (31) 1,8. ~.Yes ~ i.2,'-9"..i'.. Manual!' 4 4i 18' l " acquisition No - No 1074' t Manual 'i' GM;;-. 1 ;;(17)... '.- R y c.; g './ X-2280 HPCI Air 4 56 Yes Yes F095 ', ' Outside..,7 '; Yes ', 0* d AC motori 7 vacuun Yes Yes F093 s . i v 2'-6" Ab, AC motor-GT'i _f.h Outside. 4 q % "> i 'i$ 1

  • N:W.u c reltet_

e' . C .b's.. ).'.'a. ,1. J $.M ;s i GEd/.30utside'.:;spj a. ..%,, ; h,.i 7,,Y c QQy Q 4 i -. X-2308 Instrumen-Water 1-1/2 56 102., 'l(32),.,, ' z Na N 3',0*'Ng AC motors + tatton - 112 GSE N.. Outside ; ' l' Outs 1de., f i -o ' ,'^ ' t > ; i % 0 4".? p; AC motor AC motor. orywell 4"

  • I u 132 -

GS.2. .x V i,- GT.** [q, Outside' ! l I(28)y - i ? [ '% y,';'pc: sumps i-Et < ',.' :. f; % ~.e< 's t GTU ,.u.. X-231A,8 Drywell Water 4 56 No No 110 . Yes; 0" C Camp alfd'- simp No No ~130 Outs 1de s s,;.. 3,. x .... < 0" 'f'3'-5"4..i;.,s. Comp.alry drains No - No 111, GTn., ~.4 utside' n e - O

o. 4

} No ' No 13L,, GT

0utside 4 J -,,

3'.-5"'.;,oCampairf ..f K .t ^ " Camp alr:-

r. : ; 7.,.

F r. T1001550-01v iq MMM i

LGS FSAR T. g TABLE 6.2-17(Cont'd) E- '(Page14of20) l ~ .s s LENGTH OF ~ - PIPE FROM i l CONT. TO PRrMARY LECONDARY; NOP,MA1. 3HUTDOMP,. 1(NdER - 4 I,,? j VALVE ITPE C DUTSIDE ' ' ETH00 0F 8ETH00 0F. VALVE' VALVE ACJIDENT VALT ' ISOLATION 7 [ SOLATION CLOSME:, PC*3ER POCT-. FAlt DIVERSE

VALVE,

(; lANGEMNT(2) _TEIT VALVES ~~ ACTUATION (3)' ACTUATION POSITION {4) 30SITION POSITION - POSfTION SIGML(5) - e ,g g y (12) Yes 10'-5* AC coil [' 0 I p 0 0 C 2,H.R, S - NA 5 2 sec C i 8'-5" AC coil 14'-8" AC motor Manual. 'C ~ "f/0 0' C 5,H.Rj S ~ 2 see A O C C-

- AS IS l

8,H,R, S

  • 30** see D

Later-AC coil V 'O O O C 8,H,R, S 2 sec 8 Later AC coil ~ 0 0 0 C 8,H, A, f M 2 sec ', 0 (39) No 0" AC coil 0 0 0 C an 2 sec A (29) Yes 2'-2" AC coil 0 0 0 C, 8,H.R f M 2 sec 8 t 3'-11" AC coil 0 0 0 C 5,H.R 5 M 2 sec D .g 3'-11" AC coil 0 0 0 C B.H,R,, 5 M 2 sec C (23) Yes 2'-5*. AC coil 0 0 0 5,H R, 5 NA - ,2'see. A 3'-5" AC coil 0 10 0 B.H.R, 5 m 2s:- - C (30) Yes 0" AC motor Manual-0 3^ C AS IS. 3,H Yes Standard .A ,e l 15'-8" AC motor Manual 0 0 C AS S,H Yes-Standard 8. j/ (35) Yes 0" AC motor ' Manual 0 0 0 AS IS RM M Standard C,D ,l, I l (31) Yes 18" Manual C C .C ~ 2'-9" Manual 'C C C W + \\ i }(17) Yes 0" AC motor Manual 0-0 C AS IS H,LA ,M Standard D (IT) i 12' 5" AC motor ' Manual' O 0 C AS IS H,LA

M
$tandard 8

(n") s (32) No - 3'-0" AC motor Manual 0 0 0 AS IS ~ d'l 4" AC matcr Mant.31 0 0 0 AS IS AM 30 sec - A 4" AC motor Manual 0 0 0 - AS IS : RM ~- 30 sec A '/^ 30 sec : A i(28) Yes O' Camp air Spring C C C C '. 8,H Yes 10 sec . A 0" Camp air Spring C C ,C C B.H Yes 10 sec A 3 '-5" Camp air Spring C C C. C B.H Yes 20 sec 3 3'-5" Camp air Spring C C C C B,9 Yes' 20 sec 5 ~ N~ Rev. 32,05/84 r / u s,t -m. o

- - u - amw -m-muner o LES FSMt TABLE 6.2-17(Cont'd) T LEhETH OF PIPE FROM CONTAINMENT NRC GENERAL CONT. TO PRIMARY PENETRATION LINE LINE DESIGN ESF ESSEMTIAL VALVE VALVf VALVE VALVE TYPE C OUTSIDE-MTH00 0F NUMBER ISOLATED FLUID ,S_Ii( g CRITERION SYSTEM SYSTEM NUMBER TYPE (li LOCATION ARRANGEENT(2) ,,ESL VALVES ACTUATIONI l J. X-237 Suppression Water 6 56' No No 127 GT Outside (26) Yes 12* AC motor ' pool clean-up No No 128 GT. Outside 15'-11" AC motor ptmp suction; No 127 PSV Outside 12" Water pres

evel H139~

GB ' Outside Nn 3'-7* AC actor instrumentation 5139 GB Outside No 4'-11* AC cell i l X-238 RHR Water 10 56 Yes 1068 PSV Outside (18) Yes 38'-4" Water pre < relief Yes No F1048 GB Outside 34'-10" ACmotorl valve Yes F0553 ' PSV Outside 36'-3*. i Water pret discharge Yes 1018. PSV' Outside 32'-5" Water pre ( l X-239 RHR relief Watar 10 56 Yes 101A PSV Outside (18) Yes 31'-10" Water pret valve Yes FOSSA PSV Outside 28'-2" Watarp%r4 Water discharge Yes 106A FSV Dutside ' 47'-0* Yes No F103A .GB Outside .36'-3", AC ester-l )X-240 RHR relief Water 6 56 Yes F097 ..PSV Outside ,(19) i'es 39'-10"I Water valve discharge f' i s. y4 r T; X-241 RCIC Water 3 56 Yes Yes F084 GT Outside (17), Yes 0" AC motor vacuum Yes Yes F080 GT Outside 5'-6" r

,,AC meter relief e

.- Q 7 o x-n5 CSrune We + 56 yes /es Fo3/A GD aesda. 'iri)g yes.,. 3 Acy m t# [bta l - * ~ ,.[ x -2u Hect p-r >~ + yes yes t=0 I2. 6S oursaa.I.(211)y, yes /o ^fpc$,., .+. y m W k lota .,.k.;~b 1,; I' i ~ ,, f,- ~ m s a;. 1..., ' ;-. $, p., i i(j' 4, 1 A j. ~ .,,, h :. ~

  • n T1001550-01V t'

~ r 7 i

a LGS FSAR TABLE 6.2-17(Cont'd) (Pege15of20) 9 w LENGTH OF P0brER PIPE FROM y' POST-FAILURE OIVEkSE / VALVE CONT. TO PRINARY SECONDARY NORMAL ' SHUTDOWN VALVE TYPE C OUTSIDE - METH00 0F METHOD 0F, VALVE VALVE ACCIDENT VALVE ISOLATION ISOLATION' CLOSURE POWER (- ARRANGEENT(2) TEST VALVES-ACTUATION (3) ACTUATION POSITION (t) POSITION POSITION POSITION SIGNAL (5) SIGNAL (12) TIE (6) SuuRCE(7).AEMANAS (26) Yes 12" motor Manual '. ~0 I O C AS IS 8,H Yes EStandaro -A ~ 15'-11" AC motor Manual. 0 > 0 C AS IS 8.H Yes Standard C C, 'f' C C 12" Water press. No 3'-7" AC motor Manual 0 0 0 AS IS RM 4 ~30 sec 8 2 sec A 0 0 0 C' RM l No. 4'-11" AC coil C C C i (18) Yes 38' 4" Water press. 34'-10" AC motor Manual C C C AS IS C.G Yes 12 sec 8 C C C 368-3" Water press. 32'-5" Water press. C C C' (18) Yes 31'-10" f Water press. C C C C C C 28'-2" Water press. 4 7'-0* Water press. C C C = 36'-3" AC motor Manual C C C AS IS C.G Yes 12 sec A C C C (19) Yes 39'-10" Water press. fACmotor Manual 0 0 C AS IS H.KA NA 25 sec. A (17) (17) Yes 0" 5'-6" AC sotor Manual 0 0 C AS IS. H.KA NA 25 sec, s (J7) l ma d a c c_. Asus LFCH IVA 30m A M * *d C C C A-S ts L-FHP NA l osa. 6 r_ I t DBAET_ Rev. 34. 07/84 r-L EJ '. = n. - - ,7

LG8-FSAR TABLE 6.2-17 (Cont'd) (Page 20)l fA 2 (1) Valve Type O j. Ball I BL-f Butterfly 4 l-BF Check 4 CK Gate I GT Globe ,l GB Pressure relief PSV Stop check T SCK Testable check { Spring load piston-TCK SLPACK actuated check .i Explosive (shear) XP Excess flow check XFC Ball check BLCK Hydraulic control unit BCU (2) See Figure 6.2-36. Numbers in this column refer to details in the figure. g. l (3) AC motor operated valves required for isolation '~ functions are powered from the ac standby power buses. DC operated isolation valves are powered from the station batteries. (4) Normal valve position (open or closed) is the position during normal power operation of the reactor. (5) Isolation Signal Codes Signal Description A* Reactor vessel level 3 trip (a scram 1 occurs at this level also) B* Reactor vessel level 2 trip I C* Reactor Sessel level 1 trip (main steam line isolation occurs at this level) D* High radiation in main steam lines and vicinity T1001550-01V Rev. 32, 05/84 e s

l LGS-FSAR TABLE 6.2-17 (Cont'd) '(Page 17 o E* Main steam line high flow I' o EA Main steam line high pressure, high steam line leakage flow, low MSIV-LCS dilution air flow ~ F* High temperature in main steam tunnel or in ricinity of main steam lines in turbine enclosure G* High drywell pressure and low reactor vessel pressure B* High drywell pressure J* Line break in RWCU system (high differential flow, high-temperature or high differential temperature in RWCU compartments) K* Break in RCIC steam line (high-temperature in pipe routing area, high temperature or high differential temperature in RCIC g compartment, high steam flow), or high RCIC turbine exhaust diaphragm pressure KA Low RCIC steam supply pressure L* Break in HPCI ste.am line (high-temperature ~ in pipe routing area, high temperature or 3 high differential temperature in HPCI 6 compartment, or high steam flow), or high HPCI turbine exh~aust diaphragm pressure. LA Low HPCI' steam supply pressure LFHP With HPCI pumps running, opens on low flow in associated pipe, closes when flow is above set point t> LFRC With RCIQ pump running, opens on low flow in associated pipe, closes when flow is above q' set point 4. q LFCH -With CS pump running, opens on low flow in i associated pipe, closes when flow is above set point LFCC Steam supply valve fully closed or RCIC ) turbine stop valve fully closed } T1001550-01V 14 Rev. 32, 05/84 t. ,e ..g..x p a ._n.-.=- b,. ~.. -.+..-,,-----,---,,,,.-.c ,-n.

LGS-FSAR y TABLE 6.2-17 (Cont'd) (Page18of20)] d.l- -Ja ! ' - - a- - _, ;; m lu_' n - "r ' 7 'Y' "/ N,'7k' 7~X ? z_L _,,, +=r- / , -/ g= n 7-- g vp.. 7r. -, 7 7-f -. 7. n-- < -- e~p ~ 3 M Low differentia 1 pressure between the instrument gas line and the primary y i fame containment 1 P* Low main steam line pressure at inlet to turbine (RUN mode only) Q* Low condenser vacuum and turbine stop valve in bypass mode or more than 90% open R* High radioactivity in - refueling floor ventilation exhaust ducts S* High radiation in the reactor enclosure Low differential _ pressure _between the outside atmosphere and Ch'e'- refue Low dMmnat pmsun. ling area.hwem 4h oursk%stW aJ L ~ U "' V* Bigh reactor pressure (shutdown cooling reacor c%losm, r ____e nnly) / ~ W* North atack effluent high radiation i Y Standby liquid control system actuated or redundant reactivity control system actuated RM* Remote manual switch from control room (all power-operated isolation valves are capable of being operated remote-manually from the control room) ~ *These are the isolation functions of the primary con-tainment~and reactor vessel isolation control system;

l other functions are given for information only.

(6) The standard minimuIt' closing rate for automatic isolation gate valves is based on a nominal line size of 12 inches. Using the standard closing rate, a 12-inch line-is isolated in 60 seconds. Conversion to closing time can be made on this basis using the actual size of the line in which the gate valve is installed. y < c I T1001550-01V Rev. 32, 05/84 m as .m,, e, b N 4.' 4 66 a e===en-. "***' N "' N *"*-' ee

} ~ tvow: M d auge '; r , DRAF^T a,--pma w LDc9 4 F5 ~7Pt. .y LGS-PSAR ~ TABLE 6.2-17 (Cont'd) (Page 19 of 20) The closure times for isolation valves in lines in which high-energy line breaks coul1 occur are identi-fled with a single asterisk. 7 isolation valves in lines which provide an openThe closure times for path from the containment to the environs are j identified with a double asterisk. 4 _br (7) Power Source "Clasww danes - gg,44 g Electrical Separation Source: d*WF/d*FP/ MANM8'" Cl8W 4 A - Class IE electrical channel fr*mes. Closewe NM*:r Err B - Class IE electrical channel og du WM drr C - Class IE electrical channel U#*I N# D - Class IE electrical channel 4 CF-W - Reactor protection system (RPS) L.g } electrical separation channel X - RPS electrical separation channel Y - RPS electrical separation channel Z - RPS electrical separation channel } N - Non-class IE For explanation of Electrical Separation Channels refer to Section 8.1. (8) The main steam isolation valve leakage control system (MSIV-LCS) The signals thatvalve will be manually opened following a LOCA. steamline high pressure,close the valve are main excessive leakage through i; the the inboard MSIV, flow. or insufficient dilution air (9) The spring-loaded piston, which is actuated by anisolation this valve against normal flow on loss of power from the normal direction. (10) The TIP drive guide tubes provide a' path for the flexible drive cable of the TIP probes. cable is automatically retracted on an isolation The drive signal. the ball valve clnses.When the drive cable is fully retracted, } to isolate the guide tubes by cutting the cable ifThe shear valve is provide p the drive cable cannot be withdrawn. l T1001550-01v Rev. 32, 05/84 l I l l r - t

1 LGS-FSAR TABLE 6.2-17 (Cont'd) (Page 20 of 20) (11) The control rod drive (CRD) insert and withdraw . lines can be isolated by solenoid valves outside 9 containment. Air operated scram inlet and outlet valves are also provided. Leakage may occur through the scram outlet valves. A low. leakage flowrate will be treated by the clean radwaste system.. Excessive leakage will result in either automatic scram or operator initiated scram. When scram is complete', the scram discharge volume system is automatically isolated by the redundant vent and drain ~ valves. (12) Only non-essential systems require diverse signals for automatic isolation. Therefore, this column is not applicable, (NA), for essential systems. (13) These valves are sealed closed whenever the reactor is i' critical and reactor pressure is greater than 600 psig. The valves are expected to be opened only in the follow-ing instances: r Y Plushing of the condensate and feedwater systems l a. during plant startup. ( b. Reactor pressure vessel hydrostatic testing, which i is conducted following each refueling outage. prior ( to commencing plant startup. J (14) Diverse isolation signals are not sensed as discussed in Section 6.2.4.3.1., ) (15) These valves are'normally closed, will be open only during reactor shutdown, are interlocked to open only on low reactor pressure, and connect to a closed system outside containment. Therefore, closure times less than 60 seconds are not required. i (16) Diverse, automatic isolation logic to be added by the end of the first refueling outage. l (,n) E>c1% Sol a rlOn.s e 9 wA lt Hf us scl br tsa \\tle oloS tvt. (lh $ So k 9750,0 Cef 4b! hit 3 4fM (CYug NW Nogh rnAtAT7m (stralR.;u h Q wi\\l be adkJ b ik.c4 of A. 6BAFY % c%.~ ( T1001550-01V Rev. 33, 06/84 _ ___ - - _ _ ___-_ -}}

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