ML18207A560

From kanterella
Jump to navigation Jump to search
Revision OL-23 to Final Safety Analysis Report, Chapter 6.0, Figures 6.3-1 Through 6.2.6-1
ML18207A560
Person / Time
Site: Callaway Ameren icon.png
Issue date: 06/19/2018
From:
Ameren Missouri, Union Electric Co
To:
Office of Nuclear Reactor Regulation
Shared Package
ML18207A460 List:
References
ULNRC-06442
Download: ML18207A560 (225)
v  d  e


Text

{{#Wiki_filter:8 I 7 I ( 0 l I FOR L T L T-930. L T-931. 930 LT-932, LT-933 I -@I ,-930 I 018 I I r---------( TO LR-930 I ,-------, ___________ l ____ , I I I TO LAHL -930 ---( TO SSPS 03-HC0-4"-1 \ VIA INTERLOCK INTERLOCK < l _________ j l_ __ c' FROM L T-930,.--P-I_P_E_T_U_N JN-E+L-.-L-.--I..E-11 N*OTE FROM LB-9300 L __ -( FROM FROM LB-930A I ,-( FROM LB-931 A I I '-( FROM LB-932A : L __ 2 FROM LB-933A I I .---( FROM LB-9310 L T-931 I / (ONLY LA3L0L CHANNELS 930 & 931 ARE 018 I '\'-( FROM LB-9320 RECORDED, l L __ ( FROM LB-9330 [2] PIPE TUNNEL --L T 27-HCB-3/411 ____ _voo2. __ § 9'--------e 6 @018 ,--2 I I / e ---<0 FROM LB-930C FROM LB-931C ....----... 28-HCB-3/4" L j_ _ L T }----{'->< ,---931 I I ,--( FROM LB-9308 FROM LB-9316 11 \..'---( FROM LB-9326 L __ ( FROM LB-9338 o18 Y, , I L __ 2 ,--2 I I / e ---<0 o18 Y, , I L __ 2 DETAIL A FROM LB-932C FROM LB-933C FROM LB-930E FROM LB-931E FROM LB-932E FROM LB-933E VOOB SEE DETAIL "A" FOR 1---TYP. INSTRUMENTATION 0 , L T )----{) =<)...,:;;2 9:_-.:,H::;C::,B_;-3:,:/_;4_"+-l 'T-932 I V009 [4] L T ____r:::::::::t 30-HCB-3/4" f-T-933 V010 L_ _____ s I 5 4 3 I 2 16H COVERED VENT LIS NOTE 2 TUNNEL NOTE 5 21-HCD-5" ____L_ PIPE PIPE TUNNEL I 22-HBD-1 I;{ ,------------1 I TY 6 I I I L. I 8 8 8 ,-----,--_j \ { SYr m z"xl" AUX. STEAM SYSTEM \ 1 FB-35-HBD-1 z" < < 0 u I ' w -,-------------M-22FB02 NOTE 1 o vo35 .,cc_ I 1 1 F s 1 ... -' AUX. STEAM SYSTEM 23-HBD-1" FB-61-HBD-1" ::,_ ) L,. ____ ::.::,.,;;:;;;;_,;_ ___ -{>::}-------------------------; M-2 2 F 602 V01 5 ( F 4 1 I :so L.J TE TT I 2 2 z-o1s STEAM SYSTEM M-22FB02 ) ( F 4 J ,.1 r-:IL. -@:-: $ os3 I I I REFUELING WATER G)-------! o (=rrs9 Hco FLooR, EQUIP. STORAGE TANK 25-HCB-6" '\1Tos3 y 26-HCD-6" r -CH-. I LF-479-HCD-6" SYSTEM> H-:--:-7::::-_....::;:....:.=....:..---------I ______ '----------, M-22L FOG IF * ]-----+----___ NOTE 1 2 ITBN011 __oTO ESF vo23 I L.c. '-.,._ *vo3s J IE 71 011 I 8 STATUS 3<,{ y I V01I &-----...,., I i l_ _______________________________________ <3U : [i] T 5 PIPE 1 1 112E 001 BORON DILUTION --TUNNEL r-S EVENT (OPEN l --:-----"--01_"_ ___ 1_ ____ -&,--------;;-0;I-----l __________ j 5 I 5 y-1 /// VCT LO-LO TE 5 PIPE TUNNEL BCD HCD SAFETY INJECTION 06-HCD-3/4" SYSTEM TEST LINE ) M-22EMO 1 )--__ ....:.:;_.:.:...:..;,;_,;_-{;:<<:}-------, ( H-8) CVCS BORIC V004 .., V031 ( ACJD BLENDING TEE BG-252_HCD-2" ) M-228G05 . / 05-HCD-2 I C-2) CONTAINMENT SPRAY PUMP TEST LINE , V001 V029 Ji!F I I BURIED PIPE I LW ' ' 0 0 I ' n 0 V028 IF 02-HCD-4" >-EN-15-GCD-4 _ __.. > M-22EN01 ([-3) L.C.I GCO

  • I HCD : J V027 1 "D [4] 5 HV-88048 I ----( HV-8804A TO/FROM VALVE ?-FROM VALVE CM-22EJ01. A-4l r--s TO VALVE I I I I H-3 l [i] HV I zs l fzL\ SAFETY INJECTION 8813 'I CJ v voos PUMPS EM-45-CCB-2" _____, 01-HCD-3" 011 ) M-22EM01 )----------------*-{)Q"T'"[}-....;:.....;;;:T __ .....J !A 81 3"X2" 'clr 0 L_ 01-HCD-2 8 HCD > __ *,_____ CCB 1 "D 8 I 7 I r-:11 053 f4l 3,{ PT[ OPENS )--------I -------',OPENS L.':!:J --M-22BG03<E-7l SIS C(( V035 Q "01 "D 1 01 7 CLOSES 1 :.J I i VQjZ.:.::::::,. :l 3,4'1 SAMPLE CONN. 112 CENTRIFUGAL I y ___ _j y HCD CB ....... :J 08-HCB-S" BG-265-HCB-8" CHARGING PUMP "811 I 1 AS AS I = ... --------------7 M-22BG03 ) ---11 I 3/411 V <A s 1 1 I I vo24 I I F. O. s ' ' m u I ' [4Jfiill'J FUEL POOL ---------@ 9 CLEAN-UP PUMPS EC-52-HCD-3" 20-HCB-3" 6"x3" RED. r----s SAFETY < 0 I > iG HCD HCB L.J o u 1 "0 I §; I }> L_j 09-HCB-8" r EM-03-HCB-8 ,, INJECT, ON PUMP "B /1 l----------------------1>'<f---------------7 M-22EM01 ) I D 8 l F I 366 6 TO ESF STATUS PANEL 8711 1"0 ' N ' m u I ' 0 TO VALVE HV-87018 ( M-22EJ01, C-7 l TO STC TO AND FROM VALVE HV-88118 {M-22EJ01. D-7l TO VALVE PV-87028 ( M-228801. H-6 l 12-HCB-14" EJ-11-ECB-14" RHR PUMP "B 1------------------------{>'<"::}---------------7 M-22EJ01 > I .. ECB ( 8 7 1 yon I I/ y--------Y HV 3 TO STC CSAS OPENS CONTAINMENT 10-HCB-12" EN-06-HCB-12" SPRAY PUMP "8" 1-----------"'T"'-....:.::....:.:.::::......:,;_ _______ {>l ---;; M-22ENOI ) 'j lA 81 L_ __ _______________ 2 II s, w, HIS NOTE 8 B81 AA 01 7 31 __ _ [2] RHR PUMPS EJ-61-ECB-8" L.C. 18-HCB-8" ) M-22EJ01 )-----------..... ..... ----t TO VALVE HV-8701 A (M-22EJQ1, G-7) 01 ;__ ___ -( / / TO STC IE4J [i] ,'-----I 13-HCB-14" ----(TO AND FROM VALVE HY-8811 A (M-22EJ01, F-7) ZS TO VALVE PV-8702A B812AA ----, ( M-228801, F -4) RHR PUMP "A" SAFETY INJECTION PUMP "A" EM-01-HCB-811 X < M-22EM01 *---------------.['::* ( E 8) 33-HCB-8" EJ ECB-1 4" ) 1-----------------------------[>I<J---------------z M-22EJ01 [2] 001 _l BORON DJLUTJDN c EVENT (OPEN l I / OPENS (L----I --( SIS OPENS VCT LO-LO M-22BG03{E-1 I ' '" ' m u I ' yo17 I TO STC CSAS OPENS j----8 HV 4 CONTAINMENT SPRAY PUMP "A" TO LCV-1128 l 1 M-22BG03( F-6 CENTRIFUGAL 15-HCB-12" EN-02-HCB-12 II ) 1-----....,;___;_"'7, "'T'---{:>J<:}-----------7 M-2 2 E N01 CHARGING PUMP "<" BG-264-HCB-8" y < M-228G03 ..... -,......------L-----.......J ( c s) 17-HCB-8" I 5 If 4 ( F-8 l j 211 s. w. ___ _ I 3 ( F r J I 2 I 1 REV. DA.TE DRAWN 18 OE-259 JHK CHKD. SUPV. APPD. MAL AMR N/A I NCORP. RFR-18497 A. REV-DA.TE DRAWN 19 11199 RLW CHKD. SUPV. APPD. H DJB AMR N/A I NCORP. MP 89-1035 I PARTIAL l REV. DATE DRAWN 20 10259 RLW CHKD. SUPV. APPD. OJB AMR N/A I NCORP. MP 89-1035 I PARTIAL) REV. DATE 21 111102 DRAWN CHKD. SUPV. RLW MAL DLB INCORPORATE MP 89-1 035A CPARTIALJ REV. DATE 22 082003 DRAWN CHKD. SUPV. RLW MAL TWS INCORPORATE MINOR CHANGE CAR 200305155 G REV. DATE 23 091003 DRAWN CHKD. SUPV. MAL EWM TWS IN CORP. MP 89-1035A CPARTIALJ. REV. DATE 24 110904 DRAWN CHKD. SUPV. MAL RLW TWS l NCORP. RFR-22941 A f---NOTES: 1. LOCATE CONNECTION ABOVE NORMAL WATER LEVEL. REV. DATE 25 082007 DRAWN CHKD. SUPV. RLW EWM TWS INCORPORATE MP 89-1035A REV. DATE 26 102914 DRAWN CHKD. SUPV. MAL RL W LMP IN CORP. MP 1 3-0028, REV. O. 2. HEATING COIL AND STEAM SUPPLY AND RETURN LINES ARE NOT 0-LISTED. 3. REFERENCED WESTINGHOUSE DRAWINGS: 1145E02 SHT.3. 1145E03, 1145E04 SHEETS 1 THRU 3. 4. DELETED. 5. REMOVABLE SPOOL PJPE REQUIRED FOR HYDROTESTING. 6. ISOLATION SWITCH PROVIDED IN THE CONTROL ROOM FOR POWER LOCKOUT OF VALVE HV-8813. 1. THE THERMOWELL FOR TE-6 WILL BE IN ACCORDANCE WITH SPEC. J-563(Q). 8. TEST INDICATING SWITCH TO VERIFY CIRCUIT OPERABILITY. 9. LEVEL SWITCH NOT USED ON THIS INSTRUMENT. 10. TEMPORARY COOLING SUPPLIED THROUGH BONNET OF BNV0016 AND BNV0036. 11. DELETED. 12. PIPE CAP MAY BE REPLACED BY QUICK-DISCONNECT ASSEMBLY. PER RFR-171928. AS-BUILT CLASS ORAIIN <OATEI 1 NIA PIPING AND INSTRUMENTATION DIAGRAM '""" """' BORATED REFUELING NIA WATER STORAGE SYSTEM <OATEI N/A FSAR FIGURE 6. 3-1 SHEET 1 APPO. <OATEI LOCAHDN'l ( "'\/\ I CLASS N/A CALLAWAY ENERGY CENTER J26\ UNION ELECTRIC COMPANY M-22BN01 ( Q) I REV. ST. LOUIS, MO 26 I 1 F -E D c B -A H G F E D c B A 8 RWST < M 22BN01 I D-8 1 3/4" X 3/a" RED* 130-HCD-3/,q"---; 7 HCD ECD *I .. 072 BCD 3/4" v 1 21 F I 928B F I 928A FE 928 6 5 4 3 2 I II HY 7 II ACCUMULATOR COLD LEG 4 TEST LINE I I 8964 <0---1 --s cciLso;{;' ) M-22EP01 >--------1 CIS "A")_ __ AS,r"--c'#-. y I [i] T ' I CLOSESC" 1 I ,-I e ::; IC-1 1 S I 3// Z-8881 ----T--H8185 I 0 71 3'<" I PI F"'o " I .-+114-:l TEST N r y 8889A 0( IV1 I S 929 0\ I :J CONN. I 011 ail 'L I t1"o zs FCDV138 I I 0 ___ j s ---:;] t;;\ 'W-;:s--,-0 8871 I 1 v257 I II B Y _;, §: P92 I y I I 041-BCD-3/4" * ... I ,------w1 ___ l_? ___ 2_8889A _____ I ___ ,_,_ __ F.c. 3'<" v -3*4'1V1 1 1 1 1 1 ,. 1 1*z"x RHR TEST LINE o' 119-BCD-3/4"1 ' I -_ ! 1 REV. DATE DRAWN 24 o3oao1 MAL CHKO. SUPV. APPD. SKC JHC N/A IN CORP. RFR 21102A. REV. DATE DRAWN 25 041801 MAL CHKD. SUPV. APPD. RLW DLB N/A IN CORP. MP 97-1010 FCN-06. REV. DATE DRAWN 26 042001 RLW CHKD. SUPV. APPD. MAL DTW N/A IN CORP. MP 00-1015 I PARTIAL! REV. DATE DRAWN 27 042101 RL W CHKO. SUPY. APPD. MAL DTW N/A 3// RED. lr N Tl ,_.]\ --, scD Bcs N 1 <Y-1c1s "A" 1 1 1.,. "':' > 1:;: '3>><J-" V122 ;:_;B _c_B.j-->* ""' I -,CLOSES I 8,.,:;; ';w;:; cu ' v 8 r:;; IE-21 ___, I vz49 @s 1 0 I (zs\ -**** "' c; -065-BCD-3/4" IN CORP. RECYCLE HOLD-UP MP 00-1 015A. TANK V120 < M-2 2 HE 0 1 H.f :.01. I:-t!.C.Q :;> L 'L:----.... ... t---"0.;.7"-3 --'B;;.;C;;..:D;..-..;:3.;./-'4-" _ _. I A-8) I 128-ECD-3// 1" x 3// RED. r 63 f _____ ...,.__ I u w u _j-; :::2: :r: 7 w ' --HY [() ** ITI := y m EJ-050-BCD-3/4" V219 I "i< 4k or-N 1 3'{ CONN. r-:-------I 8881 AS l o m S . S -::; REV. DATE 28 09060 CHKD. SUPY. J HK TWS IN CORP. DRAWN MAL APPD. N/A RFR 21810A. l-l!l2.J 3 " o I 011 1" X 1/{ RED. I " "2 x 3/a" pI 20 COl SAFETY INJECT I ON --._ 'R-V . , ) IiJ SYSTEM TEST LINE 1 "'0, 1 v:;-;<Il F. c .* * " ,AS , HV CIS "A"(--<{>-HIS
  • 041-BCD-3/4" ---7 -8889A
  • v57-BCD-3/4" ) 070 BCD 3/4" --..-"--./ CLOSES 88 M 22EM02 I FO ll § AS 018 ACCUMULATOR COLD I 'I HV I HV \ ---------'. ZS 017 HCD HCB --e m S p > Jil' ll_807 3,," r 0 I I I B-2 I LEG 2 TEST LINE 1 Q1 :,_ 88898 1 8889D IV 1 11 1 ) I "I '-1 FO "--./ Y M-22EP01 /------------* ci_1 1' '...:_ I 'J:' 7 S ACCUMULATOR COLD wl m AS ) f7Lh7L-c-I '-IE-31 LEG 3 TEST LINE I as I FO\ II ) )-I J, I r '-'vv ACCUMULATOR COLD M-ZZEPOl ---r00 t<j' I HV FROM RHR HEAT EXCHANGER A TO CVCS CENTRIFUGAL CHARGING PUMPS 92 022-HCB-6" 1" ..., -;:"] I g.' o,r s *-8888 LEGS 1 & 4 TEST LINE -HYj S 8 u ZS ) ____ 1c_-_3_1 __________ -------------' 2 l m 88890 n J, "--./, / HV '\ 8888 M-22EP01 r-,-""----" "' 6 y cb I < M-22BG03 )-]---[)<(' 023-HCB-6" I B-8 l NOLT.EO .14 m BG-401-HCB-6" Is\ g [__H_W ro m ? ;: .. ;::: ,. N I _0> 'I" L:.J 1"(D) L __ 0 ACCUMULATOR I P58 (8888 IG-21 RECYCLE HOLD-UP TANK )\ \HIS ---6 __ II asN, :;0' II FILL LINE 038 ccB 1" L-r----------) T coMo-LZI2NEGGOW2AT(ER )fG--'b119-HBuC-2" c3c,,ox sees 3,8 Ms §8'-'t '-'N /{ CONN & I I_VI RWST M 22BNOI IB-61 RECYCLE HOLD-UP TANK 0 u I 001 HCB 8" f _;;: I HIS S FE \S/ m ID*1 :,; m en -I:? -0 N CCB HCD V ( F -3) EG-304-HBC-1" ,r :::: ll_807Jl m 'J:'-:::>! s 023-HCB-6" * .... 3//RED. /// TUBING > a5 J _L o 0 u I >, L:.J1 " l-l!l2.J :r:: m _J u ...,.. ",'{-c&l I -FD/918 /L8._8_5H3C-AD:2.:._1 o 3/4, -co ( L l _vool > RCS HOT LEG-2 u ::-.r CD ... 3 " TEST CONN. ;... 8 I'll ._, I , 010 BCA M 228801 V189 T I , :1T9) ..... t1T8 )--., cb 3// 3// 3/{ (]] 3 II L-I ' __, ..-----010 BCA 6 II 6 == V254 Wr---. ,--:,. u IV1 IV) IV10 V! m rc: u IC-41 1-"-( HH-'-II "-SS + \_< I S I S "'-y l.l l.l l.l u m ro * -rn = 3;sQUICK STARTS r<l u 0 ,.---_j NOTE 2 IDl 017 0v'\ ll_9 2 3 "" S w Fe-CONN. IV! 4 017 § 8 ;::' :;; m S @]6s'\_ m S RHR HOT LEG 009-BCA-2'" " m S 9P7I7 HCO HCC .. FE _.J m RECIRCULATION I c m S .-', Q-4 i L 0 8 ::1 ;-/1, > V199 [+4 .... ---1 N 0 w 8 "L-1"1li"" N7\ -" ""T"T"{"-......... ,....._,f--1-f: X>. (;,}-..l..-----11 II,_ ____ --4r'-:' "f-' '1 R H R HOT LEG z" T f SIT D f ON N . > 030-HCC-2"/ 8'<57 _ c __ ,e_ I . ..., --, ,.1 ;._,l RECIRCULATION 002_HCB-6" r 4"x 3" REO. 8922A I 8921A CCB I BCB L EJ-044-BCB-5" s u8u §;:, * "" rn r . u ) M-22EJ01 --0---, G (NOTE 11 l .--8 1\S N RED.L /SS'--'\'--1-!l->_j cri SEE NOTE 17 _::. II ,., /S\ HCD CCB ;: 3//X318" 0 1 11211 l f-I "' z 3 " ., I V 1 "' @" PEM01A 1u-fz'x1"RED. 0' m }> "':!£3'{X1" 1\:,S i'j'-: :.., :81 ID-11 'N:': I -J2" ::::, s REo. as ,. ;_ / _____ \(TYP. oF 2) "T
  • I I N u V161 3 II ...--,.---0 (.{) , y u >* , 1 " , lile<iiiiH '8 au 1 cK > u v; s u -[_,r r ;: m 0 u <Il HCD HCB ?-Q£ HCD HCC DRW ! TE L:.J 8 (0) L..:.J ---h:--;:-7 ' > < L HE -039-HCD-1" M-22HE01 =;:--------------* ,-I 3 8 10 1"1DI I RECYCLE HV I m pp &r: '<" ' HOLD-UP /S 8,821f 10.1 o . o > m .. * {5 7 I I D 1 L:-**-:'f--'-----1 Le-1 0 TANK , , _ _ I "'C./. <Il > "'" > I L , JOD2 L :;:;._ --------8858A G V112 . ;. 3,s"TUBING I 017
  • 013 BCA 5" < L HE-043-HCD-1" I V271 " COMPONENT m M-22HE01 '\------------"8853B m 3'4 I 8 -...... RCS HOT LEG-3 M 22BB01 IB-71 / RECYCLE HOLD-UP TANK < M-22HE01 I A-71
  • CD I rn (j I I " 0 0 3*4' I V l [-+114----1 V272 8------HCD HCD COOLING WATER t5 r t5 :J (VJ Lz-8821A V090 SAFETY , IB-51 ' m "' INJECT I ON PUMPS) M 22EG02 ;;; t 6 V150 A'-' :20 ;: 2 NOTE 2-o 1 __ 04A 1" lf--Jioe<llf-'0=-j S m . o 1,2" TEST COMPONENT IF-31 IDI S >-"-012-BCA-2" "' COOLING WATER 3 2 f-o 1" IDl m CONN. & z -3,8" TUBING O.L. 018 u 1 ,-,IDI IDI , ;;; M 22EG02 ALARM II 17 II 17 CCO SCCB rl m 'j' i' EG-306-HBC-1" @]£ <l§21Jl I \SEE FNEOTE 17 r m o -" u i iD171 \ II I I 1-J L--H-W L--H-W ::: __.__ __.__ r211X 1 1/{ N > 0 u <Il I C-6 I -, I ;: *
  • I I V159 I I
  • 984 I v2ss __L :: 1"lf-Jiol+-l I-a§02)3 7 .. lS§;, --;:;i:;;§;: ITYP. OF L-!IJQ-{: "8858B V188 v ' :2T3 ,....---{( :2T2\}--, r B 8eB e' 017 Sj>--' 017 ¥ m : 3 I L I "\\!I.._ _____ pp V104 3," -3,8"QUICK lilr---. 10 , '-* m r' 017 BCA 2" II' 01: -;:"] 101[ .... 4 "', ro-F.m CONN.IVJ ,7:::; 2; e I 7zs\_ i-1.U ')' r:" as V091 BCB I BCA IE-41 ______ 11 S ( PI HCD HCC _. * ------------------r FE { __ H_V_ J '-'-' 1/{ TEST o B 978 == 0-> r: -(o-5 922 ::=; 88028 s ._1 11/(Dl -CONN. & 0 -s ',§;: 8SOZBA >_"'" s o * .. V "'I > I 5 0 0 (Q) Z L,'> L > ::.148 BCD BCB o V169 * --(' -1 ,....--' L.C. 'i' ',N RWST \Y lA ...... ._ ___ _,! I! ; --, 3 "I 015 BCB_4" '" :.. SEE NOTE 17 r 066-BCB-3/4" 005-HCB-6" 8@ 4"x 3" RED. 8922B 89218 m ro .. BCB BCB BCD en' 3'4' M 22BN01 1\ u 1.{) -.-V217 r0 ::I r0 0 PEM01B "'N /S\: _> /s\§t Fm* LC ch S FP FE FP ;.4 u I 0-2 1 § :r :' 0 5,. RED _ _j / I) li --'""'---_,,-jr = : ' __ j @ ' : ; i' " '; i i m: "" 'i: -;--lC _j (L) :___oo4 ....,021 BCA HOT LEG-4 . _ 1 > /S\ [iJ I 'l # 1 , M 22BB01 RHR HEAT EXCHANGER "811 M-22EJ01 IA-31 024-HCB-8" N ' TE " Q '. L:.J 0 0 en 020 BCA 2 L:.J 0 I 15 PP & ., "" 3*{ 8 13 @ 6 ;': r § s RED 1" TEST 8 c-vogz 1 I/2"(TYP. OF 2) u e ID1 N °17 L _ _)CIS "A" .....
  • 3"a"OUICK FE 8 -1vo96 ACCUMULATOR 1"1Dl I V114 > ""C CLOSES CONN.IVl ,/"050-BCD-3/4" \ 981 m .-' INJECTION COMPONENT L:.J o 3 " PIPE V251 062-BCD-3/4'2:, S COLD LEG-2 IG-61 E MP I 0001 A---, EMPI0002A FEM01A FEM01B EMP I 0001 8---, EMPI0002B 3 "x 1 '*z" 1 "I 0 l ';' l_ "8 -------------8g3 8 053-BCB-2" ____ @ Li 13"x 1 ,,,' 1 CLOSES( l . m S m u c-u ,__ IV! r IF-31 I B-3 1 @-O __ ------@O I _____ S eo. as 0 _; §;: _; §;: -*
  • A ,--BCD BCB 2 "x 1 ,"1 TYP. OF 21 EMT I 0001 EMTI0001B 0 EMV0702A EMV0702B -r-EMTI0002B EMTI0002A / Q EMV070 1 EMV0704 Y 'f 0 _I ,_J 4-+--++----/"'><:: ... EEM01A EEM01B RWST M-22BN01 I B-8 l 8 EMLI0001A EMLI0001B TEM03A TEM03B LUBE OIL PIPING FOR PUMPS PEM01A AND PEM01B N.r.s. 045-CCB-2" 7 0¥ --rf -l r------, I I ---0 u u 3"x 2" RED. 3/ II 4 LOCAL SAMPLE r.l ' * > m > NOTE 8 700 8 H8I2S 7 0 Fe_) ll) FP FP S (L:.. 3 x 1 1/2"
  • 01 7 3?. co ;. CD 3/4" ;: _j S:: I 1\ FE V095 S ij R 3/4" ( y) _ '-'-' ,/S\ 980 ACCUMULATOR -< " 0 ro ro w > -" -< > 0 r-CCD 3/{X3/8" II 31a" ( V l 1f-.. 14-. V259 V190 045-CCB-3" 6 1 INJECTION 3/8"( V J HCD CCB co co (_J_l J, m --1111( D l o COLD LEG-1 RECYCLE 6 v 1.{) ,. N u 051-BCB-211 I en u u I "' "' 0 0 u u on 0 0 > I en u u I " _,. 0 -1 " I D 1 " 0 N > <Il w,->o -"00 -<ro > '}' I i1l..-J-.... ( zs \ v z; c-o 0 --" > 1 "ID1 HOLD-UP co *-, co0 S co w co f-----------------1 M 22EP01 TANK u '-' -'-' ;: f[ 3} L.C . ., ... V166 m mo. 1"1D11 ( ,_,,co: >"' Will-' " " I A-5 l _1_:/_.(J\_ Ya17 , en FP FP er 10 :8E3 I H-3 1 I 1*z" I TYP. OF 2 1 V098 ACCUMULATOR INJECTION COLD LEG-4 <Il u u 1"(0) 5 -< " 0 ro ro 0 r-e( ZS I (.._£1__\ o 057-BCB-2" _( 883 SA 7 '"":l P49 I I 049-CCB-3/4" ,....__ 1 ....., ____j FP FP rn FE --, I 982 /050-BCB-4" d' §1, L "' CD 0 > > N en N > 3/8"0UICK CONNECT I V I d: c-* <DU 0* >-" 4 > L:.J 1 II TEST CONN. & I D 1 t L:.J 055-BCB-2 II 0 u m 1"(Dl 3 I L r:s V097 3; 4' I f--'L:;.;.;-C;:.-.... ____ ......J 1 v 1 r M 22EP01 IC-31 ACCUMULATOR INJECTION COLD LEG-3 M 22EP01 ID-31 2 NOTES: 1 . DELETED. REV. 29 DATE 11 0402 DRAWN CHKD. SUPV. RLW MAL OLB INCORPORATE MP 01-1019A REV. 30 DATE 1111 02 DRAWN CHKD. SUPV. RLW MAL DLB INCORPORATE MP 89-1035A REV. 31 DATE 041905 DRAWN CHKD. SUPV. MAL RL W TWS INCORP. RFR 22941A REV. 32 DATE 101305 DRAWN CHKD. SUPV. EWM T JC MAM INCORPORATE MP 05-1004A REV. 33 DATE 060707 DRAWN CHKD. SUPV. MAL T JC MWH INCORP. MP 07-0016, REV. 0. 2. DRILLED RESTRICTION 3/8" IN DIAMETER. POINT AT WHICH QUALITY GROUP CLASSIFICATION IS CHANGED FROM A TO B. INSERVICE INSPECTION WILL BE PERFORMED ON CLASS "A" PIPE UP TO THIS ORFICE. 3. SEE WESTINGHOUSE DRAWINGS 1145E04 SHT. 1 .z & 3. 4. DELETED. 5. DELETED. 6. PIPING CONTAINING 12 PER CENT BORIC HAVE TEES WITH A CLEANOUT TO PERMIT OF SYSTEM AS REQUIRED. ACID WILL CLEANING 7. FOR P & ID LEGEND AND SYMBOLS SEE DRAWINGS M-220101 THRU M-220104. 8. MINI FLOW ORFICE SUPPLIED BY SI PUMP VENDOR. 9. HEAT TRACING NON-CLASS 1E. 10. ISOLATION SWITCH PROVIDED IN THE CONTROL ROOM FOR POWER LOCKOUT OF VALVES 8802A.B AND 8835. 11. SG-AR-6, PEAK RECORDING ACCELEROMETER, TO BE MOUNTED ON SURFACE OF HORIZONTAL PIPE SECTION. 12. DELETED. 13. DELETED. 14. VALVE HANDWHEEL AND BREAKER LOCKED IN OPEN POSITION DURING NORMAL POWER OPERATION. 15. DELETED 1 6. EMV0257 SENSES UPSTREAM PRESSURE AND PROVIDES BACKPRESSURE ON THE SI TEST HEADER AS DESIGNATED BY ENGINEERING. 17. CAPPED SWAGELOK ADAPTER. 18. TYGON HOSES ARE INSTALLED FROM THE SAFETY INJECTION PUMPS MECHANICAL SEAL LEAKOFF LINES TO PUMP SKID DRAINS PER RFR 010613A. AS-BUILT REV. 34 DATE 111308 DRAWN CHKD. SUPV. RLW EWM TWS INCORPORATE MP 07-0121 REV. 35 DATE 020909 DRAWN CHKD. SUPV. RLW EWM TWS INCORPORATE CR CAR 09-000010. CAR 200508848 REV. 36 DATE 060110 DRAWN CHKD. SUPV. MAL T JC LMP INCORP. MP 08-0016, FCN-05. REV. 37 DATE 080311 DRAWN CHKD. SUPV. MAL T JC TWS INCORP. CAR 201101335. REV. 38 DATE 11 0414 DRAWN CHKD. SUPV. T JC MAL LMP INCORP. MP 14-0024. REV. 39 DATE 071717 DRAWN CHKD. SUPV. T JC MAL DME INCORP. CR 201701919 IRFR 010513Al. CLASS 1 DRAWN (DATE l N/A CHKD. (DATEl N/A PIPING AND INSTRUMENTATION DIAGRAM HIGH PRESSURE COOLANT INJECTION SYSTEM SUPV. (OATEI N/A FSAR FIGURE 6.3-1 SHEET 2 APPD. (DATEl LOCATION N/A CALLAWAY ENERGY CENTER UNION ELECTRIC COMPANY ST. LOUIS. MD M-22EM01(Q) 1 CLASS REV. 39 H G F E D c B A H -G -F -E D -c -B -A 8 (NOTE I \ I I 7 I 6 I 5 141 ceo 1" 140 DCD 4" 4 I HE -028-HCD-1 II 1" SW CAP 1 RECYCLE HOLDUP TANK 113 HCD 1" -7 M-22HE01 ) V114 -IB-8 I V125 V194 r;===c:: 1 "I D l l ' y REACTOR MAKEUP WATER 2_ M (C 2l 8801A SIS OPENS I >---' 0 u ' 1" TEST CONN 079 BCB 4" & ( D l V145 V077 u ;, w SIS OPENS BCB I BCA . ' .. 3" X 1 1/2 II ! NOTE V197 1 "(D) 1" TEST CONN. & tVl '-1 V146 V078 L.C. ' u w ' N ro D Y m I P-88 I I 1._ 082-8CA 3" 3 FE 925 r ,rNOTE 4 Jll V1 08 r---1 (Ll f""] 1 084-BCA-1 81 -s 0 -u FP 3/4" FP co FE 926 V223 T rNoTE 4-I REACTOCROLCODOLANT SYSTEM 1/2" LEG 2 L M 228801 I D 5) 11 V1 09 L I \ REACTOR COOLANT SYSTE I 086 8CA 1 112" COLD LEG 3 M NOTE 4 M 228801 V084 --V198 Is\ ID-61 FP 3/4" FP ::::; FE 924 1 4NorE 4 1 "I D l 'II v1 or l--rl1 Is\ FP3/4" FP FE 927 VZZ2 r r"oTE 4 _ 1/2 1 SYSTEM L M 228801 I D 5) !1 V11 0 t---' ,Ill f l --n \ REACTOR COOLANT y I 087 BCA 1 112 " COLD LEG ,s STEM NOTE 4 / 1,-m / M 228801 FP 3/:5"FPV086 M IE 6) 1 II ( D l FROM I A-8 l ---------<p------@ I 020 1" SW CA;=s-h;cJe1 BCB 3' ---, 8815 ,-----8 I\ '"'0"8l0r-"B::;C;;:8:,::;4"""----r------________ JI L 081 -B CB-4, I i NOTE 4 3/8"( v) I r-----y I TO BG-HV-811 0 OJ lM-22BG03, E-3,4) [j] FIS 917C'(---I ,------', s--L__LU'j I FT 018 917A'(----[i] ' m u m ' m :; TUBE RED lr V262 L, V042 SIS -y OPENS i'--I _ _j_l!l2_j 1 01 s d 1" SW CAP r;" SW CAP 079-BCB-4" c!"1" SW CAP 132 BCD 1" CENTRIFUGAL CHARGING PUMP "A" > M 22BG03 __ _j I A 3) ' \ j V155 I 074-BCB-4" 1 "ID I I r----. ... f--_J BCD BCB TO FAL-917 C C-8 > (L-------TD BG-HV-8111 ( M-22BG03' E -4) (L------I -----j er--l I [i]l FIS 9170'1---__ , i'--,;-, 1" SW CAP HIGH MODERATE ENERGY ENERGY 3/811(Vl LiJ I gna o V261 7 7 SIS [II ____!L-...___ V244 V245 OPENS ('---y-2 ' ______ , ""',, CHARGING PUMP "B"
  • 8 ' w u m ' 0 1" I D l II 135-BCB 4" 1"( 0 l CENTRIFUGAL .i V242 ili (1" SW CAP HV 03 1"SWCAPt 2_ M-228Go3'\ ,----(A 3) ________________ _][___j r 075-BCB-4" I +S ENERGY ENERGY V205 "'w S 075 BC8 1" 1" SW CAP 8 1 7 l 6 D ro N > V275 .....--J 3'/ NPT 1" HOSE ,coNNECTION _,I-. <NOTE ' 4" HOSE .,CONNECT [ON ' L <NOTE 5) < r------.. V*2*8 .. 1 r-.J ____ 1 3 8 -c CD -1 II sco. I ;co ' 0 u m ' *BCD BCD V279 4" I sco I 1" HOSE CONNECTION I NOTE 5 > \_4" HOSE I I ON f.....( NOTE 5 )\ 5 T m u m ' ;; c 1 I 1 I ¥ I AS i i Tf [4J 1 I I HY 1 8843 j 0@-I HS _j 8843 m $ u m 4 HV 8843 I (.:';I o 1 FO I L fH?\ I I I I I FC HV 8882 070-BCD 3/4" I / ' ' 0 " m ' 0 m 0 070 BCD 3/'1" 3 SlS TEST LlNE M 22EM00 ( G-5 J I 23 2 NOTES: 1' FOR GENERAL 2. DELETED I 1 NOTES & SEE DWG. M-22EM01. 3. SEE OWGS M FOR EOUIPME-23EM02. & M-23EM10 4. DRILLED FROM SERVICE. . THAT HAS BEEN QUALITY RESTRICTION -:-,s" IN REV. DATE DRAWN 4 111891 MAL CHKD. UPV. APPD DLBr TJM NIA REDRAWN FOR CLARITY. REV. DATE DRAWN 5 08119 JHK CHKD. UP\1. APPD DLBr TJM NIA 1 NCORP CMP 90-1037, REV. DATE DRA\1/N H 6 07199: DLBr -........._ CHKD. UPV. APPD BEYO "" RLW TJM NIA TO "8" {ROUP CLASSTFJCATJgNJAMETER. POJNT AT WHIG _CLASS INSPECTION CHANGED FROM "A' H f --IPE UP TO THIS BE PERFORMED ON 5. THIS CONNECTION I IFLEXl EMERGENCY CS TO BE JSED ONLY FOR ORE COO_ING. 6. DELETED 7. DELETED 8. DELETED NO-DESIGN-BASIS INCORP f';;R ;:;F 'C8 _ _j REV. DATE DRAWN 7 11089 DLBr CHKD. UPV. APPD HLP TJM NIA r-----1 NCDRP RFR-14287A REV. DATE DRAWN 8 06169 DLBr CHKD. UPV. APPD HLP AMR N/ A 1 NCORP RFR-15100 REV. DATE DRA\1/N 9 07129 DLBr CHKD. UPV. APPD HLP AMR N/A 1 NCORP CMP 94-1018 REV. DATE DRAWN G 9. DELETED. 10. 10 04059 SBR CHKD. SUPV. APPO. DLBr AMR N/A I NCORP CMP 90-1008 I PARTIAL> 11. DELETED 2 DRAWN N/A CHKD. N/A SUPV. N/A APPD. N/A WAlE 1 I OA TE I COATE I AS-BUILT REV. DATE DRAWN 11 04089 HLP CHKD. SUPV. APPO. SKC JHC N/A I NCDRP CMP 90 1008 REV. DATE DRAWN 12 04269 DLBr CHKD. SUPV. APPO. RLW AMR N/A I NCORP CMP 90-1037 REV. DATE DRAWN F 13 10159 DLBr CHKD. SUPV. APPO. RLW AMR N/A 1 NCORP, RFR-082368. REV. DATE DRAWN 14 o3o39 RLW CHKD. SUPV. APPD. DJB AMR N/A INCORP, DEC-1501 AND 1 RFR-08236C. ,-----REV. DATE 1 5 12169 CHKD, SUPV, SKC AMR INCORP. DEC-1573. DRAWN DLBr APPO. N/A REV. DATE DRAWN 16 11049 RLW CHKD. SUPV. APPD DJB JHC N/A. E INCORP. MP 89-1035 (PARTIAL> REV. DATE DRAWN 1 7 3240 MAL CHKD. SUPV. APPO. JHK AMR N/A lNCORP. MP 97-1027A. REV. DATE DRAWN 18 053101 RAM l......t CHKD. SUPV. APPO ....... JHK AMR N/A. I NCDRP. MP 89-1 035A REV. DATE 1 9 041 905 DRAWN CHKD. SUPV MAL RLW Tws' INCORP. RFR 22941A REV. DATE D 20 070710 DRAWN CHKD-1 SUPV TJC MAL I TWS. INCORP. CAR 201001930 ACTION 7 REV. DATE Z1 103114 DRAWN CHKD. SUPV MAL RL W DME. INCORP. MP 13-0023. REV. 0 AND FCN-01. REV. DATE 22 071515 DRAWN CHKD. I SUPV TJC MAL I DME. IN CORP. CAR 201504265. REV. DATE Z3 092815 DRAWN CHKD-1 SUPV RL\\1 TJCIDME. INCORPORATE C MP 13-0023 FCN-03 ' f--B CLASS 1 A PIPING & INSTR HIGH DIAGRAM INJECTION SYSTEM NT FSAR FIGURE 6.3 1 SHEET 3 tDA TE I LOCH I ON I CALLAWAY ENERGY CENTER I CLASS UNION ELECTRIC 22EM02(Q) 1 123 ST. LOUIS, 1 8 RHR PUMP A \ \ 8716 L '-A /f.JHiA 8809 "._ A / \ EJHV 8840 N I " 7 6 RHR CL I ) IE -2 l RHR CL 2) IC-21 EM-V040 5 -EMF J\1--9288 )----{ EMF I )----{ 928A EMFE 928 f EM-V039 BN-V004 c__--, 9 RWS T ,, EMP: 929 4 EM-V038 -**-**-**-...J ---, 3 EM-V152 -ta::l-SI PUMPS COLD LEG INJECTION 2 EMHV 8835 I P21 I RHR HOT LEG) 18-51 EM-V120 EM-V121 R HUT HE-V143 "Yl-t-----__j YEM-V257 /f.J HiA 8809 '-B ll-----:]r / vJ .. EJHCV 8825 EJHCV 8890 R_H_R ___ P_U_M_P __ B __ v ---, .. s I ACCUMULATOR D EP-V124 I G-5 I RCS CL 4 TEST --{:;.::)-EP-V040 IH-1 IG-71) RHR CL 4 tEPH'r 8877 EPHV 8808 I 0 IF-3 I (D ACC TEST EP-88180 ... I ' E?-8956D I ' Sl ... 8808 " c IG-71 RHR CL 3 tEPHV 0 8877 " c I H-1 I ) S I CL 3 EP-8956C I ""' EP-8818C I 'J EP-V030 ' EPV0128 RF5 L 8 7 RHR CL 3) I C-8 J RHRCL4)1E-81 EJ-V210 .. ..:;;,* /f.MHiA 8889 EM-V140 BB-89490 EM-'1004 I A _, _. r--'-----1 1 STEAM .. REACTOR COOLANT PUMP IPBB01DI LOOP NUMBER 4 "' lA 11) 814 1 f-----..J REACTOR COOLANT PUMP I PBB01 c I I A-1 J ) LOOP NUMBER 3 STEAM B I -3 ... I 'J BB-V040 .. .. I EBBOIC I 6 v EJ-8841 B BB-8949C CJ-7. tEMHV /' 8889 ) " c r .. 1A v EM-V002 RCS CL 4 TEST< IE-71 @ SI PUMP B HOT LEG INJECTION tEMHV l----{ 8802 ' -.., B J L§BJ L___=--t REACTOR @ VESSEL RBB01 "' I _, ll r "' P87 EMHV 8802 A SI PUMP A HOT LEG INJECTION 5 EM-V003 I I BB-8949E EMV0264 ...... STEAM I EBBD1 A I LOOP NUMBER 1 v EP-881BA 1A v EP-B956A \ EMV0248 RF5 IE-71) 0 ACCUMULATOR TEST / S I CL 1 ( I H-1 I / RHR CL 1 ( I H-7 I tEPHiA ss77 I 9 )._A ..u I A " c1.-SI REACTOR COOLANT PUMP ,--r-, \ PBB01A. ,.! @ OJ L------lv '---'B'-'1---'-1 __ (_,. I A -1 I t"' v B I 2 ( I A-1 I BB-V022 LOOP NUMBER 2 REACTOR COOLANT PUMP I PBB01 B I '-V STEAM ... I EM-'1001 ... I "-< EJ-8841A ... I-BB-89498 sss9 1 '-B -I EBB01 B I A SI -}-1--....---------------...f;'f('-'j--A C C A TOR EP-89566 rA v EP-88188 V I EP-V020 8871 ) '._B/ 8808 B / RHR CL 2 _\_ I H-7 I S I CL 2 ( I H-1 I g EP-V127 EM-V249 BORON INJECT ION ---1 HEADER EMHV\ 8801 '-B .. 9 NOTES: 4 1. T41S DRAWING WAS CREATED TO CLARIFY AND CONSOLIDATE AcL THE INTERCONNECTIONS OF THE SI SYSTEM TEST LINE. IT CONSISTS OF PIPE AND VALVES FROM 7HE BB. BN. EM. EJ, EP SYSTEMS. REFER TO THE INDIVIDUAL SYSTEM M-22 FOR INFORMATION ON PIPE CLASS, SIZE AND OF ALL INTERCONNECTIONS. 3 ... 2 l> I I _, v 0 ' 1 Sl CL 1 ) IE-31 Sl CL 2 IB-31 SI CL 3 IB-71 Sl CL 4 IE-71 REV. DA!E DRAWN 0 50791 SBR CHKD. SUPY. APPD. OLBr TJM N/A INITIAL ISSUE PER RFR-8869A REV. DATE DRAWN 1 72991 J HK CHKD, SUPV. APPD. OLBr TJM N/A INCORP. CMP 90-1007. REV. DATE DRAWN 2 111391 MAL CHKD. SUPV. APPD. DLBr TJM N/A INCORP. DEC-0770. REV. DATE DRAWN 3 71692 GDC CHKD. SUPV. APPD. RAM TJM N/A INCORP. DEC-0883. REV. DA! E DRAWN 4 11593DL8r CHKD. SUPV. APPD. RLW TJM N/A INCORP. DEC-0927. REV. DA!E DRAWN 5 80395 DLBr CHKD. SUPV. APPD. RLW AMR N/A INCORP. DEC-1257 REV. DATE DRAWN 6 43096 DLBr CHKD. UPV. APPD. RLW AMR N/A INCORP. DEC-1331 REV. DATE DRAWN 7 04109 HLP CHKD. UPV. APPD. SKC AMR N/ A INCORP. RFR-17539A REV. DA 1 E DRAWN 8 04120 MAL CHKD. SUPV. APPO. JHK AMR N/A INCORP. MP 00-1 003 A. REV. DA 1 E DRAWN 9 030801 MAL CHKD. SUPV. APPO. SKC JHC N/A INCORP. RFR 211 OZA. REV. DAlE DRAWN 10 042001 RLW CHKD. SUPV. APPO. MAL DTW N/A INCDRP. MP 00-1 01 5 !PARTIAL I REV. DATE DRAWN 11 042101 RLW CHKD. SUPV. APPD. MAL DTW N/A INCORP. MP 00-1015A REV. DATE 12 110402 DRAWN CHKO. SUPV. RLW MA'--DLB INCORPORATE MP 01-1019A REV. DATE H G F 13 041905 hio:iR *"'w"'Nl-iciiH,-iK De-. rsOi-uiEp vv.-1 E MAL RLW TWS INCORP. RFP. 22941 A I 0-4 I ID-41 I D-6 I I P881 EM-8815 I 0-6 I DRAWN IOATEJ N/A Cf-1!<.0. \OATEl N/A SUPV. lOA TE! N/A APPD. COATE! N/A AS-BUILT CLASS 1 PIPING AND INSTRUMENTATION DIAGRAM HIGH PRESSURE COOLANT TEST LINE FJcuRE 6.3 1 SHEET 4 LOCATION I A '-1 CLASS CALLAWAY PLANT UNION ELECTRIC COMPANY ST. LOUIS. MD M-22EM03 REV. 13 1 D c 8 A 8 7 6 5 4 ( 0 l H G F E D c B A V059 ( B-8 l M-22EP01 > 3'/ L"J TEST ... f---' ( F -6 l 3// CONN. TEST CONN. 8 7 6 5 4 s 88778 8877C AS 879A 88798 Il.ll_7J,\l I u1 8 I I I I -#-(AS D I.C:B 88798 AS 3 S.I. PUMP ) M-22EM01 tC-2 l MODERATE HIGH ENERGY ENERGY BCB BCA >----027-BCA-2" V010 MODERATE HIGH ENERGY ENERGY 2 1 REV. DATE DRAWN 4 D1o:s<3 SBR CHKD. SUPV. APPD. DLBr TJM N/A REDRAWN FOR CLARITY. REV. DATE DRAWN 5 D410<J SBR CHKD. SUPV. APPD. DLBr TJM N/A INCDRP. H 90-10078 REV. DATE DRAWN 6 1124'3 DLBr CHKD. SUPV. APPD. RLW TJM N/A I NCDRP. RFR-14.q32A REV. DATE DRAWN 7 0211'3 GDC CHKD. SUPV. APPD. RAM TJM N/A 1 NCDRP. RFR-14573A BCB BCA RHR PUMP .. TEST CONN. & DRA IN 121-BCB-3/411 V049 REV. DATE DRAWN 8 04309 MAL CHKD. SUPV. APPD. RLW JHK N/A IN CORP. DEC-1501. ) M-22EJ01 ( G-2 J rHv\ 8879A MODERATE HIGH ENERGY ENERGY BCB BCA >----V020 029-BCA-2" V054 NOTE 2 REV. DATE DRAWN 9 1 oo7':3 MAL CHKD. SUPV. APPD. EWM DJB N/A INCORP. MP 97-1010A (PARTIAL) & FCN-02. REV. DATE DRAWN 10 102'3'3 MAL CHKD. SUPV. APPD. EWM JAM N/A INCORP. MP 97-1010 FCN-04. REV. DATE DRAWN 11 041 eo, MAL CHKD. SUPV. APPD. RLW DLB N/A INCDRP. MP 97-1010 FCN-06. REV. DATE 12 120203 DRAWN CHKD. SUPV. MAL EWM SKC IN CORP. G S. I. PUMP ) M-22EM01 ( C-2 J MODERATE HIGH ENERGY ENERGY __ CONN. & DRAIN F RFR 213398. REV. DATE RHR PUMP ) M-22EJ01 ( G-2 J rHv\ 88798 BCB BCA >----88188 073-BCB-3/4" RHR PUMP > M-22EJ01 ( D-1) rHv\ 8879C N > MODERATE HIGH ENERGY ENERGY >----V030 MODERATE HIGH ENERGY ENERGY BCB BCA >----8818C 072-BCB-3/4" 028-BCA-6 II 031-BCA-2 030-BCA-6 AS PCV 8893 FC I ... L. __ ..... .__;::l 3/ II :J TEST boNN. V060 3 NOTE 2 V051 NOTE 2 V056 TEST & ORAl N NOTES: 1. DELETED. 13 052504 DRAWN CHKD. SUPV. MAL RLW SKC IN CORP. RFR 23496C. 2. PROVIDE 3/8" ID FLOW RESTRICTOR FOR INTERFACE BOUNDARY BETWEEN DUALITY GROUP CLASSIFICATION "A" AND "8" INSERVICE INSPECTION REQUIREMENTS NOT APPLICABLE.TO THE QUALITY GROUP CLASSIFICATION "6". 3. THIS DRAWING IS BASED ON WESTINGHOUSE DRAWING 1145E04 SHT. 2. 4. DELETED. 5. DELETED. 6. THE MOTOR CONTROL CENTER CIRCUIT BREAKER SHALL BE LOCKED FOR VALVES HV-8808A.B.C & D. UNDER NORMAL PLANT OPERATION IN THE POWER DISCONNECTED POSITION. 7. THE 211 DIAMETER ACCUMULATOR STANDPIPE. LOCATED BETWEEN THE UPPER AND LOWER TANK TAPS, SHOULD HAVE TRANSMITTER TAPS LOCATED 8 INCHES ABOVE AND BELOW THE NORMAL WATER LEVEL OF THE ACCUMULATOR TANK. 8. DELETED. 9. DELETED. 10. WELDS OF THE ACCUMULATOR TANKS ARE SUBJECT TO PSI/IS! EXAMINATION AS DELINEATED IN THE PSI/IS! WORK PLANS PROVJDED UNDER SPECIFICATION M-189. 11. VALVE V-046 IS BOUGHT UNDER SPECIFICATION J-603A AND IS VALVE CLASS ECB. SEE DWG. J-603A-00091. 12. PRESSURE CONTROLLER IS VALVE MOUNTED. REV. DATE 14 110904 DRAWN CHKD. SUPV. MAL RLW TWS INCORP. RFR-22941 A E REV. DATE D 15 103105 DRAWN CHKD, SUPV. RL W EWM MWH INCORPORATE MP 03-1014A REV. DATE 16 110105 DRAWN CHKD. SUPV. JHK MAL TWS INCORP. SEE NOTE 2 MP 04-1015. NOTE 2 NOTE 2 N2 SUPPLY M-22KH01 (A-7l 88790 j u18 INCORP. CAR 201001930 ACTION 7. REV. DATE 18 103014 DRAWN CHKD. SUPV. TJCRLW' MAL DME INCORP. MP 14-0023 I f--{3 0 " w L"R=_E v._.."o._. ----1 C I I N N ' ' I " I rHv\ 113-BCD-314" V124 119-BCB-3/41' 071-BCB-3/4 2 88790 88790 I.JCC ANY N ; V126 114-BCD-3/4" TO THIS DWG. MAY REQUIRE REVISION TO M--22AB04. M--22AB05. M--22AB06 AND/OR M--22AB07 AS-BUILT CLASS DRAWN IOATEJ N/A 1 CHKD. IDATEJ N/A PIPING AND INSTRUMENTATION DIAGRAM ACCUMULATOR SAFETY INJECT! SUPV. IDATEI N/A FSAR FIGURE 6.3-1 SHEET 5 APPD. IDATEJ LOCATION N/A CALLAWAY ENERGY CENTER 18 UNION ELECTRIC COMPANY REV. M-22EP01(0l ST. LOUIS. MD 1 B A 41A 416 41C < RCS HJT UG lfXP ' RCS IXl.O LEG UX>' < IRC ORC --e [ .. ,, [} 20 C'0 l Lc;--d Rr-IP Hf AT A ? l ]-----1

[X(}UNG(R I \JNTAiff.!FNl " ('1) f R{ SIClJAL HEAT R£>1()1/AL PlW e " [] " R[S![)JAL HUT RO<<JVAl PIJ.f'4 IRciCflc ,, I I *o ......_ LOY

  • IJ]

HOT LEG "-lOOP I '* J;,) (Refer to following notes) REV. CALLAWAY PLANT 6/91 FIGURE 6.3-2 (SHEET 1) EMERGENCY CORE COOLING SYSTEM PROCESS FLOW DIAGRAM OL-5 RCS COLD LEG LOOP1 RCS COLD LEG LOOP 2 RCS COLD LEG LOOP 3 RCS COLD LEG LOOP4 IRC ORC 3SA 63 I RC ORC eves SEAL WT HX 31 CVCS NOR CHG CVeSSEAL 000223-2 n 9./ eves vcr 2'lA RWST SH. 1 LOC #1 RWST SH. 1 --LOe u4--RHR HX 1 SH. 1 LOe tr2. Sl PUMPS SH. 1 LOC 1!'3 SEE NOTES ON FOLLOWING PAGES REVOL-8 11/95 CALLAWAY PLANT FIGURE 6.3-2 (SHEET 2) EMERGENCY CORE COOLING SYSTEM PROCESS FLOW DIAGRAM CALLAWAY - SP Rev. OL-1412/04NOTES TO FIGURE 6.3-2MODES OF OPERATIONMode A - InjectionThis mode presents the process conditions for the case of maximum safeguards, i.e., all pumps operating, following accumulator delivery. Two residual heat removal (RHR) pumps, two safety injection (SI) pumps, and two centrifugal charging (CC) pumps operate, taking suction from the RWST and deliv ering to the reactor through the cold leg connections. EJ-HV-8716A and B and EJ-HV-8809A and B are maintained open during operating modes 1-3 in order that either RHR pump is able to inject to all four RCS cold legs. Note that the flow from each pump is less than its maximum runout since the pump discharge piping is shared by the two pumps of each subsystem. Note also that the SI pump branch connections to the RHR lines are assu med very close to their discharge into the accumulator lines, thereby eliminating any incr ease in RHR branch line head loss due to the combined flows of the RHR and SI pumps. The RHR line resistance was assumed to be the minimum of the allowable bank present ed in the limit ing pressure drop and elevation head design requirements, allowing maximum RHR injection flow. Mode B - Cold Leg Recirculation This mode presents the proce ss conditions for the case of cold leg recirculation, assuming RHR pump A out of service and RHR pump B operating, SI pumps A and B operating, and CC pumps A and B operating. In this mode, the ECCS pumps operate in series, with only the RHR pump capable of taking suction from the containm ent sump. The recirculation coolant is then delivered by the RHR pump to both of the SI pumps, which deliver to t he reactor through their cold leg connections, and to both of the CC pumps. The CC pumps deliver to the reactor through their cold leg connections. T he RHR pump also delivers flow directly to the reactor through two cold legs since the RHR disc harge cross-connect valves are closed when making the transfer from in jection to recirculation. Mode C - Hot Leg RecirculationThis mode presents the proc ess conditions for the case of hot leg recirculation, assuming RHR pump B out of service and RHR pump A operating, CC pumps A and B operating, and SI pumps A and B operating. In this mode, the ECCS pumps again operate in series with only the RHR pump taking suction from the containment sump. The recirculated cool ant is then delivered by the RHR pump to both of the SI and to both of the CC pumps. The CC pumps continue to deliver to the reactor through their cold leg connections and the SI pumps deliver to the reactor through their ho t leg connections. Th e RHR pump also deliver s directly to the reactor through two ho t leg connections. CALLAWAY - SPNOTES TO FIGURE 6.3-2 (Sheet 2) Rev. OL-1412/04VALVE ALIGNMENT CHARTO = open C = closed

  • EJ-HV-8716A and B and EJ-HV-8809A and B are maintained open during operating modes 1-3 in order that either RHR pump is able to inject to all four RCS cold legs.** Assuming that only RHR pump A is operating.OperationalModesValve NO.A B C1(BN-HV-8806A)OCC1A(BN-HV-8806B)OCC 2 (BN-HV-8812B)OCC3(BN-HV-8812A)OCC4(EM-HV-8814A)OCC 5(EM-HV-8814B)OCC6(EM-HV-8821A)OOC7(EM-HV-8821B)OOC 8(EM-HV-8802A)CCO9(EM-HV-8802B)CCO10(EJ-HV-8701B)CCC 11(EJ-HV-8701A)CCC12(EJ-HV-8811B)COO13(EJ-HV-8811A)COO 14(EJ-FCV-0611)CCO15(EJ-FCV-0610)COC16(EJ-FCV-0619)CCC 17(EJ-FCV-0618)CCC18(EJ-HCV-0607)OOO19(EJ-HCV-0606)OOO 20(EJ-HV-8804B)COO21(EJ-HV-8804A)COO22(EJ-HV-8716B)O*CC**

23(EJ-HV-8716A)O*CO24(EJ-HV-8809B)O*OC25(EJ-HV-8840)CCO 26(EJ-HV-8809A)O*OC27(BG-LCV-0112B)CCC27A(BG-LCV-0112C)CCC 28(BN-LCV-0112D)OCC28A(BN-LCV-0112E)OCC29(EM-HV-8807A)COO 29A(EM-HV-8807B)COO30(BG-HV-8110)CCC30A(BG-HV-8111)CCC 31(BG-HV-8105)CCC 31A(BG-HV-8106)CCC32(EM-HV-8924)OOO35(EM-HV-8801A)OOO 35A(EM-HV-8801B)OOO36(EM-HV-8803A)OOO38(EM-HV-8803B)OOO 40(BN-HV-8813)OCC41A(EP-HV-8808A)OOO41B(EP-HV-8808B)OOO 41C(EP-HV-8808C)OOO41D(EP-HV-8808D)OOO42A(EM-HV-8923A)OOO 42B(EM-HV-8923B)OOO43(EM-HV-8835)OOC CALLAWAY - SP Rev. OL-14 12/04 NOTES TO FIGURE 6.3-2 (Sheet 3)MODE A-INJECTION PHASE(CONDITIONS FOLLOWING ACCUMULATOR DELIVERY)PressureTemperatureFlowVolumeLocationFluid(psig)(F)(gpm)(lb/sec)(gal) l RefuelingAtm tankl00 - -394,000 water 2"(a)l00l6,9052,333- 3"l3 psial00l6,025l2,2ll- 4"-l009,695l,338- 5"-l008,856l,222-6"ll psial004406l.5- 7"-l003,165437- 8">l0 psial0041958-9">l0 psial004406l.5-l0"l0 psial004406l.5-ll"ll65l004406l.5-l2"<25l00395-l3"l0 psial004406l.5-l4"ll65l004406l.5-l5" <25l00395-l6"-l0078ll-l7" l050l00802lll-l8" 73l00200.528-l9" Low l002,4l4.5333-pressure20" Low l002,4l4.5333-pressure2l Borated0l0000- Water 22 Borated0l0000 6358 (b) Water CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 4)Rev. OL-14 12/04PressureTemperatureFlowVolumeLocationFluid(psig)(F)(gpm)(lb/sec)(gal)23 Nitrogen0l0000500(ft 3)24 Reactor-l0000-coolant25 Refueling01004,428611- water 26"1381004,428611- 27"-1004,428611-28"471004,428611- 29"8610000-30"-10000-31"-1004,428611- 32"861004,428611 - 33"8610000-34 Reactor-10000-coolant35 Refueling01004,428611- water 36"1381004,428611-37"-1004,428611-38"471004,428611- 39"8610000- 40"-10000-41"-1004,428611- 42"861004,428611- 43 Recirc.Containment12000- coolantpressure44""12000-45""12000-CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 5)Rev. OL-14 12/04 NOTES: (a) At reference conditions, 100 F and 0 psig (b) Minimum allowable volume at normal operating conditions PressureTemperatureFlowVolumeLocationFluid(psig)(F)(gpm)(lb/sec)(gal)46 Refueling Low10000- water pressure47""10000-48""10000-49""10000-50""10000-51 RefuelingLow 10000- waterpressure52""10000-53">10 psia10041958-54"-10000-55"1,51910041958-56"-10000-57"10 psia10041958-58"10 psia10041958-59"1,51910041958-60"1,51610012417-61"~010012417-62"1,45610035749.3-63"-10071499-64"1,39610071499-65"1,008100178.524.666" 388100178.524.6 CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 6)Rev. OL-14 12/04 MODE B - COLD LEG RECIRCULATION (PUMP B OPERATING)PressureTemperatureFlowVolume Location Fluid(psig)(F)(gpm)(lb/sec)(gal) 1 RefuelingAtm tank100--<5000 water 2"-10000- 3"-10000-4"-10000- 5"-10000- 6 Recirc.-18600-coolant 7 Refueling-10000- water 8"-10000- 9 Recirc.~351861,278170- coolant10"~3518644059-11"~1,165186~44059-12 Refueling-10000- water 13 Recirc.~3518644059-coolant 14"~1,165186~44059-15 Refueling-10000- water 16"-10000-17 Recirc.1,050186880117-coolant 18"7318622029-19"Low pressure1861,761235-20"Low pressure18622029-CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 7)Rev. OL-14 12/04PressureTemperatureFlowVolume Location Fluid(psig)(F)(gpm)(lb/sec)(gal)21 Nitrogen0Ambient00-22 Nitrogen0Ambient00 6358 (b)23"0Ambient00500 (ft 3)24 Recirc.-21200-coolant25"~122124,800640-26"1132124,800640-27"-2124,800640-28"291863,082411-29"5618600-30"601861,718229-31"651864,800640-32"551863,082411-33"018600-34"-21200-35 Refueling-10000- water36"-10000-37"-10000-38"-10000-39"-10000-40"-10000-41"-10000 -42"-10000-43 Recirc. Containment212--~350,000 coolantpressure 44""2124,800640-45""21200-CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 8)Rev. OL-14 12/04 NOTES: (a) At reference conditions, 212 F and 0 psig (b) Minimum water volume at operating conditions. PressureTemperatureFlowVolume Location Fluid(psig)(F)(gpm)(lb/sec)(gal)46 Refueling Low pressure10000- water 47""10000-48""10000-49""10000-50""10000-51 Refueling Low pressure 10000- water52 Recirc.-18600- coolant 53"-18600 -54"-18600-55"~151918641956-56"~30186838111-57"~3018641956-58"~3018641956-59"~1,51918641956-60"1,51618612416-61"018612416-62"1,45618635747.6-63"-18671495-64 Recirc. 1,39618671495-coolant 65"1,008186178.524-66"388186178.524 CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 9)Rev. OL-14 12/04 MODE C - HOT LEG RECIRCULATION (PUMP A OPERATING)PressureTemperatureFlowVolume Location Fluid(psig)(F)(gpm)(lb/sec)(gal) 1 RefuelingAtm tank100--<5000 water 2"-10000- 3"-10000-4"-10000- 5"-10000- 6 Recirc.-18200-coolant 7 Refueling-10000- water 8 "-10000- 9 Recirc.~25<18666088- coolant<18666088-10"~25<18666088-11"~71510000-12 Refueling- water <18666088-13 Recirc.~25 coolant<18666088-14~71510000-15 Refueling- water 10000-16"-<18600-17 Recirc.0 coolant<18600-18"-18600-19"Low pressure18600-20"Low pressure<18666088-CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 10) Rev. OL-14 12/04PressureTemperatureFlowVolume Location Fluid(psig)(F)(gpm)(lb/sec)(gal)21 Nitrogen-Ambient00-22 Nitrogen0Ambient00 6358 (b)23"0Ambient00500(ft 3)24 Recirc.-21200-coolant25"-<21200-26"-<21200-27"-<21200-28"-<18600-29"-<18600-30"-<18600-31"-<18600-32"-<18600-33"50<1862,642352-34"-21200-35"122124,800640-36"1132124,800640-37"-2124,800640-38"-<18600-39"55<18600-40"60<1862,158288-41"65<1864,800640-42"55<1862,642352-43 Recirc.Containment212--- coolant pressure 44" "21200-45""2124,800640-46"7<1862,642352-47"5<1861,321176-CALLAWAY - SP NOTES TO FIGURE 6.3-2 (Sheet 11) Rev. OL-14 12/04 NOTES: (a) At reference conditions, 212 F and 0 psig. (b) Minimum water volume at operating conditions PressureTemperatureFlowVolume Location Fluid(psig)(F)(gpm)(lb/sec)(gal)48"645<18666088-49"-<1861,651220-50"645<18666088-51"-<18633044-52"-<18600-53"-<18600-54"-<1862,158288-55"~1,519<18641956-56"<35<1861,320180-57"~35<18641956-58"~35<18641956-59"~1,519<18641956-60"1,516<18612416-61"~0<18612416-62"1,456<18635747.6-63--<18671495-64 Recirc.1,396<18671495-coolant65"1,008<186178.524-66"388<186178.524-500 350 300 f-l.oJ l.oJ 1..&... 250 0 < l.oJ 200 :I: 150 100 50 0 0 1000 2000 3000 5000 FLOW (GPM) 13,597-60 20 l.o.J l.oJ 1..&... 10 --0 6000 Rev. Ol-0 6/86 CALLAWAY PLANT FIGURE 6.3*3 TYPICAL RESIDUAL HEAT REMOVAL PUMP PERFORMANCE CURVE 7000 6000 "'"" 5000 ...... -...._ -o 0 cv I 4000 -o <V 0.... 0 <V > 3000 <V 0 0 ...... 0 f--2000 1000 NOTE: 0 0 Min Vendor Composite PUMP CURVE Degraded 7% Max K K is the system resistance 100 200 300 CALLAWAY PLANT FIGURE 6.3-4 CENTRIFUGAL CHARGING PUMP PERFORMANCE CURVE INJECTION PHASE REV. OL-6 6/92 Max Vendor Composite PUMP/ K 400 478 500 550 Total Pump Flowrate (gpm) 600 4000 3000 ....... -..........., -o 0 Q) I -o Q.) n 2000 0 Q) > Cl) 0 0 -+-' 0 1-1000 0 -Min Vendor Composite PUMP CURVE Degraded 7% NOTE: K is the system resistance 0 200 400 CALLAWAY PLANT FIGURE 6.3-5 SAFETY INJECTION PUMP PERFORMANCE CURVE INJECTION PHASE REV. OL-6 6/92 Max Vendor Composite PUMP CURVE I I I I I t I I . ' ' 1 I I

  • I I I ' . I I I 0 o I I I I I I I I I I < t I I I I I I I ** I I Total Pump Flowrate (gpm) 800 15,093-5 ----STEM ----YOKE ---*...:-----LEAKOFF I NG BOX WELD /----BODY DISC Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 6.3-6 GATE VALVE ASSEMBLY RWST VOLUMES AND SET POINTS INFORMATION 419.434 GAL 15 415,524 GAL. EL. 2044'-10" __ _ r/IN.l 321N.) 406,921GAL.

EL.2043'-11" I_S __ 211N.l 15 400,664 GAL. EL. 2043'-3" ---. (5 13 IN.) 394,000 GAL. EL. (504 .481N.l EL. 2017' -10. 68" (208.6 SIN.) EL. 2007'-6" __ ( 84 in.) EL.2004'-11" (5 31N.l EL. 2003' -6" (3 61N.l EL. 2000'-6" 10 IN.) NOTES: -----OVERFLOW 1.0 PERCENT TV (1) 2.0 PERCENT TV (1) 1.5 PERCENT TV (1) 1.5 PERCENT TV (1) ----------------) INJECTION WATER FOR ECCS AND CONTAINMENT SPRAY= 235,597 GALLONS ---------------lPERCENTTVIiT 11----------- ___ ) ECCS TRANSFER ALLOWANCE 88,851 GALLONS fL--------------TPERCENfT'ii]JJ rr* CONTAINMENT SPRAY TRANSFER ALLOWANCE = 15,757 GALLONS ---------------TPERCENTTV(TI INSTRUMENT 13,261 GALLONS (4) 28,083 GALLONS - DEAD VOLUME ..,._ 24 IN. DIAMETER PIPE EL. 1992'-0" -----HEADER q "'-1) TANK VOLUME (TV} PERCENTS ARE BASED ON TOTAL STORED VOLUME TO OVERFLOW 10 IN. TO Sr/IN.l. -BOTTOM OF OVERFLOW PIPE _NOMINAL HIGH LEVEL ALARM SET POINT -NOMINAL NORMAL WATER LEVEL -NOMINAL LOW LEVEL ALARM SET POINT -ASSURED WATER VOLUME (TECHNICAL SPECIFICATION LIMIT) _NOMINAL LO*L0*1 ALARM SET POINT RHR PUMP AUTO SWITCHOVER -NOMINAL LO-L0-2 ALARM SET POINT CONTAINMENT SPRAY SW!TCHOVER -EMPTY ALARM -TOP OF PIPE _TANK BOTTOM 2) INSTRUMENT SPAN AND ACCURACY ARE BASED ON THE AVAILABLE VOLUME FROM THE LOWER INSTRUMENT TAP ZERO REFERENCE TO THE OVERFLOW 124 IN. TO 537 IN.l. CALLAWAY PLANT 3) TANK VOLUME IGAL.!FT.I can be found in calculation M-FL-18. 4) Instrument allowance includes level required to preclude air ingestion due to vortexing. See Calculation BN-24. FIGURE 6.3-7 RWST LEVELS AND VOLUMES REV. 13 9/07 14---SILICONE FOAM TO DEPTH OF WALL OR SLAB. CALLAWAY PLANT Rev. OL-0 6/86 FIGURE 6.4-1 SHEET I TYPICAL DETAIL SEALING OF PIPING PE.NETRATION THROUGH CONT. RM. FL. OR WALL 1--W UN :::::J-0<1) (j) w a: .? /YBV SIZE TO MA.TCH DUCT OR DAMPER FLANGE (TYP.) 4. ' 'o ,_. 4 . 0' ' .* .'4 , p.,' ' .* .. *. 4 .. 4.'. , .. .o"'* *o-.. . ()-. :.Ll *, 0 .0* ... *, CONT. ALONG LENGTH OF TRACK WELD ENDS FOR INLET OR OUTLET NECTIONS SEE DETAIL A. EXISTING SLEEVE CALLAWAY PLANT FIGURE 6.4-1 SHEET 2 Rev. OL-0 6/86 TYPICAL DETAIL SEALING OF DUCTWORK PENET. THROUGH CONT. RM. FL. OR WALL CABLE TRAY SEPARATE CABLES AND FILL SLEEVE WITH SILICONE FOAM CABLE CONCRETE FLOOR SLAB OR WALL CALLAWAY PLANT Rev. Ol-0 6/86 FIGURE 6.4-1 SHEET 3 TYPICAL DETAIL SEA LING OF CABLE TRAY PENET. THROUGH CONT. RM. FL. OR WALL 10 9 8 7 6 0 0 0 0 0 5 0 4 3 2 2 _1 Cl) a. w a: :::> 1 w a: a. 0 0 5 0 5 0 ft .. 8 7 6 5 4 3 2. 5 2 1. 5 1 1 1.5 2 2.5 3 I I If 7 I v I I I I I{ 1/ v I II J I if I J I If J 1/ I I i I j Rev. OL-0 6/86 CALLAWAY PLANT FIGURE 6.5-1 CAPACITY CURVE 15215-1 C-304SS-6.3 WHIRLJET NOZZLE 4 5 6 7 8 9 10 15.2 20 25 30 40 50 60 70 80 100 CAPACITY GPM >-u z w ::J 0 w a: u.. w > f-<( ...J w a: 1700 1600 1500 11 CALLAWAY PLANT FIGURE 6.5-2 SPATIAL DROPLET SIZE DISTRIBUTION OF 15215-1C-304SS-6.3 WHIRLJET SPRAY NOZZLE Rev. OL-0 6/86 100 200 300 400 500 600 700 BOO 900 100011001200130014001500 1'600 1700 rBOO 1900 200021 2200 2300 PARTICLE SIZE DIAMETER IN MICRONS 3000 (I) z 0 a: 2500 :::E a: w 1-w :::E 2000 0 w :::E ::l ...J 0 > 1500 ii) (I) <t ! z c 1000 w :::E w N (I) w ...J 500 1-a: <t D. 10 PRESSURE-PSI 90 100 CALLAWAY PLANT FIGURE 6.5-3 PARTICLE SIZE vs. PRESSURE 15215-1C-304-8S-6.3 WHIRLJET SPRAY NOZZLE. Rev. Ol-0 6/86 0.9 rr: 0 u <t u.. 0.8 z 0 u :::> 0 UJ 0.7 rr: UJ c.. 0 _J UJ > z UJ 0.6 >-<t rr: c.. (/) 0.5 70 100 150 200 250 POST LOCA CONTAINMENT SATURATION TEMPERATURE (F) CALLAWAY PLANT FIGURE 6.5-4 SPRAY ENVELOPE REDUCTION FACTOR 300 Rev. OL-0 6/86 CALLAWAY -SP FIGURE 6.5-5 HAS BEEN DELETED Rev. OL-8 11/95 s o 4 5 40 35 i 3 0 f 2 5 = t! ... 20 1 5 1 0 5 0 1 1 0 1 00 1 000 T i me (second.s) 1 0000 1 00000 1 000000 CALLAWAY PLANT FIGURE 6.2.1-1 DOUBLE.CNDED PUMP SUCTION GUILLOTINE BREAK MINIM U M SAFEGUARDS CONTAINMENT PRESSURE VS. TIME REV. 17 10/13 s o 4 5 40 3 5 -3 0 i 2 5 * * * .. 2 0 1 5 10 5 0 ,.. ;, I ""' I I I I I v 1 1 0 limoblecond .s) ""' V\ \ ' ......... 1 000 1 0000 1 00000 CPJ...LAWAY PLANT FIGURE 6.2.1-2 D O UBLE-E N DED PUMP SUCTION GU I LLOT I NE BREAK M AXIMUM SAFEGUARDS CONTA I N M E NT PR E SSUR E VS. TI M E REV. 1 7 1 0/1 3 1 000000 0 5 1 0 1 5 20 2 5 T i m e (s econd.s) CM..LAWAY PLANT FIGURE6.2.1-3 DQI B &ellm HOT LEG GULLOT INE BREA.K COHT Alf611Bfl' fiiiESS\IlE VS. TIME REV. 1 7 1 0/1 3 3 0 0.00 1 O.Ql 0.1 1 1 0 1 00 1 000 1 0000 1 00000 T i m e (second.*) CALLAWAY PLANT FIOUREU.1 ... DOUBLE-ENDED PUMP SUCTION QUILLO'TI'lE BREAK IINIIIUIIIIAFEGUARJ)I CONTAINIIENTTC .. at lURE '118. TM:: REV. 17 10/13 1 000000 0 L------------------------------------------------------------------------- 0.00 1 O.ol 0.1 1 10 1 00 1 000 1 0000 1 00000 T i m e (second.s) CM..LAWAY PLANT FIGURE 1..2.14 DOUBU:'.a.IDED PUIIIP SUCTION CWLL011NE BREAK IIIWCJIIUIII SAFEGUARDS CONTAINMEMT TEMPERnJRE VB. liME REV. 17 10/13 1 000000 300 .--------------------------------------------------------- E 2 5 0 f---/--------=,.,...=.--

f = i!

r 1 5 0 1 00 s o 0 L---------------------------------------------------------

0 5 10 1 5 20 2 5 T i m e (s erond s) C M..LAWAY PLANT FIGURE 6.2.1.e DOUBLE-ENDED HDT LEO OUIU.O"nNE BREAK CDNTAIUIENT TEMPERn.IRE V&. nME REV. 17 10113 3 0 300 2 5 0 / 200 v -t. f = i! 1 5 0 8. e :: 1 00 s o 0 1 1 0 1 00 .......... 1 000 T i m e (s econd.s) '\ 1 0000 1 00000 CPJ...LAWAY PLAN T -1 000000 FIGURE 8.2.1-7 111111 .. 1111 8AFEGUARD8 CONTAINIIIEMT au* TEIIPERTURE Y8. 1111E REV. 17 10113 3 00 f = i! 1 5 0 2 5 0 / 200 v 8. e :: 1 00 s o 0 1 1 0 1 00 1 000 T i m e (second.s) 1 0000 1 00000 C/JtJ..LAWAY PLANT FIGURE 6.2.1-8 1 000000 DOUBLE.CNDED PUMP SUCTION GUILLOTINE BREAK MAXIMUM SAFEGUARDS CONTAINMENT SUMP TEMPERTURE VS. TIME REV.17 10/13 CALLAWAY -SP Figure 6.2.1-9 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-10 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-11 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-12 Deleted REV. 5/06 1 10 1 00 1 000 Tim e (.second.s) 1 0000 1 00000 CALLAWAY PLANT FIGURE 6.2.1-13 1 000000 Double-Ended Pump Suction Oulllatlne Break Minimum Safetu.,.. Condenalng HNt Tral'llfer Coeft'lc:tent va. 11me RE.V. 1t 1QI13 1 6 0 1 40 ...

  • N 1 20 f -... ..,.. i 1 00 = .SI " 8 0 8 -.2 c 6 0 I! ,_ -" 40 CJ = 20 0 1 1 0 1 00 1 000 T i m e (sec) 1 0000 1 00000 CALLAWAY PLANT FI G UR E 6.2.1-14 1 000000 Doub l e.£nded Pump Suction Guillotine Break M aximum Safeguards Condensing H eat Tr a nsfer Coeffic i ent vs. T i me REV. 111M3 1 6 000 1 4000 1 2000 " ..;. 1 0000 " i! 0 e &l 8 000 6 000 " ::c 4000 2000 0 0 s o I I I I I CALLAWAY PLANT I F I GURE 6.2.1*15 CONTA.INMENT AIR COOLER DUTY CURVE / HEAT REMOVAL RATE V S. TEMPERATURE REY. 13 10113 1 00 1 5 0 200 2 5 0 300 3 5 0 400 4 5 0 T e mp (F) 5 2 IQ-1 FISSION PRODUCT DECAY 5 U-238 CAPTURE DECAY 2 I0-3 2 2 NOTES: I. APPROPRIATE UHCERTA I HTI ES ARE ALREADY I HCLUDED. 2. UP TO 103 SECONDS IHFIHITE OPERATION DATA COINCIDES WITH THE DATA SHOWN. RESIDUAL FISSIONS FOR 4% SHUTDOWN 5 I 0 1 2 5 I 02 2 5 I 0 3 2 5 I 0 4 Rev. OL-o 6/86 TIME AFTER SHUTDOWN {SECONDS)

CALLAWAY PLANT FIGURE 6.2.1-16 REACTOR DECAY POWER SHEET 1 I0-1 5 2 0:::: lo-2 UJ ]t 0 a... t-5 <( t-t-<( ]t -2 Cl) t-t-<( ]t 10-3 5 2 2 5 2 NOTES: I. APPROPRIATE UNCERTAINTIES ARE ALREADY INCLUDED. 5 10 6 2 5 10 7 2 TIME AFTER SHUTDOWN (SECONDS) 5 2 CALLAWAY PLANT FIGURE 6.2.1-16 5 10 9 Rev. OL-0 6/86 REACTOR DECAY POWER SHEET 2 CALLAWAY -SP Figure 6.2.1-17 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-18 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-19 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-20 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-21 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-22 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-23 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-24 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-25 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-26 Deleted REV. 5/06 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 CALLAWAY -SP Figures 6.2.1-27 thru 6.2.1 42 have been deleted. Rev. 0'" ... -2 6/88 -N_..,. ... _----------, . -... 1> .* . t.v: .. ' .,.. V*.l>. , 0 .. '..,,, . "' ": \':\ .. ________ 0 -NODE NUMBER -------NODE BOUNDARY .. -- @ I LEVEL 1 EL. 2001'-4" TO 2018'-4" I I I @ 0 . . . **A*. ... :.: /).* v ... . . **A -------CALLAWAY PLANT FIGURE 6.2.1-43 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6186 NODALIZATION SCHEME* LEVEL 1

b' ';

0 -:.&1--A* .'

    • l>.:i ;..-

@ CONTAINMENT LEVEL 1 0 EL. 2001'-4" TO 2018'-4" NODE NUMBER ----NODE BOUNDARY CALLAWAY PLANT FIGURE 6.2.1-44 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 NODALIZATION SCHEME-LEVEL 1

  • * ."}1_,--<J' -(;. :<?----------

0 \ \ \ \ @ ------@ LEVEL 2 EL. 2018'-4" TO 2025'-0" I I I I --+ --I I I I I I I ' !')* -I :q J -._ / . ;.. @ @ 0 @ ---1---CALLAWAY PLANT FIGURE 6.2.1-45 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 NODALIZATION SCHEME* LEVEL 2

0

.. )J
a:p.

@CONTAINMENT LEVEL 2 EL. 2018'-4" TO 2025'-0" CALLAWAY PLANT FIGURE 6.2.1-46 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 NODALIZATION SCHEME-LEVEL 2 CALLAWAY -SP Figure 6.2.1-47 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-48 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-49 Deleted REV. 5/06 CALLAWAY -SP Figure 6.2.1-50 Deleted REV. 5/06 LEVEL 4 EL. 2045'-6" TO 2060'-0" CALLAWAY PLANT FIGURE 62.1-51 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 NODALIZATION SCHEME-LEVEL 4 @ " ...

  • 0 @ @ LEVEL 5 EL. 2060'-0" TO 2068'-8" CALLAWAY PLANT FIGURE 6.2.1-52 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. Ol-0 6/86 NODALIZATION SCHEME-LEVEL 5 LEVEL 5 EL. 2060'-0" TO 2068'*8" CALLAWAY PLANT FIGURE 6.2.1-53 STEAM GENERATOR LOOP COMPARTMENT ANAL YSJS Rev. OL-0 6/86 NODALIZATION SCHEME-LEVEL 5 LEVEL 6 EL. 2068'-8" TO 2086'..0 3/4" (EL. 2068'8" TO 2090'4" IN PRESSURIZER COMPT.) CALLAWAY PLANT FIGURE 6.2.1-54 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 NODALIZATION SCHEME-LEVEL 6 LEVEL 6 EL. 2068'-8" TO 2086'-0 3/4" CALLAWAY PLANT FIGURE 6.2.1-55 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 NODALIZATION SCHEME -LEVEL 6

<t u; 0... LlJ a: :::> (/) (/) LlJ a: 0... LlJ f-:::> ...J 0 (/) CD <( 45.00 r---------------------------------------------. 41.5 @ .005 sec 40.00 35.00 30.00 24.9 25.00 20.00 15.00 26.9 @ .060 CALLAWAY PLANT FIGURE 6.2.1-56 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS COLD LEG BREAK ABS. PRESSURES NEAR THE BREAK COMPARTMENTS Rev. OL-0 6/86 .00 .1 0 .20 .30 .40 .50 .60 .70 .80 .90 1.00 TIME (SECONDS)

  • 10-1 en a. UJ a: ::J en (/) UJ a: a. UJ 1-::J ...J 0 (/) co <{

26.00 24.00 22.00 20.00 18.00 23.9 @ .065SEC 21.4 @ .080 SEC CALLAWAY PLANT FIGURE 6.2.1-57 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS ABS. PRESSURES NEAR THE BREAK Rev. OL-0 6/86 14.00L_ ______ J_ ______ .00 ,10 .20 .30 .40 .50 .60 .70 .80 .90 1.00 TIME (SECONDS)

  • 10*1 M 0 .....
  • 1.1.. Ill ....J w (.) a: 0 1.1..

160.00 120.00 80.00 40.00 .00 -40.00 CALLAWAY PLANT FIGURE 6.2.1-58 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS COLD LEG BREAK VERTICAL AND E-W AND N-S FORCES ONSG Rev. OL-0 "---VERTICAL FORCE /N"S HORIZONTAL FORCE -73.0 125.4 @ .095 sec -80.00 '-------...l--------l...-------I.--------L-----...L_------L------L-------L-----..J.._---...J .00 .10 .20 .30 .40 .50 .60 .70 .80 .90 1.00 TIME (SEC) *10*1 280.00 CALLAWAY PLANT FIGURE 6.2.1-59 240.00 STEAM GENERATOR LOOP 225.6 @ .005 SEC COMPARTMENT ANALYSIS LOADS ON THE RCP 236 SQ. IN. COLD LEG BREAK 200.00 Rev. OL-0 (") 6/86 0

  • 9 a.. u 160.00 E-W HORIZONTAL FORCE a: LlJ J: 1-z .o (f) 120.00 LlJ u a: 0 1.1.. 80.00 40.00 VERTICAL FORCE .00

.00 .1 0 .20 .30 .40 .50 .60 .70 .80 .90 1.00 TIME (SECOND) *10*1 PRESSURIZER Fx=1.114 x 1051bf Fy=1.653 x 1 o5 lbf FT=1.993 X 105 lbf STEAM GENERATOR Fy CALLAWAY PLANT FIGURE 6.2.1-60 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 236 IN2COLD LEG BREAK DIRECTION OF PEAK HORIZONTAL FORCES ON REACTOR COOLANT PUMP AND STEAM GENERATOR Rev. OL-0 6/86 Fx=7.141 x 10 4 1bt Fy=5.026 X 10 4 lbf FT=8. 733 X 10 4 lbf REACTOR PRESSURE VESSEL (f) a.. w 0: ::J (f) (f) w 0: a.. 24.0 20.0 16.0 12.0 8.00 4.00 L..::=.COMPARTMENT 2 0 .01 .02 .03 LCOMPARTMENT 3 .04 CALLAWAY PLANT FIGURE 6.2.1-61 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 436 IN2 PUMP SUCTION LINE BREAK ABSOLUTE PRESSURES NEAR THE BREAK .05 .06 .07 .08 .09 TIME (SEC) .1 0 l!l 0 X u.. a::l ....J L.U u a: 0 u.. 0.0 -0.4 -0.6 -0.8 CALLAWAY PLANT FIGURE 6.2.1-62 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 436 IN2 PUMP SUCTION LINE BREAK N-S COMPONENT OF HORIZONTAL FORCE ON SG "'-----0.9435 X 10 5 lbf @ 0.055 SEC Rev. Ol-0 6/86 -l.OL_ ________ _L ________ _J __________ ________ _L ________ _....J __________ 0.0 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 TIME (SEC) "<!" 0 X u.. co ...J L!.J (.) ex: 0 u.. I 4.0 3.0 2.0 1.0 0.0 5.1 X 104 lbf @ 0.018 SEC CALLAWAY PLANT FIGURE 6.2.1-63 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 436JN2 PUMP SUCTION LINE BREAK E-W COMPONENT OF HORIZONTAL FORCE ON SG Rev. OL-0 6/86 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 TIME (SEC) x 1 o*2 L!') 0 X u. a:l _J L.U (.) a: 0 u. 2.10 r-------------------------------------, 1.80 1.596 X 105 ibf @0.09 SEC 1.50 1.20 .900 .600 .300 0 0 .01 .02 .03 .04 .05 .06 TIME (SEC) .07 .08 .09 .10 CALLAWAY PLANT FIGURE 6.2.1-64 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 436 IN2 PUMP SUCTION LINE BREAK VERTICAL FORCE ON SG LO 0 X 1..1... Cl) ....J UJ (.) a: 0 u.. 0.0 -0.4 -1.2 -1.8 L__ ___ _L ____ _J _____ .J._ ____ __.!.. ______ .J...._ ___ _L ___ ___J _____ ...J._ ___ __L ____ __J 0.0 .01 .02 .03 .04 .05 TIME (SEC) .06 .07 .06 .09 CALLAWAY PLANT .10 Rev. Ol-0 6/86 FIGURE 6.2.1-65 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 436 IN2 PUMP SUCTION LINE BREAK N-S COMPONENT OF HORIZONTAL FORCE ON RCP LC'l 0 ... X u.. co _J lU (.) a: 0 u.. 2.10..-------------------------------------. TIME (SEC) CALLAWAY PLANT FIGURE 6.2.1-66 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 436 IN2 PUMP SUCTION LINE BREAK E-W COMPONENT OF HORIZONTAL FORCE ON RCP .10 Rev. OL-0 6/86 1.!) 0 -X u.. Ill ...J UJ (.) 0:: 0 u.. 1.40.--------------------------------------------------------------------, 1.20 1.00 .800 o.62o6 x 1 o 5 tbf @ 0.025 SEC .600 .400 .200 0.0 .01 .02 .03 .04 .05 .06 .07 .08 .09 .10 TIME (SEC) CALLAWAY PLANT Rev. Ol-0 6/86 FIGURE 6.2.1-67 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 436 IN2 PUMP SUCTION LINE BREAK VERTICAL FORCE ON RCP Fx=1.417 x 105 lbf Fy=0.831 x 105 lbf FT= 1.643 X 105 lbf PRESSURIZER CALLAWAY PLANT Rev. OL-0 6/86 FIGURE 6.2.1-68 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 436 IN2 PUMP SUCTION LINE BREAK DIRECTION OF PEAK HORIZONTAL FORCES ON REACTOR COOLANT PUMP AND STEAM GENERATOR Fx=9.435 x 10 4 lbt Fy=3.112 X 10 4 lbf FT=9.935 X 10 4 lbf REACTOR PRESSURE VESSEL (/) Q.. UJ a: :') (/) (/) UJ a: Q.. 35.0 COMPARTMENT 8 32.0 /COMPARTMENT 5 I 29.0 26.0 / t COMPARTMENT 6 23.0 COMPARTMENT 9 20.0 17.0 14.0 .__ __ _j_ __ __l. ___ ..L_ __ _..l.. ___ ..!..._ __ __ ___J ___ -__ __ 0 .01 .02 .03 .04 .05 .06 .07 .08 TIME (SEC) CALLAWAY PLANT FIGURE 6.2.1-69 .09 .10 Rev. OL-0 6/86 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 763 IN 2 HOT LEG BREAK ABSOLUTE PRESSURE NEAR THE BREAK L!) 0 X u. co ..J L.U u a: 0 u. 1.40 r----------------------------------------------------------------------------------. .900 .400 -.100 -.600 -1.10 -1.60 E-W 1.027 X 105 lbf @0.020 SEC -1.496 X 10 5 lbf N-S @ 0.040 SEC. -2.10 0 .01 .02 .03 .04 .05 .06 TIME (SEC) .07 .08 .09 CALLAWAY PLANT FIGURE 6.2.1-70 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 7631N2 HOT LEG BREAK HORIZONTAL FORCES ON SG Rev. OL-0 6/86 .10 2.80 2.40 2.00 1.0 0 X 1.60 u.. Ill _J w u 1.20 a: 0 u.. .800 .04 .05 TIME (SEC) 2.262 X 105 lbf @0.090 SEC .06 .07 .08 CALLAWAY PLANT FIGURE 6.2.1-71 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 763 IN2 HOT LEG BREAK VERTICAL FORCE ON SG .09 Rev. OL-0 6/86 .10 2.80 2.40 2.00 1.0 0 .... X 1.60 u. II) _j w 1.20 u a:: 0 u. .80 .40 2.313 X 10 5 lbf @0.010 SEC .01 .02 .03 .04 .05 TIME (SEC) .06 .07 .08 .09 .10 CALLAWAY PLANT Rev. Ol-0 6/86 FIGURE 6.2.1-72 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 763 IN2 HOT LEG BREAK N-S COMPONENT OF HORIZONTAL FORCE ON RCP .2ar--------------------------------------------------, X u. co _J UJ .14 0.0 -1.4 () -2.8 a: 0 u. -.42 -.56 -0.5473 X 1051bf @0.040 SEC TIME (SEC) CALLAWAY PLANT FIGURE 6.2.1-73 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 763 IN 2 HOT LEG BREAK E-vil COMPONENT OF HORIZONTAL FORCE ON RCP Rev. OL-0 6/86 1.40,..---------------------------------- ...... 1.0 0 1.20 1.00 X .800 u.. al ...J UJ .600 0 u.. .400 .200 .01 0.8612 X 10 5 lbf @0.020 SEC .02 .03 .04 .05 TIME (SEC) .06 .07 .08 CALLAWAY PLANT FIGURE 6.2.1-74 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS 763 IN2 HOT LEG BREAK VERTICAL FORCE ON RCP .09 Rev. OL-0 6/86 .10

Fx=2.313 x 1051bt Fy=0.54 7 X 10 5 lbf FT=2.327 x 105 lbf Fy CALLAWAY PLANT FIGURE 6.2.1-75 STEAM GENERATOR LOOP COMPARTMENT ANALYSIS Rev. OL-0 6/86 763 IN2 HOT LEG BREAK DIRECTION OF PEAK HORIZONTAL FORCES ON REACTOR COOLANT PUMP AND STEAM GENERATOR Fx=1.495 x 10 5 lbf Fy=0.044 x 105 lbf FT=1.496 x 105 lbf L REACTOR PRESSURE VESSEL FSAR Figure 6.2.1-76 is withheld perRIS 2015-17 CALLAWAY PLANT FIGURE 6.2.1-76 PRESSURIZER COMPARTMENT ANALYSIS NODALIZATION SCHEME* ELEVATION VIEW FSAR Figure 6.2.1-76 is withheld perRIS 2015-17 @) .. . ... 0 @ G) ... .._ ... 4 . J 0 ... G) 0

  • 4 "'
  • 0 ... 0 G) G) .. ... ... FOR NODE VOLUMES AND VENT PATH AREAS, FLOW COEFFICENTS AND 1/a's, REFER TO TABLES 6.2.1-26 AND 6.2.1-27 CALLAWAY PLANT FIGURE 6.2.1-77 Rev. Ol-0 6/86 FLOW DIAGRAM PRESSURIZER COMPARTMENT ANALYSIS

26.0 24.0 CALLAWAY PLANT FIGURE 62.1-78 PRESSURIZER COMPARTMENT ANALYSIS PRESSURIZER SURGE LINE BREAK ABSOLUTE PRESSURES BELOW THE PRESSURIZER Rev. Ol-0 6/86 <( 22.0 CJ) a.. UJ a: CJ) CJ) UJ a: a.. 20.0 NODE1 18.0 0.0 0.1 0.2 0.3 0.4 0.5 TIME (SEC) s o 4 5 40 35 ../' 1 30 f 2 5 = :;: ,!: 20 / / I I I I IJ 1 5 10 5 0 0 1 00 200 / / 300 400 Time (.second.s) --5 00 600 700 CM..LAWAY PLANT F IGURE 6.2.1-79 MAIN STEAM U NE BREAK ANALYSIS CASE24 CONTA INM ENT PRESSURE (PSIG) REV. 1 7 10 113 8 00 -... 3 5 0 300 2 5 0 200 f = i! 8. e 1 s o :: 1 00 s o 0 I 0 1 00 200 300 400 T i m e (s econd.s) 5 00 6 00 700 CAJ...LAWAY PLANT FIGURE 6.2.1-80 t.WN STEAM UNE BREAK ANALYSIS CASE24 CONTAINMENT TEMPERATURE (DEaAEES F) REV. 17 10/13 8 00 .... / 3 5 30 1 5 1 0 5 0 0 1 00 200 3 00 400 T i m e (second s) 5 00 6 00 7 00 CALLAWA Y PLANT FIGURE 6.2.1-61 MAIN STEAM LINE BREAK ANALYSIS CASE 1 CONTAINMENT PRESSURE (PSIG) REV. 18 1 0/13 8 00 400 r------------------------------------------------------------- 35 0 300 \ -2 5 0 t !! = .------------------------------------------------------------- & E " 100 s o 0 0 1 C o0 200 300 400 T i m e (seoond.s) 5 00 6 00 700 C/lL.LAWAY PLANT FIGURE 6.2.1-&2 MAIN STEAM LINE BREAKANALVS:S CASE1 CONTAINMENT TEI.4PER'I'URE (DEGREES F) REV.18 10/13 1.40 E+02 1.20 E+02 1.00 E+02 = .SI " N S.OO E+O l -" ,2.., I! 1i; 6.00 E+0 1 ,__ -" CJ = 4.00 E+0 1 2.00 E+0 1 O.OO E+OO I / -( 0 1 00 200 " / 1 " / I 300 400 T i m e (second.s) 5 00 6 00 700 PLANT FIGURE 6.2.1-83 MAIN STEAM UNE BREAK ANALYSIS CASE24 8 00 UCHIDA CONDENSING HE'AT TRANSFER COEFfiCIENT REV: 17 10113 1.20 E+02 1.00 E+02 c S.OO E+O l .i CJN 1: 6.00 E+0 1 -" 4.00 E+O l 2.00 E+0 1 O.OO E+OO ( I' 0 1 00 200 ....___ 300 400 Time (seconds) 5 00 600 "" "" 700 CPJ..LAWAY PLANT FIGURE 6.2.1-84 MAIN S'T'EAM UNE BREAK ANALYSIS CASE1 8 00 UCHIDA CONDENSING HEAT TRANSFER COEI'FIClENT REV. 18 10/13 310.00 ,----------------------------------------------, 280.00 250.00 u::-220.00 w a: :::> <( a: w a.. ::2: 190.00 160.00 130.00 CONTAINMENT PENETRATIONS MOTOR OPERATED VALVES ELECTRONIC DIFFERENTIAL PRESSURE TRANSMITTER CALLAWAY PLANT FIGURE 6.2.1-85 REV. OL-15 5/06 EQUIPMENT SURFACE TEMPERATURE VS. TIME FOR REPRESENTATIVE MATERIALS INSIDE CONTAINMENT FOLLOWING MSLB 0.84 F"f2 @ 75% POWER FOR OLD STEAM GENERATORS 100.00 L------'-------L----...L.------L-.------------......._ ___ _...._ ____ L..-___ .......__ ___ 0.00 40.00 80.00 120.00 160.00 200.00 TIME (SECONDS) 240.00 280.00 320.00 360.00 400.00 251 7\---------------, 5 CAJ..LAWAY PLANT FIGIIEU.1 ... CONTAJMIIIIM' IIACIG'ABII'IE IBL8 IC..oO.t) HGHT-lllfflllll .. II --$ TCEL W A t l ----COM CI U I( 'NA tl ' II I I I I I I f I I I I I I I I I ' ' ' --- 50 1 fo 30 0 lime (s) CAJ..LAWAY PLANT RE!f.1S 1008 8 7 6 5 4 3 2 ( 0) XJ 01 ,------s CIS-A NOTE 3----. I CD e---1 r Ca17 L __ l e---1 i 0 '-' I CLOSES 0 '-' I I V I "' -+--,--,..,--- 'lr \S/ V091 aJ '-' I v *II> 3/4 II 1 12 "Tc[---1/ G) ss--, 1-v 1 31 \1 L.C. \S/ m V027 CONTAINMENT SPRAY PUMP IPEN01AI r--1-----1@5----8 TE 26 * ---8 0 TEST V090 _i: CSAS I )OPENS I I [!] I 0 '-' I TEST CONN. & DRAIN von l [ I __.--45-HCB-3" I 18 NOZZLES I 123 NOZZLES! 41-HCB-6" 0 __--47-HCB-3" ;-I 12 NOZZLES I r 48-HCB-4" I I NOZZLE I 47-HCB-4" I 20 NOZZLES I I 1/2" r-I I NOZZLE I 0 \S/ ao 45-HCB-6" H 6 V Z-6 V ';' ' V I 17 NOZZLES I 1" 1/2" I PB9I ------I 3 NOZZLES I 03-GCB-1 o" 40-HCB-1 0" ._ 0 j" ------.-----_.1-----o-----,--L' _ _.l _____ Q r :::!:: 1" 41-HCB-10" 8"X10" .._,_ __--44-HCB-6" ;-I 21 NOZZLES I I __.--46-HCB-4" I 18 NOZZLES I I __.--49-HCB-2 1/2" L: I v---:ors-Hcs-3// V voza CTMT. RECIRC. 01 HCB 127 "-,...... -T d:'4 ._ '------1" 1 _ji--.,........J '7 V029 ;::, 1 voo4 I --L.....J Gcs.I,.HcB 1" vo13 4t'-' r V030' F 5 E V031 1\ rV 076 1\ aJ , 38-HCB-6" V092 L;:> n.'-" /S'--'-\---cf--' II> L *C. /s\ ';' V078 " 1 ;DRAIN 8 I 5 NOZZLES I r ) >-1\ * ... r 1-1 01-HCB-14" "j_ J lB.§] I \......-,---' '--' FT I 5 -e 017 I __--44-HCB-4" I 26 NOZZLES I I _.----46-HCB-3" I 16 NOZZLES I R.W.S.T. ) M 22BNOI I A 3 I GUARD PIPE b.... J, 1 XJ rn 01 4 1 I V132 _'i'..J..._L.:.Is\s:....;. __ ,.,. L. c. 62-HCB-1 " S L

  • c
  • 02 HCB-12" XJ 0 I I 0 '-' I A ... V133 TEST CONNECTION I AND DRAIN L. C. 0 '-' I NOTE ,------s CIS-A I I [4J e---1 r Go17 L __ l e---1 : 0 CLOSES 0 '-' I '7 V003 ** I V I "' 64 -HCB-3 II V005 L. 0. 60-HCB-1" PT 4 ;vo67 I I SEN01A I 00 I rn '-' "' I TEST CONNECT I ON SYSTEM TEST AND FLUSHING CONNECTION I __.--44-HCB-3" I 1 6 NOZZLES I F1 I TYPICAL OF 1971 SPRAY NOZZLES 56-GCB-3" SPRAY \1::)017 ADDITIVE EDUCTOR o V095 ro I rn '-' I I "' c-b 3" B. W. V124 04-GCB-3" OL_ __ .. ._ ______

57-GCB-3" *rn V126H H V125 g .Is\ . . *-0-..,.. ---¥---' a" OU I CK CONNECTS "' I '-' SPRAY ADDITIVE EDUCTOR CSAS STARTS '1' 14-GCB-4" I SEN01B I 17-GCD-4" < M-22GL02 f, I 9

  • 0 __( CSAS I C 3 I '-, I 0-9 TE u rn '7 [4] ',, I 28 \S/"' V025 [4] I PEN01 B I 0 0 "' .,. I 0 '-' C> I c-lr V024 L. C. 1"... ..... f--..4-J DRAIN V11D 15-GCD-4" 3/4" "' "'" J VENT .... V109 TEST CONN. & DRAIN 15-GCD-4 II ' 08 DRAIN FO 1 I SEN021 TEST TO R.W.S.T. ) M 22BNOI ) IC-BI V 118 NOZZLES! ,I I __.--51-HCB-4" I 23 NOZZLES I NOTES 1. DELETED 2. DELETED. 3. SEAL WELDED CAP TO BE INSTALLED ON I,, INCH TEST CONNECTION AFTER HYOROTEST HAS BEEN PERFORMED.
4. THE SPRAY ADDITIVE TANK TENOI WAS PERMANENTLY REMOVED FROM SERVICE AND IS SHOWN ON M-23EN06.
5. CAM-LOK STYLE COUPLINGS MAY BE INSTALLED IN LIEU OF PIPE CAPS AT THESE LOCATIONS.

IREF. RFR-19641AI

6. DELETED.

V 112 NOZZLES! eft---y--L-- 8-(v)--CONTAINMENT 0 g TEST I i! "'tVI23L---,-,-...l SPRAY PUMP 08-GCB-3" 017 \S/ rn V081 ------51-HCB-6" I __.--53-HCB-4" 61 )

  • 1 5-GCB-4" V089 HV Z-12 V ';' i" _,y-I 17 NOZZLES I I 20 NOZZLES I r 54-HCB-4" I 1 NOZZLE I 43-HCB-6"-

I __--55-HCB-2 112" I I NOZZLE I 65-HCB-3 II 'G-01 8( -----l g I, 12 I P66l I I, . PI "'o ,.-1-...1.-...1.--, .. " .. I L. .. ------r----_J-----[::r-----,,-.L 1_...1..----Dc-----t-- .. r 8 7:..;-:;;G:;;C,;;B.:;-.:..:1 0"-j\ __ B.L.oill:!lf-H;:;: 2"-B '"j7 --'""TT'" \{:\/ v '><D it I _.----5 0-H c B-5 " ___.--52 -H c B -4 " L. I 21 NOZZLES I I 18 NOZZLES I 1 12 "Tc[---1, G: "'_.hwc-sc-r-34 1 6 3 I 4" ) m L. C. '-' :r: v--,080-HCB-31{

  • r h TEN02B t'i 4 ..

L: P-CTMT. RECIRC. SUMP ) M 22EJ01 I C 71 GUARD R.W.S.T. M 22BN01 PIPE} h. r [E2] I I '\......-,---' t..... ! (:135' rn '-' I 0 0 I 1\ 0 L.C. /S\ 53-HCB-1" TEST E; J\ lfV 136 AND DRAIN I /S\ L.C. 0 u I 06 HCB 12" 12"X14" _:., * ,_ V009 05-HCB 14" \ V034 V080 1\ m L.C. /S\ I ' Jl. 1' Y L_s:'_',_+-_ ' r '1 3/4 ,, r R 0 I....-'_---50-HCB-4" I __--52-HCB-3" cL ;6 I ';' .,-126 NOZZLES! 116 NOZZLES! 61-HCB-1" Qe San ' ro I rn '-' "' I 00 I aJ '-' I I c-"' c-o c-*VI27 H"n ,;-E 1\ Vl29, 30 V128 "', /s\ TEST CONNECTION SYSTEM TEST AND FLUSHING CONNECTION r __--50-HCB-3" V I 1 6 NOZZLES I fJ I TYPICAL OF 1971 SPRAY NOZZLES SEN02 I I __.--55-HCB-2 I /2" I 5 NOZZLES I 1 REV. DATE DRAWN 2 9/11/91 RLW CHKD. SUPV. APPD. DLBr TJM N/A REDRAWN FOR CLARITY REV. DATE DRAWN 3 040495 HLP CHKD. SUPV. APPD. SKC AMR N/ A INCORP. CMP 92-1053 REV. DATE DRAWN 4 1o119s JHK CHKD. SUPV. APPD. EWM AMR N/A INCORP. CMP 92-1053 FCN-05. H REV. DATE DRAWN J---5 os2o9e RLW CHKD. SUPV. APPD. DJB JAM N/A INCORP. MP89-1035. REV. DATE DRAWN 6 042699 DLBr CHKD. SUPV. APPD. SKC JHC N/A INCORP. RFR-19641A REV. DATE 7 010604 DRAWN CHKD. SUPV. MAL EWM TWS INCORP. CARS 20030756 & RFR-22936A I PARTIAL I. REV. DATE 8 012704 DRAWN CHKD. SUPV. JHK RLW TWS INCORP. RFR-22936A. REV. DATE 9 II 09 04 DRAWN CHKD. SUPV. MAL RLW TWS INCORP. RFR-22941A REV. DATE I 0 022008 DRAWN CHKD. SUPV. MAL T JC LMR IN CORP. CHANGE REQUEST MP 05-1001 P01. REV. DATE 11 022708 DRAWN CHKD.I SUPV. MAL TJC I TWS IN CORP. CHANGE REQUEST MP 05-1 001 P02 . REV. DATE 12 031808 DRAWN CHKD. SUPV. RLW T JC SKC INCORPORATE MP 05-1 001 P03 REV. DATE 13 032508 DRAWN CHKD. SUPV. EWM RLW LMR INCORPORATE MP 05-1001 FCN01 FINAL REV. DATE 14 102508 DRAWN CHKD.I SUPV. MAL T J C I LMR INCORP. CHANGE REQUEST MP 08-0016 POl REV. DATE 15 102808 DRAWN CHKD.I SUPV. EWM RLW I LMR G F E INCORPORATE I MP 08-0016 FCN01 FINAL REV. DATE 16 010611 DRAWN CHKD-:-fSUPV. RLW EWM ITWS INCORPORATE CR CAR 10-000309: CAR 201009292. D c B I C-2 I *IL--... ----¥-::....l "' I AS-BUILT CLASS 1 3;8" QUICK CONNECTS '-' 8 7 6 5 4 3 2 DRAWN WATE I N/A CHKD. WA TE J N/A PIPING AND INSTRUMENTATION DIAGRAM CONTAINMENT SPRAY SYSTEM SUPV. WA TE J N/A APPD. (OATEJ LOCATION N/A UNION ELECTRIC COMPANY ST. LOUIS. MD FSAR FIGURE 6.2.2-1 CLASS CALLAWAY PLANT REV. 16 M-22EN01(Q) 1 A

4 * . . . * . . CALLAWAY PLANT FIGURE 6.2.2-3 SHEET 1 RECIRCULATION SUMP STRAINER ARRANGEMENT REV. 10 10/07 MA*SUMP" PLAN VIEW CALLAWAY PLANT FIGURE 6.2.2-3 SHEET2 RECIRCULATION SUMP STRAINER ARRANGEMENT REV. 1 10/07 1---+-SUCTION LINE _.........,._ TO PUMP SEE PlAN VIEW FOR SIZE AND lOCATION CALLAWAY PLANT FIGURE 6.2.2-3 SHEET 3 RECIRCULATION SUMP STRAINER ARRANGEMENT REV. 1 10/07 CALLAWAY PLANT FIGURE 3.2.2-3 SHEET 4 RECIRCULATION SUMP STRAINER ARRANGEMENT REV. 1 10/07 CALLAWAY -SP FIGURE 6.2.2-3 SHEET 5 THROUGH 1 0 DELETED REV. 1 10/07 180' 270° 90° f BUILDING PLAN CALLAWAY PLANT FIGURE 6.2.2-4 CSS AREA COVERAGE AT OPERATING DECK OF CONTAINMENT Rev. OL-0 6/86 8 0 0 ..-X 1-w w u. 2 6 Q w :t: ...J 1-0 1-4 2 0 BHP 90 80 1-70 u a: w 0.. >-' 60 u 2 w u u. u. w 40 20 10 HEAD -NPSHR a: w 3: 0 0.. w (I) a: 0 :t: w :.::: a: co 1-w w 20 LL 2 :t: (I) 10 0 Rev. OL-0 6/86 0 2 3 GALLONS PER MINUTE x 1000 4 CALLAWAY PLANT FIGURE 6.2.2-5 CSS PUMP PERFORMANCE CURVE I HAr CHANNE£6 (TYP) U ELEVATION NO SCALE FU.SIBL* L/NK (rYR) HIN4e c;AcSKGT-\ HEAVY OUTY :SPON($G IIPUBBI!FP \ AlP FLOW GAtSKI:T-SECTION "A-A" NO SCALE HEAVY 01.17Y CALLAWAY PLANT Rev. OL-0 6/86 FIGURE 6.2.2-6 TYPICAL DETAIL OF FUSIBLE LINK PLATES ON CONTAINMENT AIR COOLERS FSAR Figure 6.2.2-7 is withheld per RIS 2015-17 FSAR Figure 6.2.2-7 is withheld perRIS 2015-17 CALLAWAY PLANT FIGURE 6.2.2-7 EXPECTED INTERNAL AIR FLOW PATTERNS IN CONTAINMENT POST-LOCA Rev. OL-0 6/86

!J f STEAM LINE ......: /.: /. I. I I I WATER LEVEL I tvo...--... ....... .-....---"""'i I ----BARRIER I I I I I I I I I I I I I FEED LINE I I I r::---J lrr--11 1 1 II II II II: 1\ I

  • 1 1 1 1 I L ___ --------____ j L __ j L__

LINE ---TcoNTAINMENT BOUNDARY CALLAWAY PLANT FIGURE 6.2.4-2 REV. OL-15 5/06 STEAM GENERATOR AND ASSOCIATED SYSTEMS AS A BARRIER TO THE RELEASE OF RADIOACTIVITY POST LOCA H -G -F -E D -c -B -A 8 ( 0 ) 7 [1] @---,---020 I I I ,---------J [1J I *

  • HIS IB 065A 065A 6 s ,--------l I TE
  • I lA f---l C1,c

GS01A I 1Cjf---l l_ _______ j GS277A GS065AA SGS01A CONTROLLER*

[1] ELECTRIC <THERMAL l HYDROGEN RECOMBINER 5 s GS01B GS277B GS065BA SGS01B 4 ,-------, TE

  • I 1-----i 2 9 A I
  • I*
  • 1----i 2T9EB TE
  • 0656 l---i\29C I --c _______ j -----------------------

3 0 ---T-=@ I 020 CONTROLLER* 0 ELECTRIC <THERMAL) HYDROGEN RECOMBINER I I I I I I I '--------, 01* [1] I II\-( CIS-A CLOSES HV 20 0 I II\-( CIS-A CLOSES @@ 0658 0658 HIS 29B 065B 0658 SPECTACLE GD = FLANGE TO AUX. BLDG. ESF FILTERS CON T A I N MEN T '1----------1 1 'f---1---===--,--'2'-'5'---'-H:.:;B:.:;B_-.;:6_" -1 1 , " 2 6 -H B D -6 " G L-3 4 1 -H B D -4 " ',. > "' "' *1--"-"--""-"--11--CJ--------- -7 M-2 2 G L 03 AIR ' NC r NC -HBB L"J 1 II TEST CONN. IE-31 s 0 HYDROGEN PURGE SUBSYSTEM 0 0 [1] [1] r---- r---- I I I I I I I I I FROM ---II\-CIS-A CIS-A ---!?>--FROM I I FROM ---II\-CIS-A CIS-A ---!?>--FROM I I HIS-41( y (CLOSES CLOSESS y )HIS-41 I I HIS-40( y (CLOSES CLOSESS y )HIS-40 I H3VB el IE;;) 1;;31 Le IP-9911 1"x 3/," *

  • 1"x3/4"--............

1" s.w. ___ __ HIS SEE 1j u SAMPLE VESSEL ITGS01BI

  • 00 "8 7g 8 41 NOTE 6 'f l,;l /s l,;l :;; NOTE 6 S 7 ;;'; ,> II 011/ ___ , TO -

"'-V -§2 011 TO §2 , §2 ' 0' , HV-3 ' HIS 1 HV-12 r;_ 0 . I * :; /.'(II // I F-61 L"J r----14 011 L"J I E-41 :;

  • L"J ;"; z M 1" TEST I I I I 1" TEST M z TEST oo * ;;; // '-CONN. CIS-A y FROM I I FROM -<V-CIS-A CONN. / '-, ;;;
  • CONN. TO / '-, TO CLOSES) I )HIS-41 I I HIS-40( I (CLOSES TO 1 1 '-TO i" w HV-5

---S HV-4 IE-71 I I IE-31 HV-14 (---'-----( HV-13 * '<"' 0 IE -6 I I l,;l HV I ZS ZS I HV l,;l l,;l IE -4 I IE -4 I 0 4 L2.J L_4j 5 S 5 14 S 14 L2.J L_4j NOTE 4 0 w FROM AT-10 0 Yozo (0-7) 19

  • I e A-1 o ____ 1 0 w ,-1 -1 D-31 1 1 1 1 1 1 HCB HCB 1 1 1 1 1 1 I A 19 SEE NOTE 5 1---I 020 : 1----l_ ___ l 20
  • i I Y"ccL 1 oss-ts I <f b I Y"ccLioss-ts ccL 1 o 5 s-EAss-<{>

I 1 1 .V10 ... 0 ** ...LZIIIL'41-T _-_nl I le el I I le nl, _-_ _JT:ll.-11

    • I J l_ L2J CONTAINMENT Z-37 _L s HV zs .L Z-36 Z-31 _L zs HV HV zs .L Z-32 CONTAINMENT L'J J ( I I 10 I ATMOSPHERE lp.:g;)lll 36 s 36 31 s 31 I [P= I 32 s 32 ATMOSPHERE I 19 I MONITOR IRE-311 MONITOR IRE-321 .... VI 03 I I M 2 2 GT 01 :* _/ * * 'l* *
  • R OPMO ISN\Mj LiE__/ J--"3.;:5

__________ --*=---fv F * * * ' * \_*

  • M 2 2 G TO 1 I I HYDROGEN I D-21 HC8-4'

/ -../ HCB L-o-HC_B I D-1 I HYDROGEN 03-HCB-4' ..._ ./ SEE NOTE 5 r-29-HCB-1" 15-HC8-3/4"

['] A ;I 'i ""A :1 ,"i [l> ! :' :lA j ' :lA [i] :

_/'" TEST 1 1 1

020 CONN. CONN. CONN. CONN . .. -b.._

_j SEE NOTE 8 __d-.. I [1J 0 [1J 0 I G z L ___ [a;\ --s To oA-1o 2 ___ j ANALYZER "A" I Yo2c I Yo2o Yo2c IC-3! 020 I C-31 I I I I I I I I CONTAINMENT ATMOSPHERE MONITOR IRE-31 I ) M 22GT01 ' C D 1 I I Y" CCLIOSS-EAS CCLIOSs-ls s-<{> I i Y" s-<{> I H CONTAINMENT I II II I ATMOSPHERE P-56 TO P-97 MONITOR IRE-321 07-HCB-3/4" ___, 34-HCB-1" r--34-HCB-1" 30-HC8-1" r--19-HCB-3/4" / < L"J 1" TEST CONN. / CONTAINMENT FC --, FC FC. r FC HCB HCB ( D 1 I 4f L:.J "' "' 0 > 1" TEST CONN. SEE NOTE 5 L:.J 1"TEST CONN. "' "' 0 > L"J -!F 1" TEST CONN. 0 0 [1] [1] r---- r---- I I I I I I I I I FROM ---II\-CIS-A CIS-A ---!?>--FROM I I FROM ---II\-CIS-A CIS-A ---!?>--FROM I I HIS-43( y (CLOSES CLOSES) y SHIS-43 I I HIS-42( y (CLOSES CLOSESS y SHIS-42 I 0 G z m => >-Hsv_ HVI >'c' \314" IP-5611 TO 18 18 IIP-971 . 7 ' 32-HCB-3/4" ., 8-HCB-1" 20-HCB-1" 26-HCB-3/4" S.W. CONTAINMENT .... t FC --, FC HCB 1\ ATMOSPHERE , HCB FC r FC , 8 32-HCB-3/4" \_SEE NOTE 5 _/1--_ 28-HCB-3/4" __', 7 L"J "' 0 > 1" TEST CONN. 4f L"J N "' 0 > 1 II TEST CONN. 0 I SEE NOTE 6 I I TO HV-8 (--0 --(TO HV-9 IB-61 --v-IB-61 6 5 [1] I SEE NOTE 6 I I TO HV-18 (--0 --(TO HV-17 18-SI --v-IB-41 t 4 L"J 1" TEST CONN. L"J 1" TEST CONN. 3 HCB S. W. CAP 2 s.w. CAP SAMPLE VESSEL ITGS01AI 2 1 NOTES: REV. DATE DRAWN 1 03179 GDC CHKD. SUPV. APPD. DJB TJM N/A REDRAWN FOR CLARITY. REV. DATE DRAWN 2 03269 OJ B CHKD. SUPV. APPD. RBF T JM N/A IN CORP. DEC-994 REV. DATE DRAWN 3 06249 OJ B CHKD. SUPV. APPD. RBF T JM N/A IN CORP. OEC-1042 REV. DATE DRAWN 4 osno OJ B CHKD. SUPV. APPD. RAM AMR N/ A IN CORP. RFR-20001H REV. DATE DRAWN 5 os210 RLW CHKD. SUPV. APPD. EWM AMR N/A INCORP. MP 01-1002 FCN-02 CPARTIALI REV. DATE DRAWN 6 08270 RLW CHKD. SUPV. APPD. EWM TWS N/A INCORP. MP 01-1002 FCN-02 I PARTIAL! REV. DATE 7 100202 DRAWN CHKD. SUPV. RLW EWM TWS INCORP. MP 01-1002 FCN-02 CPARTIALI REV. DATE 8 041905 DRAWN CHKD. SUPV. MAL RLW TWS INCORP. RFR 22941A REV. DATE 9 021010 DRAWN CHKD. SUPV. MAL TJC TWS INCORP. CAR 200909829. REV. DATE 10 102810 DRAWN CHKD. SUPV. MAL T JC TWS INCORP. CAR 201008998.

1. THE HYDROGEN PURGE MAKEUP SUPPLY AIR IS SUPPLED BY THE COMPRESSED AIR SYS AND IS SHOWN ON P&ID M-22KA01.
2. THE HYDROGEN MIXING FANS ARE SHOWN ON THE CONTAINMENT COOLING SYS P&ID M-22GN01.
3. THIS CONNECTION WILL BE LOCATED AS CLOSE AS POSSIBLE TO THE CONTAINMENT ISOLATION VALVE. 4. FOR HYDROGEN ANALYZERS AND HEAT TRACING. SEE VENDOR P&ID PRINT NO. J-359-00016.
5. THREADED END FOR USE DURING VALVE LEAK TESTING. 6. FOUR ISOLATION SWITCHES ARE PROVIDED ON THE MAIN CONTROL BOARD FOR POWER LOCKOUT. SWITCH LOCKOUTS ARE AS INDICATED.
7. CONTROL PANELS GS065A & GS065B ARE SUPPLIED BY HYDROGEN ANALYZER VENDOR IJ-3591. HYDROGEN RECOM8INER PANEL INSERTS GS065AA & GS065BA ARE SUPPLIED BY THE HYDROGEN RECOM81NER VENDOR IM-6371. CONTROL PANEL INSERTS ARE MOUNTED ON HYDROGEN ANALYZER PANELS GS065A & GS065B. 8. THESE LOCATIONS MAY BE USED AS GRAB SAMPLE POINTS; SEE HTP-ZZ-03006.

AS-BUILT CLASS DRAWN (DATE I 1 N/A CHKD. (OATEJ N/A PIPING AND INSTRUMENTATION DIAGRAM CONTAINMENT HYDROGEN CONTROL SYSTEM SUPV. (DATEJ N/A FSAR FIGURE 6.2.5-1 APPD. (OATEJ LOCATION N/A UNION ELECTRIC COMPANY ST. LOUIS. MD CALLAWAY PLANT M-22GS01 1 CLASS REV. 1 0 ( 0 ) H G F E 1+-D c B A 0 0.2 0.4 LIMIT 0.6 (MILLIONS) 0.8 1 1.2 ZINC AREA AT 4 MILS THICK (FT 2) CALLAWAY PLANT FIGURE 6.2.5-2 REV OL-8 11/95 MAXIMUM ALLOWABLE QUANTITIES OF ALUMINUM AND ZINC IN CONTAINMENT 4 -3.5 0 -z 0 3 z 2.5 w (.) z 0 (.) 2 w :E :;:, ..J 1.5 0 > z w 1 (!) 0 a: 0.5 :X: 0 0 20 40 nME AFTER LOCA (DAYS) CALLAWAY PLANT REV OL-3 FIGURE 6.2.5-3 6/89 HYDROGEN VOLUME CONCENTRATION IN CONTAINMENT WITH ONE RECOMBINER OPERATING AT 1 DAY 60 kl..e31/:i-7/18 1.2 -a: :J: 1.1 -tJ) w _, 0 1 ::E rA 0.9 _, -0.8 z 0.7 0 0.6 w z w 0.5 0 z w 0 0.4 0 a: c 0.3 > :J: 0.2 0 20 40 TIME AFTER LOCA (DAYS) CALLAWAY PLANT REV OL-3 FIGURE 6.2.5-4 6/89 HYDROGEN GENERATION IN CONTAINMENT 60 1Cl-t3113-7188 700 -en 600 w _. 0 500 _. -z 0 400 :::;, :IE 300 :::;, u u c( z 200 w (!) 0 a: c 100 > :::1: 0 0 Zr-H20 20 40 nME AFTER LOCA (DAYS) CALLAWAY PLANT REV OL-3 FIGURE 6.2.5-5 6/89 HYDROGEN ACCUMULATION IN CONTAINMENT 60 -":::!e 0 z 0 z w 0 z 0 0 w :E :;:) ..I 0 > z w C) 0 a: c > X 10 9 8 7 6 5 4 3 2 1 0 0 LOWER FLAMMABLE LIMIT CONTROL LIMIT 20 40 TIME AFTER LOCA (DAYS) CALLAWAY PLANT FIGURE 6.2.5-6 REV 6Jgg 3 HYDROGEN VOLUME CONCENTRATION IN CONTAINMENT ASSUMING NO PREVENTIVE ACTION TAKEN 60 ICL-e31/5-7118 3.5 -0 3 -2 0 C( 2.5 t= 2 w 0 2 2 0 0 w :E 1.5 :J _, 0 > 2 , w (!) 0 a: 0.5 0 > ::r: 0 0 20 40 nME AFTER LOCA (DAYS) CALLAWAY PLANT REV OL-3 FIGURE 6.2.5-7 6/89 HYDROGEN VOLUME CONCENTRATION IN CONTAINMENT WITH PURGING AFTER 5.1 DAYS 60 ltl-131.1&-7/18}}

Retrieved from "https://kanterella.com/w/index.php?title=ML18207A560&oldid=1347077"